SU1582223A1 - Device for indication of fuse operation - Google Patents

Abstract

The invention relates to the field of electrical engineering and can be used in the equipment of built-in automated monitoring and diagnostics of radioelectronic, in particular television, equipment in the process of setup, operation or testing. The aim of the invention is to expand the scope and increase the reliability of the device. The goal is achieved by introducing into the device an electromagnetic sensor 5, a trigger threshold unit 9 with adjustable sensitivity and a button 10 connecting the output of the trigger threshold unit 9 with the common wire 7. At the time of the fuse 1, a broadband electromagnetic field occurs around the conductor 6, high-frequency the components of which are induced in the electromagnetic sensor 5 pulses coming through the current-limiting element 8 to the input of the trigger threshold unit 9, which also works through the indicator element 11 performs the signaling of the operation of the fuse 1. 2 Cp. f-ly, 1 ill.

Description

The invention relates to electrical engineering and can be used in the Instrument of the built-in automated monitoring and diagnostics of radio-electronic, in particular, television equipment in the process of setup, operation or testing.

The purpose of the invention is to expand the use of the device and increase the reliability of the device.

The drawing shows a structural diagram of the proposed device.

The device contains a fuse 1, connected to the power supply circuit and to the output terminals 2 and 3, in series with the load 4. The electromagnetic sensor 5 has an inductive connection with the current-carrying wire (conductor) 6 connected to the terminals of the fuse 1, but-iHe has with it a galvanic connection,. As an electromagnetic sensor 5, an inductance coil can be used. It is a ferromagnetic core with several turns reeled on it. For ease of use, a ferrite ring can be used as a core, and the sensor in this case is worn "and the current-carrying wire 6. The coil terminals are the terminals of the electromagnetic sensor 5 and are connected respectively to the common wire 7

and through the current-limiting element | 8 - with the first input of the trigger threshold unit 9. The second input of the threshold unit 9 is connected to the common wire 7. Between the output of the trigger threshold unit 9 and the common wire 7, the return button 10 is turned on. The output of the threshold unit 9 is connected to the first terminal of the indicator element 11, the second terminal of which is connected to the bus 12 of the auxiliary power source. The trigger threshold unit 9 with adjustable sensitivity can be made on the basis of an integral comparator, for example, of the type K554CA1-SAZ. Block 9 contains a comparator 13, the inverting input of which is connected to the midpoint of a voltage divider made on resistors 14 and 15, the latter being variable. The non-inverting input of the comparator 13 is connected to the first input of the threshold unit 9 and through the diode 16 about the fraternal connection to the output

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5 0 5 Q

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the comparator 13 and the output of the threshold unit. Diodes 17 and 18 are restrictive. The indicator element 11 can be made in the form of an LED connected in series with a current limiting resistor. As the return button 10, for example, a button of the type KM-1 or a remotely controlled key element can be used.

The device works as follows

In the initial state, when the power is turned on, the circuit of the fuse 1 flows a direct current through the load 4. The T-tag threshold unit 9 is reset to the initial (standby) state by pressing the return button 10. In the input circuit of the electromagnetic sensor 5 magnetically connected with the current-carrying wire 6, there is no voltage, as a result of which the trigger threshold unit 9 is located in. a state corresponding to the operative condition of the fuse 1. Pulsations and pickups in the current circuit do not lead to the operation of the comparator 13, since its threshold is set by the variable resistor 15 taking into account the operating conditions.

At the moment when the fuse 1 triggers (burns), an electromagnetic field of broadband interference arises around the conductor (current carrying wire) 6, the high-frequency components of which induce pulses through the current-limiting element 8 to the first input of the trigger threshold unit 9, and since the amplitude exceeds a predetermined voltage threshold level at the inverting input of the comparator 13, translates it to the state opposite to the initial one, thus signaling a response SRI fuse 1. The voltage output from the comparator 13 is supplied through the diode 16, the feedback to the noninverting input and provides a trigger effect storing defective fuse condition 1, briefly pressing the button 10 the return circuit is brought into the starting (standby) mode. To ensure operation in the automated control system, the output of the trigger unit 9 and the return button 10 can be connected to the input one, and

the output contours of the automatic system and the first output of the newly introduced control return button, the second output

In the proposed device, the higher one is connected to the third terminal on (as compared with the known device trigger block unit) operational reliability 5 2. The device according to claim 1, which is due to the non-contact control a galvanically separated threshold unit is made on a wide range operating circuit of a voltage amplifier, noninverting. The JQ input of which is the first pin of a trigger threshold block

Claims (1)

Claims The output of the operational amplifier is the fourth pin of the trigger. 1, a device for indicating a threshold-threshold unit and connected to a fuse anode containing a first diode, the cathode of which is connected to an auxiliary power source, is outputted to a non-inverting input, and its operator is connected to the first output amplifier and to the second cathode the house of the indicator element, the primary and the anode of the third diode, the cathode sensor, which does not have galvanic connection - which is connected to the first terminal with a monitored fuse, 20 of the first resistor of the resistive delimiting element Of m and l - body and the second terminal is trig- chayuschees in that, for the purpose Gurney threshold unit, a second expansion You are a field of application and waters A rise of the first resistor connected to the reliability pershenie device pervichg:. The second terminal of the second resistor, which the sensor is made in the form of an electromagnet 25, is made variable and is a nitral sensor and is intended for the midpoint of a resistive divider, installed near one of the terminals connected to the inverting input of the monitored fuse, at the operational amplifier, the second anode In this case, its first output has a diode terminal connected to the second output for connection to ground, and the second output of the second resistor divider is connected to the first output current and is the third output m trigger-limiting element, the second inference threshold unit. the waters of which are connected to the first output of the newly introduced trigger 3. The device according to claim 1, of the threshold block, the second output of which is electromagnet: It is connected to the output of the auxiliary sensor made in the form of a throttling power source, the third output of the villages with an annular ferromagnetic ser- vus has a terminal for connecting to the wedge and is designed to be placed on the ground, and the fourth output is not on the current-carrying wire and is connected to the dd network, with its outputs being the second terminal of the indicator electronic terminals of the sensor.