Power supply circuit compensating power factor

Electricity: power supply or regulation systems – For reactive power control – Using converter

Reexamination Certificate

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Details

C323S222000

Reexamination Certificate

active

06686725

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a circuit for stabilizing a voltage, and more particularly to a power supply circuit of a power factor compensation type maintaining a PFC output voltage to be either of dualized magnitudes according to an input voltage after classifying the input voltages by a certain critical voltage range, thus improving an efficiency by 2 to 3% in case of the low alternating current (AC) input voltage, which is different from related methods for controlling the power factor compensation (PFC) output voltage regardless of a magnitude of the input AC voltage.
2. Description of the Prior Art
Generally, a switching mode power supply circuit, which converts an input alternating current power to a direct current power and converts again the converted DC voltage to a DC voltage with the same power by a switching means, is popular in case of electronic communication devices, computer systems and electronic devices with large capacity.
However, the switching mode power supply circuit generates a switching noise, and so is recognized as a main reason for an environmental pollution of electromagnetic wave which draws attention nowadays. In case of a low power electronic device of a consumption type, its generated electromagnetic wave which is a switching noise is not so serious, and however an electronic device outputting a high voltage causes the serious environmental pollution.
Accordingly, in order to eliminate the high frequency noise generated in the present power supplies, Europe and Japan established IEC 1000-3-2 standard that a power factor compensation (PFC) method should be applied to the switching mode power supplies having an input consumption power of more than 75 Watts.
In this way, a reason of tightening the country's control is for taking care of people's health by suppressing the environmental pollution. This control related to the pollution is expected to be gradually extended.
Now, the related power supply circuit is explained with respect to FIG.
1
. The related power supply circuit comprises an AC line filter
1
for receiving an alternating current power in a range of 90 to 264 Volts to eliminate noise of a surge state contained in the voltage; a bridge diode rectifier
2
for rectifying the alternating current power outputted from the AC line filter
1
into a direct current power; a PFC coil
3
consisting of an inductive element, of which an end is connected to an output end of the bridge diode rectifier
2
, and an element for preventing a counter electromotive force; a PFC switch
4
having an end grounded and the other end connected to an output end of the PFC coil
3
, which is turned on or off according to an inputted control signal to allow an output voltage of the PFC coil
3
to be transmitted to devices provided at a rear side only during its off state; a first resistor
6
and a second resistor
7
for receiving and feedback, in case the PFC switch
4
makes the voltage to pass, the voltage to divide the voltage; a PFC controller
5
receiving the voltage divided by the first resistor
6
and the second resistor
7
to compare the voltage to a reference voltage and to control a control signal to be applied to the PFC switch
4
according to a result of the comparison; and a filtering condenser
8
connected in parallel to the first resistor
6
and the second resistor
7
to stabilize an actual output voltage.
In the related power supply circuit having the above structure, when the alternating current power in a range of 90 to 264 Volts is applied to the power supply circuit, the AC line filter
1
normally uses a low pass filter in order to eliminate noise contained in the alternating current power in common use.
Then, the AC power outputted from the AC line filter
1
is rectified into a direct current power through the bridge diode rectifier
2
. The rectified DC voltage by the bridge diode rectifier
2
passes a PFC coil
3
consisting of an inductive element and an element for preventing a counter electromotive force, to be delivered to devices provided at a rear side.
The PFC controller
5
receives the voltage divided by the first resistor
6
and the second resistor
7
after passing the PFC coil
3
, and compares the voltage to a reference voltage to control a control signal to be applied to the PFC switch
4
according to a result of the comparison. The PFC switch
4
having an end grounded and the other end connected to an output end of the PFC coil
3
is turned on or off according to an inputted control signal to allow the output voltage of the PFC coil
3
to be transmitted to the devices provided at the rear side only during its off state.
The prior art corresponding to the above related power supply circuit is a U.S. Pat. No. 5,349,284. An explanation about the prior art is described with respect to FIG.
2
.
In the
FIG. 2
, the same reference numerals are assigned to components having the same functions in comparison with the structure of FIG.
1
. In addition, references of other components are arbitrarily assigned differently from reference numerals in the prior art.
Hereinafter, an operation of the prior art of
FIG. 2
will be explained, and the explanation about the same components as
FIG. 1
is omitted. A PFC controller
5
comprises a comparing unit
5
A, a multiplexer
5
C and a PWM IC
5
B.
The PFC controller
5
is typically embodied as an exclusive IC.
Accordingly, an explanation of an overall operation is omitted because it is overlapped with the explanation in
FIG. 1
, but an operation of the PFC controller
5
is described in detail. Whether an alternating current voltage is inputted through an AC line or not is checked by a divided voltage by resistors R
1
, R
2
.
In addition, when the comparing unit
5
A, which compares a reference voltage Vref across a resistor R
5
and an output voltage Vout divided through resistors
6
and
7
, determines that a divided voltage of the output voltage is larger than the reference voltage, that is when it recognizes an over voltage state, the controller outputs a logical low signal, and otherwise it outputs a logical high signal to control an operation of the multiplexer
5
C, thus changing a PWM signal outputted by a PWM IC
5
B for generating a control signal for controlling a PFC switch
4
.
A diode D
1
and a condenser C
1
smoothes a voltage rectified by the bridge diode rectifier
2
, and resistors R
3
, R
4
are resistors for setting a bias for providing the reference voltage Vref.
However, although the PFC controller
5
employs specialized IC for an exclusive use, its efficiency rapidly decreases at an input voltage of 90 V
AC
to cause various problems such as a heat radiation and a high fabrication cost, etc.
That is, the related exclusive IC is optimally designed to maintain the PFC output voltage to be DC 400 V, and so in case of a minimum input AC voltage of 90 V, its relative PFC conversion efficiency is deteriorated in comparison to a case of the maximum input AC voltage of 265 V. Therefore, in case the minimum AC voltage of 90 V is inputted, the heat is radiated, thus having disadvantage in that an additional heat-proof counter plan is needed and its size may be large.
SUMMARY OF THE INVENTION
Accordingly, the present invention has been made keeping in mind the above problems occurring in the related art, and an object of the present invention is to provide a power supply circuit of a power factor compensation type maintaining a PFC output voltage to be either of daulized magnitudes according to an input voltage after classifying the input voltages by a certain critical voltage range, thus improving an efficiency by 2 to 3% in case of the low AC input voltage.
In order to accomplish the above object, the present invention provides a power supply circuit compensating a power factor, comprising: a voltage filter receiving for an alternating current power which is varying in a certain range, and eliminating and outputting noise contained in the voltage; a rectifier rectifying for the a

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