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(1) Display format : 128 64dot-matrix ; 1/ 64 duty.
(2) Construction : STN LCD, COG Type
(3) Controller : S6B0724
(4) 3.0V single power input. Internal Built-in DC/DC converter for LCD driving.
(5) Width temperature type.
Parameter | Stand Value | Unit |
Dot size | 0.45(W) 0.49(H) | mm |
Dot pitch | 0.475(W) 0.515(H) | mm |
Viewing area | 65.5 (W) 38.0(H) | mm |
Module size | 90.5(W) 63.2(H) 10.0 max (T) | mm |
Parameter | Symbol | Min | Max | Unit | |
Logic Circuit Supply Voltage | VDD-VSS | 3.0 | 3.3 | V | |
LCD Driving Voltage | VDD-VO | 8.2 | 8.6 | V | |
Input Voltage | VI | VSS | VDD | V | |
Normal temp. type | Operating Temp. | TOP | -10 | 60 | C |
Storage Temp. | TSTG | -20 | 70 | C | |
Parameter | Symbol | Condition | Min | Typ | Max | Unit | Note |
----- Electronic Characteristics ----- | |||||||
Logic Circuit Supply Voltage | VDD-VSS | -- | 3.0 | --- | 3.3 | V | |
LCD Driving Voltage | VDD-VO | C | -- | 8.6 | -- | V | |
Input Voltage | VIH | -- | 0.7 VDD | -- | VDD | V | |
VIL | -- | VSS | -- | 0.3 VDD | V | ||
Logic Supply Current | IDD | VDD =3.0V | -- | 40 | -- | uA | |
----- Optical Characteristics ----- | |||||||
Contrast | CR | STN type | 8.6 | ||||
Rise Time | tr | C | -- | 140 | -- | ms | Note 2 |
Fall Time | tf | C | -- | 240 | -- | ms | |
f | C & CR2 | -- | 40 | -- | Deg. | Note 3 | |
b | -- | 35 | -- | ||||
l | -- | 35 | -- | ||||
r | -- | 35 | -- | ||||
Frame Frequency | fF | C | -- | 70 | -- | Hz | |
----- LED Back-light(Green) Characteristics ----- | |||||||
Forward Voltage | VF | -- | -- | 3.0 | -- | V | Supply Voltage between A&K |
Forward Current | IF | VF=3.0V | -- | 15 | -- | mA | |
Bare LED Luminous intensity | VF=3.0V | -- | -- | -- | cd/m2 | ||
LCM Luminous intensity | VF=3.0V | -- | -- | cd/m2 | |||
VA LCD PANEL Application:Automotive ,Medical。
TN LCD PANEL Application:Automotive ,Medical,Thermometer。
STN LCD PANEL Application:Electric Meter ,Elevator,Home appliance
Consumer Electronics,Watch。
Why choose Us:
*******************************************************************************
Subtitle: Exploring the Evolution of LCD Screens for Intelligent Robots
As intelligent robots continue to evolve, the requirements for LCD screens will also change. Here are some key features that future LCD screens for intelligent robots may possess:
1. Flexible and Bendable Screens:
Future LCD screens for intelligent robots may adopt flexible and bendable display technologies. These screens would allow robots to adapt to various shapes and sizes, enhancing their versatility and enabling them to perform tasks in confined spaces.
2. High Dynamic Range (HDR) Imaging:
HDR imaging technology allows LCD screens to display a more extensive range of colors and contrast, resulting in more realistic and detailed images. Implementing HDR technology in LCD screens for intelligent robots would enhance their perception capabilities, enabling them to distinguish objects and features in their surroundings more accurately.
3. Augmented Reality (AR) Integration:
Integrating AR technology into LCD screens for intelligent robots can provide them with an enhanced visual experience. AR overlays digital information onto the real world, allowing robots to access additional data and perform complex tasks more efficiently. This integration would greatly benefit robots in industries such as manufacturing, healthcare, and logistics.
4. Energy Efficiency:
Efficient power consumption is a crucial consideration for intelligent robots. Future LCD screens should be designed to consume minimal power while maintaining high image quality. This would allow robots to operate for longer durations without frequent recharging or battery replacements.
(1) Display format : 128 64dot-matrix ; 1/ 64 duty.
(2) Construction : STN LCD, COG Type
(3) Controller : S6B0724
(4) 3.0V single power input. Internal Built-in DC/DC converter for LCD driving.
(5) Width temperature type.
Parameter | Stand Value | Unit |
Dot size | 0.45(W) 0.49(H) | mm |
Dot pitch | 0.475(W) 0.515(H) | mm |
Viewing area | 65.5 (W) 38.0(H) | mm |
Module size | 90.5(W) 63.2(H) 10.0 max (T) | mm |
Parameter | Symbol | Min | Max | Unit | |
Logic Circuit Supply Voltage | VDD-VSS | 3.0 | 3.3 | V | |
LCD Driving Voltage | VDD-VO | 8.2 | 8.6 | V | |
Input Voltage | VI | VSS | VDD | V | |
Normal temp. type | Operating Temp. | TOP | -10 | 60 | C |
Storage Temp. | TSTG | -20 | 70 | C | |
Parameter | Symbol | Condition | Min | Typ | Max | Unit | Note |
----- Electronic Characteristics ----- | |||||||
Logic Circuit Supply Voltage | VDD-VSS | -- | 3.0 | --- | 3.3 | V | |
LCD Driving Voltage | VDD-VO | C | -- | 8.6 | -- | V | |
Input Voltage | VIH | -- | 0.7 VDD | -- | VDD | V | |
VIL | -- | VSS | -- | 0.3 VDD | V | ||
Logic Supply Current | IDD | VDD =3.0V | -- | 40 | -- | uA | |
----- Optical Characteristics ----- | |||||||
Contrast | CR | STN type | 8.6 | ||||
Rise Time | tr | C | -- | 140 | -- | ms | Note 2 |
Fall Time | tf | C | -- | 240 | -- | ms | |
f | C & CR2 | -- | 40 | -- | Deg. | Note 3 | |
b | -- | 35 | -- | ||||
l | -- | 35 | -- | ||||
r | -- | 35 | -- | ||||
Frame Frequency | fF | C | -- | 70 | -- | Hz | |
----- LED Back-light(Green) Characteristics ----- | |||||||
Forward Voltage | VF | -- | -- | 3.0 | -- | V | Supply Voltage between A&K |
Forward Current | IF | VF=3.0V | -- | 15 | -- | mA | |
Bare LED Luminous intensity | VF=3.0V | -- | -- | -- | cd/m2 | ||
LCM Luminous intensity | VF=3.0V | -- | -- | cd/m2 | |||
VA LCD PANEL Application:Automotive ,Medical。
TN LCD PANEL Application:Automotive ,Medical,Thermometer。
STN LCD PANEL Application:Electric Meter ,Elevator,Home appliance
Consumer Electronics,Watch。
Why choose Us:
*******************************************************************************
Subtitle: Exploring the Evolution of LCD Screens for Intelligent Robots
As intelligent robots continue to evolve, the requirements for LCD screens will also change. Here are some key features that future LCD screens for intelligent robots may possess:
1. Flexible and Bendable Screens:
Future LCD screens for intelligent robots may adopt flexible and bendable display technologies. These screens would allow robots to adapt to various shapes and sizes, enhancing their versatility and enabling them to perform tasks in confined spaces.
2. High Dynamic Range (HDR) Imaging:
HDR imaging technology allows LCD screens to display a more extensive range of colors and contrast, resulting in more realistic and detailed images. Implementing HDR technology in LCD screens for intelligent robots would enhance their perception capabilities, enabling them to distinguish objects and features in their surroundings more accurately.
3. Augmented Reality (AR) Integration:
Integrating AR technology into LCD screens for intelligent robots can provide them with an enhanced visual experience. AR overlays digital information onto the real world, allowing robots to access additional data and perform complex tasks more efficiently. This integration would greatly benefit robots in industries such as manufacturing, healthcare, and logistics.
4. Energy Efficiency:
Efficient power consumption is a crucial consideration for intelligent robots. Future LCD screens should be designed to consume minimal power while maintaining high image quality. This would allow robots to operate for longer durations without frequent recharging or battery replacements.
