SU593308A1 - Resistance to time interval converter - Google Patents

Description

direct conduction transistor emitter. In this case, the compensation diode cathode is connected to one of the terminals of the third resistor, the other terminal of which is connected to the terminal for connecting two resistors.

The drawing shows a circuit diagram of the converter.

The time domain impedance converter contains resistors 1 of different resistances (sensors), a charge capacitor 2, a voltage divider on resistors 3 and 4, a zero-body containing opposite transistors 5 and 6, a compensating diode 7, diodes and and 9 , a negative feedback resistor 1U, a resistor 11 for setting the bias current to a diode 7 and a resistor 12. In addition, the converter includes a switch 13, a time range splitter 14, an input and a pulse transformer 15.

The impedance-to-time converter operates as follows.

At the moment when the supply voltage is applied to the divider 3, 4, the voltage is set in accordance with the ratio of the resistors 3 and 4, the voltage at the input of the switch 13 is equal to the supply voltage. Thus, the input of the zero-organ connected between the switch output and the midpoint of the divider is applied to the voltage, maximum in magnitude and reverse polarity for transistor 5. Therefore, transistor 5 is closed and capacitor 2 starts to charge. But as the capacitor charges, the voltage at the output of the switch drops, i.e., at the input of the null organ, it tends to zero. The inequality of this zero voltage is determined only by the non-identical characteristics of the diode 7, biased in the forward direction through the resistor 11 from the bias source, and the transition emitter-base of the transistor 5. This starts the regenerative process of opening the transistors 5 and 6, and the capacitor begins to discharge through pulse transformer 15, diodes b and 9, transistor 5. As the capacitor discharges, the discharge current decreases and, for a certain value, the voltage drop of the resistor 10 of reverse polarity is applied to the base-emitte junction p of the transistor 6. The voltage at the input of the nullorgan again tends to the maximum blocking voltage for the transistor 5. As a result, the reverse regenerative process of closing the transistors begins.

The pulse formed on the transformer 15 is fed to the time interval converter 14 into the code and to the control input of the switch 13. The latter connects the next resistor (sensor), and the process of converting the resistance into the time interval is repeated. Educated temporary

spacing in transducer 14 is converted

in the code.

Claims (2)

1. Resistance converter in a time interval containing a time interval converter into a code, a capacitor, one plate of which is connected to one of the terminals of the transformer primary winding and a positive terminal of the power source, as well as convertible resistors, characterized in it has a switch, two resistors and a zero-organ, with the other capacitor plate connected to the switch output and one of the inputs of the zero-organ, and the switch inputs are connected to the corresponding terminals of the transformed resistors, the other terminals of which are connected to the common bus of the resistance converter in a time interval, the switch control input is connected to one of the terminals of the transformer secondary winding and the input of the time converter to the code, the other terminal of the transformer secondary winding is connected to the common bus of the resistance converter the time interval, the output of the zero-body is connected to the terminal connecting the two resistors, the second output of one of them is connected to the positive clamp The name of the power supply and one of the terminals of the primary winding of the transformer, and the second output of the other to the common bus of the impedance converter in the time interval. 2. Converter pop. 1, due to the fact that, in order to expand its functionality, the null organ contains two anti-pole conduction transistors, three diodes and three resistors, the collector of the forward transistor being connected to one of the bias resistor terminals, the compensation diode anode and the base of the transistor reverse conduction, the emitter of which is connected to the switch output, and the collector is connected to the base of the direct conduction transistor and the cathode of one of the diodes, the anode of the latter is connected to the cathode of another diode, the anode of which is connected to another terminal of the transformer primary winding and to one of the negative feedback resistor terminals, the other terminal of which is connected to the emitter of the direct conduction transistor, while the compensation cathode is connected to one of the terminals of the third resistor, the other terminal of which is connected to a terminal for connecting two resistors. Sources of information taken into account in the examination 1. USSR author's certificate number 373870, cl. N OZK 13/20, 12.03.73.