DE1591982C - Electron beam oscilloscope with a measuring probe containing the electron beam tubes - Google Patents

Description

it is represented schematically by the lateral turn of the body. It is a rod-shaped kördie there is a great risk that the probe tip slips off and is marked by 1, the one inside the electron beam with the miniaturization of the tube 15, which is customary today, and essentially a part or the devices Contains short circuits with possibly serious entire Y-amplifier. On one end Causes consequential damage. 5 of the rod 1 is a conical stump 2

It has already been proposed to put a magnifying lens device on an electron beam oscilloscope should just be interpreted in such a small way. The enlarged screen 3 of the Elekmachen, that as in its entirety it is like an etron ray tube 15 through the inserted Imwas larger probe is effective. As can be seen in this compact pulse diagram. The other end of the th electron beam oscillograph also the ίο rod 1 contains a conical body 4 with Important batteries must be included and even a measuring tip 5, which of course also has a different potential Charging aggregates for this, the total can be formed, e.g. as a longer tip, than arrangement - although spatially small - to a hook-shaped tip or as a clamp tip. In front heavy and too unwieldy. The risk that the measuring tip 5 is a translucent ring 6, Hand holding the relatively heavy overall device quietly and from an unrecognizable light source, Hold on to a small measuring point indicated by the arrows without letting go, light for illumination must slip and the measuring tip accidentally emerges from the measuring point.

Short-circuits generated is much too large (German Of- The setting of a desired operational

patent application 1591844). State of the electron beam oscilloscope, such as

The object of the invention was to provide a 20 z. B. the Y amplitude, the sweep frequency, the syn concept for a small oscilloscope to find, chronization, triggering, etc. can, as in the The measurements are shown in a real, handy shape, by means of an attachment7 with, for example, a lightened edge and the really easy to use on shaped control elements 8 Measuring point can be created. Are invented. There are only three switches in the figure This object is achieved in that the 25 or controller 8 is shown schematically. Your an electron beam tube (15) with a substantial number and their special design and location on the part of the Y-amplifier or with the entire rod can be ver-Y-amplifier according to the requirements to one, to be easily grasped with one hand.

ren first unit (1), the so-called measuring probe, not shown are the possibilities for the

and the other assemblies, predominantly the assembly 30 Connection of accessories to the rod 1, ζ. B. from

groups for the X deflection, the X amplifier and additional amplifier stages, demodulation and

the power supply to a second, high-voltage probes or their cable connection

Inclusions that are spatially separated from the first unit (1). One of these possibilities is to

unit (10) are combined and the two inputs the input of the Y-amplifier by removing the

units are connected by a cable (11). 35 conical body 4 at its base 9 or through

When using a current 3 cm electrical removal of parts of the conical body 4, inner ray tube and through the use of semiconductors, for example before or after the ring 6, for putting on tern, in particular to make integrated circuits accessible for the accessories. For the Abneh-Y-amplifier, there are proportions for the probe and the parts are attached to the correspondingly small dimensions. The diameter of the 40 corresponding points in a known manner with connection, in this case rod-shaped probe, would have little more connections, for example plug-shaped or than 3 cm, and the length would be around 15 cm. Clamp sockets are formed, provided.
The probe is as convenient to carry and hold as connecting to the first part of a flashlight. The second unit is in place, the rod 1, separate assemblies that are not directly required for the measurements and can therefore be combined and the second unit is parked in any convenient location in a housing in the form of an exemplary embodiment . Advantageously, the housing can be arranged in the carrying case 10, via a cheese maker second unit, also as a kind of carrying case at 11, which contains the necessary lines. At the point of entry of the cable 11 into the rod 1 is a train and can be carried by the measuring person. This type results in a considerable extension piece 12 indicated. Here, for example, mobility can be achieved when carrying out the measurements. also the line 13 for a ground terminal 14 through-This mobility is due to the fact that the measuring end be guided. As mentioned, the steps for the X deflection, which is otherwise required, are not in the housing 10, as is the case with electron beam oscilloscopes, more or less alternately between a Jf amplifier and the power supply device probe head and the probe head thereof 55 summarized. Power can be supplied by remote electron beam oscilloscope moving batteries and / or by the mains. At the same time, the housing 10 can also be used for storage

Special additional devices on which the rod 1 with the cathode ray tube is connected to the electron beam oscilloscope according to the invention. A sleeve-shaped insert or a belt such as e.g. B. a single bracket that enlarges the oscillogram is not shown in more detail.
Built-in or attachable lens, and one on the further, the housing 10 can also contain a not shown tip of the electron beam oscilloscope, which holds the accessories, built-in light source for illuminating the measuring point, the execution of a particularly small service will be explained below in the explanation the drawing electron beam oscilloscope mentioned in the present statement. 65 invention can through the use of semiconductors

In the drawing, an embodiment of and in particular of integrated circuits is shown.

electron beam oscilloscope according to the invention are promoted.

1 sheet of drawings

Claims (10)

1 2 contains, preferably a sleeve-shaped one .; kit or a strap-like bracket. Claims: n electron beam oszfflograph according to claim 1 to 9, characterized in that construction 1. Electron beam oscilloscope with a 5 group of electron beam oscilloscope, Cathode ray tube in preferably ratio- preferably the "F-amplifier or parts of the moderately small design, thus built-Y amplifier as an integrated circuit indicates that the are electron beam. " tube (15) with a substantial part of the
Y amplifier or with the entire Y amplifier
ker to a first unit (1), the so-called measuring probe, which can be easily grasped with one hand, and
the other subassemblies, mainly the subassemblies for the AT deflection, the ΑΓ amplifier. The invention relates to the construction of one and the power supply to a 15 very small electron beam oscilloscope, in front of the second, spatially from the first unit (1) for mobile use, which consists of two separate units (10) and consists of construction units. The first unit is designed as a measuring probe, the two units are connected by a cable (11) and not only contain bundles. the test probe with the directly associated ones 2. Electron beam oscilloscope after 20 voltage dividers, this is also the case in this case spoke 1, characterized in that the first very small and slim electron beam tube with Unit (1) with the cathode ray tube were directly associated with assemblies such as is shaped. ■ e.g. Y-amplifier. The second unit contains all of them 3. Electron beam oscilloscope according to other assemblies, in particular the weighty spoke 1 and 2, characterized in that the 25 power supply parts, which consist of a power supply or first unit (1) at one end can also consist of a kegelför- from a set of batteries . The shaped body (4) carries, the tip of which is used as a measuring second unit with the first with a cable tip (S) , which is tapered or needle-shaped and its housing is designed so that it is or hook-shaped or as a clamping tip both next to the object to be measured is placed as well as being carried by the person measuring or by means of a carrying strap 4. Electron beam oscilloscope can be hung over the shoulder, according to Anmen. The conversation 3, characterized in that the ice gel housing of the second unit can instead be made of metal shaped body (4) -or parts thereof removable from another material, for. B. plastic, are designed and in their place there are accessories, wood or leather, as there is no shielding preference Demodulation and high voltage 35 must perform function. Specially voltage probes or their cables and additional recording device amplifier stages for mobile use, is attachable. gen, which are the first unit, e.g. in the 5. Electron beam oscilloscope protected against rough handling after transport. characterized in that it must be tapered, possibly including all accessories Body (4) or parts of the conical 40 hear and can take the shape of a whole Body and the attached transport or carrying bag that can be attached in its place, accessories with connection connections, the preferential For the operation of a. Cathode ray tube is in the form of a plug or a clamp socket - a large amount of circuitry required are provided. Hch, so that electron beam oscilloscopes are relative 6. Electron beam oscilloscope according to An '45 show cumbersome measuring instruments. Because of her from spoke 3, -4 and 5, characterized in that no other type of measuring device is more versatile than any other conical body (4) provide a light source for application, but does not have it sits whose light is lacking due to a translucent effort, electron beam oscillo ring (6) exits. · Build graphs as small and handy as possible. this 7. ' Electron beam oscilloscope according to an 5 ° applies in particular to the so-called service electronics 1 to 2, characterized in that on electron beam oscillographs, which are primarily for the screen (3) of the cathode ray tube can be used for repairs and testing purposes. Obmagnifying Lens device (2) is attached. probably the dimensions, especially of service 8. Electron beam oscilloscope after an electron beam oscilloscope, through use spoke 1 and 2, characterized in that on 55 of small cathode ray tubes and of semiconductors first unit (1) controls (8) to tern could be reduced considerably, one must Setting the operating mode of the oscilloscope even today these devices are arranged as unwieldy are. . ' to draw. You need a permanent location 9. Electron beam oscilloscope after arrival and thereby partly very long probe cable, with claim 1 to 8, characterized in that the ^6o which then not every measuring point is reachable. The second one, separated from the cathode ray tube, is the most inconvenient when measuring, especially with a unit, has a housing that is designed in the manner of a service electron beam oscillograph that has a carrying case. The point to be measured is initially detected with the eye 10. Electron beam oscillation graph according to An. Then the probe tip becomes careful Claim 9, characterized in that the gear 65 is put on and in general with the fast mesh housing the second unit (10) for receiving the sen held by hand. Then he has to Turn the first unit (1) with the cathode ray tube measuring end to one side and open the screen Observe a facility for the purpose of transportation. The eye has to readjust and