Voltage Reference IP

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Compare 126 Voltage Reference IP from 21 vendors (1 - 10)
  • Voltage & Current Reference Generator in TSMC 6/7nm FFC
    • The ODT-REF-6T is a reference current and voltage generator. This block includes a VREF/R circuit to create programmable voltages and currents.
    • ODT-REF-6T requires a constant 0.6V voltage input (ideally derived from a bandgap) in order to generate the required signals.
    Block Diagram -- Voltage & Current Reference Generator	 in TSMC 6/7nm FFC
  • High-performance reference current and voltage generator in 12nm CMOS
    • The ODT-REF-SV1P8-12nm is a highperformance reference current and voltage generator.
    • The block incorporates a proprietary architecture to achieve high power supply rejection across an ultra-wide bandwidth, which is needed for high speed data converter applications.
    Block Diagram -- High-performance reference current and voltage generator in 12nm CMOS
  • High-performance reference current and voltage generator in GF 22 FDX
    • The ODT-REF-GF22FDX-SV1P8 is a highperformance reference current and voltage generator.
    • The block incorporates a proprietary architecture to achieve high power supply rejection across an ultra-wide bandwidth, which is needed for high-speed data converter applications.
    Block Diagram -- High-performance reference current and voltage generator in GF 22 FDX
  • 1.8V programmable voltage and current reference on TSMC 16nm FFC
    • The ODT-REF-16FFCT-SV1P8 is a highperformance reference current and voltage generator.
    • The block incorporates a proprietary architecture to achieve high power supply rejection across an ultra-wide bandwidth, which is needed for high speed data converter applications.
    • ODT-REF-16FFCT-SV1P8 does not need any calibration or programming.
    Block Diagram -- 1.8V programmable voltage and current reference on TSMC 16nm FFC
  • High-performance reference current and voltage generator in TSMC 4nm CMOS
    • The ODT-REF-SV1P2_4nm is a high-performance reference current and voltage generator.
    • The block incorporates a proprietary architecture to achieve high power supply rejection across an ultra-wide bandwidth, which is needed for high-speed data converter applications.
    Block Diagram -- High-performance reference current and voltage generator in TSMC 4nm CMOS
  • Ultra-Low-Power Bandgap Voltage Reference in 40nm CMOS
    • 140nA supply current
    • Less than 40ppm/C temperature coefficient
    • - 40C to 125C operation
    Block Diagram -- Ultra-Low-Power Bandgap Voltage Reference in 40nm CMOS
  • Power and Clock Generation IP - GLOBALFOUNDRIES® 22FDX®
    • Tightly integrated power management platform with a soft-IP wrapper around Analog / Mixed-Signal hard macros which generate all supply voltages and clock signals needed to run highly efficient SoCs in GlobalFoundries® 22FDX®.
    • Running from only one supply voltage and reference clock, the IP generates its own internal supplies and references, and those needed to run the Racyics® ABX® Generator.
    Block Diagram -- Power and Clock Generation IP - GLOBALFOUNDRIES® 22FDX®
  • Bandgap Voltage Reference 500mV/1.14V High Precision
    • The WEA05114BG45G is a high precision band gap reference voltage that provides a 500 mV and a 1.14 V output from inputs between 1.8 V and 3.0 V
    • It is a Bipolar style Bandgap based on SOI Forward Biased Diodes
    • The SOI Diodes are not tied to the substrate, in this way the circuit simultaneously provides PTAT, CTAT and is constant with temperature currents
    • It is specified over the −40°C to +120°C temperature range.
    Block Diagram -- Bandgap Voltage Reference 500mV/1.14V High Precision
  • Bandgap Voltage Reference, 0.45 V Output, Low PPM/°C, TSMC N3P
    • TSMC 3nm FinFET process
    • Input voltage: 1.0 V +/-10%
    • Output voltage: 0.45 V
    • Output voltage variation: < 5 mV at 0°C to 100°C
    Block Diagram -- Bandgap Voltage Reference, 0.45 V Output, Low PPM/°C,  TSMC N3P
  • TSMC 180nm 5V Bandgap
    • 2.5V-5.5V operation.
    • 3σ 4% untrimmed voltage reference accuracy.
    • 2% variation over -40ºC to 125ºC after trimming.
    • 70dB low frequency PSRR.
    • Trimmed, temperature compensated, 10µA reference current outputs with 3% accuracy.
    • Trimmed IPTAT output currents can be provided.
    • Less than 8µV noise from 0.1Hz to 10KHz.
    Block Diagram -- TSMC 180nm 5V Bandgap
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