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TLV2365-Q1

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Automotive dual-channel 50MHz single-supply amplifier with rail-to-rail input and output

Product details

Architecture FET / CMOS Input, Voltage FB Number of channels 2 Total supply voltage (+5 V = 5, ±5 V = 10) (min) (V) 2.2 Total supply voltage (+5 V = 5, ±5 V = 10) (max) (V) 5.5 GBW (typ) (MHz) 50 BW at Acl (MHz) 80 Acl, min spec gain (V/V) 1 Slew rate (typ) (V/µs) 27 Vn at flatband (typ) (nV√Hz) 4.5 Vn at 1 kHz (typ) (nV√Hz) 4.5 Iq per channel (typ) (mA) 4.6 Vos (offset voltage at 25°C) (max) (mV) 1.9 Rail-to-rail In, Out Features Zero Crossover Rating Automotive Operating temperature range (°C) -40 to 125 CMRR (typ) (dB) 115 Input bias current (max) (pA) 20 Offset drift (typ) (µV/°C) 0.4 Iout (typ) (mA) 85
Architecture FET / CMOS Input, Voltage FB Number of channels 2 Total supply voltage (+5 V = 5, ±5 V = 10) (min) (V) 2.2 Total supply voltage (+5 V = 5, ±5 V = 10) (max) (V) 5.5 GBW (typ) (MHz) 50 BW at Acl (MHz) 80 Acl, min spec gain (V/V) 1 Slew rate (typ) (V/µs) 27 Vn at flatband (typ) (nV√Hz) 4.5 Vn at 1 kHz (typ) (nV√Hz) 4.5 Iq per channel (typ) (mA) 4.6 Vos (offset voltage at 25°C) (max) (mV) 1.9 Rail-to-rail In, Out Features Zero Crossover Rating Automotive Operating temperature range (°C) -40 to 125 CMRR (typ) (dB) 115 Input bias current (max) (pA) 20 Offset drift (typ) (µV/°C) 0.4 Iout (typ) (mA) 85
SOIC (D) 8 29.4 mm² 4.9 x 6
  • AEC-Q100 qualified
    • Temperature grade 1: –40°C to +125°C
  • Gain bandwidth: 50MHz
  • Zero-crossover distortion topology:
    • CMRR: 115dB (typical)
    • Rail-to-rail input and output
      • Input 100mV beyond supply rail
  • Noise: 4.5nV/√Hz
  • Slew rate: 27V/µs
  • Fast settling: 0.2µs to 0.01%
  • Precision:
    • Offset drift: 2.6µV/°C (maximum)
    • Input bias current: 20pA (maximum)
  • Operating voltage: 2.2V to 5.5V
  • AEC-Q100 qualified
    • Temperature grade 1: –40°C to +125°C
  • Gain bandwidth: 50MHz
  • Zero-crossover distortion topology:
    • CMRR: 115dB (typical)
    • Rail-to-rail input and output
      • Input 100mV beyond supply rail
  • Noise: 4.5nV/√Hz
  • Slew rate: 27V/µs
  • Fast settling: 0.2µs to 0.01%
  • Precision:
    • Offset drift: 2.6µV/°C (maximum)
    • Input bias current: 20pA (maximum)
  • Operating voltage: 2.2V to 5.5V

The TLV365-Q1 and TLV2365-Q1 (TLVx365-Q1) devices are a family of zero-crossover, rail-to-rail input and output, CMOS operational amplifiers, optimized for low voltage and cost-sensitive applications. Low-noise (4.5nV/√Hz) and high-speed operation (50MHz gain bandwidth) make these devices an excellent choice for driving sampling analog-to-digital converters (ADCs) in applications such as low-side current sensing, audio, signal conditioning, and sensor amplification.

Special features include an excellent common-mode rejection ratio (CMRR), no input stage crossover distortion, high input impedance, and rail-to-rail input and output swing. The input common-mode range includes both the negative and positive supplies. The output voltage swings to within 12mV of the rails.

The TLVx365-Q1 are specified for operation from −40°C to +125°C.

The TLV365-Q1 and TLV2365-Q1 (TLVx365-Q1) devices are a family of zero-crossover, rail-to-rail input and output, CMOS operational amplifiers, optimized for low voltage and cost-sensitive applications. Low-noise (4.5nV/√Hz) and high-speed operation (50MHz gain bandwidth) make these devices an excellent choice for driving sampling analog-to-digital converters (ADCs) in applications such as low-side current sensing, audio, signal conditioning, and sensor amplification.

Special features include an excellent common-mode rejection ratio (CMRR), no input stage crossover distortion, high input impedance, and rail-to-rail input and output swing. The input common-mode range includes both the negative and positive supplies. The output voltage swings to within 12mV of the rails.

The TLVx365-Q1 are specified for operation from −40°C to +125°C.

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* Data sheet TLVx365-Q1 Automotive, 50MHz, Zero-Crossover, Low-Distortion, High-CMRR, RRI/O, Single-Supply Operational Amplifiers datasheet (Rev. B) PDF | HTML 18 Sep 2024

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