Iris-030 Agile Software-Defined Radio – Iris® SDR is available for purchase, contact us for more details.
Iris-020 Agile Software-Defined Radio – Cost-efficient standalone Iris SDRs coming in 2019! Contact us for more details or subscribe to our mailing list for updates.
Iris-FE-01-Dev Wideband SDR TDD/FDD Front End – Broadband 50 MHz to 3.8 GHz development front end is available for purchase, contact us for more details.
Iris-FE-02-UHF 470-700 MHz SDR TDD Front End – High-powered filtered TV Whitespace front-end is available for purchase, contact us for more details.
Iris-FE-03-CBRS 2.5/3.5 GHz SDR TDD Front End – High-power filtered BRS/CBRS front end is available for purchase, contact us for more details.
Faros® Rural Broadband – Faros® rural broadband solution coming in 2019! Contact us for more details or subscribe to our mailing list for updates.
Iris-EXT-01-SFP RRH Extension – Adapter to connect a chain of Irises via SFP+ modules. It is available for purchase, contact us for more details.
Iris-EXT-02-SPC Spatial Diversity Spacer – Spacer board to enable direct attach antennas at lower bandwidths — available for purchase, contact us for more details.
Iris-EXT-04-BRK Breakout – Breakout board for test and development on Iris SDRs — available for purchase, contact us for more details.
Wideband UHF Radio Card (WURC) – The WURC by Skylark Wireless is a custom Software-Defined Radio (SDR) front-end designed to operate at high power within the UHF radio band, from 400-700 MHz and up to 1 Watt output power. Intended to enable development of prototype Television White Space (TVWS) systems, open source reference designs are available for a real-time IP communications stack with gain control and a MIMO-capable design flow using MATLAB..
WARPv3 Adaptor Board (WAB-1×1) – The WAB-1×1 by Skylark Wireless is a custom adaptor board designed to connect a single WURC module to a single Mango Communication WARPv3 kit. With example reference WARPv3 bitstream images for WARPv3 that enable a port of Mango Communication’s WARPLab as well as a port of version 0.96 of Mango’s 802.11 Reference Design, the WAB-1×1 enables a complete ready-to-go prototyping and testing system for high-powered UHF-band communications.
WARPv3 Adaptor Board 1×4 (WAB-1×4) – The WAB-1×4 by Skylark Wireless is a custom adaptor board designed to connect up to four WURC radio modules to a single Mango Communications WARPv3 kit. The WAB-1x4 provides improved clocking, reduced hardware costs, and up to four sample-synchronous high-power UHF radio streams for next-generation MIMO operation. With example open-source WARPLab reference projects, the WAB-1x4 is ready to integrate into your existing WARPLab design flow.
Experimental Wireless & Design Services. Skylark Wireless has been a leader in developing and testing new TVWS technologies and brings its expertise to the rural Wireless ISP (WISP) market. From innovative beamforming MIMO applications to spectrum sensing and real-time wireless protocols, Skylark Wireless provides a suite of open software-defined radio technologies to enable the development of new cognitive radio and TVWS applications. Built on open software and hardware developed in top research universities, the Wideband UHF Radio Card (WURC) from Skylark Wireless provides new analog radio capabilities not previously available in a similarly integrated package.
Skylark Wireless is also pleased to offer its agile Iris Software-Defined Radio (SDR) modules enabling low-cost, flexible RF performance with interchangeable front-end modules or custom designs available in quantity. We’ve done the platform development for you, so you can focus on your unique technology. Inquire how Skylark Wireless can help bring your project to completion on time with custom PCB design, manufacturing, and application implementation.
Custom PCB Design. We have years of experience in multi-layer RF PCB and system design with high-speed signals.
Fabrication. We’ve successfully brought multiple high-speed RF and digital designs through manufacturing.
Board Bring-up & Calibration. Experts in FPGA, SoC, and high-speed embedded design, we can bring that board to life, and document it all.