DE1272357B - Circuit arrangement for generating periodic, sawtooth-shaped voltages of adjustable amplitude and polarity with the aid of a Miller integrator - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

H03k

German class: 21 al - 36/02

Number: 1272 357

File number: P 12 72 357.8-31 (J 29178)

Filing date: October 14, 1965

Opening day: Wed 11, 1968

The invention relates to a circuit arrangement for generating periodic, sawtooth-shaped voltages adjustable amplitude and polarity with a Miller integrator consisting of a capacitive There is a feedback amplifier to which pulse-shaped signals are fed via a resistor.

In such a sawtooth generator, it is often necessary to measure the slope of the leading edge of the To change the sawtooth signal or to set the quiescent level of the output signal to any value. So z. B. in a radar display device for mapping on the screen of a Cathode ray tube supplied with continuously changing deflection currents to the assigned deflection coils, to get a circular time base. The center of such a circular representation can then be shifted by changing the rest level of the deflection currents accordingly.

When using such a sawtooth generator in analog technology or in analog-to-digital converters a variable leading edge of a sawtooth signal is used to represent a variable input function, while an addition constant is given by the quiescent level.

However, it is a disadvantage of known sawtooth generators that the rising edge is not readily apparent and the quiescent level can be changeable, while at the same time a stable and reliable Working method should be retained. The effort for this is relatively great.

The object of the invention is to provide a sawtooth generator in which under relatively little Effort is created to both the rising edge and the quiescent level of a To be able to adjust the sawtooth signal as required, with the reliability and accuracy are not influenced. In addition, the falling edge of the sawtooth signal should be substantial shorter time interval than before.

According to the invention, the object is achieved in that the output of the capacitive feedback amplifier is connected to the first input of a comparator circuit, the second input of which is supplied with a first control signal defining the reference voltage of the sawtooth-shaped voltages and its output via a switching device to the input of the capacitive is connected to the feedback amplifier that the comparator output signal for the respective provision of the reference voltage only during the respective duration of the occurrence of the reference voltage in the sawtooth-shaped output signal determines circuit arrangement for generation
periodic, sawtooth-shaped stresses
adjustable amplitude and polarity with
Help from a Miller integrator

Applicant:

International Business Machines Corporation,
Armonk, NY (V. St. A.)

Representative:

Dipl.-Ing. R. Busch, patent attorney,

7030 Boeblingen, Sindelfinger Str. 49

Named as inventor:

Frank Douglas Dickin, Winchester, Hampshire

(Great Britain)

Claimed priority:

Great Britain October 16, 1964 (42 240)

Menden pulse pauses of the pulse-shaped input signals is effective, their respective amplitude and Polarity for setting the amplitude and polarity of the sawtooth voltages accordingly are determined by the level of a second control signal (B).

Apart from the fact that the steepness of the rising edge of the output signal depends on the roof slope of the pulse-shaped input signal is dependent and can be predetermined accordingly, can but also the steepness of the rising edge of the output signal due to the choice of amplitude of the control signal supplied to the comparator circuit, which at the same time determines the quiescent level. Because the quiescent level is permanently effective, the capacitive feedback amplifier is also which advantageously has a high gain factor, permanently effective, so that no sudden transition, caused by a switch-on process, can occur, as is otherwise the case with Miller integrators is the case.

Finally, there is the additional advantage that the effect of the second feedback path the falling edge of the sawtooth signal is taxed, especially if according to a advantageous development of the invention the

809 569/504

3 4

equal circuit from a differential amplifier resistor 3 is connected. The other end of the high degree of amplification is, as then located in the GR resistor 3 at the input of Umkehrversentlichen a rectangular pulse to the input of stärkers 1. By means of the switching device 7 can be capacitive feedback amplifier fed back so once the switching input α for supplying the will. According to a development of the invention, input δ is used to supply the comparison circuit, advantageously for generating pulse-shaped output signals via the switching output 7 with the input signals of a switching device that connects the alternating input of the Miller integrator. The switching method of the input of the capacitive feedback device 7 can be a mechanical, electrical amplifier with the input terminal for supplying io mechanical, such as relays, or an electronic one of a continuous control signal and with the off switching device, such. B. a switching mechanism that couples the output line of the comparator circuit. in particular from two logic elements

While when creating a pulse-shaped stand, their outputs are interconnected

Control signal z. B. a corresponding Diodenanord- are and of which one or the other effective

voltage at the input of the Miller integrator for which is 15 sam.

alternating application of the control signal and the system arrangement can best be described with the aid of the diagrams in FIG. 1 when applying a continuous control signal. 2 describe. The waveform ^ the Miller integrator controlled by the action of the named shows the switching state of the switching device 7th switching device. This switching device 20 (Fig. 1), the waveform B (Fig. 2) the course of the tion can be, for example, an electronic switchgear, two of which are connected to input terminal 8 (Fig. 1) and consist of two AND gates, the th control voltage, the waveform C (Fig. 2) that alternately through corresponding clock pulses output signal at the output terminal 4 (Fig. 1) become effective. Of course, one and the waveform D (FIG. 2) can also be the comparator mechanical or electromechanical switching device output signal at the switching input b (FIG. 1). can be used. The course of the waveforms is in each case

According to the invention, the resistance at the input is idealized.

of the capacitive feedback amplifier between At time t ₀ (Fig. 2), the switching

this and the output of the switching device. For processing in the idle state, in which the switching input b

Adaptation purposes and for shaping the output 30 (Fig. 1) is connected to the switching output 7, a

signals of the sawtooth generator according to the invention positive signal B (FIG. 2) at the input terminal 8

it is advantageous to have a resistor at each of the inputs (Fig. 1), the output signal of the Miller

of the switching device as a replacement for the integrator mentioned above the input terminal 6 of the

Input resistance of the capacitively fed-back equal circuit 5 supplied signal corresponds to and

To be assigned to the amplifier. In this case, the 35 output of the comparator circuit 5 has zero.

Resistance in the output line of the comparator At time t _x (Fig. 2) the switching input is a

circuit has a slightly lower value than that with (Fig. 1) connected to the switching output 7, and that

the input terminal of the sawtooth generator. The output signal of the Miller integrator begins to decrease.

bound. decrease, with the decrease speed by the

Further advantages and objects of the invention reduce the amplitude of the control signal at the

can be seen from the following description, which input terminal 8 is determined. But if the

on the basis of an exemplary embodiment with the aid of the amplitude of the output signal C of the Miller-Inte-

Drawing explains the invention in more detail, and from grators decreases, then the output amplitude decreases

the claims. It shows the output signal D of the comparator circuit

F i g. 1 shows a basic circuit diagram of the invention from so quickly until a minimum value would be measured very quickly Circuit arrangement, is taken, which then until shortly before a time

F i g. 2 signal diagrams to explain point t ₃ (FIG. 2) is retained. This quick one

Mode of operation of the inventive circuit amplitude drop of the comparator circuit output

arrangement. signals D is based on the large amplifier effect

The circuit 50, shown in principle in FIG. 1, of the differential amplifier 5 (FIG. 1), which contains a Miller integrator in the arrangement, consisting of the minimum value which is saturated.
from a reversing amplifier 1, which has a high switching gain at time t ₂ (FIG. 2), from a capacitor 2, input b (FIG. 1) connected to the switching output 7 for feedback between the amplifier output so that the Miller integrator is used in response to and input, and from a resistor 3. With 55 the comparator circuit output signal D in the output of the inverting amplifier 1 is both the idle state is reset. Between the time output terminal 4 of the present circuit arrangement points t ₂ and t _s (FIG. 2), the output signal D voltage and an input terminal of one of the comparator circuits 5 (FIG. 1) decrease to zero, so differential amplifiers with a high gain how the amplitude of the output signal C of the standing comparator circuit 5 is connected. The 60 Miller integrator approximates the amplitude of the control signal to the other input terminal 6 of the comparator circuit 5 at the input terminal 6. In any case, this is used to supply a DC control voltage. Output signal D of the comparator circuit 5 for _{the output terminal of the comparator circuit 5 has dropped to zero at time i 3} (FIG. 2), so that the amplitude of the output signal C of the device 7 is connected to a switching input b of a single-pole switch, the other switching 65 Miller integrator the value in the idle state enteingang α with an input terminal 8 to the supply, which is connected to the amplitude of the input terminal 6 tion of a second control voltage (Fig. 1) of the comparator circuit 5 supplied while the switching output 7 with one end of the Corresponds to the control signal.

During the time _{segment determined by times i 4} , i ₃ and i ₆ (FIG. 2), the mode of operation of the circuit according to the invention is similar to that described above. In this case, however, the amplitude of the output signal C of the Miller integrator is less than before, since the amplitude of the input signal B of the Miller integrator is also less on the whole.

For the time segment which is determined by the times t _v i ₈ and i ₉ , however, the input signal B is negative, so that the amplitude of the output signal C of the Miller integrator increases beyond the quiescent value and the output signal D of the comparator circuit 5 (F i g. 1) becomes positive. However, the mode of operation is similar in every other respect to the mode of operation during the period between ^ ₁ and i ₃ (Fig. 2), so that the amplitude of the output signal C of the Miller integrator returns to the quiescent value and the amplitude of the output signal D. the comparator circuit 5 ao (FIG. 1) drops back to zero.

Since the inverting amplifier 1 remains active during the idle state of the arrangement according to the invention, there is no sudden transition or no delay in the use of the sawtooth when the switching device 7, a, b is switched over. This abrupt transition is namely a major disadvantage of known Miller integrators, while the delay mentioned is disadvantageous in other sawtooth generator circuits.

In the embodiment described above it is provided that the amplitude of the signal B should decrease continuously; however, it can just as well remain constant or be changed abruptly. Furthermore, the amplitude of the output signal C (FIG. 1) in the idle state of the circuit arrangement according to the invention can be varied by changing the control signal at the input terminal 6 of the comparator circuit 5.

The circuit according to the invention can be modified in that the resistor 3 is arranged between the input terminal 8 and the switching device 7, a, b . In this case, the output of the comparator circuit 5 must then also be connected to the switching device 7, a, b via a further resistor with a lower value than that of the resistor 3. The mode of operation of the circuit is in any case not affected by these changes.

In summary, it can be said that the circuit arrangement according to the invention has a sawtooth output signal supplies, at which the amplitude of the output signal in the quiescent state and the slope the change in amplitude is relatively easily changed by supplying a corresponding control signal can be.

Claims (4)

Patent claims: 1. Circuit arrangement for generating periodic, sawtooth-shaped voltages of adjustable amplitude and polarity with the aid of a Miller integrator, which consists of a capacitive feedback amplifier to which pulse-shaped signals are fed via a resistor, characterized in that the output of the capacitively feedback amplifier (1, 2) is connected to the first input of a comparison circuit (5), the second input (6) of which is supplied with a first control signal defining the reference voltage of the sawtooth-shaped voltages (C) and the output of which via a switching device (7, a, b) with the input of the capacitive feedback amplifier (1,2) is connected so that the comparator output signal (D) for the respective provision of the reference voltage is only effective during the respective pauses in the pulse-shaped signals (A) which determine the duration of the occurrence of the reference voltage in the sawtooth-shaped output signal, their respective ile amplitude and polarity corresponding fixed positions of amplitude and polarity of the sawtooth-shaped voltages (C) are determined by the level of a second control signal (B) . 2. sawtooth generator according to claim 1, characterized in that a switching device (7, a, b) is used to derive pulse-shaped input signals ( 7, a, b) which alternately feeds the capacitive feedback amplifier (7, a, b) to the input terminal (8) a continuous input signal (B) and coupled to the output line of the comparator circuit (5). 3. sawtooth generator according to at least claim 1, characterized in that the comparator circuit (5) Consists of a high gain differential amplifier. 4. sawtooth generator at least according to claim 1 and 2, characterized in that the resistor at the input of the capacitive feedback amplifier (1, 2) by a first resistor between the input terminal (8) and the first input (a) and a second resistor between the second input (b) of the switching device (7, a, b) and the comparison circuit (5) is replaced. 1 sheet of drawings 809 569/504 7.68 © Bundesdruckerei Berlin