SU951422A1 - Device for electromagnet forced connection - Google Patents

Description

(5) DEVICE FOR FORCE INSULATED ELECTROMAGNET

Claims (3)

The invention relates to electromagnetic technology and can be found in the circuit forcing the inclusion of electromagnets. Devices for forced switching on electromagnets are known, which contain transistors and their control circuit Cl and 2j. However, these devices do not provide the key mode of the transistor shunting the current-limiting resistor and require a long time to return the circuit after disconnecting and preparing for the next switching cycle. Closest to the invention is a device for the forced switching on of an electromagnet, containing a transistor connected in parallel to the current limiting resistor, a capacitor and a resistor connected to the base circuit of the transistor, However, this circuit does not provide a key transistor operation mode. connected in parallel with the current-limiting resistor, has a long return time after disconnecting the electromagnet due to the fact that the discharge of the capacitor connected to the base circuit of the transistor shunting the current-limiting resistor takes a long time. The aim of the invention is to improve the reliability of the device and speed by reducing the preparation time for the next cycle of inclusion. This goal is achieved by the fact that the Schmidt trigger, an additional resistor, and three diodes are introduced in devices 6 for the forced switching on of an electromagnet containing a current limiting resistor, a transistor connected in parallel with the current limiting resistor, a capacitor and a charging resistor a circuit connected to the terminals for connecting the power source; the indicated resistors are shunted by two diodes, the junction point of the charge and the additional A resistor is connected to the Schmidt trigger input, the output of which through the third diode is connected to the base of the transistor. The drawing shows a diagram of the device for the forced start of the electromagnet. The device for forcing the coil of the electromagnet 1 contains a transistor 2, a shunt current limiting resistor 3. The base of the transistor 2 is connected via a diode to the transistor 5 of a Schmidt trigger. The base of the transistor 5 is connected to the collector of the transistor 6, the base of the transistor 6 through the resistor 7 and the capacitor 8 is connected to the positive, and through the resistor 9 to the minus of the power source. Resistors 7 and 9 are shunted by diodes 10 and 11. Diode 12, resistors 9 and 13 provide a relay mode for transistors. Resistors 1, 15 and diode k determine the operating mode of transistor 2. Parallel to the coil of electromagnet 1, a diode 16 is connected. The device operates as follows. When the device is turned on under voltage, the charge current of the capacitor through the resistor 7 opens the transistor 6, the transistor 5 closes and the transistor 2 opens, the current-limiting resistor 3 shuns. the transistor 5 is opened by closing the transistor 2 and the current limiting resistor 3 is deshunted. When the device is disconnected from the network, capacitor B is quickly discharged through diodes 10 and P, resistors and 15 and diode 4. Thus, diodes 10 and 11 significantly reduce the time for returning the circuit to its original state and speed up the preparation the next cycle of inclusion. The proposed device for the forced switching on of an electromagnet makes it possible to increase the reliability of work and reduce the time of preparing the forcing circuit of the electromagnet coil for the next switching cycle. The proposed device can be used to increase the thermal stability of electromagnet coils, relays, starters and other devices incorporating an electromagnet coil. The invention The device for the forced switching on of an electromagnet, containing a current limiting resistor, a transistor connected in parallel to the current limiting resistor, a capacitor and a charging resistor, so as to increase the reliability of the device and speed by reducing the preparation time for the next switching cycle, a Schmidt trigger, an additional resistor, and three diodes are inserted in it, the capacitor, the charging and additional resistors forming a series circuit Connected to terminals for connecting a power source, said resistor shunted by two diodes, the charging point of the compound and the additional resistor is connected to the input of Schmitt trigger whose output is connected via a third diode to the base of transistor. Sources of information taken into account in the examination 1. Author's certificate of the USSR W 7330, cl. H 01 H 47/02, 1978. 2. Authors certificate of the USSR. No. Y6829, cl. H 01 H, 1961. 3.Leonenko L.I. Semiconductor forcing circuits. M., Energie, 197A, p. 52. F V / "SI g Cm m lo v dD