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Datasheet Linear Technology LTC2054HV

ManufacturerLinear Technology

Single Micropower Zero-Drift Operational Amplifiers


  • Download » Datasheet PDF, 213 Kb, File uploaded: Jul 31, 2016
    LTC2054/LTC2055: Single/Dual Micropower Zero-Drift Operational Amplifiers Data Sheet
    Docket ↓
    Single/Dual Micropower
    Zero-Drift Operational Amplifiers
    DESCRIPTION FEATURES n n Supply Current 150μA (Max per Amplifier)
    Guaranteed from –40°C to 85°C
    Offset Voltage 3μV (Max, –40°C to 85°C)
    Offset Voltage Drift 30nV/°C (Max, –40°C to 85°C)
    Guaranteed Specifications from –55°C to 150°C
    Common Mode Input Range from V – to V + – 0.5V
    Output Swings Rail-to-Rail
    Voltage Gain: 140dB (Typ)
    PSRR and CMRR: 130dB (Typ)
    Input Bias Current: 1pA (Typ, 25В°C)
    Noise: 1.6ОјVP-P (0.01Hz to 10Hz Typ)
    Supply Operation:
    2.7V to 6V (LTC2054/LTC2055)
    2.7V to В±5.5V (LTC2054HV/LTC2055HV)
    Low Profile (1mm) TSOT-23, MS8 and
    3mm Г— 3mm Г— 0.8mm DFN Packages APPLICATIONS The LTCВ®2054/LTC2055 are low power, low noise, single/
    dual, zero-drift operational amplifiers with an extended
    temperature version (LTC2054MP) that has guaranteed
    specifications from –55°C to 150°C. They are available ...




Av Min Stable, V/V111111111111
Avol, dB808080808080808080808080
Common Mode Rejection Ratio, dB130130130130130130130130130130130130
Number of Channels111111111111
Cload, pF505050505050505050505050
Demo BoardsDC907A-B,DC417BDC907A-B,DC417BDC907A-B,DC417BDC907A-B,DC417BDC907A-B,DC417BDC907A-B,DC417BDC907A-B,DC417BDC907A-B,DC417BDC907A-B,DC417BDC907A-B,DC417BDC907A-B,DC417BDC907A-B,DC417B
Design ToolsLTspice FileLTspice FileLTspice FileLTspice FileLTspice FileLTspice FileLTspice FileLTspice FileLTspice FileLTspice FileLTspice FileLTspice File
Export Controlnononononononononononono
GBW, MHz0.
Ibias, nA0.0010.0010.0010.0010.0010.0010.0010.0010.0010.0010.0010.001
Ios, µA0.0000020.0000020.0000020.0000020.0000020.0000020.0000020.0000020.0000020.0000020.0000020.000002
Iout, mA444444444444
Isupply, mA0.
LF Enoise, µVPP1.
Operating Temperature Range, °C0 to 700 to 700 to 70-40 to 125-40 to 125-40 to 125-40 to 85-40 to 85-40 to 85-55 to 125-55 to 125-55 to 125
PSRR, dB130130130130130130130130130130130130
Rail-to-RailIn to V-,OutputIn to V-,OutputIn to V-,OutputIn to V-,OutputIn to V-,OutputIn to V-,OutputIn to V-,OutputIn to V-,OutputIn to V-,OutputIn to V-,OutputIn to V-,OutputIn to V-,Output
Rail-to-Rail Innononononononononononono
Rail-to-Rail Outyesyesyesyesyesyesyesyesyesyesyesyes
SR, V/µs0.
Single Supplyyesyesyesyesyesyesyesyesyesyesyesyes
Ts (0.1%), ns500050005000500050005000500050005000500050005000
Voh (from V+), V0.
Vol (from V-), V0.0020.0020.0020.0020.0020.0020.0020.0020.0020.0020.0020.002
Vos, mV0.00050.00050.00050.00050.00050.00050.00050.00050.00050.00050.00050.0005
Vos TC, µV/C0.
Vs Max, V111111111111111111111111
Vs Min, V2.

Eco Plan

Other Options

LTC2054 LTC2054 LTC2055 LTC2055 LTC2055HV

Design Notes

  • Download » Design Notes - DN355 PDF, 92 Kb, File published: Jan 7, 2005
    Op Amp Selection Guide for Optimum Noise Performance
    Docket ↓
    Op Amp Selection Guide for Optimum Noise Performance
    Design Note 355
    Glen Brisebois
    Linear Technology continues to add to its portfolio of
    low noise op amps. This is not because the physics of
    noise has changed, but because low noise specifications are being combined with new features such as
    rail-to-rail operation, shutdown, low voltage and low
    power operation. Op amp noise is dependent on input
    stage operating current, device type (bipolar or FET)
    and input circuitry.This selection guide is intended to
    help you identify basic noise tradeoffs and select the
    best op amps, new or old, for your application.
    Quantifying Resistor Thermal
    Noise and Op Amp Noise
    The key to understanding noise tradeoffs is the fact that
    resistors have noise. At room temperature, a resistor
    R has an RMS voltage noise density (or “spot noise”)
    of VR = 0.13в€љR noise in nV/в€љHz. So a 10k resistor has
    13nV/в€љHz and a 1M resistor has 130nV/в€љHz. Rigorously
    speaking, the noise density is given by the equation
    VR = √4kTR, where k is Boltzman’s constant and T is
    the temperature in degrees Kelvin. This dependency ...


  • Download » Articles - LT Journal PDF, 111 Kb, File published: Mar 25, 2005
    Low-Distortion Sine Wave Oscillator with Precise RMS Amplitude Stability
    Docket ↓
    DESIGN IDEAS Low-Distortion Sine Wave Oscillator
    with Precise RMS Amplitude Stability
    by Cheng-Wei Pei
    Many applications require a frequency
    and/or amplitude-stable sine wave
    as a reference for calibration or measurement. Low harmonic distortion is
    also required for meaningful results
    in applications such as LVDT signal
    conditioning, ADC testing, and, of
    course, harmonic distortion testing.
    Many sine wave generation techniques simply cannot achieve the low
    harmonic distortion and amplitude
    stability required of a precision sine
    wave reference. The technique shown
    here generates a sine wave with less
    than 0.003% distortion and 0.1%
    amplitude stability.
    Figure 1 shows a simple oscillator
    circuit consisting of a Wien bridge
    oscillator core and an amplitude
    stabilization loop. The LT1632 highspeed low-distortion amplifier and its
    positive feedback RC network generate
    the oscillations. The amplitude, and ...
  • Download » Articles - LT Journal PDF, 170 Kb, File published: May 1, 2004
    Zero-Drift Op Amps Improve Performance and Save Power
    Docket ↓
    DESIGN FEATURES Zero-Drift Op Amps Improve
    Performance and Save Power
    by Brendan Whelan
    Introduction Performance and Features
    Lowest Power Across
    All Temperatures
    The LTC2054 and LTC2055 feature
    unprecedented low power dissipation,
    150ВµA max over temp per amplifier
    for the LTC2055 and 175ВµA max over
    temp for the LTC2054. This is five to
    seven times lower power than similar
    amplifiers, and makes these amplifiers ideally suited for battery-powered
    applications such as remote sensing.
    System design is simplified since the
    supply current is nearly constant
    over temperature (Figure 1), unlike
    with other amplifiers that specify low
    room temperature supply current
    but allow much higher consumption
    at temperature extremes. Start-up
    6 250 without adding significantly to input
    offset. When used in an integrator ...

Moldel Line

Series: LTC2054HV (12)

Manufacturer's Classification

  • Signal Conditioning > Amplifiers > Operational Amplifiers (Op Amps) > Precision Amplifiers (Vos | Zero-Drift Amplifiers | Low Power Amplifiers (Is < 1mA/amp) | Low Bias Current Amplifiers (Ib < 100pA)
  • Space & Harsh Environment > Extended Temperature Plastic (H & MP) > Extended Temperature (H & MP) Amplifiers

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