IEEE 1588 Solution Reference Design
This IEEE 1588 solution demonstrates clock synchronization up to <50nSec between Master and Slave to reconstruct accurate synchronization signals for 5G networks.
The CL8040 is a high-performing, highly integrated Wi-Fi 6 (802.11ax) R2 single PCIe chip that delivers the best Wi-Fi network performance for its size by combining two Wi-Fi 6 radios into a single 11x11mm PCIe chip. The chip employs two concurrent dual-band Wi-Fi 6 radios with 4T4R architecture that can drive aggregated PHY/data link speeds up to 4.8Gbps. The two independent radios can function as an access point, client, AP/CLI, connectivity + dedicated spectrum intelligent engine.
CL8040 integrates dual MAC, dual PHY, analog and RFIC in a single package, including the required CPUs and memories to run more of the wireless LAN functions on-chip, eliminating the need for costly external memories. Interface to the host is over a dual-lane PCIe 3.0 interface.
The CL8040 is designed to support standard based features addressing security, quality of service and international regulation, as well as above-standard integrated value-add functionalities based on embedded and edge software technologies.
|
|
|
---|---|---|
Type | Title | Date |
Product Brief | PDF 378 KB | |
Guide | PDF 151 KB | |
2 items
|
This IEEE 1588 solution demonstrates clock synchronization up to <50nSec between Master and Slave to reconstruct accurate synchronization signals for 5G networks.
Schematic symbols, PCB footprints, and 3D CAD models from SamacSys can be found by clicking on products in the Product Options table. If a symbol or model isn't available, it can be requested directly from the website.
What You Need To Know About Wi-Fi 6/6E Tri-Band APs | Blog Post | Jun 15, 2022 | |
Considerations in Wi-Fi 6 AP Design | Blog Post | Jun 15, 2022 | |
News | Apr 6, 2022 | ||
Blog Post | Mar 28, 2022 | ||
Renesas Completes Acquisition of Celeno | News | Dec 21, 2021 | |
Renesas Acquires Celeno to Expand Connectivity Portfolio | News | Oct 28, 2021 | |
Blog Post | Sep 14, 2021 |