Worked hard for a TV repair person to write the book. TV repair for door staff in remote areas of small repair shops, parts missing areas, electronic enthusiasts, vocational school students and other reading. Many methods and techniques of the book will make you suddenly see the light ... .... .
Tag: Jianhua TV door model reader. .
Jianhua electronic published in 19: 00: 46 | Read more | Comments 0 | Edit | Share 0..
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This page is updated daily, new product launch, please feel free to pay attention! QQ: 569995238 (full) or 798206061. .
Tag: LCD LCD TTL LCD accessories LVDS driver board high pressure plate Zhang Jianhua..
Jianhua Electronic Posted at 06:46:52 | Read | Comments 0 | Edit | Share 0. .
> VMOS FET.
VMOS FET (VMOSFET) VMOS short pipe or power FET, its wholly-called V-groove MOS FET. It is the second after the newly developed MOSFET high power switching devices. It not only inherited the MOS FET high input impedance (≥ 108W), drive current is small (about 0. .1 ΜA or so), but also high pressure (up to a voltage of 1200V), the work of current large (1. .5 A ~ 100A), high output power (1 ~ 250W), the linear transconductance is good, fast switching speed, and other fine features.。.
As we all know, the traditional MOS FET gate, source and drain significantly less at the same level of the chip, the operating current flow is essentially along the horizontal direction. VMOS tube is different, can be seen from the bottom left of its two main structural features: first, metal gate with V-groove structure; second, with a vertical conductivity. The drain leads from the back of the chip, so the ID is not the level of flow along the chip, but the weight of doped N + region (source S) of departure, after a P-channel into the lightly doped N-drift region, vertically down to reach the final drain D. Shown in the arrow direction of the current, because the flow cross-sectional area increases, so by a large current.。 > 。.
>. .
Domestic production VMOS FET's major manufacturers have 877 plants, four plants of semiconductor devices, Tianjin, Hangzhou electron tube plant, typical products, VMPT2 VN672 VN401, etc. Table 1 lists the six VMOS's main argument. One of the top-right of appearance such as IRFPC50 as shown in the figure below.
VMOS FET detection methods. .
The multimeter dial to R × 1k files were used to measure the resistance between the three pins. If the word found its feet in a foot showed infinite resistance, and after switching table pen is still infinite, then prove that this pin to G pole, and two other pins because it is insulated. .
(2) judgment-source S, drain D..
Figure 1 shows the source - there is a PN junction between the drain, the PN junction under forward and backward differences in resistance can be identified with the D pole S pole. Measured by two strokes resistance switching table, which resistance is low (typically a few thousand to ten thousand Euro in Europe) is a positive resistance, then the black pen is S pole, the red pen then D pole. .
(3) measuring leakage-source on-State resistance RDS (on).
The GS a very short selection of the R × 1 meter files, the black pen then S pole, the red pen then D pole, resistance should be a few dozen in Europe to Europe. .
Because the test conditions are different, the measured values for RDS (on) than the manual gives the typical values are higher. For example with 500-multimeter R× 1 stall measured a IRFPC50-VMOS, RDS (on) = 3. .2W, greater than 0. .58W (typical values).
(4). Check the transconductance. .
The multimeter in R×1k (or R× 100), received the red table pen, black table S extremely pen very received D, handheld screwdriver to touch the table grid, needle deflection, the deflection should be significantly larger, pipe, the higher the transconductance.
Note:. .
(1) VMOS also divided into N-channel and P-channel, but the vast majority of products belonging to N Groove tube. For P channel tube, measurement should swap the position of the table amount.
(2) there are a few VMOS tube between the GS and the protection diode, the detection of 1,2 entries no longer apply. .
(4) is now commercially available VNF series (N channel) products, produced by the United States Supertex ultra-high frequency power MOSFET, the maximum frequency fp = 120MHz, IDSM = 1A, PDM = 30W, common-source small-signal low-frequency transconductance gm = 2000μS. For high-speed switching circuits and broadcast communications equipment. .
(5) when using VMOS must be appropriate after the heat sink. For example, the VNF306 tubes retrofit 140 × 140 × 4 (mm) of heat sink, 30W maximum power in order to achieve > seven, field effect tube with a transistor comparison > (1) FET is voltage control components, while the transistor is current control components. In the only allow from signal source to take less current circumstances, should use field effect tube; in signal voltage is low, and allow access from the signal source more current terms, should use transistors.
(2) FET is the use of majority carrier conduction, so called unipolar device, the transistor is that a majority carrier, also used minority carrier conduction. Known as bipolar devices. .
(4) FET in a very small current and low voltage conditions, work, and its manufacturing process can be easily integrated into many a piece of silicon FET, so large-scale integrated circuit FET has been widely used. .
Tag:LCD VMOS 。.
Jianhua Electronic Posted at 19:45:19 | Read | Comments 0 | Edit | Share 0. .
> 1. . Plastic Rectifier. .
> Serial number.
> Models. .
>IF 。.
> VRRM. .
> Trr. .
> Shape.
> A. .
>V 。.
> V. .
>μs 。.
> 1. .
>1A1-1A7 。.
> 1A. .
> 1. .1. .
> R-1. .
>2 。.
> 1N4001-1N4007. .
>1A 。.
> 50-1000V. .
>. .
>DO-41 。.
> 3. .
> 1. .5 A. .
> 1. .1. .
> DO-15. .
>4 。.
> 2A01-2A07. .
> 50-1000V. .
> 1. .0.
>. .
>DO-15 。.
> 5. .
>1N5400-1N5408 。.
> 3A. .
>50-1000V 。.
> 0. .95. .
> DO-201AD. .
>6 。.
> 6A05-6A10. .
>6A 。.
> 50-1000V. .
> 0. .95.
>. .
>R-6 。.
> 7. .
>TS750-TS758 。.
> 6A. .
>50-800V 。.
> 1. .25. .
>。.
> R-6. .
>。.
> 8. .
> 1A-6A. .
>50-1000V 。.
> 1. .0. .
>。.
>. .
> 2CZ81-2CZ87. .
> 50-1000V. .
> 1. .0.
>. .
>DO-41 。.
> 10. .
>2CP21-2CP29 。.
> 0. .3 A. .
>100-1000V 。.
> 1. .0. .
>。.
> DO-41. .
> 11.
> 2DZ14-2DZ15. .
> 200-1000V. .
> 1. .0.
>. .
>DO-41 。.
> 12. .
>2DP3-2DP5 。.
> 0. .3 A-1A. .
>200-1000V 。.
> 1. .0. .
>。.
> DO-41. .
>。.
> 13. .
>BYW27 。.
> 1A. .
>200-1300V 。.
> 1. .0. .
>。.
> DO-41. .
> 14.
> DR202-DR210. .
>2A 。.
> 200-1000V. .
> 1. .0.
>. .
>DO-15 。.
> 15. .
>BY251-BY254 。.
> 3A. .
>200-800V 。.
> 1. .1. .
>。.
> DO-201AD. .
> 16.
> BY550-200 ~ 1000. .
>5A 。.
> 200-1000V. .
> 1. .1.
>. .
>R-5 。.
> 17. .
>PX10A02-PX10A13 。.
> 10A. .
>200-1300V 。.
> 1. .1. .
>。.
> PX. .
> 18.
> PX12A02-PX12A13. .
>12A 。.
> 200-1300V. .
> 1. .1.
>. .
>PX 。.
> 19. .
>PX15A02-PX15A13 。.
> 15A. .
>200-1300V 。.
> 1. .1. .
>。.
> PX. .
>。.
> 20. .
>ERA15-02~13 。.
> 1A. .
>200-1300V 。.
> 1. .0. .
>。.
> R-1. .
> 21.
> ERB12-02 ~ 13. .
>1A 。.
> 200-1300V. .
> 1. .0.
>. .
>DO-15 。.
> 22. .
>ERC05-02~13 。.
> 1. .2 A. .
>200-1300V 。.
> 1. .0. .
>。.
> DO-15. .
> 23.
> ERC04-02 ~ 13. .
>1。.5A 。.
> 200-1300V. .
> 1. .0.
>. .
>DO-15 。.
> 24. .
>ERD03-02~13 。.
> 3A. .
>200-1300V 。.
> 1. .0. .
>。.
> DO-201AD. .
>。.
> 25. .
> 1A-1. .2 A. .
>200-1000V 。.
> 0. .97. .
>。.
> DO-15. .
> 26.
> RM1Z-RM1C. .
> 200-1000V. .
> 0. .95.
>. .
>DO-15 。.
> 27. .
>RM2Z-RM2C 。.
> 1. .2 A. .
>200-1000V 。.
> 0. .95. .
>。.
> DO-15. .
> 28.
> RM11Z-RM11C. .
>1。.5A 。.
> 200-1000V. .
> 0. .95.
>. .
>DO-15 。.
> 29. .
>RM3Z-RM3C 。.
> 2. .5 A. .
>200-1000V 。.
> 0. .97. .
>。.
> DO-201AD. .
> RM4Z-RM4C. .
>3A 。.
> 200-1000V. .
> 0. .97.
>. .
>DO-201AD 。.
> 3. . UHF plastic diode. .
>1 。.
> ERA34-10. .
>0。.1A 。.
> 1000V. .
>3 。.
> 0. .15. .
>R-1 。.
> 2. .
>ERA32-02~10 。.
> 1A. .
>200-1000V 。.
> 1. .3. .
> 0. .1.
> DO-41. .
>3 。.
> ERB32-02 ~ 10. .
>1。.2A 。.
> 200-1000V. .
> 1. .5.
> 0. .1. .
>DO-15 。.
> 4. .
>ERC30-02~10 。.
> 1. .5 A. .
>200-1000V 。.
> 1. .3. .
> 0. .1.
> DO-15. .
>5 。.
> ERC32-02 ~ 10. .
>3A 。.
> 200-1000V. .
> 1. .5.
> 0. .1. .
>DO-201AD 。.
>. .
>6 。.
> EG01E-EG01C. .
>0。.5A 。.
> 200-1000V. .
>2 。.
> 0. .1. .
>DO-41 。.
> 7. .
>EG1E-EG1C 。.
> 1A. .
>200-1000V 。.
> 1. .8. .
> 0. .1.
> DO-41. .
>8 。.
> RG10Z-RG10C. .
>1。.2A 。.
> 200-1000V. .
>2 。.
> 0. .1. .
>DO-15 。.
> 9. .
>RG2Z-RG2C 。.
> 1. .5 A. .
>200-1000V 。.
> 1. .8. .
> 0. .1.
> DO-15. .
> 10.
> RG4Z-RG4C. .
>3A 。.
> 200-1000V. .
>2 。.
> 0. .1. .
>D0-201AD 。.
> 4. . Ultrafast Recovery Plastic Diode. .
> Serial number.
> Models. .
>IF 。.
> VRRM. .
>VF 。.
> Trr. .
> Shape.
> A. .
>V 。.
> V. .
>ns 。.
>. .
> (1) ultrafast recovery plastic diode.
> 1. .
>SF10-SF50 。.
> 1-5A. .
>50-1000V 。.
> 0. .95-1. .7. .
> 35.
>. .
>2 。.
> SF80-SF160. .
>8-16A 。.
> 50-600V. .
> 0. .95-1. .4.
> 35. .
>TO-220 。.
> 3. .
>EGP10-EGP50 。.
> 1-5A. .
>50-200V 。.
> 1. .1. .
> 35.
>. .
>4 。.
> ERC38 ~ 04-ERC38 ~ 10. .
>1A 。.
> 400-1000V. .
> 1. .7.
> 50. .
>DO-41 。.
> 5. .
>RL2-RL2C 。.
> 2A. .
>400-1000V 。.
> 1. .7. .
> 50.
> DO-15. .
>6 。.
> RL3-RL3C. .
>3A 。.
> 400-1000V. .
> 1. .7.
> 50. .
>DO-201AD 。.
>. .
>7 。.
> 1H1-1H8. .
>1A 。.
> 50-1000V. .
> 1. .1-1. .7.
> 50-75. .
>R-1 。.
> 8. .
>HER10-HER60 。.
> 1-6A. .
>50-1000V 。.
> 1. 1-1. .7. .
> 50-75.
>. .
>9 。.
> HER80-HER160. .
>8-6A 。.
> 50-1000V. .
> 1. .1-1. .7.
> 50-75. .
>TO-220 。.
> 10. .
>UF10-UF60 。.
> 1-6A. .
>50-1000V 。.
> 1. 1-1. .7. .
> 50-75.
>. .
> 11.
> EL1Z-EL1. .
>1。.5A 。.
> 200-350V. .
> 1. .5.
> 50. .
>DO-15 。.
>. .
> (2) MUR ultra-fast recovery rectifiers.
> 1. .
>MUR120-MUR1120 。.
> 1A. .
>200-1200V 。.
> 0. .95-1. .5. .
> 35-50.
> DO-41. .
>2 。.
> MUR420-MUR4120. .
>4A 。.
> 200-1200V. .
> 0. .95-1. .6.
> 35-75. .
>DO-201AD 。.
> 3. .
>MUR820-MUR8120 。.
> 8A. .
>200-1200V 。.
> 1. .3-2. .1. .
> TO-220AC. .
>4 。.
> MUR1020-MUR10120. .
>10A 。.
> 200-1200V. .
> 1. .1 .3-2...
> 35-75. .
>TO-220AC 。.
> 5. .
>MUR1520-MUR15120 。.
> 15A. .
>200-1200V 。.
> 1. .3-2. .1. .
> TO-220AC. .
>6 。.
> MUR2020-MUR20120. .
>20A 。.
> 200-1200V. .
> 1. .1 .3-2...
> 35-75. .
>TO-220AB 。.
> 7. .
>MUR3020-MUR30120 。.
> 30A. .
>200-1200V 。.
> 1. .3-2. .1. .
> 35-75.
> TO-247AD. .
>8 。.
> MUR6020-MUR60120. .
>60A 。.
> 200-1200V. .
> 1. .1 .3-2...
> 35-75. .
>TO-247AD 。.
>. .
> (3) RHRP, RHRG blazing fast recovery diode.
> 1. .
>RHRP820-RHRP8120 。.
> 8A. .
>200-1200V 。.
> 2. .1-3. .2. .
> 35-70.
> TO-220AC. .
>2 。.
> RHRP1520-RHRP15120. .
>15A 。.
> 200-1200V. .
> 2. .1-3. .2.
> 40-75. .
>TO-220AC 。.
> 3. .
>RHRP3020-RHRP30120 。.
> 30A. .
>200-1200V 。.
> 2. .1-3. .2. .
> 45-75.
> TO-220AC. .
>4 。.
> RHRG3020-RHRG30120. .
>30A 。.
> 200-1200V. .
> 2. .1-3. .2.
> 45-75. .
>TO-247AC 。.
> 5. .
>RHRG5020-RHRG50120 。.
> 50A. .
>200-1200V 。.
> 2. .1-3. .2. .
> 50-100.
> TO-247AC. .
>6 。.
> RHRG6020-RHRG60120. .
>60A 。.
> 200-1200V. .
> 2. .1-3. .2.
> 45-75. .
>TO-247AD 。.
>. .
> (4) BYV29 ~ 79 79, BYT28 ~. ultra fast recovery diode.
> 1. .
>BYW29-100~200 。.
> 8A. .
>100-200V 。.
> 1. .1. .
> 25.
> TO-220AC. .
>2 。.
> BYV29-300 ~ 500. .
>9A 。.
> 300-500V. .
> 1. .25.
> 60. .
>TO-220AC 。.
> 3. .
>BYQ28-100~200 。.
> 10A. .
>100-200V 。.
> 1. .1. .
> 20.
> TO-220AB. .
>4 。.
> BYT28-300 ~ 500. .
>10A 。.
> 300-500V. .
> 1. .4.
> 60. .
>TO-220AB 。.
> 5. .
>BYV79-100~200 。.
> 14A. .
>100-200V 。.
> 1. .3. .
> 30.
> TO-220AC. .
>6 。.
> BYT79-300 ~ 500. .
>14A 。.
> 300-500V. .
> 1. .4.
> 60. .
>TO-220AC 。.
> 7. .
>BYV32-100~200 。.
> 20A. .
>100-200V 。.
> 1. .1. .
> 25.
> TO-220AB. .
>8 。.
> BYV34-300 ~ 500. .
>20A 。.
> 300-500V. .
> 1. .1.
> 60. .
>TO-220AB 。.
> 9. .
>BYV42-100~200 。.
> 30A. .
>100-200V 。.
> 1. .1. .
> 28.
> TO-220AB. .
> 10.
> BYV44-300 ~ 500. .
>30A 。.
> 300-500V. .
> 1. .25.
> 60. .
>TO-220AB 。.
> 8. . Regulator diode. .
> Serial number.
> Name. .
> PZM. .
> W. .
>V 。.
> 1. .
> BZX55. .
>0。.5W 。.
> 2. .4 V-47V. .
>2 。.
> 1N5985B ~ 1N6031B. .
>0。.5W 。.
> 2. .4 V-200V. .
>3 。.
> 1N4728 ~ 1N4764. .
>1W 。.
> 3. .3 V-100V. .
>4 。.
> 1N5911B ~ 1N5956B. .
>1。.5W 。.
> 2. .7 V-200V. .
>5 。.
> 2CW37-2. .4 36. .
>0。.5W 。.
> 2. .4 V-36V. .
>6 。.
> 2CW51-2CW68. .
> 3V-28. .5 V. .
> 2CW101-2CW121. .
> 3V-37. .5 V. .
>8 。.
> 2DW50-2DW64. .
>1W 。.
> 41V-190V. .
>9 。.
> 2DW80-2DW190. .
>3W 。.
> 41V-190V. .
> 10.
> 2DW110-2DW151. .
>10W 。.
> 4. .3 V-470V. .
> 11.
> 2DW170-2DW202. .
>50W 。.
> 4. .3 V-200V. .
> 12.
Temperature compensation. .
Zener diode.
> 2DW230-2DW236. .
>0。.2W 。.
> 5. .8 V-6. .6 V. .
> 。.
> 9. . High-speed switching diodes. .
> Serial number.
> Models. .
>IC 。.
> VRM. .
>Trr 。.
> Shape. .
> V. .
>ns 。.
> 1. .
>1N4148 。.
> 150. .
>100V 。.
> 4. .
>DO-35 。.
> 2. .
>1N4149-1N4154 。.
> 150. .
>35-100V 。.
> 2-4. .
>DO-35 。.
> 3. .
>1N4446-1N4454 。.
> 150. .
>40-100V 。.
> 1-4. .
>DO-35 。.
> 4. .
> 75. .
>100V 。.
> 4. .
>DO-35 。.
>. .
>5 。.
> BAV17-BAV21. .
> 250.
> 25-250V. .
> 50.
> DO-35. .
>6 。.
> BAW75-BAW76. .
> 300.
> 35-75V. .
>4 。.
> DO-35. .
>7 。.
> 2CK70-2CK79. .
> 10-280.
> 20-60V. .
> 3-10.
> DO-35. .
>8 。.
> 2CK80-2CK85. .
> 10-300.
> 20-60V. .
> 5-10.
> DO-35. .
>9 。.
> 1S1553-1S1555. .
> 100.
> 70-35V. .
>3 。.
> DO-35. .
> 10.
> 1S2471-1S2473. .
> 130-110.
> 90-40V. .
>3 。.
> DO-35. .
Tag: diode.
Jianhua Electronic Posted at 19:43:33 | Read | Comments 0 | Edit | Share 0. .
This shop sells the TTL interface driver board directly support LCD models, burning programs supported screen model more CLAA150XG01 AA150XC01 interposer board 36/40P..
CLAA150XC01 AA150XC01 adapter plate 36/40P. .
CPT。.
CPT150X05. .
Mitsubishi.
AA150XC01 AA150XC01 adapter plate 36/40P 4S. .
AA150XA03 5V 75P-30P/45P flat line 4S.
CHIMEI. .
M150X02-T05 60P-M150X02-T06 adapter plate 4S. .
M141X01 60P-M150X02-T06 interposer.
M141X-X00 5V 70P-HLD1405 Adapter 2S. .
SAMSUNG。.
LT140X1-051 55P-DF14-30P/25P-TTL-SA 4L. .
LT140X1-022 3。.3V 55P-DF14-30P/25P-TTL-SA 4L。.
LT150X1-051 3. .3 55P-DF14-30P/25P-TTL-SA 4L. .
LT150X1-151 5V 55P-DF14-30P/25P-TTL-SA 4l。.
LT133XM-051 5V 55P-DF14-30P/25P-TTL-SA 2L. .
LTM150XS-T01 3。.3V 55P-DF14-30P/25P-TTL-SA 2L。.
Hosiden. .
HLD1508-010130 5V 4L 80P-L150X2M interposer.
HLD1509-010160 5V 2L. .
HLD1506-040311 5V 4L 80P-L150X2M interposer.
HLD1405-010130 5V 70P-HLD1405 Adapter 4L. .
HannStar。.
HSD150MX41 3. .3 60P-HSD150MX41 Adapter 2L. .
650MX41 3. .3 60P-HSD150MX41 interposer 2L..
HSD150MX49 80P-L150X2M Adapter 4L. .
LG。.
LM150X06 (C3) 5V 60P-LQ150X1DG16 Adapter 2L. .
LM150X05 (A3) 60P LQ150X1DG16 interposer.
LM150X05 (E3) 5V 60P-LQ150X1DG16 Adapter 2L. .
LM150X02 。.
IBM. .
ITXG71L 5V 70P-HLD1405 interposer 1S.
TORISAN. .
TM150XG-26L06A 76P-TM150XG interposer board 36/40P..
Panasonic. .
EDTCF02 5V 70-EDTCF01/2 interposer 4L..
HY. .
HT15X11-100 4L 80P-L150X2M interposer.
HT15X11-200 80P-L150X2M Adapter 4L. .
FUJITSU。.
FLC38XGC6V-06A 5V 60P-M150X02-T06 adapter plate 4L. .
AU。.
L150X2M 80P-L150X2M adapter board. .
L150X3M 80P-L150X2M interposer.
M150XN05 3. .3 75P-30P/45P flat line 2L. .
TOSHIBA。.
LTM150C151L 5V 55P-DF14-30P/25P-TTL-TO 4L. .
SHARP。.
LQ15X16 5V 55P-DF14-30P/25P-TTL-TO 4L. .
LQ150X1DG28 5V 55P-DF14-30P/25P-TTL-TO 2L。.
Panasonic. .
EDTCF02QAF 5V 70-EDTCF01/2 interposer 4L..
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Jianhua e-published: 12: 32: 22 | Read more | Comments 0 | Edit | Share 0..
5W Zener diode parameters used 1N5333 5W3. .3 V. .
Diode 1N5333A 5W3. .3V.
Diode 1N5333B 5W3. .3 V. .
Diode 1N5334 5W3. .6V.
Diode 1N5335 5W3. .9 V. .
Diode 1N5336 5W4. .3V.
Diode 1N5337 5W4. .7 V. .
Diode 1N5338 5W5. .1V.
Diode 1N5339 5W5. .6 V. .
Diode 1N5340 5W6. .0V.
Diode 1N5341 5W6. .2 V. .
Diode 1N5342 5W6. .8V.
Diode 1N5343 5W7. .5 V. .
Diode 1N5344 5W8. .2V.
Diode 1N5345 5W8. .7 V. .
Diode 1N5346 5W9. .1V.
Diode 1N5347 5W10V. .
Diode 1N5348 5W11V..
Diode 1N5349 5W12V. .
Diode 1N5350 5W13V 1N5351 5W14V..
1N5352 5W15V. .
1N5353 5W16V。.
1N5354 5W17V. .
1N5355 5W18V。.
1N5356 5W19V. .
1N5357 5W20V。.
1N5358 5W22V. .
1N5359 5W24V。.
1N5360 5W25V. .
1N5361 5W27V。.
1N5362 5W28V. .
1N5363 5W30V。.
1N5364 5W33V. .
1N5365 5W36V。.
1N5366 5W39V. .
1N5367 5W43V。.
1N5368 5W47V. .
1N5369 5W51V。.
1N5370 5W56. .
1N5371 5W60V。.
1N5372b 5W62V. .
1N5373 5W68V。.
1N5374 5W75V. .
1N5375 5W82V。.
1N5376 5W87V. .
1N5377 5W91V。.
1N5378 5W100V. .
1N5379 5W110。.
1N5380 5W120V. .
1N5381 5W130V。.
1N5382 5W140V. .
1N5383 5W150V。.
1N5384 5W160V. .
1N5385 5W170V。.
1N5386 5W180V. .
1N5387 5W190V。.
1N5388 5W 200V. .
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Jianhua Electronic Posted at 16:30:10 | Read | Comments 0 | Edit | Share 0. .
Components of a variety, not a collection, you need spare parts please call through QQ798206061 or 0410-5403615 LCD full tutorial information.
MP3 maintain a full set of tutorials. .
Notebook repair complete tutorial.
Chip welding video tutorials. .
Copier maintenance video tutorials.
Board maintenance information. .
Printer maintenance information.
Oscilloscopes. .
CRT monitor drawings CD..
LCD display drawings CD. .
Recorders 12V4A adapter.
12V4A adapter. .
12V1A adapter.
16V4. .5 A adapter. .
19V3. .16A adapter.
4 high-voltage integrated power supply board 12V4 lamp lights big mouth pressure plate. .
High-pressure small mouth 12V4 light plate.
12V4 small mouth pressure plate lights. .
High voltage 12V2 lamp small orifice plate.
12V1 small mouth pressure plate lights. .
4 lights SIP power HV-one plate high pressure plate size port connecter.
A variety of high-pressure section disassemble notebook PC driver board. .
PC driver Board.
PC driver board. .
PC driver Board.
TV driver board. .
PC driver Board.
PC driver board. .
PC driver Board.
PC driver board. .
DVI driver Board 12 tubes.
14 tubes. .
15 tubes.
17 with twin lamps. .
17 lamp.
19 tube 13. .3 "Shell @ sets of materials..
14″ shell @ nesting.
15 "casing @ sets of materials..
17 "shell @ nesting.
19 "casing @ nesting boards for free program screen line..
DF14-D8 Pingxian..
DF14-S6-screen lines. .
FIX-D6/20-20 pingxian..
FIX-D6/30-20 screen line. .
FIX-S6/30-30 pingxian..
FIX-S8/30-30 screen line. .
FIX-S8/30-30-line.
51146-D6/14-20. .
51146-D8/20-20。.
Flexible cable 30. .
40 soft wire.
45 flexible cable. .
50 soft wire length VGA cable.
Long VGA cable. .
Short built-in VGA cable.
5 keys key board. .
6 key press plate.
PLCC pulling device. .
4600. .
4604.
4606. .
1200AP100。.
200D6. .
203D6。.
AIC1084 large. .
AIC1084 small.
C5707. .
DAP7A。.
DAS001. .
DP904. .
FAN7601。.
FR9024. .
FSD9435。.
FSDM0565R. .
KA5M0365R。.
KA5S0765. .
LM2576-5. .0. .
LM2596-5。.0。.
LM2596-12. .
LXD91812. .
LXD91814。.
LPD91821. .
NT68F63。.
SG6841D. .
SG6841S。.
SG6848. .
SM89516。.
TEA1507P. .
TIP127. .
TL431。.
TL1451. .
UC3843A. .
VIPER22A. .
4532.
15N0368μF/400V capacitors. .
100 μ F/400 V capacitors.
0. .22μF/160V Capacitors. .
Socket PLCC44 integrated block.
PLCC44 Manifold outlet. .
BU2527AX。.
BU2527DF. .
BU2508DF。.
2SC3280. .
2SC5411。.
IRF630. .
IRF9630。.
IRF640. .
IRF9640。.
IRF634. .
2SJ512 TV degaussing resistance 2 feet.
Color TV degaussing resistor 3 feet. .
D3SB600 TV rectifier bridge.
D25SBA80 cooker rectifier bridge. .
10μF250V。.
47μF50V. .
1μF50V。.
1000μF16V. .
220μF16V。.
100μF160V. .
220μF25V。.
68μF400V. .
AN5522. .
LA76832. .
LA78040. .
LA7840. .
LA7841。.
LA7845. .
LA7846. .
LA7846。.
LM324. .
LM393. .
M34063。.
PQ05RF11. .
PQ09RD11。.
S1854. .
SE120。.
STRF6653. .
STRF6654。.
STRF6707A. .
STRG5653。.
STRG6653. .
STRG6656。.
TA7630. .
TA8427K。.
TDA3653B. .
TDA3654。.
TDA4850. .
TDA4851。.
TDA4852. .
TDA4853。.
TDA4854. .
TDA4856. .
TDA4857。.
TDA4858. .
TDA4859PS。.
TDA4863. .
TDA4866。.
TDA4886. .
TDA6101Q。.
TDA6103Q. .
TDA6107JF。.
TDA6111Q. .
TDA8174. .
TDA8350Q。.
TDA8351. .
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Jianhua e-published: 07: 26: 34 | Read more | Comments 0 | Edit | Share 0..
A high-efficiency switching power supply module 70W Universal TOPSwitchGX suitable for making low-cost, high efficiency, small size, full-enclosed switching power supply module or power adapter (adapter). TOP249Y sealed by the composition of 70W (19V, 3. .6 A) Universal switching power supply module, the circuit shown in Figure 1. When the ambient temperature does not exceed 40 ℃, the module can be reduced to 10 dimensions. .5 Mm × 5. .5 Mm × 2. .5 Mm. Design of AC input voltage range of 85V ~ 265V, which belongs to the world universal voltage range.. .52W (U = 230V);.
Figure 1 high-efficiency switching power supply module 70W Universal circuit. .
. R11 for the undervoltage or overvoltage sense resistor, and to give feed-forward circuit to provide voltage to reduce the switching frequency of the fluctuations. R11 = 2MΩ taken when the UI only when the DC input voltage up to 100V, the power to start. TOPSwitchGX undervoltage current IUV = 50μA, over-voltage current IOV = 225μA. A formula. .
UUV=IUV·R11(1) 。.
UOV = IOV · R11 (2). .
. .
By VDZ1 and VD1 composition of drain clamp circuit, can absorb the MOSFET turn-off time by high-frequency transformer primary leakage resulting spike voltage MOSFET, protection from damage. VDZ1 using clamp voltage 200V of P6KE200-transient voltage suppressors, VD1 ultrafast selecting UF4006 type, its recovery diode reverse voltage to 800V. The capacitor C11 and VDZ1 parallel, reduces clamp loss. Select full-spectrum works, switching frequency is set to 132kHz.. Output filter circuit by the C2, C3, L1, C4 and C14 form. No load, TOP249Y can automatically reduce the switching frequency, making the 230V input AC power consumption of only 520mW. TOP249Y with frequency jitter, which helps reduce electromagnetic interference. As long as a reasonable choice of security and the EMI filter capacitor C7 (L2, L3, C6) of the component values, can make the electromagnetic radiation generated by switching power supply line with CISPR22 (FCCB) / EN55022B international standards. One end of the C7 UI's positive, can TOP249Y minimize common mode interference.。 C6 is connected to the AC power cord-end, dedicated filtering grid lines between the differential mode interference, known as the "X" capacitance.
Precision optocoupler feedback circuit from the IC2, IC3 and so on. UO output voltage through a resistor divider R4 ~ R6 be sampled voltage, and the TL431 in 2. .50 V reference voltage generated after comparing the error voltage, and then through the coupler to change TOP249Y control terminal current IC, the duty cycle changes, and then adjust the UO remains unchanged. The output voltage feedback winding through VD4, C15 rectifier filter, a coupler in the receiver tube to provide bias. R8 together form C5 also filters voltage spikes, so that when the bias voltage to maintain a constant heavy load. R7, C9, C10, and R3, C5, C8 are the control loop compensation components.
2 by TOP249Y constitute DC/DC converter-250W.
Switching power supply. .
The DC/DC converter-switching power supply with a TOP249Y, entered as 250V ~ 380V DC voltage, output 48V .2A, 5. (250W), the power efficiency of up to 84 per cent. The circuit shown in Figure 2. For high-frequency filter capacitor C1, specifically inhibit the introduction from the input of electromagnetic interference. As a result of the work in its TOP249 power limit, therefore the X client and source S shorted to limit current set to maximum values within that ILIMIT = ILIMIT (max) = 5. .7A. In the L-side to the UI only received one between 2 M ω resistor R1, line detection.. This effectively prevents component damage. .
Since the primary current is large, shall take the following measures: first, low leakage inductance-frequency transformer and between primary, secondary, will increase the shield leakage inductance is reduced to a minimum; Secondly, clamp protection circuit in transient voltage suppressors at both ends of the shunt resistor R2, R3, C6, constitute protection for the perfect VDZ1, VD1, R, C-clamp and absorbing circuit for absorption off leakage on larger magnetic energy.. .
Secondary winding voltage first after VD2, C9 and C10, C11 rectifier, filter, and then through the L2, C12 filtering out switching noise, stable DC output voltage UO. To reduce the equivalent inductance filter capacitor, C9, C10 and C11 for parallel use. Voltage tube VDZ2, VDZ3 and VDZ4 voltage values are 22V, 12V,-12V, total voltage value UZ = 46V, stable current IZ ≈ 10mA.. .
Figure 2-250W power supply circuit R6 is LED by the current limiting resistor, it also decided to control loop gain. Capacitance diode VD4 and C14 constitute soft start circuit. Just power, voltage drop due to C14 ends, resulting in no mutation because of the negative answer VD6 low level and conduction, voltage tube does not work. With C14 is charging, the ends of the pressure drop in the rising, and the closing state VD4 into the output voltage is set up. Blackout, the charge is on C14 after the pained R9 release. C13 and R8 as high-voltage control circuit of the frequency compensation components.. If the subject installation conditions, can not install a large heat sink, you must be ventilation cooling. .
3 composition by TOP246Y 45W multi-channel output switch.
Power. .
By TOP246Y constitute 45W multi-output switching power supply circuit shown in Figure 3. It can be used as a set-top box, cable TV decoders, large-capacity hard disk drive or a notebook of switching power supply. The power supply input voltage is AC 185V ~ 265V, rated output power as 45W, peak output power up to 60W; power efficiency η ≥ 75 per cent of the power consumption of the no-load at only 0. .6W. 5-way output: UO1 (5V, 3. .2A), UO2 (3 .3V, 3A. '), UO3 (30V, 0. .03A), UO4 (0 .5A 18V,.), UO5 (12V, 0.. 5V and now 3. .3 V as the main output, according to the introduction of a certain proportion of the amount of feedback, so that the best performance of the two road regulator. Outputs, supplemented by other separate ways. Taking into account the surrounding environment switching power supply high temperature, TOP246Y for a temperature not exceeding 60 ℃ standard set-top boxes (SettopBox) power supply, in order to facilitate lower conduction loss and reduce heat sink size. To limit the current setting resistor R2, R2 = 9kΩ taken when the current limit can be set to a typical value of 80%, or = 80% ILIMIT, thus limiting the power overload.。 The power quality is particularly necessary in places with poor.
By the VDZ1, VD6, R5, and C5 form the primary clamp circuit, make the drain voltage in all cases were lower than 700V. R5 and C5 peak voltage absorbing circuit components, normal operation can be transient voltage suppressor VDZ1 minimize the power loss, unless there is an overload situation. TOP246Y with frequency jitter, could effectively suppress noise, so just add a simple input EMI filter (C1, L1, C6) and take reasonable grounding, you can meet the electromagnetic compatibility CISPR2213 international standards.。 Varistors (RV) is absorbed from the power grid cuanru surge voltage.
To reduce the volume of high-frequency transformer secondary windings are stacked around the law. Auxiliary output winding connected VD10 potential reference point rather than the negative positive, which aims to pressure the output voltage deviation to a minimum. Secondary Voltage through VD7 ~ VD11, C7, C9, C11, C13, C16, C14 and C17 for rectifier filter. VD11 is 3. .3 V output circuit of the rectifier, the choice of type 10A/45V MBR1045 Schottky diodes, Schottky diodes suitable for low voltage, high current rectifier, the use of its low pressure drop characteristics, can improve power efficiency.。 3. .3V 5V outputs and two filter capacitor to be connected in parallel to reduce the output ripple currents. Post filter by L2-L5, C8 ', C10, C12 and C15 and C18. Resistor R6 prevents 30V winding end in light of the peak charging current. 3 .3V output after R11! and R10 sampling, IC3 (TL431A) datum end, through the optical coupling IC2 (LTV817) to adjust TOP246Y output duty cycle. R8 to provide bias current IC3, R7 is used to set the entire DC gain feedback circuit. R9, C19, R3 and C5 are feedback circuit compensation componentC20 for the soft-start capacitor. .
4 Caution. .
(1) input filter capacitor (Figure 1 and Figure 2 for C1, C2 as in Figure 3) negative feedback should be direct even winding (called the Kelvin connection), so that feedback winding on the surge current direct return to the input filter capacitors, enhance the capacity of surge suppression.
(2) control terminal capacitor should be as close as possible near the source and the control side of the pin. S pole and the C, L (or M), X in dire need of all connected by a separate branch, and not for a slip. Prohibited to MOSFET switch current by connecting CS pole slip. In addition, S, L, X end of the lead and peripheral components related to the short distance we should try Jie, and slip away from the drain D to prevent noise coupling. .
(3) Figure 1 circuit detection resistor R1 should be as close as possible to L (or M) pin.
(4) The end of the bypass capacitor C5 (47μF) and a high frequency bypass capacitor C8 (0. .1 ΜF) in parallel, can better suppress noise. The output of the feedback circuit should be as close as C, S pole. .
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Jianhua Electronic Posted at 20:13:23 | Read | Comments 0 | Edit | Share 0. .
1 high efficiency 70W universal switching power supply module TOPSwitch GX is suitable for production of low-cost, high efficiency, small size, fully enclosed switching power supply module or power adapter (adapter). By TOP249Y constitute sealed 70W (19V, 3. .6A) universal switching power supply modules, circuit shown in Figure 1. When the ambient temperature does not exceed 40 ° c, the module's size can be reduced to 10.5.2 .5mm×. .5mm .5mm×. Design of the AC input voltage range is 85V ~ 265V, which belongs to the worldwide common voltage range.. .52 W (U = 230V pm);. .
Figure 1 high-efficiency 70W universal switching power supply module circuit.
Output ripple voltage ≤ 120mV (peak Pu Lu Tam. The power supply integrated circuit using a total of three: TOP249Y 6-end chip switching power supply (IC1); linear optocouplers PC817A (IC2); adjustable precision shunt stability pressure control TL431 (IC3). resistor R9 and R10 to set the power switch from the external limiting current drain, so slightly higher than full load or input voltage when the peak drain current ID (PK). This allows Starting in the power supply or output load but there was instability in the case of saturation, the use of smaller sized high-frequency transformers. When the input DC voltage over-voltage.。 R11 for undervoltage or overvoltage detection resistance, and to lines with voltage feed-forward to reduce the switching frequency of the wave. Take R11 = 2 M Ω, only when the DC input voltage UI, the power supply 100V reached before starting. TOPSwitch GX of undervoltage current IUV = 50 μ A, over-voltage current IOV = 225 A μ. There is a formula.
UUV = IUV · R11 (1). .
The R11 = 2MΩ respectively into (1) and (2) are, UUV = 100V (DC), UOV = 450V (DC). Maximum duty cycle Dmax overvoltage with the inflow side of the current IX, X decreases, when the IX increased from 90μA 190μA, the maximum duty cycle Dmax from the 78% (corresponding to the UUV = 100V) decreased linearly to 47% (corresponding to 375V). In power-down, the voltage detection can reduce the output interference when C1 discharge, as long as the output regulation failure occurs or 40V input voltage is lower than the case, will make TOPSwitchGX closed.
VD1 posed by the VDZ1 and drain clamp circuit, can absorb the MOSFET turn-off by the high-frequency transformer primary leakage inductance voltage spike generated to protect the MOSFET from damage. VDZ1 clamping voltage of 200V with the P6KE200 type transient voltage suppressor, VD1 use UF4006-based ultra-fast recovery diodes, the reverse voltage is 800V. The capacitor C11 and VDZ1 in parallel, can reduce clamping losses. Select full-range work, the switching frequency set to 132kHz.。 Output filter circuit by C2, C3, C4 and L1, C14. No-load, TOP249Y can automatically reduce the switching frequency, input AC 230V power dissipation of only 520mW. TOP249Y frequency jitter on reducing electromagnetic interference. As long as the reasonable choice of safety capacitor C7 and EMI filter (L2, L3, C6) component values, we can make the switch mode power supply complies with CISPR22 electromagnetic radiation (FCCB)/EN55022B international standards. The C7 termination UI cathode, common mode interference TOP249Y.. C6 is connected to the AC power line side, the specialized filter power line between the differential mode interference is called "X capacitor." .
Precision optical coupling feedback circuit from IC2, IC3, etc. Output voltage UO through resistor divider R4-R6 get sampling voltage, and 2 in TL431. .50V reference voltage for comparison after error voltage, through optical coupling to change the control-side current TOP249Y IC so that duty changes, and then adjust the UO remain unchanged. Output voltage feedback winding through VD4, C15 rectifier filtering, to optical coupling in the tube provides bias. C5 also together with R8 peak voltage filter so that the bias voltage in a heavily to remain constant. R7, R3 C9 and C10 and, C5, C8 are control loop compensation components.
2 formed by the TOP249Y DC / DC conversion type 250W. .
Switching power supply.
The DC / DC conversion switching power supply with a TOP249Y, the input DC voltage is 250V ~ 380V, output 48V, 5. .2 A (250W), power efficiency up to 84%. The circuit shown in Figure 2. High-frequency filter capacitor C1, specifically inhibit the introduction from the input of electromagnetic interference. As TOP249 working on its power limit, so take the X-side with the source S shorted, the maximum current limit is set to internal, that is ILIMIT = ILIMIT (max) = 5. .7 A. UI in the L end to a 2MΩ indirect resistance R1, the circuit can be detected.。 This effectively prevents damage to the components.
As the primary current is high, shall take the following measures: First, the use of low-and high-frequency transformer leakage inductance in the primary and secondary shield between the increase will minimize leakage; second clamping protection circuit in the both ends of the transient voltage suppressor components parallel RC R2, R3, C6, constitutes a protection function of the VDZ1, VD1, R, C-type clamp and snubber circuit to absorb the large magnetic field on the leakage inductance energy.。.
After the first secondary winding voltage VD2, C9, C10 and C11 rectifier, filter, then through the L2, C12 filter out switching noise, obtaining a stable DC output voltage UO. To reduce the filter capacitor of the equivalent inductance, now C9, C10 and C11 as a parallel. Regulator VDZ2, VDZ3 and VDZ4 regulator values were 22V, 12V, 12V, voltage regulator in series of the total value of UZ = 46V, constant current IZ ≈ 10mA.。.
Figure 2-250W switching power supply circuit R6 is the LED current limiting resistor, it also decided to control loop gain. VD4 diode and capacitor C14 form soft start circuit. Power just when the pressure drop across the C14 can not be mutated, resulting in low and negative poles VD6 by conduction, then the regulator does not work. As the C14 is charged, its voltage drop across the rising, and the cut-off state VD4 into the output voltage was established. After power-down, C14 charge on the vent to let go through R9. C13 and R8 for the high voltage control loop frequency compensation components.
3, composed by the TOP246Y 45W multi-output switch. .
The power supply.
TOP246Y constituted by the multi-output 45W switching power supply circuit shown in Figure 3. It can be used as set-top box, cable decoder, high-capacity hard drive or laptop computer switching power supply. The power supply input voltage is AC 185V ~ 265V, the rated output power of 45W, peak output power up to 60W; power efficiency η ≥ 75%, no-load power consumption of only 0. .6 W. Five outputs are: UO1 (5V, 3. .2 A), UO2 (3. .3 V, 3A), UO3 (30V, 0. .03 A), UO4 (18V, 0. .5 A), UO5 (12V, 0... This poor quality of the local power grid is particularly necessary. .
By VDZ1, VD6, R5 and C5 constitute primary clamp circuit, can make the drain voltage in all cases below the 700V. R5 and C5 formed peak voltage absorption circuit, working time may be transient voltage suppressors VDZ1 on minimizing power loss, unless overload situation. TOP246Y frequency jitter performance, could effectively suppressing noise interference, so just add a simple input EMI filter (L1, C1, C6) and to take reasonable measures, to the ground with electromagnetic compatibility standard CISPR2213 international.. Varistor (RV) role is to absorb the surge voltage from the power grid fleeing. .
To reduce the volume of high-frequency transformer, secondary windings using stacked around method. Auxiliary output windings of potential reference point received negative VD10 rather positive, with the aim of the high voltage output voltage deviation to a minimum. Secondary voltage after VD7 ~ VD11, C7, C9 and C11, C13, C16, C17 for C14 and rectifier filtering. 3 .3V VD11. output circuit diode, selected MBR1045-10A/45V, Schottky Diode, Schottky diodes suitable for low-voltage, high current rectifier, with its characteristic of low pressure drop, you can improve the power efficiency.. 3. .3 V and 5V output filter capacitor must be two parallel, to reduce the output ripple current. Post-filter by the L2 ~ L5, C8 ', C10, C12, C15 and C18 form. Resistor R6 prevents the 30V windings peak in the light load charging current. 3. .3 V output by the R11 and R10 samples, transfer IC3 (TL431A) the reference terminal, through the optocoupler IC2 (LTV817) to adjust the output duty cycle TOP246Y. R8 provides bias current for the IC3, R7 is used to set the DC gain of the feedback circuit. R9, C19, R3 and C5 are the compensation components in the feedback circuit
Figure 3, composed by the TOP246Y-type multi-output 45W switching power supply circuits. .
(1) The input filter capacitor (Figure 1, Figure 2 for C1, Figure 3 for C2) should be directly linked to the negative feedback winding (referred to as Kelvin connections) in order to winding on the feedback directly back to the input surge current filter capacitor to improve the ability to inhibit the surge of interference. .
(2) of the control-side near the capacitors should be as close as possible to the source and the control of the end of the PIN. S and C, L (or M), the great need of X by a separate branch, a slip shall be share. Prohibition to the MOSFET switch current by connecting C S pole of the slip road. In addition, S, L, X-leader and peripheral related components of the short distance to, agile and away from the drain D slip to prevent noise coupling.
(3) Figure 1 circuit sense resistor R1 should be as close to L (or M) pin. .
(4) control-bypass capacitor C5 (47 μ F) and a high-frequency bypass capacitor C8 (0.1 μ F) shunt, can better noise suppression. Feedback circuit output should be as close as possible to the C, S..
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Jianhua e was published on 20: 13: 19 | Read more | Comments 0 | Edit | Share 0..
TTL level and the difference between CMOS levels TTL level signals to be used because the most commonly used binary data representation requirements, +5 V is equivalent to logic "1", 0V is equivalent to logic "0", which is called TTL ( transistor - transistor logic level) signal system, which is inside the device computer processor controls the communication between the various parts of the standard technique.。 TTL-communication in most cases, is a parallel data transmission mode, and parallel data transmission for more than 10 feet of distance will not fit. This is due to reliability and costs on both sides. Because there is a bias in the parallel phase and asymmetrical problems that impact both on reliability; in addition for parallel data transmission, cable and connector costs compared to serial communication means have to be high. What is a TTL level, what is CMOS level, their differences.
(A) TTL high 3. .6 ~ 5V, low level 0V ~ 2. .4 V. .
CMOS circuit output high of about 0. .9 Vcc, the output low is about. .
CMOS circuits do not use the input can not be left floating, will cause the logical confusion. .
TTL circuits do not use the input of vacant for high level.
In addition, CMOS integrated circuit power supply voltage can change in a wide range, and thus the power requirements of TTL integrated circuits not as strict. .
With TTL level they can be compatible.
(B) TTL level is 5V, CMOS level is usually 12V. .
Because the TTL circuits power supply voltage is 5V, CMOS circuit 12V power supply voltage is generally.
5V CMOS level can not trigger the circuit, 12V TTL level can damage the circuit, it is not compatible match. .
(3) TTL level standard.
Output L: <0. .8 V; H:> 2. .4 V. .
TTL low output device is less than 0. .8 V, high is greater than 2. .4 V. Input, less than 1. .2 V 0 is assumed, higher than 2. .0 To consider is 1. CMOS level:. .
Enter L: <0. .3 * Vcc; H:> 0. .7 * Vcc. . General MCU, DSP, FPGA is directly connected between them can teach. . In general, the same voltage that it can, but it is best to look up a good technical manual on the VIL, VIH, VOL, VOH value to see if it can match (VOL less than VIL, VOH is greater than VIH refers to a connection among). Some applications, in general there is no problem, but the argument is a bit less on the match, in some cases may be not stable enough, or different batches of devices can not run.。 Under normal circumstances a good run, but it is on the parameters do not match, in some cases will not be able to run.
TTL level used with the COMS difference. .
1. level of upper and lower limits defined as the CMOS with greater noise zone. The same is 5 volts power supply, the ttl is 1.3 .7V and. .5V CMOS General of manner, is 2. .2V, 2. .9V, inaccurate, is for informational purposes only. 2. current drive capability, ttl General provide 25 Ma of drive capability, and generally in the 10 Ma CMOS. 3. Enter the size of current needs are different, the General need 2 ttl. .5 Ma, CMOS almost no current input.. If you do not consider the speed and performance, the general components are interchangeable. But note that sometimes the load effect may cause the circuit not working properly, because some ttl circuit requires the input impedance of the next level as the load to work properly. TTL - Transistor-Transistor Logic. .
HTTL――High-speed TTL 。.
LTTL - Low-power TTL. .
STTL――Schottky TTL 。.
LSTTL - Low-power Schottky TTL. .
ASTTL――Advanced Schottky TTL 。.
ALSTTL - Advanced Low-power Schottky TTL. .
FAST(F)――Fairchild Advanced schottky TTL 。.
CMOS - Complementary metal-oxide-semiconductor. .
HC/HCT-High-speed CMOS Logic (HCT and TTL compatible).
AC / ACT - Advanced CMOS Logic (ACT compatible with TTL level) (also known as ACL). .
AHC/AHCT-Advanced High-speed CMOS Logic (AHCT and TTL compatible).
FCT - FACT extended family, with TTL-level compatible. .
1, TTL level:. .
Output > 2. .4V low level output 0 .4V page〈...
At room temperature, the general output high is 3. .5 V Output low level is 0. .2 V. .
Input high level> = 2. .0 V input low "= 0. .8 V. .
Its noise tolerance is 0. .4V.
2, CMOS level:. .
Logic level voltage close to the power supply voltage, 0 logic level close to 0V. But with a very wide noise.
3, level conversion circuit:. .
Because the TTL and COMS of level of value is not the same (3 .3v ttl 5vcmos.) so interlinked when required.
The conversion to level: that is shared equally by two resistors of electrical pressure, nothing profound things. .
4, OC, the collector circuit, OD door that drain valve circuit must be external pull-up resistor and power to.
The switch as a high low-level use. Otherwise, it is generally as high voltage and high current switching load, it is also called the drive. .
Fixed door circuit.
5, TTL and COMS circuit is:. .
1) TTL circuits is the current controller, and coms circuit is voltage control devices.
2) TTL circuit speed, propagation delay time is short (5-10ns), but the power consumption. .
COMS circuit slow propagation delay time (25-50ns), low power consumption.
COMS circuit itself power and pulse frequency of the input signal, the higher the frequency, the more heat the chip set, which is normal. .
3) COMS circuit lock-in effect:. .
COMS circuit due to the current input is too big, sharp increase within the current unless cut off power supply, electric current has been increasing.
This effect is the lock-in effect. When the locking effect produced when, COMS internal current can reach more than 40mA, it is easy. .
Burnt chip.
Defensive measures:. .
2) increase the chip's power input decoupling circuit to prevent high voltage VDD terminal appears instantly. .
3) outside the VDD and power between line flow resistance, even with large currents do not let it go.
4) When the system consists of several power supply, respectively, the switch according to the following order: open, first open the COMS circuits energized. .
Source, and then turn on the input signal and load of the power supply, shut down, turn off the input signal and power to the load, and then close the COMS.
Circuit power. .
1) COMS circuit voltage control devices, its input total anti great capture of the interference signals are strong. So. .
The unused pin not vacant, to connect la resistance or pull-down resistors, give it a constant level.
2) low input termination signal source within the group, to between input and signal source to the current limiting resistor in series, so that input. .
Current limitation in 1mA..
3) Upon receiving a long signal transmission lines, matching circuit terminating resistor in the COMS. .
External capacitor voltage. .
7, TTL gate input load characteristics of the circuit (with input resistance of the special circumstances of the handling):. .
2) gate 10K series input resistor and then enter the low, the input is brought out showing high rather than low power. .
It is the low level signal input to gate in order to be identified, then a large series resistance has been presented, then the high input power. .
Ping. This is important to note. COMS gate circuits do not consider these a..
8, TTL OC the door open collector circuit, MOS, and the collector tube has a corresponding open-drain of the OD gate, its output is called. .
Do open drain output.
OC gate leakage current when the output of the cut-off, that is, leakage current, leakage current why do it? That is because when the third tube of cut. .
Only when its base current is approximately equal to 0, but is not a real is 0, the collecting electrode of the transistor current also.
0 is not true, but about 0. And this is the leakage current. Open drain output: OC gate output is open drain output; OD. .
Doors open drain output is the output. It can absorb a lot of current, but not to the output current. Therefore, in order.
To input and output current, keep up the power when it uses pull together and use. OD door generally as output buffer / driver. .
Actuator, level translators as well as meet the absorption of high load current.
9, what is the totem pole, it is with the open drain circuit What is the difference? . .
TTL IC, the output is connected to the transistor output is called La totem pole output, no door called OC. Because.
TTL is a three pass, the totem pole push-pull tube is connected to the two levels. So is the push-pull totem. General totem type. .
1. . TTL logic circuits and CMOS circuit-level VOH: logic level 1 output voltage VOL: logic level 0 output voltage VIH: logic level 1 input voltage VIH: logic level 0 input threshold voltage TTL circuits : VOHmin = 2. .4 V VOLmax = 0. .4 VVIHmin = 2. .0 V VILmax = 0. .。.99V VOLmax = 0。.01VVIHmin = 3。.5V VILmax = 1。.5V2。. TTL and CMOS logic level translation CMOS level capable of driving a TTL TTL level cannot be driven CMOS level, plus a pull-up resistor. 3.. .
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Jianhua Electronic Posted at 15:19:25 | Read | Comments 0 | Edit | Share 0. .
Abstract: Current control mode pulse width modulator UC3842 principles and characteristics, and discuss its design should pay attention to. .
I recently designed by the composition of the DC2DC UC3842 converter, the overall framework of the existing literature by reference to the circuit. However, due to the different input voltage and operating frequency, re-design of the circuit parameters. .
UC3842 internal structure and features.
Unitrode UC3842 United States produced a high-performance single-ended output Current control mode pulse width modulator chip. UC3842 8 foot dual in-line package, the internal block diagram shown in Figure 1 (UC3842 internal structure) as shown. Mainly by the 5. . 0V reference voltage source, used to precisely control the duty cycle it is set in the oscillator, blood pressure, current measurement comparator, PWM latch, high-gain E / A error amplifier and is suitable for driving high current power MOSFET push-pull output circuit and other accessories.
Circuit structure and working principle. .
Figure 2 (switching power supply schematic) shows the author in practice use of circuit diagrams. Input voltage of 24V DC. Three-way DC output, respectively + 5V, + 12V//4A 0.. 3A and-12V/0. 3A 。 All diodes have a rapid reaction diode that core UC3842 PWM device. Interrupter fast power field effect transistor.
The boot process. .
First of all by the power supply provided by starting the resistor R1 to capacitor C2 charging current, when C2 voltage reaches UC3842 startup voltage threshold 16V, UC3842 started working and driving pulse, from 6-end output push switch tube, the output signal is low and high voltage pulse. High-voltage pulse period, the field effect transistor breakover, electric current passes through the transformer original side, while the energy stored in the transformer. In accordance with the same client identity, at this point the road edge, Vice-President of the transformer is not energy output.. UC3842 power supply to the feedback loop at the same time. .
UC3842 current changes starting figure. .
Of course, if the VCC Terminal voltage is low, the pressure drop on the R1 is small, all of the power supply can be completed by decreasing then R1. However, typically, VCC Terminal voltage are relatively large, so completely through the R1 to provide normal voltage would have its own power too great R1, the efficiency of the entire power is too low. In General, with the launch of UC3842, R1 work is fundamental to an end, the remaining tasks to feedback winding, produced by the feedback circuit to the power supply voltage UC3842.. I believe that, although theoretically less than 1mA current UC3842 start, but the actual application, press 1. . 6 2. . 0mA design is work more convenient. That is, when VCC terminal voltage U V,,>. .
Figure 3 UC3842 startup current change map >.
UC3842 United States Unltmde produced an excellent current control PWM chip, which has a small number of pins, and simple external circuit, which has been widely used. But with the UC3842 switching frequency increases, it posed by the protection circuit switching power supply there have been many problems. This paper analyzes the protection circuit UC3842 defects and improved methods. Typical applications UC3842 1UC3842 typical application circuit is shown in Figure l. The circuit mainly by the bridge rectifier circuit, high frequency transformer, MOS power transistor and current-type PWM chip UC3842 composition.. R7 is a MOS power transistor gate limit resistor. In addition, the UC3842 between the input and ground, as well as 34V of the regulator, once a high-pressure input, the regulator was reverse breakdown, the Vi clamp at 34V, protection of the chip will not be damaged. .
2UC3842 protection circuit of defect 2. .l overload protection for defects when power supply is overloaded or output short-circuit protection circuit, UC3842 action so that the output pulse duty cycle is reduced, the output voltage decreases, UC3842 supply voltage with lower, when low to UC3842 does not work, the entire circuit is closed, and then cutting through R6 started the next time you start the process. This protection is called the "burp" (hiccup) protection. In this mode, the power supply only work several switch cycle, and then enter a long time (several hundred ms to several s) of the boot process, therefore, its average power is very low.. 2. .2 Defects overcurrent protection over-current protection UC3842 3 achieved by foot. When the pin voltage is detected above 3 lV, it will make the internal comparator UC3842 flip, the PWM latch is set to zero, the pulse modulator is turned off, in order to achieve the over-current protection circuit.. Figure 2 shows a transformer inductor current process of change. Not at the moment t0, the switch starts to conduct, so the inductor current to increase the slope of m1, the slope is a function of input voltage divided by the inductance. time t1, the current sample by the control voltage input to the threshold established, which led to switch off, the current slope of m2 to decay, until the next oscillation cycle.。 Therefore, as shown in Figure l of a circuit in a State of a hidden danger of instability.
3 improved protection circuit for the above analysis, improved circuit shown in Figure 3, the circuit has the following features. 1) by sampling the voltage at the UC3842 access to an emitter follower, resulting in the addition of a control voltage pulse width modulation clock synchronization with artificial slopes, it can follow-up period will be reduced to zero perturbation △ I . Therefore, even if the system works in more than 50% duty cycle or continuous inductor current conditions, the system will not instability. However, the slope of the slope of the compensation must be equal to or slightly greater than m2 / 2, the system can have real stability. 2) no sense of resistance sampling switch resistance.. The benefits of doing so, skip the UC3842's internal amplifier, the feedback signal to the transmission time in half, so that the dynamic response of power faster. In addition, the direct control of the feet l UC3842 can simplify the system and the output power of the small frequency compensation and other issues. .
5 Conclusion UC3842 is an excellent current control mode pulse width modulator, but in the actual application process, it is the existence of certain protection circuit defects, therefore, the power of the design process and must protect the circuit improvement. Experimental results show an improved performance of the protection circuit makes the system more stable and reliable. UC3842 composition occupies most of the power ratio in the color display, the following repair methods tell us about it. .
Step 1: determine whether the first is a power failure.
Slip-line power supply is disconnected the load, connected to the dummy load. With 100W, 200V lamp and the voltage across the filter can. Start to see the lamp is lit, if lit, the load is faulty; if not light and then turn off the other each output, respectively, boot, where the highway if the boot off, lamp lit, which way is faulty. If the lights off all the roads are not lit, the fault in the power supply. .
Step 2: maintenance of power.
1, the measured filter voltage 300V if the voltage at both ends, if not check fuse, bridge rectifiers, filter voltage. May also be deposited copper circuit board fracture, component Weld. If the fuse is burning black serious short circuit. Also check switch, demagnetization resistance and so on. .
3, if (7) pin voltage is normal, the measured (8) foot is +5 V. If not, then the external protection circuit UC3842 bad or worse. If (8) pin voltage is low and unstable open or short circuit may have circuit elements, generally small resistors, diodes, transistors FET easily broken. .
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Jianhua Electronic Posted at 17:00:47 | Read | Comments 0 | Edit | Share 0. .
* Burning system installation.
1; first program disc all within a compressed file copy program on your computer, remove the disc after completion of preservation, in order to facilitate re-use. .
2; to be copied from the CD in the PC of the compressed file, extract all, waiting to use.
3; in CD burning to find a Bitwrite2 installation file, click enter. .
5; and then restart. .
** If you can not open BitWrite2 then reinstall the burning interface! . .
1; first writer of the data cable connected, one inserted in the host computer printer port, the other end inserted in the programmer's data access port. .
3; are plugged in, the give the programmer power supply (voltage requirements 12V4A) general external power supply can be. .
* Programmer programming use. .
2; programming interface set-ting when, under normal circumstances, its value should be between 5-15, if found in the burn can not burn, please adjust. .
4; sure you selected a driver, you can click interface on the burn (P). .
5. burning process, every time a burned-driven data, and automatic correction of data.
6; burn complete, the interface will prompt you to burn to complete. .
7; burning is complete, remove the upgrade header, wait for driver board upgrade using * driver Board of program replication operation.
1; first to write a driver into the driver board upgrade to upgrade the first interface (usually next to a 4P MCU interface). .
3; are plugged in, you can drive board power supply (voltage requirements are usually 12V4A). .
4. in the power upgrade header will automatically add data to the driver Board within the MCU.
5; in the drive plate burning process, according to health board indicator, should be the beginning of power on the red / green exchange flashing, very rapidly, and after a few seconds, the indicator light will turn orange (and flash very slow moving) then burn to complete the driver board, usually a few seconds - ten seconds to complete. .
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Jianhua Electronic Posted at 10:36:03 | Read | Comments 0 | Edit | Share 0. .
Common types of LCD back light?.
At present, there are EL, CCFL, LED backlight and EEFL four types. .
The application range, the EL, LED mainly used for small size, monochromatic light (green, red). Recently, a white (panchromatic) EL backlight and LCD. But since the brightness darker it is basically used to 4 inches below the small-size LCD display. Such as: mobile phone, PDA, game consoles, etc..
CCFL, cold cathode fluorescent lamp that is shorthand for the Chinese meaning of the cold cathode fluorescent tube, full color (white), large-size backlight brightness, and now the mainstream is still used CCFL light source, and after many years of development technology is relatively mature technology, trust high, stable performance. Now large and medium size (19-3 inch) TFT LCD screen generally use CCFL.。.
External electrode fluorescent lamp (EEFL: External Electrode Fluorescent Lamp) inverter (Inverter), EEFL different from the internal electrode in the lamp CCFL, electrodes located side by side in favor of the external and start, and a brightness of 400 unit, higher than CCFL more than 60% higher than for the use of high brightness, large area displays, such as more than 20Inch TFT-LCD, NB TFT-LCTV and Flimsy Panel with BLU.。.
Why TFT-LCD products preferred CCFL backlight?. .
Because of the cold cathode lamp with Ko Fai degree, high efficiency, long life, high inversion color of properties (Figure 1), and after years of technology development, technology is more mature, highly reliable, stable performance, structure of small, low cost. With cylindrical shape it is easy and light reflection component into sheet shaped luminaries, widely applied to large flat LCD monitor (7 "above).
CCFL characteristics and work characteristics?. .
. Because ROYER converter has a low output impedance, you must add an additional "no loss (loseless)" series impedance, for example: a capacitive coupling. .
Figure 1: cathode rays lamp current is a function of voltage. (Ordinate: 2mA/div. Horizontal: 200V/div).
In Figure II, the equivalent circuit of the CCFL to do analysis. Designed in the VFL is the average voltage under normal operation. Designed impedance (RFL) is a complex function, but at a fixed voltage, can be regarded as a constant negative resistance. Stray capacitance and interconnect capacitance combined with a CFL. .
CCFL Backlight power key performance indicator?.
CCFL backlight power: also known as CCFL INVERTER, the CCFL inverter, CCFL lamp in order to meet the performance characteristics and the DC low-voltage high-frequency high-voltage alternating current into the value of electronic equipment, some of which will be referred to as high customer board or inverter. To meet the operating characteristics of the CCFL should have the following features:. .
Starting voltage: characteristics and by the CCFL's work characteristics, when cold light lamp is the cooling time (over a period of no operation time), start-light lamp voltage is typically three times. So start voltage cannot be less than the corresponding screen starting voltage and startup time, otherwise it will not be able to light the CCFL, our company produces the CCFL Backlight power during the design process, start the voltage is the most important indicators.
Operating voltage: operating voltage divided input voltage and the CCFL operating voltage, input voltage is mainly based on customer requirements and design, but must ensure that the working voltage range of ± 10%, CCFL backlight power supply to meet the key performance indicators. CCFL operating voltage is usually determined by the CCFL lamp itself, usually not be considered. .
Operating Frequency: CCFL Backlight DC power is converted to AC, there is conversion rate, conversion rate is the CCFL backlight power supply operating frequency. CCFL backlight power supply and the operating frequency must be equipped with TFT-LCD screen. .
Protection circuit: for example, open lamp, the output voltage will rise, increasing the voltage on the ignition and so prone to burning board phenomenon occurs. .
Efficiency: the efficiency of energy utilization is reflected, and job loss is an important contrast electrical performance indicators to measure the CCFL backlight power embodied in the components of the temperature rise and the EMI, all kinds of interference, because the high efficiency, loss of the corresponding components of the work, all kinds of clutter and other interference on the small, CCFL backlight can greatly improve the reliability of power supply. .
CCFL backlight power supply circuit common form and features. .
CCFL Backlight power circuit in the form of which several?.
BUCK + ROYER circuit: BUCK, the chopper circuit, commonly used in the DC / DC converter circuit, the working principle as shown below. ROYER Circuit: George H. . Royer invention, Transistors as On-Off Switches in Saturable - Core Circuits, full name of the push-pull self-excited multivibrator (also known collector resonant frequency conversion circuit).。 This circuit structure has several obvious disadvantages: high efficiency low temperature rise, components, and more, it is not convenient for PWM mode of brightness control. It has the advantage that the waveform can do better, frequency stability, etc. UCK specific circuit structure is as follows:.
Work process:. .
Push-pull circuit two alternating switch S1 and S2 breakover, winding N1 and N ' 1 formation phase contrast respectively at both ends of the AC voltage, change the duty cycle can alter the output voltage.
Conduction, the diode VD1 is in-state, the inductor L of the current gradually increased. .
S2 breakover, diode VD2 is in flux-State, inductance L current has gradually increased.
When both switches are off when, VD1 and VD2 are in-state, half of the current sharing. S1 and S2 to withstand the peak off-state voltage is 2 times the Ui. .
S1 and S2 breakover, at the equivalent of a transformer side winding, so avoid two switch while conduction.
Half-bridge circuit: half-bridge circuit is equal to the number and capacity of two large high voltage capacitor form a voltage divider circuit. .
Work process: S1 and S2, alternating on a transformer side form amplitude for Ui/2 AC voltage. Changes switch's duty, you can change the secondary side rectifier voltage ud, on average, it changed the output voltage Uo. S1 breakover, diode VD1 is in flux-State, S2 breakover, diode VD2 is in flux-State, when the two switches are off, transformer winding current N1 to zero, VD1 and VD2 is in flux-State, all share half of the current. S1 or S2 breakover inductance L current gradual increase, two switches are off, inductance L current gradually decline. S1 and S2 the off-state voltage peaks when are the Ui.
The role of the blocking capacitor, switching half-bridge circuit for two-time asymmetry caused by the transformer primary voltage of the DC component of a self-balancing effect, so is not prone to bias and DC transformer magnetic saturation. .
ZVS full-bridge circuit: (Zero-voltage-switching) zero-voltage-switching mode, in this way, advanced arm and lag-leg zero voltage in both on-and off. The entire bridge phase zero voltage full bridge converter is widely used in recent years.. If you do not circuit series inductance, which reduces the duty cycle What to certain value, the waveform distortion will be larger. Chips used mainly BIT3106, BIT3105, BIT3107 and so on. .
Work process.
Full-bridge inverter circuits, each other on the corner of the two switches are on simultaneously, with the side of the upper and lower half-bridge switch alternately turns on the transformer primary side of the formation of the AC voltage amplitude Ui, change the duty cycle can change output voltage. .
When S1 and S4 open, diode VD1 and VD4 is in flux-State, inductance L current rising;..
S2 and S3 open, the diode VD2 and VD3 in-state, the inductor L, current is also increased. .
When the 4 switches are off, the four diodes are in flux-State, all share half the inductor current to current, inductance L gradually declining. .S1S2 off-State peak voltage when bear are the Ui.
If S1, S4 and S2, S3 on-time asymmetry, the AC voltage uT will contain DC component, the transformer primary side will have a huge DC component, resulting in magnetic saturation, it should be taken to avoid a full-bridge circuit voltage DC component which can also be a side of the circuit in series with a capacitor to block DC current. .
Full-bridge inverter circuits, each other on the corner of the two switches are on simultaneously, with the side of the upper and lower half-bridge switch alternately turns on the transformer primary side of the formation of the AC voltage amplitude Ui, change the duty cycle can change output voltage. .
When S1 and S4 open, diode VD1 and VD4 is in flux-State, inductance L current rising;..
S2 and S3 open, the diode VD2 and VD3 in-state, the inductor L, current is also increased. .
When the 4 switches are off, the four diodes are in flux-State, all share half the inductor current to current, inductance L gradually declining. .S1 and S2 the off-state voltage peaks when are the Ui.
If S1, S4 and S2, S3 on-time asymmetry, the AC voltage uT will contain DC component, the transformer primary side will have a huge DC component, resulting in magnetic saturation, it should be taken to avoid a full-bridge circuit voltage DC component which can also be a side of the circuit in series with a capacitor to block DC current. .
Push-pull circuit: DEPP (double ended push pull). CCFL Backlight power supply in the use of push-pull circuit only drawback is that the components require high pressure resistance. Advantage line of simple, low cost, conversion efficiency is high. Is now widely used. There is a main circuit TL494, OZ9RR, LX1691 KA7500B, etc..
Work process:. .
Push-pull circuit two alternating switch S1 and S2 breakover, winding N1 and N ' 1 formation phase contrast respectively at both ends of the AC voltage, change the duty cycle can alter the output voltage.
S1 turns on, diode VD1 is in-state, the inductor L of the current gradually increased. .
S2 breakover, diode VD2 is in flux-State, inductance L current has gradually increased.
When both switches are off when, VD1 and VD2 are in-state, half of the current sharing. S1 and S2 to withstand the peak off-state voltage is 2 times the Ui. .
S1 and S2 breakover, at the equivalent of a transformer side winding, so avoid two switch while conduction.
By dimming points:. .
DC/DC dimming CCFL Backlight power in brightness adjustment to adjust the DC voltage control output current to control with the appropriate screen brightness. In the regulatory process, the output voltage and output frequency will be changed to control the output current. DC dimming mode also positive polarity dimming and the anode of dimming in two ways.
DC / PWM Dimming: pulse width modulation, or pulse width modulation, dimming the external input of a DC voltage, then the internal PWM dimming signal generator circuit generates a PWM signal to control brightness. .
PWM/PWM dimming: direct external joined a pulsed signal (typically with a square wave signal), adjust the pulse width modulation CCFL Backlight power to the output current to control with the appropriate screen brightness. PWM frequency is generally taken in context, in 200HZ-800HZ adjustment process, the output current by changing the width of the PWM, PWM pulse width by changes to control the output current of closed and open time ratio.
Adjust the brightness of the external input PWM signal in the process, there is a need to understand the parameters, the output frequency: As the output voltage and output current follows the input PWM signal jump cycle (that is, the external input signal is modulated PWM output signal), so the output frequency to the existence of two frequencies, that is, the output voltage and current of the main PWM frequency and frequency modulation (PWM frequency with the same external input), output voltage and current of the main frequency of the input PWM signals have been modulated, so the output current of the PWM signal frequency can only enter duty than 100% or with an oscilloscope measurement period, calculate the output frequency. .
PWM dimming benefits: A.. in the course of the entire regulation is very uniform brightness changes, there will be no mutation. B.-high lighting efficiency. C.-output voltage peak-peak value will not change with brighten: due to the output current and output voltage at the input PWM dimming, only to jump cycle to change, so the output voltage of...
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Jianhua e-published: 07: 36: 23 | Read more | Comments: 1 | Edit | Share 0..
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Jianhua Electronic Posted at 19:56:34 | Read | Comments 1 | Edit | Share 0. .
First, the transistors of the three connections. .
What is the most common input and output circuits to the very end as a public terminal. Should be noted that, regardless of the kind of connection, in order to have a normal transistor current amplification, the size and polarity must be properly applied voltage. That must be added to the emitter forward bias voltage, emitter to base can play into the role of the carrier; must be added to the collector junction reverse-bias voltage (typically a few ~ tens of volts), the collector Results can form a strong electric field to the emitter into the base and collector junction spread to the edge of the carrier pulled into the collector, the collector has played the role of the carrier collection. .
Positive bias in the emitter, collector junction reverse bias conditions, the transistor internal movement of carriers can be divided into three processes, the following example in order to discuss the NPN-type transistor (common emitter connection.) .
1. launch zone to zone into the carrier of the process.
The emitter forward voltage applied, the electron emission region pouring into the carrier base, base of the majority carrier hole, but also into the launch area. As shown in Figure Z0116, the two together form the emitter current IE. However, the base doping concentration of emitter smaller than 2 to 3 orders of magnitude, into the emitter hole current and electron flow into the base region than can be omitted. .
2. Carrier in zone of diffusion and complex process.
Emitter into the base region by the electron carrier, and its concentration from the emitter to the collector junction edge of the edge is gradually decreasing, the formation of a certain concentration gradient, and thus, e will continue to spread to the collector junction direction. The width of the base made small, and the doping concentration is very low, thus greatly reducing the compound of opportunity into the base of more than 95% of the carrier can reach the e-collector junction. Therefore, the base area is mainly diffusion current, and the ratio of diffusion and compound determines the transistor's current amplification. .
3. collector area in the process of collecting the carrier.
Plus a large collector junction reverse voltage, so that a strong electric field node, spread to the base collector junction in the edge of the electron, by the strong electric field, the rapid drift across the collector junction and into the collector to form a set of electrode current Inc. On the other hand, collector junction on both sides of the minority carrier, but also drift through the collector junction, in the c, b between the so-called saturation current ICBO, however, ICBO generally small, and thus the collector current. .
INC +ICBO ≈ INC GS0105 。.
Same base current. .
IB = IPB +IE -ICBO≈IPB - ICBO GS0106 。.
Reverse saturation current ICBO has nothing to do with the launching area, no contribution to the amplification, but it is a function of temperature, job insecurity is a major factor in the tube. Manufacturing, always try to try to reduce it. .
1. Current distribution relationship. .
We know from figure Z0116, triode three electrode current composition is as follows:.
Emitter current IE. .
IE=INE+IPE ≈INE GS0107 。.
Base current IB. .
IB = IPB + IPE - ICBO ≈IPB - ICBO 。.
Collector current IC. .
IC=INC +ICBO≈ INC。.
At the same time can also be seen from Figure Z0116. .
INE= INC +IPB GS0108。.
Type the above are available. .
IE=IC+ IB GS0109 。.
It shows that the emitter current IE allocated in proportion to the collector current Ic and the base current IB of two parts, which is essentially a transistor current distribution device. For different transistors, although the ratio of IC and IB is different, but the style is always established, so it is very current of the transistor the fundamental relationship between. .
The figure also shows that Z0116 INC represents the emission area into the base area and then spread to the collector area of electron flow, IPB representatives from launch area into the base area is a compound formed by the current. For a specific triode, both ratios are determined, it is common to this ratio is referred to as common emitter DC current zoom factor. Use.
Said. .
That is.
If you ignore the ICBO, then. .
The type describes a control IC IB on..
Change to the type GS0110, can be written. .
Orders.
The above equation can be written as:. .
This style indicates that the collecting electrode electric current consists of two parts: part.
It said the ratio between IC and IB, the other part is. .
Known as the penetrating current will be described in the transistor parameters.
Integrated common emitter transistor between the current distribution can be written as. .
Transistor current distribution relationship can also be used by the launching zone transfer to a collector area of electron flow INC and emitter total emission of electrons flow proportional relationship between IE. The ratio of the two is called the total base DC current zoom factor used.
Said that:. .
Because the IC = INC + IICBO and IC ? ICBO,:.
The formula that has control of IE on the role of IC. .
And. .
Are all the same process described triode, they must exist between the internal links. By their respective expression known:..
Namely:. .
General.
≤ 1 (about 0. .9 ~ 0. .99). .
2. Transistor amplification. .
Figure Z0117 for common-emitter of triode amplifier circuit. To zoom in on the input signal ui add-in in the base electrode circuit, load resistance Rc received in the collector loop, Rc both sides voltage uo is the change in output voltage. Since the launch of the voltage increases the ui (UBE from UBE becomes + uI) base current increased Δ I B, the collecting electrode electric current increases the Δ, Δ I C I C = β, Δ I B in RC formed output voltage uo = Δ R I C C = β Δ I B RC.
As long as the larger Rc value, there will be uo>>? Font size = "+1"> ui, in order to achieve the amplification. .
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Jianhua Electronic Posted at 06:53:21 | Read | Comments 0 | Edit | Share 0. .
> Transistor characteristics curve.
External transistor voltage and current of each curve, called the transistor's characteristic curve, also known as voltage characteristic curve. It not only reflects the quality and characteristics of the transistor, can be used to quantitatively estimate some parameters of the transistor, the transistor circuit analysis and design is an important basis. .
For the different connections triode, has a different characteristic curves. The most widely used is the total emitter circuit, the basic test circuit shown in Figure Z0118,.
Common emitter characteristic point method described can be drawn, but also the transistor curve tracers can be directly displayed. .
In connection transistor common emitter case, when the collector and the emitter voltage UBE to maintain a different set value. .
IB = f (UBE) | UBE = constant GS0120. .
You can see from figure Z0119.
Curve out of this cluster has the following characteristics:. .
(1) UBE = 0 a curve and diode forward similar characteristics. This is because UCE = 0, collector and emitter circuit, the equivalent of two diodes in parallel so that the relationship between the IB and UCE into two parallel diode current-voltage characteristics.
(2) UCE increases gradually from zero input characteristic curve to the right, and when the UCE to larger values (such as UCE> 1V), the curves almost coincide. This is because the UCE increases from zero when the collector junction width increased, base width decreases accordingly, so that storage in the base region into the number of carriers decreases, composite decreases, and thus IB reduced. Such as maintaining IB is constant, we must increase the UBE, it is the curve to the right.。.
(3) and, like diodes, transistors have a threshold voltage Vγ, usually silicon tube of about 0. 5 ~ 0. .6 V, germanium tubes is about 0. 1 ~ 0. .2 V. .
2. output characteristic curve.
Output characteristic curve shown in Figure Z0120. Test circuit shown in Figure Z0117. .
Output characteristic curve of the mathematical expression is:.
Can also be seen from the figure, the output characteristic curve can be divided into three areas:. .
(2) the saturation region: refers to the green area. In this region, corresponding to different values of the output characteristic curve of IB clusters almost coincide together. In other words, UCE small, Ic have increased, but little increase in Ic, which lost Ic IB's control. This condition is called a transistor saturation. Saturation, the transistor and the collector to the launch. .
Knots are to the bias. Transistor collector and emitter voltage called set between a hit saturation voltage drop, UCES said. UCES is very small, usually small and medium power silicon tube 0 .5V UCES ".; transistor base electrode-emitter voltage between saturate called base a shot to UCES represents the pressure drop, silicon tube around the 0.8V UCES.
OA line is called the critical saturation line (the green area at the right edge line), every point in the piece should be online. .
(3) active region: more than the cut-off area, and the breakdown area between the saturation region between the enlarged area. In this region, a cluster of parallel equidistant curve similar to the horizontal line, Ic and IB the change in the variable remained linear relationship, that ΔIc = βΔIB, and ΔIc>> ΔIB, that is in the region, the transistor with current amplification. In addition the collector voltage on the collector current of the control action is weak, when the UCE> 1 V, even if further increase UCE, Ic almost no increase at this time, if the IB the same, then the transistor can be viewed as a constant current source. .
In the enlarged area, transistor's launch-in to the bias, collector junctions at reverse bias State.
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Jianhua e-published: 06: 52: 17 | Read more | Comments 0 | Edit | Share 0..
> The main parameters of transistor transistor transistor parameter reflects the various performance indicators, an analysis of transistor circuits and the basis for selection of transistors. .
First, the current zoom factor.
1. Common emitter current gain. .
(1) total emitter DC current zoom factor.
It said the transistor in common emitter connection, a direct current operating point the ratio of IC and IB, when ignoring ICBO time. .
(2) total emitter AC current amplification coefficient β represents the triode total emitter connection, a constant, the UCE and the collecting electrode electric current variation Δ I C and base current variation ratio of Δ I B, that is.
Β value of the size of the tube, the amplification difference; β value is too large, unstable performance. Therefore, β is generally used in the pipe 30 to 80. .
2. total base current zoom factor.
Common base, said DC current gain transistor is connected in common base, an operating point the ratio of IC and IE. The case of ignoring the ICBO. .
(2) total base electrode AC current amplification coefficient α, which represents the transistor for total base connection, a constant at UCB, IC and IE's variation ratio, i.e.:..
Usually very small in the ICBO. .
And β,.
With α the difference is very small, therefore, the actual use of mixed and often indiscriminately. .
1. Set - base reverse saturation current ICBO. .
ICBO refers to launch open-drain, the collector and base between certain reverse voltage, the corresponding reverse current. It is a little child's drift current. Under certain temperature, ICBO is a constant. With the increase in temperature will increase the ICBO, transistor work instability of the main factors. In the same environment temperature, silicon tube ICBO than germanium tube ICBO much smaller.
2. Tunneling current ICEO. .
ICEO refers to the base drain, collector and emitter must reverse voltage between the collecting electrode electric current. ICEO and ICBO ties:..
ICEO = ICBO +. .
ICBO=(1+。.
) ICBO GS0125. .
The current seemed to express from the collector emitter, so called penetrating current. ICEO and ICBO, thermal stability is a measure of the transistor's important parameters.
Third, the frequency parameters. .
Frequency parameters reflect the transistor current zoom capacity and frequency parameters, characterization of the relationship between the frequency triode. scope of application.
1. Common emitter cutoff frequency fβ. .
Transistor of β value is a function of frequency bands in the β = β o almost has nothing to do with the frequency, but as the frequency increases, β value decline. When it β value drops in band 1/β O..
Times, the corresponding frequency, known as the common emitter cutoff frequency, with fβ said. .
2. characteristic frequency fT..
When the transistor's β value decreased to β = 1 when the corresponding frequency, called the characteristic frequency. In the context of fβ ~ fT, β value is almost linear relationship with f, f higher, β smaller, when the operating frequency f> fT, when they lost the amplification transistor. .
1. The maximum allowable collector power dissipation PCM. .
PCM is the transistor collector junction transistor heating caused by a parameter change no more than the allowed value, set the maximum power dissipation of the electrode. When the actual power Pc than PCM, not only pipes parameter changes, even burn the tubes. PCM-calculated by the following:.
PCM = ICUCE GS0126. .
When a known pipe of PCM, use on-can output characteristic curve to draw curves on a PCM.
2. The maximum allowable collector current ICM. .
When the IC is large, it β value gradually decline. General provisions on the β value drops to ratings 2/3 (or 1/2), the collecting electrode electric current for ICM when IC > ICM, β value has been reduced to the extent not practical, and there is the possibility of burning pipes.
3. Reverse breakdown voltage BVCEO and BVCEO. .
BVCEO refers to the base drain, collector and emitter of reverse Breakdown voltage.
BVCBO is open emitter, the collector and the base between the reverse breakdown voltage. Under normal circumstances the same tube. .
BVCEO(0。.5~0。.8)BVCBO 。 Transistor reverse voltage should be less than the breakdown voltage (1/2 ~ 1/3), to guarantee safe and reliable work of the pipe.
Limit of the 3 transistor parameters PCM, ICM, BVCEO and speak in front of critical saturation line, the area surrounded by cut-off line is a linear amplification transistor safe work area. Transistor used for amplification generally are required to work in this area. .
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Jianhua Electronic Posted at 06:50:51 | Read | Comments 0 | Edit | Share 0. .
Use NCP1200 substitution PWM control UC3842 circuit summary: introduces low-power, general-purpose offline power supply PWM current-mode controllers NCP1200 advantages and its substitution with substitution of circuit, circuit, pointed to the practical problems and solutions. Keywords: PWM controller current mode control NCP1200NCP1200 is ON Semiconductor company is a manufacturer of low-power, general-purpose offline power supply PWM current-mode controllers, it represents the hyper-intensive switching power supply's big leap.. NCP1200 contains the power supply is usually based on UC3842 all the necessary components, including timing components, feedback devices, low-pass filter and self-powered and so on. 1 NCP1200 structure and design features 1. .1 NCP1200 NCP1200 the internal structure of the standard current-mode system, and turn-off time determined by the peak current set point. Its internal structure shown in Figure 1, the device within the integrated skip comparator, 40/60/100kHz clock, Q flip-flop D ≤ 0. .8 Reset, low voltage stabilizers and voltage lockout. Built-in clock generator for NCP1200, so no external RC components.。 Optical coupler directly connected to the feedback pin 2, internal control monitoring signal flow of integrated circuits. The leading edge blanking 250ns (LEB) circuit saves an external R-C network. NCP1200 adopts SO-8 or DIP8 package. Its PIN description listed in table 1.
Table 1 NCP1200 pin description Pin Name Function 1 Adj pin to adjust the pin off the peak current began to skip work to adjust the level 2 FB to set the peak current set point by an optical coupler connected to the pin, with output power requirements may be to adjust the peak current set point 3 CS current sense input is used to detect primary current through a L. . E. .. Design features of .2 (1) low standby power consumption NCP1200 has consistent with United States energy star (Energy Star) and the European sky make (Blue Angel) wait for the machine power consumption requirements of low-cost solution. Due to the switching power supply under normal load conditions have good efficiency and output power decreases, its efficiency would begin to decline. So if you use bypassing some unwanted switching cycles, NCP1200 can significantly reduce the light load power consumption. In no case, NCP1200 total standby power can reach the International Energy Agency (IEA) latest recommendations.. Thus, in battery charger applications, without having to use the NCP1200 primary circuit designed specifically to meet the moment of loss of auxiliary power (such as when Vout is lowered). .
(3) when no audio noise NCP1200 in large peak current cycle does not jump, but wait until the peak current drops to user adjustable maximum limit values of 1/3 of the following occurs only when jumping cycle, which makes it not happening transformers, yiming can choose cheap magnetic devices without noise. (4) short-circuit protection by constantly monitoring the situation of the feedback line NCP1200 can detect a short circuit, and immediately reduce the output power, on the protection of the entire circuit. Once the short-circuit disappear, controller is back to normal work. Therefore, for a given application (such as a constant output power of power), you can easily disconnect this protection.. 2 substitution circuit 2 is replaced with the NCP1200 substitution of UC3842 circuit, the control chip is often used in single-ended counter circuit, the circuit NCP1200 power directly from the high voltage direct current lines. If a small adjustment to the substitution circuit is done there will be unintended consequences. (1) to further reduce total power consumption of standby power consumption by integrated circuits within the internal electronic module (clock, comparator, driver, etc.) and power consumption components, but also depends on the MOSFET gate charge Qg.If you need more current in the standby mode, can simply be a resistor connected to pin 6 (Vcc) to enhance the pin 1 on the level. Conversely if that default jump cycle peak current set point is too high, can also be a resistor from pin 1 ground and make it lower. Pin 1 of the output resistance is typically 24kΩ. (4) external MOSFET integrated circuits as to allow an external MOSFET, so the choice of anti-avalanche devices. Some cases (such as low output power), the active clamp circuit can not work.
Figure 2 substitution circuit. .
3 problems and solutions if the device is working on at 250V AC mains, the largest rectifier voltage can be high-350V DC. If the use of NCP1200 is 100kHz model, its power consumption to 340 × 1. .8mA = 612mW (1. .8mA values at higher working temperature will decrease). And DIP8 package NCP1200 provides thermal resistance junction to air is 100 degrees centigrade/W Roj-A.. In this regard, can be solved by the following methods: first, the NCP1200 DIP8 add some copper area around the pad. The second is a diode in series outside the pin 8, so that the maximum input voltage down to 222V (2 × 350 / π), so that consumes less than 400mW. Another way is through an auxiliary winding to achieve self-powered, to permanently disconnect from the power supply. NCP1200 SO-8 package, the same method can also solve the problem.。.
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Jianhua Electronic Posted at 11:09:46 | Read | Comments 0 | Edit | Share 0. .
> This page daily updates, new products launched, please pay attention! QQ: 569995238 (full) or 798206061 welcomes contact.
OUR Shopping Tips: Shop the sale of goods have been tested before shipment, issued after passing, if they are damaged by post, with the receipt can be returned within 1 week ticket exchange, more than 1 week will not be accepted, please mail customer own cost! All parts by welding without a replacement! After receiving the goods, the quantity of goods must be acceptance of the right face to face, no visible shipping damage after the receipt, the goods if the sign is considered normal! All the components out, self-overhaul, the tin, not-for-all repair damage Seals! . .
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Buy an accessory to ask a lot of questions, even after a week also continued to call to consult how to use a friend, please optimistic about the trade description, or purchase our full range of LCD repair information. Friends buy LCD accessories we have to add that we have no obligation to guide you how to use! Of course, if there is free time, we are happy and user exchange! If knowledge and understanding of the various liquid crystal, liquid crystal materials can consider buying their own learning. .
In view of limited maintenance operations have many friends to buy fewer components in order to meet all aspirations, with immediate effect, all purchases over 400 yuan each time enjoy the wholesale price; purchase information and programmer Optional accessories to enjoy the wholesale price; for the first time purchases of less than 400 yuan, please contact the retail price, declined to bargain. Please understand. .
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LCD monitor repair complete set material officially launched, including the above maintenance tutorial book, as well as through various CD-ROM LCD drawings, manuals, video tutorials, IC chips, transistor, and more, providing subsequent updates! new LCD Repair recorders (programmer, programming for all this stuff) on the PCB has been modified, adjusted the component parameters, expand the software functionality, giving all programs that provide software updates!.
【Hot Zone】> As often asking friends to buy accessories for CRT display accessories, and now wishes to meet our friends, the introduction of CRT monitors premium accessories package, all the most commonly used parts, including 10 UC3842 (New Genuine) +10 2SC5411 (original disassemble) +10 2SK2141 (original disassemble) +10 TL431 (New Genuine) +10 BU2527AX (original disassemble), for only 78 yuan per pack! ! . .
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Through hard work, finally found some MCU NT68F63 microcontroller supply, ensure brand new original free write program! ... absolutely new, original, genuine, good quality and eliminate rework! not dismantle or bulk new. Retail $ X per tablet. >。.
Appliance repair increasingly inseparable from the programmer, integrated a number of factors, to recommend a restaurant in Nanjing Syrte produced SUPERPRO 580U million driven by 48-foot full-programmer, for only 1900 yuan! For more information please visit the official website or see Cyert 50 floor post. .
Samsung LCD vulnerable manifold LXD91811, LXD91812, LPD91821 arrival, these chips can be easily damaged, expressed as white screen, video, gray bar, without display, etc. LXD91811 can direct substitution LXD91810 >.
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New to a group of various notebook HP, T1451A programme, MP1015 programmes, programmes, etc. all have 5001C, applicable to all kinds of laptop computer repair and single lamp LCD display, ultra low price!..
>>> Installed the test is a must, with a line with the standard two-color indicator light plug with 9 5 key 6 key key board a lot of arrival, bulk prices are most excellent! . .
A use of Wei Huang smart multifunctional programming WH-500AP, $ 450 absolutely easy to use!! power adapter is equipped. The programmer sets encryptor, programmer, encryptor/decryptor, frequency counter, hit counter, signal generator, Logic Analyzer, memory oscilloscope, IC card reader and other practical functions that may be the current market price-performance up to one of the programmer, is ideal for home appliance repair and hobbyist use! reliable high-speed communication technology. Programmer built-in numerical control voltage circuit, programming voltage and programming sequence by the built-in microprocessor precision control, and PC has nothing to do with the speed and configuration, you can provide 1.. Control software supports DOS and WINDOWS95/98/2000/XP other versions, the interface is very friendly. Can continue to upgrade the software free of charge. >. .
>。.
Area】 【driver board. .
Latest offers:-thank you support, LVDS interface to write programs common plate large one-time purchase discounts! 20 X per Tablet only need 10 tablets each, $ tablets X $!!! Give the detailed specifications, this Board supports a wide range of display, performance stable, without audio.
LVDS interface: the most common and stable maintenance of the cheapest generic liquid crystal display panel, to adapt to a variety of 10 to 19-inch LCD LVDS Interface, free program the BIOS, for only X dollars! ! ! . .
TTL interface: the most common, most stable, most cheap LCD monitor repair universal plates, 10 ~ 19 inch LCD various TTL interfaces, free to burn and write BIOS, only sales X $!!!.
LCD TV, DIY enthusiasts Gospel: TTL-compatible interface and LVDS interface, VGA + TV + S + AV Quad driver board with NT68521 programs to meet the 10 to 19-inch LCD screen, free program the BIOS, giving the remote control, for only XX dollars! ! ! . .
DVI + VGA interface, supports LVDS large-screen LCD, the market was the hottest digital simulation of dual interface driver Board, which can be used to repair the machine, or you can upgrade your single analog interface displays and experience the thrill of digital transmission! free programming BIOS, only sales of $ XX..!!!
HSD150X82, HSD150X84 other special driver board: for Lenovo, AOC, Samsung and other models using this brand of LCD, bad driver board MCU no longer have to worry constantly rework, to ensure that connected like! . .
. .
Four keys to five key generic, menu absolutely beautiful, comes with a screen saver, free audio branding machine maintenance best driver Board, complimentary companion pingxian, support screen with 17 ~ 19 inch LCD LVDS interface puping General driver Board, now sells for $ 55. Note that this Board is our package library, you have an installation test marks, we guarantee quality.
Read the instructions before using the driver board, remember to check the function of a good screen after the power line pin! . .
TMDS interface board, RSDS interface boards, and other special plate ... Details of QQ or phone. Because screen type confusion, we do not guarantee you to burn and write program is sure to light up your screen! does not assume any responsibility for this, please understanding!..
】 【Pressure plate area. .
Single lamp pressure plate (also called hypertension, inverter ... ) Only $ MP1018 after-sales X..!!
Lamps high pressure section for only X dollars! ! ! T5001 + 4405 + D1803 program. .
4 lamps only sales X $ BIT3193G + IRLR3410 programme!!!.
Installation of ultra-thin case for the 4 lights big mouth, small mouth pressure plate 4 lights arrive, are sold X million, KA7500C + FDS8958A programs, good quality! . .
New to a group of various notebook HP, T1451A programme, MP1015 programmes, programmes, etc. all have 5001C, applicable to all kinds of laptop computer repair and single lamp LCD display, ultra low price!..
【Power adapter / power high-voltage integrated board area】. .
LCD monitor, notebook with an external power adapter, and of course you can also do his Oh instead.
Input Voltage: AC100 ~ 240V, Output voltage DC12V Output current 1A, standard plug, is for only 15 yuan! ! ! . .
Input Voltage: AC100 ~ 240V, Output voltage DC12V Output current 4A, the standard price of 28 yuan of products plug arrival again! ! ! Quality is better than before to solve the problem of large amount of heat. .
Notebook Adapter output voltage 19V 3 .16A arrival current.! retail $ 40!..
Notebook adapter output voltage of 16V current 4. .5 A arrival! Retail 42 yuan! . .
Other lamp, special sizes, special power supply voltage of high pressure plate QQ talk!..
4 lamp high power integrated board small mouth arrival (Samsung original part, good quality! Some with signs of installation and testing, random delivery)>. .
【 Enclosure/SKD Suite div. 】..
13. .3 "14" 15 "17" 19 "and other chassis, SKD kits full arrival! LCD display kit, LCD TV package, can be equipped with a variety of LCD screen, the price for only X dollars!>..
12,14,15,17,19 LCD backlight lamp full arrival, import good quality! Excellent prices! Download the quote to purchase tail lamp tube appearance photos, look after the purchase approved!. .
A variety of screen wire TTL, LVDS screen lines, TTL pinch, 30P/40P/45P/50P Figure shipped flat cable! . .
【 Parts div. 】..
Article vulnerable and high-voltage components C5707 FR9024 (FU9024) a large number of arrival, 20 from the sale, the price QQ consultation, as more than 300 yuan to buy parts directly to you cheap. Note: The current market poor quality of many components of this model, the replacement of damaged again soon after, we guarantee that the sale is the original authentic! Supplement, FR9024 and FU9024 the only difference is the length of the different pins, and other parameters identical, can be directly substituted.。.
. .
LCD dedicated 3A, 2. .5A fuse, welding sheet patch insurance; commonly used 4.7 Ω 1 W current limiting resistor; > > 【other tools div. 】..
PLCC / DIP package Manifold pulling device, priced at 9 per! This price is applicable! . .
PLCC44 integrated circuit Sockets can be used to test, so that welding bad MCU, mounted on Samsung LCD driver Board, replaced by so-called Samsung dedicated programmer. Retail $! 3.
Universal Power VCD DVD repair a variety of additional 15 yuan 18 yuan 10 yuan tuner. .
> 。.
Various TV line output transformer, has a small screen big screen, 11 million. .
Samsung, Lenovo and other brands of LCD monitors, a large number of intelligent applications such as physiotherapy MCU MCU NT68F63 Value Hot! Write a program for free! Absolutely new original authentic, good quality, eliminate rework! Sold out! Because the current is very difficult to buy the new film, please wait for new sources. .
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> 2007-6-9 05:51. .
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Buy our full range of information already contained the drawings. Drawing every purchase of selected models of all 10 yuan, need to print mail services 20. More worthwhile to buy the collection, we not only drawings of these data, most manufacturers service manual! Absolute value! . .
Buy driver board/high pressure plate, please download the interface definition.
Select shipped surface approach is important to note! Surface shipping cheap but arrived too long though, safety is not high, and unstable, generally ranging from 7-14 days, depending on the local may be. . So choose the surface of the customer to prepare themselves for a long way to the post office, even though we package very carefully, we can not promise absolute security transport! Particular lamp and LCD screen, if necessary surface, we are not responsible for causing the transport process damage!. .
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One shop selling high-voltage power board pictures. . Jpg (44. .41 KB). .
New Arrival 17-inch large LCD monitor with audio suite, including all accessories except external screen, power cord, manuals, boxes, etc., more than 5 sets of 188. Using the latest NT68623MEFG-64 single-chip solution, display a thief great! Not the general board can compare! 178 free audio temporarily out of stock. Single set of retail and 200. Price excluding freight. Because we have large shipments of such products when the price fluctuations before buying QQ inquiry. Sold out. .
Latest arrival 19 inch LCD monitor without audio large suite, including all accessories except for screen, power cord, brochures, packaging, etc., 5 sets above $ 228. Use MRT MV4-RL and effective programme, STK6006-F3! 250 single set of retail. The above price excluding freight. Because our shipments, this type of product price fluctuations, QQ inquiry before purchase. Sold out.
With the above packages are the most common 30-pin dual-chip 8-bit LVDS panel inserted lines, note that this screen divided line power supply anyway, do not mistake! Otherwise, screen burn or damage the driver board at your own risk! After the package has been fully fifty-one price! Friends to buy liquid crystal display hands quickly, and next month all the liquid crystal display prices will rise! . .
Latest DIY News: The latest big arrival of 19-inch LCD display kit, its absolute value DIY! Only need to shake the screw again and again is a complete line of large LCD display face! For only 1240 yuan each, the new A-screen. Paul no point plus 50! ! Assembled into finished products shipped with 20! ! Limited, first come first served! OUR goods is very sought-after Oh! ^ _ ^ Sold out. .
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(Note: fifty-one prices soared after the LCD screen! Yahuo risky. So we have empty inventory. There is need to share screen sporadic friends asked to pay in advance booking! Can commit one week of delivery. 17-inch screen is the largest gain, non-suits have no cost at all to be!). .
The above prices purchase limit! finally explain QQ: 569995238 online time 9: 00 ~ 21: 00 foreign friends QQ contact is not convenient, please add MSN: zjhjdwx @ hotmail. .com.
Tag:. .
Brand Model Number stitches resolution QIMEI (CMO) V320B1-L01 2 32. .
QIMEI (Chi) V320B1-L01 1 32..
QIMEI (CMO) V320B1-L01 5 32. .
QIMEI (Chi) V296W1-L14 1 30..
QIMEI (CMO) V270W1-L04 1 27. .
QIMEI (Chi) V270W1-L04 5 27..
QIMEI (CMO) V270W1-L04 4 27. .
V27OW1-L04 QIMEI (Chi) 2 27..
Sharp (Sharp) LQ255T3L215 39 25. .5. .
LG。.Philips LC230W02 21 23 。.
ID TECH M201Z2 3 20. .1 1680 * 1050. .
LG. . Philips LC200WX1 5 20. .
LG。.Philips LC201V02 1 20 640*480 。.
LG. . Philips LM201U02 1 20 1680 * 1050. .
Sharp (sharp) .7 LQ197V 125 19.640 * 480.
Sharp (Sharp) LQ197V 138 19. .7 640 * 480. .
AU 19 30 tablets M190ESN03 1 plug.
AU M190EW04 1 19 30 片 interpolation. .
IBM 190ME13 14 19 30 tablets plug.
IBM 190ME13 17 19 30 片 interpolation. .
IBM 190ME13 plug 2 19 30 tablets.
IBM 190ME13 2 19 30 片 interpolation. .
IBM 190ME13 1 19 30 tablets plug.
IBM 190ME13 69 19 30 片 interpolation. .
LG. .Philips LM190E02 plug 1 19 30 tablets.
LG. . Philips LM190E05 1 19 30 片 interpolation. .
13. Unipac UB133X01 0 .3 20P (small) 1024 * 768.
NEC NA19020-C961 1 19 30 片 interpolation. .
Samsung (Samsung) LTM190E1-L01 1 19 30 tablets plug.
Samsung (Samsung) LTM190E4-L03 1 19 30 片 interpolation. .
Samsung (Samsung) LTM190M2-L01 5 19 30 片 interpolation. .
TORISAN TM190SX-70N 8 19 。.
HT18E22-300 40 18. .
LG LP171WE2 1 17。.1 。.
LG. . Philips LM171W02 42 17. .1 30 plug. .
LG. .Philips LP171WE2 1 17. .1 30 tablets plug.
AU M170E4-L02 1 17 30 片 interpolation. .
AU 17 30 tablets M170EC01 1 plug.
AU M170EG01 1 17 30 片 interpolation. .
AU 17 30 tablets M170EG01 5 plug.
AU M170EN05 1 17 30 片 interpolation. .
AU (AUO) B170PW02 4 17 30 片 inserted 1440 * 900. .
Hyundai (modern) HT170E01-101 1 17 30 片 interpolation. .
LG. . Philips LM170E01 1 17 30 片 interpolation. .
LG. .Philips LM170E01 plug 1 17 30 tablets.
QUANTA QD17EL07 6 17 30 片 inserted 1280 * 1024. .
QUANTA QD17T02 11 17 30 片 interpolation. .
QUANTA QD17VL01 11 17 30 片 interpolation. .
QUANTA QD17WL02 7 17 30 片 interpolation. .
Samsung (Samsung) LTM170E4-L01 3 17 30 tablets plug.
Hitachi (Hitachi) TX38D81V 0 15 30 片 inserted 1024 * 768. .
Samsung (Samsung) LTM170E4-P02 1 17 30 tablets plug.
Samsung (Samsung) LTM170E5-L03 4 17 30 片 interpolation. .
Samsung (Samsung) LTM170EU-L02 1 17 30 片 interpolation. .
Samsung (Samsung) LTM170EU-L02 1 17 30 tablets plug.
Samsung (Samsung) LTM170EU-L02 4 17 30 片 interpolation. .
Samsung (Samsung) LTM170EU-L11 1 17 30 tablets-1280 * 1024.
Samsung (Samsung) LTM170EU-L21 3 17 30 片 interpolation. .
Samsung (Samsung) LTN170WA-L01 1 17 30 片 interpolation. .
Samsung (Samsung) LTN170WX-L01 1 17 30 片 inserted 1440 * 900. .
Samsung (Samsung) LTN170WX-L01 1 17 30 tablets-1440 * 900.
Samsung (Samsung) LTN170WX-L03 1 17 30 片 inserted 1440 * 900. .
Samsung (Samsung) LTN170WX-L05 2 17 30 tablets-1440 * 900.
Samsung (Samsung) LTN170WX-L05 1 17 30 片 inserted 1440 * 900. .
Samsung (Samsung) LTN170WX-L05 1 17 30 tablets-1440 * 900.
Samsung (Samsung) LTN171WX-L01 3 17 30 片 inserted 1440 * 900. .
Sharp (sharp) LQ170M1LA04 5 17 30 tablets plug.
FU-17-001 17 17. .
HT17E13-100 8 17 。.
HT17E13-100 7 17. .
LPA1WX2 4 17 30 tablets plug.
Hitachi (Hitachi) TX41D96V 1 16 30 片 interpolation. .
AU (brotherhood) .4 B154EW01 1 15.30 tablets into 1280 * 800.
AU (AUO) B154EW01 1 15. .4 30 inserted 1280 * 800. .
AU (brotherhood) .4 B154EW01 1 15.30 tablets into 1280 * 800.
AU (AUO) B154EW01 2 15. .4 30 plug. .
Hitachi (Hitachi) TX36D79V 0 14. .1 20P 1024 * 768.
AU (AUO) B154EW01 1 15. .4 30 plug. .
AU (brotherhood) .4 B154EW01 6 15.30 tablets into 1280 * 800.
CHUNGHWA CLAA154WA01 1 15. .4 30 inserted 1280 * 800. .
CHUNGHWA CLAA154WA01 8 15. plug 30 tablets .4 1280 * 800.
CHUNGHWA CLAA154WA01 2 15. .4 30 inserted 1280 * 800. .
CHUNGHWA CLAA154WA01 1 30 15. .4 tablets into 1280 * 800.
CHUNGHWA CLAA154WA01A 1 15. .4 30 inserted 1280 * 800. .
CHUNGHWA CLAA154WA02A 1 30 15. .4 tablets into 1280 * 800.
Hitachi (Hitachi) MD39301GBA 150 15. .4. .
Hitachi (Hitachi) .4 MD39301GBA 170.-15.
Hitachi (Hitachi) MD39301GBA 70 15. .4. .
Hitachi (Hitachi) .4 TX38D81V 1 15.30 tablets plug.
Hitachi (Hitachi) TX39D81V 1 15. .4 30 plug. .
Hitachi (Hitachi) .4 TX39D85V 3 15.30 tablets plug.
Hitachi (Hitachi) TX39D85V 1 15. .4 30 plug. .
Hitachi (Hitachi) .4 TX39D88V 2 15.30 tablets plug.
Hitachi (Hitachi) TX39D98V 2 15. .4 30 inserted 1400 * 1050. .
Hitachi (Hitachi) .4 TX39D99V 1 15.30 tablets-1680 * 1050.
Hitachi (Hitachi) TX39D99V 1 15. .4 30 inserted 1680 * 1050. .
Hitachi (Hitachi) .4 TX39D99V 1 15.30 tablets-1680 * 1050.
Hitachi (Hitachi) TX39D99V 1 15. .4 30 inserted 1680 * 1050. .
Hitachi (Hitachi) .4 TX39D99V 1 15.30 tablets-1680 * 1050.
LG. . Philips LP154W01 6 15. .4 30 plug. .
LG. . Philips LP154W01 20 15. .4 30 inserted 1280 * 800. .
LG. . Philips LP154W01 12 15. .4 30 inserted 1280 * 800. .
LG. .Philips LP154W01 1 15. plug 30 tablets .4 1280 * 800.
LG. . Philips LP154W01 3 15. .4 30 inserted 1280 * 800. .
LG. .Philips LP154W01-3B 2 15. .4 30 tablets into 1280 * 800.
LG. . Philips LP154W02 12 15. .4 30 inserted 1680 * 1050. .
LG. .Philips LP154W02 3 15. plug 30 tablets .4 1280 * 800.
LG. . Philips LP154W02 4 15. .4 30 inserted 1680 * 1050. .
Hitachi (Hitachi) TX31D72V 0 12. .1 20P 1024 * 768.
LG. . Philips LP154W02 6 15. .4 30 inserted 1680 * 1050. .
LG. .Philips LP154W02 3 15. plug 30 tablets .4 1680 * 1050.
LG. . Philips LP154W02 2 15. .4 30 inserted 1680 * 1050. .
LG. .Philips LP154W02 2 15. .4 30 tablets-1680 * 1050.
LG. . Philips LP154W02 1 15. .4 30 inserted 1680 * 1050. .
LG. .Philips LP154W02 13 15. plug 30 tablets .4 1280 * 800.
LG. . Philips LP154W02 6 15. .4 30 inserted 1680 * 1050. .
LG. 15.1 .Philips LP154WU1 30 tablets plug .4.
LG. . Philips LP154WU1 3 15. .4 30 plug. .
LG. .Philips LP154WU1 7 15. plug 30 tablets .4.
LG. . Philips LP154WU1 1 15. .4 30 plug. .
LG. .Philips LP154WU1 2 15. .4 30 tablets plug.
LG. . Philips LP154WX1 25 15. .4 30 plug. .
LG. .Philips LP154WX2 2 15. .4 30 tablets into 1280 * 800.
LG. . Philips LP154WX2 54 15. .4 30 plug. .
LG. .Philips LP154WX2 15 30 24. .4 tablets plug.
LG. . Philips LP154WX2 6 15. .4 30 plug. .
LG. .Philips LP154WX2 14 15. plug 30 tablets .4 1280 * 800.
LG. . Philips LP154WX2 55 15. .4 30 inserted 1280 * 800. .
LG. .Philips LP154WX2 29 15. plug 30 tablets .4 1280 * 800.
LG. . Philips LP154WX2 35 15. .4 30 inserted 1280 * 800. .
LG. .Philips LP154WX2 1 15. plug 30 tablets .4 1280 * 800.
LG. . Philips LP154WX2 6 15. .4 30 inserted 1280 * 800. .
LG. .Philips LP154WX2 1 15. plug 30 tablets .4 1280 * 800.
LG. . Philips LP154WX2 1 15. .4 30 inserted 1280 * 800. .
Hitachi (Hitachi) .1 TX31D21V 0 12.800 * 600.
LG. . Philips LP154WX2 2 15. .4 30 inserted 1280 * 800. .
LG. .Philips LP154WX2-TL01 1 15. plug 30 tablets .4 1280 * 800.
QIMEI (CMO) N154I1-L02 1 15. .4 30 inserted 1280 * 800. .
QIMEI (Chi) .4 N154I1-L07 1 15.30 tablets into 1280 * 800.
QIMEI (CMO) N154I1-L09 1 15. .4 30 inserted 1280 * 800. .
QIMEI (Chi) .4 N154I1-L09 2 15.30 tablets into 1280 * 800.
QIMEI (CMO) N154I1-L09 1 15. .4 30 inserted 1280 * 800. .
QIMEI (CMO) N154I1-L09 5 15. .4 30 inserted 1280 * 800. .
QIMEI (Chi) .4 N154I1-LOC 4 15.30 tablets into 1280 * 800.
QUANTA QD15TL02 1 15. .4 30 inserted 1280 * 800. .
QUANTA QD15TL02 4 15. plug 30 tablets .4 1280 * 800.
QUANTA QD15TL02 1 15. .4 30 inserted 1280 * 800. .
QUANTA QD15TL02 1 30 15. .4 tablets into 1280 * 800.
QUANTA QD15TL02 1 15. .4 30 inserted 1280 * 800. .
QUANTA QD15TL02 1 30 15. .4 tablets into 1280 * 800.
QUANTA QD15TL03 1 15. .4 30 inserted 1280 * 800. .
QUANTA QD15TL11 1 30 15. .4 tablets into 1280 * 800.
Samsung (Samsung) LTN154E1-L01 1 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154E1-L01 1 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154P1-L01 1 15. .4 30 inserted 1680 * 1050. .
Samsung (Samsung) .4 LTN154P1-L01 2 15.30 tablets-1680 * 1050.
Samsung (Samsung) LTN154P1-L01 1 15. .4 30 inserted 1680 * 1050. .
Samsung (Samsung) .4 LTN154P1-L02 1 15.30 tablets-1680 * 1050.
Samsung (Samsung) LTN154P1-L02 2 15. .4 30 inserted 1680 * 1050. .
Samsung (Samsung) .4 LTN154P1-L02 7 15.30 tablets-1680 * 1050.
Samsung (Samsung) LTN154P1-L02 5 15. .4 30 inserted 1680 * 1050. .
Samsung (Samsung) .4 LTN154P1-L02 4 15.30 tablets-1680 * 1050.
Samsung (Samsung) LTN154P1-L02 2 15. .4 30 inserted 1680 * 1050. .
Samsung (Samsung) .4 LTN154P1-L02 4 15.30 tablets-1680 * 1050.
Samsung (Samsung) LTN154P1-L03 1 15. .4 30 inserted 1680 * 1050. .
Samsung (Samsung) .4 LTN154P1-L03 2 15.30 tablets-1680 * 1050.
Samsung (Samsung) LTN154P1-L03 2 15. .4 30 inserted 1680 * 1050. .
Samsung (Samsung) LTN154P1-L03 1 15. .4 30 inserted 1680 * 1050. .
Samsung (Samsung) .4 LTN154U1-L01 4 15.30 tablets plug in 1920 * 1200.
Samsung (Samsung) LTN154U1-L01 3 15. .4 30 inserted 1920 * 1200. .
Samsung (Samsung) .4 LTN154U1-L01 1 15.30 tablets plug in 1920 * 1200.
Samsung (Samsung) LTN154U1-L01 13 15. .4 30 inserted 1920 * 1200. .
Samsung (Samsung) .4 LTN154U1-L02 1 15.30 tablets plug in 1920 * 1200.
Samsung (Samsung) LTN154U1-L02 1 15. .4 30 inserted 1920 * 1200. .
Samsung (Samsung) .4 LTN154U1-L02 10 15.30 tablets plug in 1920 * 1200.
Samsung (Samsung) LTN154U1-L02 1 15. .4 30 inserted 1920 * 1200. .
Samsung (Samsung) LTN154U1-L02 2 15. .4 30 inserted 1920 * 1200. .
Samsung (Samsung) LTN154U1-L02 3 15. .4 30 inserted 1920 * 1200. .
Samsung (Samsung) .4 LTN154WU1 3 15.30 tablets plug in 1920 * 1200.
Samsung (Samsung) LTN154X1-L01 1 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) LTN154X1-L01 5 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X1-L02 1 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X1-L02 1 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X1-L02 1 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X1-L02 5 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X1-L02 9 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X1-L03 1 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X1-L03 8 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X1-L03 1 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) LTN154X1-L03 2 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X1-L03 1 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X1-L03 1 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X1-L06 1 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X2-L02 1 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X3-L01 135 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X3-L01 5 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X3-L01 1 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X3-L03 1 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X3-L03 1 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X3-L04 1 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X3-L06 1 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X5-L02 1 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X5-L02 1 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X5-L02 1 15. .4 30 inserted 1280 * 800. .
TORISAN TM121SV-22L11 0 12。.1 20P 800*600 。.
Samsung (Samsung) LTN154X5-L02 1 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X5-L02 1 15.30 tablets into 1280 * 800.
Samsung (Samsung) LTN154X5-L02 4 15. .4 30 inserted 1280 * 800. .
Samsung (Samsung) .4 LTN154X5-L02 4 15.30 tablets into 1280 * 800.
Sharp (Sharp) LQ154M1LW02 1 15. .4 30 inserted 1920 * 1200. .
Sharp (sharp) .4 LQ154MLW01 1 15.30 tablets plug in 1920 * 1200.
Toshiba (Toshiba) LTD154EX4N 1 15. .4 30 inserted 1920 * 1200. .
Toshiba (Toshiba) .4 LTD154EXOD 1 15.30 tablets plug in 1920 * 1200.
Toshiba (Toshiba) LTD154EXOV 1 15. .4 30 inserted 1920 * 1200. .
Toshiba (Toshiba) .4 LTD154EZOC 3 15.30 tablets plug in 1920 * 1200.
Toshiba (Toshiba) LTD154EZOC 9 15. .4 30 inserted 1920 * 1200. .
Toshiba (Toshiba) .4 LTD154EZOC 1 15.30 tablets plug in 1920 * 1200.
Toshiba (Toshiba) LTD154EZOC 1 15. .4 30 inserted 1920 * 1200. .
Toshiba (Toshiba) .4 LTD154EZOC 2 15.30 tablets plug in 1920 * 1200.
Toshiba (Toshiba) LTD154EZOD 1 15. .4 30 inserted 1920 * 1200. .
Toshiba (Toshiba) .4 LTD154EZOl 2 15.30 tablets plug in 1920 * 1200.
Toshiba (Toshiba) LTD154EZOL 1 15. .4 30 inserted 1920 * 1200. .
Toshiba (Toshiba) .4 LTD154EZOL 12 15.30 tablets plug in 1920 * 1200.
Toshiba (Toshiba) LTD154EZOL 1 15. .4 30 inserted 1920 * 1200. .
Toshiba (Toshiba) .4 LTD154EZOL 11 15.30 tablets plug in 1920 * 1200.
AU (AUO) B152EW01 1 15. .2 20 1280 * 854 inserted. .
AU (brotherhood) .2 B152EW01 1 15.20 tablets plug.
LG. . Philips LP152W02 5 15. .2 20 plug. .
Samsung (Samsung) .2 LTN152W1-L01 1 15.20 tablets into 1280 * 854.
Samsung (Samsung) LTN152W1-L01 1 15. .2 20 1280 * 854 inserted. .
Samsung (Samsung) .2 LTN152W3-L01 1 15.20 tablets into 1280 * 854.
TORISAN TM121SV-02L01 12. 800 * 600 41 .1 deduction. .
Samsung (Samsung) .2 LTN152W3-L01 1 15.20 tablets plug.
Samsung (Samsung) LTN152W4-L01 2 15. .2 20 1280 * 854 inserted. .
Samsung (Samsung) .2 LTN152W4-L02 13 15.20 tablets into 1280 * 854.
Samsung (Samsung) LTN152W5-L01 1 15. .2 20 1280 * 854 inserted. .
Samsung (Samsung) .2 LTN152W5-L02 2 15.20 tablets into 1280 * 854.
Samsung (Samsung) LTN152W5-L02 1 15. .2 20 1280 * 854 inserted. .
Samsung (Samsung) .2 LTN152W5-L02 1 15.20 tablets plug.
Samsung (Samsung) LTN152W5-L03 1 15. .2 20 1280 * 854 inserted. .
Samsung (Samsung) .2 LTN152W5-L03 4 15.20 tablets into 1280 * 854.
Samsung (Samsung) LTN152W5-L03 4 15. .2 20 plug. .
Samsung (Samsung) .2 LTN152W6-L01 1.15.
Samsung (Samsung) LTN152W6-L01 1 15. .2. .
IBM ITSX93 (47L8130) 1 15. .1 30P (small) 1400 * 1050.
AU M150X4-L06 8 15 1024 * 768. .
AU M150XN02 8 15 80 for 1024 * 768.
AU M150XN05 6 15 1024 * 768. .
AU (brotherhood) B150PG03 1 15 30 tablets-1400 * 1050.
AU (AUO) B150PG03 1 15 30 片 inserted 1400 * 1050. .
AU (brotherhood) B150PG03 1 15 30 tablets-1400 * 1050.
AU (AUO) B150PG03 1 15 30 片 inserted 1400 * 1050. .
AU (brotherhood) B150PG03 1 15 30 tablets-1400 * 1050.
AU (AUO) B150PG03 3 15 30 片 inserted 1400 * 1050. .
AU (brotherhood) B150PN01 1 15 30 tablets-1400 * 1050.
AU (AUO) B150PN01 1 15 30 片 inserted 1400 * 1050. .
AU (brotherhood) B150XG01 4 15 30 tablets plug in 1024 * 768.
AU (AUO) B150XG01 1 15 30 片 inserted 1024 * 768. .
AU (brotherhood) B150XG01 2 15 30 tablets plug in 1024 * 768.
AU (AUO) B150XG01 1 15 30 片 inserted 1024 * 768. .
AU (brotherhood) B150XG01 4 15 30 tablets plug in 1024 * 768.
AU (AUO) B150XG01 1 15 30 片 inserted 1024 * 768. .
AU (brotherhood) B150XG01 2 15 30 tablets plug in 1024 * 768.
AU (AUO) B150XG01 1 15 30 片 inserted 1024 * 768. .
AU (brotherhood) B150XG01 3 15 30 tablets into 1024 * 768.
AU (AUO) B150XG01 2 15 30 片 inserted 1024 * 768. .
AU (brotherhood) B150XG01 2 15 30 tablets plug in 1024 * 768.
AU (AUO) B150XG01 4 15 30 片 inserted 1024 * 768. .
AU (brotherhood) B150XG02 2 15 30 tablets plug in 1024 * 768.
AU (AUO) B150XG02 1 15 30 片 inserted 1024 * 768. .
AU (brotherhood) B150XG02 2 15 30 tablets plug in 1024 * 768.
AU (AUO) B150XG02 1 15 30 片 inserted 1024 * 768. .
AU (brotherhood) B150XG02 1 15 30 tablets plug in 1024 * 768.
AU (AUO) B150XG02 2 15 30P 1024 * 768. .
AU (brotherhood) B150XG02 1 15 30 tablets plug in 1024 * 768.
AU (AUO) B150XG03 2 15 20P 1024 * 768. .
AU (brotherhood) B150XG03 7 15 20P 1024 * 768.
CHUNGHWA CLAA150PA01 1 15 30 片 inserted 1400 * 1050. .
AU (brotherhood) B141XN01 1 14. .1 20P 1024 * 768.
AU (AUO) B141XN04 1 14. .1 20P 1024 * 768. .
AU (brotherhood) B141XN04 1 14. .1 20P 1024 * 768.
AU (AUO) B141XN04 1 14. .1 20P 1024 * 768. .
CHUNGHWA CLAA141XB01 2 14。.1 20P 1024*768 。.
CHUNGHWA CLAA141XB01 1 14. .1 20P 1024 * 768. .
CHUNGHWA CLAA141XB01 1 14。.1 20P 1024*768 。.
CHUNGHWA CLAA141XB01 1 14. .1 20P 1024 * 768. .
CHUNGHWA CLAA141XC01 1 14。.1 20P 1024*768 。.
CHUNGHWA CLAA141XC01 2 14. .1 20P 1024 * 768. .
CHUNGHWA CLAA141XC01 1 14。.1 20P 1024*768 。.
HannStar HSD141PK11 0 14. .1 30 * 1050 1400 inserted. .
HannStar HSD141PK13 1 14. .1 30 tablets-1400 * 1050.
Hitachi (Hitachi) TX36D38V 3 14. .1 30 plug 1024 * 768. .
Hitachi (Hitachi) .1 TX36D38V 1 14.30 tablets plug in 1024 * 768.
Hitachi (Hitachi) TX36D48V 3 14. .1 30 * 1050 1400 inserted. .
Hitachi (Hitachi) .1 TX36D58V 1 14.30 tablets-1600 * 1200.
Hitachi (Hitachi) TX36D58V 1 14. .1 30 * 1200 1600 inserted. .
Hitachi (Hitachi) TX36D62V 1 14. .1 20P 1024 * 768.
Hitachi (Hitachi) TX36D62V 1 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) TX36D62V 2 14. .1 20P 1024 * 768.
Hitachi (Hitachi) TX36D62V 2 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) TX36D70V 1 14. .1 20P 1024 * 768.
Hitachi (Hitachi) TX36D71V 1 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) TX36D74V 1 14. .1 20P 1024 * 768.
Hitachi (Hitachi) TX36D77V 3 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) TX36D77V 1 14. .1 20P 1024 * 768.
Hitachi (Hitachi) TX36D78V 1 14. .1 20P (small mouth) 1024 * 768. .
Hitachi (Hitachi) TX36D78V 1 14. .1 20P (small) 1024 * 768.
Hitachi (Hitachi) TX36D79V 1 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) TX36D79V 1 14. .1 20P 1024 * 768.
Hitachi (Hitachi) TX36D81V 1 14. .1 20P (plug side) 1024 * 768. .
Hitachi (Hitachi) TX36D84V 1 14. .1 20P 1024 * 768.
Hitachi (Hitachi) TX36D86V 2 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) TX36D86V 1 14. .1 20P 1024 * 768.
Hitachi (Hitachi) TX36D86V 1 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) TX36D86V 1 14. .1 20P 1024 * 768.
Hitachi (Hitachi) TX36D91V 5 14. .1 20P (plug side) 1400 * 1050. .
Hitachi (Hitachi) .1 TX36D98V 1 14.30 tablets-1400 * 1050.
Hitachi (Hitachi) TX36D98V 3 14. .1 30 * 1050 1400 inserted. .
Hitachi (Hitachi) .1 TX36D98V 1 14.30 tablets-1400 * 1050.
Hitachi (Hitachi) TX36D98V 1 14. .1 30 * 1050 1400 inserted. .
Hyundai (modern) HT141WX1-102 3 14. .1 30 tablets into 1280 * 800.
Hyundai (modern) HT141WX2-102 2 14. .1. .
Hyundai (modern) HT14P12-100 30 14. .1 30 tablets-1400 * 1050.
Samsung (Samsung) LTN154P1-L04 0 15. .4 30 inserted 1680 * 1050. .
Hyundai (modern) HT14X11-103 12 14. .1 30 tablets plug in 1024 * 768.
Hyundai (modern) HT14X11-103 1 14. .1 20P (plug side) 1024 * 768. .
Hyundai (modern) HT14X11-103 4 14. .1 20P (side plug) 1024 * 768.
Hyundai (modern) HT14X11-103 1 14. .1 20P (plug side) 1024 * 768. .
Hyundai (modern) HT14X11-103 1 14. .1 20P (side plug) 1024 * 768.
Hyundai (modern) HT14X11-103 2 14. .1 20P (plug side) 1024 * 768. .
Hyundai (modern) HT14X14-101 1 14. .1 20P 1024 * 768.
Hyundai (modern) HT14X14-101 7 14. .1 20P 1024 * 768. .
Hyundai (modern) .1 HT14X19 2 14.30 tablets plug in 1024 * 768.
Hyundai (modern) HT14X19-110 1 14. .1 30 plug 1024 * 768. .
Hyundai (modern) HT14X19-300 3 14. .1 30 tablets plug in 1024 * 768.
Hyundai (modern) HT14X1B-201 1 14. .1 30 plug 1024 * 768. .
Hyundai (modern) .1 HT14X1B-201 1 14.30 tablets plug in 1024 * 768.
Hyundai (modern) HT4X19-300 1 14. .1 30 plug 1024 * 768. .
IBM 07K7240 (ITSX68E) 1 14. .1 1024 * 768. .
IBM 09H0930 (ITXG76) 1 14. .1 1024 * 768. .
IBM 09J0930 (ITXG71) 1 14. .1 1024 * 768. .
IBM 09J0980 6 14。.1 1024*768 。.
IBM 09J0980 4 14. .1 1024 * 768. .
IBM 09J1000 1 14. .1 1024 * 768. .
IBM 21L6550 1 14. .1 1024 * 768. .
IBM 21L6550 1 14。.1 1024*768 。.
IBM 21L6550 1 14. .1 1024 * 768. .
IBM 21L6550 1 14。.1 1024*768 。.
IBM 21L8340 (ITXG71F) 2 14. .1 1024 * 768. .
IBM 21L8340(ITXG71F) 1 14。.1 1024*768 。.
IBM 21L8340 (ITXG71F) 1 14. .1 1024 * 768. .
IBM 25L7600 (ITXG74E) 1 14. .1 20P/thick 1024 * 768.
IBM 25L7600 (ITXG74E) 1 14. .1 20P / thick 1024 * 768. .
IBM 25L7660 (ITXG74E) 5 14. .1 20P / thick 1024 * 768. .
IBM 25L7660 (ITXG74E) 2 14. .1 20P/thick 1024 * 768.
IBM 26L4500 (ITXG64) 2 14. .1 20P 1024 * 768. .
IBM 26L4500 (ITXG64) 2 14. .1 20P 1024 * 768. .
IBM 47L8300 (ITXG76) 1 14. .1 20P / thick 1024 * 768. .
IBM 47L8300 (ITXG76) 1 14. .1 20P/thick 1024 * 768.
IBM ITXG06 1 14. .1 20P 1024 * 768. .
IBM ITXG76H 1 14. .1 20P 1024 * 768. .
IBM ITXG77C 3 14。.1 20P 1024*768 。.
LG LP141WX1 20 14. .1 30 plug 1280 * 800. .
LG. .Philips LP141E04 1 14. .1 20P (small) 1400 * 1050.
LG. . Philips LP141E05 1 14. .1 30 * 1050 1400 inserted. .
LG. .Philips LP141E2 3 14. .1 30 tablets-1400 * 1050.
LG. . Philips LP141WX1 8 14. .1 30 plug 1280 * 800. .
Samsung (Samsung) LTN150XG-L03 0 15 30 tablets plug in 1024 * 768.
LG. . Philips LP141WX1 2 14. .1 30 plug 1280 * 800. .
LG。.Philips LP141X10 1 14。.1 20P 1024*768 。.
LG. . Philips LP141X10 3 14. .1 20P 1024 * 768. .
LG。.Philips LP141X10 1 14。.1 20P 1024*768 。.
LG. . Philips LP141X2 3 14. .1 20P 1024 * 768. .
Samsung (Samsung) LTN150XG-L02 0 15 30 片 inserted 1024 * 768. .
Samsung (Samsung) LTN150XG-L02 0 15 30 tablets plug in 1024 * 768.
LG. . Philips LP141X2 1 14. .1 20P 1024 * 768. .
LG。.Philips LP141X2 6 14。.1 20P 1024*768 。.
Samsung (Samsung) LTN150XG-L02 0 15 30 片 inserted 1024 * 768. .
LG。.Philips LP141X2 8 14。.1 20P 1024*768 。.
LG. . Philips LP141X3 2 14. .1 20P 1024 * 768. .
LG。.Philips LP141X3 2 14。.1 20P 1024*768 。.
LG. . Philips LP141X3 1 14. .1 20P 1024 * 768. .
Samsung (Samsung) LTN150XE-L01 0 15 20P 1024 * 768.
LG. . Philips LP141X3 4 14. .1 20P 1024 * 768. .
LG。.Philips LP141X3 5 14。.1 20P 1024*768 。.
LG. . Philips LP141X4 1 14. .1 20P 1024 * 768. .
Samsung (Samsung) LTN150XC-L01 0 15 30 tablets plug in 1024 * 768.
LG. . Philips LP141X4 1 14. .1 20P 1024 * 768. .
LG. . Philips LP141X5 2 14. .1 20P 1024 * 768. .
LG. . Philips LP141X7 34 14. .1 20P 1024 * 768. .
LG。.Philips LP141X7 10 14。.1 20P 1024*768 。.
LG. . Philips LP141X8 40 14. .1 20P 1024 * 768. .
LG。.Philips LP141X8 2 14。.1 20P 1024*768 。.
LG. . Philips LP141X8 1 14. .1 20P 1024 * 768. .
LG。.Philips LP141X8 1 14。.1 20P 1024*768 。.
LG. . Philips LP141X8 1 14. .1 20P 1024 * 768. .
LG。.Philips LP141X8 1 14。.1 20P 1024*768 。.
LG. . Philips LP141X8 1 14. .1 20P 1024 * 768. .
LG. . Philips LP141XB 11 14. .1 20P 1024 * 768. .
LG。.Philips LP141XB 1 14。.1 20P 1024*768 。.
MITSUBISHI (Mitsubishi) AA141XA11 1 14. .1 20P 1024 * 768. .
MITSUBISHI (Mitsubishi) AA141XA11 1 14. .1 20P 1024 * 768.
MITSUBISHI (Mitsubishi) AA141XA12 1 14. .1 20P 1024 * 768. .
MITSUBISHI (Mitsubishi) AA141XA12 1 14. .1 20P 1024 * 768.
NEC NL10276AC24-05 1 14. .1 20P 1024 * 768. .
NEC NL10276AC28-05 1 14。.1 20P 1024*768 。.
NEC NL10276BC28-08B 2 14. .1 20P 1024 * 768. .
NEC NL10276BC28-21G 1 14. .1 20P 1024 * 768. .
QIMEI (CMO) N141I1-L02 4 14. .1 30 plug 1280 * 800. .
QIMEI (Chi) .1 N141I1-L03 1 14.30 tablets into 1280 * 800.
QIMEI (CMO) N141I1-L03 1 14. .1 30 plug 1280 * 800. .
QIMEI (Chi) .1 N141I1-L06 2 14.30 tablets into 1280 * 800.
QIMEI (CMO) N141I1-L06 6 14. .1. .
QIMEI (Chi) N141X101 1 14. .1 20P 1024 * 768.
QIMEI (CMO) N141X201 27 14. .1 20P 1024 * 768. .
QIMEI (CMO) N141X201 1 14. .1 20P 1024 * 768. .
QIMEI (Chi) N141X201 1 14. .1 20P 1024 * 768.
QIMEI (CMO) N141X201 4 14. .1 20P 1024 * 768. .
QIMEI (CMO) N141X203 1 14. .1 20P 1024 * 768. .
Samsung (Samsung) LTN150U4-L01 0 15 30 tablets-1600 * 1200.
QIMEI (CMO) N141X203 4 14. .1 20P 1024 * 768. .
QIMEI (Chi) .1 N141X7 2 14.30 tablets plug in 1024 * 768.
QIMEI (CMO) N141XB 1 14. .1 30 plug 1024 * 768. .
QIMEI (Chi) .1 N141XB-L01 1 14.30 tablets plug in 1024 * 768.
QIMEI (CMO) N141XB-L01 2 14. .1 30 plug 1024 * 768. .
QIMEI (Chi) .1 N141XB-L03 1 14.30 tablets plug in 1024 * 768.
QIMEI(奇美) N141XB-L03 1 14。 .1 30 plug 1024 * 768. .
QIMEI (Chi) .1 N141XB-L04 2 14.30 tablets plug in 1024 * 768.
QIMEI (CMO) N141XB-L04 6 14. .1 30 plug 1024 * 768. .
Samsung (Samsung) LTN150P4-L01 0 15 30 tablets-1400 * 1050.
QIMEI (CMO) N141XB-L04 2 14. .1 30 plug 1024 * 768. .
QIMEI (Chi) .1 N141XB-L04 4 14.30 tablets plug in 1024 * 768.
QIMEI (CMO) N141XB-L04 1 14. .1 30 plug 1024 * 768. .
QIMEI (Chi) .1 N141XB-L05 2 14.30 tablets plug in 1024 * 768.
QIMEI (CMO) N141XB-L07 1 14. .1 30 plug 1024 * 768. .
Samsung (Samsung) LTN141XF-L05 0 14. .1 20P 1024 * 768.
QUANTA QD141X1LH01 1 14. .1 20P 1024 * 768. .
QUANTA QD141X1LH01 1 14。.1 20P 1024*768 。.
Samsung (Samsung) LTN141XD-L01 0 14. .1 20P 1024 * 768. .
Samsung (Samsung) LTN141XC-L01 0 14. .1 20P 1024 * 768.
QUANTA QD141X1LH03 1 14. .1 20P 1024 * 768. .
QUANTA QD141X1LH03 49 14. .1 20P 1024 * 768. .
QUANTA QD141X1LH03 3 14。.1 20P 1024*768 。.
QUANTA QD141X1LH03 1 14. .1 20P 1024 * 768. .
QUANTA QD141X1LH03 1 14。.1 20P 1024*768 。.
QUANTA QD141X1LH03 1 14. .1 20P 1024 * 768. .
QUANTA QD141X1LH03 4 14。.1 20P 1024*768 。.
QUANTA QD141X1LH03 1 14. .1 20P 1024 * 768. .
QUANTA QD141X1LH03 2 14。.1 20P 1024*768 。.
QUANTA QD141X1LH06 1 14. .1 20P 1024 * 768. .
Samsung (Samsung) .1 LTN141XA-L01 0 14.30 tablets plug in 1024 * 768.
Samsung (Samsung) LTN141XA-L01 0 14. .1 30 plug 1024 * 768. .
Samsung (Samsung) .1 LTN141XA-L01 0 14.30 tablets plug in 1024 * 768.
QUANTA QD141X1LH06 2 14. .1 20P 1024 * 768. .
14. QUANTA QD141X1LH12 1 .1 30 tablets plug in 1024 * 768.
QUANTA QD141X1LH12 1 14. .1 30 plug 1024 * 768. .
14. QUANTA QD141X1LH12 1 .1 30 tablets plug in 1024 * 768.
QUANTA QD14TL02 1 14. .1 30 plug 1280 * 800. .
14. QUANTA QD14WL01 1 .1 30 tablets into 1280 * 800.
Samsung (Samsung) LT121S5-105 2 14. .1 Deduction of 43 / thickness of 800 * 600. .
Samsung (Samsung) .1 LTN141P4-L02 0 14.30 tablets-1400 * 1050.
Samsung (Samsung) LT141FL02 1 14. .1 30 plug 1024 * 768. .
Samsung (Samsung) LT141X21-124 2 14. .1 20P 1024 * 768.
Samsung (Samsung) LT141X2-124 1 14. .1 20P 1024 * 768. .
Samsung (Samsung) LT141X2-126 1 14. .1 20P 1024 * 768.
Samsung (Samsung) LTN141P2-L02 0 14. .1 30 * 1050 1400 inserted. .
Samsung (Samsung) .1 LTN141P2-L02 0 14.30 tablets-1400 * 1050.
Samsung (Samsung) LT141X2-126 1 14. .1 20P 1024 * 768. .
Samsung (Samsung) LT141X2-126 2 14. .1 20P 1024 * 768.
Samsung (Samsung) LT141X2-126 5 14. .1 20P 1024 * 768. .
Samsung (Samsung) LT141X2-126 1 14. .1 20P 1024 * 768.
Samsung (Samsung) LT141X2-126 6 14. .1 20P 1024 * 768. .
Samsung (Samsung) LT141X2-152 1 14. .1 20P/thick 1024 * 768.
Samsung (Samsung) LT141X5-124 2 14. .1 20P / thick 1024 * 768. .
Samsung (Samsung) LTN141P4-L01 5 14. .1 30 * 1050 1400 inserted. .
Samsung (Samsung) .1 LTN141P4-L01 1 14.30 tablets-1400 * 1050.
Samsung (Samsung) LTN141U2-L01 4 14. .1 30 * 1050 1400 inserted. .
Samsung (Samsung) .1 LTN141U2-L01 2 14.30 tablets-1400 * 1050.
Samsung (Samsung) LTN141WD-L05 3 14. .1 30 plug 1280 * 800. .
Samsung (Samsung) LTN121XJ-L03 0 12. .1 20P 1024 * 768.
Samsung (Samsung) LTN141X8 1 14. .1 20P 1024 * 768. .
Samsung (Samsung) LTN141X8-L04 1 14. .1 20P 1024 * 768. .
Samsung (Samsung) LTN141X9-L01 1 14. .1 14P 1024 * 768.
Samsung (Samsung) LTN141XB 1 14. .1 30 plug 1024 * 768. .
Samsung (Samsung) .1 LTN141XB-L01 1 14.30 tablets plug in 1024 * 768.
Samsung (Samsung) LTN141XB-L02 4 14. .1 30 plug 1024 * 768. .
Samsung (Samsung) .1 LTN141XB-L02 7 14.30 tablets plug in 1024 * 768.
Samsung (Samsung) LTN141XB-L02 1 14. .1 30 plug 1024 * 768. .
Samsung (Samsung) .1 LTN141XB-L02 2 14.30 tablets plug in 1024 * 768.
Samsung (Samsung) LTN141XB-L02 1 14. .1 30 plug 1024 * 768. .
Samsung (Samsung) .1 LTN141XB-L02 2 14.30 tablets plug in 1024 * 768.
Samsung (Samsung) LTN141XB-L02 6 14. .1 30 plug 1024 * 768. .
Samsung (Samsung) .1 LTN141XB-L02 1 14.30 tablets plug in 1024 * 768.
Samsung (Samsung) LTN141XB-L02 1 14. .1 30 plug 1024 * 768. .
Samsung (Samsung) LTN141XD-L01 1 14. .1 20P 1024 * 768. .
Samsung (Samsung) LTN141XF-L02 1 14. .1 20P 1024 * 768.
Samsung (Samsung) LTN141XF-L05 1 14. .1 20P 1024 * 768. .
Sharp (Sharp) LQ141U1LH02 1 14. .1 30 * 1200 1600 inserted. .
Sharp (sharp) .1 LQ141U1LH02 2 14.30 tablets-1600 * 1200.
Sharp (Sharp) LQ141U1LH22 3 14. .1 30 * 1200 1600 inserted. .
Sharp (sharp) .1 LQ141U1LH22 3 14.30 tablets-1600 * 1200.
Sharp (Sharp) LQ141X1LH43 1 14. .1 20P 1024 * 768. .
Toshiba (Toshiba) LTD141EACV 1 14. .1 30 plug 1024 * 768. .
Toshiba (Toshiba) LTD141EAOD 6 14. .1 30 plug 1024 * 768. .
Toshiba (Toshiba) LTD141EAOV 2 14. .1 30 plug 1024 * 768. .
Toshiba (Toshiba) .1 LTD141EAOV 1 14.30 tablets plug in 1024 * 768.
Toshiba (Toshiba) LTD141LM1SG 1 14. .1 30 plug 1024 * 768. .
Toshiba (Toshiba) LTM14C406 3 14. .1 20P 1024 * 768. .
Toshiba (Toshiba) LTM14C446 1 14. .1 20P 1024 * 768. .
Toshiba (Toshiba) LTM14C453 1 14. .1 20P 1024 * 768.
Toshiba (Toshiba) LTM14C453 3 14. .1 20P 1024 * 768. .
Toshiba (Toshiba) LTM14C453K 1 14. .1 20P 1024 * 768.
Toshiba (Toshiba) LTM14C466 1 14. .1 20P 1024 * 768. .
Toshiba (Toshiba) .1 LTM14C550 2 14.30 tablets plug in 1024 * 768.
Unipac UB141X01 6 14. .1 20P 1024 * 768. .
Unipac UB141X01 1 14。.1 20P 1024*768 。.
Unipac UB141X01 5 14. .1 20P 1024 * 768. .
Unipac UB141X02 1 14. .1 20P 1024 * 768. .
Unipac UB141X03 2 14。.1 20P 1024*768 。.
Unipac UB141X03 1 14. .1 20P 1024 * 768. .
Unipac UB141X03 15 14。.1 20P 1024*768 。.
Unipac UB141X03 7 14. .1 20P 1024 * 768. .
Unipac UB141X03 5 14. .1 20P 1024 * 768. .
Unipac UB141X03 3 14。.1 20P 1024*768 。.
Unipac UB141X03 1 14. .1 20P 1024 * 768. .
Tong Bao (TOPPOY) TD141TGCK1 12 14. .1 30P 1024 * 768.
TPO (TOPPOY) TD141TGCK1 10 14. .1 30P 1024 * 768. .
TPO (TOPPOY) TD141TGCK1 1 14. .1 30P 1024 * 768. .
TPO (TOPPOY) TD141TGCK1 7 14. .1 30P 1024 * 768. .
Tong Bao (TOPPOY) TD141TGCK1 1 14. .1 30P 1024 * 768.
TPO (TOPPOY) TD141TGCK1 4 14. .1. .
Tong Bao (TOPPOY) TD141THCA1 1 14. .1 1024 * 768.
TPO (TOPPOY) TD141THCA1 1 14. .1 1024 * 768. .
AU (brotherhood) B140EW01 2 14 30 tablets into 1280 * 800.
AU (AUO) B140EW01 0 14 30 片 inserted 1280 * 800. .
LG. .Philips LP140WX1 5 14 30 tablets into 1280 * 800.
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Physical theorem, law, a formula sheet.
First, the particle movement (1 )------ straight line. .
1. . The average speed V flat = s / t (defined) 2. . Useful inference Vt2-Vo2 = 2as. .
3. intermediate times velocity Vt/2 = V ping = (Vt + Vo)/2 end speed 4. Vt = Vo + at. ..
5. . The middle position, velocity Vs / 2 = [(Vo2 + Vt2) / 2] 1 / 2 6. . Displacement s = V level t = Vot + at2 / 2 = Vt/2t. .
8. . Experimental inference Δs = aT2 {Δs adjacent consecutive equal time (T)} the difference in displacement. .
9. the main physical quantities and units-: initial velocity (Vo): m/s; Acceleration (a): m/s2; speed (Vt): m/s; time (t) SEC (s); displacement (s): metres (m); distance: meters; speed unit conversion: 1m/s = 3. .6km/h.
Note:. .
(2) a large object velocity and acceleration are not necessarily large;. .
(3) a = (Vt-Vo)/t is measured, is not a decision;..
(4) Other related content: particle, displacement and distance, reference system, time and time see Volume P19 〔〕 / s - t diagram, v - t graph / speed and velocity, instantaneous velocity 〔see Volume P24〕. .
2) free-falling.
1. . Initial velocity Vo = 0 2. . Terminal velocity Vt = gt. .
3. height h = whereabouts gt2/2 (from Vo position down) 4. inference Vt2 = 2gh..
Note:. .
(1) free fall sport is initial velocity is zero of uniformly accelerated motion, follow uniform rectilinear movement;..
(2) a = g = 9. .8m/s2 ≈ 10m/s2 (acceleration due to gravity at the equator near the small, small plains in the mountains than at the direction of straight down.) .
(3) vertical projectile motion.
1. . Displacement s = Vot-gt2 / 2 2. . Terminal velocity Vt = Vo-gt (g = 9. .8m/s2 ≈ 10m/s2). .
3. useful inferences Vt2-Vo2 =-2gs 4. increased maximum height Hm = Vo2/2g (throw point side).
5. . From time t = 2Vo / g (from throwing off the back of the original location of the time). .
注: 。.
(1) the whole process of treatment: a uniform deceleration of linear motion, the upward direction is positive, the acceleration be negative;. .
(2) of the processing: up to uniform deceleration linear motion, down to free fall campaign has symmetry;..
(3) The rise and fall with the symmetry of the process, as equivalent at the same point speed reverse and so on. .
Second, the particle movement (2)----curvilinear motion and gravitation.
1) HORIZONTAL movement. .
1. horizontal speed: Vx = Vo 2. vertical speed: Vy = gt.
3. . Horizontal displacement: x = Vot 4. . Vertical displacement: y = gt2 / 2. .
6. . Combined speed Vt = (Vx2 + Vy2) 1 / 2 = [Vo2 + (gt) 2] 1 / 2. .
-The angle between the horizontal direction and speed of β: t g β = Vy/Vx = gt/V0.
7. . Joint displacement: s = (x2 + y2) 1 / 2,. .
The angle between the horizontal displacement direction and t g α α: = y/x = gt/2Vo..
8. . Horizontal acceleration: ax = 0; vertical acceleration: ay = g. .
注: 。.
(1) flat curve throwing motion is uniform motion speed, acceleration g, is usually seen as a uniform linear horizontal and vertical transport of free fall motion;. .
(2) movement from falling height h (y) decision and is not related to horizontal throw speed;..
(3) θ and β of the relationship tgβ = 2tgα;. .
(4) in the flat polishing movement time t is the key to solving problems; (5) do curve moving object will have the direction of acceleration, speed and the resultant force (acceleration) direction are not on the same straight line, the body do curvilinear motion.
2) uniform circular motion. .
1. linear speed V = s/t = 2 r/T 2 π. angular velocity ω = Φ/t = 2 π/T = 2 π f..
3. . Centripetal acceleration a = V2 / r = ω2r = (2π / T) 2r 4. . Centripetal force F center = mV2 / r = mω2r = mr (2π / T) 2 = mωv = F co. .
5. cycle and frequency: T = 1/f 6. angular velocity and linear velocity: V = ω r..
7. . The relationship between angular velocity and rotational speed ω = 2πn (where frequency and speed the same meaning.) .
8. principal physical quantities and units-: arc length (s): metres (m); angle (Φ): radian (rad); frequency (f): Hertz (Hz); cycle (T): SEC (s); speed (n): r/s; RADIUS (r): metres (m); linear velocity (V): m/s; angular velocity (ω): rad/s; the centripetal acceleration: m/s2.
Note:. .
(1) the centripetal force can provide by a specific force or resultant force provides, you can also contribute by consistently providing the direction and velocity direction perpendicular to the circle;..
(2) make uniform circular motion of the object, the centripetal force equal to the force, and centripetal force only change the direction of the speed, the speed does not change size, so the kinetic energy of the object remains the same, the centripetal force is not acting, but the momentum changing. .
3) gravitation.
1. . Kepler's third law: T2/R3 = K (= 4π2/GM) {R: orbital radius, T: period, K: constant (nothing to do with the planet's mass, depending on the central body mass)}. .
2. the law of gravity: F = Gm1m2/r2 (G = 6. .67× 11N&S226; 10-m2/kg2, direction in their line).
3. . Celestial body gravity and the acceleration of gravity: GMm/R2 = mg; g = GM/R2 {R: object radius (m), M: celestial body mass (kg)}. .
4.. satellite around the velocity, angular velocity, duration: V = (GM/r) 1/2; ω = (GM/r3) 1/2; T = 2 π (r3/GM) 1/2 { M: Center celestial quality }..
5. . The first (second, third) speed of the universe V1 = (g to r to) 1 / 2 = (GM / r in) 1 / 2 = 7. .9 Km / s; V2 = 11. .2 Km / s; V3 = 16. .7 Km / s. .
6. GMm/geostationary satellite (r, + h) 2 = 4 π 2 m (r, + h)/T2 { h ≈ 36000km, h: height from the surface of the Earth, r: Earth's RADIUS }..
Note:. .
(1) Celestial movements required to provide by the gravitation of centripetal force, F to = F million;..
(2) application of the law of gravity can estimate the object's mass density, etc.;. .
(3) geostationary satellite can only be run on the equator, run cycle and Earth rotation cycle;..
(4) satellite orbital radius decreases, smaller potential energy, kinetic energy becomes larger, the speed becomes larger, the cycle becomes smaller (with three trans);. .
(5) the biggest Earth satellites around speed and minimum transmission speed is 7. .9km/s..
Third, the force (a common force, the force composition and decomposition). .
1. . Gravity G = mg (the direction of straight down, g = 9. .8m/s2 ≈ 10m/s2, the role of point in the center of gravity for the Earth near the surface.) .
2. Hooke's law F = kx { direction direction along the recovery deformation: stiffness coefficient k (N/m), the x: type variable (m) }..
3. . Sliding friction force F = μFN {relative motion in the opposite direction and the object, μ: friction coefficient, FN: positive pressure (N)}. .
4. static friction 0 ≤ f static ≤ fm (and objects using relative motion trend in the opposite direction, fm to the maximum static friction).
5. . Gravitation F = Gm1m2/r2 (G = 6. .67 × 10-11N &S226; m2/kg2, the direction in which the connection.) .
6. electrostatic force F = kQ1Q2/r2 (k = 9. .0×109N&S226; m2/C2, direction in their line).
7. . Electric field force F = Eq (E: field strength N / C, q: charge C, is charged by the electric force and field strength in the same direction.) .
8. a force F = B I L s I n θ (θ is the angle B and L, L F B: ⊥ = BIL, B//l: F = 0).
9. . Lorentz force f = qVBsinθ (θ is the angle between B and V, the time when the V ⊥ B: f = qVB, V / / B Time: f = 0). .
(1) stiffness coefficient k determined by the spring itself;. .
(2) friction coefficient μ and pressure size and contact area size regardless of the contact surface material properties and surface conditions, and other decisions.
(3) fm is slightly larger than μFN, generally regarded as fm ≈ μFN;. .
(4) other relevant content: static friction (size, direction of)] [see volume 1 Eclipse; P8.
(5) physical symbol and unit B: magnetic induction (T), L: effective length (m), I: current intensity (A), V: Charged particle velocity (m / s), q: charged particles (charged body ) charge (C);. .
2) The power of synthesis and degradation. .
1. the same straight line force of synthesis with: F = F1 + F2, reverse: F = F1-F2 (F1 > F2).
2. . Each angled composition of forces:. .
F = (F12 + F22 + 2 F 1 F 2 c o s α) 1/2 (cosine theorem) F1 ⊥ F2: F = (F12 + F22) 1/2.
3. . Force size range: | F1-F2 | ≤ F ≤ | F1 + F2 |. .
4. force of orthogonal decomposition: Fx = F c o s β, Fy = F s I n β (β-Heli and x axis angle between t g β = Fy/Fx).
Note:. .
(2) the relationship between force and contribute the equivalent substitutes can be used together to contribute to the joint action alternative, and vice versa have also set up;. .
(4) F1 and F2 values of a certain time, F1 and F2 of the angle (α angle) the greater the force is smaller;. .
(5) the same straight line force of synthesis, straight from the positive direction, and negative sign indicates the direction of a force, simplification for algebraic operations.
Fourth, dynamics (motion and force). .
2. . Newton's second law of motion: F = ma or a co-co-a = F / ma {determined by a force, force direction and cooperation}. .
4. . Total points combined force equilibrium F = 0, promotion {orthogonal decomposition, the three forces intersect principle}. .
6. . Newton's laws of motion applicable conditions: low speed for solving the problem, for macroscopic objects, not to deal with high-speed problems, not to see the first volume of microscopic particles P67 〔〕. .
Note: balance status refers to objects at rest or in uniform linear State, or the uniform rotation.
Fifth, vibration and wave (mechanical vibration and mechanical vibration transmission). .
2. . Pendulum period T = 2π (l / g) 1 / 2 {l: pendulum length (m), g: acceleration due to gravity value of the local establishment of conditions: the swing angle θ <100; l>> r}. .
3. characteristics of forced vibration frequency: f = f driving force.
4. . Resonance conditions: f = f solid driving force, A = max, to prevent resonance and application〕 〔see Volume P175. .
6. . Velocity v = s / t = λf = λ / T {wave propagation process, a cycle of forward propagation of a wave; velocity size is determined by the media itself}. .
7. sonic wave velocities (in air) 0 ° c: 332m/s, 20 ° c: 344m/s; 30 ℃: 349m/s; (sound waves are longitudinal waves).
8. . Wave obvious diffraction (wave continues to spread around obstacles or holes) conditions: the size of obstructions or holes smaller than the wavelength or less the same. .
10. . Doppler effect: As the wave source and the mutual movement between the observer, leading to wave source transmitting frequency and receiving frequency of the different {close to each other, receive frequency increases, and vice versa, reducing the P21〕 〔see Volume II}. .
注: 。.
(1) the natural frequency and amplitude objects, driving force independent of frequency, depending on the vibration of the system itself;. .
(2) strengthening district is the wave and wave or trough and trough met Office, the weakened area is the wave crest and the trough met Office;..
(3) wave is transmitted vibration, the medium itself does not move with wave occurs, is a form of energy transfer;. .
(4) interference and diffraction is Porter;..
(5) and wave vibration image image;. .
(6) other relevant content: application of ultrasonic and volume II] [see 2600/P22 vibration energy transformation, see volume 1 P173..
June, Impulse and Momentum (the object changes in the force and momentum). .
3. . Impulse: I = Ft {I: Impulse (N &S226; s), F: Constant (N), t: the role of force time (s), the direction determined by the F}. .
4. momentum theorem: I = Δ p or Ft = mvt-mvo {Δ Δ p: momentum change p = mvt-mvo, vector type}.
5. . Momentum conservation law: p = p after the former general, or p = p''can also be m1v1 + m2v2 = m1v1 '+ m2v2'. .
6. elastic collision: Δ Δ p = 0; E k = 0 {i.e. system momentum and kinetic energy is conserved}.
7. . Non-elastic collision Δp = 0; 0. .
<ΔEK><ΔEKm {ΔEK:损失的动能,EKm:损失的最大动能}
8.完全非弹性碰撞Δp=0;ΔEK=ΔEKm {碰后连在一起成一整体}
9.物体m1以v1初速度与静止的物体m2发生弹性正碰:
v1?=(m1-m2)v1/(m1+m2) v2?=2m1v1/(m1+m2)
10.由9得的推论-----等质量弹性正碰时二者交换速度(动能守恒、动量守恒)
11.子弹m水平速度vo射入静止置于水平光滑地面的长木块M,并嵌入其中一起运动时的机械能损失
E损=mvo2/2-(M+m)vt2/2=fs相对 {vt:共同速度,f:阻力,s相对子弹相对长木块的位移}
注:
(1)正碰又叫对心碰撞,速度方向在它们“中心”的连线上;
(2)以上表达式除动能外均为矢量运算,在一维情况下可取正方向化为代数运算;
(3)系统动量守恒的条件:合外力为零或系统不受外力,则系统动量守恒(碰撞问题、爆炸问题、反冲问题等);
(4)碰撞过程(时间极短,发生碰撞的物体构成的系统)视为动量守恒,原子核衰变时动量守恒;
(5)爆炸过程视为动量守恒,这时化学能转化为动能,动能增加;(6)其它相关内容:反冲运动、火箭、航天技术的发展和宇宙航行〔见第一册P128〕。
七、功和能(功是能量转化的量度)
1.功:W=Fscosα(定义式){W:功(J),F:恒力(N),s:位移(m),α:F、s间的夹角}
2.重力做功:Wab=mghab {m:物体的质量,g=9.8m/s2≈10m/s2,hab:a与b高度差(hab=ha-hb)}
3.电场力做功:Wab=qUab {q:电量(C),Uab:a与b之间电势差(V)即Uab=φa-φb}
4.电功:W=UIt(普适式) {U:电压(V),I:电流(A),t:通电时间(s)}
5.功率:P=W/t(定义式) {P:功率[瓦(W)],W:t时间内所做的功(J),t:做功所用时间(s)}
6.汽车牵引力的功率:P=Fv;P平=Fv平 {P:瞬时功率,P平:平均功率}
7.汽车以恒定功率启动、以恒定加速度启动、汽车最大行驶速度(vmax=P额/f)
8.电功率:P=UI(普适式) {U:电路电压(V),I:电路电流(A)}
9.焦耳定律:Q=I2Rt {Q:电热(J),I:电流强度(A),R:电阻值(Ω),t:通电时间(s)}
10.纯电阻电路中I=U/R;P=UI=U2/R=I2R;Q=W=UIt=U2t/R=I2Rt
11.动能:Ek=mv2/2 {Ek:动能(J),m:物体质量(kg),v:物体瞬时速度(m/s)}
12.重力势能:EP=mgh {EP :重力势能(J),g:重力加速度,h:竖直高度(m)(从零势能面起)}
13.电势能:EA=qφA {EA:带电体在A点的电势能(J),q:电量(C),φA:A点的电势(V)(从零势能面起)}
14.动能定理(对物体做正功,物体的动能增加):
W合=mvt2/2-mvo2/2或W合=ΔEK
{W合:外力对物体做的总功,ΔEK:动能变化ΔEK=(mvt2/2-mvo2/2)}
15.机械能守恒定律:ΔE=0或EK1+EP1=EK2+EP2也可以是mv12/2+mgh1=mv22/2+mgh2
16.重力做功与重力势能的变化(重力做功等于物体重力势能增量的负值)WG=-ΔEP
注:
(1)功率大小表示做功快慢,做功多少表示能量转化多少;
(2)O0≤α><90O 做正功;90O<α≤180O做负功;α=90o不做功(力的方向与位移(速度)方向垂直时该力不做功);
(3)重力(弹力、电场力、分子力)做正功,则重力(弹性、电、分子)势能减少
(4)重力做功和电场力做功均与路径无关(见2、3两式);(5)机械能守恒成立条件:除重力(弹力)外其它力不做功,只是动能和势能之间的转化;(6)能的其它单位换算:1kWh(度)=3.6×106J,1eV=1.60×10-19J;*(7)弹簧弹性势能E=kx2/2,与劲度系数和形变量有关。
八、分子动理论、能量守恒定律
1.阿伏加德罗常数NA=6.02×1023/mol;分子直径数量级10-10米
2.油膜法测分子直径d=V/s {V:单分子油膜的体积(m3),S:油膜表面积(m)2}
3.分子动理论内容:物质是由大量分子组成的;大量分子做无规则的热运动;分子间存在相互作用力。
4.分子间的引力和斥力(1)r
(2)r=r0,f引=f斥,F分子力=0,E分子势能=Emin(最小值)
(3)r>R0, f > f repulsion, diversion F molecular manifestations as gravity.
(4) r> 10r0, f = f cited exclusion ≈ 0, F molecular force ≈ 0, E molecular potential energy ≈ 0. .
5. the first law of thermodynamics W + Q = Δ U { (work and heat transfer, these two changes in the way of the effect is equivalent).
W: the external positive work done on the object (J), Q: heat absorbed by the object (J), ΔU: the increase in internal energy (J), relating to the first perpetual motion machine can not create the second volume, see P40〕 〔 }. .
6. the second law of thermodynamics.
Clinton expressed: the object can not be passed to the heat from low to high temperature objects, without causing other changes in (the direction of heat conduction);. .
Kelvin statements: not possible from a single source to absorb heat and leave it all to work, and not lead to other changes (internal energy into mechanical energy and directional) { involves the perpetual-motion machine of the second class is not created, see volume 2 Eclipse P44 }..
7. . Third Law of Thermodynamics: Thermodynamics zero temperature limit is not reached {the universe: -273. .15 Degrees Celsius (thermodynamics zero)}. .
(1) Brownian particle is not a molecule, Brown, the smaller the particles, Brownian motion, the more obvious the higher the temperature the more intense;. .
(2) the average temperature is molecule; the kinetic energy of the flag.
3) The attraction and repulsion between molecules exist, with the intermolecular distance decreases, but the repulsive force decreases faster than gravity;. .
(5) gas expansion, the outside world to do negative work on the gas W <0; temperature, internal energy increase ΔU> 0; absorb heat, Q> 0. .
(6) of the object's internal energy refers to the object of all potential molecular kinetic energy and molecules, for the sum of an ideal gas Intermolecular potential energy for zero elements; for zero.
(7) r0 for the molecule in the equilibrium state, the distance between molecules;. .
(8) other relevant content: transformation and constant law] [see volume II s P41/energy development and use, environmental protection, see volume 2 s/P47 objects internal energy, molecular kinetic energy, potential energy of molecular volume II] [see P47..
Nine, the nature of the gas. .
1. gas state parameter:..
Temperature: the macro level, the degree of hot and cold objects; microscopic, molecular random motion within the object of intense level of signs. .
Thermodynamic temperature and the Celsius temperature relationship: T = t + 273 { T: thermodynamic temperature (K), t: Celsius (° c) }..
Volume V: gas molecules can occupy the space, unit conversion: 1m3 = 103L = 106mL. .
2. . Gas molecule movement characteristics: a large gap between molecules; addition to the moment of collision, the weak interaction; a great rate of molecular motion. .
Note:. .
(2) Formula 3 set up the ideal conditions are a certain quality of gas, using the formula the units should pay attention to the temperature, t is Celsius temperature (℃), and T is absolute temperature (K). .
10. electric field.
1. . Both charges, charge conservation law, per charge: (e = 1. .60 × 10-19C); charged body charge equal to an integer multiple of per charge. .
3. . Electric field: E = F / q (defined type, formula) {E: electric field strength (N / C), is the vector (electric field superposition principle), q: charge the battery test (C)}. .
5. . Uniform electric field of the field strength E = UAB / d {UAB: AB between two voltage (V), d: AB the distance between two points in the direction of the field intensity (m)}. .
7. . Electric potential and potential difference: UAB = φA-φB, UAB = WAB / q =- ΔEAB / q. .
9. . Electrical potential energy: EA = qφA {EA: A point in the charged body electric potential energy (J), q: charge (C), φA: A point of potential (V)}. .
10. changes in potential energy Δ E A B = EB-EA { charged body in electric field location from A to B location when the difference of electric potential energy }..
11. . Electric field force acting and electrical potential energy ΔEAB =- WAB =- qUAB (the incremental electric potential energy is equal to the electric force acting in the negative.) .
12. capacitance C = Q/U (definition type, formula) { C: capacitance (F), charge Q: (C), U: voltage (electric potential difference between two plates) (V) }..
13. . Parallel plate capacitor C = εS/4πkd (S: two plates are on the area, d: vertical distance between two plates, ω: k). .
Common capacitor volume II] [see P111..
14. . Charged particles accelerated in an electric field (Vo = 0): W = ΔEK or qU = mVt2 / 2, Vt = (2qU / m) 1 / 2. .
15. a charged particle along the vertical electric field orientation to speed Vo into uniform electric field of deflection (not considering the gravity of the situation).
Class level of electric field direction: CV L = Vot (heterogeneous in charge with the same amount in the parallel plates: E = U / d). .
Parabolic movement parallel electric field orientation: initial velocity of zero of uniformly accelerated motion at2/d = 2, a = F/m = qE/m.
Note:. .
(1) two identical live metal ball contact, power distribution: original with dissimilar charge first and after in the equally, with the total amount of such charge; equally.
(2) electric field line starting from the termination of the positive charge on the negative charge, electric field lines do not intersect, the tangent direction to the direction of field strength, electric field line density at the field strength along the field lines becoming less and less electric potential, electric field lines and equipotential lines perpendicular ;. .
(3) common electric field distribution requirements of the electric field lines to recite] [see figure [volume 2 P98];..
(4) electric field (vector) and the electric potential (scalar) determined by the electric field itself, while the electric force and electric potential energy is also charged body with the power and the number and the relevant positive and negative charge;. .
(5) in the static balance conductor is an equipotential surface body, is an equipotential surface, conductor of the electric field lines near the surface perpendicular to the surface, conductor-in-field is zero, the conductor was no net charge, net charge only the conductor surface;..
(6) Capacitance unit conversion: 1F = 106μF = 1012PF;. .
(7) electronic volt (eV) is a unit of energy, 1eV = 1.10-19J .60×;..
(8) Other related content: static shielding〕 〔see Volume II P101 / CRT, scope and application, see Volume II P114〕 〔equipotential surface〕 〔see Volume II P105. .
11, constant current.
1. . Current intensity: I = q / t {I: current intensity (A), q: t at the time contained within a horizontal plane through the conductor of electricity (C), t: time (s)}. .
2. the Ohm's law: I = U/R { I: conductor current intensity (A) U: conductor at both ends of the voltage (V), R: conductor resistance (Ω) }..
3. . Resistance, Resistance Law: R = ρL / S {ρ: resistivity (Ω &S226; m), L: length of conductor (m), S: conductor cross-sectional area (m2)}. .
4. close the circuit of Ohm's law: E/I = (r + R) or E = Ir + IR or E = within + U U..
{I: total current in the circuit (A), E: electromotive force (V), R: the external circuit resistance (Ω), r: source resistance (Ω)}. .
5. electric power and electric power: W = UIt, P = UI { W: electric power (J), U: voltage (V) I: current (A), t: time (s), P: power consumption (W) }..
6. . Joule's law: Q = I2Rt {Q: electric (J), I: current through the conductor (A), R: conductor resistance (Ω), t: power-on time (s)}. .
7. pure resistance circuit: because I = U/W = R, Q, W = Q = UIt = I2Rt = U2t/R.
8. . The power of total fixed rate, power output, power efficiency: P total = IE, P out = IU, η = P out / P Total {I: circuit total current (A), E: electromotive force (V), U: Road-side voltage (V), η: power efficiency}. .
9. circuit serial/parallel series circuit (P, U and R proportional) parallel circuit (P, I and R inversely).
Electrical resistance (in collusion with and against) R series = R1 + R2 + R3 + 1 / R and = 1/R1 +1 / R2 +1 / R3 +. .
Current relations I total = I1 = I2/I3 I and = I1 + I2 + I3 +.
The total voltage relationship U = U1 + U2 + U3 + U total = U1 = U2 = U3. .
Power allocation P total = P1 + P2 + P3 + P total = P1 + P2 + P3 +.
10. . Ohmmeter resistor. .
After two tables pen shorted, adjust the meter pointer over partial Ro may. .
Ig=E/(r+Rg+Ro) 。.
After the measured resistance Rx Access the current through the meter. .
E/Ix = (r + Rg + Ro + Rx) = E/(R in a + Rx).
Corresponding to the Ix and Rx, it can indicate the size of the measured resistance. .
(3) use methods: mechanical zero, select range, ohm zero, measurement readings { note shift (rate) }, dial off retaining.
(4) Note: The measurement of resistance, to break the original circuit, select the range of the pointer near the center of each shift to re-zero ohm short circuit. .
Ammeter in connection:. .
External ammeter method:. .
Rx measurements = U / I = (UA + UR) / IR = RA + Rx> R true. .
Selected circuit conditions Rx>> RA [or Rx> (RARV) 1 / 2]. .
Choose the circuit conditions Rx < < (RARV) 1/2].
12. . Sliding rheostat in the circuit connection and limiting partial pressure connection. .
Voltage range of small, simple circuit, low power consumption. .
Easy to adjust the voltage selection criteria Rp > Rx.
Voltage adjustment range, circuit complexity, power consumption larger. .
Easy to adjust the voltage selection criteria Rp..
Note 1) unit conversion: 1A = 103mA = 106μA; 1kV = 103V = 106mA; 1MΩ = 103kΩ = 106Ω. .
(3) the total series resistance is greater than any sub-resistance, parallel resistance is less than any of the points of total resistance;. .
(4) when the power supply is internal resistance, detection tester for electronic circuit resistance increase, total current decrease, road-side voltage increase;..
(5) When the external circuit resistance is equal to the power resistor, power supply maximum output power, when the output power E2 / (2r);. .
Second, the magnetic field. .
2. . Ampere force F = BIL; (Note: L ⊥ B) {B: magnetic flux density (T), F: Ampere force (F), I: current intensity (A), L: Cable length (m)}. .
3. Lorentz force f = qVB (Note V ⊥ B); the mass spectrometer, see volume 2 Eclipse P155 { f: Lorentz force (N), q: charged particles charge (C), V: charged particle velocity (m/s) }..
4. . The gravity is negligible (without regard to gravity) case, the movement of charged particles into the magnetic field conditions (bilingual):. .
(2) charged particles into the magnetic field along the direction perpendicular to the magnetic field: do uniform circular motion, the following rules a) F = f to Los = mV2 / r = mω2r = mr (2π / T) 2 = qVB; r = mV / qB; T = 2πm/qB; (b) exercise period and the radius of circular motion and the line speed has nothing to do, no Lorentz force acting on charged particles (all cases); (c) the key to solving problems: drawing trajectory, find the center and given radius , central angle (= double Xianqie Jiao). .
注: 。.
(1) Ampere force and the Lorentz force direction can be determined by the left hand, but Lorentz force should pay attention to positive and negative charged particles;. .
(2) the characteristics of the magnetic induction lines and its common magnetic field magnetic induction line distribution to master] [see figure and volume II Eclipse P144; (3) other relevant content: the geomagnetic field/principle Magnetoelectric meter volume II] [see P150 2819/cyclotron volume II] [see P156 2819/magnetic materials.
XIII, electromagnetic induction. .
1. [EMF size calculation formula].
1) E = nΔΦ / Δt (universal formula) {Faraday's law of electromagnetic induction, E: induced voltage (V), n: induction coil turns, ΔΦ / Δt: the rate of change of magnetic flux}. .
2) E = BLV vertical (cutting magnetic induction line movement) { L: effective length (m) }..
3) Em = nBSω (the largest alternator EMF) {Em: peak electromotive}. .
2. . Flux Φ = BS {Φ: magnetic flux (Wb), B: uniform magnetic field of magnetic flux density (T), S: is on the area (m2)}. .
* 4. . Inductance electromotive force E from = nΔΦ / Δt = LΔI / Δt {L: Inductance (H) (coil L when a core is larger than the non-core), ΔI: changes in current, 710; t: time spent, ΔI / Δt: self-inductance current rate of change (change of speed)}. .
Tag:. .
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Some manufacturers of LCD models corresponding resolution and other parameters --------------------------------------- -----------------------------------------。 .
Part of the notebook screen models corresponding table manufacturer model number resolution size needle.
LG LM171W02 17. .1 30P (chip insertion) (16:9). .
AU LP171W01 17 & <60;. .
Hitachi (Hitachi) LQ154M1LW02 15. .4 30P 1920 * 1200. .
Hitachi (Hitachi) LTN154E1-L01 15. .4 20P 1280 * 1024.
Hitachi (Hitachi) LTN154P1-L01 15. .4 30P (chip interpolation) 1680 * 1050. .
Samsung (Samsung) TX39D97V 15. .4 30P (chip interpolation) 1400 * 1050. .
AU B152EW01 15. .2 20P 1280 * 854. .
Samsung (Samsung) LTN152W1-L01 15. .2 20P 1280 * 854.
IBM 47L8130 (ITSX93D) 15. .1 30P 1400 * 1050. .
IBM 47L8140 (ITSX93C) 15. .1 "& <60;. .
IBM 47L8150(ITSX93D) 15。.1 30P 1400*1050。.
IBM 47L8160 (ITSX93D) 15. .1 30P 1400 * 1050. .
LG AA151XB01 15. .1 100P (pin) 1024 * 768. .
NEC NL10276AC30-03L 15. .1 25P 1024 * 768. .
NEC 07K2510 (ITS95L) 15 & <60;. .
Acer (Acer) 07K6767 (ITSX95C) 15 30P 1400 * 1050. .
AU 07N2150 (IASX12S) 15 30P (Tablet plugged) 1280 * 1024.
AU AA150XC01 15 20P (two rows) 1024 * 768. .
AU B150PG01 15 30P (Tablet plugged) 1400 * 1050.
Fujitsu (Fujitsu) B150PN01 15 30P (chip interpolation) 1400 * 1050. .
Fujitsu (Fujitsu) B150PN01 15 30P (Tablet plugged) 1400 * 1050.
Fujitsu (Fujitsu) B150XG01 15 30P (chip interpolation) 1024 * 768. .
Fujitsu (Fujitsu) B150XN01 15 20P 1024 * 768.
HannStar CLAA150PA01 15 20P 1400 * 1050. .
HannStar HLD1505-020120 15 20P 1024 * 768. .
HannStar HSD150MX14 15 20P。.
HannStar HSD150MX41 15 60 button dual-lamp. .
Hitachi (Hitachi) HSD150PK12 15 30P (chip interpolation) 1400 * 1050. .
Hitachi (Hitachi) HT15X31-100 15 20P 1024 * 768. .
Hyundai LP150E01 15 30P 1400 * 1050. .
IBM LP150E06 15 30P 1400 * 1050. .
IBM LP150U1 15 30P (Tablet plugged) 1600 * 1200.
IBM LP150X04 15 20P 1024 * 768. .
IBM LP150X08 15 30P (Tablet plugged) 1024 * 768.
IBM LP150X08 15 30P (chip interpolation) 1024 * 768. .
LG LP150X1 15 20P 1024*768。.
Samsung (Samsung) LQ15X13 15 20P 1024 * 768. .
Samsung (Samsung) LT150X2-124 15 20P 1024 * 768.
Samsung (Samsung) LTM15C162 15 30P 1600 * 1200. .
Samsung (Samsung) LTM15C459 15 20P 1024 * 768.
Samsung (Samsung) LTN150P2-L01 15 30P 1400 * 1050. .
Sharp (sharp) LTN150P3-L01 15 30P 1400 * 1050.
Sharp (Sharp) LTN150PE-L01 15 30P 1400 * 1050. .
Sharp (sharp) LTN150U2-L01 15 30P (Tablet plugged) 1600 * 1200.
Sharp (Sharp) LTN150XB-L01 15 30P (chip interpolation) 1024 * 768. .
Sharp (sharp) LTN150XD-L01 15 20P 1024 * 768.
Sharp (Sharp) LTN150XE-L01 15 30P (chip interpolation) 1400 * 1050. .
Sharp (sharp) M150XN05 15 20P 1024 * 768.
Sharp (Sharp) NA19020-C053 15 & <60; 1024 * 768. .
Sharp (sharp) TM150SP-02L02 15 & < 60;..
Sharp (Sharp) TM150XG-02L11 15 20P 1024 * 768. .
Sharp (sharp) TX38D73V 15 20P 1024 * 768.
TORISAN TX38D82V 15 20P 1024 * 768. .
Toshiba (Toshiba) TX38D91VGFAD 15 30P 1400 * 1050.
Toshiba (Toshiba) TX38D95V 15 20P (plug side) 1400 * 1050. .
Chimei (CHI MEI) AA142XE02 14. .2 20P 1024 * 768.
AU 07N2780 (IASX16S) 14. .1 30P 1400 * 1050. .
CHI MEI 09J0940(ITXG71) 14。.1 20P 1024*768。.
CHUNHUA 09J0940 (ITXG71) 14. .1 20P 1024 * 768. .
CHUNHUA 09J1010 (ITXG71D) 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) 21L6550 (IAXG64) 14. .1 20 (pin) 1024 * 768. .
Hitachi (Hitachi) 21L8340 (ITXG71F) 14. .1 20P 1024 * 768.
Hitachi (Hitachi) 25L7445 (ITXG74E) 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) 25L7500 (ITXG74) 14. .1 20P 1024 * 768.
Hitachi (Hitachi) 25L7600 (ITXG74E) 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) 25L7600 (ITXG74E) 14. .1 20P 1024 * 768.
Hitachi (Hitachi) 25L7600 (ITXG74E) 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) 26L4500 (ITXG64)/25L4540 14. .1 20P 1024 * 768.
Hitachi (Hitachi) 47L7400/47L7440/ITXG06 14. .1 20P 1024 * 768. .
Hosiden CLAA141XB01 14. .1 20P 1024 * 768. .
IBM LP141E04 14. .1 20P (small mouth) 1400 * 1050. .
IBM LP141E2 14. .1 30P (chip interpolation) 1400 * 1050. .
IBM LP141X12 14. .1 20P (small mouth) 1024 * 768. .
IBM LP141X12 14. .1 20P (small) 1024 * 768.
IBM LP141X14 14. .1 30P (chip interpolation) 1024 * 768. .
IBM LQ141X1LH03 14. .1 20P 1024 * 768. .
IBM LQ141X1LH23 14。.1 14P 1024*768。.
LG LT141X2-124 14. .1 20P 1024 * 768. .
LG LT141X2-126 14. .1 20P 1024 * 768. .
LG LT141X4-156 14. .1 20P 1024 * 768. .
LG LT141X6-122 14. .1 20P 1024 * 768. .
LG LTD141EM1S 14。.1 30P 1400*1050。.
LG LTM14C421E 14. .1 14P 1024 * 768. .
LG LTN141P1-L01 14. .1 30P (chip interpolation) 1280 * 1024. .
Mitsubishi (Mitsubishi) LTN141P2-L01 14. .1 30P 1400 * 1050.
Mitsubishi (Mitsubishi) LTN141P2-L02 14. .1 30P 1400 * 1050. .
NEC LTN141PE-L01 14. .1 20P (small) 1400 * 1050.
Panasonic (Matsushita) LTN141X9-L01 14. .1 14P 1024 * 768. .
QIMEI LTN141XA-L01 14. .1 30P 1024 * 768. .
QUANTA&<60; LTN141XE-L01 14。.1 20P 1024*768。.
Samsung (Samsung) LTN141XJ-L01 14. .1 20P 1024 * 768. .
Samsung (Samsung) N141X201 14. .1 20P 1024 * 768.
Samsung (Samsung) N141X5-L05 14. .1 20P 1024 * 768. .
Samsung (Samsung) NL10276BC28-21A 14. .1 20P 1024 * 768.
Samsung (Samsung) NL10276BC30-22F 14. .1 20P 1024 * 768. .
Samsung (Samsung) TD141TGCB1 14. .1 14P 1024 * 768.
Samsung (Samsung) TD141TGCB1 14. .1 14P 1024 * 768. .
Samsung (Samsung) TD141TGCB1 14. .1 14P 1024 * 768.
Samsung (Samsung) TD141TGCB1 14. .1 14P 1024 * 768. .
Samsung (Samsung) .1 TD141TGCD1 14.30 pin 1024 * 768.
Samsung (Samsung) TX36D37V 14. .1 20P (small mouth) 1024 * 768. .
Samsung (Samsung) TX36D38V 14. .1 30P (Tablet plugged) 1024 * 768.
Samsung (Samsung) TX36D62V 14. .1 20P 1024 * 768. .
Samsung (Samsung) TX36D70V 14. .1 20P 1024 * 768.
Samsung (Samsung) TX36D74V 14. .1 20P 1024 * 768. .
Sharp (Sharp) TX36D75V 14. .1 20P 1024 * 768. .
Sharp (sharp) TX36D75V 14. .1 20P 1024 * 768.
Sharp (Sharp) TX36D77V 14. .1 20P 1024 * 768. .
Sharp (Sharp) TX36D77V 14. .1 20P 1024 * 768. .
Sharp (Sharp) TX36D81VC1CAB 14. .1 20P 1024 * 768. .
Sharp (sharp) TX36D81VC1CAB 14. .1 20P 1024 * 768.
Sharp (Sharp) TX36D85V 14. .1 20P 1024 * 768. .
Sharp (Sharp) TX36D85V 14. .1 20P 1024 * 768. .
Sharp (sharp) TX36D85V 14. .1 20P 1024 * 768.
TOPPOLY (TPO) TX36D87V 14. .1 20P 1024 * 768. .
TOPPOLY (Tong Bao) TX36D87V 14. .1 20P 1024 * 768.
TOPPOLY (TPO) TX36D87V 14. .1 20P 1024 * 768. .
TOPPOLY (Tong Bao) TX36D97V 14. .1 20P 1024 * 768.
Toshiba (Toshiba) TX36D97V 14. .1 20P 1024 * 768. .
Toshiba (Toshiba) TX36D97V 14. .1 20P 1024 * 768.
Toshiba (Toshiba) TX36D97VC1CAB 14. .1 30P 1400 * 1050. .
Toshiba (Toshiba) TX36D97VC1CAB 14. .1 30P 1400 * 1050.
Toshiba (Toshiba) TX36D98V 14. .1 30P 1400 * 1050. .
Toshiba (Toshiba) TX36D98V 14. .1 30P 1400 * 1050.
Toshiba (Toshiba) TX36D98V 14. .1 30P 1400 * 1050. .
Unipac UB141X01 14. .1 20P 1024 * 768. .
IBM 03L3500(ITSX91) 13。.7 20P 1280*1024。.
Acer (Acer) 00K3120 13. .3 20P 1024 * 768. .
Acer (Acer) 00K3120 (ITXG72H) 13. .3 20P 1024 * 768. .
Acer (Acer) 00K3220 (ITXG72J) 13. .3 20P 1024 * 768. .
Acer (Acer) 00K3220 (ITXG72J) .3 13.20P 1024 * 768.
Acer (Acer) 09J3660 13. .3 20P 1024 * 768. .
Fujitsu (Fujitsu) 25L8420 (ITXG75) 13. .3 20P 1024 * 768. .
Fujitsu (Fujitsu) 47L7100 (ITXG75E) 13. .3 20P 1024 * 768. .
Hitachi (Hitachi) 83H4530 13. .3 20P 1024 * 768.
Hitachi (Hitachi) CA51001-0077 13. .3 "& <60; 1024 * 768. .
Hitachi (Hitachi) EDTCB11QBF 13. .3 20P 1024 * 768. .
Hitachi (Hitachi) EDTCB11QBF 13. .3 20P 1024 * 768.
Hitachi (Hitachi) EDTCB11QBF 13. .3 20P 1024 * 768. .
Hitachi (Hitachi) EDTCB11QBF 13. .3 20P 1024 * 768.
Hitachi (Hitachi) EDTCB11QCF 13. .3 20P 1024 * 768. .
Hitachi (Hitachi) EDTCB11QCF 13. .3 20P 1024 * 768. .
Hitachi (Hitachi) EDTCB11QHF 13. .3 20P 1024 * 768. .
Hosiden EDTCB11QHF 13。.3 20P 1024*768。.
IBM HT13X14-101 13. .3 20P (chip interpolation) 1024 * 768. .
IBM L133X2 13. .3 20P (big mouth) 1024 * 768. .
IBM L133X2 13. .3 20P (big mouth) 1024 * 768. .
IBM L133X2-38 13. .3 20P (big mouth) 1024 * 768.
IBM L133X2-3B 13. .3 20P (big mouth) 1024 * 768. .
IBM LP133X11 13。.3 20P 1024*768。.
IBM LP133X3 13. .3 20P 1024 * 768. .
IBM LP133X3 13. .3 20P 1024 * 768. .
LG LP133X5 13。.3 20P 1024*768。.
LG LP133X5 13. .3 20P 1024 * 768. .
LG LP133X7 (big mouth) 13. .3 20P (big mouth) 1024 * 768. .
LG LQ133X1LH13 13。.3 20P 1024*768。.
LG LQ133X1LH27 13. .3 20P 1024 * 768. .
NEC LQ13X01 13. .3 "& <60;. .
Panasonic (Matsushita) LQ13X02C 13. .3 20P 1024 * 768. .
Panasonic (Matsushita) LT133X1-101 13. .3 20P 1024 * 768.
Panasonic (Matsushita) LT133X1-102 13. .3 20P 1024 * 768. .
Samsung (Samsung) LT133X1-106 13. .3 20P 1024 * 768. .
Samsung (Samsung) LT133X3-122 13. .3 20P 1024 * 768.
Samsung (Samsung) LT133X3-122 13. .3 20P 1024 * 768. .
Samsung (Samsung) LT133X5 13. .3 14P 1024 * 768.
Samsung (Samsung) LT133X6-124 13. .3 20P 1024 * 768. .
Samsung (Samsung) LT133X7-122 13. .3 14P 1024 * 768.
Samsung (Samsung) LT133X7-122 13. .3 14P 1024 * 768. .
Samsung (Samsung) LT133X7-124 13. .3 14P 1024 * 768.
Samsung (Samsung) LT133XB-122 13. .3 20P 1024 * 768. .
Samsung (Samsung) LTM13C157 13. .3 20P 1024 * 768.
Samsung (Samsung) LTM13C407 13. .3 20P 1024 * 768. .
Sharp (Sharp) LTM13C420 13. .3 14P 1024 * 768. .
Sharp (Sharp) NA19017-C601 13. .3 20P 1024 * 768. .
Sharp (sharp) NA19019-C201 13. .3 20P 1024 * 768.
Sharp (Sharp) NL10276BC26-03 13. .3 20P 1024 * 768. .
Sharp (Sharp) TM133XG-02L06B 13. .3 20P (small mouth) 1024 * 768. .
Sharp (sharp) TM133XG-02L06C 13. .3 20P 1024 * 768.
TORISAN TX34D31V 13. .3 21P 1024 * 768. .
Toshiba (Toshiba) TX34D71V 13. .3 20P 1024 * 768. .
Toshiba (Toshiba) TX34D71V 13. .3 20P 1024 * 768.
Toshiba (Toshiba) TX34D71V 13. .3 20P 1024 * 768. .
Unipac UB133X01 13. .3 20P 1024 * 768. .
Fujitsu (Fujitsu) 07K5540 (ITXG00) 12. .1 20P 1024 * 768. .
Fujitsu (Fujitsu) 07K9780 (IAXG01M) 12. .1 20P 1024 * 768.
Fujitsu (Fujitsu) 07K9780 (IAXG01M) 12. .1 20P 1024 * 768. .
Fujitsu (Fujitsu) 121S01S3 12. .1 20P 800 * 600. .
Fujitsu (Fujitsu) 29H6588 12. .1 Second row 40 button 800 * 600. .
Fujitsu (Fujitsu) .1 29H6588 12. second row 40 detained for 800 * 600.
Fujitsu (Fujitsu) 46H3598 (ITSV50G) 12. 800 * 600 41 .1 deduction. .
Fujitsu (Fujitsu) 46H3652 (ITSV50J) .1 40 detained 12.800 * 600.
Fujitsu (Fujitsu) 55P4216 (IXG01B) 12. .1 20P 1024 * 768. .
Fujitsu (Fujitsu) 55P4540 (IAXG02D) 12. .1 20P 1024 * 768. .
Fujitsu (Fujitsu) 55P4590 (IAXG02C) 12. .1 20P 1024 * 768.
Fujitsu (Fujitsu) 73H8200 12. .1 * 600 800 40 flat head. .
Fujitsu (Fujitsu) 73H8200 12. .1 40 Flathead 800 * 600.
Fujitsu (Fujitsu) 73H8240 (ITSV51X) 12. .1 40 (exclusive) 800 * 600. .
Fujitsu (Fujitsu) 74H0740 (74H0700) .1 detained 12.41.800 * 600.
Fujitsu (Fujitsu) 74H0740 (74H0700) 12. 800 * 600 41 .1 deduction. .
HannStar 74H0740 (74H0700) .1 detained 12.41.800 * 600.
HannStar 74H0750 12. 800 * 600 41 .1 deduction. .
HannStar 74H0750 (ITSV50D) .1 detained 12.41.800 * 600.
HannStar 74H0750 (ITSV50D) 12. 800 * 600 41 .1 deduction. .
HannStar 74H0750 (ITSV50D) .1 detained 12.41.800 * 600.
HannStar 82H5226 12. .1 20P 1024 * 768. .
Hitachi (Hitachi) 82H5335 (ITSV50H) 12. 800 * 600 41 .1 deduction. .
Hitachi (Hitachi) AA121SB11 12. 800 * 600 41 .1 deduction. .
Hitachi (Hitachi) .1 AA121SB12 12.41 buckle 800 * 600.
Hitachi (Hitachi) AA121SD11 12. .1 50P 800 * 600. .
Hitachi (Hitachi) .1 50P AA121SD11 12.800 * 600.
Hitachi (Hitachi) AA121SJ03 12. .1 40 (Flat Head) 800 * 600. .
Hitachi (Hitachi) AA121XF01 12. .1 20P 1024 * 768. .
Hitachi (Hitachi) AA121XG02 12. .1 20P 1024 * 768.
Hitachi (Hitachi) AA12SB6C-ADFD 12. 800 * 600 41 .1 deduction. .
Hitachi (Hitachi) HLD1203-020120 12. 800 * 600 41 .1 deduction. .
Hitachi (Hitachi) HLD1205-020120 detained 12. .1 41 800 * 600.
Hitachi (Hitachi) HT12X11-100 12. .1 20P 1024 * 768. .
Hitachi (Hitachi) .1 HTM121S631 12.41 buckle 800 * 600.
Hosiden LP121S4 12. .1 30P 800 * 600. .
Hyundai LP121S4 12。.1 30P 800*600。.
Hyundai LP121SB 12. 800 * 600 41 .1 deduction. .
Hyundai LP121SP 12. .1 20-pin (small mouth) 800 * 600. .
IBM LP121SP 12. .1 40 detained for 800 * 600.
IBM LP121SP 12. 800 * 600 40 .1 deduction. .
IBM LP121X1 12. .1 20P 1024 * 768. .
IBM LP121XQ 12. 1024 * 768 40 .1 deduction. .
IBM LQ121S1DH05 12. 800 * 600 50 .1 deduction. .
IBM LQ121S1LS10 12。.1 20P 800*600。.
IBM LQ121X1LH22 12. .1 20P 1024 * 768. .
IBM LQ12DX03 12. .1 20P (double-like) 1024 * 768.
IBM LQ12S01 12. 800 * 600 41 .1 deduction. .
IBM LQ12S11 detained 12. .1 41 800 * 600.
ID TECH LQ12S56 12. 800 * 600 41 .1 deduction. .
LG LQ12X022 12. .1 20P (double-like) 1024 * 768.
LG LQ12X43 12. .1 20P 1024 * 768. .
LG LT121S1-153 detained 12. .1 41 800 * 600.
LG LT121S4 12. 800 * 600 41 .1 deduction. .
Mitsubishi (Mitsubishi) LT121X1-121 12. .1 20P 1024 * 768. .
Mitsubishi (Mitsubishi) LTD121EA6N 12. .1 20P 1024 * 768.
Mitsubishi (Mitsubishi) LTM12C263 12. .1 30P 800 * 600. .
Mitsubishi (Mitsubishi) .1 20P LTM12C266 12.800 * 600.
Mitsubishi (Mitsubishi) LTM12C275 12. .1 30P 800 * 600. .
NEC LTN121S6-T01 12。.1 30P 800*600。.
NEC LTN121XF-L01 12. .1 20P 1024 * 768. .
NEC LTN121XJ-L02 12。.1 20P 1024*768。.
NEC LTN121XJ-L02 12. .1 20P 1024 * 768. .
NEC LTN121XJ-L03 12。.1 20P 1024*768。.
Samsung (Samsung) NA19017-5110 12. 800 * 600 41 .1 deduction. .
Samsung (Samsung) .1 NA19017-C401 12.41 buckle 800 * 600.
Samsung (Samsung) NA19017-C451 12. 800 * 600 41 .1 deduction. .
Samsung (Samsung) .1 NA19018-C151 12.60; < &.
Samsung (Samsung) NA19018-C301 12. 800 * 600 41 .1 deduction. .
Samsung (Samsung) .1 NA19018-C301 12.41 buckle 800 * 600.
Samsung (Samsung) NA19018-C604 12. 800 * 600 41 .1 deduction. .
Sharp (sharp) NL10276AC24-02 12. .1 two rows of 1024 * 768.
Sharp (Sharp) NL8060BC31-02 12. 800 * 600 41 .1 deduction. .
Sharp (sharp) .1 OFM12000 12.41 buckle 800 * 600.
Sharp (Sharp) OFM12000 12. 800 * 600 41 .1 deduction. .
Sharp (sharp) .1 TM121SV-02L01 12.41 buckle 800 * 600.
Sharp (Sharp) TM121SV-02L07 12. .1 20P 800 * 600. .
Sharp (sharp) .1 20P TM121SV-02L11A 12.800 * 600.
Sharp (Sharp) TM121XG-02L02D 12. .1 20P 1024 * 768. .
Sharp (sharp) TM121XG-02L10 12. .1 20P 1024 * 768.
Sharp (Sharp) TX30D11VC1CAA 12. 800 * 600 41 .1 deduction. .
Sharp (sharp) .1 TX31D02VC1CAA 12.70 for 1024 * 768.
Sharp (Sharp) TX31D02VC1CAA 12. 1024 * 768 70 .1 deduction. .
Torisan TX31D22VCLCAC 12. 800 * 600 41 .1 deduction. .
TORISAN TX31D24VC1CAA detained 12. .1 41 800 * 600.
Toshiba (Toshiba) TX31D31VC1CAD 12. .1 21P 800 * 600. .
Toshiba (Toshiba) TX31D32VC1CAD 12. .1 21P 800 * 600. .
Toshiba (Toshiba) .1 21P TX31D33VC1CAD 12.800 * 600.
Toshiba (Toshiba) TX31D33VC1CAD 12. .1 21P 800 * 600. .
Toshiba (Toshiba) .1 20P TX31D35VCLCAA 12.800 * 600.
Toshiba (Toshiba) TX31D61V 12. .1 21P 800 * 600. .
Toshiba (Toshiba) TX31D65V 12. .1 20P 1024 * 768.
Toshiba (Toshiba) TX31D70V 12. .1 20P 1024 * 768. .
Toshiba (Toshiba) TX31D71V 12. .1 20P 1024 * 768.
Toshiba (Toshiba) TX31D72VC1CAA 12. .1 20P 1024 * 768. .
Toshiba (Toshiba) TX31D72VC1CAA 12. .1 20P 1024 * 768.
Toshiba (Toshiba) TX31D73V 12. 1024 * 768 41 .1 deduction. .
LG TX31D73V 12. .1 41 for 1024 * 768.
AU TX31D73V 12. .1 20P 1024 * 768. .
Hitachi (Hitachi) .8 TX30D01VC1CAA 11.41 buckle 800 * 600.
Hitachi (Hitachi) TX30D11VC1CAA 11. 800 * 600 41 .8 deduction. .
Fujitsu (Fujitsu) .3 73H7020 11.41 buckle 800 * 600.
Fujitsu (Fujitsu) 73H7020 11. 800 * 600 41 .3 deduction. .
Fujitsu (Fujitsu) .3 73H7020 11.41 buckle 800 * 600.
Fujitsu (Fujitsu) AA11S613 11. 800 * 600 41 .3 deduction. .
Hosiden AA11SB6C-ADFD detained 11. .3 41 800 * 600.
Hosiden AA11SB6C-BDFD 11. 800 * 600 41 .3 deduction. .
IBM EDTCF02QLF 11. 800 * 600 41 .3 deduction. .
Mitsubishi (Mitsubishi) .3 LQ10D32A 11.41 buckle 800 * 600.
NEC LQ113S1LH01 11. .3 14P 800 * 600. .
NEC LQ113S1LH13 11。.3 14P 800*600。.
Panasonic (Matsushita) LQ113S1LH13 11. .3 14P 800 * 600. .
Sharp (Sharp) LQ11S30 11. 800 * 600 41 .3 deduction. .
Sharp (Sharp) LQ11S353 11. 800 * 600 41 .3 deduction. .
Sharp (sharp) .3 LQ11S42 11.41 buckle 800 * 600.
Sharp (Sharp) LQ11S43 11. 800 * 600 41 .3 deduction. .
Sharp (sharp) .3 LQ11S46 11.41 buckle 800 * 600.
Sharp (Sharp) LQ11S46 11. 800 * 600 41 .3 deduction. .
Sharp (sharp) .3 14P LQ11S613 11.800 * 600.
Toshiba (Toshiba) NA19017-C101 11. 800 * 600 41 .3 deduction. .
Sharp (Sharp) LQ106K1LA01 10. .6 14P 1280 * 768. .
Fujitsu (Fujitsu) 30H0000 (ITVG28A) 10. .4 "& <60; 640 * 480. .
Fujitsu (Fujitsu) .4 30H0080 10.50 for 800 * 600.
Hitachi (Hitachi) 39H7160 10. .4 40 Button 800 * 600. .
Hitachi (Hitachi) .4 39H7160 10.40 detained for 800 * 600.
Hitachi (Hitachi) 46H7986 10. 800 * 600 41 .4 deduction. .
Hitachi (Hitachi) .4 46H7986 10.41 buckle 800 * 600.
Hitachi (Hitachi) 53G9733 10. .4 "& <60;. .
Hitachi (Hitachi) 83G0530 10. .4 "& <60;. .
Hitachi (Hitachi) 84G6835 10. .4 four rows.
Hitachi (Hitachi) 84G6835 10. .4 Four rows. .
Hitachi (Hitachi) 84G6835 10. .4 four rows.
Hitachi (Hitachi) 85G0530 10. .4 "& <60;. .
Hitachi (Hitachi) .4 85G0530 10.60; < &.
Hitachi (Hitachi) 85G0570 10. .4 "& <60; 800 * 600. .
Hitachi (Hitachi) .4 AA10SA6C-ADDD 10.60; < &.
Hitachi (Hitachi) EDMGPZ3KBF 10. 31 .4 deduction. .
Hitachi (Hitachi) EDTCB03Q1F 10. .4 Three rows of 640 * 480. .
Hitachi (Hitachi) EDTCB03Q2F 10. .4 three rows of 640 * 480.
Hitachi (Hitachi) EDTCB03Q2F 10. .4 Three rows of 640 * 480. .
Hitachi (Hitachi) EDTCB03Q3F 10. .4 three rows of 640 * 480.
Hitachi (Hitachi) EDTCB03Q3F 10. .4 Three rows of 640 * 480. .
Hosiden EDTCB04Q1F 10. .4 Three rows of 640 * 480. .
Hosiden EDTCB05QCF 10. .4 three rows 31 buckle 640 * 480.
IBM EDTCB06QBF 10. .4 Three rows of 640 * 480. .
10. IBM EDTCB06QCF .4 three rows of 640 * 480.
IBM EDTCB06QCF 10. .4 Three rows of 640 * 480. .
10. IBM EDTCB06QCF .4 three rows of 640 * 480.
IBM EDTCB06QCF 10. .4 Three rows of 640 * 480. .
10. IBM EDTCB09QAF .4 41 buckle 800 * 600.
IBM EDTCB09QDF 10. 800 * 600 41 .4 deduction. .
IBM EDTCB28QAF 10。.4 20P 800*600。.
IBM HLD1028-020010 10. .4 "& <60;. .
IBM LCA4SE01A 10. 800 * 600 41 .4 deduction. .
IBM LCA4VE02A 10. 640 * 480 31 .4 deduction. .
IBM LP104S5 10。.4&<60;。.
IBM LP104SL 10. .4 "& <60;. .
LG LQ0DAS5320 10。.4&<60;。.
LG LQ0DAS5321 10. .4 "& <60;. .
LG LQ104S1LH01 10. .4 31 buckle 800 * 600.
LG LQ104S1LH01 10. 800 * 600 31 .4 deduction. .
LG LQ104S1LH01 10. .4 31 buckle 800 * 600.
LG LQ104S1LH01 10. 800 * 600 31 .4 deduction. .
LG LQ104S1LH11 10. .4 20P (plug) to 800 * 600.
Mitsubishi (Mitsubishi) LQ104S1LH13 10. .4 20P (lower insert) 800 * 600. .
NEC LQ104S1LH13 10. .4 20P (plug) to 800 * 600.
NEC LQ104S2 10. .4 "& <60;. .
NEC LQ10D013 10. .4 31 buckle 640 * 480.
NEC LQ10D031 10. 640 * 480 31 .4 deduction. .
NEC LQ10D031 10. .4 31 buckle 640 * 480.
NEC LQ10D031 10. 640 * 480 31 .4 deduction. .
NEC LQ10D131 10. 640 * 480 31 .4 deduction. .
NEC LQ10D133 10. .4 31 buckle 640 * 480.
NEC LQ10D133 10. 640 * 480 31 .4 deduction. .
NEC LQ10D133 10. .4 31 buckle 640 * 480.
NEC LQ10D311 10. 640 * 480 31 .4 deduction. .
NEC LQ10D321 10. 640 * 480 31 .4 deduction. .
NEC LQ10D363 10. 640 * 480 31 .4 deduction. .
NEC LQ10DS01 10. .4 31 buckle 640 * 480.
NEC LQ10DS05 10. 800 * 600 41 .4 deduction. .
NEC LQ10DS05 detained 10. .4 41 800 * 600.
NEC LQ10W03 10. .4 20P (double as) 800 * 600. .
NEC LT104S1-101 10. .4 41 buckle 800 * 600.
NEC LT104V3-101 10. .4 "& <60;. .
Panasonic (Matsushita) LT104V4-101 10. .4 31 buckle 640 * 480.
Panasonic (Matsushita) LTM10C013 10. .4 "& <60;. .
Panasonic (Matsushita) .4 LTM10C021 10.31 buckle 800 * 600.
Panasonic (Matsushita) LTM10C025 10. 800 * 600 31 .4 deduction. .
Panasonic (Matsushita) .4 LTM10C029 10.31 buckle 800 * 600.
Panasonic (Matsushita) LTM10C035K 10. 800 * 600 31 .4 deduction. .
Panasonic (Matsushita) .4 LTM10C038 10.41 buckle 800 * 600.
Panasonic (Matsushita) LTM10C039 10. 800 * 600 31 .4 deduction. .
Panasonic (Matsushita) LTM10C286 10. .4 14P 800 * 600. .
Panasonic (Matsushita) .4 14P LTM10C286 10.800 * 600.
Panasonic (Matsushita) LTM10C286 10. .4 14P 800 * 600. .
Samsung (Samsung) .4 14P LTM10C306 10.800 * 600.
Samsung (Samsung) LTM10C306 10. .4 14P 800 * 600. .
Samsung (Samsung) LTM10C306K 10. .4 14P 1024 * 768.
Samsung (Samsung) LTM10C306K 10. .4 14P 1024 * 768. .
Samsung (Samsung) LTM10C306K 10. .4 14P 1024 * 768.
Samsung (Samsung) LTM10C306Y 10. .4 14P 1024 * 768. .
Samsung (Samsung) LTM10C306Y 10. .4 14P 1024 * 768.
Sharp (Sharp) LTM10C314 10. .4 14P 1024 * 768. .
Sharp (sharp) LTM10C314 10. .4 14P 1024 * 768.
Sharp (Sharp) LTM10C314 10. .4 14P 1024 * 768. .
Sharp (sharp) LTM10C314 10. .4 14P 1024 * 768.
Sharp (Sharp) LTM10C317F 10. .4 14P 1024 * 768. .
Sharp (sharp) LTM10C345 10. .4 14P 1024 * 768.
Sharp (Sharp) LTM10C345 10. .4 14P 1024 * 768. .
Sharp (Sharp) LTM10C348 10. .4 14P 800 * 600. .
Sharp (sharp) .4 14P LTM10C348P 10.800 * 600.
Sharp (Sharp) LTM10C348P 10. .4 14P 800 * 600. .
Sharp (sharp) .4 14P LTM10C349 10.800 * 600.
Sharp (Sharp) LTM10C352 10. .4 14P 800 * 600. .
Sharp (sharp) .4 14P LTM10C352 10.800 * 600.
Sharp (Sharp) NA19014-C802 10. .4 Three rows of 800 * 600. .
Sharp (sharp) NL6448AC33-13 31 buckle 10. .4 640 * 480.
Sharp (Sharp) NL6448AC33-15 10. .4 Three rows of 640 * 480. .
Sharp (sharp) NL6448AC33-15 10. .4 three rows of 640 * 480.
Sharp (Sharp) NL6448AC33-15 10. .4 Three rows of 640 * 480. .
Sharp (sharp) NL6448AC33-18 detained 10. .4 31.640 * 480.
Sharp (Sharp) NL6448AC33-18 10. 640 * 480 31 .4 deduction. .
Sharp (sharp) NL6448AC33-18 detained 10. .4 31.640 * 480.
Sharp (Sharp) NL6448AC33-24 10. 640 * 480 31 .4 deduction. .
TORISAN NL6448AC33-24 31 buckle 10. .4 640 * 480.
TORISAN NL6448AC33-29 10. 640 * 480 31 .4 deduction. .
TORISAN NL6448AC33-31 31 buckle 10. .4 640 * 480.
Toshiba (Toshiba) NL6448AC33-46 10. 640 * 480 31 .4 deduction. .
Toshiba (Toshiba) NL6448BC33-21 detained 10. .4 41.640 * 480.
Toshiba (Toshiba) NL8060AC26-04 10. 800 * 600 41 .4 deduction. .
Toshiba (Toshiba) NL8060AC26-04 detained 10. .4 41 800 * 600.
Toshiba (Toshiba) NL8060AC26-04 10. 800 * 600 41 .4 deduction. .
Toshiba (Toshiba) NL8060AC26-05 10. .4 three-row 800 * 600.
Toshiba (Toshiba) NL8060AC26-05 10. .4 Three rows of 800 * 600. .
Toshiba (Toshiba) NL8060BC26-12 detained 10. .4 41 800 * 600.
Toshiba (Toshiba) NL8060BC26-12 10. 800 * 600 41 .4 deduction. .
Toshiba (Toshiba) NL8060BC26-15 10. .4 14P 800 * 600.
Toshiba (Toshiba) NL8060BC26-15 10. .4 14P 800 * 600. .
Toshiba (Toshiba) .4 14P TM100SV-02L01 10.800 * 600.
Toshiba (Toshiba) TM100SV-02L01 10. .4 14P 800 * 600. .
Toshiba (Toshiba) .4 14P TM100SV-02L02 10.800 * 600.
Toshiba (Toshiba) TX26D31V 10. .4 14P 800 * 600. .
Toshiba (Toshiba) .4 14P TX26D31V 10.800 * 600.
Toshiba (Toshiba) TX26D32V 10. .4 14P 800 * 600. .
Toshiba (Toshiba) .4 TX26D33V 10.20 buckle 800 * 600.
Toshiba (Toshiba) TX26D33V 10. .4 20 Button 800 * 600. .
Toshiba (Toshiba) .4 TX26D33V 10.20 buckle 800 * 600.
Toshiba (Toshiba) TX26D33V 10. .4 20 Button 800 * 600. .
Toshiba (Toshiba) TX26D57V 10. .4 three-row 800 * 600.
Toshiba (Toshiba) TX26D61V 10. .4 Three rows of 800 * 600. .
Toshiba (Toshiba) .4 TX26D68VC1CAA 10.41 buckle 800 * 600.
Toshiba (Toshiba) TX26D77V 10. .4 Three rows of 800 * 600. .
Toshiba (Toshiba) TX26D83V 10. 800 * 600 41 .4 deduction. .
Toshiba (Toshiba) .4 TX26D85V 10.41 buckle 800 * 600.
Toshiba (Toshiba) TX29D13VC1CAA 10. .4 14P 800 * 600. .
Toshiba (Toshiba) .4 14P TX29D14V 10.800 * 600.
AU A102VW01 10. .2 * 480 800 60 soft plug. .
NEC LT104S1-131 10. .1 "& <60;. .
NEC NL6448AC32-01 10. .1 Second row 640 * 480. .
Samsung (Samsung) NL6448AC32-01 10. .1 Second row 640 * 480. .
Unipac UB104B01-2 10。.1 20P 1024*768。.
Unipac UB104B01-2 10. .1 20P 1024 * 768. .
Hosiden 30H1030(30K03D) 10&<60;。.
Hosiden HLD1031-020120 10 & <60;. .
IBM HLD1044010230 10&<60;。.
Hitachi (Hitachi) HLD0909-020010 9. .4 "& <60;. .
Hosiden LC95VA01A 9. 640 * 480 31 .4 deduction. .
LG LC95VA01A 9. .4 31 buckle 640 * 480.
LG LQ94D021 9. 640 * 480 31 .4 deduction. .
NEC LQ94D021 9. .4 31 buckle 640 * 480.
NEC LT094V1-XON 9. .4 Second row 640 * 480. .
NEC LTM09C017 9. 640 * 480 31 .4 deduction. .
Sharp (Sharp) LTM09C031A 9. 640 * 480 31 .4 deduction. .
Sharp (sharp) .4 LTM09C035L 9.60; < &.
Sharp (Sharp) NL6448AC30-03 9. .4 Three rows of 640 * 480. .
Toshiba (Toshiba) NL6448AC30-06 9. .4 three-row 640 * 480.
Toshiba (Toshiba) NL6448AC30-07 9. .4 Three rows of 640 * 480. .
Toshiba (Toshiba) NL6448AC30-07 9.60; < & .4 640 * 480.
Toshiba (Toshiba) NL6448AC30-07 9. .4 Three rows of 640 * 480. .
Sharp (Sharp) LQ089B1LS01 8. .9 20P. .
Hosiden HLD0804-010110 8. .4 50 deduction. .
Hosiden HLD0804-020110 8. .4 50 buckle.
Sharp (Sharp) LQ9D013 8. .4 "& <60;. .
Sharp (Sharp) LQ9D01C 8. .4 Second row 640 * 480. .
Sharp (sharp) .4 LQ9D021 8.640 * 480 31 buckle.
Sharp (Sharp) LQ9D023 8. 640 * 480 31 .4 deduction. .
Sharp (sharp) .4 LQ9D133 8.640 * 480 31 buckle.
Sharp (Sharp) LQ9D133 8. 640 * 480 31 .4 deduction. .
Sharp (sharp) .4 LQ9D345 8.640 * 480 31 buckle.
Toshiba (Toshiba) LTM08C341 8. .4 22 buckle (small mouth). .
Toshiba (Toshiba) LTM08C343 8. .4 22 buckle (small mouth). .
Toshiba (Toshiba) .4 LTM08C360 8.22 buckle (small).
Panasonic (Matsushita) EDTCB14QAF 7. .7 20P 640 * 480. .
Hitachi (Hitachi) SP19V001-ZZC 7. .5 & < 60; 640 * 480.
PVI PW070XS4N1 7 & <60;. .
Sharp (Sharp) LM060VS1T549 6 & <60; 640 * 480. .
N/A 80F050 4。.5 20P。.
Sharp (Sharp) LQ039Q2DS54 3. .9 "& <60; 320 * 240. .
Sharp (sharp) .9 LQ039Q2DS54 3. < & 60; 320 * 240.
NEC LTM035A776A 3. .5 "& <60; 320 * 240. .
Toshiba (Toshiba) NL2432DR22-12B 3. .5 & < 60; 240 * 320.
mob panel 81E900 & <60; & <60;. .
Mobile phone LCD WD-J0906X & <60; & <60;. .
Samsung (Samsung) LTN154P1-L01 15. .4 30P (Tablet plugged) 1680 * 1050.
Samsung (Samsung) LTN154U1-L01 15. .4 "& <60;. .
AU B150XG02 15 30P (chip interpolation) 1400 * 1050. .
HannStar HSD150PK12 15 30P 1400*1050。.
Hitachi (Hitachi) TX39D97V 15 30P (chip insertion). .
IBM 07N215055P1660 (ITSX12G) 15 30P (Tablet plugged) 1400 * 1050.
LG LP150X08 15 30P 1024 * 768. .
Acer (Acer) L141X2 14. .1 20P 1024 * 768.
CHUNHUA CLAA141XB01 14. .1 20P 1024 * 768. .
Hitachi (Hitachi) TX36D97V 14. .1 30P 1280 * 1024.
Hitachi (Hitachi) TX36D98V 14. .1 30P 1400 * 1050. .
Hyundai HT14X14-101 14。.1 20P 1024*768。.
IBM 47L8440/ITXG76D 14. .1 20P 1024 * 768. .
LG LP141X12 14. .1 20P (small) 1024 * 768.
LG LP141X14 14. .1 30P 1024 * 768. .
LG LP141XA 14. .1 20P 1024 * 768. .
Samsung (Samsung) LT141X7 14. .1 20P 1024 * 768.
Samsung (Samsung) LTN141P2-L01 14. .1 30P 1400 * 1050. .
Samsung (Samsung) LTN141XA-L01 14. .1 30P 1024 * 768.
TOPPOLY (TPO) TD141TGCB1 14. .1 14P 1024 * 768. .
Acer (Acer) L133X2 13. .3 20P 1024 * 768. .
Hitachi (Hitachi) TX34D71V 13. .3 20P 1024 * 768.
IBM 25L8420 (ITXG75) 13. .3 20P 1024 * 768. .
LG LP133X3 13。.3 20P 1024*768。.
LG LP133X7 13. .3 20P 1024 * 768. .
LG LP133X7 13。.3 20P 1024*768。.
Samsung (Samsung) LT133X8-122 13. .3 20P 1024 * 768. .
HannStar HSD121PX11 12. .1 20P 1024 * 768. .
Hitachi (Hitachi) TX31D65V 12. .1 20P 1024 * 768.
Hitachi (Hitachi) TX31D72V 12. .1 20P 1024 * 768. .
Hitachi (Hitachi) TX31D73V 12. .1 20P 1024 * 768.
IBM 03L5090 (ITSV53L) 12. 800 * 600 20 .1 deduction. .
IBM 07K5540(ITXG00) 12。.1 20P 1024*768。.
IBM 07K9740 (IAXG01) 12. .1 20P 1024 * 768. .
LG LP121S4 12。.1 30P 800*600。.
LG LP121X04 12. .1 20P 1024 * 768. .
LG LP121X1 12。.1 20P 1024*768。.
Samsung (Samsung) LTN121S6-T01 12. .1 30P 800 * 600. .
Samsung (Samsung) LTN121XJ-L02 12. .1 20P 1024 * 768.
Samsung (Samsung) LTN121XJ-L03 12. .1 20P 1024 * 768. .
Toshiba (Toshiba) LTD121EA6N 12. .1 20P 1024 * 768. .
Toshiba (Toshiba) .1 20P LTD12KA0S 12...
Toshiba (Toshiba) LTM12C324 12. .1 20P (chip interpolation) 1024 * 768. .
Toshiba (Toshiba) LTM12C505N 12. .1 20P 1024 * 768.
Panasonic (Matsushita) EDTCB19QAO 11. .3 20P. .
Sharp (sharp) .3 14P LQ113S1LH01 11.800 * 600.
Sharp (Sharp) LQ113S1LH13 11. .3 "& <60; 800 * 600. .
Toshiba (Toshiba) LTM11C307 11. .3 14P 1024 * 768.
Hitachi (Hitachi) TX26D32V 10. .4 14P 800 * 600. .
Sharp (sharp) LQ104S1LH13 10. .4 20P (plug) to 800 * 600.
Sharp (Sharp) LQ10W03 10. .4 20P (double as) 800 * 600. .
Toshiba (Toshiba) LTM10C306L 10. .4 14P 1024 * 768.
Toshiba (Toshiba) LTM10C313 10. .4 14P 1024 * 768. .
Toshiba (Toshiba) LTM10C314 10. .4 14P 1024 * 768.
Toshiba (Toshiba) LTM10C348P 10. .4 14P 800 * 600. .
Toshiba (Toshiba) .4 14P LTM10C352 10.800 * 600.
Sharp (Sharp) LQ106K1LA01 10 & <60;. .
Fujitsu (Fujitsu) NA19020-C801 9 & < 60; 800 * 600.
Sharp (Sharp) LQ089B1LS01 8. .9 20P. .
Sharp (Sharp) LQ61D133 6. 640 * 480 31 .1 deduction. .
NEC NL128102AC31-02 20。.1&<60; 1600 * 1200.
NEC NL128102AC31-02 20. .1 "& <60; 1280 * 1024. .
NEC NL128102AC31-01 20。.1&<60; 1280 * 1024.
LG LM201U01 20. .1 "& <60; 1600 * 1200. .
Sharp (sharp) .1 LQ181E1DG11 18.; < & 60.
Sharp (Sharp) LQ181E1DG10A 18. .1 "& <60;. .
Sharp (sharp) .1 LQ181E1DG01 18.; < & 60.
Samsung (Samsung) LTM181E4-L01 18. .1 "& <60;. .
Samsung (Samsung) LTM181E3-P01 18. .1 "& <60;. .
Samsung (Samsung) LT18E2-131 18. .1 "& <60;. .
Samsung (Samsung) LT181E2-131 18. .1 "& <60;. .
NEC NL128102AC28-09 18. .1 "& <60;. .
NEC NL128102AC28-01E 18。.1&<60;。.
NEC NL128102AC28-01 18. .1 "& <60;. .
LG LM181E1 18. .1 "& <60; no lamp. .
LG LM181E06 18。.1&<60;。.
LG LM181E05 18. .1 30P. .
LG LM181E05 18。.1 30P。.
LG LM181E05 18. .1 30P. .
IBM 25L7770 18。.1&<60;。.
IBM 25L7700 (ITSX94) 18. .1 "& <60;. .
IBM 25L7700 18. .1 30P unmeasured.
IBM 07K3841 18. .1 "& <60;. .
IBM 73H6628/73H6667 17&<60;。.
Fujitsu (Fujitsu) NA19020-C503 17 & <60;. .
AU M170ES05 17 second row 1280 * 1024.
Acer (Acer) L170E18 17 & <60;. .
IBM 00K1000 16. .5 "& <60;. .
Sharp (sharp) 60 16 & < LQ160E1LG08;..
NEC NL128102AC23-02 15. .4 "& <60;. .
TORISAN TM150XG-26L06A 15 row inserted.
TORISAN TM150XG-26L04C 15 & <60;. .
NEC NL10276BC30-10 15&<60;。.
Mitsubishi (Mitsubishi) AA150XB01 15 & <60;. .
Hosiden HLD1509-010230 15&<60;。.
Hosiden HLD1508-010130 15 & <60;. .
Hitachi (Hitachi) TX38D30V 15 & < 60;..
Hitachi (Hitachi) TX38D26V 15 & <60;. .
Fujitsu (Fujitsu) NA19025-C313 15 & < 60;..
Fujitsu (Fujitsu) NA19020-C215 15 & <60;. .
Fujitsu (Fujitsu) NA19020-C054 15 & < 60;..
Fujitsu (Fujitsu) NA19020-C053 15 & <60;. .
Samsung (Samsung) LT140X1-051 14.60; < & .1.
Panasonic (Matsushita) EDTCF01Q2F 14. .1 "& <60;. .
NEC NL10276BC28-05D 14。.1 20P 1024*768。.
NEC NL10276AC28-05C 14. .1 20P 1024 * 768. .
NEC NL10276AC28-02L 14。.1 20P 1024*768。.
NEC NL10276AC28-01 14. Four-pin .1 1024 * 768. .
LG LP141X2 14. .1 20P 1024 * 768. .
Hyundai HT14X22-100 14。.1&<60;。.
Hosiden HLD1406-011920 14. .1 "& <60;. .
Hosiden HLD1406-010950 14. .1 80P (PIN) to 1024 * 768.
Hitachi (Hitachi) TX36D12VCOCAA 14. .1 "& <60;. .
Fujitsu (Fujitsu) .1 LQ14X02E 14.60; < &.
Toshiba (Toshiba) LTM13C148 13. .3 20P 1024 * 768. .
Hitachi (Hitachi) .3 TX34D11VCOCAA 13.60; < &.
Toshiba (Toshiba) LTM12C318 12. .1 14P 1024 * 768. .
Toshiba (Toshiba) .1 30P LTM12C275 12.800 * 600.
Toshiba (Toshiba) LTM12C263 12. .1 30P 800 * 600. .
NEC NL10276AC24-02 12。.1&<60;。.
Mitsubishi (Mitsubishi) AA121SJ03 12. 800 * 600 41 .1 deduction. .
Mitsubishi (Mitsubishi) .1 AA121SJ03 12.40 (grub) 800 * 600.
Mitsubishi (Mitsubishi) AA121SB11 12. 800 * 600 41 .1 deduction. .
Mitsubishi (Mitsubishi) 73H8200 12. .1 40 Flathead 800 * 600.
IBN 82H5226 (ITXG60Q) 12. .1 21P 1024 * 768. .
IBN 46H3598 12. .1 40 detained for 800 * 600.
IBM ITSV51X (73H8200) 12. .1 * 600 800 40 flat head. .
IBM 82H5335 detained 12. .1 41 800 * 600.
IBM 82H5335 12. 800 * 600 41 .1 deduction. .
IBM 82H5226 12。.1 21P 1024*768。.
IBM 82H5226 12. .1 21P 1024 * 768. .
IBM 82H5226 12。.1 21P 1024*768。.
IBM 82H5226 12. .1 21P 1024 * 768. .
IBM 82H5226 12。.1 21P 1024*768。.
IBM 82H5226 12. .1 21P 1024 * 768. .
IBM 82H5226 12。.1 21P 1024*768。.
IBM 74H0750 (ITSV50D) 12. 800 * 600 41 .1 deduction. .
IBM 74H0740 (ITSV50D) .1 detained 12.41.800 * 600.
IBM 73H8240 12. .1 40 (exclusive) 800 * 600. .
IBM 46H3652 12. 800 * 600 40 .1 deduction. .
IBM 46H3640 12. .1 40 detained for 800 * 600.
IBM 46H3640 12. 800 * 600 40 .1 deduction. .
IBM 46H3640 12. .1 40 detained for 800 * 600.
IBM 46H3598 12. 800 * 600 40 .1 deduction. .
IBM 29H7699 12。.1&<60;。.
IBM 29H6588 12. .1 Second row 40 button 800 * 600. .
IBM 29H6588 12. .1 second row 40 detained for 800 * 600.
IBM 29H6588 12. .1 Second row 40 button 800 * 600. .
IBM 29H6588 12. .1 second row 40 detained for 800 * 600.
Hosiden HLD1205-020120 12. 800 * 600 41 .1 deduction. .
Hosiden HLD1205-020120 detained 12. .1 41 800 * 600.
Hosiden HLD1205-020120 12. 800 * 600 41 .1 deduction. .
Hosiden HLD1203-020120 detained 12. .1 41 800 * 600.
Hosiden HLD1203-020120 12. 800 * 600 41 .1 deduction. .
Hosiden HLD1203-020120 detained 12. .1 41 800 * 600.
Hosiden HLD1203-020120 12. 800 * 600 41 .1 deduction. .
Hosiden HLD1201-026120 detained 12. .1 41 800 * 600.
Hosiden HLD1201-026120 12. 800 * 600 41 .1 deduction. .
Hitachi (Hitachi) TX31D73VCLCAA 12. .1 20P 1024 * 768.
Hitachi (Hitachi) TX31D72V 12. .1 20P 1024 * 768. .
Hitachi (Hitachi) TX31D33VCLCAF 12. .1 20P 1024 * 768.
Hitachi (Hitachi) TX31D24V 12. 800 * 600 41 .1 deduction. .
Hitachi (Hitachi) .1 TX31D02V 12.70 for 1024 * 768.
Hitachi (Hitachi) TX31D02V 12. 1024 * 768 70 .1 deduction. .
Fujitsu (Fujitsu) .1 NA19018-C151 12.41 buckle 800 * 600.
Fujitsu (Fujitsu) NA19017-C451 12. 800 * 600 41 .1 deduction. .
Fujitsu (Fujitsu) .1 NA19017-C451 12.41 buckle 800 * 600.
Hitachi (Hitachi) TX30D11V 11. 800 * 600 41 .8 deduction. .
Toshiba (Toshiba) .3 LTM11C011 11.41 buckle 800 * 600.
Sharp (Sharp) LQ11S613 11. .3 14P 800 * 600. .
Sharp (sharp) .3 LQ11S46 11.41 buckle 800 * 600.
Sharp (Sharp) LQ11S353 11. 800 * 600 41 .3 deduction. .
Sharp (sharp) .3 LQ11S30 11.41 buckle 800 * 600.
Sharp (Sharp) LQ11DS03 11. 800 * 600 41 .3 deduction. .
NEC NL8060BC29-01 41 11. .3 for 800 * 600.
IBM 73H7020 11. 800 * 600 41 .3 deduction. .
Hosiden HLD1104-020120 detained 11. .3 41 800 * 600.
Fujitsu (Fujitsu) NA19017-C151 11. 800 * 600 41 .3 deduction. .
Fujitsu (Fujitsu) .3 NA19017-C051 11.41 buckle 800 * 600.
Toshiba (Toshiba) LTM10C348 10. .4 14P 800 * 600. .
Toshiba (Toshiba) .4 LTM10C039 10.31 buckle 800 * 600.
Toshiba (Toshiba) LTM10C038S 10. 800 * 600 41 .4 deduction. .
Toshiba (Toshiba) .4 LTM10C029 10.41 buckle 800 * 600.
Toshiba (Toshiba) LTM10C021 10. 800 * 600 41 .4 deduction. .
Toshiba (Toshiba) .4 LTM10C013 10.60; < &.
Sharp (Sharp) LTM10C039 10. 800 * 600 31 .4 deduction. .
Sharp (sharp) .4 LTM10C036 10.31 buckle 800 * 600.
Sharp (Sharp) LQA4V102A 10. .4 "& <60;. .
Sharp (sharp) .4 LQ10W03A 10.60; < &.
Sharp (Sharp) LQ10W03 10. .4 "& <60;. .
Sharp (sharp) .4 LQ10DX01 10.60; < &.
Sharp (Sharp) LQ10DS32M 10. .4 "& <60;. .
Sharp (sharp) .4 LQ10DS07 10.60; < &.
Sharp (Sharp) LQ10D345 10. .4 "& <60;. .
Sharp (sharp) .4 LQ10D313 10.60; < &.
Sharp (Sharp) LQ10D311 10. 640 * 480 31 .4 deduction. .
Tag:. .
Jianhua e-published: 08: 23: 16 | Read more | Comments 0 | Edit | Share 0..
The definition of conventional LVDS LCD interfaces. .
1: Power 2: Power 3: to 4: to 5: R0-6: R0 + 7: to 8: R1-9: R1 + 10: to 11: R2-12: R2 + 13: to 14: CLK-15: CLK + 16 empty 17 empty 18 empty 19 empty 20 empty. .
Each set of signal lines between resistance (digital table 120 Euro around).
20PIN Double 6 Definition:. .
1: power 2: power 3: 4: 5: R0-6: R0 + 7: R1-8: R1 + R2-9: 10: 11: R2 + CLK CLK +-12: 13: 14: RO1 RO1-+ 15: RO2-16: 17: RO2 RO3-+ 18: RO3 +.
19: CLK1-20: CLK1 +. .
Each set of signal lines between resistance (digital table 120 Euro around).
20PIN single 8 Definition:. .
Resistance between each signal line (digital form about 120 Euro). .
Definition: 30PIN single 6..
1: empty 2: Power 3: Power 4: Empty 5: Empty 6: blank 7: Empty 8: R0-9: R0 + 10: to 11: R1-12: R1 + 13: to 14: R2-15: R2 + 16: to 17: CLK-18: CLK + 19: to 20: Air - 21: Air 22: Air 23: Air 24: Air 25: Air 26: Air 27: empty 28 empty 29 empty 30 empty. .
Each set of signal lines between resistance (digital table 120 Euro around).
30PIN single 8 Definition:. .
1: blank 2: power 3: power 4: 6 5: empty empty: empty 7: air 8: R0-9: R0 + 10: 11: R1 R1 +-12: 13: 14: 15: R2-R2 + 16: 17: 18: CLK CLK-+ 19: 20: R3-R3 + 21: 22: 23: 25, 24: empty empty: empty 26: empty empty: empty 27 28 29 30 empty space.
Resistance between each signal line (digital form about 120 Euro). .
30PIN dual 6 definition: 1: power 2: power 3: 4: 5: R0-6: R0 + 7: 8: R1-9: R1 + 10: 11: 12: R2-R2 + 13: 14: CLK CLK +-15: 16: 17: 18: RS0-RS0 + 19: 20: 21: RS1-RS1 + 22: 23: 24: RS2-RS2 + 25: 26: CLK2-27: CLK2 +.
Resistance between each signal line (digital form about 120 Euro). .
Definition: 30PIN double 8..
1: Power 2: Power 3: Power 4: Empty 5: Empty 6: blank 7: to 8: R0-9: R0 + 10: R1-11: R1 + 12: R2-13: R2 + 14: to 15: CLK-16 : CLK + 17: to 18: R3-19: R3 + 20: RB0-21: RB0 + 22: RB1-23: RB1 + 24: to 25: RB2-26: RB2 + 27: CLK2-28: CLK2 + 29: RB3-30: RB3 + . .
Each set of signal lines between resistance (digital table 120 Euro around).
General 14PIN, 20PIN, 30PIN the LVDS interface. .
Tag:。.
Jianhua Electronic Posted at 13:01:01 | Read | Comments 1 | Edit | Share 0. .
Because there are too many LCD brands, models and more complex, some terminology, resulting in a more professional and customer communication is difficult, often a simple question about a customer or not quite understand, unlikely. Here's some of the more common problems for some experience. 1. LCD model.
Check out the LCD screen from the Internet and more models, you will summarize the various brands of LCD models encoding rules, but it was so simple! However, some models of IBM-screen machines do not so simple, that is a string of numbers, that is, serial number IBM accessories, on the surface the absence of any information on the LCD screen. Fortunately, IBM named this ingenious method has been rare, and stumped us the opportunity to not more! . .
Second, the LCD cable interface.
LCD data interface has the following general categories:. .
1, snap-on 41 needle: such as LP121S1 (LG), TM121SV-02L01 (TORISAN).
2, 20-pin wide-mouth: If LT121SU-121 (SAM Taurus Dr G), LQ121S1LH03 (SHARP). .
3, small mouth 20 pin: UB133X01, LP133X7 (LG), TM133XG-02L07 (TORISAN).
4, Insert 20-pin: If L133X2 (ACER). .
5, plate 30-pin: TX36D97VC1CAA (HITACHI), TX41D56VC1CAA..
6, 14-pin small-mouth: If LTM13C417 (TOSHIBA), LTM14C421, HSD141PX11. .
7, snap-on 31-pin: LTM10C209H (TOSHIBA), TX26D80VC1CAB (HITACHI).
Although the LCD screen interface standards are inconsistent, but the signal is quite consistent with the standard, generally there are so few groups of signals: power supply, three color signal, a group of clock signals. This is why the LCD screen not the same model and interfaces, but they can substitute each other the truth. But sometimes because the procedure is slightly different and may display a bit different. .
Third, the exchange of the LCD.
LCD screen standard more consistent signal, although the interface may be different, but after the interface conversion, in general is able to swap. Many manufacturers produce LCD screen, all manufacturers are not the same model numbers, but all the manufacturers are basically the same technical standards, specifications are basically the same, with the standardization of computer accessories, almost all manufacturers of the products are standardized, so that most The LCD screen swap is no problem! How dare a few manufacturers produce non-standard products? Non-standard products will buy ah! Therefore, most of the computers at the same time with several brands of LCD screen, and even a computer with several models of several brands of LCD screen.。.
Fourth, the quality of the LCD screen. .
The manufacturers of the technology base, who are also high than anyone not to go, the industry is more popular OEM production, many brands are put, all the manufacturers tailor is cost, therefore, we do not blindly pursuing what brands, is in good condition! in General, as long as no highlights no scratches no bright line even better screen. From our experience, the LCD is very small because the causes damage to the circuit, 75% of all man-made causes damage, such as wrestling, caused by external forces of extrusion.
V. Troubleshooting the LCD screen (a), can repair failure (common). .
2, scratch. .
4, the bright lines. .
5. video corruption, blank screen, do not display (2), not repair the fault 1, screen cracked.
2, white patches, dark spots (screen itself). .
4, highlights. .
5. leakage.
Tag:. .
Jianhua e was published on 21: 18: 58 | Read more | Comments 0 | Edit | Share 0..
2007-2-14 declining prices of LCD monitors, LCD monitors are no longer distinguished as before, has started a lot of popularity, a great potential to replace CRT displays, with the popularity of LCD monitors continue to fault the machine continue to appear, Here I am in the repair process that often appear in black failure analysis. In analyzing this issue before the structure of liquid crystal displays are introduced, the following is the structure of an LCD display and all the accessories. .
1. PANEL (LCD).
2, A / D driver board;. .
3. pingxian LCD drive.
4, the pressure plate (also known as step-up board, high-pressure section, INVERTER). .
6, Power adapter (external, generally using DC 3A/12V), also part of the display of the opening. .
Power off the machine in some built-in, direct input AC220..
7, VGA cable. .
.。.
Tag:. .
Jianhua e-published: 07: 56: 19 | Read more | Comments: 1 | Edit | Share 0..
Common collection of LCD panel resolution and dot pitch to the network pick>> Adtec AD-AD15W = 15 inch TN (TOSHIBA LTM15C441) panel. .
Adtec AD-AA15X = 15 inch TN (Samsung LTM150XS-T01) panel。.
Adtec AD-AA15VWS = 15 inch 25 ms TN (Sanyo TM150XG-26L10C) panel. .
Adtec AD-AC17Z = 17 inch TN (AUO M170EN04 V。.6) panel。.
Adtec AD-AT17R = 17 inch 39 ms TN (Samsung LT170E2-132) panel. .
Belinea 101710 = 17 inch 8 ms TN panel. .
Belinea 101715 = 17 inch 8 ms TN panel。.
Belinea 101720 = 17 inch 8 ms TN panel. .
Belinea 101725 = 17 inch 16 ms TN panel。.
Belinea 101727 = 17 inch 8 ms TN panel. .
Belinea 101728 = 17 inch 8 ms TN panel。.
Belinea 101735 = 17 inch 13 ms TN panel. .
Belinea 101740 = 17 inch 25 ms MVA (Fujitsu FLC44SXC8V) panel。.
Belinea 101741 = 17 inch 25 ms MVA (Fujitsu FLC44SXC8V) panel. .
Belinea 101750 = 17 inch 25 ms PVA (Samsung) panel。.
Belinea 101751 = 17 inch 25 ms PVA (Samsung) panel. .
Belinea 101901 = 17 inch 8 ms TN panel。.
Belinea 101902 = 19 inch 16 ms TN (Chungwa) panel. .
Belinea 101903 = 19 inch 8 ms TN panel。.
Belinea 101905 = 19 inch 25 ms P-MVA (Fujitsu FLC48SXC8V-01) panel. .
Belinea 101906 = 19 inch 25 ms P-MVA (Fujitsu FLC48SXC8V-01) panel。.
Belinea 101910 = 19 inch 25 ms P-MVA (Fujitsu FLC48SXC8V-01) panel. .
Belinea 101911 = 19 inch 25 ms MVA panel。.
Belinea 101920 = 19 inch 8 ms (g2g) P-MVA (AUO M190EG01 V0) panel. .
Belinea 101920 ver2 = 19 inch 25 ms PVA (Samsung) panel。.
Belinea 101925 = 19 inch 8 ms TN (AUO) panel. .
Belinea 101927 = 19 inch 4 ms (g2g) TN panel。.
Belinea 101930 = 19 inch 8 ms TN panel. .
Belinea 101935 = 19 inch 8 ms TN panel。.
Belinea 102015 = 20 inch 25 ms P-MVA (Fujitsu FLC51UXC8V) panel. .
Belinea 102035W (widescreen) = 20 inch 8 ms (g2g) P-MVA panel。.
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Acer FP563 = 15 inch 35ms TN (AUO L150X2M-1) panel。.
Acer AL1712 = 17 inch 16 ms TN panel. .
Acer AL1713 = 17 inch 25 ms TN (CPT CLAA170EA02) panel。.
Acer AL1714 = 17 inch 14 ms TN panel. .
Acer AL1715ms/msd = 17 inch 12 ms TN panel。.
Acer AL1732 = 17 inch 12 ms TN (AUO M170EG01 V9) panel. .
Acer AL1751wm = 17 inch 25 ms P-MVA (AUO M170XW01) panel。.
Acer AL1912s = 19 inch 16 ms TN panel. .
Acer AL1921 = 19 inch 25 ms PVA (Samsung) panel。.
Acer AL1931 = 19 inch 25 ms MVA (Fujitsu) panel. .
Acer AL1922As = 19 inch 8 ms (g2g) PVA (Samsung LTM190E4) panel。.
Acer AL2017 = 20. .1 Inch 8 ms TN (CMO M201P1-L01) panel. . [SXGA +]. .
Acer AL2021 = 20。.1 inch 25 ms MVA (Fujitsu FLC51UXC8V) panel。.
Acer AL2021 ver2 = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
Acer AL2021 ver3 = 20。.1 inch 16 ms S-PVA (Samsung LTM201U1) panel。.
Acer Ferrari F-20 (widescreen) = 20. .1 Inch 8 ms (g2g) P-MVA (AUO M201EW01) panel. .
Acer AL2416W (widescreen) = 24 inch 6 ms (g2g) PVA (Samsung LTM240M1) panel。.
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Apple Studio Display 15 M2454 = 15 inch TN (LG。.Philips LM151X3) panel。.
Apple Studio Display 17 M7649 = 17 inch 35 ms ACE (Samsung LTM170E4-P01) panel. .
Apple Cinema Display 20 M8893 = 20。.1 inch 50 ms DD-IPS (IDTech IAWS64) panel。.
Apple Cinema Display 20 M9177 = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201W01) panel. .
Apple Cinema Display 22 M5662 = 22 inch 60 ms IPS (LG。.Philips LM220W1) panel。.
Apple Cinema Display 23 M8537 = 23 inch 25 ms S-IPS (LG.. Philips LM230W01) panel. .
Apple Cinema Display 30 M9179 = 30 inch 16 ms S-IPS (LG.. Philips LM300W01) panel. .
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BenQ FP591 = 15 inch 16 ms TN (AUO M150XN04) panel. .
BenQ FP71E+ = 17 inch 8 ms TN (AUO M170EG01) panel。.
BenQ FP71G + = 17 inch 8 ms TN (AUO M170EG01) panel. .
BenQ FP71V+ = 17 inch 4 (g2g) ms TN (AUO) panel。.
BenQ FP71W = 17 inch 25 ms P-MVA (AUO) panel. .
BenQ FP72V = 17 inch 25 ms PVA (Samsung) panel。.
BenQ FP731 = 17 inch 25 ms TN (CPT CLAA170EA03) panel. .
BenQ FP757 = 17 inch 16 ms TN (LG。.Philips LM170E01) panel。.
BenQ FP767 = 17 inch 16 ms TN (AUO M170EG01 V0) panel. .
BenQ FP767 ver2 = 17 inch 12 ms TN (AUO M170EG01 V1) panel。.
BenQ FP781 = 17 inch 35 ms ACE (Samsung LTM170E4) panel. .
BenQ FP783 = 17 inch 12 ms TN (AUO M170EG01 V0) panel。.
BenQ FP785 = 17 inch 25 ms P-MVA (AUO M170EG02) panel. .
BenQ FP791 = 17 inch 16 ms TN (AUO M170EN06 V2) panel。.
BenQ FP882 = 18. .1 Inch 50 ms IPS (LG.. Philips LM181E05-C4) panel. .
BenQ FP1931M = 19 inch 25 ms P-MVA (Fujitsu FLC48SXC8V-01) panel。.
BenQ FP91E = 19 inch 8 ms (g2g) PVA (Samsung LTM190E4-L02) panel. .
BenQ FP91G = 19 inch 12ms TN (AUO M190EN04) panel。.
BenQ FP91GP = 19 inch 8 ms (g2g) P-MVA (AUO M190EG01 V0) panel. .
BenQ FP91G P = 19 inch 8 ms (g2g) P-MVA (AUO M190EN03 V0) panel。.
BenQ FP91V = 19 inch 4ms (g2g) TN (AUO M190EG02 V0) panel. .
BenQ FP91V+ = 19 inch 6ms (g2g) TN (AUO) panel。.
BenQ FP931 = 19 inch 16 ms (g2g) TN (AUO) panel. .
BenQ FP937s = 19 inch 12ms TN (AUO M190EN04) panel。.
BenQ FP937s ver2 = 19 inch 12ms TN (LG.. Philips LM190E03) panel. .
BenQ FP937s+ = 19 inch 8ms TN (Samsung LTM190EX-L01) panel。.
BenQ FP937s + ver2 = 19 inch 8ms TN (AUO) panel. .
BenQ FP93GX = 19 inch 2 ms (g2g) TN (AUO M190EG02 V1) panel。.
BenQ FP951 = 19 inch 25 ms (g2g) MVA (AUO) panel. .
BenQ FP991 = 19 inch 25 ms MVA-P (Fujitsu FLC48SXC8V) panel。.
BenQ FP992 = 19 inch 25 ms P-MVA (AUO M190EN02) panel. .
BenQ FP2081 = 20。.1 inch 25 ms S-IPS (LG。.Philips LM201U02) panel。.
BenQ FP2081 ver2 = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
BenQ FP2091 = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201U04) panel。.
BenQ FP2092 = 20. .1 Inch 12 ms (g2g) S-PVA (Samsung LTM201U1-L01) panel. .
BenQ FP202W (widescreen) = 20。.1 inch 8 ms TN (CPT CLAA201WA01) panel。.
BenQ FP231W (widescreen) = 23 inch 25 ms S-IPS (LG.. Philips LM230W01) panel. .
BenQ FP231W (widescreen) ver2 = 23 inch 16 ms S-IPS (LG。.Philips LM230W02) panel。.
---. .
Dell 1501FP = 15 inch TN (Toshiba LTM15C430) panel。.
Dell 1501FP ver2 = 15. .1 Inch 50 ms TN (LG.. Philips LM151X2) panel. .
Dell 1503FP = 15 inch TN (Samsung LTM150XS-L01) panel。.
Dell 1701FP = 17 inch TN (Samsung LTM170E4-L01) panel. .
Dell 1702FP = 17 inch PVA (Samsung) panel。.
Dell 1703FP = 17 inch 25ms PVA (Samsung) panel. .
Dell 1704FPT = 17 inch 12 ms TN (Samsung LTM170EU) panel。.
Dell 1704FPV = 17 inch 25 ms PVA (Samsung LTM170E8-L01) panel. .
Dell 1706FP = 17 inch 25 ms PVA (Samsung LTM170E8) panel。.
Dell 1800FP = 18 inch 30 ms IPS (LG.. Philips LM181E06) panel. .
Dell 1900FP = 19 inch 25 ms PVA (Samsung LTM190E1) panel。.
Dell 1905FP = 19 inch 20 ms PVA (Samsung LTM190E4-L02) panel. .
Dell 1906FP = 19 inch 25 ms PVA (Samsung LTM190E4) panel. .
Dell 2000FP = 20。.1 inch 25 ms S-IPS (LG。.Philips LM201U02) panel。.
Dell 2001FP = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
Dell 2001FP ver2 = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201U04-SL02) panel。.
Dell 2001FP ver3 = 20. .1 Inch 12 ms (g2g) S-PVA (Samsung LTM201U1-L01) panel. .
Dell 2007FP = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201U05) panel。.
Dell 2007FP ver2 = 20. .1 Inch 16 ms S-PVA (Samsung LTM201U1) panel. .
Dell 2007WFP (widescreen) = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201WE2) panel. .
Dell 2405FPW (widescreen) = 24 inch 12 ms (g2g) PVA (Samsung LTM240W1-L04) panel。.
Dell 2405FPW (widescreen) ver2 = 24 inch 12 ms (g2g) PVA (Samsung LTM240M1-L01) panel. .
Dell 2407WFP (widescreen) = 24 inch 6 ms (g2g) PVA (Samsung LTM240M2) panel。.
Dell 3007WFP (widescreen) = 30 inch 11 ms (g2g) S-IPS (LG.. Philips LM300W01) panel. .
---。.
Eizo L23 (E141L) = 13. .8 Inch TN (SHARP LQ14X03) panel. .
Eizo L330 = 15 inch 40 ms TN (CPT CLAA150XA03) panel. .
Eizo L350 = 15 inch 45 ms TN (SHARP) panel。.
Eizo L351 = 15 inch 35 ms TN (SHARP LQ150X1DG58) panel. .
Eizo L360 = 15 inch 45 ms TN (SHARP) panel. .
Eizo L365 = 15 inch 25 ms TN (Mitsubishi AA150XC01) panel。.
Eizo L367 = 15 inch 25 ms TN (Mitsubishi AA150XJ01) panel. .
Eizo L371 = 15 inch 35 ms TN (SHARP) panel。.
Eizo L375 = 15 inch 25 ms TN (Mitsubishi AA150XJ01) panel. .
Eizo L461 = 16 inch 45 ms TN (SHARP LQ160E1LG08) panel. .
Eizo L550 = 17 inch 16 ms TN (AUO) panel. .
Eizo L551 (P170) = 17 inch 16 ms TN (SHARP LQ170E1LG11) panel。.
Eizo L557 = 17 inch 25 ms PVA (Samsung LTM170E6-L03) panel. .
Eizo L560t-ck = 17 inch 25 ms PVA (Samsung) panel. .
Eizo L565 = 17 inch 35 ms S-IPS (Hitachi TX43D15VC0CAD) panel。.
Eizo L567 = 17 inch 35 ms S-IPS (Hitachi TX43D15VC0CAD) panel. .
Eizo L578 (M170) = 17 inch 12 ms (g2g) PVA (Samsung LTM170E8) panel. .
Eizo M1700 = 17 inch 8 ms TN (Samsung LTM170EU) panel。.
Eizo P1700 = 17 inch 8 ms TN (Samsung LTM170EU) panel. .
Eizo PLACEO = 17 inch 35 ms S-IPS (Hitachi TX43D15VC0CAD) panel。.
Eizo L66 = 18. .1 Inch TN (SHARP LQ181E1DR10) panel. .
Eizo L660 = 18。.1 inch 50 ms IPS (IBM ITSX94N) panel。.
Eizo L661 = 18. .1 Inch 45 ms TN (SHARP LQ181E1DG11) panel. .
Eizo L665 = 18。.1 inch 40 ms DD-IPS (IDTech ITSX98) panel。.
Eizo L671 = 18. .1 Inch 45 ms ASV (SHARP LQ181E1DW21) panel. .
Eizo L675 = 18。.1 inch 50 ms IPS (IBM ITSX94N1) panel。.
Eizo L676 = 18. .1 Inch 25 ms ASV (SHARP LQ181E1LW31) panel. .
Eizo L685 = 18. .1 Inch 40 ms DD-IPS (IDTech ITSX98) panel. .
Eizo L685EX = 18。.1 inch 40 ms DD-IPS (IDTech ITSX98N) panel。.
Eizo L695 = 18. .1 Inch 40 ms DD-IPS (IDTech ITSX98N) panel. .
Eizo L760t-c = 19 inch 20 ms PVA (Samsung) panel。.
Eizo L760t-ck = 19 inch 20 ms PVA (Samsung) panel. .
Eizo L767 = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel。.
Eizo L768 = 19 inch 25 ms PVA (Samsung LTM190E4-L02) panel. .
Eizo L768-AS = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel。.
Eizo L778 (M190) = 19 inch 12 ms (g2g) PVA (Samsung LTM190E4) panel. .
Eizo L795 = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel. .
Eizo L797 = 19 inch 25 ms SA-SFT (NEC NL128102BC29-01) panel。.
Eizo S190 = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel. .
Eizo S1910 = 19 inch 12 ms (g2g) PVA (Samsung LTM190E4) panel。.
Eizo S1910-HR = 19 inch 8 ms (g2g) PVA (Samsung LTM190E4-L02) panel. .
Eizo L771 = 19. .6 Inch 45 ms TN (SHARP LQ196U1LG01) panel. .
Eizo L885 = 20。.1 inch 20 ms ASV (SHARP LQ201U1LW21) panel。.
Eizo L887 = 20. .1 Inch 20 ms ASV (SHARP LQ201U1LW28) panel. .
Eizo L997 = 21. .3 Inch 30 ms S-IPS (Hitachi TX54D11VC0CAC) panel. .
Eizo S2110W (Widescreen) = 21。.1 inch 8 ms (g2g) S-PVA (Samsung LTM210M1-L01) panel。.
Eizo S2110W-K (Widescreen) = 21. .1 Inch 8 ms (g2g) S-PVA (Samsung LTM210M1-L01) panel. .
Eizo S2410W-K (widescreen) = 24. .1 Inch 8 ms (g2g) S-PVA (Samsung LTM240M2-L01) panel. .
Eizo CG19 = 19 inch 25 ms SA-SFT (NEC NL128102BC29-01) panel. .
Eizo CE210W (widescreen) = 21。.1 inch 8 ms (g2g) S-PVA (Samsung LTM210M1-L01) panel。.
Eizo CG21 = 21. .3 Inch 50 ms S-IPS (Hitachi TX54D11VC0CA panel..
Eizo CG210 = 21。.3 inch 30 ms S-IPS (Hitachi TX54D11VC0CAC) panel。.
Eizo CG220 (widescreen) = 22. .2 Inch 37 ms S-IPS (Mitsubishi AA222ZA01) panel. .
Eizo CE240W (widescreen) = 24。.1 inch 8 ms (g2g) S-PVA (Samsung LTM240M2-L01) panel。.
Eizo FA-2090 = 20. .8 Inch 50 ms DD-IPS (IDTech ITQX20) panel. .
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Fujitsu-Siemens P17-2 = 17 inch 13 ms (g2g) PVA (Samsung LTM170E8) panel. .
Fujitsu-Siemens P19-2 = 19 inch 8 ms (g2g) PVA (Samsung LTM190E4) panel。.
Fujitsu-Siemens P20-2 = 20 inch 11 ms (g2g) S-PVA (Samsung LTM201U1) panel. .
Fujitsu-Siemens T19-2 = 19 inch 8 ms TN (Samsung LTM190EX-L01) panel。.
Fujitsu-Siemens W19-1 (widescreen) = 19 inch 8 ms TN (Samsung LTM190M2) panel. .
Gateway 1500 = 15 inch TN (LG.. Philips LM151X1) panel. .
Gateway FDP1810 = 18。.1 inch 35 ms IPS (LG。.Philips LM181E04) panel。.
Gateway FDP1830 = 18. .1 Inch 30 ms IPS (LG.. Philips LM181E06) panel. .
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GreenHouse GH-PLF193SD = 19 inch 20 ms P-MVA (AUO) panel. .
GreenHouse GH-ACF193SD = 19 inch 25 ms P-MVA (AUO) panel. .
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HP L1706 = 17 inch 12 ms TN panel. .
HP L1740 = 17 inch 13 ms TN panel。.
HP L1755 = 17 inch 25 ms PVA (Samsung LTM170E8) panel. .
HP vs17e = 17 inch 8 ms TN panel. .
HP L1906 = 19 inch 12 ms TN panel. .
HP L1940 = 19 inch 25 ms MVA panel。.
HP L1955 = 19 inch 16 ms S-MVA panel. .
HP vs19 = 19 inch 16 ms TN panel。.
HP vs19e = 19 inch 8 ms TN panel. .
HP L2035 = 20 inch 16 ms S-IPS (LG。.Philips LM201U04) panel。.
HP L2105 (Widescreen) = 21 inch 16 ms S-PVA (Samsung LTM210M2) panel. .
HP F2304 (Widescreen) = 23 inch 25 ms S-IPS panel。.
HP L2335 (Widescreen) = 23 inch 16 ms S-IPS (LG.. Philips LM230W02) panel. .
Hyundai B70A = 17 inch 8 ms TN panel. .
Hyundai B90A = 19 inch 8 ms TN (Samsung LTM190EX-L01) panel. .
Hyundai L19T = 19 inch 25 ms MVA panel. .
Hyundai L70D + = 17 inch 12 ms TN panel. .
Hyundai L72D = 17 inch 8 ms TN panel. .
Hyundai L90D + = 19 inch 8 ms TN (Samsung LTM190EX-L01) panel. .
Hyundai L91A = 19 inch 12 ms TN panel。.
Hyundai L91D = 19 inch 12 ms (g2g) MVA panel. .
Hyundai Q17 = 17 inch 20 ms TN (Hydis HT17E11-300 or HT17E12) panel。.
Hyundai Q17 + = 17 inch 12 ms TN (Samsung LTM170EU-L11) panel. .
Hyundai Q320 = 32 inch 8 ms (g2g) PVA panel。.
Hyundai Q321 = 32 inch 8 ms (g2g) PVA panel. .
Hyundai Q400 = 40 inch 8 ms (g2g) PVA panel。.
Hyundai Q70U = 17 inch 3 ms (g2g) TN panel. .
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I-O DATA LCD-A15C = 15 inch 25 ms TN (Mitsubishi AA150XC01) panel。.
IO DATA LCD-A15H = 15 inch 40 ms TN (Mitsubishi AA150XA03) panel. .
IO DATA LCD-A15T-A = 15 inch TN (HYUNDAI HT15X11-100) panel. .
I-O DATA LCD-A15V = 15 inch 25 ms TN (Samsung LTM150XI-A03) panel。.
IO DATA LCD-AD194G = 19 inch 20 ms P-MVA (AUO) panel. .
I-O DATA LCD-AD202GW/B = 20。.1 inch 16 ms (g2g) P-MVA (AUO M201UN02 V3) panel。.
---. .
IBM L170P = 17 inch 25 ms PVA panel. .
IBM L190P = 19 inch 25 ms PVA panel. .
IBM T210 = 20. .8 Inch 50 ms IPS (IDTech ITQX20E) panel. .
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Iiyama AS4311U = 17 inch 40 ms ACE (Samsung LTM170E4) panel。.
Iiyama AS4314UT = 17 inch 20 ms TN (HyDis HT17E12) panel. .
Iiyama AS4332UT = 17 inch 25 ms PVA (Samsung) panel。.
Iiyama AS4431D = 17. .4 Inch 25 ms MVA (Fujitsu FLC44SXC8V) panel. .
Iiyama E431S = 17 inch 16 ms TN (LG.. Philips LM170E01) panel. .
Iiyama E480S-S = 19 inch 8 ms TN (Samsung LTM190EX-L01) panel. .
Iiyama E481S-1 = 19 inch 25 ms S-IPS (LG.. Philips LM190E01-C4) panel. .
Iiyama L400W-B = 40 inch 23 ms PVA (Samsung) panel. .
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LG L172WT = 17 inch 25 ms S-IPS (LG。.Philips LC171W03) panel。.
LG L173WA = 17 inch 25 ms S-IPS (LG.. Philips LC171W03) panel. .
LG L1710B / S ver2 = 17 inch 16 ms TN (Hydis HT17E12-100) panel. .
LG L1715S (L1716S) = 17 inch 16 ms TN (LG.. Philips LM170E01-A4) panel. .
LG L1715S (L1716S) ver3 = 17 inch 16 ms TN (AUO M170EN05) panel. .
LG L1720B/P/S = 17 inch 16 ms TN (LG。.Philips LM170E01-A4) panel。.
LG L1720B/P/S ver2 = 17 inch 16 ms TN (LG.. Philips LM170E01-A5) panel. .
LG L1810B = 18. .1 Inch 30 ms IPS (LG.. Philips LM181E06-A4) panel. .
LG L1811B/S = 18。.1 inch 30 ms IPS (LG。.Philips LM181E05-C3/C4) panel。.
LG L1811B / S ver2 = 18. .1 Inch 30 ms IPS (LG.. Philips LM181E06) panel. .
LG L1915S = 19 inch 12 ms TN (LG.. Philips LM190E03-B4) panel. .
LG L1920B = 19 inch 25 ms S-IPS (LG。.Philips LM190E01-C4) panel。.
LG L1930B = 19 inch 25 ms S-IPS (LG.. Philips LM190E01-C4) panel. .
LG L1930S = 19 inch 25 ms S-IPS (LG。.Philips LM190E01-C4) panel。.
LG L1940B = 19 inch 25 ms S-IPS (LG.. Philips LM190E02) panel. .
LG L2000C = 20. .1 Inch 8 ms (g2g) S-IPS (LG.. Philips LM201U05) panel. .
LG L2010B/P = 20。.1 inch 25 ms S-IPS (LG。.Philips LM201U03) panel。.
LG L2010B / P ver2 = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
LG M203WA (widescreen) = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201W01) panel。.
LG L2320A (widescreen) = 23 inch 25 ms S-IPS (LG.. Philips LM230W01) panel. .
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Mitsubishi MDT151X = 15 inch TN (Mitsubishi AA150XA03) panel. .
Mitsubishi RDT152X = 15 inch TN (Mitsubishi AA150XB01) panel. .
Mitsubishi RDT195V = 19 inch 25ms S-IPS (LG.. Philips LM190E01-C4) panel. .
Mitsubishi UX21LCD = 21. .3 Inch 20 ms SA-SFT (NEC NL160120BC27-02) panel. .
Mitsubishi RDT211H = 21。.3 inch 20 ms SA-SFT (NEC NL160120BC27-02) panel。.
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NEC LCD1760NX = 17 inch 16 ms TN (AUO M170EN05) panel。.
NEC LCD1760NX ver2 = 17 inch 16 ms TN (LG.. Philips LM170E01) panel. .
NEC LCD1770GX = 17 inch 8 ms TN panel。.
NEC LCD1770GX-BK = 17 inch 8 ms TN panel. .
NEC LCD1770NX = 17 inch 12 ms TN (LG。.Philips LM170E01-G5) panel。.
NEC LCD70GX2 = 17 inch 4 ms (g2g) TN panel. .
NEC LCD72XM = 17 inch 16 ms TN panel. .
NEC LCD1860NX = 18. .1 Inch 30 ms IPS (LG.. Philips LM181E06-C4) panel. .
NEC LCD1880SX = 18。.1 inch 33 ms A-SFT (NEC NL128102AC28-07) panel。.
NEC LCD1920NX = 19 inch 25 ms P-MVA (Fujitsu FLC48SXC8V-01) panel. .
NEC LCD1960NXi = 19 inch 25 ms S-IPS (LG.. Philips LM190E01-C4/E02) panel. .
NEC LCD1970NX = 19 inch 25 ms S-IPS (LG.. Philips LM190E01-C4/E02) panel. .
NEC LCD1980SX = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel。.
NEC LCD1970NXp = 19 inch 20 ms MVA panel. .
NEC LCD1970VX = 19 inch 16 ms TN panel. .
NEC LCD1980SX = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel。.
NEC LCD1980SXi = 19 inch 25 ms PVA (LG.. Philips LM190E02-B4) panel. .
NEC LCD1990SXi = 19 inch 18 ms S-IPS panel. .
NEC LCD92VM = 19 inch 16 ms TN (AUO M190EN4) panel. .
NEC LCD92VM = 19 inch 16 ms TN (AUO M190EN4) panel. .
NEC SpectraView 1980 = 19 inch 25 ms S-IPS (LG.. Philips LM190E02) panel. .
NEC LCD2080UX = 20。.1 inch 25 ms S-IPS (LG。.Philips LM201U03) panel。.
NEC LCD2080UX + = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
NEC LCD2090UXi = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04-SL02) panel. .
NEC LCD2070WNX (widescreen) = 20。.1 inch 8 ms TN (CPT CLAA201WA01) panel。.
NEC LCD20WGX2 (widescreen) = 20 inch 6 ms (g2g) S-IPS (LG.. Philips LM201W01) panel. .
NEC LCD2170NX-BK = 21. .3 Inch 8 ms (g2g) S-PVA (Samsung LTM213U6) panel. .
NEC LCD2180WG (LED) = 21 inch 20 ms SA-SFT (NEC NL160120BC27-02) panel. .
NEC LCD3210 = 32 inch 20 ms S-IPS panel. .
NEC LCD4610 = 46 inch 8 ms (g2g) PVA (Samsung LTA460W2) panel。.
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Samsung 152S = 15 inch 25 ms TN (Sanyo TM150XG-26L06) panel。.
Samsung 171N = 17 inch 25 ms TN (Samsung LTM170EU-L01) panel. .
Samsung 172N = 17 inch 25 ms TN (Samsung LTM170EU-L01-D) panel. .
Samsung 172S = 17 inch 20 ms TN (Hydis HT17E12) panel。.
Samsung 172T = 17 inch 25 ms PVA (Samsung LTM170E5) panel. .
Samsung 172X = 17 inch 12 ms TN (Samsung LTM170EX-L01) panel。.
Samsung 173P = 17 inch 25 ms PVA (Samsung LTM170E6-L04) panel. .
Samsung 173T = 17 inch 25 ms PVA (Samsung LTM170E6-L02 or LTM170E6-L04) panel. .
Samsung 181T = 18 inch 25 ms PVA (Samsung LTM181E4) panel. .
Samsung 191T = 19 inch 25 ms PVA (Samsung LTM190E1) panel。.
Samsung 193P = 19 inch 25 ms PVA (Samsung LTM190E4) or 20 Ms PVA (LTM190E4-L02) panel. .
Samsung 193P ver2 = 19 inch 20 Ms PVA (LTM190E4-L02) panel。.
Samsung 193P + = 19 inch 8 ms (g2g) PVA (Samsung LTM190E4-L02) panel. .
Samsung 194T = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel。.
Samsung 204T = 20 inch 16 ms (g2g) S-PVA (Samsung LTM201U1) panel. .
Samsung 210T = 21 inch 35 ms PVA (Samsung LTM213U3) panel. .
Samsung 211MP = 21 inch 25 ms PVA (Samsung LTM213U4-L04) panel。.
Samsung 213T = 21 inch 25 ms PVA (Samsung LTM213U4-L01 or Samsung LM213U4-L04) panel. .
Samsung 213T = 21 inch 25 ms PVA panel。.
Samsung 214T = 21 inch 8 ms (g2g) S-PVA (Samsung LTM213U6) panel. .
Samsung 240T (Widescreen) = 24 inch 25 ms PVA (Samsung LTM240W1) panel。.
Samsung 241MP (Widescreen) = 24 inch 25 ms PVA (Samsung LTM240W1) panel. .
Samsung 243T (Widescreen) = 24 inch 30 ms PVA (Samsung LTM240W1-L03) panel. .
Samsung 244T (widescreen) = 24 inch 6 ms (g2g) PVA (Samsung LTM240M1) panel。.
Samsung 400P = 40 inch 8 ms (g2g) PVA (Samsung LTA400W2) panel. .
Samsung 400Pn = 40 inch 8 ms (g2g) PVA (Samsung LTA400W2) panel。.
Samsung 460P = 46 inch 8 ms (g2g) PVA (Samsung LTA460W2) panel. .
Samsung 710MP = 17 inch 12 ms TN panel。.
Samsung 710N = 17 inch 12 ms TN (Samsung LTM170EU) panel. .
Samsung 710T = 17 inch 12 ms TN (Samsung LTM170EU-L11) panel。.
Samsung 710V = 17 inch 16 ms TN panel. .
Samsung 711T = 17 inch 25 ms PVA panel。.
Samsung 713BM = 17 inch 8 ms TN panel. .
Samsung 720T = 17 inch 25 ms PVA (LTM170E8-L01) panel. .
Samsung 721S = 17 inch 8 ms TN panel。.
Samsung 721SA = 17 inch 8 ms TN panel. .
Samsung 730BF = 17 inch 4 ms (g2g) TN panel。.
Samsung 740N = 17 inch 8 ms TN panel. .
Samsung 740T = 17 inch 25 ms PVA (Samsung LTM170E8) panel。.
Samsung 760BF = 17 inch 4 ms (g2g) TN panel. .
Samsung 770P = 17 inch 6 ms (g2g) PVA (Samsung LTM170E8) panel。.
Samsung 910M = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel. .
Samsung 910MP = 19 inch 8 ms TN panel。.
Samsung 910N = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel. .
Samsung 910T = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel。.
Samsung 910TM = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel. .
Samsung 913B = 19 inch 8 ms TN (Samsung LTM190EX-L01) panel。.
Samsung 913N = 19 inch 8 ms TN (Samsung LTM190EX-L01) panel. .
Samsung 913V = 19 inch 12 ms TN panel. .
Samsung 915N = 19 inch 8 ms TN panel。.
Samsung 920T = 19 inch 25 ms PVA (Samsung LTM190E1-L03) panel. .
Samsung 930BF = 19 inch 4 ms (g2g) TN (Samsung LTM190EX-L21) panel. .
Samsung 930MP = 19 inch 25 ms PVA (Samsung) panel。.
Samsung 931MP = 19 inch 8 ms (g2g) PVA (Samsung LTM190E4) panel. .
Samsung 940B = 19 inch 8 ms TN panel。.
Samsung 940MW (widescreen) = 19 inch 8 ms TN (Samsung LTM190M2) panel. .
Samsung 940T = 19 inch 20 ms PVA (Samsung LTM190E4) panel。.
Samsung 960BF = 19 inch 4 ms (g2g) TN panel. .
Samsung 970P = 19 inch 6 ms (g2g) PVA (Samsung) panel。.
Samsung LE-15S51B = 15 inch 25 ms TN (Samsung LTM150XH-L06) panel. .
Samsung LE-23R41B = 32 inch 8 ms (g2g) PVA (Samsung LTA230W1-L02) panel。.
Samsung LE-23R51B = 32 inch 8 ms (g2g) PVA (Samsung LTA230W1-L02) panel. .
Samsung LE-26M51B = 32 inch 8 ms (g2g) PVA (Samsung LTA320W2) panel。.
Samsung LE-26R41B = 26 inch 8 ms (g2g) PVA (Samsung LTA260W2) panel. .
Samsung LE-26R51B = 26 inch 8 ms (g2g) PVA (Samsung LTA260W2) panel。.
Samsung LE-32M51B = 32 inch 8 ms (g2g) PVA (Samsung LTA320W2) panel. .
Samsung LE-32M61B = 32 inch 8 ms (g2g) S-PVA panel。.
Samsung LE-32R41B = 32 inch 8 ms (g2g) PVA (Samsung LTA320W2) panel. .
Samsung LE-32R51B = 32 inch 8 ms (g2g) PVA (Samsung LTA320W2) panel。.
Samsung LE-40M61B = 40 inch 8 ms (g2g) S-PVA panel. .
Samsung LE-46M51B = 46 inch 8 ms (g2g) S-PVA panel. .
Samsung LW-15M23C = 15 inch 25 ms TN (Samsung LTM150XH-L06) panel。.
Samsung LW-17N23N = 17 inch 16 ms PVA (Samsung LTA170W2-L01) panel. .
Samtron 73V = 17 inch 25 ms TN (Samsung) panel。.
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SHARP LL-T140A = 13。.8 inch TN (SHARP) panel。.
SHARP LL-T1500A = 15 inch TN (SHARP LQ150X1DH10) panel. .
SHARP LL-T150A = 15 inch 45 ms TN (SHARP) panel。.
SHARP LL-T1502A = 15 inch 25 ms ASV (SHARP LQ150X1LW71) panel. .
SHARP LL-T1511A = 15 inch TN (SHARP LQ150X1DR10) panel. .
SHARP LL-T15A1 = 15 inch TN (HYUNDAI HM15X11-200) panel。.
SHARP LL-T15G3-H / B = 15 inch 30 ms TN (SHARP LQ150X1DG80) panel. .
SHARP LL-T15V1 = 15 inch 25 ms TN (Mitsubishi AA150XC01) panel. .
SHARP LL-T1520-H/B = 15 inch 25 ms ASV (SHARP) panel。.
SHARP LL-T1530A = 15 inch TN (SHARP LQ150X1DR50) panel. .
SHARP LL-T1620-H / B = 16 inch 25 ms ASV (SHARP LQ160E1LZ30) panel. .
SHARP LL-T17A3 = 17 inch 20 ms TN (SHARP) panel。.
SHARP LL-T17A4-H / B = 17 inch 20 ms TN (SHARP) panel. .
SHARP LL-T1815-H / B = 18 inch 40 ms ASV (SHARP) panel. .
SHARP LL-T18A1 = 18 inch 30 ms ASV (SHARP) panel. .
SHARP LL-T193G = 19 inch 18 ms S-IPS (LG。.Philips LM190E05-SL02) panel。.
SHARP LL-T19D1-H / B = 19 inch 25 ms P-MVA (Fujitsu) panel. .
SHARP LL-T2015-H / B = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
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Sony SDM-M51 = 15 inch 20 ms TN (LG.. Philips LM150X05) panel. .
Sony SDM-X52 = 15 inch 20 ms TN (LG。.Philips LM150X05) panel。.
Sony SDM-M61 = 16 inch 35 ms TN (LG.. Philips) panel. .
Sony SDM-S71 = 17 inch 20 ms TN (Samsung) panel。.
Sony SDM-S71R = 17 inch 30 ms TN (AUO) panel. .
Sony SDM-S74 = 17 inch 16 ms TN (AUO M170EN05-V1) panel. .
Sony SDM-HS74 = 17 inch 16 ms TN (AUO M170EN05-V5) panel. .
Sony SDM-HS75P = 17 inch 8 ms TN (AUO) panel. .
Sony SDM-HX73 = 17 inch 16 ms TN (LG。.Philips LM170E01) panel。.
Sony SDM-S81 = 18. .1 Inch 20 ms IPS (CPT) panel. .
Sony SDM-M81 = 18。.1 inch 30 ms IPS (LG。.Philips LM181ES) panel。.
Sony SDM-X82 = 18. .1 Inch 50 ms IPS (LG.. Philips LM181E05-C4) panel. .
Sony SDM-HS94P = 19 inch 12 ms PVA (AUO M190EN04 V1) panel。.
Sony SDM-HX95B = 19 inch 12 ms (g2g) PVA (Samsung LTM190E4) panel. .
Sony SDM-S93 = 19 inch 25 ms MVA (AUO M190EN02) panel. .
Sony SDM-P234B = 23 inch 16 ms S-IPS (LG。.Philips LM230W02) panel。.
Sony KLV-S23A10 = 23 inch 8 ms (g2g) PVA (Samsung LTA230W1-L02) panel. .
Sony KLV-S26A10E = 26 inch 8 ms (g2g) PVA (Samsung LTA260W2) panel。.
Sony KLV-S32A10E = 32 inch 8 ms (g2g) PVA (Samsung LTA320W2) panel. .
Sony KLV-S40A10E = 40 inch 8 ms (g2g) PVA (Samsung LTA400W2) panel。.
Sony KLV-V26A10E = 26 inch 8 ms (g2g) PVA (Samsung LTA260W2) panel. .
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ViewSonic VA702 = 17 inch 12 ms TN panel. .
ViewSonic VA712 = 17 inch 12 ms TN panel or 8 ms TN panel。.
ViewSonic VE175B = 17 inch 20 ms TN (CPT CLAA170EA02 or CLAA170EA02) panel. .
ViewSonic VE710b = 17 inch 25 ms TN panel. .
ViewSonic VG720 = 17 inch 8 ms TN panel. .
ViewSonic VP171b-1 = 17 inch 16 ms TN (AUO M170EN05) panel。.
ViewSonic VP171b-2 = 17 inch 8 ms TN (AUO M170EG01 V0) panel. .
ViewSonic VP171s-1 = 17 inch 16 ms TN (AUO M170EN05) panel。.
ViewSonic VP171s-2 = 17 inch 8 ms TN (AUO M170EG01 V0) panel. .
ViewSonic VP730 = 17 inch 8 ms TN panel。.
ViewSonic VX710 = 17 inch 16 ms TN panel. .
ViewSonic VX715 = 17 inch 16 ms TN (CPT CLAA170EA-02) panel. .
ViewSonic VX724 = 17 inch 4 ms (g2g) TN panel。.
ViewSonic VE800 = 18 inch 25 ms TN (Sanyo TM181SX-76N02) panel. .
ViewSonic VP181b = 18 inch 30 ms IPS panel. .
ViewSonic VX800 = 18 inch 25 ms MVA (CMO M180E1) panel。.
ViewSonic VA902 = 19 inch 8 ms TN panel. .
ViewSonic VA902b = 19 inch 8 ms TN (AUO M190EN04 V5) panel。.
ViewSonic VA912 = 19 inch 20 ms MVA or 8 ms TN panel. .
ViewSonic VG910b = 19 inch 25 ms P-MVA (AUOM190EN02) panel. .
ViewSonic VG920 = 19 inch 8 ms TN panel. .
ViewSonic VX900 ver2 = 19 inch 25 ms P-MVA (AUO M190EN02) panel. .
ViewSonic VX910 = 19 inch 16 ms TN or 25 ms MVA panel。.
ViewSonic VX912 = 19 inch 8 ms TN or 12 ms TN (AUO M190EN04) panel. .
ViewSonic VX922 = 19 inch 2 ms (g2g) TN panel。.
ViewSonic VX924 = 19 inch 3 ms (g2g) TN (AUO M190EN04 V5) panel. .
ViewSonic VA902 = 19 inch 8 ms TN panel。.
ViewSonic VA902b = 19 inch 8 ms TN (AUO M190EN04 V5) panel. .
ViewSonic VA912 = 19 inch 20 ms MVA or 8 ms TN panel。.
ViewSonic VA915 = 19 inch 20 ms MVA (AUO M190EG01 V0) panel. .
ViewSonic VP912b = 19 inch 12 ms TN (AUO M190EN04 V1) panel。.
ViewSonic VP912s = 19 inch 12 ms TN (AUO M190EN04 V1) panel. .
ViewSonic VP920b = 19 inch 4 ms (g2g) TN panel。.
ViewSonic VP930 = 19 inch 8 ms (g2g) P-MVA (AUO M190EG01 V0) panel. .
ViewSonic VE902m = 19 inch 23 ms P-MVA (AUO) panel。.
ViewSonic VP191b-1 = 19 inch 25 ms P-MVA (Fujitsu FLC48SXC8V-01) panel. .
ViewSonic VP191s-1 = 19 inch 25 ms P-MVA (Fujitsu FLC48SXC8V-01) panel. .
ViewSonic VP191s-2 = 19 inch 8 ms (g2g) P-MVA (AUO M190EN03) panel。.
ViewSonic VA1912w (widescreen) = 19 inch 8 ms TN (CMO M190A1) panel. .
ViewSonic VG2021m = 20。.1 inch 8 ms TN (CMO M201P1-L01) panel。.
ViewSonic VP2000s = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
ViewSonic VP201b = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201U04) panel。.
ViewSonic VP201s = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
ViewSonic VP2030b = 20。.1 inch 8 ms (g2g) P-MVA (AUO M201UN02 V5) panel。.
ViewSonic VA2012W (widescreen) = 20. .1 Inch 8 ms TN (CPT) panel. .
ViewSonic VA2012WB (widescreen) = 20。.1 inch 8 ms TN (CPT) panel。.
ViewSonic VX2022 (widescreen) = 20. .1 Inch 3 ms (g2g) P-MVA panel. .
ViewSonic VX2025wm (widescreen) = 20。.1 inch 8 ms (g2g) P-MVA (AUO M201EW01 V0) panel。.
ViewSonic VP211b = 21. .3 Inch 25 ms PVA (Samsung LTM213U4-L04) panel. .
ViewSonic VP2130b = 21。.3 inch 8 ms (g2g) S-PVA (Samsung LTM213U6) panel。.
ViewSonic VP230mb = 23 inch 25 ms P-MVA (Fujitsu FLC59UXC8V) panel. .
ViewSonic VP231wb (Widescreen) = 23 inch 16 ms S-IPS (LG。.Philips LM230W02) panel。.
ViewSonic VP2330wb (widescreen) = 23 inch 8 ms (g2g) P-MVA (AUO M230UW01 V0) panel. .
ViewSonic NextVision N4060W = 40 inch 8 ms (g2g) PVA (Samsung LTA400W2) panel。.
-------------------------------------------- Common panel size, resolution, and the dot pitch ----------------------------。 .
12. .1 inch (800 x 600)-0. .308 mm.
12. .1 Inch (1024 × 768) - 0. .240 Mm. .
14. .1 inch (1024 × 768)-0. .279 mm.
14. .1 Inch (1400 × 1050) - 0. .204 Mm. .
15-inch (1024 × 768)-0. .297 mm.
15 inches (1400 × 1050) - 0. .218 Mm. .
15 inches (1600 × 1200)-0. .190 mm.
16-inch (1280 × 1024) - 0. .248 Mm. .
17-inch (1280 x 1024)-0. .264 mm.
17-inch widescreen (1280 × 768) - 0. .2895 Mm. .
17. .4 inch (1280 x 1024)-0. .27 mm.
18 inches (1280 × 1024) - 0. .281 Mm. .
19-inch (1280 x 1024)-0. .294 mm.
19 inches (1600 × 1200) - 0. .242 Mm. .
19-inch widescreen (1680 × 1050)-0. .243 mm.
20-inch widescreen (1680 × 1050) - 0. .258 Mm. .
20. .1 inches (1200 × 1024)-0. .312 mm.
20. .1 Inch (1600 × 1200) - 0. .255 Mm. .
20. .1 inch (2560 × 2048)-0. .156 mm.
20. .8 Inch (2048 × 1536) - 0. .207 Mm. .
21. .5 inches (1600 × 1200)-0. .27 mm.
21. .3-Inch (2048 × 1536) - 0. .21 Mm. .
22-inch widescreen (1600 × 1024)-0. .294 mm.
22. .2-Inch (3840 × 2400) - 0. .1245 Mm. .
23-inch widescreen (1920 × 1200)-0. .258 mm.
23. .1 Inch (1600 × 1200) - 0. .294 Mm. .
Tag:。.
Jianhua Electronic Posted at 08:14:58 | Read | Comments 1 | Edit | Share 0. .
> > Manufacturers-monitor models = panel size-panel types-(panel manufacturer and Panel model).
Example: For example, you were looking for ViewSonic VX2025WM LCD, this panel, you can see something like this:. .
ViewSonic VX2025wm (widescreen) = 20。.1 inch 8 ms (g2g) P-MVA (AUO M201EW01 V0) panel。.
This means that: ViewSonic VX2025wm (widescreen) = 20. British .1 8 ms (gray), using a production model AUO AUO M201EW01 V0 of the P-MVA type panel. .
1. . LG. . Philips (LPL). .
LG and Philips Electronics Korea Netherlands joint venture of a worker Division, is the world's biggest LCD factory.
The main production S-IPS type LCD panel and the common TN type panel. .
Main PVA-LCD panel production, the general TN type panel, there is currently more popular B-TN2 / 3 type. .
3. (AUO) friends photoelectricity.
The main production MVA-LCD panel and the general TN type panel. .
4. .CMO (Chi).
Common TN type panel made more than. .
5. .Fujitsu (Fujitsu).
6. . Sanyo (Sanyo). .
7. .SHARP (sharp).
8. . NEC (Nippon Electric, is a domestic joint venture SVA, SVA). .
9. .Hyundai (domestic joint venture factory is BOE BoE).
10. . Mitsubishi (Mitsubishi). .
Various LCD panel technologies:. .
LCD Panel in the main sub TN + film type and variety of wide-angle Panel, wide-angle Panel including IPS, MVA, PVA three types.
■ TN + film. .
TN + film LCD Panel is mainly used in the entry-level and midrange products, based on early Visual angle small TN technology (maximum angle of 90 degrees), but in Panel adds a layer to film, Visual angle to 140 degrees, into a broader perspective, strictly speaking, TN + film can be considered a kind of wide-angle technology.
TN + Film is not the best solution for wide viewing angle, but it is the easiest method and high yield, while TN + film technology is open, manufacturers do not afford the high cost of licensing and research and development to production, and TN + film therefore occupy a huge cost advantage. .
Since TN + film is a kind of wide-angle technology, why do we still need to be narrow perspective? because, TN + film and the introduction of the product than the perspective are still low. Since TN class LCD base will not be used to display products (previously), TN + film is considered a narrow perspective product a..
From the color point of view, TN + film can generate the actual color is very limited, the maximum number of colors can only reach 16. .2 M standards. .
Current Samsung developed by B-TN-LCD Panel in TN has done very great improvement on, for example to display 16. .7M color, but have intelligence says TN-LCD itself will not be able to display 16. .7M, is able to display 16 B-TN. .7M is reached by dithering algorithm, its color accuracy still does better than the ground several wide-angle Panel below.
■ MVA. .
MVA is the earlier application into a wide angle LCD Panel from Japan Fujitsu company development. Its full name is (Multi-domainVerticalAlignment), is a lot of vertical distribution to quadrant. MVA is the use of the LCD when not traditional vertical, but still a biased point of view; when voltage so that the level of liquid crystal molecules into to make backlight through the more rapid, so that you can significantly reduce the time, but also because of changes to the distribution of liquid crystal molecules, allowing more wide angle of vision.. .
As a result of pursuing licensing policy, at present, China's Taiwan Province of Chi Mei Optoelectronics (qi Jing photoelectric), such as Panel Enterprise friends photoelectricity adopts the Panel technology. Due to the wide terrace lines Panel manufacturers have to support, market introduction of such a panel of the monitor and LCD TV, at the same time as the number of many manufacturers, production, and therefore cheaper.
After a technical improvement of MVA is known as the P-MVA, MVA while retaining the advantages of such a panel, while the chip can be used with all pressurized to achieve higher response time. .
■ PVA. .
Since no outside authority, S-PVA and PVA only Samsung's own production, but by virtue of the powerful Samsung panel production capacity, S-PVA in the account for a lot of market share. .
■S-IPS。.
IPS was developed by Hitachi LCD technology, it is also present, a LCD panel type. IPS plane switching liquid crystal molecules by the way to improve the view, the use of space thickness, friction and the effective use of transverse electric field intensity-driven changes to make the most of flat liquid crystal molecules to increase the rotation angle; is not required in the manufacture of extra compensation film, display visual contrast is also high. In view of the increase can reach 160 degrees on the response time was shortened to 40ms or less.。.
IPS has achieved early good viewing angle, and S-IPS for the second generation of IPS technology, it also introduces some new technologies to improve the IPS mode gray scale in certain angle reversal. The world's largest LCD maker LG-Philips IPS and the main technology is S-IPS, S-IPS is therefore widely used in areas such as LCD TVs, and LCD monitors low profit margin, so rarely used S-IPS . .
In General, TN + film has the advantage of being cheaper, as far as performance is much better after three. Wide-angle Panel while the performance is good, but the high cost of technological development, the production yield is low, the cost of catching up and TN + film is more difficult.
■ Sharp (Sharp) and ASV. .
Sharp Corporation adopts ASV (Advanced Super-V) technology, improves the response speed of TFT display and can be perspective. Sharp will arrange for ASV describes a crystalline substance of new methods, but this crystalline substances show up like the clip in two thin glass sandwich. This includes several improvements, one of the most notable improvement is the Visual angle. Now display up to let users from vertical 140 degree level 110 ° angle see display content, ASV will this angle increased to 170 degrees.. ASV is the third to improve the response time reduction reduced from 45 milliseconds to 25 milliseconds or less. This technology is mainly used in Sharp's products. .
AGLR (Anti-Glare Low Reflection TFT) technology and the original Black TFT LCD display technology principle is the same. It is through the LCD surface plus special chemical coatings, so that the outside light on the screen changes caused by the reflection, so that the back light rays to better through the LCD layer, so that the brightness higher, reflecting lower.
In the SHARP high-end professional-grade LCD monitor with a laptop's LCD panel side, ASV and AGLR technology often used in combination, the effect will be compared with the performance of Black TFT technology is better used as ASV mainly for improving the color display, and AGLR technology is mainly caused by reducing the reflection of light, both separately will make the display more professional, combined with stronger, making the product more competitive! . .
■ HYUNDAI of FFS.
Hyundai Electronics is the modern use of FFS (Fringe Field Switching) technology does not require additional optical compensation film, mainly to the IPS in the opaque metal electrode to the ITO transparent electrode and reduce the electrode width and spacing, in the manufacture of IPS than the original technical complexity, but because of the use of transparent ITO electrode to light transmittance of more than 2 times higher than the IPS. In the view of 160 degrees on the presentation, the reaction time for subject with negative LCD manufacturing, the reaction time is slightly inferior to IPS technology.。.
■ PANASONIC of OCB. .
。.
■ NEC's ExtraView. .
NEC as global energy production 20 inch LCD few producers, it has developed to expand the Visual angle of ExtraView technology. XtraView increases browsing perspective, to ensure that the user can get the best display performance, and can be up and down, left or right in any one direction the browse screen. By extending the Browse view, allows multiple users to portrait and landscape mode to view screen. This technology is currently applies only to NEC LCD products. The following is a list of manufacturers-monitor models = panel size-panel types-(panel manufacturer and Panel model).
■ acer Acer. .
Acer FP563 = 15 inch 35ms TN (AUO L150X2M-1) panel。.
Acer AL1712 = 17 inch 16 ms TN panel. .
Acer AL1713 = 17 inch 25 ms TN (CPT CLAA170EA02) panel。.
Acer AL1714 = 17 inch 14 ms TN panel. .
Acer AL1732 = 17 inch 12 ms TN (AUO M170EG01 V9) panel. .
Acer AL1912s = 19 inch 16 ms TN panel. .
Acer AL1921 = 19 inch 25 ms PVA (SAMSUNG) panel。.
Acer AL1931 = 19 inch 25 ms MVA (Fujitsu) panel. .
Acer AL1922As = 19 inch 8 ms (g2g) PVA (SAMSUNG LTM190E4) panel。.
Acer AL2017 = 20. .1 Inch 8 ms TN (CMO M201P1-L01) panel. . [SXGA +]. .
Acer AL2021 = 20。.1 inch 25 ms MVA (Fujitsu FLC51UXC8V) panel。.
Acer AL2021 ver2 = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
Acer Ferrari F-20 (widescreen) = 20. .1 Inch 8 ms (g2g) P-MVA (AUO M201EW01) panel. .
Acer AL2416W (widescreen) = 24 inch 6 ms (g2g) PVA (SAMSUNG LTM240M1) panel ■ APPLE apples.
Apple Studio Display 15 M2454 = 15 inch TN (LG.. Philips LM151X3) panel. .
Apple Studio Display 17 M7649 = 17 inch 35 ms ACE (SAMSUNG LTM170E4-P01) panel。.
Apple Cinema Display 20 M8893 = 20. .1 Inch 50 ms DD-IPS (IDTech IAWS64) panel. .
Apple Cinema Display 20 M9177 = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201W01) panel。.
Apple Cinema Display 22 M5662 = 22 inch 60 ms IPS (LG.. Philips LM220W1) panel. .
Apple Cinema Display 23 M8537 = 23 inch 25 ms S-IPS (LG。.Philips LM230W01) panel。.
Apple Cinema Display 23 M9178 = 23 inch 16 ms S-IPS (LG.. Philips LM230W02) panel. .
Apple Cinema Display 30 M9179 = 30 inch 16 ms S-IPS (LG。.Philips LM300W01) panel。. ■ DELL Dell.
DELL is the world's largest LCD production and sales of commercial products. .
Dell 1501FP = 15 inch TN (Toshiba LTM15C430) panel。.
Dell 1501FP ver2 = 15. .1 Inch 50 ms TN (LG.. Philips LM151X2) panel. .
Dell 1503FP = 15 inch TN (SAMSUNG LTM150XS-L01) panel。.
Dell 1701FP = 17 inch TN (SAMSUNG LTM170E4-L01) panel. .
Dell 1703FP = 17 inch 25ms PVA (SAMSUNG) panel. .
Dell 1704FPT = 17 inch 12 ms TN (SAMSUNG LTM170EU) panel。.
Dell 1704FPV = 17 inch 25 ms PVA (SAMSUNG LTM170E8-L01) panel. .
Dell 1706FP = 17 inch 25 ms PVA (SAMSUNG LTM170E8) panel。.
Dell 1800FP = 18 inch 30 ms IPS (LG.. Philips LM181E06) panel. .
Dell 1900FP = 19 inch 25 ms PVA (SAMSUNG LTM190E1) panel。.
Dell 1905FP = 19 inch 20 ms PVA (SAMSUNG LTM190E4-L02) panel. .
Dell 1905FP ver2 = 19 inch 8 ms P-MVA (AUO M190EN03 V0) panel。.
Dell 1906FP = 19 inch 25 ms PVA (SAMSUNG LTM190E4) panel. .
Dell 2001FP = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
Dell 2001FP ver3 = 20. .1 Inch 12 ms (g2g) S-PVA (SAMSUNG LTM201U1-L01) panel. .
Dell 2007FP = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201U05) panel。.
Dell 2007FP ver2 = 20. .1 Inch 16 ms S-PVA (SAMSUNG LTM201U1) panel. .
Dell 2005FPW (widescreen) = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201W01) panel。.
Dell 2007WFP (widescreen) = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201WE2) panel. .
Dell 2405FPW (widescreen) = 24 inch 12 ms (g2g) PVA (SAMSUNG LTM240W1-L04) panel。.
Dell 2405FPW (widescreen) ver2 = 24 inch 12 ms (g2g) PVA (SAMSUNG LTM240M1-L01) panel. .
Dell 3007WFP (widescreen) = 30 inch 11 ms (g2g) S-IPS (LG.. Philips LM300W01) panel. . ■ BenQ BenQ. .
BenQ FP591 = 15 inch 16 ms TN (AUO M150XN04) panel。.
BenQ FP71E + = 17 inch 8 ms TN (AUO M170EG01) panel. .
BenQ FP71G+ = 17 inch 8 ms TN (AUO M170EG01) panel。.
BenQ FP71V + = 17 inch 4 (g2g) ms TN (AUO) panel. .
BenQ FP71W = 17 inch 25 ms P-MVA (AUO) panel。.
BenQ FP72V = 17 inch 25 ms PVA (SAMSUNG) panel. .
BenQ FP731 = 17 inch 25 ms TN (CPT CLAA170EA03) panel。.
BenQ FP757 = 17 inch 16 ms TN (LG.. Philips LM170E01) panel. .
BenQ FP767 ver2 = 17 inch 12 ms TN (AUO M170EG01 V1) panel. .
BenQ FP781 = 17 inch 35 ms ACE (SAMSUNG LTM170E4) panel。.
BenQ FP783 = 17 inch 12 ms TN (AUO M170EG01 V0) panel. .
BenQ FP791 = 17 inch 16 ms TN (AUO M170EN06 V2) panel. .
BenQ FP1931M = 19 inch 25 ms P-MVA (Fujitsu FLC48SXC8V-01) panel. .
BenQ FP91E = 19 inch 8 ms (g2g) PVA (SAMSUNG LTM190E4-L02) panel。.
BenQ FP91G = 19 inch 12ms TN (AUO M190EN04) panel. .
BenQ FP91GP = 19 inch 8 ms (g2g) P-MVA (AUO M190EG01 V0) panel。.
BenQ FP91G P = 19 inch 8 ms (g2g) P-MVA (AUO M190EN03 V0) panel. .
BenQ FP91V = 19 inch 4ms (g2g) TN (AUO M190EG02 V0) panel。.
BenQ FP91V + = 19 inch 6ms (g2g) TN (AUO) panel. .
BenQ FP931 = 19 inch 16 ms (g2g) TN (AUO) panel。.
BenQ FP937s = 19 inch 12ms TN (AUO M190EN04) panel. .
BenQ FP937s ver2 = 19 inch 12ms TN (LG。.Philips LM190E03) panel。.
BenQ FP937s + = 19 inch 8ms TN (SAMSUNG LTM190EX-L01) panel. .
BenQ FP93GX = 19 inch 2 ms (g2g) TN (AUO M190EG02 V1) panel. .
BenQ FP951 = 19 inch 25 ms (g2g) MVA (AUO) panel。.
BenQ FP991 = 19 inch 25 ms MVA-P (Fujitsu FLC48SXC8V) panel. .
BenQ FP2081 = 20. .1 Inch 25 ms S-IPS (LG.. Philips LM201U02) panel. .
BenQ FP2081 ver2 = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201U04) panel。.
BenQ FP2091 = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
BenQ FP202W (widescreen) = 20. .1 Inch 8 ms TN (CPT CLAA201WA01) panel. .
BenQ FP231W (widescreen) = 23 inch 25 ms S-IPS (LG。.Philips LM230W01) panel。.
BenQ FP231W (widescreen) ver2 = 23 inch 16 ms S-IPS (LG.. Philips LM230W02) panel. . ■ EIZO EIZO. .
Eizo L375 = 15 inch 25 ms TN (Mitsubishi AA150XJ01) panel. .
Eizo GAWIN M-10 = 15 inch 30 ms S-IPS (Hitachi TX317VC0CAA) panel。.
Eizo L461 = 16 inch 45 ms TN (SHARP LQ160E1LG08) panel. .
Eizo L550 = 17 inch 16 ms TN (AUO) panel. .
Eizo L551 (P170) = 17 inch 16 ms TN (SHARP LQ170E1LG11) panel。.
Eizo L557 = 17 inch 25 ms PVA (SAMSUNG LTM170E6-L03) panel. .
Eizo L560t-ck = 17 inch 25 ms PVA (SAMSUNG) panel. .
Eizo L565 = 17 inch 35 ms S-IPS (Hitachi TX43D15VC0CAD) panel。.
Eizo L567 = 17 inch 35 ms S-IPS (Hitachi TX43D15VC0CAD) panel. .
Eizo L568 (S170) = 17 inch 25 ms PVA (SAMSUNG LTM170E8-L02) panel。.
Eizo L578 (M170) = 17 inch 12 ms (g2g) PVA (SAMSUNG LTM170E8) panel. .
Eizo M1700 = 17 inch 8 ms TN (SAMSUNG LTM170EU) panel。.
Eizo P1700 = 17 inch 8 ms TN (SAMSUNG LTM170EU) panel. .
Eizo L66 = 18. .1 Inch TN (SHARP LQ181E1DR10) panel. .
Eizo L661 = 18. .1 Inch 45 ms TN (SHARP LQ181E1DG11) panel. .
Eizo L665 = 18。.1 inch 40 ms DD-IPS (IDTech ITSX98) panel。.
Eizo L671 = 18. .1 Inch 45 ms ASV (SHARP LQ181E1DW21) panel. .
Eizo L675 = 18。.1 inch 50 ms IPS (IBM ITSX94N1) panel。.
Eizo L676 = 18. .1 Inch 25 ms ASV (SHARP LQ181E1LW31) panel. .
Eizo L685 = 18. .1 Inch 40 ms DD-IPS (IDTech ITSX98) panel. .
Eizo L685EX = 18。.1 inch 40 ms DD-IPS (IDTech ITSX98N) panel。.
Eizo L695 = 18. .1 Inch 40 ms DD-IPS (IDTech ITSX98N) panel. .
Eizo L760t-c = 19 inch 20 ms PVA (SAMSUNG) panel。.
Eizo L760t-ck = 19 inch 20 ms PVA (SAMSUNG) panel. .
Eizo L768 = 19 inch 25 ms PVA (SAMSUNG LTM190E4-L02) panel. .
Eizo L768-AS = 19 inch 25 ms PVA (SAMSUNG LTM190E1-L03) panel。.
Eizo L778 (M190) = 19 inch 12 ms (g2g) PVA (SAMSUNG LTM190E4) panel. .
Eizo L795 = 19 inch 25 ms PVA (SAMSUNG LTM190E1-L03) panel. .
Eizo L797 = 19 inch 25 ms SA-SFT (NEC NL128102BC29-01) panel。.
Eizo S190 = 19 inch 25 ms PVA (SAMSUNG LTM190E1-L03) panel. .
Eizo S1910 = 19 inch 12 ms (g2g) PVA (SAMSUNG LTM190E4) panel。.
Eizo S1910-HR = 19 inch 8 ms (g2g) PVA (SAMSUNG LTM190E4-L02) panel. .
Eizo M1950 = 19 inch 8 ms (g2g) PVA (SAMSUNG LTM190E4-L02) panel。.
Eizo L771 = 19. .6 Inch 45 ms TN (SHARP LQ196U1LG01) panel. .
Eizo L885 = 20。.1 inch 20 ms ASV (SHARP LQ201U1LW21) panel。.
Eizo L887 = 20. .1 Inch 20 ms ASV (SHARP LQ201U1LW28) panel. .
Eizo L985EX = 21。.3 inch 50 ms S-IPS (Hitachi TX54D11VC0CA panel。.
Eizo L997 = 21. .3 Inch 30 ms S-IPS (Hitachi TX54D11VC0CAC) panel. .
Eizo S2110W (Widescreen) = 21。.1 inch 8 ms (g2g) S-PVA (SAMSUNG LTM210M1-L01) panel。.
Eizo S2110W-K (Widescreen) = 21. .1 Inch 8 ms (g2g) S-PVA (SAMSUNG LTM210M1-L01) panel. .
Eizo S2410W-K (widescreen) = 24. .1 Inch 8 ms (g2g) S-PVA (SAMSUNG LTM240M2-L01) panel. .
Eizo CG19 = 19 inch 25 ms SA-SFT (NEC NL128102BC29-01) panel. .
Eizo CG21 = 21. .3 Inch 50 ms S-IPS (Hitachi TX54D11VC0CA panel..
Eizo CG220 (widescreen) = 22. .2 Inch 37 ms S-IPS (Mitsubishi AA222ZA01) panel. .
Eizo CE240W (widescreen) = 24。.1 inch 8 ms (g2g) S-PVA (SAMSUNG LTM240M2-L01) panel。.
Eizo FA-2090 = 20. .8 Inch 50 ms DD-IPS (IDTech ITQX20) panel. . ■ HP Hewlett-Packard. .
HP L1520 = 15 inch TN (AUO L150X3M) panel。.
HP L1706 = 17 inch 12 ms TN panel. .
HP L1740 = 17 inch 13 ms TN panel。.
HP L1755 = 17 inch 25 ms PVA (SAMSUNG LTM170E8) panel. .
HP vs17 = 17 inch 16 ms TN panel。.
HP vs17e = 17 inch 8 ms TN panel. .
HP vs17x = 17 inch 16 ms TN panel。.
HP L1906 = 19 inch 12 ms TN panel. .
HP L1955 = 19 inch 16 ms S-MVA panel. .
HP vs19e = 19 inch 8 ms TN panel. .
HP L2035 = 20 inch 16 ms S-IPS (LG。.Philips LM201U04) panel。.
HP L2105 (Widescreen) = 21 inch 16 ms S-PVA (SAMSUNG LTM210M2) panel. .
HP F2304 (Widescreen) = 23 inch 25 ms S-IPS panel。.
HP L2335 (Widescreen) = 23 inch 16 ms S-IPS (LG.. Philips LM230W02) panel. .
Note: HP monitor is AOC OEM ■ Hyundai Hyundai.
Hyundai B70A = 17 inch 8 ms TN panel. .
Hyundai B90A = 19 inch 8 ms TN (SAMSUNG LTM190EX-L01) panel. .
Hyundai L19T = 19 inch 25 ms MVA panel. .
Hyundai L19T+ = 19 inch 8 ms TN panel。.
Hyundai L70D + = 17 inch 12 ms TN panel. .
Hyundai L72D = 17 inch 8 ms TN panel. .
Hyundai L90D + = 19 inch 8 ms TN (SAMSUNG LTM190EX-L01) panel. .
Hyundai L91D = 19 inch 12 ms (g2g) MVA panel. .
Hyundai Q17 = 17 inch 20 ms TN (Hydis HT17E11-300 or HT17E12) panel。.
Hyundai Q17 + = 17 inch 12 ms TN (SAMSUNG LTM170EU-L11) panel. .
Hyundai Q320 = 32 inch 8 ms (g2g) PVA panel。.
Hyundai Q321 = 32 inch 8 ms (g2g) PVA panel. .
Hyundai Q400 = 40 inch 8 ms (g2g) PVA panel。.
Hyundai Q70U = 17 inch 3 ms (g2g) TN panel. .
IBM L170m = 17 inch 16 ms TN panel. .
IBM L170P = 17 inch 25 ms PVA panel。.
IBM L171p = 17 inch 8 ms TN panel. .
IBM L190P = 19 inch 25 ms PVA panel。.
IBM L200p = 20 inch 16 ms S-IPS (LG.. Philips LM201U03) panel. .
IBM T210 = 20。.8 inch 50 ms IPS (IDTech ITQX20E) panel。.
IBM T221 = 22. .2 Inch 50 ms DD-IPS (IDTech MD22292B2/C2) panel. . ■ Iiyama Iiyama Electrical. .
Iiyama AS4311U = 17 inch 40 ms ACE (SAMSUNG LTM170E4) panel。.
Iiyama AS4314UT = 17 inch 20 ms TN (HyDis HT17E12) panel. .
Iiyama AS4332UT = 17 inch 25 ms PVA (SAMSUNG) panel。.
Iiyama AS4431D = 17. .4 Inch 25 ms MVA (Fujitsu FLC44SXC8V) panel. .
Iiyama H430 = 17 inch 25 ms TN (CMO M170E6-L02 Rev。.c1) panel。.
Iiyama E431S = 17 inch 16 ms TN (LG.. Philips LM170E01) panel. .
Iiyama E480S-B = 19 inch 8 ms TN (SAMSUNG LTM190EX-L01) panel。.
Iiyama E480S-S = 19 inch 8 ms TN (SAMSUNG LTM190EX-L01) panel. .
Iiyama E481S-3 = 19 inch 8 ms TN (SAMSUNG LTM190EX-L01) panel。.
Iiyama E481S-1 = 19 inch 25 ms S-IPS (LG.. Philips LM190E01-C4) panel. .
Iiyama H1900-W/B = 19 inch 8 ms MVA-P (Fujitsu) panel。.
Iiyama L400W-B = 40 inch 23 ms PVA (SAMSUNG) panel. .
Iiyama AQU5611DT = 22 inch 50 ms DD-IPS (IDTech MD22292B2) panel。. ■ LG LG Electronics.
LG L172WT = 17 inch 25 ms S-IPS (LG.. Philips LC171W03) panel. .
LG L173WA = 17 inch 25 ms S-IPS (LG。.Philips LC171W03) panel。.
LG L1710B / S = 17 inch 16 ms TN (LG.. Philips LM170E01-A4) panel. .
LG L1710B/S ver2 = 17 inch 16 ms TN (Hydis HT17E12-100) panel。.
LG L1710B / S ver3 = 17 inch 16 ms TN (AUO M170EN05) panel. .
LG L1715S (L1716S) = 17 inch 16 ms TN (LG。.Philips LM170E01-A4) panel。.
LG L1715S (L1716S) ver2 = 17 inch 16 ms TN (Hydis HT17E12-200) panel. .
LG L1715S (L1716S) ver3 = 17 inch 16 ms TN (AUO M170EN05) panel。.
LG L1720B/P/S = 17 inch 16 ms TN (LG.. Philips LM170E01-A4) panel. .
LG L1720B/P/S ver2 = 17 inch 16 ms TN (LG。.Philips LM170E01-A5) panel。.
LG L1730B/P/S = 17 inch 12 ms TN (LG.. Philips LM170E01-A6) panel. .
LG L1810B = 18。.1 inch 30 ms IPS (LG。.Philips LM181E06-A4) panel。.
LG L1811B / S = 18. .1 Inch 30 ms IPS (LG.. Philips LM181E05-C3/C4) panel. .
LG L1811B/S ver2 = 18。.1 inch 30 ms IPS (LG。.Philips LM181E06) panel。.
LG L1910B = 19 inch 25 ms S-IPS (LG.. Philips LM190E01-C4) panel. .
LG L1915S = 19 inch 12 ms TN (LG。.Philips LM190E03-B4) panel。.
LG L1920B = 19 inch 25 ms S-IPS (LG.. Philips LM190E01-C4) panel. .
LG L1930B = 19 inch 25 ms S-IPS (LG。.Philips LM190E01-C4) panel。.
LG L1930S = 19 inch 25 ms S-IPS (LG.. Philips LM190E01-C4) panel. .
LG L1940B = 19 inch 25 ms S-IPS (LG。.Philips LM190E02) panel。.
LG L1980U = 19 inch 12 ms TN (LG.. Philips LM190E03) panel. .
LG L2000C = 20。.1 inch 8 ms (g2g) S-IPS (LG。.Philips LM201U05) panel。.
LG L2010B / P = 20. .1 Inch 25 ms S-IPS (LG.. Philips LM201U03) panel. .
LG L2010B/P ver2 = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201U04) panel。.
LG M203WA (widescreen) = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201W01) panel. .
LG L2320A (widescreen) = 23 inch 25 ms S-IPS (LG。.Philips LM230W01) panel。. ■ Mitsubishi Mitsubishi.
Mitsubishi MDT151X = 15 inch TN (Mitsubishi AA150XA03) panel. .
Mitsubishi RDT151X = 15。.1 inch 50 ms TN (LG。.Philips LM151X2) panel。.
Mitsubishi RDT152X = 15 inch TN (Mitsubishi AA150XB01) panel. .
Mitsubishi RDT152X-S = 15 inch TN (LG。.Philips LM150X05) panel。.
Mitsubishi RDT195V = 19 inch 25ms S-IPS (LG.. Philips LM190E01-C4) panel. .
Mitsubishi SX98LCD = 19 inch 25 ms PVA (SAMSUNG LTM190E1-L03) panel。.
Mitsubishi UX21LCD = 21. .3 Inch 20 ms SA-SFT (NEC NL160120BC27-02) panel. .
Mitsubishi RDT211H = 21。.3 inch 20 ms SA-SFT (NEC NL160120BC27-02) panel。. ■ NEC Japan electric company.
NEC LCD1760NX = 17 inch 16 ms TN (AUO M170EN05) panel. .
NEC LCD1760NX ver2 = 17 inch 16 ms TN (LG。.Philips LM170E01) panel。.
NEC LCD1770GX = 17 inch 8 ms TN panel. .
NEC LCD1770GX-BK = 17 inch 8 ms TN panel。.
NEC LCD1770NX = 17 inch 12 ms TN (LG.. Philips LM170E01-G5) panel. .
NEC LCD70GX2 = 17 inch 4 ms (g2g) TN panel。.
NEC LCD72VM = 17 inch 16 ms TN (QD1s QD17EL07) panel. .
NEC LCD72XM-BK = 17 inch 8 ms TN panel. .
NEC LCD1880SX = 18. .1 Inch 33 ms A-SFT (NEC NL128102AC28-07) panel. .
NEC LCD1960NX = 19 inch 25 ms PVA (SAMSUNG) panel. .
NEC LCD1970GX = 19 inch 8 ms TN (SAMSUNG LTM190EX-L01) panel. .
NEC LCD1970NX = 19 inch 25 ms S-IPS (LG。.Philips LM190E01-C4/E02) panel。.
NEC LCD1980SX = 19 inch 25 ms PVA (SAMSUNG LTM190E1-L03) panel. .
NEC LCD1970NXp = 19 inch 20 ms MVA panel。.
NEC LCD1970V = 19 inch 16 ms TN panel. .
NEC LCD1970VX = 19 inch 16 ms TN panel。.
NEC LCD1980SX = 19 inch 25 ms PVA (SAMSUNG LTM190E1-L03) panel. .
NEC LCD1980FXi = 19 inch 18 ms S-IPS (LG.. Philips LM190E05-SL02) panel. .
NEC LCD1990SXi = 19 inch 18 ms S-IPS panel。.
NEC LCD91VM = 19 inch 25 ms PVA (SAMSUNG) panel. .
NEC LCD92VM = 19 inch 16 ms TN (AUO M190EN4) panel。.
NEC LCD90GX2 = 19 inch 4 ms (g2g) TN panel. .
NEC LCD92XM = 19 inch 8 ms TN panel. .
NEC SpectraView 1980 = 19 inch 25 ms S-IPS (LG。.Philips LM190E02) panel。.
NEC LCD2080UX = 20. .1 Inch 25 ms S-IPS (LG.. Philips LM201U03) panel. .
NEC LCD2080UX+ = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201U04) panel。.
NEC LCD2080UXi = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04-SL02) panel. .
NEC LCD2090UXi = 20。.1 inch 16 ms S-IPS (LG。.Philips LM201U04-SL02) panel。.
NEC LCD2070WNX (widescreen) = 20. .1 Inch 8 ms TN (CPT CLAA201WA01) panel. .
NEC LCD20WGX2 (widescreen) = 20 inch 6 ms (g2g) S-IPS (LG。.Philips LM201W01) panel。.
NEC LCD2170NX = 21. .3 Inch 8 ms (g2g) S-PVA (SAMSUNG LTM213U6) panel. .
NEC LCD2170NX-BK = 21。.3 inch 8 ms (g2g) S-PVA (SAMSUNG LTM213U6) panel。.
NEC LCD2180UX = 21. .3 Inch 20 ms SA-SFT (NEC NL160120BC27-02) panel. .
NEC LCD2180WG (LED) = 21 inch 20 ms SA-SFT (NEC NL160120BC27-02) panel。.
NEC LCD2190UXi = 21. .3 Inch 10 ms (g2g) SA-SFT (NEC NL160120BC27-14) panel. .
NEC LCD3210 = 32 inch 20 ms S-IPS panel。.
NEC LCD4610 = 46 inch 8 ms (g2g) PVA (SAMSUNG LTA460W2) panel. . ■ SAMSUNG Samsung Electronics. .
SAMSUNG 152S = 15 inch 25 ms TN (Sanyo TM150XG-26L06) panel。.
SAMSUNG 171N = 17 inch 25 ms TN (SAMSUNG LTM170EU-L01) panel. .
SAMSUNG 172N = 17 inch 25 ms TN (SAMSUNG LTM170EU-L01-D) panel. .
SAMSUNG 172S = 17 inch 20 ms TN (Hydis HT17E12) panel。.
SAMSUNG 172T = 17 inch 25 ms PVA (SAMSUNG LTM170E5) panel. .
SAMSUNG 172X = 17 inch 12 ms TN (SAMSUNG LTM170EX-L01) panel。.
SAMSUNG 173P = 17 inch 25 ms PVA (SAMSUNG LTM170E6-L04) panel. .
SAMSUNG 173P+ = 17 inch 8 ms (g2g) PVA (SAMSUNG LTM170E8-L01) panel。.
SAMSUNG 173T = 17 inch 25 ms PVA (SAMSUNG LTM170E6-L02 or LTM170E6-L04) panel. .
SAMSUNG 181T = 18 inch 25 ms PVA (SAMSUNG LTM181E4) panel. .
SAMSUNG 191T = 19 inch 25 ms PVA (SAMSUNG LTM190E1) panel。.
SAMSUNG 193P = 19 inch 25 ms PVA (SAMSUNG LTM190E4) or 20 Ms PVA (LTM190E4-L02) panel. .
SAMSUNG 193P + = 19 inch 8 ms (g2g) PVA (SAMSUNG LTM190E4-L02) panel. .
SAMSUNG 204T = 20 inch 16 ms (g2g) S-PVA (SAMSUNG LTM201U1) panel. .
SAMSUNG 204Ts = 20 inch 16 ms (g2g) S-PVA (SAMSUNG LTM201U1) panel。.
SAMSUNG 210T = 21 inch 35 ms PVA (SAMSUNG LTM213U3) panel. .
SAMSUNG 213T = 21 inch 25 ms PVA (SAMSUNG LTM213U4-L01 or SAMSUNG LM213U4-L04) panel. .
SAMSUNG 214T = 21 inch 8 ms (g2g) S-PVA (SAMSUNG LTM213U6) panel. .
SAMSUNG 240T (Widescreen) = 24 inch 25 ms PVA (SAMSUNG LTM240W1) panel。.
SAMSUNG 241MP (Widescreen) = 24 inch 25 ms PVA (SAMSUNG LTM240W1) panel. .
SAMSUNG 242MP = 24 inch 16 ms PVA (SAMSUNG LTM240M1-L01) panel。.
SAMSUNG 243T (Widescreen) = 24 inch 30 ms PVA (SAMSUNG LTM240W1-L03) panel. .
SAMSUNG 244T (widescreen) = 24 inch 6 ms (g2g) PVA (SAMSUNG LTM240M1) panel。.
SAMSUNG 400P = 40 inch 8 ms (g2g) PVA (SAMSUNG LTA400W2) panel. .
SAMSUNG 400Pn = 40 inch 8 ms (g2g) PVA (SAMSUNG LTA400W2) panel。.
SAMSUNG 460P = 46 inch 8 ms (g2g) PVA (SAMSUNG LTA460W2) panel. .
SAMSUNG 710MP = 17 inch 12 ms TN panel。.
SAMSUNG 710N = 17 inch 12 ms TN (SAMSUNG LTM170EU) panel. .
SAMSUNG 710T = 17 inch 12 ms TN (SAMSUNG LTM170EU-L11) panel。.
SAMSUNG 710V = 17 inch 16 ms TN panel. .
SAMSUNG 711T = 17 inch 25 ms PVA panel。.
SAMSUNG 713BM = 17 inch 8 ms TN panel. .
SAMSUNG 720T = 17 inch 25 ms PVA (LTM170E8-L01) panel. .
SAMSUNG 721S = 17 inch 8 ms TN panel。.
SAMSUNG 721SA = 17 inch 8 ms TN panel. .
SAMSUNG 740N = 17 inch 8 ms TN panel. .
SAMSUNG 740T = 17 inch 25 ms PVA (SAMSUNG LTM170E8) panel。.
SAMSUNG 760BF = 17 inch 4 ms (g2g) TN panel. .
SAMSUNG 770P = 17 inch 6 ms (g2g) PVA (SAMSUNG LTM170E8) panel。.
SAMSUNG 910M = 19 inch 25 ms PVA (SAMSUNG LTM190E1-L03) panel. .
SAMSUNG 910MP = 19 inch 8 ms TN panel。.
SAMSUNG 910N = 19 inch 25 ms PVA (SAMSUNG LTM190E1-L03) panel. .
SAMSUNG 910T = 19 inch 25 ms PVA (SAMSUNG LTM190E1-L03) panel。.
SAMSUNG 910TM = 19 inch 25 ms PVA (SAMSUNG LTM190E1-L03) panel. .
SAMSUNG 913B = 19 inch 8 ms TN (SAMSUNG LTM190EX-L01) panel。.
SAMSUNG 913N = 19 inch 8 ms TN (SAMSUNG LTM190EX-L01) panel. .
SAMSUNG 913TM = 19 inch 8 ms (g2g) PVA (SAMSUNG LTM190E4) panel。.
SAMSUNG 913V = 19 inch 12 ms TN panel. .
SAMSUNG 915N = 19 inch 8 ms TN panel。.
SAMSUNG 920T = 19 inch 25 ms PVA (SAMSUNG LTM190E1-L03) panel. .
SAMSUNG 930B = 19 inch 8 ms TN (SAMSUNG) panel。.
SAMSUNG 930BF = 19 inch 4 ms (g2g) TN (SAMSUNG LTM190EX-L21) panel. .
SAMSUNG 930MP = 19 inch 25 ms PVA (SAMSUNG) panel。.
SAMSUNG 931MP = 19 inch 8 ms (g2g) PVA (SAMSUNG LTM190E4) panel. .
SAMSUNG 940MW (widescreen) = 19 inch 8 ms TN (SAMSUNG LTM190M2) panel. .
SAMSUNG 940T = 19 inch 20 ms PVA (SAMSUNG LTM190E4) panel。.
SAMSUNG 960BF = 19 inch 4 ms (g2g) TN panel. .
SAMSUNG 970P = 19 inch 6 ms (g2g) PVA (SAMSUNG) panel。.
SAMSUNG LE-15S51B = 15 inch 25 ms TN (SAMSUNG LTM150XH-L06) panel. .
SAMSUNG LE-23R41B = 32 inch 8 ms (g2g) PVA (SAMSUNG LTA230W1-L02) panel。.
SAMSUNG LE-23R51B = 32 inch 8 ms (g2g) PVA (SAMSUNG LTA230W1-L02) panel. .
SAMSUNG LE-26R41B = 26 inch 8 ms (g2g) PVA (SAMSUNG LTA260W2) panel. .
SAMSUNG LE-26R51B = 26 inch 8 ms (g2g) PVA (SAMSUNG LTA260W2) panel。.
SAMSUNG LE-32M51B = 32 inch 8 ms (g2g) PVA (SAMSUNG LTA320W2) panel. .
SAMSUNG LE-32R41B = 32 inch 8 ms (g2g) PVA (SAMSUNG LTA320W2) panel. .
SAMSUNG LE-40M61B = 40 inch 8 ms (g2g) S-PVA panel. .
SAMSUNG LE-40R51B = 40 inch 8 ms (g2g) PVA (SAMSUNG LTA400W2) panel。.
SAMSUNG LE-46M51B = 46 inch 8 ms (g2g) S-PVA panel. .
SAMSUNG LW-17N23N = 17 inch 16 ms PVA (SAMSUNG LTA170W2-L01) panel. .
SHARP LL-T140A = 13. .8 Inch TN (SHARP) panel. .
SHARP LL-T150A = 15 inch 45 ms TN (SHARP) panel. .
SHARP LL-T1502A = 15 inch 25 ms ASV (SHARP LQ150X1LW71) panel。.
SHARP LL-T1510A = 15 inch TN (SHARP LQ150X1DR10) panel. .
SHARP LL-T1511A = 15 inch TN (SHARP LQ150X1DR10) panel。.
SHARP LL-T15A1 = 15 inch TN (HYUNDAI HM15X11-200) panel. .
SHARP LL-T15G4-H / B = 15 inch 25 ms TN (SHARP LQ150X1LGN1A) panel. .
SHARP LL-T1520-H / B = 15 inch 25 ms ASV (SHARP) panel. .
SHARP LL-T1610W = 16 inch 45 ms TN (SHARP) panel. .
SHARP LL-T1620-H/B = 16 inch 25 ms ASV (SHARP LQ160E1LZ30) panel。.
SHARP LL-T17A3 = 17 inch 20 ms TN (SHARP) panel. .
SHARP LL-T17A4-H/B = 17 inch 20 ms TN (SHARP) panel。.
SHARP LL-T172A-B / W = 17 inch 16 ms TN (Hydis HT17E13-100) panel. .
SHARP LL-T1820-H / B = 18 inch 25 ms ASV (SHARP LQ181E1LZ30) panel. .
SHARP LL-T18A1 = 18 inch 30 ms ASV (SHARP) panel。.
SHARP LL-T193G = 19 inch 18 ms S-IPS (LG.. Philips LM190E05-SL02) panel. .
SHARP LL-T19D1-H/B = 19 inch 25 ms P-MVA (Fujitsu) panel。.
SHARP LL-T2010W = 20. .1 Inch 25 ms ASV (SHARP LQ201U1LZ00) panel. .
SHARP LL-T2020-H / B = 20. .1 Inch 25 ms ASV (SHARP LQ201U1LZ00) panel. . ■ SONY Sony. .
SONY SDM-M51 = 15 inch 20 ms TN (LG.. Philips LM150X05) panel. .
SONY SDM-X52 = 15 inch 20 ms TN (LG。.Philips LM150X05) panel。.
SONY SDM-M61 = 16 inch 35 ms TN (LG.. Philips) panel. .
SONY SDM-S71 = 17 inch 20 ms TN (Samsung) panel。.
SONY SDM-S71R = 17 inch 30 ms TN (AUO) panel. .
SONY SDM-X72 = 17 inch 30 ms TN (AUO M170EN05) panel。.
SONY SDM-S74 = 17 inch 16 ms TN (AUO M170EN05-V1) panel. .
SONY SDM-HS73P = 17 inch 16 ms TN (AUO M170EN06 V2) panel。.
SONY SDM-HS74 = 17 inch 16 ms TN (AUO M170EN05-V5) panel. .
SONY SDM-HS74P = 17 inch 16 ms TN (AUO M170EN06 V2) panel。.
SONY SDM-HS75P = 17 inch 8 ms TN (AUO) panel. .
SONY SDM-HX73 = 17 inch 16 ms TN (LG。.Philips LM170E01) panel。.
SONY SDM-S81 = 18. .1 Inch 20 ms IPS (CPT) panel. .
SONY SDM-M81 = 18。.1 inch 30 ms IPS (LG。.Philips LM181ES) panel。.
SONY SDM-X82 = 18. .1 Inch 50 ms IPS (LG.. Philips LM181E05-C4) panel. .
SONY SDM-HX95B = 19 inch 12 ms (g2g) PVA (Samsung LTM190E4) panel. .
SONY SDM-HX95S = 19 inch 12 ms (g2g) PVA (Samsung LTM190E4) panel。.
SONY SDM-S93 = 19 inch 25 ms MVA (AUO M190EN02) panel. .
SONY KLV-S23A10 = 23 inch 8 ms (g2g) PVA (Samsung LTA230W1-L02) panel. .
SONY KLV-S26A10E = 26 inch 8 ms (g2g) PVA (Samsung LTA260W2) panel。.
SONY KLV-S32A10E = 32 inch 8 ms (g2g) PVA (Samsung LTA320W2) panel. .
SONY KLV-V26A10E = 26 inch 8 ms (g2g) PVA (Samsung LTA260W2) panel. . ■ ViewSonic ViewSonic. .
ViewSonic VA702 = 17 inch 12 ms TN panel。.
ViewSonic VA712 = 17 inch 12 ms TN panel or 8 ms TN panel. .
ViewSonic VE175s = 17 inch 20 ms TN (CPT CLAA170EA02 or CLAA170EA02) panel. .
ViewSonic VE710b = 17 inch 25 ms TN panel。.
ViewSonic VG712 = 17 inch 12 ms TN (AUO M170EG01) panel. .
ViewSonic VG720 = 17 inch 8 ms TN panel。.
ViewSonic VP171b-1 = 17 inch 16 ms TN (AUO M170EN05) panel. .
ViewSonic VP171s-1 = 17 inch 16 ms TN (AUO M170EN05) panel. .
ViewSonic VP171s-2 = 17 inch 8 ms TN (AUO M170EG01 V0) panel。.
ViewSonic VP730 = 17 inch 8 ms TN panel. .
ViewSonic VX712 = 17 inch 8 ms TN panel. .
ViewSonic VX715 = 17 inch 16 ms TN (CPT CLAA170EA-02) panel。.
ViewSonic VX724 = 17 inch 4 ms (g2g) TN panel. .
ViewSonic VE800 = 18 inch 25 ms TN (Sanyo TM181SX-76N02) panel。.
ViewSonic VG800 = 18 inch 25 ms MVA (CMO M180E1) panel. .
ViewSonic VX800 = 18 inch 25 ms MVA (CMO M180E1) panel. .
ViewSonic VA902b = 19 inch 8 ms TN (AUO M190EN04 V5) panel. .
ViewSonic VA912 = 19 inch 20 ms MVA or 8 ms TN panel。.
ViewSonic VA915 = 19 inch 20 ms MVA (AUO M190EG01 V0) panel. .
ViewSonic VG910s = 19 inch 25 ms P-MVA (AUO M190EN02) panel. .
ViewSonic VG920 = 19 inch 8 ms TN panel。.
ViewSonic VX900 = 19 inch 25 ms P-MVA (Fujitsu FLC48SXC8V) panel. .
ViewSonic VX900 ver2 = 19 inch 25 ms P-MVA (AUO M190EN02) panel。.
ViewSonic VX910 = 19 inch 16 ms TN or 25 ms MVA panel. .
ViewSonic VX912 = 19 inch 8 ms TN or 12 ms TN (AUO M190EN04) panel。.
ViewSonic VX922 = 19 inch 2 ms (g2g) TN panel. .
ViewSonic VX924 = 19 inch 3 ms (g2g) TN (AUO M190EN04 V5) panel。.
ViewSonic VA902 = 19 inch 8 ms TN panel. .
ViewSonic VA902b = 19 inch 8 ms TN (AUO M190EN04 V5) panel。.
ViewSonic VA912 = 19 inch 20 ms MVA or 8 ms TN panel. .
ViewSonic VP912b = 19 inch 12 ms TN (AUO M190EN04 V1) panel. .
ViewSonic VP912s = 19 inch 12 ms TN (AUO M190EN04 V1) panel。.
ViewSonic VP920b = 19 inch 4 ms (g2g) TN panel. .
ViewSonic VP930 = 19 inch 8 ms (g2g) P-MVA (AUO M190EG01 V0) panel。.
ViewSonic VE902m = 19 inch 23 ms P-MVA (AUO) panel. .
ViewSonic VP191b-1 = 19 inch 25 ms P-MVA (Fujitsu FLC48SXC8V-01) panel。.
ViewSonic VP191b-2 = 19 inch 8 ms (g2g) P-MVA (AUO M190EN03) panel. .
ViewSonic VP191s-1 = 19 inch 25 ms P-MVA (Fujitsu FLC48SXC8V-01) panel。.
ViewSonic VP191s-2 = 19 inch 8 ms (g2g) P-MVA (AUO M190EN03) panel. .
ViewSonic VA1912w (widescreen) = 19 inch 8 ms TN (CMO M190A1) panel。.
ViewSonic VG2021m = 20. .1 Inch 8 ms TN (CMO M201P1-L01) panel. .
ViewSonic VP201b = 20. .1 Inch 16 ms S-IPS (LG.. Philips LM201U04) panel. .
ViewSonic VP2030b = 20. .1 Inch 8 ms (g2g) P-MVA (AUO M201UN02 V5) panel. .
ViewSonic VA2012W (widescreen) = 20。.1 inch 8 ms TN (CPT) panel。.
ViewSonic VA2012WB (widescreen) = 20. .1 Inch 8 ms TN (CPT) panel. .
ViewSonic VX2025wm (widescreen) = 20. .1 Inch 8 ms (g2g) P-MVA (AUO M201EW01 V0) panel. .
ViewSonic VP2130b = 21. .3 Inch 8 ms (g2g) S-PVA (Samsung LTM213U6) panel. .
ViewSonic VP230mb = 23 inch 25 ms P-MVA (Fujitsu FLC59UXC8V) panel。.
ViewSonic VP231wb (Widescreen) = 23 inch 16 ms S-IPS (LG.. Philips LM230W02) panel. .
ViewSonic VP2330wb (widescreen) = 23 inch 8 ms (g2g) P-MVA (AUO M230UW01 V0) panel。.
ViewSonic NextVision N4060W = 40 inch 8 ms (g2g) PVA (Samsung LTA400W2) panel. .
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Jianhua Electronic Posted at 08:06:23 | Read | Comments 0 | Edit | Share 0. .
The large screen naming and query methods.
>>> 1, the resolution on the screen corresponds to the name of VGASVGAXGASXGASXGA + UXGA resolution of 640 * 480 800 * 6001024 * 7681280 * 10241400 * 10501600 * 1200 2, screen type and resolution of SHARP products in general will increase screen LQ The size (inches) and a certain mark on behalf of the resolution, the general rule is the XGA, X1, F1 is the SXGA +, U1 for UXGA.. LGLM151X2 (B2PH) LM150X06 LM151X2 (C2TH) LM151X1 LM151E2 (B2MT) LM150X05 LM151X2 (E2SO) LM151X4 LM151X2LP150U03 SAMSUNG screen and more to LTM, LT, LTN, etc. at the beginning, but with a representative of the size of the numerals, such as 141,150, 157,170,190 and so on.。 It will also bring T01 or L01 to represent the TTL or LVDS's screen..
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Jianhua e-published on 15: 03: 31 | Read more | Comments 0 | Edit | Share 0..
> DIY with LCD screen entry instructions: Most people with screen (dot screen) will say that they screen more than the model, interface type, number of lamps. However, some people do not understand how to explain?. .
1, the screen model: the use of models that screen. . (1) can probably knew his class, is not true color TFT digital screen? How can the probability of light. Not every screen can be lit, the screen is very complex. (2) know-screen interface, that screen resolution. .
(3) in addition to driver Board written driver is written by screen models. Model example:.
3, select the screen you want to line: know the screen model, you can know the type of screen is the TTL, or LVDS's. Generally know screen interface, but not necessarily, the screen may change the interface mode for some reason, it is best to ask. Can choose to display the line. .
Screen Line Category: LVDS screen line:. .
TTL Pingxian:..
4, the selection pressure plate you want: This is simple to see there are a few pieces of light on the screen can be, and each light has a connector, 2 lines, with 2 colors separately. A single lamp to light the pressure plate, 2 is a dual-lamp high-voltage board. And so on. .
> Find the model of your screen, you can with a good screen, the screen TFT theory is all you can Oh, you can contact us. We can help you determine it. Description:. .
1, the driver board: with screen to select a combination of the drive plate, drive plate with a single VGA, there are 4 in 1 (VGA, TV, AV, S-Video) to see what you need, and generally only when the Display for only Single VGA driver board can, and if there are other needs, you can choose 4 in 1, and do the best projection is 4 in 1 driver board. .
6, Power: 12V power supply, the average person there, not used for can be changed, inside is outside the negative, not to sell one, choose the power, there is a principle, to combination, a single lamp panel 2. .5 A can, with the 3A 2 lamps, 4 lamp 6 lights with 4A's on it. .
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Jianhua e was published on 14: 46: 26 | Read more | Comments: 1 | Edit | Share 0..
