The Renesas family of RF mixers featuring patented Zero-Distortion™ technology dramatically improve the maximum signal levels (IM3 tones) that a receiver can withstand at a desired Signal to Noise Ratio (SNR.) These devices are scalable, so alternately, one can run the devices in modes that reduce power consumption significantly while still maintaining high linearity.

  • Reduces Third Order Intermodulation (IM3) distortion by up to 20 dB (> 90%) vs. competing mixers
  • Improves coverage in underutilized spectrum plagued by adjacent interferers
  • Simplifies the RF frontend and software design by minimizing the need for RF gain control

Renesas offers active mixers with excellent out-of-band spur performance which eases pre-filtering requirements. RF and LO baluns are internal allowing for simple 50 ohm interfaces. The IF ports are configured as differential 200 ohms to drive pre-ADC filters with low even-order distortion. Solutions are available in both dual mixer and single mixer configurations.

2 x 2 and 3 x 3 spurs: These in-band spurs cannot be filtered so the RF mixer must provide all of the rejection for the system. The Renesas family of RF mixers provide very high rejection (> 70 dB) to these critical spurs.

Robust power down modes: The Renesas active mixers can be fully turned on and off in < 200 nsec, which is ideal for modern TDD systems. Furthermore, the LO port impedance is practically unchanged in the off state which minimizes the potential for synthesizer pulling.

Scalability: In addition to multiple modes of operation, all Renesas mixers include external resistor options for further down-scaling the power consumption vs. linearity. Application notes that describe how to reduce the current further and still maintain > 32 dBm OIP3 are available on the product pages. Browse the Renesas single and dual mixer portfolio in the table below.


Title language Type Format File Size Date
User Guides & Manuals
RF Product Selection Guide Guide PDF 1015 KB
RF Mixer Family Product Brief PDF 1.12 MB

printNews & Additional Resources

Type Date
Working to Achieve 5G Expectations Blog Post Dec 4, 2018