TH118700A - Load control device - Google Patents

Abstract

DC60 (25/02/14) This load control device includes The main switch unit, which contains the received main switch parts. It is a serial connection with an AC power source to the load and controls the supply of power to the load, an operation switch which issues the starting signal for starting at least one load. Switching on and off of the main switching unit, the first power source unit that supplies the stabilized voltage to the control unit. And the source unit The second and third power that each power unit supplies the first power source unit. This load control device has been characterized as Depending on the initial reception The control unit will output an initial driving signal. For closing the main switch parts Provided to the unit for Primary switching before the power source, which powers the power source unit at One is switched from the second power source unit to the third power source unit. The main switch unit which contains the main switch parts that It has been connected in series to the AC power source with the load and the distribution control. Power to the load An execution switch, which emits an initial signal for start-up. Load at least one load. The control unit which controls the opening and closing of the unit for the main switching, the first power source unit that supplies stable voltage to the control unit, and the second and third power source units that each supply power. With the source unit First power This load control device has been characterized as Depending on the reception Early signs The control unit will output an initial driving signal. For closing the main switch parts To the unit for the main switching, before the power source that supplies the unit The first power source is switched from the second power source unit to Third power source unit

Claims (7)

1. Two-wire load control devices which are connected in series between the source. AC power (AC) with the load consisting of The main switching unit in which the main switch parts are connected in series with AC power sources and loads And control the distribution of power to the load Operation switch which is operated by the user and ejects the start signal for Do the initial loading as a minimum. Control unit which is connected to an action switch and controls the on / off of The main switching unit is based on the signal being transmitted from the operation switch. First power distribution unit Where this power is supplied from both terminals of the unit for Main switching through a direct current unit For supplying a stable voltage to a second power distribution unit control unit. Where power is supplied from both terminals of the unit for Main switch through rectifier For supplying power to a power distribution unit that One when there is no power Is supplied to the load and a third power distribution unit for supplying power to the first power distribution unit when Power is supplied to the load in the closed state of the unit for the main switching. Where, according to the initial reception from the operating unit The control unit will be removed. Initial drive signal for making the main switch parts in conductive state per unit for Main switching before the power source for supplying power to the distribution unit. The first power is switched from the second power unit to the third power distribution unit. 2. Load control device of claim 1 where the main switch element is the triac and the drive signal is started. It is a pulse signal with a pre-defined pulse width. This pulse signal 3. The load control device of claim 1, where the main switch element is a component with a transistor structure and the starting drive signal is a pulse width. The pulses are equal to or greater than 1/4 cycles of an AC power source and less than 1/2 cycles of a commercial AC source in which the pulse signal is introduced into the gate of the transistor structure. 4. The load control device of claim 3, which further includes the unit for Auxiliary switch including auxiliary switch parts with thyristor construction. And control the distribution of electrical power To the load when the main switching unit is in a non-conductive state 5. Load control device of claim 4, which is also included. A buffer capacitor which powers the first power distribution unit. When the unit dispenses A second power and one of the third power distribution units are faulty to supply power. To the first power distribution unit and the voltage detection unit, which detects the input voltage of the third power distribution unit. Or the terminal voltage of the buffer capacitor when power is supplied to the load in The closed state of the unit for the main switching, where when power is supplied to the load. The control unit will output a pulse signal. For making the main switch parts in a conductive state during the time which is set First with the main switch unit If the voltage detection unit detects that the voltage The input of the third power distribution unit or the terminal block voltage of the buffer capacitor has reached the starting limit. A predetermined change And ejected the second pulse signal for making the unit for the The auxiliary switch is in a conductive state when the main switching unit is put in a non-conductive state. 6. A two-wire load control device that is connected in series between the source. AC power with load Which includes A unit for the main switching, which includes a switch element that has a transistor structure and controls the distribution of power to the load. A unit for an auxiliary switch, which includes a switch element with a thyristor construction and controls the supply of power to the load when the main switching unit is in a non-conductive state. Control unit which controls the on / off of the unit for the main switch and the unit for Auxiliary switch First power distribution unit Where this power is supplied from both terminals of the unit for Main switch through rectifier For supplying a stable voltage to a second power distribution unit control unit. Where power is supplied from both terminals of the unit for Main switch through rectifier For supplying power to a power distribution unit that One when there is no power Has been paid to the load A third power distribution unit for supplying power to the first power distribution unit when Power is being supplied to the load in the off state of the unit for the main switch or unit. For auxiliary switch Voltage detector unit which detects the imported voltage of the supply unit. Third power and zero crossing detection unit which detects the zero crossing point of the load current. Where when power is supplied to the load Control unit will cause an even higher increase of Main switching unit driver signal for making the main switching unit in a conductive state if the voltage detection unit detects that voltage is being applied to the supply unit. The third power is up to a predetermined switching threshold within the time limit. Prepared first after the crossing detection unit detects the crossing point of the Load current And start supplying signal to drive the unit for switching after a period of Predetermined Which is less than half the load current. After the detection unit Zero crossing A zero crossing point of the load current is detected and where, when power is supplied to the load. Control unit will cause an even higher increase of Unit driver signal for main switch After this standby time limit elapses, if the voltage fault detection unit detects that the voltage which is being brought into the supply unit The third power is up to a predetermined switching threshold within the standby time limit and the start of the power of the main switching unit after a predetermined time less than half. Cycles of load current After the cross detection unit The zero crossing point of the load current is found. 7. Load control device of claim 6 where the standby time limit is equal to or less than 1/4 of the cycle of the power source. 8. Two-wire load control device at It receives a series connection between the sources. AC power with load Which consists of A unit for the main switching that includes a switch element that has a transistor structure and controls the distribution of power to the load. A unit for an auxiliary switch, which includes a switch element with a thyristor construction and controls the supply of power to the load when the main switching unit is in a non-conductive state. Control unit which controls the on / off of the unit for the main switch and the unit for Auxiliary switch First power distribution unit Where this power is supplied from both terminals of the unit for Main switch through rectifier For supplying a stable voltage to a second power distribution unit control unit. Where power is supplied from both terminals of the unit for Main switch through rectifier For supplying power to a power distribution unit that One when there is no power Is supplied to the load and a third power distribution unit for supplying power to the first power distribution unit when Power is being supplied to the load in the off state of the unit for the main switch or unit. For auxiliary switch Voltage detector unit which detects the imported voltage of the supply unit. A third power and current sensing unit, which detects the current flowing into the unit for Extra Kam switch Where when power is supplied to the load The unit for this auxiliary switch will be made. Keep in the conductive state if the voltage detection unit detects that the input voltage To the third power distribution unit up to a predetermined switching threshold and where the control unit puts the main switching unit in a conductive state and makes the unit For the auxiliary switch in a non-conductive state at the same time. If the current detection unit It was found that the current flowing into the auxiliary switching unit was up to the rated switching threshold. Precedence 9. Load control device of Clause 8, which is also included. Zero crossing which detects the zero crossing point of the load current. Where after the main switching unit is conductive, the control unit puts the main switching unit in a non-conductive state after a predetermined period of time shorter than half the current. Load After the zero crossing detection unit detects the crossing Zero of load current 1 0. Load control device of Clause 9, where after making the unit for switching Primary in non-conductive state The control unit puts the unit for the auxiliary switch in a conductive state. It is a predetermined time. The main switch is in the conductive state first. If the current detection unit detects that The current flowing in the auxiliary switching unit is up to a predetermined switching threshold and then puts the auxiliary switching unit in a conductive state. The master switch changes to a non-conductive state 1 2. One of the load control devices of Clause 8 to 11. Where the unit detects This current includes integrated circuits 1 3. Any Clause 8 to 12 Load Regulators. Where when power is being supplied to the load, if the voltage fault detection unit detects that the rated voltage is Input to the third power distribution unit is up to a predetermined internal switching threshold. A predetermined standby time limit The control unit makes the unit for the switch. The auxiliary state is in the conductive state after the standby time limit has elapsed. 1 4. Two-wire load control devices that are connected in series between sources. AC load power Which includes A unit for the main switching, which includes a switch element that has a transistor structure and controls the distribution of power to the load. A unit for an auxiliary switch, which includes a switch element with a thyristor construction and controls the supply of power to the load when the main switching unit is in a non-conductive state. Control unit which controls the on / off of the unit for the main switch and the unit for Auxiliary switch First power distribution unit Where this power is supplied from both terminals of the unit for Main switch through rectifier For supplying a stable voltage to a second power distribution unit control unit. Where power is supplied from both terminals of the unit for Main switch through rectifier For supplying power to a power distribution unit that One when there is no power Has been paid to the load A third power distribution unit for supplying power to the first power distribution unit when Power is being supplied to the load in the off state of the unit for the main switch or unit. For auxiliary switch Voltage detector unit which detects the imported voltage of the supply unit. Third power and an operating unit which is operated by the user to adjust the current flowing in Load properly Where this control unit sets the unit conductivity time for the master switch which is counted In order to put this main switching unit in a conduction state for every half cycle of the AC power source in response to the operation being imported to the handling unit and where the control unit will Put the main switching unit in a local conductive state. Stay at a predetermined time one Which is counted when the unit detects the voltage It was detected that the voltage that is imported to the third power distribution unit has reached the transition limit at Was predetermined Overlap the unit conductivity time for the main switching.1 5. Load control device of claim 14, which is also included. Detection unit Zero crossing which detects the zero crossing point of the load current. Where after the zero crossing detection unit detects the zero crossing point. The control unit does not count the time. Conducts the current of the main switching unit for making the unit for the main switching in. Non-conducting state in response to an operation that has been imported to an operation And then The conduction time of the unit for the main switching is counted 6. Load control devices of any of Clause 6, 7, 14 and 15. Where the control unit will Make the unit for auxiliary switching in the conductive state only for a specified period of time. Before the second time When the state of the unit for the master switch has been changed from the leading state. Power is a non-conductive state. 1 7. Load control device of Clause 16, which is also included. Current, which detects the current flowing into the unit for auxiliary switching. Where this control unit puts the main switching unit in a conducting state first, if the current flowing in this auxiliary switching unit is equal to or greater than the switching threshold at Was predetermined And then This puts the unit for the auxiliary switch in state. Conducting current when the main switching unit changes to a non-conducting state 1 8. One of the Load Regulators of Clause 6 to 17. Which further included Driver circuit for driving the unit for the main switching. Where the main switching unit, as well as the master switch parts, are connected as In series with the AC power source with the load Where this main switch element has a double-sided, double-gate transistor structure, through which a control voltage is given to each gate. By relative to each connection point that has been It is connected to the AC power source and the load and where this side-by-side transistor structure provides an area for voltage stabilization. Sturdy at one location 1. 9. Load control device of claim 18, where the drive circuit will supply. Based on Driving signal transmitted by the control unit Electrical power which is electrically separate from The control unit is given to each gate of the main switch element by referencing the electrical potential of each point. Connected, each of which has been interconnected to the AC power source and the load. And drives the main switch parts. 2 0. Clause 19 load control device, where the drive circuit includes the semi-conductor switch parts. It has been optically coupled with two corresponding parts of the main switch element pair gate, and has an emitting and an exposure element. Where each light-emitting component is connected to the control unit and receives the driver signal imported from the control unit. And each of the parts for the exposure Photoelectric conversion will be performed. When the light that has been emitted from each part for And where each light-emitting component is connected to provide power to be Built into each receiving element, a positive electric potential is applied to each gate connector of Main switch parts, by using it as a reference, each connection point is the reference that has been connected. With AC power source and load 2 1. Load control device of claim 19, where the drive circuit includes a transformer with a primary-winding, which is connected to the control unit. And the two secondary windings corresponding to The pair gate of the main switch piece and that is connected to the gate electrode of the main switch element by Through the rectifier and where the power Which is obtained by rectifying the emf that has been generated in but Ignore the secondary winding as an alternating current flows in the primary winding. On the basis of the received driving signal Transmission from control unit Bring a positive potential to each gate connection of the main switch element. By using as a reference, each connection point has been connected to an AC power source and a load 2. 2. Load control device of claim 18, where this drive circuit includes two corresponding diodes. Corresponding to the pair gate of the main switch parts. And which was connected to the first power distribution unit A capacitor, which has one end, is connected to each power line. And the other end One that has been connected to a diode And the part of the drive switch, which is connected between the gate terminal of the Unit main switch parts for main switching And the connection point between diodes and capacitors, and where the drive circuit supplies driving power to the main switching unit by making The driver switch element is in a conducting state based on the signal being transmitted from the control unit 2. 3. Load control device of claim 22, where the drive switch parts are Make it an optical coupling with a semiconductor switch component containing parts for emitting light. Each of which will It is emitted by a driver signal transmitted by the control unit and the receiving element, each of which receives the light emitted by each light-emitting component to provide It is in a conducting state and where this driving power is supplied to the main switching unit. Power of the first power distribution unit by making the emitting part in a conducting state 2. 4. Load control devices of claim 20 to 23, where parts for the light-emitting of The two optical coupled semiconductor switch parts of this driver circuit are connected in series. 5. Load control device of any of Clause 22 to 24. Where this drive circuit includes The capacitors are connected between the power lines, each of which is used as a reference. Each gate electrode And the connection point between the gate electrode of the main switch element and Driving switch parts 2 6.Any load control device of Clause 18 through 22 to 25. Included Further, the components for simultaneous switching are connected between the points that have been Connected to the AC cable of the rectification unit And the negative output point of the rectifier unit, where the operation of the shutdown of the parts for simultaneous switching is performed as The same time as the operation of the unit shutdown for the main switch 2. 7. Load control device of claim 26, where the driving switch element shall have a thyristor or triac structure and is driven on the basis of a signal that is separated from any power distribution unit. Of load control device