MM5130 RF Switch Delivers Up to 10,000x Improvement in IP3 Linearity

Menlo Micro MM5130

Menlo Microsystems, Inc. (Menlo Micro), known for reinventing the electronic switch with its Ideal Switch™ technology, has announced a significant performance milestone that will drive breakthrough improvements in RF signal performance across multiple industries. According to Menlo Micro characterization tests, the new MM5130 Ideal Switch product, released to production last year and now shipping in volume, has achieved an linearity of greater than 95 dBm, enabling significant reductions in distortion for RF systems.

Menlo Microsystems - MM5130

Intermodulation distortion is a key industry metric in determining the linearity of an electronic switch. The third-order intercept (IP3) is the extrapolated point where the ideal linear performance converges with actual third-order distortion products generated by the nonlinearities inherent in the switch. This figure of merit is critical in determining how much distortion a switch or other component will introduce into an RF system, ultimately impacting the quality of the transmitted or received signal.

The MM5130 switch’s 95 dBm IP3 level delivers up to 10,000x improvement (about 20 dB to 40 dB) over existing RF electromechanical relays and solid-state switches. This ultra-high IP3 metric is traditionally reserved for only the highest performing RF mechanical switches and relays. When compared to solid-state devices, this level of IP3 is also difficult to achieve from currently available semiconductor processes on the market. Enhanced IP3 performance results in size, weight, power and cost (SWaP-C) improvements as power amplifiers and other RF components in the chain can be scaled back in power and reduced in size, ultimately enhancing overall system performance.

Menlo Microsystems - MM5130   Menlo Microsystems - MM5130   Menlo Microsystems - MM5130

These improvements make the MM5130 switch a very attractive solution for advanced RF systems including low-loss switched filter banks, tunable filters, step attenuators, RF and microwave switching in radio front-ends, and phase shifters for beam steering and phased array antennas used in 5G networks. The high linearity also makes the MM5130 ideal for ultra-compact switch matrices and RF test and measurement applications.

Menlo Micro is engaging with leading 5G infrastructure manufacturers, which have conveyed the necessity of IP3 linearities greater than 90 dBm and that these levels are difficult to achieve even with the most advanced high-power switch technologies. Similar IP3 requirements are in high demand for emerging military communications systems, and Menlo Micro is currently working with prime aerospace and defense customers to design in the MM5130 for advanced radios and other critical electronic systems.

The MM5130 switch outperforms electromechanical RF relays across all application-critical metrics and offers the size, reliability and speed benefits of a solid-state switch. The highest density SP4T switch on the market, the MM5130 is designed to handle power levels of up to 25 W (CW) while operating across a frequency range from DC up to 26 GHz with an insertion loss of 1.3 dB at 18 GHz and switching speeds less than 10 µs.

Functional Block Diagram
Functional Block Diagram.

Availability

The MM5130 switch is in volume production today and commercially available in a miniaturized wafer-level chip-scale package (WL-CSP).