Power supply system and a control method thereof
First Claim
1. A power supply system, comprising:
- inverter means for converting a DC power into a first AC power;
reserved power source means for generating a second AC power;
changeover means, connected to receive said first AC power and said second AC power, for outputting one of said first and second AC power, said changeover means being adapted to supply a current to a load;
overcurrent detection means for detecting said load current, comparing the detected load current with a predetermined detection level to produce an overcurrent detection signal having a first level when said load current is less than said predetermined detection level and a second level when said load current is equal to or greater than said predetermined detection level;
means for controlling a frequency and phase of said first AC power to coincide with a frequency and phase, respectively, of said second AC power and controlling a voltage of said first AC power to be a specified voltage, said specified voltage being determined to be a predetermined reference voltage when said overcurrent detection signal is at said first level and to be a reduced voltage that is between zero voltage and a voltage of said second AC power when said overcurrent detection signal is at said second level;
said changeover means being further connected to receive said overcurrent detection signal, and for outputting said first AC power when said overcurrent detection signal is at said first level and outputting said second AC power when said overcurrent detection signal is at said second level.
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Accused Products
Abstract
A power supply system including an inverter, a reserved power source and changeover switches for outputting one of outputs of the inverter and reserved power source to supply a load current to a load. The system further includes a control circuit for controlling a phase, a frequency and a voltage of the output of the inverter to coincide with a phase, a frequency of the output of the reserved power source and a specified voltage, respectively. The specified voltage is determined to be a predetermined reference voltage when the load current is below a detection level and to be a reduction voltage decided between zero volt and the voltage of the reserved power source when the load current is equal to or more than the detection level. A method for controlling a power supply system described above is also disclosed.
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Citations
17 Claims
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1. A power supply system, comprising:
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inverter means for converting a DC power into a first AC power; reserved power source means for generating a second AC power; changeover means, connected to receive said first AC power and said second AC power, for outputting one of said first and second AC power, said changeover means being adapted to supply a current to a load; overcurrent detection means for detecting said load current, comparing the detected load current with a predetermined detection level to produce an overcurrent detection signal having a first level when said load current is less than said predetermined detection level and a second level when said load current is equal to or greater than said predetermined detection level; means for controlling a frequency and phase of said first AC power to coincide with a frequency and phase, respectively, of said second AC power and controlling a voltage of said first AC power to be a specified voltage, said specified voltage being determined to be a predetermined reference voltage when said overcurrent detection signal is at said first level and to be a reduced voltage that is between zero voltage and a voltage of said second AC power when said overcurrent detection signal is at said second level; said changeover means being further connected to receive said overcurrent detection signal, and for outputting said first AC power when said overcurrent detection signal is at said first level and outputting said second AC power when said overcurrent detection signal is at said second level. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. An uninterruptable power supply, comprising:
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rectifier means for converting an input AC power into a first DC power; battery means for providing a second DC power; inverter means connected to receive at least one of said first DC power and said second DC power as a DC input power, for converting said DC input power into a square wave output; AC filter means for shaping said square wave output into a sinusoidal wave output to produce a first AC power; reserved power source means for generating a second AC power; changeover switch means connected to receive said first AC power and said second AC power for outputting one of said first and second AC power, said changeover switch means being adapted to supply a load current to a load; phase locked loop means connected to receive said first AC power and said second AC power, for producing pulses to control a phase and a frequency of said first AC power to coincide with a phase and a frequency of said second AC power and for outputting said pulses as a first control signal; current detector means for detecting said load current; overcurrent detection means, connected to detect said load current, for generating an overcurrent detection signal when said load current is equal to or more than a predetermined detection level; reduction signal generating means, connected to receive said second AC power and said overcurrent detection signal, for producing a product of a voltage of said second AC power and a reduction coefficient as a reduced voltage when said overcurrent detection signal is received and for generating said reduced voltage as a reduction signal; constant voltage control means connected to receive a predetermined reference voltage, said first AC power and said reduction signal, for producing a second control signal to control a voltage of said first AC power to be a specified voltage, said specified voltage being determined to be said predetermined reference voltage when said overcurrent detection signal is not received and to be said reduced voltage when said overcurrent detection signal is received; phase shifter means connected to receive said first control signal and said second control signal for controlling the phase, the frequency and the voltage of said first AC power to coincide with the phase and the frequency of said second AC power, and with said specified voltage determined by said second control signal, respectively; and changeover switch control means, connected to receive said overcurrent detection signal, for controlling said changeover switch means such that said first AC power is outputted when said overcurrent detection signal is not received and said second AC power is outputted when said overcurrent detection signal is received.
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12. A method for controlling a power supply system, including,
inverter means for converting a DC power into a first AC power, reserved power source means for generating a second AC power, changeover means connected to receive said first AC power and said second AC power for outputting one of said first and second AC power, said changeover means being adapted to supply a load current to a load, and control circuit means connected to receive said first AC power, said second AC power and a reference voltage for controlling said first AC power such that a phase, a frequency and a voltage of said first AC power coincide with a phase and a frequency of said second AC power, and said reference voltage, respectively, said method comprising the steps of: -
detecting whether or not said load current exceeds a predetermined detection level; and supplying said load current from said reserved power source means and stopping supplying said load current from said inverter means by controlling said changeover means and reducing the voltage of said first AC power to a specified reduced voltage when said load current exceeds said predetermined detection level. - View Dependent Claims (13, 14, 15, 16, 17)
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Specification