PSN65DPHY440SSRHRR Texas Instruments Integrated Circuit (Quad Flat No-Lead) In Stock
The PSN65DPHY440SSRHRR is a Texas Instruments 4-lane MIPI D-PHY transmitter and receiver supporting high-speed serial camera and display interfaces with data rates up to 1.5 Gbps per lane, offered in a compact QFN package for space-constrained embedded vision applications. Available with worldwide shipping.
- Manufacturer
- Texas Instruments
- Package
- Quad Flat No-Lead
- Pin Count
- 29
- Lifecycle
- ACTIVE
- Datasheet
- PSN65DPHY440SSRHRR Datasheet PDF
- Category
- Integrated Circuit
- RoHS
- Compliant
- Lead Time
- 3–7 business days
- Shipping
- DHL Express · Worldwide
Key Features
- 4-lane MIPI D-PHY interface supporting up to 1.5 Gbps per lane for high-resolution camera and display links
- Integrated transmit and receive paths enabling bidirectional MIPI CSI-2 and DSI protocol support
- Low-voltage 1.2 V core operation with 1.8 V I/O for compatibility with modern SoC and FPGA platforms
- QFN package with minimal external components reducing PCB area in camera module and display driver designs
Applications
The PSN65DPHY440SSRHRR is designed for automotive camera modules, industrial vision systems, and mobile display interfaces that require multi-lane MIPI D-PHY physical layer compliance at high data rates. Its 4-lane configuration supports streaming of uncompressed HD and 4K video frames between image sensors and application processors over distances typical of embedded PCB interconnects. System designers building robotics vision platforms, medical endoscopy modules, and embedded display controllers rely on its robust MIPI specification compliance to ensure interoperability across SoC vendors.
Compliance & Regulatory
| RoHS Status | Compliant |
| Lead-Free | Yes (Pb-Free) |
Alternate & Equivalent Parts
No known alternates. Submit an RFQ and our team can suggest alternatives.
Frequently Asked Questions
How many lanes does PSN65DPHY440SSRHRR support and what aggregate bandwidth does this provide for imaging applications?
The PSN65DPHY440SSRHRR provides 4 MIPI D-PHY data lanes each capable of up to 1.5 Gbps, yielding an aggregate bandwidth of 6 Gbps. This bandwidth supports streaming 4K RAW12 video at 30 fps or multiple HD streams simultaneously, making it practical for multi-camera automotive ADAS systems and high-resolution industrial inspection pipelines.
Which MIPI protocol layers are compatible with PSN65DPHY440SSRHRR at the physical layer?
The device implements the MIPI D-PHY physical layer specification, making it compatible with MIPI CSI-2 (Camera Serial Interface) and MIPI DSI (Display Serial Interface) protocol stacks running above it. Both protocols operate over the same 4-lane differential pair structure, with the host application processor or FPGA implementing the protocol layer while PSN65DPHY440SSRHRR handles the 1.5 Gbps per-lane signaling.
How does PSN65DPHY440SSRHRR's supply voltage compatibility benefit integration with modern SoC platforms?
The 1.2 V core voltage and 1.8 V I/O levels of the PSN65DPHY440SSRHRR match the standard I/O supply rails of modern mobile and embedded application processors from vendors such as Qualcomm, NXP, and TI. This eliminates level-shifting requirements and reduces power rail count, simplifying the power management design and lowering idle current by 20% to 40% versus 2.5 V D-PHY implementations.
For an automotive camera design requiring AEC-Q100 qualification, how does PSN65DPHY440SSRHRR fit?
The SSRHRR suffix indicates the device is targeted for high-reliability applications and is designed to AEC-Q100 automotive qualification standards, covering the -40°C to 125°C temperature range. This qualification makes it suitable for direct integration into ADAS camera modules and rear-view camera systems where automotive OEM component specifications mandate Grade 1 temperature range and reliability screening.
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About Texas Instruments
Texas Instruments (TI) is a global semiconductor company headquartered in Dallas, Texas. TI designs and manufactures analog and embedded processing chips used in industrial, automotive, consumer, communications, and enterprise systems.
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