Epson Shipping Samples of S1D15K01 Single-Chip Hybrid Liquid Crystal Driver IC for Digital Instrument Cluster LCDs
- Simultaneously drive both segment and dot matrix displays with a single chip -
- TOKYO, Japan, December 14, 2021 -
Seiko Epson Corporation (TSE: 6724, "Epson") has developed and begun shipping samples of the S1D15K01, a hybrid liquid-crystal driver IC that is capable of simultaneously driving both a segment display and a dot-matrix display. This one-chip solution is designed for use in hybrid digital instrument cluster LCDs. Epson plans to produce 100,000 of the new drivers per month.
The amount of information that needs to be shown on instrument cluster displays is increasing as motorcycles gain additional features and functions. On the other hand, the space available for displays is limited and information needs to be displayed efficiently. In the past, motorcycles were usually equipped with passive displays, which are relatively inexpensive in terms of system and development costs, but the need to efficiently display more information has led to an increase in the use of hybrid-type liquid crystal displays with an integrated segment display for a speed gauge and warning lights and a dot-matrix display for simple navigation.
However, conventional hybrid LCDs either used two types of driver ICs, one for the segment liquid crystal and the other for the dot matrix liquid crystal, or they used some of the drive pins of the IC for driving the dot matrix liquid crystal to drive the segment liquid crystal. This caused several issues, including display problems and contrast differences between the segment area and the dot matrix area, multiple lines in input interfaces, and higher module costs.
The S1D15K01 is a hybrid liquid crystal driver that can be directly connected to a microcontroller1 and can display image data transferred from the microcontroller on the hybrid display. In addition, the S1D15K01 helps to eliminate display problems, realize high-contrast, and reduce module costs, since the separate circuits for the segment display and the dot matrix display are integrated on a single chip.
This driver satisfies the strict quality requirements for automotive products. It is compliant with AEC-Q100 and operates at temperatures up to 105℃.2
Epson seeks to advance the frontiers of industry and drive the circular economy by applying the efficient, compact, and precision technologies that it has developed over many years to solve challenges. These technologies, which save energy, enable smaller products, and increase accuracy and precision, enable Epson to contribute to the Sustainable Development Goals (SDGs), which will bring about a better and more sustainable future for all.
- Capable of driving hybrid liquid crystal with a single chip (segment: 120 x 4; dot matrix: 160 x 80)
- Built-in temperature sensor circuit
Please see the link below for product details.
Website URL: https://global.epson.com/products_and_drivers/semicon/products/lcd_drivers/s1d15k01.html
Movie URL: https://youtu.be/JHSKVYDn2mk
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|Supply voltage||System power supply, VDD to Vss: 3.0 V to 5.5 V|
|Booster power supply, VDD to Vss: 3.0 V to 5.5 V|
|Liquid crystal drive power supply, V3 to MV3: 4.0 V to 24.0 V|
|Liquid crystal drive power supply, V2 to MV2: 4.0 V to 8.0 V|
|MPU interface||3-wire serial interface|
|LCD driver||Segment: 120 x 4 Dot matrix: 160 x 80|
|LCD driving duty||Segment: 1/4 to 1/1
Dot matrix: Max 1/80
|LCD drive bias||Segment: 1/3 (1/4 duty - 1/2 duty), static (1/1 duty)
Dot matrix: 1/5 to 1/13 (APT, IAPT conversion), selectable with electron volume
|Error detection||Command register|
|Dot-matrix data RAM operating status error detection, etc.|
|Automotive standard||AEC-Q100 compliant|
|Operating temperature range||-40 to +105℃|
|Other||Built-in oscillator circuit|
|Built-in temperature sensor circuit|
|Shipping condition||Bare die (gold bumped)|
*1 A microcontroller, or MCU, is an integrated circuit that is primarily used in built-in systems of electronic equipment. An MCU is a type of computer that has been optimized for the control of electronic equipment.
*2 AEC-Q100: The Automotive Electronics Council (AEC) is an industry group that creates standards for the reliability and qualification of automotive electronics. It was formed by the "Big Three" U.S. automobile manufacturers in partnership with major electronic component manufacturers. The AEC standard is a de facto global standard that has been widely adopted as a standard for automotive electronic components.
Epson is a global technology leader dedicated to co-creating sustainability and enriching communities by leveraging its efficient, compact, and precision technologies and digital technologies to connect people, things, and information. The company is focused on solving societal issues through innovations in home and office printing, commercial and industrial printing, manufacturing, visual and lifestyle. Epson will become carbon negative and eliminate use of exhaustible underground resources such as oil and metal by 2050.
Led by the Japan-based Seiko Epson Corporation, the worldwide Epson Group generates annual sales of around JPY 1 trillion.