AD627A データシートの表示（PDF） - Analog Devices

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AD627A

Micropower, Single- and Dual-Supply,Rail-to-Rail Instrumentation Amplifier

Analog Devices 

AD627

MAKE vs. BUY: A TYPICAL APPLICATION ERROR

BUDGET

The example in Figure 41 serves as a good comparison between

the errors associated with an integrated and a discrete in-amp

implementation. A ±100 mV signal from a resistive bridge

(common-mode voltage = 2.5 V) is amplified. This example

compares the resulting errors from a discrete two-op-amp

instrumentation amplifier and the AD627. The discrete

implementation uses a four-resistor precision network

(1% match, 50 ppm/°C tracking).

The errors associated with each implementation (see Table 9)

show the integrated in-amp to be more precise at both ambient

and overtemperature. Note that the discrete implementation is

more expensive, primarily due to the relatively high cost of the

low drift precision resistor network.

The input offset current of the discrete instrumentation amplifier

implementation is the difference in the bias currents of the two-

op amplifiers, not the offset currents of the individual op amps.

In addition, although the values of the resistor network are chosen

so that the inverting and noninverting inputs of each op amp

see the same impedance (about 350 Ω), the offset current of

each op amp adds another error that must be characterized.

+5V

+5V

350Ω

350Ω

350Ω

350Ω

±100mV

RG

40.2kΩ

1%

+10ppm/°C

AD627A

VOUT

+2.5V

LT10781SB

1/2

+5V

LT10781SB

1/2

VOUT

3.15kΩ*

+2.5V

350Ω*

350Ω* 3.15kΩ*

AD627A GAIN = 9.98 (5+(200kΩ/R G))

HOMEBREW IN-AMP, G = +10

*1% RESISTOR MATCH, 50ppm/°C TRACKING

Figure 41. Make vs. Buy

Table 9. Make vs. Buy Error Budget

Error Source

ABSOLUTE ACCURACY at TA = 25°C

Total RTI Offset Voltage, mV

Input Offset Current, nA

Internal Offset Current

(Homebrew Only)

CMRR, dB

Gain

DRIFT TO 85°C

Gain Drift, ppm/°C

Total RTI Offset Voltage, mV/°C

Input Offset Current, pA/°C

AD627 Circuit Calculation

(250 μV + (1000 μV/10))/100 mV

1 nA × 350 Ω/100 mV

Not applicable

77 dB→141 ppm × 2.5 V/100 mV

0.35% + 0.1%

(−75 + 10) ppm/°C × 60°C

(3.0 μV/°C + (10 μV/°C/10)) ×

60°C/100 mV

(16 pA/°C × 350 Ω × 60°C)/100 mV

Homebrew Circuit Calculation

(180 μV × 2)/100 mV

20 nA × 350 Ω/100 mV

0.7 nA × 350 Ω/100 mV

(1% match × 2.5 V)/10/100 mV

1% match

Total Absolute Error

50 ppm/°C × 60°C

(2 × 3.5 μV/°C × 60°C)/100 mV

(33 pA/°C × 350 Ω × 60°C)/100 mV

Total Drift Error

Grand Total Error

Total Error

AD627

(ppm)

Total Error

Homebrew

(ppm)

3,500

3.5

3,531

13,500

20,535

3,600

70

2.45

25,000

10,000

38,672

3,900

2,600

3.5

6,504

27,039

3,000

4,200

7

7,207

45,879

Rev. D | Page 18 of 24

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