Texas Instruments SN65DSI85ZXHR
- Part Number:
- SN65DSI85ZXHR
- Manufacturer:
- Texas Instruments
- Ventron No:
- 6390111-SN65DSI85ZXHR
- Description:
- Dual-channel MIPI? DSI to dual-link Flatlink? LVDS bridge
- Datasheet:
- sn65dsi85
- TypeBridge
- ProtocolsLVDS
- RatingCatalog
- Speed (max) (Gbps)8
- Number of channels2
- Supply voltage (V)1.8
- Operating temperature range (°C)-40 to 85
The SN65DSI85 DSI to FlatLink bridge features a dual-channel MIPI D-PHY receiver front-end configuration with 4 lanes per channel operating at 1 Gbps per lane; a maximum input bandwidth of 8 Gbps. The bridge decodes MIPI DSI 18-bpp RGB666 and 24-bpp RGB888 packets and converts the formatted video data stream to a FlatLink compatible LVDS output operating at pixel clocks operating from 25 MHz to 154 MHz, offering a Dual-Link LVDS, Single-Link LVDS, or two Single-Link LVDS interface(s) with four data lanes per link.
The SN65DSI85 is well suited for WQXGA (2560 × 1600) at 60 frames per second, as well as 3D Graphics at WUXGA and True HD (1920 × 1080) resolutions at an equivalent 120 fps with up to 24 bits-per-pixel. Partial line buffering is implemented to accommodate the data stream mismatch between the DSI and LVDS interfaces.
Designed with industry-compliant interface technology, the SN65DSI85 is compatible with a wide range of micro-processors, and is designed with a range of power management features including low-swing LVDS outputs, and the MIPI® defined ultra-low power state (ULPS) support.
The SN65DSI85 is implemented in a small outline 5-mm × 5-mm nFBGA at 0.5-mm pitch package, and operates across a temperature range from –40°C to 85°C.
Interface Circuit, PBGA64
DUAL-CHANNEL MIPI DSI TO DUAL-LI
Latest News
-
01 March 2024
BCM89811B1AWMLG Manufacturer, Characteristics, Specifications and Purchase Guide
Ⅰ. Overview of BCM89811B1AWMLGⅡ. Manufacturer of BCM89811B1AWMLGⅢ. What are the characteristics of BCM89811B1AWMLG?Ⅳ. Where is BCM89811B1AWMLG used?Ⅴ. What is the connection method of BCM89811B1AWMLG?Ⅵ. Specifications of BCM89811B1AWMLGⅦ. Competitive... -
04 March 2024
NCP1377BDR2G Symbol, Operating Principle, Technical Parameters and More
Ⅰ. NCP1377BDR2G overviewⅡ. Symbol, footprint and pin configuration of NCP1377BDR2GⅢ. Operating principle of NCP1377BDR2GⅣ. Internal circuit architecture of NCP1377BDR2GⅤ. Precautions for the use of NCP1377BDR2GⅥ. Technical parameters of... -
04 March 2024
ADS1248IPWR Specifications, Characteristics, Applications and Market Trends
Ⅰ. Introduction to ADS1248IPWRⅡ. Specifications of ADS1248IPWRⅢ. Functional block diagram of ADS1248IPWRⅣ. Characteristics of ADS1248IPWRⅤ. Where is ADS1248IPWR used?Ⅵ. Absolute maximum ratings of ADS1248IPWRⅦ. Market trends of ADS1248IPWRⅧ.... -
05 March 2024
KA7500B: Efficient and Stable PWM Switching Regulator Controller
Ⅰ. What is KA7500B?Ⅱ. Characteristics of KA7500BⅢ. KA7500B working parts and principleⅣ. Internal block diagram of KA7500BⅤ. Applications of KA7500BⅥ. Can KA7500B and KA7500BD be replaced?Ⅶ. How to...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.