Analog IP for TSMC
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1,929
Analog IP
for TSMC
from 58 vendors
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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.
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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.
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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).
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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.
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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
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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.
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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.
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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.
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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.
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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