Explore RF analog IP cores for wireless, communications, and high-frequency mixed-signal semiconductor designs. This category covers analog and radio-frequency building blocks used in transceivers, front ends, clock generation, and signal conditioning paths.
RF analog IP plays a central role in wireless connectivity, cellular infrastructure, IoT, automotive radar, satellite systems, and broadband communications. Engineers often compare these IP blocks by frequency range, linearity, noise figure, gain, phase noise, power consumption, and process support.
Browse this category to find RF semiconductor IP cores that help accelerate integration of wireless and high-frequency analog functions into advanced SoCs and ASICs.
3-6 GHz to 0.075-3 GHz Quadrature former
055TSMC_QF_02 is a quadrature former generating a differential quadrature signal in frequency range from 0.075 GHz to 3GHz.
25 to 1750 MHz quadrature mixer
055_MIX_03 is a quadrature mixer that provides 25 - 1750 MHz operation frequency range without external matching components.
The quadrature former block is intended to generate quadrature signal in frequency range 25-1750MHz with phase correction ±4?.The…
25 to 500 MHz LNA with 0.8 dB NF and 19 dB gain
055TSMC_LNA_02 is an electronic amplifier intended to amplify a very low power signal without significantly degrading its SNR.
500-1750MHz LNA with 1dB NF and 19dB gain
055TSMC_LNA_01 is an electronic amplifier intended to amplify a very low power signal without significantly degrading its SNR.
Wideband LNA with a gain adjustment range from -22 to 20dB
180TSMC_LNA_14 is a IP block which includes a low-noise amplifier (LNA), gain control system and supply voltage controller.
The wakeup receiver offers a superior low cost wireless solution for applications with stringent battery life time requirement.
This device is designed to generate a quadrature heterodyne (oscillator) signal.
Device is used to transfer incoming useful intermediate-frequency signal (IF) to high frequencies (RF).
0.75-1.20 GHz quadrature former
The quadrature former with phase correction.
0.075 - 3 GHz quadrature former
This device is designed to generate a quadrature local oscillator signal.
0.1 to 150 MHz LNA with 5 dB NF and 57 dB gain
065TSMC_LNA_09 is used to amplify signal from the radio receiver input in band up to 150MHz.
VHF/ UHF/L (DVB-H, DMB and ISDB-T) RF Front-end
The NT1022 is multiband multistandard direct-conversion TV tuner designed for Mobile Digital TV applications.
Wi-Fi 7(be) RF Transceiver IP in TSMC 22nm
The Wi-Fi 7 (802.11be) RF transceiver IP, operating in 2.4GHz / 5GHz / 6GHz bands, is tailored for next-generation high-performan…
Ku-Band Phased Array Tx-FE in TSMC 180nm RF
The TRV801TSM180RF IP is a Ku-Band (14GHz to 14.5GHz) Transmitter (Tx) in TSMC 180nm RF CMOS process technology.
Ku-Band Phased Array Rx-FE in TSMC 180nm RF
The TRV501TSM180RF IP is a Ku-Band (10.7GHz to 12.75GHz) Receiver (Rx) RFFE TSMC 180nm RF CMOS process technology.
Narrow band - IoT Ultra-Low power UE RF Transceiver IP
This is an ultra-low-power Cat-M/NB1 UE RF Transceiver IP solution optimized for IoT and M2M applications.
Single-carrier RF transceiver on TSMC 22nm ULL
Single-carrier RF transceiver on TSMC 22nm ULL
Multi-carrier RF transceiver on TSMC 22nm ULL
Multi-carrier RF transceiver on TSMC 22nm ULL
Sub-GHz 433, 868, 915MHz IEEE 802.15.4 RF Transceiver IP
The ShortLink Sub-GHz Transceiver RF IP 'SL40LP_Sub1GHzTrx_1' is a mixed signal RF IP for the 433, 868 and 915MHz frequency bands.