IP Catalog > Wireless IP Cores

Wireless IP Cores

Wireless IP cores are specialized hardware modules designed to provide efficient and reliable wireless communication capabilities for a wide range of applications. These cores enable the integration of wireless standards such as Wi-Fi, Bluetooth, Zigbee, LTE, and 5G into embedded systems and devices, streamlining the development of connected solutions.

Explore our vast directory of Wireless IP cores below.

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Search (327)
Compare 327 Wireless IP Cores from 79 vendors (1 - 10)
  • NTN System Test Bench
    • Allows end-to-end testing of NB-IoT NTN system in lab environment.
    • supports 3GPP® Release 17 and 18 standards.
    • supports LEO transparent or regenerative modes of operation.
    • multiple-instancing and virtualisation to simulate UE community.
    Block Diagram -- NTN System Test Bench
  • NTN eNodeB System Test Bench
    • Allows end-to-end testing of NB-IoT NTN system in lab environment.
    • supports 3GPP® Release 17 and 18 standards.
    • supports LEO transparent or regenerative modes of operation.
    • multiple-instancing and virtualisation to simulate UE community.
    Block Diagram -- NTN eNodeB System Test Bench
  • Bluetooth Dual Mode v5.4 / IEEE 15.4 PHY/RF IP in GF 22nm (Silicon Proven)
    • Bluetooth v5.4 Dual-Mode RF IP for Universal BT Audio Streaming
    • Flexible modem compatible with Bluetooth, 802.15.4-2011, and other modulations
    • Supports 3rd party Link Layer & Protocol Stack SW
    • Low Power Modes of Operation:
    Block Diagram -- Bluetooth Dual Mode v5.4 / IEEE 15.4 PHY/RF IP in GF 22nm (Silicon Proven)
  • Wi-Fi 802.11 ax/Wi-Fi 6 /Bluetooth LE v5.4/15.4-2.4GHz RF Transceiver IP for IOT Application in TSMC22 ULL
    • Metal Layer- 1P7M, 4X1Z1U
    • BW support for 20/ 40MHz
    • Supports 256 QAM (quadrature amplitude modulation)
    • Max Tx output power: +20dBm
    Block Diagram -- Wi-Fi 802.11 ax/Wi-Fi 6 /Bluetooth LE v5.4/15.4-2.4GHz RF Transceiver IP for IOT Application in TSMC22 ULL
  • Bluetooth Dual Mode v4.2 RF Transceiver IP
    • TSMC40nm
    • High Volume Silicon Proven
    • Extracted from Design Data Base of production chip
    • Integrated balun
    Block Diagram -- Bluetooth Dual Mode v4.2 RF Transceiver IP
  • K-Best MIMO 4×4 Decoder
    • Fixed Depth K-Best Decoder (K=16)
    • Achieves close-to ML BER performance
    Block Diagram -- K-Best MIMO 4×4 Decoder
  • K-Best MIMO 3×3 Decoder
    • Fixed Depth K-Best Decoder (K=16)
    • Achieves close-to ML BER performance
    • Supports three streams with different QAM (from BPSK to 64 QAM)
    • Supports square and non-square QAM
    • Supports OFDM based systems with different Space Time Coding (STC)
    Block Diagram -- K-Best MIMO 3×3 Decoder
  • Zigbee Transceiver PHY
    • Low power transceiver PHY IP for ZigBee applications, compliant with IEEE 802.15.4 standard.
    • Efficient demodulator with frame synchronization and frequency offset compensation
    • Supports 2 MHz IF input (reconfigurable on request)
    • Offset-QPSK (OQPSK)
    Block Diagram -- Zigbee Transceiver PHY
  • NB-IoT (LTE Cat NB1) Transceiver
    • The NB-IoT (LTE Cat NB1) Transceiver is built to comply with the Release 13 standard from 3GPP. It can also operate in a Release-14-compliant mode.
    • Both the transmitter and the receiver offer performances that meets or exceeds the 3GPP specifications with comfortable margin.
    Block Diagram -- NB-IoT (LTE Cat NB1) Transceiver
  • HaLow 802.11ah Transceiver for IoT
    • The 802.11ah HaLow Transceiver meets the bandwidth and power consumption requirements of a new generation of IoT and mobile devices, where battery life and extended range are prerequisites for successful deployment.
    • It meets the IEEE 802.11ah standard, known as Wi-Fi HaLow™.
    Block Diagram -- HaLow 802.11ah Transceiver for IoT
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