Low

ANALOG DEVICES  AD636JHZ  RMS to DC Converter, 1 %, 130 kHz, 0 °C, 70 °C, TO-100, 10 Pins

ANALOG DEVICES AD636JHZ
Technical Data Sheet (553.12KB) EN See all Technical Docs

The actual product may differ from image shown

Product Overview

The AD636 series low power Monolithic IC performs true RMS-to-DC conversion on low level signals. It is performance that is comparable or superior to that of hybrid and modular converters costing much more. The AD636 is specified for a signal range of 0 to 200mVrms. Crest factors up to 6 can be accommodated with less than 0.5% additional error, allowing accurate measurement of complex input waveforms. The low power supply current requirement of the AD636, typically 800μA, is ideal for battery-powered portable instruments. The input and output terminals are fully protected, the input signal can exceed the power supply with no damage to the device (allowing the presence of input signals in the absence of supply voltage) and the output buffer amplifier is short-circuit protected.
  • 200mV Full scale
  • Wide response capability - Computes RMS of AC and DC signals
  • Wide response capability - Signal crest factor of 6 for 0.5% error
  • dB output with 50dB range
  • 800μA Quiescent current low power

 

Product Information

Accuracy %:
1%
Bandwidth:
130kHz
Operating Temperature Min:
0°C
Operating Temperature Max:
70°C
Digital IC Case:
TO-100
No. of Pins:
10Pins
Supply Voltage Range:
2V, 5V to 24V
Packaging:
Each
Product Range:
AD636 Series
Power Dissipation Pd:
500 mW
MSL:
-
Supply Current:
800 µA
SVHC:
No SVHC (17-Dec-2015)

Find similar products  grouped by common attribute

Applications

  • Signal Processing;
  • Portable Devices

Legislation and Environmental

Moisture Sensitivity Level:
-
Product Traceability
RoHS Compliant:
Yes
Authorized Distributor

Associated Products

Similar Products

Find products functionally similar to this one. Select one of the following links, and you will be taken to a product group page that presents all products in this category that share the given attribute.