Packaging information
| Package | Pins WQFN (NJX) | 64 |
| Operating temperature range (°C) -40 to 85 |
| Package qty | Carrier 3,000 | LARGE T&R |
Features for the DS160PR810
- Eight channel linear equalizer supporting PCIe 4.0 up to 16 Gbps
- Protocol agnostic linear redriver supporting many high speed interface including UPI, DisplayPort, SAS, SATA, XFI
- Provides equalization to handle up to 42 dB of PCIe 4.0 channels
- CTLE boosts up to 18 dB at 8 GHz
- Ultra-low latency of 90 ps
- Low additive random jitter of 70 fs with PRBS data
- Single 3.3 V supply
- Low active power of 107 mW/channel
- No heat sink required
- Pin-strap, SMBus/I2C or EEPROM programming
- Automatic receiver detection for PCIe use cases
- Seamless support for PCIe link training
- Support for x4, x8, x16 PCIe bus width with one or multiple DS160PR810
- Industrial temperature range of –40°C to 85°C
- 5.5 mm × 10 mm, 64-pin WQFN package
Description for the DS160PR810
The DS160PR810 is an eight channel low-power high-performance linear redriver designed to support PCIe 4.0 and Ultra Path Interface (UPI) 2.0 up to 16 Gbps. The device is a protocol agnostic linear redriver that can operate for many differential interfaces.
The DS160PR810 receivers deploy continuous time linear equalizers (CTLE) to provide a high-frequency boost. The equalizer can open an input eye that is completely closed due to inter-symbol interference (ISI) induced by an interconnect medium, such as PCB traces and cables. The linear redriver along with the passive channel as a whole get link trained for best transmit and receive equalization settings resulting in best electrical link and lowest possible latency. Low channel-channel cross-talk, low additive jitter and excellent return loss allows the device to become almost a passive element in the link. The devices has internal linear voltage regulator to provide clean power supply for high speed datapaths that provides high immunity to any supply noise on the board.
The DS160PR810 implements high speed testing during production for reliable high volume manufacturing. The device also has low AC and DC gain variation providing consistant equalization in high volume platform deployment.