Direct conversion uninterruptible power supply
First Claim
1. An uninterruptible power supply device, the device comprising:
- an input stage connected to an AC power supply and an output stage for supplying AC power to an appliance;
a high frequency transformer;
wherein said input stage has a first pair of switching means connected in series with the output stage and a second pair of switching means connected in parallel with the output stage, wherein each of said switching means is capable of switching current in two directions; and
, wherein said first pair of switching means are respectively connected to the respective ends of a first winding of the high frequency transformer and said second pair of switching means are respectively connected to the respective ends of a second winding of the high frequency transformer;
a controller operatively connected to said first and second pairs of switching means for controlling the direction of current through each of the respective switching means in response to detected changes in power conditions whereby, in use, regulated AC power can be supplied from the output stage.
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Abstract
An uninterruptible power supply (UPS) device 10 is described having only half the number of inductors and storage capacitors of a conventional UPS. The UPS 10 has an input stage 12 connected to an AC power supply and an output stage 14 for supplying AC power to an appliance. The input stage 12 has a first switching means 16 connected in series with the output stage 14 and a second switching means 18 connected in parallel with the output stage 14. The output stage 14 has a third switching means 20 connected in series with the input stage 12 and a fourth switching means 22 connected in parallel with the input stage 12. Each of the switching means 16, 18, 20 and 22 is capable of switching current in two directions depending on control signals supplied to the switching means by a controller 24. The controller 24 controls the direction of current through each of the respective switching means in response to detected changes in power conditions. Each of the switching means 16, 18, 20 and 22 are controlled by controller 24 to be in either an ON condition, an OFF condition or a switching condition in which the switching means is switched at high frequency. Replacement of the four bulky items in a conventional UPS with a single inductor and a small high frequency storage capacitor results in a significant reduction in physical size. The remainder of the components in the UPS are mainly semi-conductors which therefore lends itself to high integration.
19 Citations
19 Claims
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1. An uninterruptible power supply device, the device comprising:
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an input stage connected to an AC power supply and an output stage for supplying AC power to an appliance;
a high frequency transformer;
wherein said input stage has a first pair of switching means connected in series with the output stage and a second pair of switching means connected in parallel with the output stage, wherein each of said switching means is capable of switching current in two directions; and
, wherein said first pair of switching means are respectively connected to the respective ends of a first winding of the high frequency transformer and said second pair of switching means are respectively connected to the respective ends of a second winding of the high frequency transformer;
a controller operatively connected to said first and second pairs of switching means for controlling the direction of current through each of the respective switching means in response to detected changes in power conditions whereby, in use, regulated AC power can be supplied from the output stage. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. An uninterruptible power supply device, the device comprising:
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an input stage connected to an AC power supply and an output stage for supplying AC power to an appliance;
wherein said input stage has a first switching means connected in series with the output stage and a second switching means connected in parallel with the output stage, wherein each of said switching means is capable of switching current in two directions; and
,a controller operatively connected to said first and second pairs of switching means for controlling the direction of current through each of the respective switching means in response to detected changes in power conditions whereby in use, regulated AC power can be supplied from the output stage;
wherein the output stage has a third switching means connected in series with the input stage and fourth switching means connected in parallel with the input stage, and said controller is also operatively connected to said third and fourth switching means. - View Dependent Claims (12)
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13. An uninterruptible power supply device, the device comprising:
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an input stage connected to an AC power supply and an output stage for supplying AC power to an appliance;
wherein said input stage has a first switching means connected in series with the output stage and a second switching means connected in parallel with the output stage, wherein each of said switching means is capable of switching current in two directions;
a controller operatively connected to said first and second switching means for controlling the direction of current through each of the respective switching means in response to detected changes in power conditions whereby, in use, regulated AC power can be supplied from the output stage;
a battery-powered switching section for supplying back-up power in the event of interruption of power to the input stage; and
a single storage capacitor connected to an output of said battery-powered switching section for filtering an output voltage from said switching section;
wherein fifth and sixth switching means are provided for connecting said battery-powered switching section to said input stage of the device, said fifth and sixth switching means also being operatively connected to said controller. - View Dependent Claims (14, 15)
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16. A method of controlling an uninterruptible power supply device, the method comprising:
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monitoring AC power supplied to an input stage of the device;
monitoring AC power supplied from an output stage of the device;
providing first and second switching means in the input stage connected in series and in parallel respectively with the output stage, and wherein each of said switching means is capable of switching current in two directions;
controlling the direction of current through each of the first and second switching means in response to detected changes in power conditions whereby in use, regulated power can be supplied from the output stage;
providing third and fourth switching means in the output stage connected in series and in parallel respectively with the input stage; and
,controlling the direction of current through said third and fourth switching means in response to detected changes in power conditions. - View Dependent Claims (17, 18, 19)
providing a battery-powered switching section for supplying back-up power in the event of interruption of power supplied to the input stage, and wherein a single storage capacitor is connected to an output of said battery-powered switching section for filtering an output voltage from said switching section.
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18. A method of controlling an uninterruptible power supply device as defined in claim 17, further comprising:
monitoring the voltage across said storage capacitor and comparing it with the voltage of the AC power supplied from the output stage.
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19. A method of controlling an uninterruptible power supply device as defined in claim 18, further comprising:
comparing the voltage of the AC power supplied from the output stage with a reference voltage representing the desired output voltage of the device.
Specification