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AD843B Datenblatt(PDF) 11 Page - Analog Devices |
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AD843B Datenblatt(HTML) 11 Page - Analog Devices |
11 / 12 page AD843 REV. D –11– MEASURING AD843 SETTLING TIME Figure 28 shows the dynamic response of the AD843 while op- erating in the settling time test circuit of Figure 27. The input of the settling time fixture is driven by a flat-top pulse generator. The error signal output from A1, the AD843 under test, is am- plified by op amp A2 and then clamped by two high speed Schottky diodes. Figure 28. Settling Characteristics: +10 V to 0 V Step. Upper Trace: Amplified Error Voltage (0.01%/Div) Lower Trace: Output of AD843 Under Test (5 V/Div) The error signal is clamped to prevent it from greatly overload- ing the oscilloscope preamp. A Tektronix oscilloscope preamp type 7A26 was chosen because it will recover from the approxi- mately 0.4 volt overload, quickly enough to allow accurate mea- surement of the AD843’s 135 ns settling time. Amplifier A2 is a very high speed op amp; it provides a voltage gain of 10, provid- ing a total gain of 5 from the error signal to the oscilloscope input. A FAST PEAK DETECTOR CIRCUIT The peak detector circuit of Figure 29, can accurately capture the amplitude of input pulses as narrow as 200 ns and can hold their value with a droop rate of less than 20 µV/µs. This circuit will capture the peak value of positive polarity waveforms; to detect negative peaks, simply reverse the polarity of the two diodes. The high bandwidth and 200 V/ µs slew rate of amplifier A2, an AD843, allows the detector’s output to “keep up” with its input thus minimizing overshoot. The low (<1 nA) input current of the AD843 ensures that the droop rate is limited only by the reverse leakage of diode D2, which is typically <10 nA for the type shown. The low droop rate is apparent in Figure 30. The detector’s output (top trace) loses slightly over a volt of the 8 volt peak input value (bottom trace) in 75 ms, or a rate of approximately 16 µV/µs. Figure 30. Peak Detector Response to 125 Hz Pulse Train Figure 31. Peak Capture Time Amplifier A1, an AD847, can drive 680 pF hold capacitor, CP, fast enough to “catch-up” with the next peak in 100 ns and still settle to the new value in 250 ns, as illustrated in Figure 31. Reducing the value of capacitor CP to 100 pF will maximize the speed of this circuit at the expense of increased overshoot and droop. Since the AD847 can drive an arbitrarily large value of capacitance, CP can be increased to reduce droop, at the expense of response time. Figure 29. A Fast Peak Detector Circuit |
Ähnliche Teilenummer - AD843B |
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Ähnliche Beschreibung - AD843B |
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