TH19151B - Single-input three-phase bridge-type full-wave rectifier and single-input four-phase bridge-type full-wave rectifier. - Google Patents

Abstract

Bridge type three-phase full-wave rectifier And a full-wave rectifier Virtual bridge type four-phase Including a phase conversion circuit for converting AC voltage Single-phase input to three-phase AC voltage Or four phase alternating current voltages respectively.Phase converters are combined with inductors and capacitors and are connected to Three-phase input of a bridge type four-phase full-wave rectifier

Claims (5)

1. A bridge type three-phase full-wave rectifier consisting of Solid phase AC power supply With the first and second supply terminals For providing Single-phase AC input voltage Phase converter for converting the aforementioned single-phase AC input voltage to three-phase AC voltage, the phase-conversion circuit consists of an inductor and a capacitor and a rectifier. Full wave, three-phase bridge type For converting voltage and current C switch the said phase to the rectified voltage Which is supplied to the resistive load, the circuit Such a bridge type three-phase full-wave rectifier with first, second and third input terminals. Where the other terminal, the first source of such single-phase AC voltage source, is connected to With one terminal of the capacitor, and the second terminal of the AC voltage source. Such single phase Is connected to the terminals One of the aforementioned inductor Where the other pole of the capacitor It is connected to the other terminal of the inductor in order to define a third terminal during that connection. Where the first and second source terminals of the aforementioned single-phase AC voltage source are connected to the aforementioned first and third input terminals. Of a full-wave rectifier Three-phase bridging, respectively. And the aforementioned third terminal is connected to the aforementioned second input terminal. Of such a bridge type three-phase full-wave rectifier and where the values of such capacitors and inductors are Each value is set accordingly. With the value of the DC load resistor To form such a three-phase AC voltage 2. Bridge type three-phase full-wave rectifier In accordance with claim 1, which is also complemented by the said DC load resistor, a DC-DC converter. 3. A bridge virtual four-phase full-wave rectifier consisting of Single-phase AC voltage source with the first and second source terminals. For providing Single-phase AC input voltage A phase conversion circuit, for converting the aforementioned single-phase AC input voltage to a four-phase AC voltage, the phase conversion circuit consists of an inductor, a capacitor and a semiconductor switch. Two-way conductors and a bridge-type four-phase full-wave rectifier For converting AC voltage These four phases to rectified voltage are supplied to the load, full rectifier. Such a bridge four-phase wave with the first, second, third and fourth input terminals. Where the first terminal of the said single-phase AC voltage source Is connected to one terminal of the capacitor, and the second source of the phase AC voltage source. Single such Is connected to one of the terminals of the bi-directional semiconductor type switch. Where the other pole of the capacitor Is connected to the terminals One of the inductors As mentioned in order to define a third terminal located during that connection. Where the other pole of the inductor Is connected to the other terminal of the type of switch Such bi-directional semiconductors To define as the fourth terminal located between that connection Where at the first source terminal And the aforementioned second of a single-phase AC voltage source They are connected to the aforementioned first and fourth inputs. Of a full-wave rectifier The aforementioned four-phase bridge, that third terminal, is connected to the aforementioned second input terminal of the circuit. Such bridge type four-phase full-wave rectifier. And the aforementioned fourth terminal is connected to the aforementioned third input terminal of the aforementioned four-phase bridge rectifier. Where the values of such capacitors and such inductors Each value is set accordingly. With the value of the DC load resistor And the phase angle of the bi-directional semiconductor type switch is varied with the change of AC input voltage Or load current, DC output 4.Virtual bridge type full-wave rectifier In accordance with claim 3, which is also supplemented by the aforementioned DC-DC load resistor, a DC-DC converter. 5.Virtual bridge type full-wave rectifier In accordance with claim 3, which is also supplemented by the aforementioned DC load resistor, a DC-DC inverter. 6. A virtual four-phase full-wave rectifier. According to claim 3, where at the maximum output DC voltage Is regulated to the maximum a.c. input voltage. 7.Virtual bridge type full-wave rectifier According to claim 3, the aforementioned bi-directional semiconductor switch is a triac. 8. Bridge-type three-phase full-wave rectifier. In accordance with claim 1, which is also supplemented by the aforementioned DC load resistors, which are electronic devices, 9. A virtual bridge four-phase full-wave rectifier. In accordance with claim 3, which is additionally incorporated with the aforementioned DC load resistors, an electronic device 1 0. bridge phase full-wave rectifier. In accordance with claim 1, additionally, the aforementioned DC load resistor, is a device with AC output 1 1. A four-phase virtual bridge rectifier. In accordance with claim 3, which is also an additional DC load resistor, This is a device with an AC output. 1. 2. A bridge type full-wave rectifier. According to claim 1, where the values of said inductors and such capacitors It has been set so that it is different from the capacity and capacity. Appropriate Inductance 1 3. Bridge Virtual Four-Phase Full-Wave Rectifier According to claim 3, where the values of the said inductors and the aforementioned capacitors Are set so that they differ from the capacitance and Suitable inductance 1 4. Bridge type three-phase full-wave rectifier According to claim 1, which also includes additional cutting equipment To cut at least one of the aforementioned capacitors and an inductor During the condition of disconnection of the output load 1 5. Bridge type full-wave rectifier. For voltage rectification Single-phase AC input from an AC power source including: Phase conversion circuit For converting the aforementioned single-phase AC input voltage to three-phase AC voltage, the phase conversion circuit consists of one inductor and a capacitor and a three-phase full-wave rectifier. Bridge For converting voltage and current Switch the said three-phase to rectified voltage. Which is supplied to the resistive load, the circuit Such a bridge type full-wave rectifier with first, second, and third input terminals, where one of the capacitors is used for connection to the first terminal. Of a single-phase AC voltage source, and one of the polarities of the inductor is used for Connect to the second power terminal of a single-phase AC voltage source. Where the other pole of the capacitor Used for connection to the other terminal of Such inductance in order to be defined as a third terminal is placed during that connection. Where at the first and third input terminals Of a three-phase full-wave rectifier Such a bridge They are used for connection to the aforementioned first and second source terminals of a single-phase AC voltage source respectively. And where the aforementioned third terminal is connected to the aforementioned second input terminal of the aforementioned bridge three-phase full-wave rectifier, and whereby the values of such capacitors and inductors are Each value is set accordingly. With the value of the load resistance side DC To form the aforementioned three-phase AC voltage 1 6. A virtual four-phase bridge rectifier. For rectification Single-phase AC input voltage from an AC voltage source including: Phase conversion circuit For converting single-phase AC input voltage to voltage A four-phase alternating current, such a phase conversion circuit consists of one inductor, a capacitor. And a bi-directional semiconductor switch and a bridge type four-phase full-wave rectifier. For converting AC voltage These four phases to a rectified voltage. Which will be supplied to the load, rectifier Such a bridge type four-phase full-wave with the first, second, third and fourth input terminals, where one terminal of such a capacitor is used for connection to the first supply terminal. Of a single-phase AC voltage source, and one pole of a two-phase semiconductor switch That direction It is used for connection to the second terminal of that single-phase AC voltage source, where the other terminal of the capacitor is connected to the terminal. One of the aforementioned inductance to be defined is the third terminal placed during that connection. Where the other pole of the inductor Is connected to the other terminal of the type of switch Such bi-directional semiconductors To define as the fourth terminal located between that connection Where at the aforementioned first and fourth input terminals of a four-phase full-wave rectifier. Such bridge They are used for connection to the first and second source terminals of that single-phase AC voltage source respectively, where the third terminal is Is connected to the aforementioned second input terminal of the aforementioned bridge four-phase full-wave rectifier. And the aforementioned fourth terminal is connected to the aforementioned third input terminal. Of such a bridge four-phase full-wave rectifier Where the value of such capacitors And such inductors Each value is set accordingly. With the value of the DC load resistor To form a four-phase AC voltage, and the phase angle of the bidirectional semiconductor switchgear is varied with the change in AC input voltage Or DC output load current 1 7. A virtual four-phase bridge rectifier According to claim 16, where the maximum output DC voltage is regulated to be the same as the maximum AC input voltage 1. 8. A virtual four-phase bridge rectifier. According to claim 16, where such bidirectional semiconductor switch is a triac 1 9. Bridge-type three-phase full-wave rectifier. According to claim 15, where the values of said inductors and such capacitors Are set so that they differ from the capacitance and Proper inductance 2 0. Virtual Bridge Four-Phase Full-Wave Rectifier According to claim 16, where the values of said inductors and such capacitors Are set so that they differ from the capacitance and Suitable inductance 2 1. Bridge type three-phase full-wave rectifier According to claim 15, which also includes additional cutting equipment To cut at least one of the aforementioned capacitors And such inductors During the state of discontinuation, the load output 2 2. Bridge type three-phase full-wave rectifier According to claim 1, where the inductor is a choke coil 2. 3.Virtual bridge type full-wave rectifier According to claim 3, where the inductor is a choke coil 2. 4. Bridge type three-phase full-wave rectifier According to claim 15, where the inductor is a choke coil 2. 5. Bridge type four-phase virtual full-wave rectifier According to claim 16, where the inductor is a choke coil.