Product details

Number of channels (#) 2 Total supply voltage (Max) (+5V=5, +/-5V=10) 5.5 Total supply voltage (Min) (+5V=5, +/-5V=10) 1.7 Rail-to-rail In to V-, Out GBW (Typ) (MHz) 0.006 Slew rate (Typ) (V/us) 0.0015 Vos (offset voltage @ 25 C) (Max) (mV) 4.5 Iq per channel (Typ) (mA) 0.00032 Vn at 1 kHz (Typ) (nV/rtHz) 450 Rating Catalog Operating temperature range (C) -40 to 125 Offset drift (Typ) (uV/C) 1 Features Cost Optimized, EMI Hardened CMRR (Typ) (dB) 90 Output current (Typ) (mA) 4.7 Architecture CMOS
Number of channels (#) 2 Total supply voltage (Max) (+5V=5, +/-5V=10) 5.5 Total supply voltage (Min) (+5V=5, +/-5V=10) 1.7 Rail-to-rail In to V-, Out GBW (Typ) (MHz) 0.006 Slew rate (Typ) (V/us) 0.0015 Vos (offset voltage @ 25 C) (Max) (mV) 4.5 Iq per channel (Typ) (mA) 0.00032 Vn at 1 kHz (Typ) (nV/rtHz) 450 Rating Catalog Operating temperature range (C) -40 to 125 Offset drift (Typ) (uV/C) 1 Features Cost Optimized, EMI Hardened CMRR (Typ) (dB) 90 Output current (Typ) (mA) 4.7 Architecture CMOS
VSSOP (DGK) 8 15 mm² 3 x 4.9
  • For Cost-Optimized Systems
  • Nanopower Supply Current: 320 nA/channel
  • Offset Voltage: 4.5 mV (max)
  • Good TcVos: 1 µV/°C
  • Unity Gain-Bandwidth: 6 kHz
  • Unity-Gain Stable
  • Low Input Bias Current : 0.1pA
  • Wide Supply Range: 1.7 V to 5.5 V
  • Rail-to-Rail Output
  • No Output Reversals
  • EMI Protection
  • Temperature Range: –40°C to 125°C
  • Industry Standard Packages:
    • Single in 5-pin SOT-23
    • Dual in 8-pin VSSOP
  • For Cost-Optimized Systems
  • Nanopower Supply Current: 320 nA/channel
  • Offset Voltage: 4.5 mV (max)
  • Good TcVos: 1 µV/°C
  • Unity Gain-Bandwidth: 6 kHz
  • Unity-Gain Stable
  • Low Input Bias Current : 0.1pA
  • Wide Supply Range: 1.7 V to 5.5 V
  • Rail-to-Rail Output
  • No Output Reversals
  • EMI Protection
  • Temperature Range: –40°C to 125°C
  • Industry Standard Packages:
    • Single in 5-pin SOT-23
    • Dual in 8-pin VSSOP

The TLV8801 (single) and TLV8802 (dual) family of ultra-low-power operational amplifiers are ideal for cost-optimized sensing applications in wireless and low power wired equipment. The TLV880x amplifiers minimize power consumption in equipment such as CO detectors, smoke detectors and motion detecting security systems (like PIR motion sensing) where operational battery-life is critical. They also have a carefully designed CMOS input stage enabling very low, femto-amp bias currents, thereby reducing IBIAS and IOS errors that would otherwise impact sensitive applications like transimpedance amplifier (TIA) configurations with megaohm feedback resistors, and high source impedance sensing applications. Additionally, built-in EMI protection reduces sensitivity to unwanted RF signals from sources like mobile phones, WiFi, radio transmitters and tag readers.

The TLV8801 (single) and TLV8802 (dual) channel versions are available in industry standard 5-pin SOT-23 and 8-pin VSSOP packages respectively.

The TLV8801 (single) and TLV8802 (dual) family of ultra-low-power operational amplifiers are ideal for cost-optimized sensing applications in wireless and low power wired equipment. The TLV880x amplifiers minimize power consumption in equipment such as CO detectors, smoke detectors and motion detecting security systems (like PIR motion sensing) where operational battery-life is critical. They also have a carefully designed CMOS input stage enabling very low, femto-amp bias currents, thereby reducing IBIAS and IOS errors that would otherwise impact sensitive applications like transimpedance amplifier (TIA) configurations with megaohm feedback resistors, and high source impedance sensing applications. Additionally, built-in EMI protection reduces sensitivity to unwanted RF signals from sources like mobile phones, WiFi, radio transmitters and tag readers.

The TLV8801 (single) and TLV8802 (dual) channel versions are available in industry standard 5-pin SOT-23 and 8-pin VSSOP packages respectively.

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Technical documentation

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Type Title Date
* Data sheet TLV8801/TLV8802 320 nA Nanopower Operational Amplifiers for Cost-Optimized Systems datasheet (Rev. A) PDF | HTML 17 Nov 2016
Technical article Designing with low-power op amps, part 4: Stability concerns and solutions 08 Mar 2022
Technical article Designing with low-power op amps, part 1: Power-saving techniques for op-amp circuits 02 Feb 2021
White paper How to optimize building and home automation designs for energy efficiency 08 Apr 2020
Technical article What is an op amp? 21 Jan 2020
Technical article How to lay out a PCB for high-performance, low-side current-sensing designs 06 Feb 2018
Application note Nano-Power Battery Monitoring in Personal Electronics 08 Dec 2017
E-book The Signal e-book: A compendium of blog posts on op amp design topics 28 Mar 2017

Design & development

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PSPICE-FOR-TI — PSpice® for TI design and simulation tool

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