- DP 1.4 Transmitter PHY
- eDP 1.3 Transmitter PHY
- HDMI 1.4/2.0 Transmitter PHY
- LVDS and OpenLDI PHY
- MIPI D-PHY TX PHY and DSI controller
- MIPI C/D Combo TX PHY and DSI controller
DP 1.4 Transmitter PHY
The DisplayPort 1.4 Transmitter PHY is for transmitting high-definition video and audio, making it an ideal choice for a wide range of applications from gaming and professional graphics to digital signage and broadcasting. Its high bandwidth, support for ultra-high resolutions, and robust feature set make it a critical component for any high-performance multimedia system.
Key Features
Fully compliant to VESA DisplayPort 1.4 specifications
Supports DisplayPort RBR, HBR, and HBR2 data rate and customized data rate
Configurable x1/x2/x4 Main-Link data lanes
Supports PIPE SerDes Mode interface to DisplayPort controller
Supports three PIPE data width options: 10-bit, 20-bit and 40-bit
Built-in scrambling and ANSI 8b/10b encoding blocks
PLL support SSC function
eDP 1.3 Transmitter PHY
The Embedded DisplayPort (eDP) 1.3 Transmitter PHY is a high-performance interface IP designed to enable the transmission of video and audio signals in embedded applications. Optimized for use in devices such as laptops, tablets, all-in-one PCs, and high-resolution displays, the eDP 1.3 Transmitter delivers exceptional video quality and power efficiency, ensuring a superior user experience for modern multimedia applications.
Key Features
Fully compliant to VESA Embedded DisplayPort 1.3 specifications
Support Embedded DisplayPort RBR, HBR, and HBR2 data rate and customized data rate
Configurable x1/x2/x4 Main-Link data lanes
PIPE SerDes Mode interface to Embedded DisplayPort controller
Main link transmitter supports eDP pre-emphasis feature
Supports three PIPE data width options: 10-bit, 20-bit and 40-bit
Built-in scrambling and ANSI 8b/10b encoding blocks
PLL support SSC function
HDMI 1.4/2.0 Transmitter PHY
The HDMI 2.0 TX (Transmitter) is a multimedia interface designed to deliver high-definition video and audio from source devices to display devices. Our silicon proven HDMI Transmitter PHY is an essential component for applications requiring high-resolution and high-fidelity content transmission, such as home theater systems.
Key Features
Fully compliant with HDMI 1.4 and 2.0 specifications
Supports High Bandwidth: Supports up to 18 Gbps (R, G, B), allowing for higher resolutions, faster refresh rates, and more color depth
Supports High Dynamic Range (HDR): Compatible with HDR formats, enhancing the contrast and color accuracy of the displayed content
Supports four (4) operation modes
- Normal mode
- Active power down mode
- Idle mode
- Power saving mode
LVDS and OpenLDI PHY
Our LVDS (Low Voltage Differential Signaling) and OpenLDI (Open Low-voltage Differential Signaling Interface) PHY which is composed of two 4-lane LVDS PHY, is a high-speed digital interface designed to facilitate the transmission of video and audio signals between various components within electronic devices. Optimized for applications in flat-panel displays, industrial equipment, automotive infotainment systems, and medical devices, the LVDS and OpenLDI PHY ensure reliable, high-quality performance while maintaining low power consumption.
Key Features
Silicon proven with maximum speed @1.5Gbps per lane
Suitable for Automotive applications with ESD levels: HBM > 4KV and CDM > 750V
LVDS TX PHY: 4-data lanes plus 1-clock lane with each lane can be individually turned off
Supports long-distance transmission: Capable of maintaining signal integrity over longer cable length
OpenLDI PHY: Silicon proven 8-lane OpenLDI PHY
PLL supports SSC with 30~100K ± 3.1% range
MIPI D-PHY TX PHY and DSI controller
The MIPI D-PHY Transmitter PHY and DSI Controller are tailored for high-performance display applications. This integrated system ensures seamless communication between the processor and display, supporting high data rates and efficient power consumption. It is designed for a wide range of devices including smartphones, tablets, automotive infotainment systems, and consumer electronics.
Key Features
Scalability and Flexibility: Supports multiple data lanes for higher aggregate bandwidth, any of the multiple lanes can be configured into Clock Lane
High Data Rates: Supports data transmission rates up to 4.5Gbps per lane, allowing for high-resolution displays and smooth refresh rates
Energy Efficiency: Optimized for low power consumption, making it ideal for battery-powered devices
Complete Solution: Combines the MIPI D-PHY Transmitter PHY and DSI Controller to make it a one-stop solution
Versatile Interface: Compatible with a variety of MIPI-compliant displays, providing flexibility for different applications
Enhanced Signal Integrity: Features such as equalization and pre-emphasis ensure robust and high-quality data transmission
MIPI C/D Combo TX PHY and DSI controller
The MIPI C and D Combo Transmitter PHY and DSI Controller are tailored for high-performance display applications. This integrated system ensures seamless communication between the processor and display, supporting high data rates and efficient power consumption. It is designed for a wide range of devices including smartphones, tablets, automotive infotainment systems, and consumer electronics.
Key Features
High Data Rates: Supports data transmission rates
- D-PHY: Up to 4.5Gbps per lane
- C-PHY: Up to 3.5Gsps per lane
Energy Efficiency: Optimized for low power consumption, making it ideal for battery-powered devices
Complete Solution: Combines the MIPI CD-PHY Transmitter PHY and DSI Controller to make it a one-stop solution
Flexible IP Configuration
- 4-Lane/3-Trio Combo PHY
- 2-Lane/2-Trio Combo PHY