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型號(hào)：	AD8574AR-REEL7
廠商：	Analog Devices Inc
文件頁數(shù)：	7/24頁
文件大?。?/td>	0K
描述：	IC OPAMP CHOPPER R-R QUAD 14SOIC
標(biāo)準(zhǔn)包裝：	1,000
放大器類型：	斷路器（零漂移）
電路數(shù)：	4
輸出類型：	滿擺幅
轉(zhuǎn)換速率：	0.4 V/µs
增益帶寬積：	1.5MHz
電流 - 輸入偏壓：	10pA
電壓 - 輸入偏移：	1µV
電流 - 電源：	850µA
電流 - 輸出 / 通道：	30mA
電壓 - 電源，單路/雙路(±)：	2.7 V ~ 5.5 V
工作溫度：	-40°C ~ 125°C
安裝類型：	表面貼裝
封裝/外殼：	14-SOIC（0.154"，3.90mm 寬）
供應(yīng)商設(shè)備封裝：	14-SOIC
包裝：	帶卷 (TR)

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AD8571/AD8572/AD8574

Rev. E | Page 15 of 24

AUTO-ZERO PHASE

In this phase, all ΦA(chǔ)X switches are closed, and all ΦB switches

are open. Here, the nulling amplifier is taken out of the gain

loop by shorting its two inputs together. Of course, there is a

degree of offset voltage, shown as VOSA, inherent in the nulling

amplifier, that maintains a potential difference between the +IN

and IN inputs. The nulling amplifier feedback loop is closed

through ΦA(chǔ)2, and VOSA appears at the output of the nulling

amplifier and on CM1, an internal capacitor in the AD857x.

Mathematically, this can be expressed in the time domain as

VOA[t] = AAVOSA[t] BAVOA[t]

(1)

This can also be expressed as

[]

OSA

(2)

The previous equations show that the offset voltage of the nulling

amplifier times a gain factor appears at the output of the nulling

amplifier and thus on the CM1 capacitor.

AMPLIFICATION PHASE

When the ΦB switches close and the ΦA(chǔ)X switches open for

the amplification phase, the offset voltage remains on CM1 and

essentially corrects any error from the nulling amplifier. The

voltage across CM1 is designated as VNA. The potential difference

between the two inputs to the primary amplifier is designated as

VIN, or VIN = (VIN+ VIN). The output of the nulling amplifier

can then be expressed as

VOA[t] = AA(VIN[t] VOSA[t]) BAVNA[t]

(3)

Because ΦA(chǔ)X is now open and there is no place for CM1 to

discharge, the voltage (VNA) at the present time (t) is equal to

the voltage at the output of the nulling amp (VOA) at the time when

ΦA(chǔ)X is closed. If the period of the autocorrection switching

frequency is designated as TS, the amplifier switches between

phases every 0.5 × TS. Therefore, in the amplification phase

[]

(4)

and substituting Equation 4 and Equation 2 into Equation 3 yields

[]

[ ]

OSA

(5)

For the sake of simplification, it can be assumed that the auto-

correction frequency is much faster than any potential change

in VOSA or VOSB. This is a good assumption because changes in

offset voltage are a function of temperature variation or long-

term wear time, both of which are much slower than the

auto-zero clock frequency of the AD857x, which effectively

makes the VOS time invariant, and Equation 5 can be rewritten as

[]

[ ]

(

)

OSA

(6)

[]

[ ]

OSA

(7)

Here, the auto-zeroing becomes apparent. Note that the VOS

term is reduced by a factor of 1 + BA, which shows how the

nulling amplifier has greatly reduced its own offset voltage error

even before correcting the primary amplifier. Therefore, the

primary amplifier output voltage is the voltage at the output of the

AD857x amplifier. It is equal to

VOUT[t] = AB(VIN[t] + VOSB) + BBVNB

(8)

In the amplification phase, VOA = VNB, so this can be rewritten as

[ ]

[]

OSA

OSB

OUT

(9)

Combining terms yield

[ ]

[]

()

OSB

OSA

OUT

(10)

The AD857x architecture is optimized in such a way that

AA = AB, BA = BB, and BA >> 1. In addition, the gain product to

AABB is much greater than AB. Therefore, Equation 10 can be

simplified to

VOUT[t] = VIN[t]AABA + AA(VOSA+ VOSB)

(11)

Most obvious is the gain product of both the primary and nulling

amplifiers. This AABA term is what gives the AD857x its extremely

high open-loop gain. To understand how VOSA and VOSB relate to

the overall effective input offset voltage of the complete amplifier,

set up the generic amplifier equation of

VOUT = k × (VIN + VOS, EFF)

(12)

where:

k is the open-loop gain of an amplifier.

VOS, EFF is its effective offset voltage.

Putting Equation 12 into the form of Equation 11 gives

VOUT[t] = VIN[t]AABA + VOS, EFFAABA

(13)

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