INA126EA/250 Texas Instruments, Instrumentation Amplifier, 0.5mV Offset, 3 to 28, 8-Pin MSOP

Save 26% when you buy 50 units

Subtotal (1 unit)*

£2.81

(exc. VAT)

£3.37

(inc. VAT)

Add to Basket
Select or type quantity
In Stock
  • 636 unit(s) ready to ship
  • Plus 999,999,363 unit(s) shipping from 15 January 2026
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Units
Per unit
1 - 4£2.81
5 - 9£2.67
10 - 24£2.40
25 - 49£2.17
50 +£2.06

*price indicative

Packaging Options:
RS Stock No.:
661-2390
Mfr. Part No.:
INA126EA/250
Brand:
Texas Instruments
Find similar products by selecting one or more attributes.
Select all

Brand

Texas Instruments

Power Supply Type

Dual

Package Type

MSOP

Mounting Type

Surface Mount

Typical Single Supply Voltage

3 V, 5 V, 9 V, 12 V, 15 V, 18 V, 24 V, 28 V

Pin Count

8

Typical Dual Supply Voltage

±15V

Rail to Rail

No

Maximum Input Offset Voltage

0.5mV

Minimum Operating Temperature

-40 °C

Maximum Operating Temperature

+85 °C

Maximum Input Resistance

1GΩ

Minimum CMRR

74dB

Maximum Supply Current

0.2 mA

Width

3mm

Height

0.97mm

Dimensions

3 x 3 x 0.97mm

Length

3mm

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.

Related links