DC to AC converter that generates the sine wave from the pulse width modulated signal
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02M-003/335
H02M-001/12
H02M-001/14
출원번호
US-0942002
(2010-11-08)
등록번호
US-8345451
(2013-01-01)
발명자
/ 주소
Wernlund, James V.
Wernlund, Roger F.
Wernlund, Zachary J.
Wernlund, Christian J.
출원인 / 주소
Wernlund, James V.
대리인 / 주소
DeAngelis, John L.
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
A method and apparatus for converting DC electricity to AC electricity, the AC electricity having a sine wave shape. DC electricity is supplied to a pulse width modulator. A pulse width modulated signal is formed from the DC electricity, the pulse width modulated signal comprising a plurality of pul
A method and apparatus for converting DC electricity to AC electricity, the AC electricity having a sine wave shape. DC electricity is supplied to a pulse width modulator. A pulse width modulated signal is formed from the DC electricity, the pulse width modulated signal comprising a plurality of pulses, each pulse having a duration representing an amplitude of the sine wave during an interval of the sine wave represented by the pulse, the pulse width modulated signal comprising a plurality of pulses (or a pulse train) during one sine wave period. The sine wave is generated from the pulse width modulated signal, values of the sine wave during successive sine wave intervals responsive to the duration of the pulse that represents the sine wave interval.
대표청구항▼
1. A method for converting DC electricity to AC electricity having a sine wave shape, the method comprising: supplying the DC electricity to a pulse width modulator;creating a pulse width modulated signal from the DC electricity, the pulse width modulated signal comprising a plurality of pulses, eac
1. A method for converting DC electricity to AC electricity having a sine wave shape, the method comprising: supplying the DC electricity to a pulse width modulator;creating a pulse width modulated signal from the DC electricity, the pulse width modulated signal comprising a plurality of pulses, each pulse having a duration representing an amplitude of the sine wave during an interval of the sine wave represented by the pulse, the pulse width modulated signal comprising a plurality of pulses during one sine wave period; andgenerating the sine wave from the pulse width modulated signal, values of the sine wave during successive sine wave intervals responsive to the duration of the pulse that represents the sine wave interval. 2. The method of claim 1 wherein the step of generating the sine wave comprises generating a positive half cycle of the sine wave period from pulses generated by a first pulse width modulator and generating a negative half cycle of the sine wave period from pulses generated by a second pulse width modulator. 3. The method of claim 1 wherein the sine wave comprises a 60 Hz sine wave and a number of pulses during one period of the sine wave comprises 16 pulses, each pulse having a duration of a product of 1.04 ms and the amplitude of the sine wave during the interval represented by the pulse. 4. The method of claim 1 wherein the amplitude of the sine wave during an interval comprises one of a value of the sine wave at a midpoint of the interval of the sine wave, an average of the value at a beginning and an end of the interval, an average of all values during the interval, and a value at the end of the interval. 5. The method of claim 1 wherein a first pulse from the plurality of pulses is divided into a further plurality of second pulses, and wherein a sum of on times and off times of the plurality of second pulses is equal to the respective on time and off time of the first pulse. 6. The method of claim 1 wherein the sine wave comprises a sine wave having a DC offset value. 7. The method of claim 1 further comprising generating a first pulse width modulated signal from a first pulse width modulator and a second pulse width modulated signal from a second pulse width modulator, the first pulse width modulated signal representing positive sine wave values and the second pulse width modulated signal representing negative sine wave values, the first and second pulse width modulated signals supplied differentially to a transformer. 8. The method of claim 1 further comprising supplying the AC electricity to an electrical grid, the method further comprising controlling an amplitude of the sine wave to a value greater than a grid voltage to maintain power flow into the grid. 9. The method of claim 8 wherein the method further comprises controlling one of a phase and an amplitude of the sine wave to control a power factor on the electrical grid. 10. The method of claim 1 further comprising controlling a location of a zero density point in the plurality of pulses to control a phase of the sine wave. 11. The method of claim 1 wherein the sine wave comprises a 60 Hz sine wave and the plurality of pulses during one period of the sine wave comprises n pulses, each pulse having a duration of a product of 60 Hz/n and the sine wave value during the interval represented by the pulse, further comprising controlling an amplitude of the generated sine wave by changing the sine wave value during the interval represented by the pulse. 12. A converter for converting DC electricity to AC electricity having a sine wave shape, the converter comprising: a source of DC electricity;a pulse width modulator for generating a pulse train comprising a plurality of pulses, each pulse having a duration representing an amplitude of the sine wave during an interval of the sine wave represented by the pulse, the pulse width modulated signal comprising a plurality of pulses during one sine wave period; anda generator for generating the sine wave from the pulse width modulated signal, values of the sine wave during successive sine wave intervals responsive to the duration of the pulse that represents the sine wave interval. 13. The converter of claim 12 wherein the source comprises one or more solar panels for converting sunlight to DC electricity. 14. The converter of claim 12 wherein the pulse width modulator comprises one or more semiconductor switches controlled to generate pulses having a predetermined duration. 15. The converter of claim 12 wherein the sine wave comprises a 60 Hz sine wave and the plurality of pulses during one period of the sine wave comprises n pulses, each pulse having a duration of a product of 60 Hz/n and the sine wave value during the interval represented by the pulse. 16. The converter of claim 12 further comprising a transformer responsive to the sine wave for increasing a peak voltage of the sine wave and supplying an increased-peak voltage sine wave to a load. 17. The converter of claim 12 wherein the AC electricity is supplied to an electrical grid, the converter further comprising a controller for controlling one of a phase and amplitude of the sine wave to control a power factor on the electrical grid. 18. A converter for converting DC electricity to AC electricity having a sine wave shape, the converter comprising: a first and a second pulse width modulator for generating respective positive-going and negative-going pulse trains, each of the positive and negative-going pulse trains comprising a plurality of pulses, each pulse within a pulse train having a duration representing an amplitude of the sine wave during a sine wave interval represented by the pulse;a filter responsive to the positive-going and negative-going pulse trains for filtering the positive-going and negative-going pulse trains to produce a filtered positive-going pulse train and a filtered negative-going pulse train;a transformer having a primary and secondary winding, the filtered positive-going pulse train and the filtered negative-going pulse train input to the respective first and second terminals. 19. The converter of claim 18 wherein a turns ratio of the transformer can be adjusted to generate a predetermined secondary voltage. 20. The converter of claim 18 wherein the AC electricity is supplied to a electrical grid load, the converter further comprising a controller for controlling one of a phase and an amplitude of the sine wave to control a power factor on the electrical grid.
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