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PART NUMBER | SMMC13264-AI-00-SYA |
DISPLAY FORMAT | 132*64DOTS |
SUPPLY VOLTAGE FOR LOGIC | 3.0V |
DISPLAY TYPE | STN-Y/G, POSITIVE ,REFLECTIVE |
VIEWING DIRECTION | 6.00 O’ CLOCK |
LCD DRIVING METHOD | 1/65 DUTY, 1/9 BIAS, 9.2V (J6392)the last sample:2017-5-23 |
CONNECTION | COG+FPC |
LCD DRIVER IC | ST7565R |
INSPECTION STANDARD OF LCD | A STANDARD |
INSPECTION STANDARD OF RoHS | RoHS COMPLIANCE |
Item | Symbol | MIN | Max | Unit |
SupplyVoltage | VDD | -0.3 | 3.6 | V |
VOUT | -0.3 | 13.5 | V | |
Operating temperature | Topr | -20 | 70 | ℃ |
Storage temperature | Tstr | -30 | 80 | ℃ |
ELECTRICAL CHARACTERISTICS OF LCM
(Unless specified, the ambient temperature Ta=25℃)
Item | Symbol | Condition | Min. | Type | Max. | Unit | |
Supply Voltage | Logic | VDD | VDD-VSS | 2.9 | 3.0 | 3.1 | V |
LCD | VLCD | Ta=25℃ | 9.0 | 9.2 | 9.4 | V | |
Input Voltage | H level | VIH | - | 0.8*VDD | - | VDD | V |
L level | VIL | VSS | - | 0.2*VDD | |||
CurrentConsumption (LCD Drive ) | IDD | -- | 2.0 | mA | |||
Application:
BIGBOOK Factory:
Why choose Us:
********************************************************************************************************************
How to Determine the Glass Used in the Display Module?(2)
Touch Sensitivity: For touch-enabled displays, the glass must possess excellent touch sensitivity. Capacitive touchscreens, which are widely used today, require a conductive layer on the glass surface to detect touch inputs. The type and quality of this conductive layer greatly affect the touch sensitivity. Indium Tin Oxide (ITO) is the most commonly used conductive material, offering high transparency and conductivity.
Conclusion:
Determining the glass used in a display module involves considering various factors such as the glass substrate, surface treatment, strength and durability, and touch sensitivity. By understanding the relationship between LCM and glass, one can make informed decisions when selecting or evaluating display modules. The choice of glass directly impacts the visual quality, durability, and user experience of the display. As display technology continues to evolve, advancements in glass materials and manufacturing techniques will further enhance the performance and longevity of display modules.
PART NUMBER | SMMC13264-AI-00-SYA |
DISPLAY FORMAT | 132*64DOTS |
SUPPLY VOLTAGE FOR LOGIC | 3.0V |
DISPLAY TYPE | STN-Y/G, POSITIVE ,REFLECTIVE |
VIEWING DIRECTION | 6.00 O’ CLOCK |
LCD DRIVING METHOD | 1/65 DUTY, 1/9 BIAS, 9.2V (J6392)the last sample:2017-5-23 |
CONNECTION | COG+FPC |
LCD DRIVER IC | ST7565R |
INSPECTION STANDARD OF LCD | A STANDARD |
INSPECTION STANDARD OF RoHS | RoHS COMPLIANCE |
Item | Symbol | MIN | Max | Unit |
SupplyVoltage | VDD | -0.3 | 3.6 | V |
VOUT | -0.3 | 13.5 | V | |
Operating temperature | Topr | -20 | 70 | ℃ |
Storage temperature | Tstr | -30 | 80 | ℃ |
ELECTRICAL CHARACTERISTICS OF LCM
(Unless specified, the ambient temperature Ta=25℃)
Item | Symbol | Condition | Min. | Type | Max. | Unit | |
Supply Voltage | Logic | VDD | VDD-VSS | 2.9 | 3.0 | 3.1 | V |
LCD | VLCD | Ta=25℃ | 9.0 | 9.2 | 9.4 | V | |
Input Voltage | H level | VIH | - | 0.8*VDD | - | VDD | V |
L level | VIL | VSS | - | 0.2*VDD | |||
CurrentConsumption (LCD Drive ) | IDD | -- | 2.0 | mA | |||
Application:
BIGBOOK Factory:
Why choose Us:
********************************************************************************************************************
How to Determine the Glass Used in the Display Module?(2)
Touch Sensitivity: For touch-enabled displays, the glass must possess excellent touch sensitivity. Capacitive touchscreens, which are widely used today, require a conductive layer on the glass surface to detect touch inputs. The type and quality of this conductive layer greatly affect the touch sensitivity. Indium Tin Oxide (ITO) is the most commonly used conductive material, offering high transparency and conductivity.
Conclusion:
Determining the glass used in a display module involves considering various factors such as the glass substrate, surface treatment, strength and durability, and touch sensitivity. By understanding the relationship between LCM and glass, one can make informed decisions when selecting or evaluating display modules. The choice of glass directly impacts the visual quality, durability, and user experience of the display. As display technology continues to evolve, advancements in glass materials and manufacturing techniques will further enhance the performance and longevity of display modules.
