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ITEM | DESCRIPTION | UNIT |
Outline Size(mm) | 80.0(L)×72.5(W)×5.0(T) (Not Include Connector) | mm |
LCD Type | FSTN, Transflecitve/Positive,1/160Duty,1/10Bias | --- |
Display Type | 160×160 dots | --- |
View Area | 60.00×60.00 | mm |
Display Area | 54.38×54.38 | mm |
Dots Size | 0.32×0.32 | mm |
Dots Pitch | 0.34×0.34 | mm |
Controller & Driver | UC1698U (COG) | --- |
View Direction | 6 O’Clock | --- |
Interface Mode | 8 bit 6800,8 bit 8080 | --- |
VDD&VOP(Type) | 3.3 V & 16.3 V | V |
Backlight Color | White, 3.0V, 90mA | --- |
Operation Temp. | -20~+70 | ℃ |
Storage Temp. | -30~+80 | ℃ |
Pin No. | Pin Out | Description |
1-2 | NC | No connection. |
3-4 | VLCD | High voltage LCD Power Supply. When internal VLCD is used, connect these pins together. When external VLCD source is used, connect external VLCD source to VLCDIN, pins and leave VLCDOUT open. |
5 | VS+ | LCD Bias Voltages. These are the voltage sources to provide SEG driving currents. These voltages are generated internally. Connect capacitors of CAX / CBX value between VAX+ / VBX+ and VAX– / VBX–, respectively. |
6 | VS- | |
7 | VB0- | |
8 | VB1- | |
9 | VB1+ | |
10 | VB0+ | |
11-12 | VDD | Power supply for LCD circuit. |
13-14 | VSS | Ground. |
15 | BM0 | Bus Mode: The interface bus mode is determined by BM0 with the following relationship: BM 0Mode16800/8-bit08080/8-bit |
16 | CS0 | Chip Selection. Chip is selected when CS0 = “L”. When the chip is not selected, DB [7:0] will be high impedance. |
17 | A0(CD) | Selects Control data or Display data for read/write operation. In S9 mode, CD pin is not used. Connect to VSS when not used. ”L”: Control data ”H”: Display data |
18 | WR1(RD) | WR[1:0] control the read/write operation of the host interface. See section Host Interface for more detail. In parallel mode, the meaning of WR[1:0] depends on whether the interface is in the 6800 mode or the 8080 mode. In serial interface modes, these two pins are not used, connect them to VSS. |
19 | WR0(WR) | |
20 | RST | When RST=”L”, all control registers are re-initialized by their default states. Since UC1698u has built-in Power-ON reset and software reset commands, RST pin is not required for proper chip operation. An RC Filter has been included on-chip. There is no need for external RC noise filter. When RST is not used, connect the pin to VDD. |
21 | DB0 | Bi-directional bus for parallel host interface. |
22 | DB1 | |
23 | DB2 | |
24 | DB3 | |
25 | DB4 | |
26 | DB5 | |
27 | DB6 | |
28 | DB7 |
The FSTN technology used in the LCD screen enhances the display's contrast by using a film-compensation layer. This layer minimizes color shifts and improves the display's performance in a wide range of viewing angles. As a result, the screen provides clear and sharp visuals with high contrast, making it suitable for applications that require readability in different lighting conditions.
The transflective feature of the screen allows it to utilize both ambient light and a backlight for illumination. In reflective mode, ambient light is reflected off the screen's surface, enabling readability in well-lit environments without the need for a backlight. In transmissive mode, the backlight is utilized to provide illumination in low-light conditions or when direct light is not available.
The LCD screen you mentioned has a white backlight. The white backlight provides a uniform and bright illumination across the screen, ensuring excellent visibility of the displayed content. The white backlight can be adjusted in intensity to suit different lighting conditions and user preferences.
*********************************************************************************************************
Enhancing Your Visual Experience with Cutting-Edge LCD Screen Services
1. LCD Screen Repair and Maintenance:
We understand that accidents happen, and LCD screens can sometimes suffer from physical damage or technical issues. Our team possesses extensive knowledge and experience in LCD screen repair and maintenance. From cracked screens to malfunctioning pixels, we can efficiently diagnose and resolve any issues, ensuring your screen is restored to its optimal condition. Additionally, we offer regular maintenance services to extend the lifespan of your LCD screen and prevent potential issues from arising.
2. LCD Screen Customization and Integration:
Every business or individual has unique requirements when it comes to their visual display. At [Company Name], we offer customization and integration services to tailor your LCD screen to your specific needs. Whether it's incorporating touch screen capabilities, integrating multiple screens to create a video wall, or designing a custom mounting solution, our team will work closely with you to bring your vision to life.
3. LCD Screen Upgrades and Enhancements:
As technology continues to evolve, keeping up with the latest advancements in LCD screens can be challenging. Our team stays up-to-date with the latest trends and innovations in the industry, allowing us to offer cutting-edge upgrades and enhancements for your LCD screen. From higher resolutions and faster refresh rates to improved color accuracy and energy efficiency, we can transform your existing screen into a state-of-the-art visual powerhouse.
4. Backlight Bleeding:
Backlight bleeding refers to the uneven distribution of light from the backlight source behind the LCD panel. This issue manifests as areas of light leakage along the edges or corners of the screen, resulting in a diminished contrast ratio and compromised image quality.
Solution:
While complete elimination of backlight bleeding may not be possible, manufacturers are continuously working to improve the design and construction of LCD modules to minimize this issue. Additionally, adjusting the backlight settings on the device can help reduce the visibility of backlight bleeding.
5. Ghosting or Image Persistence:
Ghosting, also known as image persistence or image retention, occurs when a previous image or text leaves a faint residue on the screen, even after it has been replaced by a new image. This effect is particularly noticeable during fast-paced scenes in videos or when scrolling through text-heavy content.
ITEM | DESCRIPTION | UNIT |
Outline Size(mm) | 80.0(L)×72.5(W)×5.0(T) (Not Include Connector) | mm |
LCD Type | FSTN, Transflecitve/Positive,1/160Duty,1/10Bias | --- |
Display Type | 160×160 dots | --- |
View Area | 60.00×60.00 | mm |
Display Area | 54.38×54.38 | mm |
Dots Size | 0.32×0.32 | mm |
Dots Pitch | 0.34×0.34 | mm |
Controller & Driver | UC1698U (COG) | --- |
View Direction | 6 O’Clock | --- |
Interface Mode | 8 bit 6800,8 bit 8080 | --- |
VDD&VOP(Type) | 3.3 V & 16.3 V | V |
Backlight Color | White, 3.0V, 90mA | --- |
Operation Temp. | -20~+70 | ℃ |
Storage Temp. | -30~+80 | ℃ |
Pin No. | Pin Out | Description |
1-2 | NC | No connection. |
3-4 | VLCD | High voltage LCD Power Supply. When internal VLCD is used, connect these pins together. When external VLCD source is used, connect external VLCD source to VLCDIN, pins and leave VLCDOUT open. |
5 | VS+ | LCD Bias Voltages. These are the voltage sources to provide SEG driving currents. These voltages are generated internally. Connect capacitors of CAX / CBX value between VAX+ / VBX+ and VAX– / VBX–, respectively. |
6 | VS- | |
7 | VB0- | |
8 | VB1- | |
9 | VB1+ | |
10 | VB0+ | |
11-12 | VDD | Power supply for LCD circuit. |
13-14 | VSS | Ground. |
15 | BM0 | Bus Mode: The interface bus mode is determined by BM0 with the following relationship: BM 0Mode16800/8-bit08080/8-bit |
16 | CS0 | Chip Selection. Chip is selected when CS0 = “L”. When the chip is not selected, DB [7:0] will be high impedance. |
17 | A0(CD) | Selects Control data or Display data for read/write operation. In S9 mode, CD pin is not used. Connect to VSS when not used. ”L”: Control data ”H”: Display data |
18 | WR1(RD) | WR[1:0] control the read/write operation of the host interface. See section Host Interface for more detail. In parallel mode, the meaning of WR[1:0] depends on whether the interface is in the 6800 mode or the 8080 mode. In serial interface modes, these two pins are not used, connect them to VSS. |
19 | WR0(WR) | |
20 | RST | When RST=”L”, all control registers are re-initialized by their default states. Since UC1698u has built-in Power-ON reset and software reset commands, RST pin is not required for proper chip operation. An RC Filter has been included on-chip. There is no need for external RC noise filter. When RST is not used, connect the pin to VDD. |
21 | DB0 | Bi-directional bus for parallel host interface. |
22 | DB1 | |
23 | DB2 | |
24 | DB3 | |
25 | DB4 | |
26 | DB5 | |
27 | DB6 | |
28 | DB7 |
The FSTN technology used in the LCD screen enhances the display's contrast by using a film-compensation layer. This layer minimizes color shifts and improves the display's performance in a wide range of viewing angles. As a result, the screen provides clear and sharp visuals with high contrast, making it suitable for applications that require readability in different lighting conditions.
The transflective feature of the screen allows it to utilize both ambient light and a backlight for illumination. In reflective mode, ambient light is reflected off the screen's surface, enabling readability in well-lit environments without the need for a backlight. In transmissive mode, the backlight is utilized to provide illumination in low-light conditions or when direct light is not available.
The LCD screen you mentioned has a white backlight. The white backlight provides a uniform and bright illumination across the screen, ensuring excellent visibility of the displayed content. The white backlight can be adjusted in intensity to suit different lighting conditions and user preferences.
*********************************************************************************************************
Enhancing Your Visual Experience with Cutting-Edge LCD Screen Services
1. LCD Screen Repair and Maintenance:
We understand that accidents happen, and LCD screens can sometimes suffer from physical damage or technical issues. Our team possesses extensive knowledge and experience in LCD screen repair and maintenance. From cracked screens to malfunctioning pixels, we can efficiently diagnose and resolve any issues, ensuring your screen is restored to its optimal condition. Additionally, we offer regular maintenance services to extend the lifespan of your LCD screen and prevent potential issues from arising.
2. LCD Screen Customization and Integration:
Every business or individual has unique requirements when it comes to their visual display. At [Company Name], we offer customization and integration services to tailor your LCD screen to your specific needs. Whether it's incorporating touch screen capabilities, integrating multiple screens to create a video wall, or designing a custom mounting solution, our team will work closely with you to bring your vision to life.
3. LCD Screen Upgrades and Enhancements:
As technology continues to evolve, keeping up with the latest advancements in LCD screens can be challenging. Our team stays up-to-date with the latest trends and innovations in the industry, allowing us to offer cutting-edge upgrades and enhancements for your LCD screen. From higher resolutions and faster refresh rates to improved color accuracy and energy efficiency, we can transform your existing screen into a state-of-the-art visual powerhouse.
4. Backlight Bleeding:
Backlight bleeding refers to the uneven distribution of light from the backlight source behind the LCD panel. This issue manifests as areas of light leakage along the edges or corners of the screen, resulting in a diminished contrast ratio and compromised image quality.
Solution:
While complete elimination of backlight bleeding may not be possible, manufacturers are continuously working to improve the design and construction of LCD modules to minimize this issue. Additionally, adjusting the backlight settings on the device can help reduce the visibility of backlight bleeding.
5. Ghosting or Image Persistence:
Ghosting, also known as image persistence or image retention, occurs when a previous image or text leaves a faint residue on the screen, even after it has been replaced by a new image. This effect is particularly noticeable during fast-paced scenes in videos or when scrolling through text-heavy content.
