Datasheet

AD736

REV. C

–5–

Typical Characteristics–

Figure 10. Error vs. RMS Input

Voltage (Pin 2), Output Buffer Off-

set Is Adjusted To Zero

Figure 13. Pin 2 Input Bias Current

vs. Supply Voltage

CALCULATING SETTLING TIME USING FIGURE 14

The graph of Figure 14 may be used to closely approximate the

time required for the AD736 to settle when its input level is re-

duced in amplitude. The net time required for the rms converter

to settle will be the difference between two times extracted from

the graph – the initial time minus the final settling time. As an

example, consider the following conditions: a 33 µF averaging

capacitor, an initial rms input level of 100 mV and a final (re-

duced) input level of 1 mV. From Figure 14, the initial settling

time (where the 100 mV line intersects the 33 µF line) is around

80 ms.

The settling time corresponding to the new or final input level

of 1 mV is approximately 8 seconds. Therefore, the net time for

the circuit to settle to its new value will be 8 seconds minus

80 ms which is 7.92 seconds. Note that, because of the smooth

decay characteristic inherent with a capacitor/diode combina-

tion, this is the total settling time to the final value (i.e., not the

settling time to 1%, 0.1%, etc., of final value). Also, this graph

provides the worst case settling time, since the AD736 will settle

very quickly with increasing input levels.

Figure 11. C

vs. Frequency for

Specified Averaging Error

Figure 14. Settling Time vs. RMS

Input Level for Various

Values of C

Figure 12. RMS Input Level vs.

Frequency for Specified Averag-

ing Error

Figure 15. Pin 2 Input Bias Cur-

rent vs. Temperature