IP Catalog > Foundries > TSMC > Analog IP

Analog IP for TSMC

Welcome to the ultimate Analog IP for TSMC hub! Explore our vast directory of Analog IP for TSMC
All offers in Analog IP for TSMC
Filter
Filter

Login required.

Sign in

Login required.

Sign in

Search (1,929)
Compare 1,929 Analog IP for TSMC from 58 vendors (1 - 10)
  • 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.
    • It integrates X+Y transmitter channels on the same die and its low power makes it especially suitable for use in high-throughput modular digital Phased-Array Antenna products for mobile/tethered satellite communication applications.
    Block Diagram -- Ku-Band Phased Array Tx-FE in TSMC 180nm RF
  • 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.
    • It integrates X+Y receiver channels on the same die and its low noise figure and wide baseband bandwidth makes it especially suitable for use in high-throughput modular digital Phased-Array Antenna products for mobile/tethered satellite communication applications.
    Block Diagram -- Ku-Band Phased Array Rx-FE in TSMC 180nm RF
  • 12-bit 40nm 1.1V 80MHz Asynchronous-SAR ADC
    • The TRV101TSM40LP IP is a 1.1V low-power low-silicon-area 12-bit 80MHz Asynchronous-SAR ADC implemented in TSMC Low-Power 40nm CMOS process technology.
    • Its 40MHz Nyquist bandwidth makes it especially suitable for use in carrier-aggregated wireless communication integrated circuit subsystems (LTE, WiFi, WiMAX etc).
    Block Diagram -- 12-bit 40nm 1.1V 80MHz Asynchronous-SAR ADC
  • Crystal Oscillators
    • The crystal oscillator macros are available in a wide range of industry-standard quartz crystals and MEMS resonators operating in the fundamental mode in the 32 kHz to 80 MHz range.
    • These oscillators, which are both power and area efficient, have a programmable transconductance to allow users to find the optimal balance between jitter and power consumption.
    Block Diagram -- Crystal Oscillators
  • Automotive Grade PVT Sensor on TSMC CLN16FFC
    • The PVT Sensor is a highly integrated macro for monitoring process, voltage, and temperature variation on-chip, allowing very high precision even in untrimmed usage.
    • It consumes very little power even in operational mode, and leakage power only when temperature measurement is complete.
    • An additional voltage sample mode is included allowing for supply voltage monitoring, and process monitor mode to assess transistor performance
    Block Diagram -- Automotive Grade PVT Sensor on TSMC CLN16FFC
  • Core Powered PVT Sensor on TSMC CLN4P
    • The Core Powered PVT Sensor is an easy to integrate macro, requiring no analog power supply, and can be placed anywhere on a chip.
    • This highly integrated macro monitors process, voltage, and temperature variation on-chip, allowing very high precision even in untrimmed usage.
    • It consumes very little power even in operational mode, and leakage power only when measurement is complete.
    Block Diagram -- Core Powered PVT Sensor on TSMC CLN4P
  • Core Powered PVT Sensor on TSMC CLN5
    • The Core Powered PVT Sensor is an easy to integrate macro, requiring no analog power supply, and can be placed anywhere on a chip.
    • This highly integrated macro monitors process, voltage, and temperature variation on-chip, allowing very high precision even in untrimmed usage.
    • It consumes very little power even in operational mode, and leakage power only when measurement is complete.
    Block Diagram -- Core Powered PVT Sensor on TSMC CLN5
  • Core Powered PVT Sensor on TSMC CLN5A
    • The Core Powered PVT Sensor is an easy to integrate macro, requiring no analog power supply, and can be placed anywhere on a chip.
    • This highly integrated macro monitors process, voltage, and temperature variation on-chip, allowing very high precision even in untrimmed usage.
    Block Diagram -- Core Powered PVT Sensor on TSMC CLN5A
  • PVT Sensor on TSMC CLN2P
    • The PVT Sensor is a highly integrated macro for monitoring process, voltage, and temperature variation on-chip, allowing very high precision even in untrimmed usage.
    • It consumes very little power even in operational mode, and leakage power only when temperature measurement is complete.
    Block Diagram -- PVT Sensor on TSMC CLN2P
  • Core Powered Wide Range Programmable Integer PLL on TSMC CLN2P
    • Electrically Programmable PLL with Fractional-N divide and Spread Spectrum Clock Generation
    • Entirely core voltage powered, needs no analog supply voltage
    • Wide Ranges of Input and Output Frequency for diverse clocking needs
    • Very fine precision: near 1 part per billion resolution
    Block Diagram -- Core Powered Wide Range Programmable Integer PLL on TSMC CLN2P
×
Semiconductor IP