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TI PGA855RGTR product image
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TI PGA855RGTRRoHS

Manufacturer
TI
MPN
PGA855RGTR
LCSC Part #
C19633573
Packaging
VQFN-16-EP(3x3)
Customer #
Key Attributes
Low-noise, wide-bandwidth, fully differential output programmable gain instrumentation amplifier
Datasheetpdf iconTI PGA855RGTR

Products Specifications

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TypeDescription
CategoryIntegrated Circuits (ICs)/Linear/Amplifiers/Special Purpose Amplifiers
ManufacturerTI
PackagingVQFN-16-EP(3x3)
Settling time-
Noise density(eN)-
Output TypeDifferential
FeaturesDigitally programmable gain;Overvoltage protection;Integrated ADC driver
Dual Supply-
Single Supply-
Gain Bandwidth Product-
Input Offset Voltage Drift(Vos TC)1uV/℃
Vos - Input Offset Voltage70uV
Maximum Power Supply Range (Vdd-Vss)-
Quiescent Current3mA
Input Offset Current Drift (Ios TC)-
Input Offset Current(Ios)-
Output Current45mA
Ib - Input Bias Current500pA
Common Mode Rejection Ratio (CMRR)64dB
Rail to RailRail-to-Rail Input
Slew Rate35V/us
Number of Channels1
Power Supply Rejection Ratio (PSRR)-
Operating Temperature-40℃~+125℃
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Additional Information

TypeDetails
Minimum1
Multiple1
Standard Packaging3000
Sales UnitPiece

Introduction

AI Translation

The PGA855 is a high-bandwidth programmable gain instrumentation amplifier with fully differential outputs. The PGA855 is equipped with eight binary gain settings, from an attenuating gain of 0.125 V/V to a maximum of 16 V/V, using three digital gain selection pins. The output common-mode voltage can be independently set using the VOCM pin. The PGA855 architecture is optimized to drive inputs of high-resolution, precision analog-to-digital converters (ADCs) with sampling rates up to 1 MSPS without the need for an additional ADC driver. The output-stage power supplies (LVSS/LVDD) are decoupled from the input stage and can be connected to power supplies of the ADC to protect the ADC or downstream device against overdrive damage. The super-beta input transistors offer an impressively low input bias current, which in turn provides a very low input current noise density of 0.3 pA/√Hz, making the PGA855 a versatile choice for virtually any sensor type. The low-noise current-feedback front-end architecture offers excellent gain flatness, even at high frequencies, making the PGA855 an excellent high-impedance sensor readout device. Integrated protection circuitry on the input pins handles overvoltages up to ±40 V beyond the powersupply voltages.

Features

AI Translation
  • Eight pin-programmable binary gains: G (V/V) = 1/8, 1/4, 1/2, 1, 2, 4, 8, and 16
  • Low gain error drift: 1 ppm/°C (max) at G = 1 V/V
  • Fully differential outputs
  • Independent output power-supply pins to allow for ADC input overdrive protection
  • Output common-mode control
  • Faster signal processing: Wide bandwidth: 10 MHz at all gains
  • High slew rate: 35 V/μs
  • Settling time: 500 ns to 0.01%, 950 ns to 0.0015%
  • Input stage noise: 7.8 nV/√Hz at G = 16 V/V
  • Filter option to achieve better SNR
  • Input overvoltage protection to ±40 V beyond supplies
  • Input-stage supply range: Single supply: 8 V to 36 V; Dual supply: ±4 V to ±18 V
  • Output-stage supply range: Single supply: 4.5 V to 36 V; Dual supply: ±2.25 V to ±18 V
  • Specified temperature range: -40°C to +125°C
  • Small package: 3-mm × 3-mm VQFN

Applications

AI Translation
  • Factory automation and control
  • Analog input module
  • Data acquisition (DAQ)
  • Test and measurement
  • Semiconductor test
In-Stock: 3,342
3,342 In stock, ships now
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QtyUnit PriceTotal Amount
1+$ 5.525$ 5.53
10+$ 4.7325$ 47.33
30+$ 4.2505$ 127.52
100+$ 3.8462$ 384.62
Standard Packaging3000/Full Reel
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