Redpine offers high performance and low cost chipsets for 802.11abgn Wi-Fi, dual-mode BT 4.0, and Zigbee. These chipsets incorporate and proprietary ultra low power multi-threaded layer-2 processor for efficient protocol handling, high performance MAC and Baseband, and advanced CMOS dual-band RF and PA.

Redpine’s chipset solutions are ideal for cost efficient, high volume applications offering systems developers wireless high performance and ultra low power wireless connectivity.

M2MCombo RS9113

M2MCombo RS9113 is Redpine Signals’ ultra-low-power, single spatial stream, dual-band 802.11n + BT4.0 + ZigBee® Convergence SoC. The RS9113 chipset provides low-cost CMOS integration of a multi-threaded MAC processor, baseband digital signal processing, analog front-end, crystal oscillator, calibration OTP and coupled with a dual-band RF transceiver and dual-band high-power amplifiers provides a cost-effective solution targeting low-power and high QoS wireless applications.

LiteFi® RS9110

Redpine’s Lite-Fi® family of ultra low power Wi-Fi® processors provides unprecedented power profiles for 802.11n. The RS9110 is Redpine’s third generation low power product addressing the mobile and portable markets

The RS9110 uses advanced system-level power management techniques and reduces the power BoM significantly. The RS9110 is packaged in FLGA.


  • Ultra-low-power, low-cost and high-throughput 1 Tx – 1 Rx Dual-band 802.11n + BT4.0 (Bluetooth LE dual-mode) + ZigBee (802.15.4-2006)
  • Data rates up to 150 Mbps using 1-Spatial Stream 802.11n MCS-7, 40MHz bandwidth mode for high user throughput
  • Hardware Assisted Radar-detection for compliance to FCC and ETSI norms, enabling usage of more channels in the 5GHz band
  • High performance Bluetooth receiver with -95dBm Rx sensitivity


  • Ultra low power 802.11abgn 1X1 MAC/BB processor with STBC support for VoWiFi enabled mobild handsets, consumer electronics and PNDs
  • Extensive, patented low-power techniques to minimize power consumption
  • Full throughput SDIO v1.2/2.0, SPI and EBI host interfaces
  • Zero host overhead architecture with proprietary processor core
  • Advanced 802.11e-based QoS support, including WMM and WMM-PS
  • Bluetooth co-existence support
  • Available in FLGA package