英文原文
12-Bit A/D Converter
CIRCUIT OPERATION
The AD574A is a complete 12-bit A/D converter which requires no external components to provide the complete successive approximation analog-to—digital conversion function. A block diagram of the AD574A is shown in Figure 1。
Figure 1。 Block Diagram of AD574A 12—Bit A-to-D Converter
When the control section is commanded to initiate a conversion (as described later), it enables the clock and resets the successiveapproximation register (SAR) to all zeros. Once a conversion cycle has begun, it cannot be stopped or restarted and data is not available from the output buffers. The SAR, timed by the clock, will sequence through the conversion cycle and return an end-of-convert flag to the control section。 The control section will then disable the clock, bring the output status flag low, and enable control functions to allow data read functions by external command.
During the conversion cycle, the internal 12—bit current output DAC is sequenced by the SAR from the most significant bit (MSB) to least significant bit (LSB) to provide an output current which accurately balances the input signal current through the 5kΩ(or10kΩ) input resistor。 The comparator determines whether the addition of each successively-weighted bit current causes the DAC current sum to be greater or less than the input current; if the sum is less, the bit is left on; if more, the bit is turned off. After testing all the bits, the SAR contains a 12-bit binary code which accurately represents the input signal to within 1/2 LSB.
The temperature—compensated buried Zener reference provides the primary voltage reference to the DAC and guarantees excellent stability with both time and temperature. The reference is trimmed to 10。00 volts ±0。2%; it can supply up to 1.5 mA to an external load in addition to the requirements of the reference input resistor ( mA) and bipolar offset resistor (1 mA) when the AD574A is powered from ±15 V supplies. If
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