JP2004242387A - Step-down dc-dc converter and terminal device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the current consumption, when the LSI of a step-down DC-DC converter for supply an LSI or the like, when power is not operating. <P>SOLUTION: This step-down DC-DC converter switches a step-down DC-DC converter mode, in which the converter steps down and outputs the input voltage by changing the output of a switching control circuit 103, using the clock of an oscillator 105, depending on the input level of a control signal (CONT), and an input voltage-through mode in which the output of a switching control circuit 103 is set to low and keeps a Pch MOSFET104 ON at all times and outputs input voltage, as it is. In the case that it does not need a large supply current as power capacity, it can realize lowering of current consumption of a small-sized portable terminal device, by using the input voltage through mode where it outputs the input voltage, as it is. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a step-down DC-DC converter and a terminal device, and particularly to a step-down DC-DC converter for supplying power to an LSI or the like and a terminal device using the step-down DC-DC converter.
[0002]
[Prior art]
In small portable terminal devices such as portable telephones, the voltage of LSIs and the like and the processing speed have been increasing, and a low voltage and a large current must be supplied as a power supply for the LSI. I have. On the other hand, low current consumption is an essential condition for the current consumption of the small portable terminal device itself.
[0003]
During the operation of the LSI, the use of the step-down DC-DC converter can reduce the current consumption of the small portable terminal device by the efficient use of the low voltage and the power supply. However, when the LSI is not operating, the LSI itself is not operated. There is almost no current consumption, and the current consumption of the step-down DC-DC converter greatly affects the current consumption of the small portable terminal device.
[0004]
In order to provide a small and inexpensive power supply device that prevents unnecessary loss from increasing, when the power supply voltage of the DC power supply is sufficiently higher than the voltage required by the voltage reduction means of the control power supply circuit, the voltage is boosted by the boosting means. There has been proposed a power supply device provided with a stopping means for stopping a function (for example, see Patent Document 1).
[0005]
[Patent Document 1]
JP-A-2002-233152 (page 5, FIG. 1)
[0006]
[Problems to be solved by the invention]
As described above, the conventional step-down DC-DC converter has a problem that wasteful current is consumed when the LSI is not operating.
[0007]
Even the method proposed in Patent Document 1 does not solve the problem of current consumption when the LSI is not operating.
[0008]
An object of the present invention is to provide a step-down DC-DC converter that reduces current consumption when the LSI is not operating, and a terminal device that uses the step-down DC-DC converter.
[0009]
[Means for Solving the Problems]
A step-down DC-DC converter according to the present invention includes a control signal input unit, an oscillator, a MOSFET, and a switching control circuit that controls switching of the MOSFET,
According to the input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
An output of the switching control circuit is set to Low, and the MOSFET is constantly turned on to switch the input voltage through mode in which the input voltage is output as it is.
[0010]
A step-down DC-DC converter according to the present invention includes a voltage detection circuit, an oscillator, a MOSFET, and a switching control circuit that controls switching of the MOSFET.
Depending on the level of the input voltage detected by the voltage detection circuit,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step-down and output the input voltage;
The output of the switching control circuit may be low, and the MOSFET may be constantly turned on to switch the input voltage through mode in which the input voltage is output as it is.
[0011]
A step-down DC-DC converter according to the present invention includes a control signal input unit, an oscillator, an error amplifier, a MOSFET, and a switching control circuit that controls switching of the MOSFET.
According to the input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
The output of the switching control circuit may be separated from the MOSFET using the error amplifier to switch a mode used as a constant voltage regulator.
[0012]
A step-down DC-DC converter according to the present invention includes a control signal input unit, an oscillator, a constant current source, a reference voltage source, an error amplifier, a MOSFET, and a switching control circuit that controls switching of the MOSFET.
According to the input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
A mode used as a constant voltage regulator may be switched using the constant current source, the reference voltage source, and the error amplifier.
[0013]
A terminal device of the present invention includes an LSI, and a step-down DC-DC converter that supplies power to the LSI,
The step-down DC-DC converter includes a control signal input unit, an oscillator, a MOSFET, and a switching control circuit that controls switching of the MOSFET.
According to the input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
An output of the switching control circuit is set to Low, and the MOSFET is constantly turned on to switch the input voltage through mode in which the input voltage is output as it is.
[0014]
A terminal device of the present invention includes an LSI, and a step-down DC-DC converter that supplies power to the LSI,
The step-down DC-DC converter has a voltage detection circuit, an oscillator, a MOSFET, and a switching control circuit that controls switching of the MOSFET.
Depending on the level of the input voltage detected by the voltage detection circuit,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step-down and output the input voltage;
The output of the switching control circuit may be low, and the MOSFET may be constantly turned on to switch the input voltage through mode in which the input voltage is output as it is.
[0015]
A terminal device of the present invention includes an LSI, and a step-down DC-DC converter that supplies power to the LSI,
The step-down DC-DC converter includes a control signal input unit, an oscillator, an error amplifier, a MOSFET, and a switching control circuit that controls switching of the MOSFET.
According to the input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
The output of the switching control circuit may be separated from the MOSFET using the error amplifier to switch a mode used as a constant voltage regulator.
[0016]
A terminal device of the present invention includes an LSI, and a step-down DC-DC converter that supplies power to the LSI,
The step-down DC-DC converter has control signal input means, an oscillator, a constant current source, a reference voltage source, an error amplifier, a MOSFET, and a switching control circuit that controls switching of the MOSFET,
According to the input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
A mode used as a constant voltage regulator may be switched using the constant current source, the reference voltage source, and the error amplifier.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be described in detail with reference to the drawings. First, a first embodiment will be described. A terminal device of the present invention includes an LSI and a step-down DC-DC converter that supplies power to the LSI. FIG. 1 is a configuration diagram of a step-down DC-DC converter according to a first embodiment of the present invention.
[0018]
Referring to FIG. 1, in the first embodiment, a constant current source (101) for setting and detecting an output voltage, an error amplifier (102), a reference voltage source (106), SW1 (112), and SW2 ( 113), output voltage setting resistor 1 (107), output voltage setting resistor 2 (108), switching control circuit (103) for switching control of PchMOSFET (104), oscillator (105), and step-down output of input voltage And a P-channel MOSFET (104), an inductor (109), a diode (110), and a capacitor (111).
[0019]
Next, the operation of the first embodiment will be described with reference to FIG. According to the present invention, the voltage output to VOUT is switched by controlling the power of the error amplifier (102), the switching control circuit (103), and the oscillator (105) using the CONT signal.
[0020]
When the CONT signal is Hi, the error amplifier (102), the switching control circuit (103), and the oscillator (105) are powered up, and SW1 (112) and SW2 (113) are turned on.
[0021]
The output voltage set by the constant current source (101), the error amplifier (102), the reference voltage source (106), the output voltage setting resistor 1 (107), and the output voltage setting resistor 2 (108) is added to the oscillator (105). ), The output of the switching control circuit (103) is changed and the P-ch MOSFET (104) is switched to switch the input voltage to VOUT by charging / discharging the inductor (109), diode (110), and capacitor (111). Perform step-down output.
[0022]
The voltage of the stepped down VOUT is detected by a constant current source (101), an error amplifier (102), a reference voltage source (106), an output voltage setting resistor 1 (107), and an output voltage setting resistor 2 (108). The operation of finely adjusting the step-down output by changing the output of the switching control circuit (103) again by the clock of the oscillator (105) and switching the PchMOSFET (104) is repeated.
[0023]
When the CONT signal is low, SW1 (112) and SW2 (113) are turned off. By powering down the error amplifier (102), the switching control circuit (103), and the oscillator (105), the output of the switching control circuit is set to Low, and the PchMOSFET (104) is always turned on.
[0024]
By constantly turning on the Pch MOSFET (104), the voltage input from VIN is directly output to VOUT.
[0025]
FIG. 2 is a diagram showing the relationship between the output voltage of VOUT by the CONT signal and the current consumption of the circuit according to the configuration of FIG.
[0026]
As shown in FIG. 2, by setting the CONT signal to Hi when the LSI is operating, the mode is switched to the step-down DC-DC converter mode to efficiently supply power to the LSI, and when the LSI is not operating, the CONT signal is set to Low. By doing so, low current consumption can be realized.
[0027]
Next, a second embodiment of the present invention will be described. FIG. 3 is a configuration diagram of a step-down DC-DC converter according to a second embodiment of the present invention.
[0028]
In the first embodiment described above, it is described that the step-down DC-DC converter mode and the input voltage through mode in which the input voltage is output as it is can be switched by Hi / Low of the CONT signal. By providing SW1 (312) and SW2 (313) as in 3 and changing the control of the CONT signal, when the CONT signal is Hi, SW1 (312) is turned on and SW2 (313) is turned off. Then, it is used as a step-down DC-DC converter mode.
[0029]
When the CONT signal is low, only the error amplifier (302) used in the step-down DC-DC mode is used, SW1 (312) is turned off, SW2 (313) is turned on, and the switching control circuit ( By disconnecting the output of the P-channel MOSFET (304) from the output of the P-channel MOSFET (303), it is also possible to switch to a mode used as a constant voltage regulator.
[0030]
Next, a third embodiment of the present invention will be described. FIG. 4 is a configuration diagram of a step-down DC-DC converter according to a third embodiment of the present invention.
[0031]
As shown in FIG. 4, the constant current source 2 (415), the reference voltage source 2 (417), the error amplifier 2 (416), SW1 (412), SW2 (413), SW3 (414), SW4 (420), and SW5 By providing (421) and SW6 (422), when the CONT signal is Hi, SW1 (412), SW2 (413) and SW3 (414) are turned ON, and SW4 (420), SW5 (421), By turning off the SW6 (422), the step-down DC is performed using the constant current source 1 (401), the reference voltage source 1 (406), the error amplifier 1 (402), the switching control circuit (403), and the oscillator (405). -Use as DC converter mode.
[0032]
When the CONT signal is low, SW1 (412), SW2 (413) and SW3 (414) are turned off, SW4 (420), SW5 (421) and SW6 (422) are turned on, and the constant current source 2 (415) ), A reference voltage source 2 (417), an error amplifier 2 (416), an output voltage setting resistor 3 (418), and an output voltage setting resistor 4 (419). You can also switch to a voltage regulator.
[0033]
In the first embodiment, the voltage value of the input voltage changes in the mode in which the input voltage is output through, and there is a possibility that the voltage may not be constantly changed depending on the device connected to the output. There is. Therefore, by switching to the constant voltage regulator mode instead of the through mode as in the second or third embodiment, a voltage can be supplied to a device connected to the output at a constant voltage. In this case, the current consumption is slightly increased as compared with the circuit of the first embodiment.
[0034]
FIG. 5 is a configuration diagram of a modified example of the first embodiment. As shown in FIG. 5, by providing the voltage detection circuit (514) for detecting the input voltage from VIN, it is possible to automatically switch between the step-down DC-DC converter mode and the input voltage through mode depending on the input voltage. This modification can be applied to the second or third embodiment.
[0035]
【The invention's effect】
As described above, according to the present invention, in a small portable terminal device using an LSI with a low voltage and a high processing speed, the efficiency is improved by stepping down the input voltage during LSI operation requiring a large supply current as the power supply capability. If the power is supplied to the LSI as a step-down DC-DC converter mode that can supply power well and a large supply current is not required as the power supply capability, use the input voltage through mode that outputs the input voltage as it is to reduce the size of the portable device. There is an effect that the current consumption of the terminal device can be reduced.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a step-down DC-DC converter according to a first embodiment of the present invention.
FIG. 2 is a diagram illustrating a relationship between an output voltage of VOUT and a current consumption of the circuit according to a CONT signal according to the first embodiment;
FIG. 3 is a configuration diagram of a step-down DC-DC converter according to a second embodiment of the present invention.
FIG. 4 is a configuration diagram of a step-down DC-DC converter according to a third embodiment of the present invention.
FIG. 5 is a configuration diagram of a step-down DC-DC converter according to a modification of the first embodiment.
[Explanation of symbols]
101 Constant current source 102 Error amplifier 103 Switching control circuit 104 Pch MOSFET
105 Oscillator 106 Reference voltage source 107 Output voltage setting resistor 1
108 Output voltage setting resistor 2
109 Inductor 110 Diode 111 Capacitor 112 SW1
113 SW2
301 Constant current source 302 Error amplifier 303 Switching control circuit 304 Pch MOSFET
305 Oscillator 306 Reference voltage source 307 Output voltage setting resistor 1
308 Output voltage setting resistor 2
309 Inductor 310 Diode 311 Capacitor 312 SW1
313 SW2
401 Constant current source 1
402 Error Amplifier 1
403 Switching control circuit 404 PchMOSFET
405 Oscillator 406 Reference voltage source 1
407 Output voltage setting resistor 1
408 Output voltage setting resistor 2
409 Inductor 410 Diode 411 Capacitor 412 SW1
413 SW2
414 SW3
415 constant current source 2
416 Error amplifier 2
417 Reference voltage source 2
418 Output voltage setting resistor 3
419 Output voltage setting resistor 4
420 SW4
421 SW5
422 SW6
501 Constant current source 502 Error amplifier 503 Switching control circuit 504 Pch MOSFET
505 Oscillator 506 Reference voltage source 507 Output voltage setting resistor 1
508 Output voltage setting resistor 2
509 Inductor 510 Diode 511 Capacitor 512 SW1
513 SW2
514 Voltage detection circuit

Claims (8)

A control signal input unit, an oscillator, a MOSFET, and a switching control circuit that controls switching of the MOSFET;
According to the input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
A step-down DC-DC converter characterized by switching between an input voltage through mode in which the output of the switching control circuit is Low and the MOSFET is always in an ON state and the input voltage is output as it is. A voltage control circuit, an oscillator, a MOSFET, and a switching control circuit that controls switching of the MOSFET,
Depending on the level of the input voltage detected by the voltage detection circuit,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step-down and output the input voltage;
A step-down DC-DC converter characterized by switching between an input voltage through mode in which the output of the switching control circuit is Low and the MOSFET is always in an ON state and the input voltage is output as it is. A control signal input means, an oscillator, an error amplifier, a MOSFET, and a switching control circuit for performing switching control of the MOSFET; and an input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
A step-down DC-DC converter characterized in that the output of a switching control circuit is separated from a MOSFET and the mode used as a constant voltage regulator is switched using the error amplifier. Control signal input means, an oscillator, a constant current source, a reference voltage source, an error amplifier, a MOSFET, and a switching control circuit that controls switching of the MOSFET,
According to the input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
A step-down DC-DC converter using the constant current source, the reference voltage source, and the error amplifier to switch a mode used as a constant voltage regulator. An LSI and a step-down DC-DC converter for supplying power to the LSI,
The step-down DC-DC converter includes a control signal input unit, an oscillator, a MOSFET, and a switching control circuit that controls switching of the MOSFET.
According to the input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
A terminal device for switching between an input voltage through mode in which the output of the switching control circuit is set to Low and the MOSFET is constantly turned on to output the input voltage as it is. An LSI and a step-down DC-DC converter for supplying power to the LSI,
The step-down DC-DC converter has a voltage detection circuit, an oscillator, a MOSFET, and a switching control circuit that controls switching of the MOSFET.
Depending on the level of the input voltage detected by the voltage detection circuit,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step-down and output the input voltage;
A terminal device for switching between an input voltage through mode in which the output of the switching control circuit is set to Low and the MOSFET is constantly turned on to output the input voltage as it is. An LSI and a step-down DC-DC converter for supplying power to the LSI,
The step-down DC-DC converter includes a control signal input unit, an oscillator, an error amplifier, a MOSFET, and a switching control circuit that controls switching of the MOSFET.
According to the input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
A terminal device, wherein the error amplifier is used to switch between a mode used as a constant voltage regulator by separating a MOSFET from an output of a switching control circuit. An LSI and a step-down DC-DC converter for supplying power to the LSI,
The step-down DC-DC converter has control signal input means, an oscillator, a constant current source, a reference voltage source, an error amplifier, a MOSFET, and a switching control circuit that controls switching of the MOSFET,
According to the input level of the control signal,
A step-down DC-DC converter mode for changing the output of the switching control circuit using the clock of the oscillator to step down and output the input voltage;
A terminal device for switching between a mode used as a constant voltage regulator using the constant current source, the reference voltage source, and the error amplifier.

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