RU2008104746A - METHOD FOR MONITORING AND DIAGNOSTICS OF ELECTRICAL EQUIPMENT LOAD ELEMENT, DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method for monitoring and diagnosing a load element of electrical equipment in a power supply circuit, which consists in the fact that a control element in the form of a control LED (emitting diode) or an optocoupler LED is connected in series or parallel to the load element, and the optocoupler LED in the AC power supply is connected through an intermediate a rectifier bridge to the plus and minus of the diagonal of the bridge, and a test lamp or sound signal is connected through the optocoupler key element, and the second diagonal of the bridge is connected to the control element installation circuit, and into the circuit of which in series through the current-limiting elements - a resistor, a zener diode, a capacitor individually or produce mixed connection, the control voltage of the power supply is supplied, the control element connected in series with the load element, the load element is diagnosed for an open circuit, and into the parallel circuit of the comparison bridge of the control element and the load, which distinguishes By the fact that the controlling voltage of the power source is supplied through the switching element of the optocoupler key, the control element monitors the switching on of the supply voltage to the load element, and in the absence of the supply voltage on the load element, diagnostics for an open circuit with a blinking effect is performed, and the LED of the optocoupler is connected to the master generator. ! 2. In a device for implementing the method, comprising a power source of alternating voltage, the working neutral wire of which is connected to the common wire of the case, and a common power point of the load element is connected to the phase through the switching element

Claims (11)

1. A method of monitoring and diagnosing a load element of electrical equipment in a power supply circuit, which consists in connecting a control element in series or parallel to a load element in the form of a control LED (emitting diode) or an optocoupler LED, and the optocoupler LED in an AC voltage source is connected via an intermediate the rectifier bridge to the plus and minus of the diagonal of the bridge, and through the key element optocouplers connect a test lamp or sound signal, and connect the second diagonal of the bridge read into the installation circuit of the control element, and into the circuit of which they are sequentially through current-limiting elements - a resistor, a zener diode, a capacitor individually or make a mixed connection, the control voltage of the power supply is supplied, a control element connected in series with the load element diagnoses an open load element, and in the parallel circuit of the bridge comparing the control element and the load, characterized in that they supply the control voltage of the power source through the comm the diode element of the optocoupler key, the control element monitors the inclusion of the supply voltage to the load element, and in the absence of the supply voltage on the load element, a break is diagnosed with a blinking effect, and the optocoupler LED is connected to the master oscillator. 2. In the device for implementing the method, containing an AC voltage power source, the working neutral wire of which is connected to the common wire of the case, and the common point of the power supply of the load element and the control LED connected to the phase through the switching element, which is connected to the phase through the first current-limiting resistor with the load element a common housing wire, and in parallel with the control LED, a protective element is connected in the form of a zener diode or resistor, and the supply voltage of the controlling phase of the same name, exl aspirants that is connected via an optocoupler triac or thyristor to the common point of the load cell supply and control of the LED through a second current limiting resistor, a plus power supply is connected to the negative terminal through the LED optocoupler switching transistor of the generator or generator as a flashing LED and a series-connected limiting resistor. 3. The device according to claim 2, characterized in that a first limiting capacitor is inserted between the first current-limiting resistor and the common point of the control LED and the protective element, and a second limiting capacitor is introduced between the second current-limiting resistor and the optocoupler. 4. The device according to claim 2, characterized in that a blocking diode is inserted between the common wire of the housing and the first current-limiting resistor, and an additional zener diode is inserted between the first current-limiting resistor and the common point of the control LED and the protective element, and a blocking is introduced between the second current-limiting resistor and the optocoupler diode, and the control loop output is connected to the optocoupler. 5. The device according to claim 4, characterized in that a third current-limiting resistor is inserted between the second current-limiting resistor and the blocking diode, and the common power point of the load element is connected to the common point of the control LED, the protective element and the second current-limiting resistor through the introduced first diode, and through an additional second diode is connected between the second and third current-limiting resistors. 6. The device according to any one of claims 2 to 4, characterized in that the common power point of the load element and the protective element is connected to a common point of the control LED and the second current-limiting resistor through the input decoupling diode, and in addition to the control element, a protective diode is counter-connected. 7. The device according to claim 6, characterized in that in addition to the control point of the output of the load element and the common wire of the housing or the common power point of the load element, a control LED and a protective element are connected in parallel with a small portion of the resistance of the load element. 8. The device according to claim 7, characterized in that a current-limiting resistor is introduced between the control LED and the load output control point. 9. The device according to claim 8, characterized in that a limiting capacitor is introduced between the current-limiting resistor and the control point of the output of the load element. 10. The device according to claim 6, characterized in that between the load element and the common wire of the housing or the common power point of the load element, a current sensor on the diode assembly is introduced, and a control LED is connected in parallel with the current sensor or connected through a current-limiting resistor. 11. The device according to claim 10, characterized in that an additional resistor is connected in parallel with the current sensor.