JPS5893143A - Transmitting tube protector - Google Patents

Abstract

PURPOSE:To prevent the damage of transmitting tubes such as a traveling wave tube, klystron, etc. by taking out the output abnormality of a power supply with overlapped high tension, as a low voltage level abnormal detection signal. CONSTITUTION:The output voltage of a heater power supply 2 and a grid power supply 3 is compared with the reference voltage in a comparator circuit 5 and the output electric signal is converted into light at a signal oscillator 7 through an amplifier circuit 6. After this light is transmitted into a signal transmitter 8, re-converted into an electric signal at a signal receiver 9, and amplified in an amplifier 10, it is compared with the reference voltage in a comparator circuit 11. The signal transmitter 8 allows electric insulation be high and a material that transmits the light to be selected. As a result, a low voltage level abnormal detector signal can be obtained from an abnormal detector signal with overlapped high tension.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention deals with an abnormality in the power source for a transmitting tube used in a transmitter, such as a transmitting tube 1 such as a traveling wave tube.

This invention relates to a molar retention device that prevents damage to talistrons, etc.

@l■ shows the connection between the transmitting tube and the power supply.
), when the heater 11f and source (2) are fully applied, the heater is heated and thermionic electrons are emitted from the cathode.

Next, when a high voltage power supply (11?) is applied, a current flows between the cathode, collector and body of the transmitting tube (4).
) works. Note that the grid power supply (31) applies voltage to the grid in order to make the current flowing between the collector and the body 1V11#.By the way, in this type of transmitting tube (4), the body is generally connected to the transmission line. and ground the body.

Must be used with the cathode at negative potential.

Moreover, since one end of the heater power source (21) and the grid power source 131 are connected to the cathode, a high negative voltage is superimposed on both power sources.

As a result, it has been difficult to detect an abnormality in the outputs of these power supplies and extract it as a signal at a low voltage level without superimposed high voltage.

The transmitting tube protection device according to the present invention eliminates all of the above-mentioned drawbacks, and its purpose is to extract the abnormality detection signal tube at a low pressure level, stop the high voltage control (b) path at high speed, and stop the transmission - IFf.
It is something to protect.

FIG. 2 shows an embodiment of the present invention, which will be described in detail below with reference to the drawings.

@Figure 2 shows the Ite C11Fi high voltage power supply, +21ri heater power supply, 131Fi grid power supply, (4) is the transmitting tube,
(5: is a comparison circuit, (6; is an amplifier, (71 is a signal transmitter (for example, a light emitting diode), +
811fi signal transmission section (for example, fiberglass), (9
1 is a signal receiving section (for example, a phototransistor), Qlt
Increased 11111m, (lltj comparison circuit, a21Fi
This is a high voltage control circuit.

Heater power supply (2: and grid power supply (31)
The output voltage is compared with a reference voltage in a comparator circuit (51), and the output electric signal is converted to light in a signal transmitter (71) via an amplifier circuit (6).This light is sent to a signal transmitter (81). The signal is transmitted to the signal receiving section (9:), where it is converted back into an electrical signal g, and after being amplified by the amplifier aα, it is compared with the reference voltage at the comparator circuit 011. The material for the tube transmission is selected, and the high voltage is
It becomes possible to obtain a low pressure level abnormality detection signal from the E-folded abnormality detection signal. -1 Comparison circuit (5) where high voltage is superimposed, amplification 6161. A fail-safe protection circuit can be achieved by configuring a signal transmitting section (71 drive power source KFi heater power source (21f) in common, and configuring a circuit that emits light when both the heater and grid power sources are normal.

Next, the output of the comparison circuit 01) is connected to the high voltage control circuit o2, and when both the heater and grid power supplies are abnormal, the output of the comparison circuit 01) is connected to the high voltage control circuit o2.
; operates to stop the operation at high speed to prevent damage to the transmitting tube.

Although the above description has been made regarding the case where light is used for signal transmission, the present invention is not limited to this, and by appropriately selecting a signal transmitting section (71), a signal transmitting section (81), and a signal receiving section (9). Sound waves (eg ultrasound) can also be used instead of light.

As explained above, according to the present invention, it is possible to extract an abnormality in the output of a power supply in which high voltage is superimposed as a low voltage level abnormality detection signal, thereby making it possible to protect the transmission +x'H.

[Brief explanation of the drawing]

Figure 1 is a diagram showing the connection between the transmitting pipe and the power source, and Figure 2 is a diagram showing an example of the actual ownership of this invention (1 River High Voltage Computer, 12
+Ifi&--fi power supply, +alI/'if 'J
y power supply. (4Ta transmitting tube, +51Fi comparison circuit, (61 is i, width switch, +711Ii signal transmitter, (81 is signal transmitter,
(9) is a signal receiving section. OL is an amplifier, all comparison circuit (12+ is a high voltage control circuit. In the figure, the same or corresponding parts are indicated with the same numerals. Agent Shin Kuzuno - Figure 1

Claims (1)

[Claims] Abnormalities are detected by comparing the outputs of the heater power supply and grid power supply, on which high voltages are superimposed in the transmission fffi power supply, with a reference voltage in a comparison circuit, and this detection signal is converted into a light or sound wave signal and transmitted. Then, by converting it back into an electric signal on the receiving side, it is extracted as an abnormal signal with no high voltage superimposition, and this abnormal signal is used to completely stop the operation of the high voltage power supply for the transmission tube. Device.