INA827AIDGK Texas Instruments, Instrumentation Amplifier, 150μV Offset 600kHz, R-RO, 2.7 → 36 V, 8-Pin VSSOP

RS Stock No.: 813-6560Brand: Texas InstrumentsManufacturers Part No.: INA827AIDGK
brand-logo
View all in Instrumentation Amplifiers

Technical documents

Specifications

Power Supply Type

Dual, Single

Package Type

VSSOP

Mounting Type

Surface Mount

Typical Single Supply Voltage

2.7 → 36 V

Pin Count

8

Typical Dual Supply Voltage

±1.35 → ±18V

Rail to Rail

Rail to Rail Output

Maximum Input Offset Voltage

150µV

Minimum Operating Temperature

-40 °C

Maximum Operating Temperature

+125 °C

Minimum CMRR

88dB

Typical Gain Bandwidth Product

600kHz

Maximum Supply Current

200 μA

Length

3.1mm

Height

0.95mm

Width

3.1mm

Dimensions

3.1 x 3.1 x 0.95mm

Product details

Instrumentation Amplifiers, Single, Texas Instruments

The Instrumentation Amplifier ICs amplify the difference between two input signal voltages, while rejecting any signals that are common to both inputs. The DC precision and gain accuracy is maintained within a noisy environment, and also where large common-mode signals (AC power line frequency) are present.

Instrumentation Amplifiers, Texas Instruments

Instrumentation amplifiers are composite differential amplifier blocks generally incorporating a classic three operational amplifier configuration. They provide high input impedance, very high common-mode rejection and allow differential gain to be accurately set via internal or external resistors. Differential amplifiers offer low DC offset and drift coupled with high open loop gain and low noise and are frequently used in high-precision test and measurement applications and electrically noisy environments.

Stock information temporarily unavailable.

Please check again later.

Stock information temporarily unavailable.

₪ 24.598

Each (In a Pack of 5) (ex VAT)

₪ 28.78

Each (In a Pack of 5) (inc VAT)

INA827AIDGK Texas Instruments, Instrumentation Amplifier, 150μV Offset 600kHz, R-RO, 2.7 → 36 V, 8-Pin VSSOP
Select packaging type

₪ 24.598

Each (In a Pack of 5) (ex VAT)

₪ 28.78

Each (In a Pack of 5) (inc VAT)

INA827AIDGK Texas Instruments, Instrumentation Amplifier, 150μV Offset 600kHz, R-RO, 2.7 → 36 V, 8-Pin VSSOP
Stock information temporarily unavailable.
Select packaging type

Buy in bulk

quantityUnit pricePer Pack
5 - 35₪ 24.598₪ 122.99
40+₪ 22.486₪ 112.43

Ideate. Create. Collaborate

JOIN FOR FREE

No hidden fees!

design-spark
design-spark
  • Download and use our DesignSpark software for your PCB and 3D Mechanical designs
  • View and contribute website content and forums
  • Download 3D Models, Schematics and Footprints from more than a million products
Click here to find out more

Technical documents

Specifications

Power Supply Type

Dual, Single

Package Type

VSSOP

Mounting Type

Surface Mount

Typical Single Supply Voltage

2.7 → 36 V

Pin Count

8

Typical Dual Supply Voltage

±1.35 → ±18V

Rail to Rail

Rail to Rail Output

Maximum Input Offset Voltage

150µV

Minimum Operating Temperature

-40 °C

Maximum Operating Temperature

+125 °C

Minimum CMRR

88dB

Typical Gain Bandwidth Product

600kHz

Maximum Supply Current

200 μA

Length

3.1mm

Height

0.95mm

Width

3.1mm

Dimensions

3.1 x 3.1 x 0.95mm

Product details

Instrumentation Amplifiers, Single, Texas Instruments

The Instrumentation Amplifier ICs amplify the difference between two input signal voltages, while rejecting any signals that are common to both inputs. The DC precision and gain accuracy is maintained within a noisy environment, and also where large common-mode signals (AC power line frequency) are present.

Instrumentation Amplifiers, Texas Instruments

Instrumentation amplifiers are composite differential amplifier blocks generally incorporating a classic three operational amplifier configuration. They provide high input impedance, very high common-mode rejection and allow differential gain to be accurately set via internal or external resistors. Differential amplifiers offer low DC offset and drift coupled with high open loop gain and low noise and are frequently used in high-precision test and measurement applications and electrically noisy environments.