DE2507819A1 - Periodic voltage or current generating cct. - has integrator consisting of time dependent and independent negative feedback differential amplifier - Google Patents

Abstract

The integrator consists of a differential amplifier with a time dependent positive and time independent negative feedback. A resistive voltage divider between the amplifier output and reference potential is connected through a resistor to the amplifier noninverting input, also connected to frame through a capacitor in parallel with discharge switch. A series-coupled resistor connects to the circuit input. The voltage divider tapping is also connected through another resistor to the amplifier inverting input, connected through a resistor to frame. A control voltage, shaping the voltage rise, is applied to the circuit input and a second control voltage is applied to the circuit second input, superposed on the first control voltage integral w.r.t. to time, and affecting it to a degree determined by the ratio of the resistors. The control voltages meet a time linear periodic function with a finite number of discontinuities, and the resistors satisfy specified relations.

Description

Circuit arrangement for generating a periodic voltage and / or a periodic current with a rise formation that can be selected within wide limits.

The invention relates to a circuit arrangement for generating a periodic voltage and / or a periodic current within wide limits optional ascent training.

Periodic voltages, seldom also periodic currents with different rise forms are required.

For example, generators are used to deflect the tin electron beam in cathode ray tubes that have a sawtooth voltage or a sawtooth current generate very high linearity as well as influencing the amplitude and the position of the saw tooth to a reference potential. For this purpose Generators are known that have a sawtooth voltage control from finite Enable internal resistance via a coupling capacitor and, if necessary, a flow-proportional return included.

Precompensation for the coupling capacitors is possible by means of suitable means caused distortions of the sawtooth current. The required sawtooth position shift is effected via suitable decoupling agents.

These generators are large in volume and have poor efficiency and also a high failure rate.

The large number of such special circuits impairs production these generators in large numbers considerably, since they are quite expensive and contain too different components.

The invention is based on the object of a suitable, on and for to select a known basic circuit and to change the circuit in such a way that that by means of a suitable control a selectable ascent training; one periodic Voltage and / or a periodic current is possible.

According to the invention the object is achieved in that the circuit input an integrator consisting of a time-dependent and time-independent negative feedback Operational amplifier consists in which a connection point of two series-connected Resistors, on the one hand to the output of the operational amplifier and on the other hand are connected to a reference potential, both via a resistor with the non-inverting Input of the operational amplifier, which is also connected to a reference potential Capacitor is connected, which is associated with the same periodically discharging switch is, and a resistor connected in series with this itiderstand with the circuit input as well as via a resistor to the inverting input of the operational amplifier and a resistor connected in series with this resistor with the reference potential is connected to a control voltage that determines the rise, that a second control input, which has a resistor with the non-inverting Input and another resistor to the inverting input of the op amp is connected, is applied with a second control voltage that corresponds to the circuit output generated time integral of the applied to the circuit input of the integrator Control voltage in one by the ratio of between the connection point of two series-connected resistors, which on the one hand go to the output of the operational amplifier and on the other hand are connected to a reference potential, and the inverting input of the operational amplifier lying Xresistance to that between the second control input and the inverting input of the operational amplifier lying iJlders-t; and certain dimensions is superimposed inverting and reaction-free that the two Control voltages of a time-linear, periodic function with a finite number of discontinuities within the periodicity interval and that the resistors used have a certain relationship to each other. It must be the one between the connection point two connected in series Resistors to the op amp output and the reference potential are connected, and the non-inverting input of the Op-amp lying resistance to the one with it in the positive feedback branch in Series lying resistance connected to the circuit input behave like between the connection point of two .. resistanceS connected in series, the are connected to the operational amplifier output and the reference potential, and-dem inverting input of the operational amplifier lying resistor to the with him in series in the negative feedback branch, connected to the Eezugspotential Resistance. In addition, the must be between the connection point of two in series switched resistors and the non-inverting input of the operational amplifier arranged resistor to the one between the second control input and the non-inverting one Input of the operational amplifier arranged resistance behave like the one between the connection point of two resistors connected in series and the inverting ones Input of the operational amplifier arranged .iiderstand to that between the second Control input and the inverting input of the operational amplifier arranged Resistance.

has been found to be beneficial if the resistances are observed The above conditions are designed in such a way that the connection point between two resistors connected in series and the non-inverting input of the operational amplifier arranged resistance equal to that between the connection point of two in series switched Jiderstande and the inverting input of the operational amplifier arranged resistor, the one lying in the positive feedback branch at the circuit input Resistance of the integrator equal to that in the negative feedback branch at the reference potential lying resistance and that the two associated with the second control input Resistances are the same.

@@ r certain uses it is beneficial to the tax receipt an appropriately selected switch for periodic discharge of the positive feedback branch arranged Capacitor with the output of a monostable multivibrator to connect whose input is connected to the output of a comparator whose an input with the connection point of two resistors connected in series, on the one hand to the output of the operational amplifier and on the other hand to a Reference potential are placed, and its other input with an adjustable, constant reference voltage is applied.

The same effect, but much cheaper and for most applications can be sufficient by using a suitable semiconductor component as Switch for periodic discharge of the capacitor arranged in the positive feedback branch reach. As particularly advantageous and sufficient for most applications the use of a unijunction transistor as a switch has proven itself while for higher demands the use of a programmable unijunction transistor makes more sense.

A circuit arrangement designed in this way is outstandingly suitable for an integrated circuit design.

The output voltage of this circuit is triple time-dependent Function. If you grasp the control voltages applied to the two control inputs e.g. as time-linear periodic functions with a finite number of points of discontinuity within a periodicity interval, result depending on the Control of periodic voltages and / or periodic currents with arbitrarily selectable Increase, whereby the circuit arrangement can be used universally.

For example, the circuit is used to generate a periodic sawtooth voltage and / or a periodic sawtooth current of very high linearity can be used by the circuit input and the second control input each have an adjustable, constant Voltage is applied. Via the adjustable, constant voltage can be the amplitude of the sawtooth voltage and above that on the second Control input adjacent adjustable.

constant voltage can change the position of the sawtooth voltage to a reference potential to be influenced. By changing the connection point between two in Series connected between the operational amplifier output and the reference potential lying resistors and the reference potential arranged resistor is one additional influence of the sawtooth current by the one at the operational amplifier output arranged resistance possible.

The circuit is equally successful as a progressive sawtooth generator usable by providing the circuit input with an adjustable, constant voltage and a sawtooth voltage is applied to the additional control input.

This can advantageously be implemented in such a way that the circuit input with an adjustable, constant voltage source and the second control input is connected to the circuit output of a second circuit according to the invention, their circuit input and their second control input each with an adjustable, constant voltage are applied. With the circuit, one can also be set Skewly symmetrical parabolic voltage can be generated if the circuit input and the second control input with a sawtooth voltage of the same periodicity (same Time base, phase shift equal to zero).

this is realized particularly advantageously in that the circuit input and the second control input with the circuit output of a second according to the invention Circuit are connected, the circuit input and the second control input are each applied with an adjustable, constant voltage.

Furthermore, the circuit is also available as a temporally non-linear sawtooth generator Can be used if the circuit input has a discrete, periodic voltage sequence and the second control input has an adjustable, other voltage applied to it is.

The invention makes it possible to use one circuit in a wide range Limits selectable, defined training of the voltage and / or current rise guarantee.

This makes the circuit suitable for many purposes, whereby an efficient production in large numbers is made possible.

The invention is to be described in more detail below using a Ausfilrungsbeispiel explained. The accompanying drawing shows the basic design of the circuit according to the invention.

The connection point 3 forming the circuit output of two in series switched 4resistors Bii Rg, on the one hand to the output of the operational amplifier 2 and on the other hand are connected to a reference potential, is both via a resistor R3 with the non-inverting input 4 of the operational amplifier 2 and one with resistor R1 connected in series to resistor R3 with the circuit input 1 and via a resistor R4 to the inverting input 5 of the operational amplifier 2 and a resistor R2 connected in series with the resistor R4 to the reference potential tied together. The non-inverting input 4 of the operational amplifier 2 is also connected to a capacitor C connected to the reference potential, which is the same periodically discharging switch S is assigned. A second control input 6 is through a resistor R5 to the non-inverting input 4 and another Resistor R6 connected to the inverting input 5.

The resistors R1 to R6 are dimensioned so that the resistance R3 to resistor R1 behaves like the resistor R4 to the resistor R2 and resistor R3 to resistor R5 like resistor R4 to resistor R6.

The resistor has proven to be very favorable for production R1 is equal to resistor R2, resistor R3 is equal to resistor R4 and the Dimension the resistance equal to the resistance R6.

If the circuit input 1 and the second control input 6 with a voltage u1 or u2 is applied, and a time-linear, periodic voltage Function with a finite number of discontinuities within the periodicity interval is sufficient, depending on the applied voltages u1 or u2 at the connection point 3 a periodic voltage is taken and / or a periodic voltage in resistor R7 Electricity can be generated, whereby a defined ascent training is guaranteed. The periodic current through resistor R7 can also be influenced, when the resistance R8 is changed.

If the circuit input 1 and the second control input 6 with each with an adjustable, constant voltage U1 or u2 applied, generates the Switching a periodic sawtooth voltage and / or a very high sawtooth current Linearity. By means of the adjustable, constant voltage u1, the amplitude the sawtooth voltage and the position using the adjustable, constant voltage u2 the sawtooth voltage can be influenced to a certain reference potential.

dird the circuit input 1 with an adjustable, constant voltage u1 and the second control input 6 applied with a sawtooth voltage u2, generated the circuit a periodic voltage and / or a periodic current with progressive Rise.

An adjustable skew-symmetrical parabolic voltage is provided by the Circuit generated when both the circuit input O 1 and the second control input 6 with a sawtooth voltage u1 = u2 of the same periodicity, the same time base and a phase shift equal to zero are applied.

The circuit can also be used as a temporally non-linear saw-tooth generator be used when the circuit input is 1 with a discrete, periodic Voltage sequence ul and the second control input 6 with an adjustable, constant Voltage u2 are applied.

A progressive sawtooth generator is sensibly implemented in such a way that that the hold input 1 is applied with an adjustable, constant voltage ul is and the second control input 6 with the connection point 3 'of another such Circuit is connected, the circuit input 1 and the second control input 6 'each has an adjustable, constant voltage u1 or u2 applied to it are.

An adjustable skew-symmetrical parabolic voltage becomes special advantageously generated in such a way that both the circuit input 1 and the second Control input 6 of the circuit with the connection point 3 'of another such Circuit are connected, the circuit input 1 and the second control input 6 each have an adjustable, constant voltage u1 or u2 applied to them.

If the switch S is e.g. a unijunction transistor or a programmable one Unijunction transistor used, the circuit arrangement works automatically, i.e. without external influence.

Claims (13)

Patent claims 1. Circuit arrangement for generating a periodic voltage and / or of a periodic current with a rise formation that can be selected within wide limits, thereby characterized in that the circuit input (1) of an integrator, which consists of a time-dependent with and time-independent negative feedback operational amplifier (2) consists in which a connection point (3) of two series-connected resistors (R7; R8) which on the one hand to the output of the operational amplifier (2) and on the other hand to a Reference potential are placed, both via a resistor (R3) with the non-inverting Input (4) of the operational amplifier (2), which is also connected to a reference potential lying capacitor (C) is connected to which the same periodically discharging Switch (S) is assigned, and one with this resistor (R3) connected in series Resistor (R1) with the circuit input (1) as well as via a resistor (R4) with the inverting input (5) of the operational amplifier (2) and one with this Resistor (R *) series-connected fliderstand (R2) connected to the Bezagapotevtial is applied to a control voltage (u1) which determines the rise, that a second control input (6), which is connected to the non-inverting via a resistor (R5) Input (4) uid another resistor (R6) with the inverting input (5) of the operational amplifier (2) is connected to a control voltage (u2) beauSschlagt-is, the time integral of the control voltage (u1) generated at the circuit output inverting to an extent determined by the resistance ratio (R4: R6) and is superimposed without any reaction that the control voltages (u1; u2) each have one time-linear, periodic function with a finite number of discontinuities within of the periodicity interval and that the resistors (R1 to R6) have a certain Ratio to each other, namely R3: R1 = R4: $ 2 and R3: R5 = R4: R6. 2. Circuit arrangement according to claim 1, characterized in that the resistors (R1 to R6) also have the equations R1 = R2: R3 = R4 and R5 = Meet R6. 3. Circuit arrangement according to claim 1 or 2, characterized in that that an input of a comparator with the connection point (3) of two series-connected Resistors (R7; R8) that are connected to the output of the operational amplifier (2) and on the other hand are connected to a reference potential, the other input is connected of the comparator has an adjustable, constant reference voltage applied to it is, the output of the comparator with the input of a monostable multivibrator and the iviultivibrator output with the control input of a known per se, appropriately selected switch (S) for periodic discharge of the positive feedback branch arranged Koniensators (C) is connected. 4. Circuit arrangement according to claim 1 or 2, characterized in that that a semiconductor component is used as the switch (S). 5. Circuit arrangement according to claim 4, characterized in that A unijunction U-transistor is used as switch (s). 6. Circuit arrangement according to claim 4, characterized in that a programmable unijunction transistor is used as switch (S). 7. Circuit arrangement according to one of claims 1 to 6, characterized in that that the circuit has an integrated structure. 8. Circuit arrangement according to one of claims 1 to 7, characterized in that that the circuit input (1) and the second control input (6) each with an adjustable, constant voltage (u1 or u2) are applied. 9. Circuit arrangement according to one of claims 1 to 7, characterized characterized in that the circuit input (1) with an adjustable, constant Voltage (u1) and dep zite control input (6) applied with a sawtooth voltage (u2) is. 10. Circuit arrangement according to claim 9, characterized in that an adjustable, constant voltage Cu1) is present at the circuit input (1) and the second control input (6) with the connection point (3) of two connected in series Resistors (R7; R8) of a circuit according to claim 8 is connected. 11. Circuit arrangement according to one of claims 1 to 7, characterized characterized in that the circuit input (1) and the second control input (6) with a sawtooth voltage with the same periodicity (same time base, phase shift equal to zero) are applied. 12. Circuit arrangement according to claim 11, characterized in that that the circuit input (1) and the second control input (6) with the connection point (3) two resistors (R7; R8) of a circuit according to claim 8 are connected. 13. Circuit arrangement according to one of claims 1 to 7, characterized characterized in that the circuit input (1) with a discrete, periodic Voltage sequence and the second control input (6) with an adjustable, constant Voltage is applied. L e r s e i t e