DE2349288A1 - MEASURING CONVERTER FOR THE CONVERSION OF AC VOLTAGE INTO DC VOLTAGE - Google Patents

Description

PATENT LAWYERS. _D _ ₈ MUNICH OO MA fUAJ-TLFPIOATZ 2 ä: 3

DH. O. DITTMANN

POSTAL ADDRESS K .. J ^. toOtUH * _{D 8 MÖNCHBN O5}

dr. A. v. FUNBR J q / Q J QO P.O. Box esoieo

»«. »» P.STRBHL ^y TELEPHONE (089) 458354

dr. U. SCHUBEL-HOPF teleqr. aurgmarcpat Munich

DIPL. ING. D. EBBINGHAUS · TELEX 5-23 565 AURO D

Zjednoczone Zak ^ ady Elektronicznej 1 "October 1973 Apiculture Pomiarowej "Elpo" DA-9677 DE / A

Messwandler sur converting alternating voltage into

DC voltage

(Priority: October 2, 1972, Poland, No. 158040)

The invention relates to a transducer for converting ■ from Viechseis voltage to DC voltage, in particular in electronic Battery powered measuring devices is used.

A transducer for converting alternating voltage is known in DC voltage from a differential amplifier consists of two strongly negative feedback semiconductor diodes from a capacitor and resistors. The converter elements mentioned are connected to each other in the following way.

The first input of the differential amplifier is connected to the first input terminal via the capacitor and the first resistor and to the first output terminal via the second resistor. The second input of the differential amplifier, the second _e Eingangskleinme and the second output terminal are connected to the circuit reference potential (possible). The output of the differential amplifier is connected to the anode of the first semiconductor diode and to the cathode of the second semiconductor diode. The cathode of the first semiconductor diode is connected to the first output terminal and the anode of the second semiconductor diode is connected to the first input of the amplifier.

409815/0871

The circuit of the converter described works as a linear one-way detector of the mean value of the course to be measured.

The influence of the shape of the conduction characteristic of the semiconductor diodes is eliminated by their negative feedback.

A disadvantage of the known converter is based on the significant IT nonlinearity of the conversion in the case of using a Differential amplifier with low gain, which affects the value of the negative feedback.

The expansion of the differential amplifier for the purpose of increasing the gain and thus the negative feedback is due to power consumption limited from the feed battery.

The object of the invention is to overcome these disadvantages of the known To eliminate converter.

This task is solved by the formation of an additional positive feedback loop, which forms a divider, with one side with the output of the differential amplifier and with the other side with the circuit reference potential leading point and its slider is connected to the second input of this amplifier, the first input of the differential amplifier via the first resistor and the capacitor to the first input terminal and via the second resistor to the first input of the detector, the output of the amplifier with the second input of the detector and the third input of the detector with the first input of the differential amplifier, the first output des detector with the first output terminal and the second Output of the detector connected to the second output terminal and the second input pin to the one carrying the circuit reference potential Point is connected.

4038 1 57.0871

The positive feedback loop consists of one Divider with its first end connected to the output of the differential amplifier and with its second end connected to the circuit reference potential leading point and is connected with its grinder to the second input of the amplifier. The converter has one high conversion linearity and low power consumption.

The mentioned advantages of the converter are multiple "Enlargement of the gain of the differential amplifier achieved with a simple structure of the same.

The positive feedback loop doesn't just magnify the amplification of the amplifier, but at the same time also enables a regulation of the conversion s character act he is ik by appropriate Selection of the divider level.

The circuit of the transducer according to the invention for conversion from AC voltage to DC voltage is · in the drawing shown.

The first input of the differential amplifier W is connected to the first input terminal via the first resistor E. and the capacitor C 1, as well as via the second resistor Rp with the first Input of a detector D connected. The second input (+) of the differential amplifier VJ is connected to the dividing element of the divider d. The output of the differential amplifier W is also with a. End of divider d and to the second input of the detector D connected.

-The third input of the detector is connected to the first input of the differential amplifier W, the first output of the detector D. to the first output terminal 5 and the second output of the detector D connected to the second output terminal 4.

Α098Ί5 / 087 1

The second input terminal 2 and the second end of sharing d, however, are connected to ground.

Claim

4098 1 5/0871

Claims (1)

PATENT CLAIM Measuring transducer for converting AC voltage into DC voltage, with a differential amplifier, a detector, a capacitor and with resistors, the first input of the differential amplifier having a first resistor and the capacitor of the first input terminal and is connected to the first input of the detector via a second resistor, the output of the The amplifier is connected to the second input of the detector, and the third input of the detector is connected to the first input of the Differential amplifier, the first output of the detector with the first Output terminal and the second output of the detector are connected to the second output terminal and the second input terminal the
is connected to the point carrying the circuit reference potential, characterized in that the first end of a divider (d) with the output of the differential amplifier (W), the second end of the divider (d) with the point carrying the circuit reference potential and the slider of the divider ( d) are connected to the second input of the differential amplifier (W). 8 1 5/0 8 7 1 Read more