DE1089886B - Circuit arrangement for periodically successive connection of an oscilloscope to signal voltage sources for multiple display - Google Patents

Description

Circuit arrangement for periodically successive connection an oscilloscope on signal voltage sources for multiple display The invention refers to a circuit arrangement for periodic successive Connecting an oscilloscope to signal voltage sources for multiple display with Switching tubes or the like electronic switching means through which the input an amplifier for the oscilloscope connected to each signal voltage source will.

In a known such device is a multiple counter tube, z. B. cold cathode counter tube, beam switching tube or the like. Provided, the main cathodes deliver the control pulses for the interrupters, while one at the auxiliary cathode or cathodes the interrupter lying, z. B. control voltage generated by a multivibrator determines the switching frequency. In a departure from the invention, the known arrangement is used to create vertical sequences of points on the display screen of an oscilloscope.

Here, diode switches are controlled by a cold cathode counter tube, which connect the inputs to the deflection amplifier. Apart from one proportionate great expense, the known arrangement has the disadvantage that a mutually independent It is not possible to set the position of the individual point sequences on the screen is.

According to the invention are in an arrangement of the above Type of connection of the individual signal voltage sources to the input of the oscilloscope amplifier, As is known per se, pentodes are provided with a common working resistance, furthermore the control grids of the pentodes each receive the switching pulses via a pulse shaper stage from the main cathodes of the multiple counter tube while the signals to be displayed are fed to the interrupter by way of the cathode coupling, and also lie on a second grid of switching tubes displacement voltages with which for each Measuring channel the zero line is adjustable.

The invention is explained below using a circuit example, the one electronic multiple switch for the successive connection of shows ten measuring channels to an oscilloscope amplifier.

In the drawing, M is fitted with tubes Rö22, Rö23 Multivibrator denotes, which the auxiliary cathode B, and B2 of the interrupter Z supplies an alternating voltage with the switching frequency.

In the illustrated embodiment, the tube Z has ten main cathodes K1 ... K10, whose working resistances Rkl ... Rkto according to the Auxiliary cathodes B1 and B2 supplied switching frequency successively switching pulses To be available. The resistors Rk1 ... Rk10 are with associated pulse shaping stages It o Iio connected.

These each contain a triode and a pentode system in shape of the double tubes Röll, Rö12 etc. The pulse shaper stages I1 11.. .110 cause a Amplification and limitation of the pulses supplied by the counter tube Z. Your exit is associated with the control grid of the individual measuring channels S1 ... S10 Interrupter systems P1. .. plo connected. A pentode system serves as the interrupter P. which can be combined with a triode system T in a tube Rö1 ... Rö1O. The triode system 7 is transferred from the associated measuring channel S1 ... S10 to the control grid the measuring voltage is fed to a frequency-independent voltage divider R1 ... Rlo. The triode systems T1. . T10 are each over with the pentode systems P1 ... Plo a common cathode resistor Rxl ... Rx2 coupled. The screen grid voltage of the pentode system P can be set using the potentiometer P1, P12, etc. Since it can be achieved that the zero line for each of the signals to be displayed can be set individually on the screen of the oscilloscope tube. The pentode systems P1. . . Plo have the common working resistance R, with which still has an inductance L to improve the frequency characteristic in Is connected in series. The tube RO2 forms the cathode amplifier output of the circuit arrangement. The oscilloscope amplifier is connected to its cathode resistor. the The circuit arrangement shown enables high switching frequencies at practically negligibly small Switching times. At the same time it allows also the transmission of the direct voltage component.

Claims (1)

PATENT CLAIM Circuit arrangement for the periodic aufeiw other following Connecting an oscilloscope to signal voltage sources for multiple display with Switching tubes or the like electronic switching means through which the input an amplifier for the oscilloscope connected to each signal voltage source is, and with a multiple counter tube, e.g. B. Kaltkathodenzäbl tube, beam switch tube Od. Like. The main cathodes of which supply the control pulses for the interrupters, while one lying on the or the auxiliary cathode of the interrupter, z. B. by a multivibrator generated control voltage determines the switching frequency, characterized in that to connection of the individual signal voltage sources (S1 ... S10) to the input of the oscilloscope amplifier (Rö2l), as known per se, pentodes (P1 ... P10) with common working resistance (R) are provided that the control grid of the The switching pulses from the pentodes each via a pulse shaper stage (II ... Ilo) Main cathodes (K1 ... K10) of the multiple counter tube (Z) received while the one to be displayed Signals (S1 ... S2) on the way of the cathode coupling to the interrupters (P1 ... P10) are supplied, and that on a second grid of the switching tubes displacement voltages with which the zero line can be set for each measuring channel. Documents considered: German Patent No. 401 211; "Electronic Engineering", March 1956, pp. 105 to 107.