Electricity: power supply or regulation systems – Output level responsive – Using a three or more terminal semiconductive device as the...
Reexamination Certificate
2002-06-07
2003-11-18
Berhane, Adolf D. (Department: 2838)
Electricity: power supply or regulation systems
Output level responsive
Using a three or more terminal semiconductive device as the...
Reexamination Certificate
active
06650099
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a switching power supply, which can regulate the amount of limitation of power supply output power according to the input or output of the switching power supply and diminish overshoot of inrush current and output voltage during starting.
2. Description of Related Art
Although switching power supplies, which are able to transmit electrical power to a load at an output voltage that differs from the input voltage by performing conventional switching, are becoming the mainstream type of power supply in order to allow reduced size and higher efficiency, since the smoothing circuit has a large capacitance, there has been the problem of device destruction caused by the flow of large inrush current during power supply starting when a charge has not accumulated in the capacitor, as well as the problem of the occurrence of the phenomenon known as overshoot in which output voltage ends up temporarily exceeding the desired voltage.
Therefore, a method referred to as soft starting is employed in which the duty of the signal applied to the switching element during power supply starting is gradually increased to diminish this inrush current and output voltage overshoot, and an example of this prior art is shown in FIG.
2
.
The example of the prior art shown in
FIG. 2
is a step-down chopper that uses pulse width modulation (to be abbreviated as PWM), and is composed of switching element
1
that generates a pulse voltage by switching the input voltage, smoothing device
2
that smoothes said pulse voltage, detection device
3
that detects power supply output voltage
16
, power supply output current
17
or both, switching signal generation device
4
that receives the signal detected by this detection device
3
and generates a drive signal of switching element
1
, and soft start circuit
11
that generates a soft start signal.
In addition, in the prior embodiment, switching signal generation device
4
is provided error amplifier
8
that compares power supply output voltage
16
with a reference voltage
14
and transmits a signal in which that error is amplified, and PWM modulator
9
that performs pulse width modulation of the signal transmitted by this error amplifier
8
. Moreover, soft start circuit
11
is composed by connecting a constant voltage source like reference voltage
14
, resistor
12
and capacitor
13
in series.
The example of the prior art composed in the manner described above operates in the following manner. Power supply output voltage
16
is compared with reference voltage
14
, the error amplification signal voltage of those compared voltages is subjected to pulse width modulation by using as the input voltage of PWM modulator
9
, switching element
1
is switched according to the output signal of this modulator
9
, and the output of this switching element
1
is input to smoothing circuit
2
to be able to obtain power supply output voltage
16
.
PWM functions so as to supply large electrical power to the load by increasing the pulse width, namely by increasing the duty, when a large power supply output current
17
is required, and reduce electrical power to the load by decreasing the duty when power supply output current
17
is small.
PWM modulator
9
that performs PWM is composed of a comparator having three inputs for a chopping wave that serves as a reference, an error amplification signal voltage and a soft start signal, and realizes PWM was realized by comparing the signal of the lower voltage valve between the error amplification signal voltage and soft start signal with the chopping wave.
This example of the prior art is equipped with a typical soft start circuit
11
, accumulation of charge in the above capacitor begins from the time the power supply is started, and a soft start signal is generated by gradually increasing the voltage of the terminals connecting the above resistor
12
and the above capacitor
13
over an amount of time determined by the product of the value of the above resistor
12
and the value of the above capacitor
13
.
However, since the above capacitor
13
typically required a large capacitance on the order of 100 &mgr;F in order to suppress inrush current without allowing overshoot, integration was difficult and there were problems with respect to an increase in the number of parts and impairment of power supply size reduction.
Moreover, in the case of, for example, controlling the power supply by a modulation system different from PWM, there was the problem of being unable to use a method that uses the above three-input comparator.
That is, since the method of the prior art required a large capacitance to generate a soft start signal, it was difficult to reduce the size of the power supply and attain a higher degree of integration, and there was also the problem of not being able to conform to certain power supplies depending on the modulation system used to control the power supply.
SUMMARY OF THE INVENTION
In consideration of the above problems, the object of the invention is to provide a switching power supply that is capable of limiting the power supply output power using a method that is compatible with compact size regardless of the modulation system.
In order to achieve the above object, the invention according to a first aspect of the present invention relates to a switching power supply that is capable of regulating the limit of power supply output power as desired by applying a pulse signal to a switching element that forcibly switches off that switching element according to a signal obtained by detecting the input voltage, output voltage, input current or output current of the power supply.
The switching power supply according to the present invention is provided with a switching element that converts an input voltage to a pulse voltage, the output of this switching element is provided with a smoothing device for smoothing the above pulse voltage, and the output of this smoothing device is composed so as to be connected to a load in the form of the power supply output.
Moreover, the above switching power supply is provided with a detection device that detects the power supply output voltage, power supply output current or both, and is equipped with a switching signal generation device for generating a switching element drive signal according to the detected signal.
The output of the above switching signal generation device is connected to one input of a reset device that is able to switch off the switching element regardless of the signal of the switching signal generation device, and is connected to the switching element.
The other input of the above reset device is connected to the output of a pulse signal generation device that receives a signal from a control signal detection device that detects at least one of input voltage, input current, output voltage or output current, and generates a signal for reset, and is capable of regulating the limit of power supply output power by changing the duty of the above pulse signal.
In addition, the power supply output power limit can also be regulated by inputting a signal that has detected either power supply internal voltage or power supply internal current in the form of a power supply internal signal such as a reference voltage, in addition to the above detection signal, to the above reset device input.
FIG. 3
indicates the relationship among the drive signal of a switching element, pulse signal for resetting, and reset device output signal, and the switching element drive signal drives the switching element as is when the reset pulse signal passes through, while a signal that switches off the switching element is applied to the switching element when the reset pulse signal is reset.
As a result, the maximum value of the duty of the reset device output signal is determined by the duty of the reset pulse regardless of the switching element drive signal, and since that maximum value cannot be equal to or greater than the duty of the reset pulse, the power supply output po
Mitamura Atsushi
Ono Hideyuki
Berhane Adolf D.
Nixon & Vanderhye P.C.
Shingengen Electric Manufacturing Co., Ltd.
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