SU631835A1 - Active power analogue-digital converter - Google Patents

Claims (2)

The input of the driver of the multipole reference voltages and to the second input of the coincidence circuit, one of the inputs of the equalizing device connected to the common bus. The drawing shows a block diagram of the converter. The converter contains a series-connected voltage follower 1 with a paraphase output, an electronic switch 2, an adder 3, an integrator 4, a comparison device 5, as well as a reversible counter 6 connected to the output of the coincidence circuit 7, a driver of alternating reference voltages 8 connected to one from the input; from the adder 3 and to one of the inputs of the coincidence circuit 7, and the period selector of the voltage to be converted 9, the output of which is connected to the control. the inputs of switch 2 and counter 6. The input of the calibrated delay device 10 is connected to the output of the comparison device 5, and the output is connected to the control input of the driver 8 and to the second input of the matching circuit 7. One of the inputs of the comparison device 5 is connected to the common bus. The Converter operates as follows. The inputs 11 and 12 are supplied with voltage, functionally related to the voltage and current being converted, respectively. The active power is converted into a code in two periods of voltage applied to input 11. Suppose that in one of the periods the voltage at the output of switch 2 is shifted by 18O relative to the input voltage at input 11. At the same time, the output voltage of the integrator 4 is linear is increasing. After an interval of time determined by the device 1O, it reaches zero, which triggers the operation of the comparison device 5. After a predetermined time interval has elapsed, the sign of the output voltage of the device 1O changes, which causes a change in the voltage of the output of the driver 8 Moreover, during the time interval, the voltage at the output of the integrator 4 continues to increase linearly with the same speed, and from a certain moment of time it begins to decrease linearly. When the output voltage of the schedger 4. reaches zero. Comparison device 5 works. An alternate change in the sign of the output device of the device 10 leads to a change in the polarity of the voltage at the output of the driver 8, and the voltage at the output of the integrator 4 begins to increase linearly. Then the cycle of operation is repeated. At predetermined time intervals on the output of the coincidence circuit 7, pulses are generated to fill the counter 6, the mode of operation of which is determined by the selector 9. In this case, the counter 6 works on addition. Mathematically, it can be shown that the number recorded in counter 6 for two periods of input voltage is directly proportional to the active power and depends only on the nominal value of the reference voltage and the value of the time interval determined by the device 1O. Invention An analog-to-digital active power converter containing a series-connected voltage follower with a paraphase output, an electronic switch, an adder, an integrator, a comparison device, and a reversible counter connected to the output of the coincidence circuit, a driver of alternating reference voltages connected to one from the inputs of the adder and to one of the inputs of the coincidence circuit, and the selector of the period of the converted voltage, the output of which is connected to the control inputs of the electron th switch and a down counter, characterized in that, in order to increase accuracy of operation, it is further provided with a device calibrated zadertosi having an input connected to the output of the comparator, and an output connected to a control input of the reference voltage Hetero-polar -; zheny and to the second input of the coincidence circuit; moreover, one of the inputs of the comparison device is connected to a common bus. Sources of information taken into account in the examination: 1. USSR author's certificate number 497726, cl. Q 011 21/06, 1975. 2. USSR author's certificate NO 42O114, cl. q OIT 21 / O6, 1972. 12 0 // i 1 i