AD8224HBCPZ-RL Analog Devices Inc, AD8224HBCPZ-RL Datasheet - Page 25

AD8224HBCPZ-RL

Manufacturer Part Number

AD8224HBCPZ-RL

Description

Hidden Paddle Dual Channel FET InAmp

Manufacturer

Analog Devices Inc

Datasheet

1.AD8224-EVALZ.pdf (28 pages)

Specifications of AD8224HBCPZ-RL

Amplifier Type

J-FET

Number Of Circuits

Output Type

Rail-to-Rail

Slew Rate

2 V/µs

-3db Bandwidth

1.5MHz

Current - Input Bias

10pA

Voltage - Input Offset

175µV

Current - Supply

750µA

Current - Output / Channel

15mA

Voltage - Supply, Single/dual (±)

4.5 V ~ 36 V, ±2.25 V ~ 18 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Gain Bandwidth Product

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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DRIVING A DIFFERENTIAL INPUT ADC

The AD8224 can be configured in differential output mode

to drive a differential ADC. Figure 65 illustrates several of the

concepts.

First Antialiasing Filter

The 1 kΩ resistor, 1000 pF capacitor, and 100 pF capacitors in

front of the in-amp form a 76 kHz filter. This is the first of two

antialiasing filters in the circuit and helps to reduce the noise of

the system. The 100 pF capacitors protect against common-

mode RFI signals. Note that they are 5% COG/NPO types.

These capacitors match well over time and temperature,

which keeps the CMRR of the system high over frequency.

Second Antialiasing Filter

An 806 Ω resistor and a 2.7 nF capacitor are located between

each AD8224 output and ADC input. These components

create a 73 kHz low-pass filter for another stage of antialiasing

protection.

These four elements also isolate the ADC from loading the

AD8224. The 806 Ω resistor shields the AD8224 from the

switched capacitor input of the ADC, which looks like a time-

varying load. The 2.7 nF capacitor provides a charge to the

switched capacitor front end of the ADC. If the application

requires a lower frequency antialiasing filter, increase the value

of the capacitor rather than the resistor.

The 806 Ω resistors can also protect an ADC from overvoltages.

Because the AD8224 runs on wider supply voltages than a

typical ADC, there is a possibility of overdriving the ADC. This

is not an issue with a PulSAR® converter, such as the AD7688.

Its input can handle a 130 mA overdrive, which is much higher

than the short-circuit limit of the AD8224.

10µF

+IN

–IN

0.1µF

1kΩ

1000pF

100pF

NPO

+12V

–12V

(DIFF OUT)

AD8224

+5V REF

+IN2

Figure 65. Driving a Differential ADC

REF2

+OUT

–OUT

Rev. B | Page 25 of 28

806Ω

2.7nF

However, other converters have less robust inputs and may need

the added protection.

Reference

The

the AD8224. Because REF2 on the AD8224 is grounded, the

common-mode output voltage is precisely half the reference

voltage, exactly where it needs to be for the ADC.

DRIVING CABLING

All cables have a certain capacitance per unit length, which

varies widely with cable type. The capacitive load from the cable

may cause peaking in the AD8224 output response. To reduce

peaking, use a resistor between the AD8224 and the cable.

Because cable capacitance and desired output response vary

widely, this resistor is best determined empirically. A good

starting point is 50 Ω.

The AD8224 operates at a low enough frequency that

transmission line effects are rarely an issue; therefore, the

resistor need not match the characteristic impedance of

the cable.

0.1µF

ADR435

2.7nF

(SINGLE OUT)

+12V

AD8224

(DIFF OUT)

ADR435

supplies a reference voltage to both the ADC and

IN+

IN–

GND

OUT

VDD

+5V

AD7688

Figure 66. Driving a Cable

10µF

X5R

0.1µF

REF

0.1µF

+5V REF

AD8224

AD8224HBCPZ-RL Analog Devices Inc, AD8224HBCPZ-RL Datasheet - Page 25

AD8224HBCPZ-RL

Specifications of AD8224HBCPZ-RL

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