AD8225-EVALZ Analog Devices Inc, AD8225-EVALZ Datasheet - Page 13

AD8225-EVALZ

Manufacturer Part Number

AD8225-EVALZ

Description

BOARD EVAL FOR AD8225 INSTR AMP

Manufacturer

Analog Devices Inc

Datasheets

1.AD8225-EVALZ.pdf (16 pages)

2.AD8225-EVALZ.pdf (2 pages)

Specifications of AD8225-EVALZ

Channels Per Ic

1 - Single

Amplifier Type

Instrumentation

Output Type

Single-Ended

Slew Rate

5 V/µs

-3db Bandwidth

900kHz

Current - Output / Channel

18mA

Operating Temperature

-40°C ~ 85°C

Current - Supply (main Ic)

1.05mA

Voltage - Supply, Single/dual (±)

3.4 V ~ 36 V, ±1.7 V ~ 18 V

Board Type

Fully Populated

Utilized Ic / Part

AD8225

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 13 of 16
Download datasheet (373Kb)

In the classical three op amp in amp topology shown in Figure 8,

gain is developed differentially between the two input amplifiers

A1 and A2, sacrificing CMV (common-mode voltage) range.

The gain of the in amp is typically 10 or less, and an additional

gain stage increases the overall gain to approximately 1000.

Gain developed in the input stage results in a trade-off in common-

mode voltage range, constraining the ability of the amplifier to

tolerate high dc electrode errors. Although the AD8225 is also

a three amplifier design, its gain of 5 is developed at the output

amplifier, improving the CMV range at the input. Using ± 5 V

supplies, the CMV range of the AD8225 is from –3.4 V to

+4 V, compared to –3.1 V to +3.8 V, a 7% improvement in

input headroom over conventional in amps with the same gain.

Figure 9 illustrates how an AD8225 may be used in an EKG

front end. In a low cost system, the AD8225 can be connected to

the patient. If buffers are required, the AD8225 can replace the

expensive precision resistor network and op amp.

Figure 10 shows test waveforms observed from the circuit of

Figure 9.

REV. A

Figure 9. EKG Monitor Front End

AD8225

100

G = 5

19.6k

OP77

G = 200

301

–13–

Benefits of Fast Slew Rates

At 5 V/µs, the slew rate of the AD8225 is as fast as many op amp

circuits. This is an advantage in systems applications using multiple

sensors. For example, an analog multiplexer (see Figure 11) may

be used to select pairs of leads connected to several sensors. If

the AD8225 drives an ADC, the acquisition time is constrained

by the ability of the in amp to settle to a stable level after a new

set of leads is selected. Fast slew rates contribute greatly to

this function, especially if the difference in input levels is large.

Figure 12 illustrates the response of an AD8225 connected to

an ADG409 analog multiplexer in the circuit shown in Figure 11

at two signal levels. Two of the four MUX inputs are connected

to test dc levels. The remaining two are at ground potential so

that the output slews as the inputs A0 and A1 are addressed. As

can be seen, the output response settles well within 4 µs of the

applied level.

Figure 10. EKG Waveform Using Circuit of Figure 9

Figure 11. Connection to an ADG409 Analog MUX

Figure 12. Slew Responses After MUX Selection

0.2V, 2V

RA-LA 1

RA-LL 3

LA-LL 2

CH 1 = 200mV, CH 2 = 2V, H = 500ns

SIGNAL

SITION

TRAN-

INPUT

CH 1 = 2V, CH 2 = 2V, CH 3 = 2V, H = 200ms

S1A

S1B

S2A

S2B

S3A

S3B

S4A

S4B

LARGE SIGNAL

(2V/DIV)

SMALL SIGNAL

(200mV/DIV)

ADG409

AD8225

REF

AD8225-EVALZ Analog Devices Inc, AD8225-EVALZ Datasheet - Page 13

AD8225-EVALZ

Specifications of AD8225-EVALZ

Related parts for AD8225-EVALZ