- Buyers Guide
Military Microwaves Supplement
CML Microcircuits, an innovator and provider of low-power semiconductors for global communications markets, has introduced a high performance integrated RF quadrature/low IF transceiver IC, which features an advanced image-reject up-conversion modulation system and flexible superheterodyne receiver.
The new CMX991 is designed to meet the global requirements of electronics designers, who are searching for a low cost integrated transceiver device, which offers consistently precise RF signal processing. Specifically tailored for flexible operation from 1 GHz right down to 100 MHz, the transceiver addresses an area that is not adequately covered by existing devices on the market.
CML’s new RF transceiver IC suites both narrowband and wideband wireless products – up to 2 MHz RF channels, including multi-mode analogue/digital terminals, digital software-defined radio (SDR) for portable, mobile and base station designs. Intended applications include APCO Project 25 (Phase 1 and 2), ETSI DMR (TS 102 361), general-purpose wireless data applications and satellite communication systems.
The CMX991 integrates the core functions to implement a high performance RF transceiver subsystem, with I/Q architecture capable of supporting multiple modulation types and bandwidth. Features include excellent intermodulation performance, on-chip 1st mixer, direct access to transmit and receive IF sections and a flexible selection of external components for multi-mode operation. A low IF output mode is supported in the receiver for designers using ‘Sample at IF’ techniques. The CMX991 provides maximum integration and minimum overall manufacturing BOM cost.
The CMX991 is available now with a quantity guide price of $10.00, operates at 3.3 V (1.8 V I/O) and comes in a 48-pin VQFN package. For designers wishing to experiment with the product, an evaluation kit (EV9910B) is readily available from CML.
Get access to premium content and e-newsletters by registering on the web site. You can also subscribe to Microwave Journal magazine.