I’m using LT6370 as a gain of 100 bridge amplifier, very similar to the application shown on the front page of the datasheet. My circuit needs to operate over a wide temperature range, so offset drift was a key consideration when I picked LT6370.
LT6370
Recommended for New Designs
The LT6370 is a gain programmable, high precision instrumentation amplifier that delivers industry leading DC precision. This high precision enables smaller...
Datasheet
LT6370 on Analog.com
I’m using LT6370 as a gain of 100 bridge amplifier, very similar to the application shown on the front page of the datasheet. My circuit needs to operate over a wide temperature range, so offset drift was a key consideration when I picked LT6370.
LT6370 is an excellent choice for this application. Instrumentation amplifiers which use an external resistor to set their gain do so in conjunction with other resistors that are integrated inside the amplifier. The temperature coefficient of these internal resistors is unlikely to match that of the external resistor used to set the gain. The result is a gain drift, which you may be interpreting as an offset drift because you see the output moving with temperature. The max gain drift spec of the amplifier accounts for the internal resistors only and assumes ideal external resistors. In practice the TC of the external resistors is additive with the internal resistors and must be minimized through component selection. The error budget in the LT6370 datasheet for this application tabulates this error contribution, along with many others to aid in optimizing you design.
LT6370 is an excellent choice for this application. Instrumentation amplifiers which use an external resistor to set their gain do so in conjunction with other resistors that are integrated inside the amplifier. The temperature coefficient of these internal resistors is unlikely to match that of the external resistor used to set the gain. The result is a gain drift, which you may be interpreting as an offset drift because you see the output moving with temperature. The max gain drift spec of the amplifier accounts for the internal resistors only and assumes ideal external resistors. In practice the TC of the external resistors is additive with the internal resistors and must be minimized through component selection. The error budget in the LT6370 datasheet for this application tabulates this error contribution, along with many others to aid in optimizing you design.