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ICL7135C_16 Datasheet, PDF (6/18 Pages) Texas Instruments – 1/2-DIGIT PRECISION ANALOG-TO-DIGITAL CONVERTERS
ICL7135C, TLC7135C
4 1/2ĆDIGIT PRECISION
ANALOGĆTOĆDIGITAL CONVERTERS
SLAS074D − DECEMBER 1986 − REVISED SEPTEMBER 2003
STROBE
Digit Scan
for OVER RANGE
AUTO ZERO
D5†
D4
Signal Integrate
Deintegrate†
D3
D2
D1
† First D5 of AUTO ZERO and deintegrate is one count longer.
Figure 4
PRINCIPLES OF OPERATION
A measurement cycle for the ICL7135C and TLC7135C consists of the following four phases.
1. Auto-Zero Phase. The internal IN + and IN− inputs are disconnected from the terminals and internally
connected to ANLG COMMON. The reference capacitor is charged to the reference voltage. The
system is configured in a closed loop and the auto-zero capacitor is charged to compensate for offset
voltages in the buffer amplifier, integrator, and comparator. The auto-zero accuracy is limited only by the
system noise, and the overall offset, as referred to the input, is less than 10 µV.
2. Signal Integrate Phase. The auto-zero loop is opened and the internal IN + and IN − inputs are
connected to the external terminals. The differential voltage between these inputs is integrated for a
fixed period of time. When the input signal has no return with respect to the converter power supply, IN−
can be tied to ANLG COMMON to establish the correct common-mode voltage. Upon completion of this
phase, the polarity of the input signal is recorded.
3. Deintegrate Phase. The reference is used to perform the deintegrate task. The internal IN− is internally
connected to ANLG COMMON and IN+ is connected across the previously charged reference
capacitor. The recorded polarity of the input signal ensures that the capacitor is connected with the
correct polarity so that the integrator output polarity returns to zero. The time required for the output to
return to zero is proportional to the amplitude of the input signal. The return time is displayed as a digital
reading and is determined by the equation 10,000 × (VID/Vref). The maximum or full-scale conversion
occurs when VID is two times Vref.
4. Zero Integrator Phase. The internal IN− is connected to ANLG COMMON. The system is configured in a
closed loop to cause the integrator output to return to zero. Typically, this phase requires 100 to 200
clock pulses. However, after an over-range conversion, 6200 pulses are required.
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