SU467464A2 - Analog-to-digital converter - Google Patents

Description

The trigger of cycle 3 is given and the second cycle of conversion begins. At this moment, the diode switch 7 closes and the reference current switch 9 opens. The state of the remaining circuit elements does not change.

The second clock cycle continues until the holes are closed, but the negative feedback through Diode 16, which is supported by current through it, does not break. The magnitude of this current is determined by the expression

.--% -.,.

l ,, - i where t / e t / c ,.

R is the value of the resistor 17, i.e.

/ J / iiZi -tL

  / RC The feedback is cut off at / d 0. At this moment, under the action of the reference current, the voltage at the output of the operational amplifier 11 abruptly becomes negative and equal to the stabilization voltage of the zener diode 18. Under the action of this voltage, the inverter 13 is locked, therefore, with the appropriate value The resistors 19 and 20 lock the signal diode of the switch of the reference current 9, and the current from the source 10 flows through the diode 21, creating a voltage drop on the resistor 17, and consequently, on the capacitor 15. Negative Voltage at the output of the amplifier after turning off the reference Toj: a is supported by current through resistors 19, 20 and diode 22. This diode, due to the negative bias on the emitter of the transistor of inverter 13, blocks the latter and does not affect the integration processes in either the first or second cycles . At the time of the end of the second clock cycle, the voltage spike at the inverter output sets the trigger of cycle 4 to the initial state, the coincidence circuit is locked and the number of pulses is recorded in counter 1 .Vi f-T2, where TZ is the duration of the second cycle. In view of the above expressions, the transformation equation takes the form

. t.

467464

The voltage at which the conversion ends due to the introduction of elements 19, 21 and 22 is kept the same during the pause between conversions, 5 because of the magnitude of the pause, the result of the conversion does not affect and, consequently, the accuracy is improved compared to the known converter. .

0 A diode 23 is used to run the circuit in the first cycle with an input current less than the current generated by e: 1.1. Elements 19, 20, and 22. The conversion result is removed from the outputs 24 of counter 1. The inputs 25 and 26 supply voltage and bias, respectively, to input 27 is a start signal.

The introduction of elements 19, 21, 22 and 23 allows you to create in the scheme with one operating

0 amplifier converter high accuracy with automatic installation of the initial state of the integrator. Moreover, the installation time of the initial state is a fraction of a microsecond, and not one and ten

milliseconds, as in many well-known converters with an automatic installation of the integrator's pitch state, therefore, the proposed converter has an increased conversion accuracy as with

there are pauses, and in their absence.

G1 p C dme et and 3 about b and e p and

Apalo-digital converter two-step integrated 1) about avt. St. 336795, characterized in that, in order to increase the accuracy, a supplementary resistor and t) and a diode are inserted into it, the apodes of two diodes are connected to the output of the receiver and the cathode of one of them is connected to the control current switch of the reference current, the output of which is connected Another diode and an additional resistor connected to the input

an integrator amplifier whose output terminal of a capacitor is connected via a third diode to an SOUTCH1P1KOM of this110V current.