DE1002975B - Switching arrangement with a cathode ray pulse counter tube - Google Patents

Description

Switching arrangement with a cathode ray pulse counter tube Dne invention relates to a circuit arrangement with a cathode ray pulse counter tube whose electron flow bundled and distracted.

Cathode ray tubes are widely used as oscilloscopes for recording used by waveforms. In doing so, such stresses are applied to the horizontal baffle placed in the tube so that a deflection of a cathode beam is as close as possible he follows. For the vertical deflection, the voltages to be represented are given by suitable amplifiers attached to the baffle.

Also known is one with a band-shaped electron beam working counter tube, which only counts a single decade from 0 to 10 can, and 'with the help of a plurality of windows and one designed as a number Luminescent screen.

According to the invention, the switching arrangement has a between the Impu Is @ encoder and a first deflection plate lying step control capacitor and a lying in flip-flop on the step control capacitor and the first baffle Voltage limiter in the form of a glow igniter, a grid-controlled gas discharge tube, on, which has a flyback capacitor with a second, perpendicular to the first arranged baffle is connected, so that through each pulse stream of the Schri@ttsteuerkondensat.or charges and the electron beam resulting in a point of light exactly is deflected further by one unit in the line as well as when the full range is reached Line through which, this step control capacitor charges the ignition voltage of a Glow igniter, grid-controlled gas discharge tube, is reached, the step control capacitor discharged via the line switching capacitor and a line is switched on. This switching arrangement is for counting pulses and for direct display of the total pulses counted over a certain time unit or duration. For one there is a cathode ray pulse tube operated in such a switching arrangement a multiple use, so z. B. for counting, radiation pulses or radiation intensities, for a blood cell counting device and everywhere where the electrical impulse generated in each case for direct counting by the Control of the cathode ray tube can be ve'rwen'det. The use of other Counting systems is always limited by the resolving power of the counters. at mechanical counters can only have an input frequency of about 100 Hz without errors are processed. For electronic counters according to the decade system, the Counting frequency also through the required resetting of the counting tubes and also limited by the relaying of an electron beam. It is of the order of about 30,000 Hz. In the case of the one proposed according to the invention Switching arrangement can count even the highest pulse numbers in the shortest possible time done completely automatically, and you can read off the direct result. Also for a lot other purposes where it matters, high switching frequencies in a very short time without inertia or counting pulses is the circuit arrangement shown for the oscilloscope Are appropriate to use. The counting frequency is on the order of many MHz. It only depends on the design of the switchgear used.

The cathode ray tube itself has particularly high insulation values executed so that after reaching the end position of the counting process there is no reverse conversion of the cathode: radiation can occur due to insulation losses. The luminescent screen The oscilloscope tube is divided into a network in which in the horizontal row as well as in the vertical row according to the order of magnitude to be counted subdivisions, like a yardstick. It thus results in, for example, for the, counting 100 pulses in the horizontal row a network of about ten or more vertical tick marks and corresponding ones in the same way for the vertical row. In this arrangement, 10000 pulses can be counted will. In the same way, in the horizontal row, depending on the size of the tube, the Classification but also be measured for 1000 impulses. With the same division for the vertical scale, an impulse number of 1 million would be the maximum Result in final number. The scale division can be expanded as required, with only on the size and on the desired accuracy.

The circuit inside the cathode ray tube is chosen so that a magnet the electrons stank like that bundles that for each ray position a very fine point of light is visible on the fluorescent screen. Simultaneously the electron beam is deflected by the magnetic field, for example in the upper left corner centered on the zero point within your graduation is. From the device, which nine from the actual counting process, the electrical Emits an impulse, it is now a corresponding! dimensioned capacitor charged. The switching current of each pulse is such that the deflection of the electron beam always moves forward exactly by one unit in the horizontal line. The condenser mk is one side on the pulse generator, with the other side on the horizontal Baffle. At the same time lies on the baffle and thus also on one Side of the capacitor a voltage limiter in the form of a glow starter, a grid controlled gases discharge tube. The step control capacitor and the ignition voltage the grid-controlled gas discharge tube, for example, are dimensioned so that at Achieving the full horizontal line by charging the step control capacitor the ignition voltage is reached by the pulse generator. This capacitor discharges now practice the grid-controlled gas discharge tube on a line switching capacitor, which in turn lies on the vertical deflector plate. The line switching condenser is dimensioned so that he over this step control capacitor after each discharge the glow ignition path advances by one vertical line. During the Now the following progression of the electron beam in the second row holds the Line switching capacitor over the vertical deflection plate the electron bundle in the second row and thus the point of light. After reaching the end point in the second row is again the undervoltage via the step control capacitor reached and another discharge current impu, ls from this capacitor into the line switching capacitor given so that: the vertical baffle serve the electron beam and thus Deflects the light point into the third row. The "doorway" repeats itself as long as the Counting continues. After the counting is finished, you can move from the position of the light point Immediately read off the exact number of impulses on the scale, because the fine point of light of the Katho drenstrahls is exactly in the vertical and horizontal scale division at the resulting counting point. For counting pulses of a very high order of magnitude can also have a glow path or a grid-controlled gas discharge tube are antiswitched, whereby the line switching condenser: ator over this after completely running through the horizontal and vertical lines can unload with simultaneous actuation of a counter, which then the full Records processes. The counting process can be started by earthing contacts on the deflector plate can be deleted by pressing the button. With the help of this Counter.rohrschaltu@ng it is possible to do any counting process you want without time limit in any desired To be able to perform counting frequency immediately.

Claims (4)

PATENTANspRLCIjr: 1. Switching arrangement with a cathode ray pulse counter tube, whose electron stream is bundled and deflected, characterized by an between the pulse generator and a first steering plate located step control probe and one in flip-flop on the step control capacitor and the first baffle lying voltage limiter in the form of a glow igniter, a grid-controlled Gas discharge: tube that has a line capacitor with a second, vertical to the first arranged deflector plate is connected, so. that through every momentum stream the step control capacitor charges and the electron beam that creates a point of light is deflected further by exactly one unit in the line and when the full line by the charging of the step control capacitor the ignition voltage a glow starter of a grid-controlled gas discharge tube is achieved the step control capacitor discharges via the line switching capacitor and a Line is advanced. 2. Switching arrangement according to claim 1, characterized in that that it has a counter serving as an M: ultipli: cation indicator, which over an ignition gap is connected to the flyback capacitor. 3. Switching arrangement according to claim 1 or 2, characterized in that it has an in front of the step switch controller Intermediate subdivision circuit has, so that after every second or every 2n-th pulse generation, a capacitor is inserted into the stepping capacitor discharges. 4. Switching arrangement according to claim 1 or 3, characterized in that grounding lines are provided on the two deflector plates, which are preferably switched on by pressing a push button so that the displayed number is deleted. Considered publications: German Patent Specifications Nos. 743 240, 883 298; U.S. Patent No. 2,571,723.