DE3220553C2 - Sawtooth generator - Google Patents

Abstract

The invention relates to a sawtooth generator with an integrator (1), the output of which is connected to a first input of an adder (3e, 3f, 4a). The output of the adder is connected to the input of a controller (3) with integrator behavior, the output of which is connected to the input of the integrator (1). The output of the integrator (1) is also connected to an input of a comparator (4), at the comparison input of which a reference voltage (U ↓ r ↓ e ↓ f ↓ 3) is present which is above a nominal peak value of the sawtooth voltage. The output of the comparator (4) is also connected to an input of the adder (3e, 3f, 4a) via a diode (4b). A reference voltage (U ↓ r ↓ e ↓ f ↓ 1) is also present at another input of this adder. In this circuit, the input voltage of the integrator (1) is reduced with a small time constant when its output voltage exceeds the third reference voltage (U ↓ r ↓ e ↓ f ↓ 3). This means that the output voltage of the sawtooth generator is very quickly brought close to its setpoint, where the controller (3) then takes over the fine control.

Description

The invention relates to a sawtooth generator with a capacitor containing a rechargeable battery Integrator and an electronic switch connected in parallel to the capacitor for resetting of the integrator at periodic intervals, the output of the integrator and a first reference voltage source with opposite polarity each connected to the inputs of an adder are, wöbe · the output of the adder with the input of a controller with integrator behavior is connected, the output of which is connected to the input of the integrator is connected and wherein the time constant of the controller is significantly greater than the time constant of the integrator is.

Both from US-PS 37 69 598, as well as from DE-OS 31 12 502 a sawtooth generator of the above is Kind of known in which the peak value of the sawtooth voltage is independent of its frequency and of capacitance fluctuations of the capacitor.

This is achieved in that the controller has an integrator behavior the input voltage of the integrator so that the mean value of the sawtooth voltage with corresponds to the first reference voltage. To achieve good linearity of the sawtooth voltage, may the change in the input voltage of the caused by the controller during an integration process Integrator can only be negligibly small. So the time constant of the controller must be much larger than the time constant of the integrator. On the other hand, it takes a long time to correct system deviations the longer, the greater the controller's time constant. This can occur when the sawtooth generator is switched on as well as having a disruptive effect in the event of rapid changes in the frequency of the sawtooth voltage.

The principle of providing an integrator containing a capacitor in a sawtooth generator, whereby the capacitor is periodically discharged via an electrical switch is also from DE-OS 22 57 259 known

From DE-PS 25 11 642 a frequency-dependent regulation of the amplitude of the sawtooth voltage is known

Also from the magazine "Electronics", March 3,1969, Page 97 a sawtooth generator is known, the output voltage of which influences the charging current of the integrator is regulated to a predetermined amplitude.

The object of the invention is therefore to design a sawtooth generator of the type mentioned at the outset in such a way that that with constant good linearity of the sawtooth voltage in the settled state a fast Correction of system deviations takes place.

According to the invention, this object is achieved in that the output of the integrator has an input of a comparator is connected, at whose comparison input a third, in terms of amount above a nominal peak value the sawtooth voltage is the prevailing reference voltage, and that the output of the comparator is connected via a diode to a further input of the adder, so that the input voltage of the integrator is reduced when its output voltage is the third reference voltage exceeds.

In the arrangement according to the invention, the integrator is used in addition to that with the adder determined control deviation, the output voltage of the comparator is switched off when the output voltage of the integrator exceeds the reference voltage in terms of amount. This becomes the input voltage of the integrator changes faster with the regulator until its output voltage is below the third reference voltage again lies. In this way, the sawtooth voltage is very quickly approximated to the desired value the fine control of the sawtooth voltage takes place without the intervention of the comparator.

In a sawtooth generator in which the adder and controller are implemented with an operational amplifier, a capacitor being arranged between the output and the inverting input of the operational amplifier and the inverting input of the operational amplifier via a first resistor with the value R with the nominal peak value of the sawtooth voltage supplying the first reference voltage source and is connected to the output of the integrator via a second resistor with the value V ₂ R. can advantageously the output of the comparator via a series connection of the diode and one

further resistor with a value which is significantly smaller than ^x h R , be connected to the inverting input of the operational amplifier. Such a sawtooth generator can therefore be implemented with a few components.

An embodiment of the invention is shown in FIG. 1 shown. Here, an operational amplifier la is provided as the integrator 1, the output of which a capacitor Xb NIFT its inverting input is connected. A reference voltage ürcii , which it integrates, is fed to the inverting input of the operational amplifier Xa via the resistor Ic. The capacitor 1 b, a switch 2 is connected in parallel, which is closed at periodic intervals of time by a clock generator 2a. The integrator 1 thus integrates the voltage present at the resistor Ic until the switch 2 is closed. The output voltage at the output terminal A thus goes back to zero and increases again largely linearly after the switch 2 is opened. The rate of rise and thus also the peak value of the resulting T sawtooth voltage is determined by the level of the voltage across the resistor Ic and by the capacitance of the capacitor Xb . In this respect, the circuit according to FIG. 1 corresponds to the conventional technology for realizing a sawtooth generator. The accuracy of the apex is limited by the capacitor, the capacity of which is subject to greater tolerances and is also dependent on the ambient temperature and aging. Without additional measures, the peak value of the sawtooth voltage is also proportional to the integration time of the integrator 1 and thus dependent on the control frequency of the electronic switch 2.

In order to eliminate the dependence of the apex of the sawtooth voltage on the capacitance of the capacitor Xb and the control frequency of the electronic switch 2, a control circuit S also shown in FIG. 1 was proposed in the above-mentioned DE-OS 31 12502. The output of the operational amplifier Xa is connected to the inverting input of an operational amplifier 3a via a resistor 3e. In addition, the inverting input of the operational amplifier 3a is connected to a reference voltage source U _n -i \ via a resistor 3 /. The output of the operational amplifier 3a is also connected to its inverting input via a capacitor 3b. The operational amplifier 3a therefore acts as an integrating regulator which integrates the sum of the output voltage of the integrator 1 evaluated with the resistor 3e and the voltage of the reference voltage source U _rc f \ evaluated with the resistor 3f . The time constant of the controller 3 formed with the operational amplifier 3a and the capacitor 3b is significantly greater than the time constant of the integrator 1. If the target peak value of the sawtooth voltage is applied as the first reference voltage Urert , the resistor 3e has half the value of the resistor 3 / " If, for example, the mean value of the negative sawtooth voltage, i.e. half the peak value for an ideal sawtooth voltage, is smaller than half the reference voltage LWi, the inverting input of the operational amplifier 3a has a mean positive voltage rn, which is integrated in the controller 3 Since the operational amplifier 3; / reverses the polarity of the control deviation, an inverter 3c is connected downstream of its output, which cancels the polarity reversal. The output voltage of the controller 3, which is fed to your integrator 1, therefore increases until its value finally with the Reference _voltage U rc f \ . At the input of the Controller 3 is then only an alternating voltage which, because of the relatively large time constant of controller 3, does not lead to any change in the output voltage in the circuit explained so far. The course of the sawtooth voltage Us, which occurs during a control process according to the

ίο the circuit explained so far is in the Stress diagram according to FIG. 2 shown with solid lines.

In the circuit according to FIG. 1 - regardless of the fluctuations in the capacitance of the capacitor Xb and the control frequency of the electronic switch 2 - the sawtooth voltage is set in such a way that its mean value coincides with the reference voltage U _K t \ , and thus its peak value only depends on the reference _voltage U rc i \ depends, which can be specified with high accuracy. In order to obtain a sawtooth voltage as early as t -m switch-on, which corresponds as closely as possible to the setpoint voltage, a second reference voltage U ^ r2 is fed to the resistor Ic. The second reference voltage Urcfi and the capacitor Xb de ·. Integrators 1 are chosen in such a way that the best possible approximation to the nominal value of the apex is obtained. The output signal of the controller 3 is added to the second reference voltage U _rc n and compensates for any deviations of the apex of the sawtooth voltage from the setpoint. In the case of high demands on the linearity of the sawtooth voltage, the time constant of the controller 3 must be selected to be very large for the reasons already explained. It is inevitable that the control deviations when switching on the arrangement as well as with relatively rapid changes in the control frequency of the electronic switch 2 take place relatively slowly.

In order to achieve faster compensation in applications in which such system deviations are a problem, can the circuit described so far, proposed in DE-OS 31 12 502 according to the invention by the following, also in FIG. ! supplement shown.

The output of the integrator 1 is connected to the non-inverting input of an operational amplifier 4c, at the inverting input of which a third, negative reference voltage Urcn is present. The output of the operational amplifier 4c is connected to the inverting input of the operational amplifier 3a via a diode 46 and a resistor 4a. The cathode of the diode 4h faces the output of the operational amplifier 4c. The value of the negative reference voltage U _n -n is equal to the negative value of the positive reference voltage U _{n -n-}

The function of this circuit is illustrated below with the aid of the voltage diagrams according to FIG. 2 explained in more detail. The output voltage of the regulator 3 is denoted by Uij. When switching on or after a

In the example according to FIG. 2, the frequency jump is the magnitude of the peak value of the sawtooth voltage z'jnichst significantly greater than its setpoint value predetermined with the reference voltage U _rc n. As long as the output voltage of the integrator! is bigger than the negative reference

hO voltage U _rc i \. the output voltage of the comparator 4c is positive and therefore does not contribute to the input signal of the controller 3 because of the diode 4i> polarized in the reverse direction.

TO DDJ

borrowed the voltage difference of the sawtooth voltage (A, and the reference voltage U _n - / \. Since the integration time constant given by the resistors 3c and 3 / ″ and the capacitor 3d is > very long for the reasons explained above must be, the output voltage of the regulator 3 is hardly changed, ie only slightly corrected the input voltage of the integrator I. However, as soon as the sawtooth voltage Us is below the negative reference voltage - U _re i \ , the output of the comparator 4c becomes negative and From the diode conducts the comparator 4 thus provides a negative signal to the input of the controller 3. Since the resistor 4 ;; 3c substantially smaller than the resistance, in this procedure, the time constant of the integrator 3 highly verrin- · ι -.> siege. As F i g. 2, this integrated high very quickly and ensures a fast correction of input span ππππ rli "c Inlinrrilnri I ^ rvKiM Aie * ^ * Qn i7! ihnen'inniinii

Us is reset to zero again with switch 2, a phase follows again in which integrator 3 integrates with: <> large time constant.

As FIG. 2 shows, the amplitude of the sawtooth voltage Us is brought up to its nominal value very quickly, namely within a few periods. While the comparator 4 intervenes, the gradient of the voltage curve is changed. However, this is generally less of a problem than a control deviation lasting over a long period of time, in particular if the intervention of the comparator 4 only takes place in the switch-on phase, where the device function is generally blocked anyway. In normal operation, the comparator 4 no longer responds and thus does not influence the slope of the sawtooth curve. The fine adjustment of the amplitude is carried out by the controller 3.

With the described comparator 4, the input voltage of the integrator 1 can only be used in one direction be influenced, in the exemplary embodiment, for. B. be reduced. The circuit should therefore be designed in such a way that that without controller intervention the amplitude of the sawtooth voltage is not below its nominal value. The output voltage of the controller is therefore at each maximum deviation between zero and + 10 volts.

1 sheet of drawings

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Claims (2)

Patent claims: 1. Sawtooth generator with an integrator containing a rechargeable capacitor and an electronic switch connected in parallel to the capacitor for resetting the integrator at periodic intervals, the output of the integrator and a first reference voltage source of opposite polarity being connected to the inputs of an adder, the output of the adder is connected to the input of a controller with integrator behavior, the output of which is connected to the input of the integrator and wherein the time constant of the controller is significantly greater than the time constant of the integrator is characterized in that the output of the integrator (1) with a The input of a comparator (4) is connected, at whose equalizing path a third reference voltage (U _n n) is present, which is above a nominal peak value of the sawtooth voltage and that the output of the comparator (4) via a diode (4b) another input ang of the adder is connected, so that the input voltage of the integrator (1) is reduced when its output voltage exceeds the amount of the third reference voltage (Urcfi). 2. Sawtooth generator according to claim 1, wherein the adder and controller are implemented with an operational amplifier, wherein a capacitor is arranged between the output and the inverting input of the operational amplifier and wherein the inverting input of the operational amplifier via a first resistor with the value R with the target peak value the first reference voltage source supplying the sawtooth voltage and is connected _{to the output of the integrator via a second resistor with the value V 2} R , characterized in that the output of the comparator via a series connection of the diode (4b) and a further resistor (4a ^ with a value , which is much smaller than V ₂ R, is connected to the inverting input of the operational amplifier (3a) .