Shenzhen FRIDA LCD Co., Ltd
Corporate mission: Promote smart AIOT and enable smart product applications. Corporate vision: Build a leading brand in AIOT field of audio and video solutions. Core values: To achieve customer first,
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15 Inch Tft Display 1024x768 Full Viewing Angle Lvds Interface 20 Pins
General Description:
DV150X0M-N10 manufacturer is BOE, type is a-Si TFT-LCD , LCD module, resolution 1024(H) × 768(V), pixel arrangement RGB vertical bar, display area 304.128(H) × 228.096(V) mm, external dimensions 326.5(H) × 253.5(V) × 9.7(D) mm.
Features:
Specifications:
| Parameter | Specification | Unit | Remarks |
| Active area | 304. 128(H) × 228.096(V) | mm | |
| Number of pixels | 1024(H) × 768(V) | pixels | |
| Pixel pitch | 0.297(H) × 0.297(V) | mm | |
| Pixel arrangement | Pixels RGB Vertical stripe | ||
| Display colors | 16.7M | colors | 6bits+FRC |
| Display mode | Normally Black | ||
| Dimensional outline | 326.5(H) × 253.5(V) × 9.7(Total) | mm | Detail refer to drawing |
| Weight | 930 | g | |
| Power Consumption | 8.72 | Watt | Typ. |
| Bezel width (L/R/U/D) | 10/10/11.7/11.7 | mm | |
| Surface Treatment | Haze 25%, 3H | ||
| Back-light | E-LED Light bar Type | ||
| LED life | 50000 | ||
| Display Direction | landscape & Portrait |
Absolute Maximum Ratings:
The followings are maximum values which, if exceed, may cause faulty operation or damage to the unit. The operational and non-operational maximum voltage and current values are listed in Table.
| Parameter | Symbol | Min. | Max. | Unit | Remark |
| Power Supply Voltage | VDD | -0.3 | 4 | V | Ta = 25℃ |
| Operating Temperature |
TOP |
-20 | +70 | ℃ |
Note 1 |
|
Storage Temperature |
TSUR |
-20 | +70 | ℃ | |
|
TST |
-20 | +70 | ℃ | ||
| Operating Ambient Humidity | Hop | 10 | 90 | %RH | |
| Storage Humidity | Hst | 10 | 90 | %RH |
Note 1 : Wet bulb temperature should be 39℃ max. and no condensation of water.
Electrical Specifications:
| Parameter | Symbol | Values | Unit | Remark | |||
| Min | Typ | Max | |||||
| Power Supply Input Voltage | VDD | 3.0 | 3.3 | 3.6 | V | Note 1 | |
| Power Supply Current | IDD | - | 410 | 740 | mA | ||
| Power Supply Ripple Voltage | VRP | - | - | 300 | mV | ||
| Rush Current | IRUSH | - | 2 | 3 | A | Note 2 | |
|
LVDS Interface |
Differential Input High Threshold Voltage |
VLVTH |
- |
- |
+100 | mV |
VLVC=1.2V |
|
Differential Input Low Threshold Voltage |
VLVTL | - 100 |
- |
- |
mV | ||
| Common Input Voltage | VLVC | 0.7 | - | 1.6 | V | ||
|
CMOS Interface |
Input High Threshold Voltage |
VIH | 0.7VDD |
- |
VDD | V | |
|
Input Low Threshold Voltage |
VIL | 0 |
- |
0.3VDD | V | ||
|
Power Consumption |
PD | 0.8 | 1.3 | W | |||
| PBL | 7.92 | 8.71 | Note 3 | ||||
| Ptotal | 8.72 | 10.1 | |||||
Note 1 : The supply voltage is measured and specified at the interface connector of LCM.The current draw and power consumption specified is for VDD=3.3V,Test Pattern of power supply current.
Note 2 : The duration of rush current is about 2ms and rising time of Power Input is 1ms(min).
Note 3 :Calculated value for reference (Input pins*VPIN × IPIN) excluding inverter loss.
Backlight Electrical Specifications:
| Parameter | Min. | Typ. | Max. | Unit | Remarks | ||
| LED Driver Power Supply Voltage | HVDD | 10.8 | 12 | 12.6 | V | ||
| LED Driver Power Supply Current | IHVDD | 550 | 600 | 700 | mA | ||
|
EN Control Level |
Backlight on |
VENH |
3 | 3.3 | 3.6 | V |
EN logic high voltage |
| Backlight off |
VENL |
0 | 0 | 0.6 | V |
EN logic low voltage |
|
|
PWM Control Level |
PWM High Level |
VPML |
3 | 3.3 | 3.6 | V | |
| PWM Low Level |
VPML |
0 | 0 | 0.6 | V | ||
| PWM Control Frequency | F PWM | 0.12 |
- |
20 | KHz | Refer to customer comments | |
| Duty Ratio | - | 5 | - | 100 | % | ||
| LED Life-Time | N/A | 50,000 | - | - | Hour | ||
| LED Light Bar Input Voltage Per Input Pin | VPIN | 32.4 | 36 | 39.6 | V | ||
| LED Light Bar Input Current Per Input Pin | IPIN |
- |
55 |
- |
mA | ||
| LED Power Consumption | PBL | - | 7.92 | 8.71 | W | ||
Interface Connection:
| Pin No | Symbol | Description | Pin No | Symbol | Description |
| 1 | VDD | Power Supply, 3.3V(typ.) | 11 | RIN2- | -LVDS differential data input 2 |
| 2 | VDD | Power Supply,3.3V(typ.) | 12 | RIN2+ | +LVDS differential data input 2 |
| 3 | VSS | Ground | 13 | VSS | Ground |
| 4 | NC | No Connection | 14 | CLKIN- | -LVDS differential clock input CLK |
| 5 | RIN0- | -LVDS differential data input 0 | 15 | CLKIN+ | +LVDS differential clock input CLK |
| 6 | RIN0+ | +LVDS differential data input 0 | 16 | VSS | Ground |
| 7 | VSS | Ground | 17 | RIN3- | -LVDS differential data input 3 |
| 8 | RIN1- | -LVDS differential data input 1 | 18 | RIN3+ | +LVDS differential data input 3 |
| 9 | RIN1+ | +LVDS differential data input 1 | 19 | VSS | Ground |
| 10 | VSS | Ground | 20 | NC | No Connection |
Optical Specification:
| Parameter | Symbol | Condition | Min | Typ | Max | Unit | Remark | ||
|
Viewing Angle |
Horizontal | Θ3 |
CR > 10 |
85 | 89 | Deg. |
Note 1 |
||
| Θ9 | 85 | 89 | Deg. | ||||||
| Vertical | Θ12 | 85 | 89 | Deg. | |||||
| Θ6 | 85 | 89 | Deg. | ||||||
| Brightness | Lv |
Θ = 0. ILED=55m A |
315 | 350 | nit | ||||
| Uniformity | 9 Points | ΔY9 | 75% | 80% | |||||
| Contrast ratio | CR |
Θ = 0. |
700:1 | 1000:1 | - | ||||
|
Reproduction of color |
White |
Wx |
Θ = 0. (Center) Normal Viewing Angle |
TYP. - 0.03 |
0.313 |
TYP. + 0.03 |
|
||
| Wy | 0.329 | ||||||||
| Red | Rx | 0.649 | |||||||
| Ry | 0.338 | ||||||||
| Green | Gx | 0.323 | |||||||
| Gy | 0.627 | ||||||||
| Blue | Bx | 0.155 | |||||||
| By | 0.056 | ||||||||
| Color Gamut | 67 | 72 | - | % | |||||
| Response Time | Tr+Tf | - | 30 | 35 | ms | ||||
| Gamma Scale | 2.0 | 2.2 | 2.4 | ||||||
Note :
1. Viewing angle is the angle at which the contrast ratio is greater than 10. The viewing are determined for the horizontal or 3, 9 o‟clock direction and the vertical or 6, 12 o‟clock direction with respect to the optical axis which is normal to the LCD surface.
Operating Precautions:
1.Be careful for condensation at sudden temperature change. Condensation makes damage to polarizer or electrical contacted parts. And after fading condensation, smear or spot will occur.
2.Since a module is composed of electronic circuits, it is not strong to electrostatic discharge. Make certain that treatment persons are connected to ground through wrist band etc.