DE858432C - Electric generator, in particular multiple generator - Google Patents

Description

Electric generator, in particular multiple generator for generation a plurality of voltages of different frequencies can be an advantage Use cathode ray tube, in which the electron beam simultaneously or in rapid change a plurality of adjacent, isolated from each other arranged, for example, as metal coverings next to one another on one not Electrodes applied to the conductive plate. The individual electrodes are designed so that the electron flow varies in intensity is influenced and so the currents flowing through the various electrodes are different have periodic intensity fluctuations.

The electron beam is in a known manner on the electrode plane focussed in a line. The same can also be achieved when using the electron beam after an earlier proposal in rapid change, z. B. with a frequency of ito kHz, oscillates in a direction which, with the deflection direction, is preferably at an angle Forms 9o °.

Such a cathode ray tube is of particular importance as a generator for an electric musical instrument.

For example, if ten metal layers are formed in such a way, - that the frequencies of the currents flowing through them such as i: 2: 3: .... behave ito, in this way one obtains a voltage at a common external resistance that, on one Loudspeaker, produces an audible sound that is not only the fundamental wave Contains nine overtones. By connecting or disconnecting individual assignments, the timbre of the fundamental can be varied. A constantly changing timbre requires a continuously variable resistance for each assignment. at the anode of such a cathode ray tube, which consists of several individual anodes Precautions must be taken to ensure that the secondary electrons do not come from a Partial anode can get on the other and disturbances and undesired couplings cause. This can be achieved, for example, by applying a negative voltage to an auxiliary electrode, the secondary electrons at the exit prevents.

According to the invention, the anode or the partial anodes consist of good ones Secondary emission layers. To an auxiliary electrode arranged in front of the anode while a voltage sucking the secondary electrons is applied. As an auxiliary electrode For example, the Aquadag layer of the cathode ray tube can be used.

In order to obtain a high secondary emission, for example the individual metal coverings consist of beryllium or magnesium layers. Used one achieves a material with high secondary emission, in addition to avoiding Disturbances and unwanted couplings at the same time result in an extensive amplification. The invention therefore not only applies to multiple generators, but more generally generators and frequency multiplying arrangements used for cathode ray tubes Meaning.

The preferably controllable beam voltage, which is roughly in the order of magnitude can be of 100 V, is selected according to the further invention so that about gives the maximum of the secondary emission. That way you can already effortlessly Achieve an amplification of 10 to 15 times in the tube. Even higher reinforcement numbers can be achieved by such a formation of the secondary emission layer, that even light field emissions arise. For this purpose one brings for example on an aluminum layer cesium in atomic form. The resulting field emission then does not bother if the frequencies generated are relatively low, which for example in a cathode ray tube used for an electric musical instrument will, is the case.

The figure shows an embodiment of a multiple generator according to the invention. It is assumed here that the cathode ray tube BR has four partial anodes B1, B2, B3, B4, which are formed, for example, by metal coatings on an insulating plate (not shown). The electron beam, which is focused in the form of a line, is deflected in the horizontal direction by the pair of deflection plates AP, to which a correspondingly selected deflection voltage, e.g. B.ei@ne'Kippspannung, is applied. According to the invention, the partial anodes B1 to B4 should consist of good secondary emission layers, e.g. B. of beryllium or magnesium layers exist.

A conductive coating obtained inside the cathode ray tube by applying graphite dissolved colloidally in water, the so-called aquadag layer, can be used as an auxiliary electrode HE ; to them is from .der voltage source E a voltage sucking the secondary electrons. A relatively high voltage can then be picked up at 3 and 4 at the common external resistance R of the partial “anodes”.

Claims (4)

PATEN 1'ANSPß; CA E: i. Electric generator, in particular multiple generator, with a cathode ray tube which has an anode or sub-nodes shaped in this way, so that the intensity of the electron flow is influenced and voltages fluctuating in accordance with the anode formation are obtained, characterized in that the anode or sub-anodes the end. good secondary emission layers and a voltage that sucks off the secondary electrons is applied to an auxiliary electrode arranged in front of the anode. 2. Electric generator according to claim i, characterized characterized in that a graphite coating applied inside the cathode ray tube is used as an auxiliary electrode. 3. Electric generator according to claim i and 2, characterized in that the preferably controllable beam voltage is chosen is that there is approximately the maximum of the secondary emission. 4. Electric generator according to one of the preceding claims, characterized by such a design the secondary emission layer that even light field emission occurs