AD210AN Isolation Amplifier: Pinout, Applications, Datasheet

The AD210AN is a Precision, Wide Bandwidth 3-Port Isolation Amplifier. This article will unlock its pinout, datasheet, parts comparison and more details about AD210AN.

1 Channels 5mA per Channel 30pA 120 dB Instrumentational OP Amps 15V 14.25V~15.75V AD210 12 Pins 38-DIP (0.800, 20.32mm), 12 Leads

Catalog

AD210AN Pinout

AD210AN CAD Model

AD210AN Overview

AD210AN Applications

AD210AN Functional Block Diagram

AD210AN Usages

AD210AN Dimensions

Datasheet PDF

Specifications

Parts with Similar Specs

Conclusion

AD210AN Pinout

AD210AN CAD Model

Symbol

AD210AN Symbol

Footprint

AD210AN Footprint

3D Model

AD210 3D Model

AD210AN Overview

The AD210AN is the most recent member of a new class of high-quality, affordable isolation amplifiers. This surface-mounted, automated assembly procedure is used to create this three-part, broad bandwidth isolation amplifier. The AD210AN creates a very compact and affordable isolator whose performance and abundance of user features greatly exceed those provided by more expensive devices by combining design experience with cutting-edge manufacturing technology.

AD210AN Applications

Multichannel Data Acquisition 

High Voltage Instrumentation Amplifier 

Current Shunt Measurements 

Process Signal Isolation

AD210AN Functional Block Diagram

Figure 1 depicts below the AD210AN basic block diagram. A +15 V supply is connected to the power port, and a 50 kHz carrier frequency supplies 15 V isolated power to both the input and output ports. The uncommitted input amplifier can provide gain or buffer to the AD210AN. The full-wave modulator converts the signal to the carrier frequency, which is then applied to transformer T1. The synchronous demodulator reconstructs the input signal in the output port. A 20 kHz three-pole filter is used to reduce output noise and ripple. Finally, an output buffer outputs a low-impedance signal capable of driving a 2 kΩ load.

The fundamental block diagram for the AD210AN is shown below in Figure 1. The power port is connected to a +15 V supply, and the input and output ports receive isolated 15 V power at a carrier frequency of 50 kHz. The uncommitted input amplifier can give the AD210AN gain or a buffer. The signal is changed to the carrier frequency via the full-wave modulator and then applied to transformer T1. The output port of the synchronous demodulator reconstructs the input signal. The output noise and ripple are decreased using a 20 kHz three-pole filter. An output buffer then produces a low-impedance signal that can drive a 2 k load.

Figure1.AD210AN Functional Block Diagram

AD210AN Usages

It is quite easy to use the AD210AN in a multitude of applications. In both single-channel and multichannel systems, the AD210AN, which is powered by a single +15 V power source, excels as an input or output isolator.

Figure 2 shows the fundamental unity gain configuration for signals up to 10 V. Additional types of input amplifiers are shown in the figures below. Figure 3 demonstrates how to maintain a very high input impedance for lower signal levels while achieving gain.

Figure2.Basic Unity Gain Configuration

The circuits in Figures 2 and 3 can maintain their high input impedance in an inverting application. Signal inversion is possible with the AD210AN's three ports by switching the input and output leads.

Figure3.Input Configuration for G

Figure 4 demonstrates how to accept input currents, total currents, or voltages. Signals greater than 10 V can also be used with this circuit arrangement. For instance, RF = 20 k and RS1 = 200 k can withstand a 100 V input span.

Figure4.Summing or Current Input Configuration

AD210AN Dimensions

AD210AN Dimensions

Datasheet PDF

Please Download datasheets and manufacturer documentation for AD210AN.

Specifications

 AD210AN technical specifications, attributes, parameters and parts with similar specifications

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