DE1290634B - Electron beam tube with speed modulation - Google Patents

Claims (3)

1 2 The invention relates to a cathode ray tube. The electron beam amplifier according to the invention with speed modulation for amplification tube according to FIG. 1 is similar in its construction to or limiting extremely high-frequency signals or to a two-circuit klystron. It consists of the generation of electrons with extremely high frequency vibrations with a beam generating system 1, the ^{cavity resonators interspersed one behind the other by the electron beam generating system and a 5} electron beam traversed by a collecting electrode at the other end of the tube as well as with 2 and 3 and the collecting electrode 4 3 is concentric to the axis of the ordered cavity resonator. Electron beam 5 arranged a pinhole 6. As is known, the efficiency of a The perforated diaphragm 6 is applied with approximately cathode potential two-circuit klystrons to amplify the highest frequency ¹⁰ tial. As a result, the perforated diaphragm 6 causes signals from the ratio of high-frequency to a reflection of the electrons delayed in the coupling gap of the cavity output power to the direct current power of the electromechanical resonator 2. Only those in the electron beam. Since mostly the high-frequency coupling gap of the cavity resonator 2 accelerates output power independently of the direct current electrons passing through the aperture power of the electron beam changes continuously, especially the aperture 6. These electrons are behind the special with amplitude modulation, is the we aperture 6 accelerates and rain in the form of individual degrees of deflection of such a tube is not constant. The current impulses the cavity resonator 3 via its invention is based on the object of an electrical coupling gap. The cathode ray tube (CRT) reflected at the aperture 6 with velocity modulation electrons are ^{sucked off by a ring-shaped Auffänzur amplification or limitation of the highest frequency, 20} ger 7, as indicated by the electron paths 8 in particular amplitude-modulated signals. The interceptor? It is important to ensure that, with high efficiency in the overall operating range, which is only slightly positive compared to the cathode, the potential is as constant as possible, in order to reduce the impact energy, the ratio of high-frequency output power to the electrons and thus the power loss of the tube, direct current power of the electron beam. ² 5 to be kept low. The same goal is achieved with regard to an electron beam. Figs. 2 to 2c explain the temporal radiation tube with speed modulation for the generation of electrons passing through the perforated diaphragm 6 of highest frequency vibrations followed. Stromes. Thereby, F i g. 2 a the course of the module The invention is based on the consideration that tion on the cavity resonator 2 and Fig. 2b the in the case of the length modulation of current pulses, proportional to the 3 »current-speed characteristic of the hole with the modulating high-frequency panel 6. From Figs. 2a and 2b follows the DC component is changed. Then the time course of the through the perforated diaphragm 6 According to this principle, the electron beam entering the electron stream / of FIG. 2c. One a cathode ray tube with speed modulation of the pulse length and thus the amplitude modulation pulse shape with length modulated 35 high frequency output voltage can be achieved Receive current pulses that will escape the output circuit if you put a low-speaking on the aperture 6 amplitude modulated excites. frequency modulation voltage applied. In order to achieve the stated object, in a case according to the invention shown in FIG. 1 Cathode ray tube of the type mentioned at the beginning for electron beam amplifier tube serves the cavity- the case of amplification or limitation at most - 4 ° resonator 2 as input and the cavity resonator Frequent signals proposed according to the invention, gate 3 as the output circuit. An elec- that - seen in the electron beam direction - cathode ray tube can also be used as an oscillator. the second cavity resonator and concentric ken if you reflected on the pinhole 6 to the electron beam axis an approximately to electrons in the first cavity resonator 2 Hole diaphragm lying at the cathode potential and 45 in front of it can return. another, compared to the cathode on low The invention is particularly important for with ring-shaped amplitude modulation working transmitters with positive equal potential, since it is at It is desirable to catch the electrons reflected on the aperture diaphragm such that the electrons is arranged; in the case of generating beam amplifier tubes constantly with a good maximum effective frequency Oscillation is an electron- so work degree Radiation tube of the type mentioned according to the invention, characterized in that - in the electron beam direction seen - before the second hollow claims: space resonator and concentric to the electron beam axis one approximately at cathode potential 55 Horizontal perforated diaphragm is provided, which is formed in this way 1. Cathode ray tube with speed and it is arranged that the on the hole modulation for amplification or limitation aperture reflected electrons in the first hollow highest frequency signals with an electron space resonator return and fanning the vibrations beam generation system on one and one. 6o collector electrode at the other end of the tube as well as with In the following, two in the electron beam direction, one behind the other, are shown schematically Representation held figures of the drawing arranged cavity resonators, thereby an embodiment of an inventive characterized in that - in electron beam amplifier tube The beam direction is explained in more detail - in front of the second hollow. Here are all parts that are not necessarily about the space resonator and concentric for understanding electrons the invention appear necessary, a beam axis approximately at cathode potential z. B. the vacuum envelope of the tube or the means for the horizontal aperture plate and in front of it another, Focusing the electron beam, omitted. compared to the cathode on a slightly positive Ring-shaped collector with equal potential for the electrons reflected at the pinhole is arranged. 2. Cathode ray tube with speed modulation to generate highest frequencies Vibrations with an electron gun on one and a collecting electrode at the other end of the tube and with two arranged one behind the other in the electron beam direction Cavity resonators, characterized in that - seen in the electron beam direction - before the second cavity resonator and concentric to the electron beam axis approximately one Perforated aperture at cathode potential is provided, which is designed and arranged in such a way is that the electrons reflected at the pinhole return to the first cavity and fan the vibrations. 3. Cathode ray tube according to claim 1 or 2, characterized in that for amplitude modulation the high-frequency signals or the generated vibrations the pinhole diaphragm with a low-frequency modulation voltage is applied. 1 sheet of drawings