AD637B AD [Analog Devices], AD637B Datasheet - Page 8

AD637B

Manufacturer Part Number

AD637B

Description

High Precision, Wide-Band RMS-to-DC Converter

Manufacturer

AD [Analog Devices]

Datasheet

1.AD637B.pdf (10 pages)

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AD637

Figure 13. Error vs. RMS Input Level for Three Common

Crest Factors

the energy is contained in the peaks). The duty cycle and peak

amplitude were varied to produce crest factors from l to 10

while maintaining a constant 1 volt rms input amplitude.

CONNECTION FOR dB OUTPUT

Another feature of the AD637 is the logarithmic or decibel out-

put. The internal circuit which computes dB works well over a

60 dB range. The connection for dB measurement is shown in

Figure 14. The user selects the 0 dB level by setting R1 for the

proper 0 dB reference current (which is set to exactly cancel the

log output current from the squarer/divider circuit at the desired

0 dB point). The external op amp is used to provide a more

convenient scale and to allow compensation of the +0.33%/ C

temperature drift of the dB circuit. The special T.C. resistor R3

is available from Tel Labs in Londenderry, New Hampshire

(model Q-81) and from Precision Resistor Inc., Hillside, N.J.

(model PT146).

2.0

1.8

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

0.0

0dB ADJUST

SIGNAL

10k

500k

INPUT

DENOMINATOR

BUFFER INPUT

0.5

ANALOG COM

INPUT

CF = 10

CF = 7

OUTPUT

OFFSET

SELECT

CHIP

+2.5 VOLTS

– V rms

1.0

CF = 3

25k

SECTION

BIAS

BUFFER

1.5

AD508J

SQUARER/DIVIDER

Figure 14. dB Connection

ABSOLUTE

VALUE

2.0

AD637

FILTER

25k

–8–

BUFFER

OUTPUT

SIGNAL

INPUT

RMS OUTPUT

–V

DB CALIBRATION

1. Set V

2. Adjust R1 for 0 dB out = 0.00 V

3. Set V

4. Adjust R2 for dB out = – 2.00 V

Any other dB reference can be used by setting V

accordingly.

LOW FREQUENCY MEASUREMENTS

If the frequencies of the signals to be measured are below

10 Hz, the value of the averaging capacitor required to deliver

even 1% averaging error in the standard rms connection be-

comes extremely large. The circuit shown in Figure 15 shows an

alternative method of obtaining low frequency rms measure-

ments. The averaging time constant is determined by the prod-

uct of R and C

permits a 20:1 reduction in the value of the averaging capacitor,

permitting the use of high quality tantalum capacitors. It is

suggested that the two pole Sallen-Key filter shown in the dia-

gram be used to obtain a low ripple level and minimize the value

of the averaging capacitor.

If the frequency of interest is below 1 Hz, or if the value of the

averaging capacitor is still too large, the 20:1 ratio can be

increased. This is accomplished by increasing the value of R. If

this is done it is suggested that a low input current, low offset

voltage amplifier like the AD548 be used instead of the internal

buffer amplifier. This is necessary to minimize the offset error

introduced by the combination of amplifier input currents and

the larger resistance.

1 F

= 1.00 V dc or 1.00 V rms

= 0.1 V dc or 0.10 V rms

60.4

AV1

*1k

TC RESISTOR TEL LAB Q81

PRECISION RESISTOR PT146

OR EQUIVALENT

, in this circuit 0.5 s/ F of C

33.2k

+ 3500ppm

AD707JN

–V

COMPENSATED

dB OUTPUT

+ 100mV/dB

dB SCALE

FACTOR

ADJUST

. This circuit

and R1

REV. E

AD637B AD [Analog Devices], AD637B Datasheet - Page 8

AD637B

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