Name:
AD630 Lock-in amplifier
Dimensions: 46mm * 40mm
Supply Voltage Range: ±5V~±18V
Highlights:
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AD630 phase-lock amplifier integrated with pre-amplifier OPA627 and 4-order
ultra-low Butterworth filter
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The smallest phase-lock amplification system
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Can detect and extract weak signal
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Modulation function of AD630
Features:
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Recovers signal from 100 dB noise
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2 MHz channel bandwidth
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45 V/µs slew rate
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Low crosstalk: −120 dB at 1 kHz, −100 dB at 10 kHz
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Pin programmable, closed-loop gains of ±1 and ±2
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0.05% closed-loop gain accuracy and match
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100 µV channel offset voltage (AD630)
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350 kHz full power bandwidth
Applications:
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Balanced modulation and demodulation
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Synchronous detection
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Phase detection
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Quadrature detection
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Phase sensitive detection
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Lock in amplification
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Square wave multiplication
General Description:
The AD630 is a high precision balanced modulator/demodulator that combines
a flexible commutating architecture with the accuracy and temperature
stability afforded by laser wafer trimmed thin film resistors. A network of
on-board applications resistors provides precision closed-loop gains of ±1
and ±2 with 0.05% accuracy (AD630B). These resistors may also be used to
accurately configure multiplexer gains of 1, 2, 3, or 4. External feedback
enables high gain or complex switched feedback topologies.
The AD630 can be thought of as a precision op amp with two independent
differential input stages and a precision comparator that is used to select
the active front end. The rapid response time of this comparator coupled with
the high slew rate and fast settling of the linear amplifiers minimize
switching distortion.
The AD630 is used in precision signal processing and instrumentation
applications that require wide dynamic range. When used as a synchronous
demodulator in a lock-in amplifier configuration, the AD630 can recover a
small signal from 100 dB of interfering noise (see the Lock-In Amplifier
Applications section). Although optimized for operation up to 1 kHz, the
circuit is useful at frequencies up to several hundred kilohertz.
Other features of the AD630 include pin programmable frequency
compensation; optional input bias current compensation resistors, common-mode
and differential-offset voltage adjustment, and a channel status output that
indicates which of the two differential inputs is active.
Please Note:
This Lock-in amplifier can be changed to Balanced modulator, Need to change the circuit by yourself. Methods as below:
1. The R4 (0 ohm resistor) removed, R3 shorted or welded on 0 ohm resistor
2. Pick the mode selection to the left and select it as the modulation mode
3. Short the R14