SU1240317A1 - Shift-to-code converter - Google Patents

Description

(21) 3800278 / 24-24

(22) 10/09/84

(46) 10/15/87. Bul Number 38

(72) V.A. Kachalin and V.N. Add

(53) 681.325 (088.8)

(56) USSR Copyright Certificate No. 206357, cl. G 08 C 9/04, 1967. USSR Copyright Certificate No. 267385, cl. G 08 S 9/04, 1970 ..

(54) (57) 1. MOTION TRANSFORMER TO CODE, containing a differential transformer displacement sensor, one primary of which is connected to one output of an alternating current source directly, and the other reed connects to another output of an alternating current source through a current limiting element, secondary leads windings of the differential transformer displacement sensor are connected to the first information input of the analog-digital converter, the reference input of which is connected to the output of the rectifier Characterized in that, in order to increase the accuracy of the converter, a period detector is introduced into it, the outputs of the current-limiting element are connected to the inputs of the rectifier and the period detector, the output of which is connected to the second information input of the analog-digital converter.

2. The converter according to claim 1, characterized in that the analog-to-digital converter contains a rectifier, a voltage-to-frequency conversion unit, an AND element and a pulse counter, the rectifier input is the first information input of the analog-digital converter, the output the rectifier is connected to the first input of the voltage-to-frequency conversion unit, the second input of which is the reference input of the analog-digital converter, and the output is connected to one input of the AND element, the other input of the AND element is the second information input house analog-converter and the output of AND gate is connected to a counter whose output is the output of analog-converter.

The invention relates to the field of automation and computer technology and can be used to connect analog information sources with a digital computing device.

The aim of the invention is to improve the accuracy of the converter.

The drawing shows a block diagram of the Converter.

The converter contains a differential transformer displacement sensor 1, one output of the primary winding of which is connected directly to one output of an alternating current source 2, and the other output connected to another output of source 2 via a current limiting element 3 (resistor), the outputs of the secondary winding of sensor 1 are connected to the first information the input of the analog-digital converter (ADC) 4, the outputs of the current-limiting element 3 through the rectifier 5 are connected to the reference input of the ADC 4, and through the period detector 6 to the second mu information input ADC 4.

The A / D converter 4 contains the expander 7, the voltage-to-frequency conversion unit 8, the element 9I and the counter 10 pulses, the input of the rectifier 7 is the first information input. The A / D converter 4 and the output of the rectifier 7 are connected to the first input of block 8h whose second input is the reference input of the A / D converter 4 and the output connected to one input of element 9I, the other input of element 9I is the second information input of ADC 4, and the output of element 9I is connected counter 10, the output of which is the output of the ADC 4.

Convert the shift into code works as follows.

The voltage on the secondary winding of sensor 1, proportional to the amount of movement of the plunger of sensor 1, the current in the primary winding of sensor 1 and the frequency of the supply voltage, and the voltage on the resistor 3, proportional to the current in the primary winding of sensor 1, are fed to the inputs of the rectifier 7 and 5. The direct current signals from the outputs of the rectifiers 7 and 5 are fed to the inputs of the measuring and reference voltages of unit 8, respectively. For both, these signals are proportional to the current in the primary winding of the sensor .1, and the pulse frequency The output of block 8 is determined by the ratio of these signals, the frequency of the pulses arriving at the first input of element 9I does not depend on the amplitude of the current in the primary winding of sensor 1 (amplitude compensation) J but remains dependent on the frequency of the supply voltage sensor 1. A period detector 6 generates a pulse signal arriving at the second input of element 9I, whose duration is a multiple of the period of the supply voltage sensor 1,

Thus, the number of pulses received for the duration of this signal from the output of block 8 through element 9I to the input of counter 10 does not depend on the frequency of the voltage supply sensor 1 (frequency compensation). The conversion cycle ends at the end of the pulse signal of the period detector 6. The number of pulses accumulated by the counter 10 for the duration of this signal (the code at the output of the counter 10) ,. corresponds to the amount of movement of the plunger of the sensor 1.