CS209085B1 - Connection of pulse-width modulator - Google Patents

Description

CZECHOSLOVAK SOCIALIST REPUBLIC (19) OFFICE FOR INVENTIONS AND DISCOVERIES DESCRIPTION OF THE INVENTION FOR COPYRIGHT CERTIFICATE 209085 (11) (Bl) (51) Int. Cl.3 H 03 C 1/14 (22) Registered 31 10 79 (21) (PV 7402-79) (40) Published 31 10 80 (45) Published qj 07'83 (75) Author of the Invention A HAINZ PETR ing " PRAGUE (54) Pulse width modulator wiring

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a pulse-width modulator circuit comprising an operational amplifier and a reference voltage across a third and a quarter period. There are currently a number of widespread pulse modulators (for example, analog and hybrid computers with pulse multipliers, where these modulators are used). Typically, the principle of triangular or saw reference signal modulation signaling and principles using a magnetic amplifier or digital converters is used for promodulation. Where high demands are placed on accuracy (apparatus for very accurate measurements), the digital transducers are bulky and expensive. Magnetic amplifiers place high demands on the material, and the higher transmission speed requirements must be additionally equipped with an auxiliary power generator. Transducers using the reference signal modulation to the modulation make high demands on the comparator's high quality.

The aforementioned disadvantages are substantially eliminated by the present invention, which consists in that the input terminal is connected via a first resistor to an inverting input of the operational amplifier, via a first condenser with a ground terminal, via a second resistor with an output terminal and via a serial combination of the third and fourth-h resistance with output terminal. A ground terminal is connected between the third and fourth resistor connections via a second capacitor. The output of the operational amplifier is connected via the fifth resistor to the output terminal. The non-inverting input of the operational amplifier is switched on through the seventh resistor and the ground terminal and the sixth resistor with the output terminal. The advantage of the wiring is the high reliability resulting from the simplicity of the wiring. Another advantage is the very low cost of making the connection.

The drawing shows an example of a particular circuit according to the invention. The operational amplifier OZ has, through a divider consisting of the sixth and seventh resistors R6 and R7, a non-inverting input 13 applied to the voltage of the output of the amplifier OZ which is a limiter formed by the fifth resistor R5 of the first and second diodes D1 and D2. This engagement engages positive feedback. Through the second resistor R2, the first and second diodes D1 and D2 are also connected to the first capacitorCl whose voltage is compensated by the operational amplifier OZ. The ground terminal Z is connected to the first capacitor C1, thereby providing a oscillation circuit with the amplitude given by the divider formed by the sixth and seventh resistors R6 and R7, which is selected for a given negligible size due to the magnitude of the operating voltage. The shear of the thus formed rectangular generator is changed to 209085

Claims (1)

209085, the voltage at the input terminal Ux connected via the first resistor R1 to the inverting input 12 of the operational amplifier OZ. The linearity of the dependence between the output voltage and the input voltage is increased by the negative feedback through the filter element formed by the third and fourth resistors R3 and R4a by the second capacitor C2. If I change between the reference Uz and the input voltage at the first Ux, the characteristics of the modulator change and the duty is then inversely proportional to the control voltage. The wiring output is formed by the output terminal Uy. The reference voltage, positive and negative + Uz, —Uz, is introduced into the wiring through the third and quarter-periods D3, D4. SUBJECT Wiring of a pulse width modulator consisting of an operational amplifier and a connection of a reference voltage (Uz) through a third and a fourth diode (D3, D4), characterized in that the input terminal (Ux) is connected via the first resistor (R1) to the inverting input (12 ) an operational amplifier (OZ), through a first condenser (Cl) with a ground terminal (Z), through a second resistor (R2) with an output terminal (Uy) and through a serial combination of the third and fourth resistors (R3, omitting the antiparallel connection of the first and second diodes D1 and D2 is deteriorating due to the temperature dependence of the circuit These diodes serve to compensate for the temperature coefficient of the third and fourth diodes D3 and D4, by releasing the third and fourth diodes D3 and D4, which is only possible with some types of operational amplifier OZ, the accuracy that is given to the power supply voltage of operational amplifier OZ.This connection is suitable for example for various sensors used in converters OF THE INVENTION R4) with an output terminal (Uy), a ground terminal (Z) is connected between the third and fourth resistor connections (R3, R4) via a second capacitor (C2), an output amplifier (OZ) is connected via a fifth resistor (R5) to an output the terminal (Uy), wherein the non-inverting input (13) of the operational amplifier (OZ) is connected via the seventh resistor (R7) to the ground terminal (Z) and the sixth resistor (R6) to the output terminal (Uy). 1 drawing