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    參數(shù)資料
    型號(hào): AD624CDZ
    廠商: Analog Devices Inc
    文件頁(yè)數(shù): 6/17頁(yè)
    文件大小: 0K
    描述: IC AMP INST 25MHZ PREC LN 16CDIP
    標(biāo)準(zhǔn)包裝: 1
    放大器類型: 儀表
    電路數(shù): 1
    轉(zhuǎn)換速率: 5 V/µs
    增益帶寬積: 25MHz
    -3db帶寬: 1MHz
    電流 - 輸入偏壓: 15nA
    電壓 - 輸入偏移: 25µV
    電流 - 電源: 3.5mA
    電壓 - 電源,單路/雙路(±): ±6 V ~ 18 V
    工作溫度: -25°C ~ 85°C
    安裝類型: 通孔
    封裝/外殼: 16-CDIP(0.300",7.62mm)
    供應(yīng)商設(shè)備封裝: 16-CDIP 側(cè)面銅焊
    包裝: 管件
    產(chǎn)品目錄頁(yè)面: 770 (CN2011-ZH PDF)
    REV. C
    AD624
    –13–
    WEIGH SCALE
    Figure 44 shows an example of how an AD624 can be used to
    condition the differential output voltage from a load cell. The
    10% reference voltage adjustment range is required to accom-
    modate the 10% transducer sensitivity tolerance. The high
    linearity and low noise of the AD624 make it ideal for use in
    applications of this type particularly where it is desirable to
    measure small changes in weight as opposed to the absolute
    value. The addition of an autogain/autotare cycle will enable the
    system to remove offsets, gain errors, and drifts making possible
    true 14-bit performance.
    G100
    G200
    G500
    RG2
    AD624
    +INPUT
    –INPUT
    R5
    3M
    R6
    100k
    ZERO ADJUST
    (COARSE)
    A/D
    CONVERTER
    +10V FULL
    SCALE
    OUTPUT
    REFERENCE
    SENSE
    GAIN = 500
    R4
    10k
    ZERO
    ADJUST
    (FINE)
    100
    R3
    10
    +15V
    R1
    30k
    NOTE 2
    10V
    10%
    R2
    20k
    R3
    10k
    SCALE
    ERROR
    ADJUST
    AD584
    +10V
    +5V
    +2.5V
    VBG
    TRANSDUCER
    SEE NOTE 1
    NOTES
    1. LOAD CELL TEDEA MODEL 1010 10kG. OUTPUT 2mV/V 10%.
    2. R1, R2 AND R3 SELECTED FOR AD584. OUTPUT 10V
    10%.
    +15V
    AD707
    2N2219
    R7
    100k
    OUT
    Figure 44. AD624 Weigh Scale Application
    AC BRIDGE
    Bridge circuits which use dc excitation are often plagued by
    errors caused by thermocouple effects, l/f noise, dc drifts in the
    electronics, and line noise pickup. One way to get around these
    problems is to excite the bridge with an ac waveform, amplify
    the bridge output with an ac amplifier, and synchronously
    demodulate the resulting signal. The ac phase and amplitude
    information from the bridge is recovered as a dc signal at the
    output of the synchronous demodulator. The low frequency
    system noise, dc drifts, and demodulator noise all get mixed to
    the carrier frequency and can be removed by means of a low-
    pass filter. Dynamic response of the bridge must be traded off
    against the amount of attenuation required to adequately sup-
    press these residual carrier components in the selection of the
    filter.
    Figure 45 is an example of an ac bridge system with the AD630
    used as a synchronous demodulator. The oscilloscope photo-
    graph shows the results of a 0.05% bridge imbalance caused by
    the 1 Meg resistor in parallel with one leg of the bridge. The top
    trace represents the bridge excitation, the upper middle trace is
    the amplified bridge output, the lower-middle trace is the out-
    put of the synchronous demodulator and the bottom trace is the
    filtered dc system output.
    This system can easily resolve a 0.5 ppm change in bridge
    impedance. Such a change will produce a 6.3 mV change in the
    low-pass filtered dc output, well above the RTO drifts and noise.
    The AC-CMRR of the AD624 decreases with the frequency of
    the input signal. This is due mainly to the package-pin capaci-
    tance associated with the AD624’s internal gain resistors. If
    AC-CMRR is not sufficient for a given application, it can be
    trimmed by using a variable capacitor connected to the amplifier’s
    RG2 pin as shown in Figure 45.
    AD624C
    –VS
    +VS
    VOUT
    G = 1000
    RG1
    RG2
    10k
    1kHz
    BRIDGE
    EXCITATION
    1M
    1k
    4–49pF
    CERAMIC ac
    BALANCE
    CAPACITOR
    –V
    10k
    B
    10k
    5k
    2.5k
    –VS
    PHASE
    SHIFTER
    AD630
    MODULATED
    OUTPUT
    SIGNAL
    +VS
    MODULATION
    INPUT
    CARRIER
    INPUT
    2.5k
    B
    A
    COMP
    Figure 45. AC Bridge
    0V
    BRIDGE EXCITATION
    (20V/div) (A)
    AMPLIFIED BRIDGE
    OUTPUT (5V/div) (B)
    DEMODULATED BRIDGE
    OUTPUT (5V/div) (C)
    FILTER OUTPUT
    2V/div) (D)
    2V
    Figure 46. AC Bridge Waveforms
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