TH33916B - Devices and methods for detecting irregular parts of circuits and for protecting power supply circuits. - Google Patents

Abstract

DC60 (01/03/45) This invention will provide a ring choke conversion unit. which is a kind of power source and the method of this device In addition to the switch component transformer, positive feedback circuit and regulated control circuits in conventional RCC systems as mentioned above. Provide a control circuit partially powered by terminals with opposite polarity windings for Transformer feedback The circuit design of the control circuit was revealed in this invention. Allows for undervoltage protection (UVP), overvoltage protection, and overload protection. Simultaneously with stable output voltage This invention will provide a ring choke conversion unit. which is a kind of power source and the method of this device In addition to the switch component transformer, positive feedback circuit and regulated control circuits in conventional RCC systems as mentioned above. Provide a control circuit partially powered by terminals with opposite polarity windings for Transformer feedback The circuit design of the control circuit was revealed in this invention. Allows for undervoltage protection (UVP), overvoltage protection, and overload protection. Simultaneously with stable output voltage

Claims (6)

1.Switching power supply which contains the following components A transformer consisting of the primary, secondary and feedback winding; Switching elements connected in series with the primary winding and containing the main control connector; A rectifier for delivering DC output voltage which is connected to the secondary winding; A positive feedback circuit connected between the first terminal of the feedback coil and Main control connector, where when the switch assembly is switched to the on position with A positive feedback circuit provides a primary control terminal with a positive feedback voltage. A control circuit connected between the feedback coil and the main control terminal, where The control circuit has the following components: one control component consisting of one control connector, and one control connector. Is connected between the control connector and the earth connector. A delay circuit that is connected between terminal one and control terminal one, where after Switching elements are switched to the on position to achieve a preset interval. The feedback coil receives a voltage of one to switch the control one to position. Activate and switch the switching component to the deactivated position and the controlled control circuit connected between the second connector of the feedback coil and The first control terminal where when the DC voltage reaches a predetermined voltage at one, the controlled control circuit provides a second voltage for switching components. For control one to the on position and switch the switching component to the off position 2. Switching power supply as indicated in claim 1, where the regulated control circuit will Contains resistors A capacitor connected in parallel between the second terminal and the earth terminal, and A diode used to connect the grounding terminal to the first terminal 3. Switching power as described in claim 1, where the controlled control circuit consists of a detector connected to a rectifier which Is used to detect the DC voltage where when the DC voltage reaches the first preset voltage value Detection device It sends a signal to the connection and the control device is connected, provided that, when receiving a signal, the control device is connected. The second connector is connected to the first control terminal 4. Switching power as described in claim 3, where the detector is connected. Between the rectifier and the earthed terminal, the detector consists of a resistor. Limiting currents connected in series Light-emitting diodes connected in series in front, and Zener diodes connected in series back Where the connection control device will consist of Phototransistors are used to receive light emitted by light-emitting diodes and are used to connect the terminals. The second to the first control connector 5. Switching power supply as described in claim 1 where the switched power supply It still consists of a sensing device connected between the second terminal and the first control terminal, where when the sensed voltage at the second terminal is higher than the pre-determined voltage at the second, the detector. It will be provided with one control terminal with a third voltage to switch off. The first control component to the on and switched position of the switch assembly. To the off position 6. Switched power supply as indicated in claim 5 where the switched power supply is switched off. It still consists of a starter device connected between the primary winding and the main control connector of the Switch components and cause the switch components to receive the level of voltage they begin to change when Switched power supply is initially powered 7. Switched power supply is described in claim 6 where the device The starter consists of one resistor and a second resistor connected in series 8. Switching power supply, as indicated in claim 7, where the connection between The first resistor and the second resistor provide a third voltage. 9. Switching power supply as indicated in claim 1 whereby the switched power supply is switched off. It still contains an overcurrent protective circuit device that allows the control terminal to gain voltage. Fourth, for switching the control components to the on and switching positions. Switching component goes off when the switching component's driving current reaches Predefined current values 1 0. Switching power supply as described in claim 9 where the protective circuit device The overcurrent consists of a resistor connecting the switching component to the first earthing terminal 1. 1. A method for controlling a switched power supply with a switched power supply. It has the following components A transformer consisting of a primary winding, a secondary winding, and a feedback winding; Switching components connected in series with the primary winding consisting of the main control terminal and a rectifier connected to the secondary winding that outputs DC voltage, where the method consists of the following steps. The main control terminal receives a positive feedback voltage by the first terminal. Of the feedback coil when the switching component is switched to the ON position. Arrangement of one control component receiving a voltage at one by one connector. To switch the switch assembly to the OFF position after the switch assembly has been Switch the switch to the ON position for a preset interval and the first control component receives the second voltage by Second connector Of the feedback coil to switch the component to the OFF position when the DC voltage reaches the first preset voltage 1. 2. The control method is set out in claim 11, where the control method still consists of: The following steps It is provided that one control terminal receives a third voltage for switching on. The first control component to the on and switched position of the switch assembly. Operates when the second terminal voltage value reaches a predetermined value. Second advance 1 3. The control method is set out in claim 11 where the control method still consists of: The following steps Is that the main control connector is supplied with the starting voltage level changed by the device. Start to switch the switching assembly to the ON position when the power supply The starting core to feed power to the switching power supply 1. 4. The control method is described in claim 13 where the starting device is a divider circuit. That consists of the divider being used to create the third voltage 1 5.The method of control is set out in claim 11, where the control method still consists of: The next step is to arrange one control connector to a fourth voltage to switch the component. For controlling one to the on position and switching the switch assembly to the off position. Activated when the driving current of the switching element reaches a predetermined current 1. 6.Switching power supply which consists of the following components A transformer consisting of the primary, secondary and feedback winding; Switching elements connected in series with the primary winding and containing the main control connector; A rectifier for delivering DC output voltage which is connected to the secondary winding; A positive feedback circuit connected between the first terminal of the feedback coil and Main control connector, where when the switch assembly is switched to the on position with A positive feedback circuit provides a primary control terminal with a positive feedback voltage. A control circuit connected between the feedback coil and the main control terminal, where The control circuit has the following components: one control component consisting of one control connector, and one control connector. Is connected between the control connector and the earth connector. A delay circuit that is connected between terminal one and control terminal one, where after Switching elements are switched to the on position to achieve a preset interval. The feedback coil receives a voltage of one to switch the control one to position. Activate and switch the switching component to the deactivated position and the controlled control circuit connected between the second connector of the feedback coil and The first control terminal where when the DC voltage reaches a predetermined voltage at one, the controlled control circuit provides a second voltage for switching components. For controlling one to the on position and switching the switching component to the deactivated position, the starter connected between the primary winding and the main control terminal of the component. Switch and arrange the switching component to the level of voltage it begins to change when the power supply Switch type is initially powered Where the starter device consists of one resistor and The second resistor connected in series; The connection point between the first resistor and the second resistor provides a third voltage and sensing device with a second control component with a second control connector and a second control component Zener diode. There is a connection between the connection point and the control terminal that One and a zener diode are connected between the second connector and the second control connector. Where when value The secondary sensed voltage is higher than the second pre-determined voltage. The second control component provides a control connector where one receives a third voltage to Switch the first control component to the ON position and switch off. Switch components to off position.