DE1252797B - - Google Patents

Description

EDITORIAL

Number:
File number:
Registration date:
Display day:

1,252,797
S 95786 IX d / 21e
March 4, 1965
October 26, 1967

It is known that single-beam oscillographs can also be used for display with the aid of electronic switches take advantage of two or more operations. The processes to be displayed alternate fed to the vertical deflector of the oscilloscope. With this method is the resolving power two simultaneous and one-time processes due to the switching frequency limited between the channels. The switching frequency is the fastest electronic switches on the order of 1 MHz. However, it is difficult to expand this limit.

From "ATM", J 8344-5, from September 1951, there is an image raster method for simultaneous imaging several processes with an electron single-beam oscillograph are known, one being periodic Sawtooth voltage at the same time as that perpendicular to the deflection device to which a time deflection voltage is applied acting second deflection plate pair of a cathode ray tube and several voltage comparators fed. At the second inputs of the voltage comparators are to be oscillographed Signal voltages or a constant reference voltage. The tension comparison he admit Coincide with the signal voltages or the comparison voltage with the sawtooth voltage a pulse which lightens the electron beam. In this way, several tasks can be carried out at the same time displayed point by point on the screen. With a sufficiently dense pulse sequence of the sawtooth voltage the point-like representation is drawn as a continuous line. With the acquaintance the electron beam continues to move away from the vertical deflection plates during the whitening pulses applied sawtooth voltage is deflected. The brightening pulses are therefore somewhat blurred, what necessarily leads to a wide writing trace. This deficiency appears all the more the more the writing speed of the electron beam is greater than the duration of the whitening pulse.

In a circuit for the quasi-simultaneous display of several signals on the screen of an electron beam oscilloscope operating according to the image raster method and with electrostatic deflection, in which one output of a sawtooth generator is connected in parallel to one of two inputs of several voltage comparator circuits and to the vertical amplifier of the electron beam oscilloscope and the voltage comparator circuits on the output side in parallel via a pulse amplifier to a connection for lighting the circuit for quasi-simultaneous display
multiple signals on one screen
Electron beam oscilloscope

Applicant:

Siemens Aktiengesellschaft, Berlin and Munich, Munich 2, Wittelsbacherplatz 2

Named as inventor:
Eugen Haag, Karlsruhe

Electron beam are connected, the deficiency described above is remedied in that according to the invention, the output of the pulse amplifier additionally with one of the vertical deflection plates reaching sawtooth voltage for the duration of the Helltastknpulses holding clamping circuit for the sawtooth generator is connected.

The invention significantly increases the resolution compared to the previously known circuits. By selecting the deflection speed in the horizontal direction by setting the time deflection device present in each electron beam oscilloscope, any number of sawtooth sequences can be displayed next to one another in the vertical direction. A favorable resolution is achieved with approximately ten periods of the vertical sawtooth voltage per centimeter of screen width.
The clamping circuit for the sawtooth generator can essentially consist of a transistor with approximately equal working resistances in the collector and emitter circuit and a parallel connection of the collector and the emitter via oppositely polarized diodes with a connection point between a multivibrator and a Miller integrator of a sawtooth generator connected to it .

The invention is explained in more detail on the basis of three figures which represent an exemplary embodiment.

In Fig. 1 is the screen image of a resulting from the application of the circuit according to the invention Cathode ray tube shown. Measurement signals 1 and 2 are in voltage comparators with a symmetrical Sawtooth voltage 3 compared. If there is a coincidence between measuring voltage and Sawtooth voltage, lightened points 4 appear on the screen image, which in their entirety create a

709 679/224

Claims (1)

image of measurement processes 1 and 2 result. With a sufficiently large number of saw teeth per cutting width, a very good resolution of the measurement signals can be achieved. In Fig. 2 shows a circuit as a block diagram. Of an electron beam oscilloscope 5 , a connection 6 for scanning the electron beam and a connection 7 for the vertical amplifier are shown. The sawtooth voltage of a sawtooth generator 8 is present at connection 7. The same sawtooth voltage is fed to one input of three voltage comparators 9 in each case. At the other inputs of each of the voltage comparators 9 , one of the measurement signals to be displayed is present via amplifier 10. The outputs of the voltage comparators 9 are connected in parallel to the input of a pulse amplifier 11 . The output of the pulse amplifier is located at the Helltastklemme 6 of the electron-beam oscilloscope and also to an input terminal of the ramp generator 8 ao arranged clamping circuit 12 is established between the ramp voltage and one of the measurement signals by one of the voltage comparator 9 is a coincidence, a corresponding output pulse of Voltage comparator in the pulse amplifier 11 amplified. The amplified pulse simultaneously scans the electron beam brightly and holds the sawtooth voltage for a short time at its current level. In Fig. 3, one of the voltage comparators 9 is shown in cooperation with the sawtooth generator 8 as a circuit diagram. The voltage comparator 9 consists essentially of two transistors connected in parallel, the emitters of which are in series with a third transistor 20 . A setting resistor 21 is connected to the base of this transistor. The signal to be displayed is fed to the base of the left of the parallel-connected transistors, which serves as a control electrode, and the sawtooth voltage is fed to the base of the right transistor. In the collector circuit of the right of the two parallel-connected transistors there is a tunnel diode 22 which is bridged by an inductance-resistor series circuit. The tunnel diode 22 forms a type of flip-flop circuit which responds to a current threshold of the collector current being exceeded and emits a pulse which is _{fed via a capacitor C 1 to} the pulse amplifier stage 11, which operates with a transistor. The pulse amplified in the pulse amplifier 11 is used to light the electron beam. As indicated by two arrows, this impulse is transmitted via a condenser Sator C _{2 is} fed to the control electrode of a transistor 12 of a clamping circuit, in the emitter and collector circuits of which there are approximately equal load resistances. Two oppositely polarized diodes 13 and 14 connect the collector and emitter of the transistor 12 via resistors 15 and 16 to a point A within the sawtooth generator circuit 8. The point A is the tap of a voltage divider connected to the collector voltage of a transistor 17 . The transistor 17 forms a multivibrator with a transistor 16. The point is also connected via a resistor to the base of a transistor 18 which is connected as a Miller integrator. The sawtooth generator consisting of the multivibrator and the Miller integrator is known per se. An output amplifier stage of the sawtooth generator contains a transistor 19. An adjustable tap of a potentiometer 23 in the emitter circuit of transistor 19 is connected to the multivibrator formed from transistors 16 and 17. The whitening pulse amplified by the pulse amplifier 11 acts via the transistor 12 and the two diodes 13 and 14, so that the instantaneous sawtooth voltage is maintained for the duration of the pulse. Claim: Circuit for the quasi-simultaneous display of several signals on the screen of an electron beam oscilloscope operating according to the image raster method and with electrostatic deflection, in which one output of a sawtooth generator is connected in parallel to one of two inputs of several voltage comparator circuits as well as to the vertical amplifier of the electron beam oscilloscope and the Voltage comparator circuits are connected on the output side in parallel via a pulse amplifier to a connection for light scanning of the electron beam, characterized in that the output of the pulse amplifier (11) is additionally connected to a clamping circuit (12, 13, 14) which holds the sawtooth voltage reaching the vertical deflection plates for the duration of the light scanning pulse. for the sawtooth generator (8) is connected. Considered publications:
German Auslegeschrift No. 1 093 903;
"ATM", J 8344-5, September 1951;
"NTF", 20 (1961), pp. 35 and 36. 1 sheet of drawings 709 679/224 10. 67 Q Federal Printing Office Bertin