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OPA171-Q1_15 Datasheet, PDF (19/37 Pages) Texas Instruments – OPAx171-Q1 36-V, Single-Supply, General-Purpose Operational Amplifier
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OPA171-Q1, OPA2171-Q1, OPA4171-Q1
SBOS556C – JUNE 2011 – REVISED DECEMBER 2015
9.2 Typical Application
9.2.1 Capacitive Load Drive Solution Using an Isolation Resistor
The OPA171-Q1 device can be used capacitive loads such as cable shields, reference buffers, MOSFET gates,
and diodes. The circuit uses an isolation resistor (RISO) to stabilize the output of an op amp. RISO modifies the
open loop gain of the system to ensure the circuit has sufficient phase margin.
+VS
RISO
VOUT
+
VIN ±
-VS
CLOAD
Figure 41. Unity-Gain Buffer with RISO Stability Compensation
9.2.1.1 Design Requirements
The design requirements are:
• Supply voltage: 30 V (±15 V)
• Capacitive loads: 100 pF, 1000 pF, 0.01 μF, 0.1 μF, and 1 μF
• Phase margin: 45° and 60°
9.2.1.2 Detailed Design Procedure
Figure 42 shows a unity-gain buffer driving a capacitive load. Equation 1 shows the transfer function for the
circuit in Figure 42. Not shown in Figure 42 is the open-loop output resistance of the op amp, Ro.
T(s) =
1 + CLOAD × RISO × s
1 + Ro + RISO × CLOAD × s
(1)
The transfer function in Equation 1 has a pole and a zero. The frequency of the pole (fp) is determined by (Ro +
RISO) and CLOAD. Components RISO and CLOAD determine the frequency of the zero (fz). A stable system is
obtained by selecting RISO such that the rate of closure (ROC) between the open-loop gain (AOL) and 1/β is 20
dB/decade. Figure 42 shows the concept. The 1/β curve for a unity-gain buffer is 0 dB.
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