Texas Instruments PGA855 Product Info

Parameters

PGA/VGA	PGA
Number of channels	1
Vs (min) (V)	8
Vs (max) (V)	36
Input type	Differential
Output type	Differential
Input offset drift (±) (typ) (µV/°C)	0.3
Interface type	GPIO
BW at Acl (MHz)	10
Acl, min spec gain (V/V)	0.125
Gain (max) (dB)	24
Architecture	Bipolar
Features	Fully Differential, Overvoltage protection, Super-beta
Vos (offset voltage at 25°C) (typ) (mV)	0.07
Input voltage noise (typ) (µV√Hz)	0.0078
Slew rate (typ) (V/µs)	35
Iq per channel (typ) (mA)	5.3
Gain error (typ) (%)	0.02
Gain drift (max) (ppm/°C)	2
Rating	Catalog
Operating temperature range (°C)	-40 to 125

Package

VQFN (RGT)-16-9 mm² 3 x 3

Features

Eight pin-programmable binary gains
- G (V/V) = ⅛, ¼, ½, 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

Eight pin-programmable binary gains
- G (V/V) = ⅛, ¼, ½, 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

Description

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 power-supply voltages.

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 power-supply voltages.

ELECTRONIC COMPONENTS
All In One Distributor

PGA855

Low-noise, wide-bandwidth, fully-differential-output programmable-gain instrumentation amplifier

Texas Instruments PGA855 Product Info

Parameters

Package

Features

Description

SUBMITTED SUCCESSFULLY！

ELECTRONIC COMPONENTS All In One Distributor

PGA855

Low-noise, wide-bandwidth, fully-differential-output programmable-gain instrumentation amplifier

Texas Instruments PGA855 Product Info

Parameters

Package

Features

Description

SUBMITTED SUCCESSFULLY！

ELECTRONIC COMPONENTS
All In One Distributor