Production Proven, Complex Semiconductor IP Cores

Semiconductor IP Cores

T2M WiFi 802.11ax+BLEv5.3+15.4, 2.4 GHz RF Transceiver IP for IoT

802.11ax+BLEv5.3+15.4, 2.4 GHz RF Transceiver IP for IoT

Description and Features

Fully compliant with 2.4GHz IEEE 802.11ax and Bluetooth standards, this WiFi 802.11 ax/Bluetooth LE v5.3/15.4-2.4GHz RF Transceiver IP is available in TSMC 22nm ULL for the development of Ultra-low power IoT (Internet of Things) connectivity chipsets. The IP integrates all functional blocks including PA, transmitter, receiver, Frac-N frequency synthesizer, PMU & Interfaces. The RF IP Core is optimized for ultra-low power and minimal die area for low-cost / low-power IoT applications such as wearables, logistics, smart homes, smart lighting, sensors, appliances, etc. Wi-Fi 802.11ax, also known as Wi-Fi 6, enhances higher throughput area and is a significant improvement over its predecessors in terms of range, throughput, and improved power efficiency. Wi-Fi ax handles client density more efficiently through a new channel-sharing capability that promises true multi-user communications on both the downlink and uplink. This WiFi ax/BLE/15.4 RF IP supports 20 and 40 MHz of Bandwidth with SISO architecture and can be scaled to higher MIMO configurations

  • BW support for 20/ 40MHz

  • Supports 256 QAM

  • Fully compliant with 2.4GHz IEEE 802.11ax standards

  • Process: TSMC22ULL, 1P7M, 4X1Z1U

  • Very small die size area

  • Operating temperature: 40˚C – 85˚C

  • Fully integrated transceiver

  • RX has a great dynamic range

  • Supports DPD

  • Supports dual-mode BT/BLE

  • Low phase-noise fractional-N frequency synthesizer

  • Dual supplies: 1V and 3.3V

  • Integrated PA and switch

  • Very low power consumption and EVM transmitter

  • Direct-conversion receiver architecture

  • Integrated 12-bit ADC/DAC

  • Self-calibrating gain/offset

  • Integrated LDOs

  • Easily scalable to other MIMO configurations


  • Source Code with rights to modify of Design Database

  • Schematics

  • Layout

  • Certification Certificates

  • KGD


  • Low power IoT application

  • Base Station

  • P2P communication