SU836751A1 - Device for control of inductive load - Google Patents

Description

(54) DEVICE FOR CONTROLLING INDUCTIVE LOAD

Claims (2)

The invention relates to an electric circuit, and more specifically to electronic devices, providing an inductive load (electromagnet or stepping motor) with a predetermined dependence of current on time, for example, nominal current during motion and minimum restraint during rest. A device for controlling an inductive load is known, comprising an AND circuit, which is associated with a switch connected between a voltage source and an inductive load, in series with which a current sensor, a Schmitt trigger and a trigger are connected, whose input is connected to the AND circuit. A disadvantage of this device is that it is difficult to implement complex current functions in the load. The closest technical solution and the achieved result to the invention is an inductive load control device comprising an AND circuit, which is associated with a key connected between a voltage source and an inductive load, in series with which a current sensor, diode, Zener diode, alternating a resistor and a Shitt trigger whose input is connected to an I circuit, and the output is connected to a current sensor G23. The disadvantage of this device is its low reliability, since it contains two voltage sources. The aim of the invention is to increase the reliability of the device. This goal is achieved by the fact that it is equipped with a matching unit and a time driver, the input of which is connected to the I circuit and the output to the control input of the connected resistor, and the series-connected Zener diode and diode are connected in parallel with an inductive load and a current sensor, its base is connected to a matching device, the input of which is connected to the circuit I. The drawing shows the proposed device. The device contains an AND 1 circuit that is connected to a switch 2 connected between the voltage source and an inductive load 3. A current sensor 4 is connected in series with the inductive load, which is connected via a variable resistor 5 to the Pytta 6 trigger connected to the AND circuit 1, which connected to a time driver 7, which serves to control the variable resistor 5. Parallel to the inductive load 3 and the sensor 4, a chain is connected consisting of a diode 8 and a zener diode 9, which is bridged by a transistor 10, controlled through matching device 11 shaper 7. The operation of the proposed device occurs in the following way. When the switching on signal of a given current function in the load, the device 11 will open the transistor 10, which shunts the Zener diode 9, thereby eliminating the dissipation of energy on the Zener diode, while the circuit And through the key 2 connects the load 3 to the voltage source and the current in it will increase until the voltage proportional to the current and removed from sensor 4 reaches the trigger threshold of trigger 6, which is determined by the signal coming from the driver 7 to the resistor 5. When Schmitt trigger 6 is triggered; Switches on the load 3 from the voltage source and its current is closed through the diode 8, the transistor 10, the sensor 4 When the current decreases to a value corresponding to the release threshold of the trigger IITit 6, it connects the load 3 to the voltage source through the circuit I and then the process will be repeated. In this case, the average value of the current through the load 3 will correspond to the given, current dependence on time. For example, for an electromagnet, it is advisable to set the rated current for the response time and, after the operation, to maintain the minimum holding current. After the termination of the switching on signal of a given current function in an inductive load, device P will close the transistor 10 and the current in the load will quickly decrease due to the distance of the energy at Zener diode 9. The proposed device allows to provide the required current dependence in the load regardless of the supply voltage, which is compared to The prototype allows the use of only one power SOURCE voltage instead of two, as in the prototype, which increases the reliability of the device. Claims An inductive load control device comprising an AND circuit, which is associated with a key connected between a voltage source and an inductive load, in series with which a current sensor, a diode, zener diodes, a variable resistor and a Schmitt trigger, whose input is connected to the AND circuit and the output is connected to a current sensor, which is different (There, in order to increase its reliability, it is equipped with a matching unit and a time generator, the input of which is connected to the AND circuit, and the output to the control input of A resistor, and a series-connected Zener diode and diode are connected in parallel with an inductive load and a sensor, the transistor shunts the Zener diode, and its base is connected to a matching device, the input of which is connected to the circuit I. Sources of information taken into account in the examination To Germany Patent No. 2414602, class H 02 R 8/00, 1976. 2. Patent of Germany No. 2133583, cl. H 02 R 8/00, 1975.