This is a Digital Ultra Precision Instrumentation Amplifier Circuit Diagram. This schema will run from a single 5 V power supply. The LTC1043 switched-capacitor instrumentation building block provides a differential-to-single-ended transition using a flying-capacitor technique. Cl alternately samples the differential input signal and charges ground referred C2 with this information.
Precision Instrumentation Amplifier Circuit Diagram
The LTC1052 measures the voltage across C2 and provides the schema`s output. Gain is set by the ratio of the amplifier`s feedback resistors. Normally, the LTC1052`s output stage can swing within 15 mV of ground. If operation all the way to zero is required, the schema shown in dashed lines can be employed. This configuration uses the remaining LTC1043 section to generate a small negative voltage by inverting the diode drop.
This potential drives the 10-KO, pull-down resistor, forcing the LTC1052`s output into class A operation for voltages near zero. Note that the schema`s switched-capacitor front-end forms a sampled-data filter allowing the common-mode rejection ratio to remain high, even with increasing frequency. The 0.0047uF unit sets front-end switching frequency at a few hundred Hz.
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