The first stage of the application circuit consists of an OPA333 in a noninverting summing amplifier configuration and serves two purposes:
- To level-shift the ground-referenced signal to allow bidirectional current measurements while running off a unipolar supply. The voltage across the shunt resistor, VSHUNT, is level-shifted by a common-mode voltage, VCM, as shown in Figure 9-6. The level-shifted voltage, VINX, at the noninverting input, is given by Equation 5.
Equation 5. VINX = (VCM · R3 + VSHUNT · R4) / (R3 + R4)
- To amplify the level-shifted voltage (VINX). The OPA333 is configured in a noninverting gain configuration with the output voltage, VOUT, given by Equation 6.
Equation 6. VOUT = VINX · (1 + R2 / R1)
Using Equation 5 and Equation 6, VOUT is given as a function of VSHUNT and VCM by Equation 7.
Equation 7. VOUT = (VCM · R3 + VSHUNT · R4) / (R3 + R4) · (1 + R2 / R1)
Using Equation 7 the ADC differential input voltage, before the first-order RC filter, is given by Equation 8.
Equation 8. VOUT – VCM = VSHUNT · (1 + R2 / R1) / (1 + R4 / R3) + VCM · (R2 / R1 – R3 / R4) / (1 + R3 / R4)
If R1 = R4 and R2 = R3, Equation 8 is simplified to Equation 9.
Equation 9. VOUT – VCM = VSHUNT · (1 + R2 / R1) / (1 + R4 / R3)