Load current detecting device for pulse width modulation inverter
First Claim
1. A current detecting device for a PWM inverter including a plurality of arms connected in parallel with a d.c. power source and each including a series connection of two switching elements, a.c. output terminals each being provided by the connection point between the two switching elements constituting each of said arms, and a PWM switching control circuit continuously and alternately applying a plurality of switching control signals to one and the other of said two switching elements constituting each of said arms respectively, said current detecting device comprising:
- shunt resistors connected between said d.c. power source and one of said two switching elements constituting each of said arms respectively; and
sample-hold means associated with said shunt resistors connected in series with one of said switching elements belonging to the associated arms respectively, each of said sample-hold means providing output signals corresponding to output currents of said a.c. output terminals by sampling and holding a voltage appearing across the associated shunt resistor at specific timing in a conduction period of said switching element belonging to the associated arm.
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Accused Products
Abstract
A PWM inverter includes a plurality of arms connected in parallel with a d.c. power source. Each arm is constituted by an upper arm and a lower arm each having a switching element. A plurality of switching control signals are continuously and alternately applied to one and the other of the two switching elements constituting the same arm respectively. In the PWM inverter, shunt resistors are connected between a minus terminal of the d.c. power source and the lower arms respectively. The PWM inverter further comprises a waveform command generating circuit generating commands representative of current waveforms to be supplied to a load, a carrier wave generating circuit and sample-hold circuits. Each of the sample-hold circuits samples and holds a terminal voltage of the associated shunt resistor in synchronism with the period of the carrier wave generated from the carrier wave generating circuit and at specific timing in a conduction period of the associated switching element.
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Citations
16 Claims
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1. A current detecting device for a PWM inverter including a plurality of arms connected in parallel with a d.c. power source and each including a series connection of two switching elements, a.c. output terminals each being provided by the connection point between the two switching elements constituting each of said arms, and a PWM switching control circuit continuously and alternately applying a plurality of switching control signals to one and the other of said two switching elements constituting each of said arms respectively, said current detecting device comprising:
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shunt resistors connected between said d.c. power source and one of said two switching elements constituting each of said arms respectively; and sample-hold means associated with said shunt resistors connected in series with one of said switching elements belonging to the associated arms respectively, each of said sample-hold means providing output signals corresponding to output currents of said a.c. output terminals by sampling and holding a voltage appearing across the associated shunt resistor at specific timing in a conduction period of said switching element belonging to the associated arm.
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2. A current detecting device for a PWM inverter including three arms connected in parallel with a d.c. power source and each including a series connection of two switching elements, a.c. output terminals each being provided by the connection point between the two switching elements constituting each of said arms, and a PWM switching control circuit continuously and alternately applying a plurality of switching control signals to one and the other of said two switching elements constituting each of said arms respectively, said current detecting device comprising:
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two shunt resistors connected between said d.c. power source and one of said switching elements constituting each of the two arms among said three arms respectively; two sample-hold means associated with said shunt resistors connected in series with one of said switching elements belonging to the associated arms respectively, each of said sample-hold means for providing output signals corresponding to output currents of a.c. output terminals of said two arms by sampling and holding a voltage appearing across the associated shunt resistor at specific timing in a conduction period of said switching element belonging to the associated arm; and vector computing means for computing on the basis of said output signals from said two sample-hold means, a value by multiplying the sum of vector outputs of said two sample-hold means by -1.
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3. A current detecting device for a PWM inverter including a plurality of arms connected in parallel with a d.c. power source and each including a series connection of an upper arm and a lower arm each having a switching element, a.c. output terminals each being provided by the connection point between said upper and lower arms constituting each of said arms respectively, and a PWM switching control circuit continuously and alternately applying a plurality of switching control signals to said upper and lower arms constituting each of arms respectively, said current detecting device comprising:
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shunt resistors connected between a minus terminal of said d.c. power source and said lower arms respectively; and sample-hold means associated with said shunt resistors connected in series with said lower arms belonging to the associated arms respectively, each of said sample-hold means providing output signals corresponding to output currents of said a.c. output terminals by sampling and holding a voltage appearing across the associated shunt resistor at specific timing in a conduction period of said lower arm.
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4. A current detecting device for a PWM inverter including a plurality of arms connected in parallel with a d.c. power source and each including a series connection of an upper arm and a lower arm each having a switching element, a.c. output terminals each being provided by the connection point between said upper and lower arms constituting each of said arms respectively, and a PWM switching control circuit continuously and alternately applying a plurality of switching control signals to one and the other of said switching elements constituting each of said arms respectively, said current detecting device comprising:
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shunt resistors connected between said d.c. power source and one of said switching elements constituting each of said arms respectively; and extrapolating means for providing output signals corresponding to output currents of said a.c. output terminals by estimating, through extrapolation, the voltage values which will be held next by said sample-hold means on the basis of time-series data of voltages appearing across said shunt resistors and held by said sample-hold means in the past respectively.
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5. A PWM inverter including a plurality of arms connected in parallel with a d.c. power source and each including a series connection of an upper arm and a lower arm each having a switching element, a.c. output terminals each being provided by the connection point between said upper and lower arms constituting each of said arms respectively, and means for continuously and alternately applying a plurality of switching control signals to said upper and lower arms constituting each of said arms respectively, said PWM inverter comprising:
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waveform command generating means generating command signals commanding current waveforms to be supplied from said a.c. output terminals; carrier wave generating means generating a carrier wave signal; shunt resistors connected between said d.c. power source and one of said switching elements constituting each of said arms respectively; sample-hold means associated with said shunt resistors connected in series with one of said switching elements belonging to the associated arms respectively, each of said sample-hold means sampling and holding a voltage appearing across the associated shunt resistor in synchronism with the output of said carrier wave generating means and at specific timing in a conduction period of said switching element belonging to the associated arm; difference computing means computing differences between the outputs of said waveform command generating means and the outputs of said sample-hold means respectively; and switching control means comparing the outputs of said difference computing means with the output of said carrier wave generating means to produce said switching control signals for switching said switching elements. - View Dependent Claims (6, 7, 8, 9)
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10. A PWM inverter including a plurality of arms connected in parallel with a d.c. power source and each including a series connection of an upper arm and a lower arm each having a switching element, a.c. output terminals each being provided by the connection point between said two switching elements constituting each of said arms respectively, and means for continuously and alternately applying a plurality of switching control signals to said upper and lower arms constituting each of said arms respectively, said PWM inverter comprising:
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waveform command data generating means generating data representative of current waveforms to be supplied from said a.c. output terminals; carrier wave data generating means generating data representative of carrier wave at a predetermined time interval; shunt resistors connected between said d.c. power source and one of said two switching elements constituting each of said arms respectively; sample-hold means associated with said shunt resistors connected in series with one of said switching elements belonging to the associated arms respectively, each of said sample-hold means sampling and holding a voltage appearing across the associated shunt resistor in synchronism with the period of said carrier wave data generated from said carrier wave data generating means and at specific timing in a conduction period of said switching element belonging to the associated arm; difference computing means computing differences between the outputs of said waveform command data generating means and the outputs of said sample-hold means respectively; and switching control means comparing the outputs of said difference computing means with the output of said carrier wave data generating means to produce said switching control signals for switching said switching elements. - View Dependent Claims (11, 12, 13)
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14. A PWM inverter including three arms connected in parallel with a d.c. power source and each including a series connection of an upper arm and a lower arm each having a switching element, a.c. output terminals each being provided by the connection point between said two switching elements constituting each of said arms respectively, and means for continuously and alternately applying a plurality of switching control signals to one and the other of said two switching elements constituting each of said arms respectively, said PWM inverter comprising:
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waveform command data generating means generating data representative of current waveforms to be supplied from said a.c. output terminals; carrier wave data generating means generating data representative of carrier wave at a predetermined time interval; two shunt resistors connected between said d.c. power source and one of said two switching elements constituting each of the two arms among said three arms respectively; two sample-hold means associated with said shunt resistors connected in series with one of said switching elements belonging to the associated arms respectively, each of said sample-hold means sampling and holding a voltage appearing across the associated shunt resistor in synchronism with the period of the carrier wave data generated from said carrier wave data generating means and at specific timing in a conduction period of said switching element belonging to the associated arm; vector computing means computing a value obtained by multiplying the sum of vector outputs of said two sample-hold means by -1; difference computing means computing differences between the two outputs of said waveform command data generating means and the outputs of said sample-hold means and between the remaining output of said waveform command data generating means and the output of said vector computing means respectively; and switching control means comparing the outputs of said difference computing means with the output of said carrier wave data generating means to produce said switching control signals for switching said switching elements. - View Dependent Claims (15)
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16. A PWM inverter including three arms connected in parallel with a d.c. power source and each including a series connection of an upper arm and a lower arm each having a switching element, a.c. output terminals each being provided by the connection point between said two switching elements constituting each of said arms respectively, and means for continuously and alternately applying a plurality of switching control signals to one and the other of said two switching elements constituting each of said arms respectively, said PWM inverter comprising:
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waveform command data generating means generating data representative of current waveforms to be supplied from said a.c. output terminals; carrier wave data generating means generating data representative of carrier wave at a predetermined time interval; two shunt resistors connected between said d.c. power source and one of said two switching elements constituting each of the two arms among said three arms respectively; two sample-hold means associated with said shunt resistors connected in series with one of said switching elements belonging to the associated arms respectively, each of said sample-hold means sampling and holding a voltage appearing across the associated shunt resistor in synchronism with the period of the carrier wave data generated from said carrier wave data generating means and at specific timing in a conduction period of said switching element belonging to the associated arm; vector computing means computing a value obtained by multiplying the sum of vector outputs of said two sample-hold means by -1; extrapolating means estimating, by extrapolation, the values which will be held next by said sample-hold means on the basis of time-series data of voltages appearing across said shunt resistors and held by said sample-hold means in the past respectively; difference computing means computing differences between the outputs of said extrapolating means and the outputs of said sample-hold means respectively; and switching control means comparing the outputs of said difference computing means with the output of said carrier wave data generating means to produce said switching control signals for switching said switching elements.
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Specification