JP2004048255A - Switched capacitor type led drive power supply unit for cellular phone - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a switched capacitor type LED drive power supply unit for cellular phones that can reduce power without increasing a packaging area. <P>SOLUTION: The switched capacitor type LED drive power supply unit comprises a signal input detection circuit 100 for detecting whether the cellular phone is being operated or not, a time measurement circuit 101 that measures time when no operation is being made and does not measure time when the operation is being made, and a sleep circuit 102 for setting a unit body to be in a sleep state when the lapse of specific time is measured by the time measurement circuit 101. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a switched-capacitor LED drive power supply for a mobile phone that can reduce power without increasing the mounting area.
[0002]
[Prior art]
The prior art will be described below with reference to FIGS. 10 and 11 by taking a switched-capacitor-type stabilized power supply device that obtains an output voltage twice the input voltage as an example.
[0003]
FIG. 10 shows an example (constant-voltage output switched capacitor) of a switched-capacitor LED drive power supply according to the related art. FIG. 11 shows an input voltage waveform, an output voltage waveform, a + side waveform of the capacitor C1, and 4 shows a time chart of a switching operation.
[0004]
The operation of the switched capacitor unit will be described with reference to FIG. After input of the input voltage Vin, first, the switches S1 and S3 are turned on, and the capacitor C1 is charged to the voltage of Vin. Next, the switches S1 and S3 are turned off, and the switches S2 and S4 are turned on.
[0005]
Since the negative side of the capacitor C1 (indicated by C- in FIG. 10) is raised to Vin, twice as much Vin is supplied to the capacitor C3 as shown in FIG. 11, and the output voltage Vo (the voltage across the capacitor C3). ) Increases. Thereafter, the switches S1 and S3 are turned on again, and the switches S2 and S4 are turned off. In the meantime, since the output current flows to the LED, part of the charge of the capacitor C3 is discharged, and the output voltage Vo decreases.
[0006]
In the case of the constant voltage output switched capacitor, this operation is repeated, and the output voltage Vo increases to the threshold (threshold) of the comparator COM1. The output voltage Vo is detected by a voltage divider composed of the resistors R1 and R2, and when it reaches the reference voltage Vref, a signal is sent from the comparator COM1 to the control unit CTL to stop the operation of the switched capacitor.
[0007]
Since the comparator COM1 uses a comparator with a hysteresis function, the operation of the switched capacitor unit stops, and when the output voltage Vo decreases, the operation of the switched capacitor starts again. By repeating the operation, the output voltage Vo is made constant.
[0008]
Here, the case of a constant current output switched capacitor will be described below with reference to FIG.
[0009]
The step-up operation is the same as that of the above-described constant voltage output switched capacitor, and thus the description thereof is omitted. Feedback is performed by the error amplifier AMP1 so that the voltage of the node a1 is equal to the reference voltage Vref, and a constant current output is possible.
[0010]
That is, the value of the constant current flowing from the transistor Tr1 to the resistor Rset can be set to (Vref / Rset) according to Ohm's law. The current mirror CM1 having a ratio of 1: n allows a constant current n times the current flowing through the resistor Rset to flow from the terminal 3 to the load (LED).
[0011]
[Problems to be solved by the invention]
However, when the above-mentioned conventional technology is used for a mobile phone, for example, the following problems are caused.
[0012]
That is, in the mobile phone, it is necessary to turn off the LED used for the backlight of the liquid crystal when the button operation (input operation) is not performed in order to prevent battery consumption.
[0013]
Conventionally, a signal for turning off the LED is input from a device other than a power supply IC (switched capacitor type LED driving power supply device) for driving the LED, and the LED is turned off. Therefore, it is necessary to separately design a means for turning off the LED outside, which causes a problem that the mounting area becomes large.
[0014]
The present invention has been made in view of the above-mentioned conventional problems, and an object of the present invention is to provide a switched-capacitor-type LED driving power supply device for a mobile phone that can reduce power without increasing the mounting area. It is in.
[0015]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, a switched-capacitor-type LED driving power supply device for a mobile phone according to the present invention increases the input DC voltage and drives a LED used as a liquid crystal backlight in the mobile phone. The drive power supply device is characterized by taking the following measures.
[0016]
That is, the switched-capacitor-type LED drive power supply device includes a signal input detecting means for detecting whether or not an operation of the mobile phone is performed, a time period during which the operation is not performed, and A time measurement unit that does not measure time when the operation is being performed, and a sleep unit that sets the apparatus main body to a sleep state when the predetermined time has elapsed by the time measurement unit.
[0017]
According to the above invention, the input DC voltage is boosted, and the boosted voltage drives the LED used as the liquid crystal backlight in the mobile phone. As a result, the LED is turned on, the liquid crystal screen becomes visible, and various input operations are performed on the mobile phone while watching the liquid crystal screen.
[0018]
In a mobile phone, when a button operation (input operation) is not performed to prevent battery consumption, an LED used as a backlight of the liquid crystal is turned off. Conventionally, the LED is turned off based on a signal from outside the switched capacitor type LED drive power supply. For this reason, it is necessary to separately design a means for turning off the LED outside of the driving power supply device, which has caused a problem that the mounting area is increased.
[0019]
Therefore, in the above-mentioned switched capacitor type LED drive power supply device, means for turning off the LED is provided inside. The means for turning off the LED includes a signal input detecting means, a time measuring means, and a sleep means.
[0020]
Whether the mobile phone is operated or not is detected by the signal input detecting means, and the detection result is sent to the time measuring means. The time measuring means measures the time during which the above operation is not performed, and when the predetermined time has elapsed, the main body of the apparatus is put into a sleep state by the sleep means. The time measuring means does not measure time when the above operation is being performed.
[0021]
As described above, according to the switched capacitor type LED driving power supply device, the means for turning off the LED is provided inside the power supply device, so that the design burden on the user is reduced, and the number of external components and the mounting area are reduced. In addition, cost reduction in mounting man-hours and the like can be achieved. In addition, when the push button operation is not performed for a predetermined time, the driving power supply device enters a sleep state, and current consumption during operation is suppressed, so that battery consumption in the mobile phone can be reliably reduced.
[0022]
Another object of the present invention is to provide a switched-capacitor type LED driving power supply for a mobile phone, which raises an input DC voltage and drives an LED used as a liquid crystal backlight in the mobile phone. The following measures have been taken in the type LED drive power supply device.
[0023]
That is, the above-described switched-capacitor-type LED drive power supply device for a mobile phone, a signal input detection unit for detecting whether or not the operation of the mobile phone is performed, and measures the time during which the operation is not performed, A time measuring unit that does not measure time when the above operation is performed, and a switch unit that turns off the LED when the predetermined time has elapsed is measured by the time measuring unit.
[0024]
According to the above invention, the input DC voltage is boosted, and the boosted voltage drives the LED used as the liquid crystal backlight in the mobile phone. As a result, the LED is turned on, the liquid crystal screen becomes visible, and various input operations are performed on the mobile phone while watching the liquid crystal screen.
[0025]
In a mobile phone, when a button operation (input operation) is not performed to prevent battery consumption, an LED used as a backlight of the liquid crystal is turned off. Conventionally, the LED is turned off based on a signal from outside the switched capacitor type LED drive power supply. For this reason, it is necessary to separately design a means for turning off the LED outside of the driving power supply device, which has caused a problem that the mounting area is increased.
[0026]
Therefore, in the above-mentioned switched capacitor type LED drive power supply device, means for turning off the LED is provided inside. The means for turning off the LED includes a signal input detecting means, a time measuring means, and a switch means.
[0027]
Whether the mobile phone is operated or not is detected by the signal input detecting means, and the detection result is sent to the time measuring means. The time measuring means measures the time during which the operation is not performed, and when the predetermined time has elapsed, the LED is turned off by the switch means. Thus, the current consumption of the LED can be reliably reduced to zero. The time measuring means does not measure time when the above operation is being performed.
[0028]
As described above, according to the switched capacitor type LED driving power supply device, the means for turning off the LED is provided inside the power supply device, so that the design burden on the user is reduced, and the number of external components and the mounting area are reduced. In addition, cost reduction in mounting man-hours and the like can be achieved. In addition, when the push button operation is not performed for a predetermined time, the LED is reliably turned off by the switch means, and current consumption during operation is suppressed, so that battery consumption in the mobile phone can be reliably reduced.
[0029]
In order to solve the above-described problems, a switched-capacitor-type LED driving power supply for a mobile phone according to the present invention boosts an input DC voltage and drives a plurality of LEDs used as a liquid crystal backlight in the mobile phone. In the switched capacitor type LED drive power supply device, the following measures are taken.
[0030]
That is, the switched-capacitor-type LED drive power supply device for a mobile phone includes a signal input detection unit that detects whether or not the mobile phone is operated, and a time period during which the operation is not performed. When the operation is being performed, time measuring means for not measuring time, switch means provided for each of the LEDs for connecting / disconnecting these LEDs, and measurement of the lapse of a predetermined time by the time measuring means are performed. And a switch control means for controlling connection and disconnection of the switch means and turning off the plurality of LEDs step by step.
[0031]
According to the invention, the input DC voltage is boosted, and the boosted voltage drives a plurality of LEDs used as a liquid crystal backlight in the mobile phone. As a result, the plurality of LEDs are turned on, the liquid crystal screen becomes visible, and various input operations are performed on the mobile phone while watching the liquid crystal screen.
[0032]
In a mobile phone, when a button operation (input operation) is not performed to prevent battery consumption, an LED used as a backlight of the liquid crystal is turned off. Conventionally, the LED is turned off based on a signal from outside the switched capacitor type LED drive power supply. For this reason, it is necessary to separately design a means for turning off the LED outside of the driving power supply device, which has caused a problem that the mounting area is increased.
[0033]
Therefore, in the above-mentioned switched capacitor type LED drive power supply device, means for turning off the LED is provided inside. The means for turning off the LED includes a signal input detecting means, a time measuring means, a switch means, and a switch control means.
[0034]
Whether the mobile phone is operated or not is detected by the signal input detecting means, and the detection result is sent to the time measuring means. The time measuring means measures the time during which the operation is not performed, and when the predetermined time has elapsed, the connection / disconnection of the switch means is controlled by the switch control means. As a result, the plurality of LEDs are turned off stepwise. The time measuring means does not measure time when the above operation is being performed.
[0035]
As described above, according to the switched capacitor type LED driving power supply device, the means for turning off the LED is provided inside the power supply device, so that the design burden on the user is reduced, and the number of external components and the mounting area are reduced. In addition, cost reduction in mounting man-hours and the like can be achieved. In addition, when the push button operation is not performed for a predetermined time, the LED is reliably turned off by the switch means, and current consumption during operation is suppressed, so that battery consumption in the mobile phone can be reliably reduced.
[0036]
In addition, since the plurality of LEDs are turned off stepwise, the liquid crystal screen in the mobile phone can be gradually darkened, and the liquid crystal used for different portions such as the rear liquid crystal can be turned off in sequence.
[0037]
Still another object of the present invention is to provide a switched-capacitor-type LED drive power supply device for a mobile phone, which raises an input DC voltage and applies a constant current to an LED used as a liquid crystal backlight in the mobile phone in order to solve the above problem. The following measures are taken in a switched capacitor type LED driving power supply for a mobile phone to be driven.
[0038]
That is, the switched-capacitor-type LED driving power supply for a mobile phone includes a signal input detecting unit for detecting whether or not the mobile phone is operated, a time period during which the operation is not performed, and Time measurement means that does not measure time when the measurement is performed, and constant current adjustment means that reduces the constant current supplied to the LED when the predetermined time has elapsed by the time measurement means. ing.
[0039]
According to the above invention, the input DC voltage is boosted, and the LED used as the backlight of the liquid crystal in the mobile phone is driven at a constant current based on the boosted voltage. As a result, the LED is turned on, the liquid crystal screen becomes visible, and various input operations are performed on the mobile phone while watching the liquid crystal screen.
[0040]
In a mobile phone, when a button operation (input operation) is not performed to prevent battery consumption, an LED used as a backlight of the liquid crystal is turned off. Conventionally, the LED is turned off based on a signal from outside the switched capacitor type LED drive power supply. For this reason, it is necessary to separately design a means for turning off the LED outside of the driving power supply device, which has caused a problem that the mounting area is increased.
[0041]
Therefore, in the above-mentioned switched capacitor type LED drive power supply device, means for turning off the LED is provided inside. The means for turning off the LED comprises a signal input detecting means, a time measuring means, and a constant current adjusting means.
[0042]
Whether the mobile phone is operated or not is detected by the signal input detecting means, and the detection result is sent to the time measuring means. The time measuring means measures the time during which the operation is not performed, and when the predetermined time has elapsed, the constant current supplied to the LED is reduced by the constant current adjusting means. The time measuring means does not measure time when the above operation is being performed.
[0043]
As described above, according to the switched capacitor type LED driving power supply device, the means for turning off the LED is provided inside the power supply device, so that the design burden on the user is reduced, and the number of external components and the mounting area are reduced. In addition, cost reduction in mounting man-hours and the like can be achieved. In addition, since the constant current supplied to the LED is reduced and the current consumption during operation is suppressed, the consumption of the battery in the mobile phone can be reliably reduced.
[0044]
The above-mentioned switched-capacitor type LED drive power supply device for a mobile phone, further comprising a constant current generating means for generating a constant current that varies according to a reference voltage and outputting the constant current as a constant current to be supplied to the LED. Preferably, the means reduces the constant current by adjusting the reference voltage. In this case, by adjusting the reference voltage, the amount of the constant current can be easily reduced step by step.
[0045]
The above-mentioned switched-capacitor type LED drive power supply for a mobile phone, further comprising a voltage dividing circuit for dividing a predetermined voltage into a plurality of voltages, wherein the constant current adjusting means selects a voltage selected from the plurality of voltages with the reference voltage. Is preferred. In this case, the drive power supply device can be realized with a simple configuration in which a voltage dividing circuit is provided.
[0046]
It is preferable that the above-mentioned switched-capacitor type LED drive power supply device for a mobile phone further includes a sleep unit that puts the device main body into a sleep state when the predetermined time has elapsed by the time measurement unit. In this case, current consumption during operation can be suppressed, and battery consumption can be reliably reduced.
[0047]
In any of the above-described switched-capacitor type LED driving power supply devices for mobile phones, the power supply device further includes an oscillating means for generating a pulse of a predetermined frequency, wherein the boosting is performed by a switching operation based on the pulse and the time measuring means. Preferably comprises pulse counter means for counting pulses of the predetermined frequency. In this case, the pulse generated by the oscillating unit is shared for both the switching operation at the time of boosting and the counting operation by the pulse counting unit, so that the mounting area can be reduced accordingly.
[0048]
Further, the time measuring means compares the magnitude relationship between the constant current source, the charge holding means charged by the constant current source, the comparison reference voltage and the voltage across the charge holding means, and compares the comparison result with the above. It is preferable that the charging means include a comparing means for outputting as an output signal of the time measuring means, and a discharging means for discharging the electric charge of the electric charge holding means when the operation is performed.
[0049]
In this case, the voltage at both ends of the charge holding means increases with charging by the constant current source. By comparing this voltage with the comparison reference voltage by the comparison means, it can be determined whether or not a predetermined time corresponding to the comparison reference voltage has elapsed.
[0050]
The charge of the charge holding means is reset by discharging by the discharging means. The discharging by the discharging means is performed when an operation is being performed on the mobile phone.
[0051]
The predetermined time can be easily set by changing the charging time of the charge holding means. For example, when the charge holding means is realized by a capacitor, the predetermined time can be easily varied by connecting the capacitor externally and changing its capacity.
[0052]
In the switched-capacitor-type LED driving power supply device for a mobile phone, when the sleep unit is put into a sleep state by the sleep unit, the sleep unit maintains the sleep state until the operation of the mobile phone is performed again. Is preferred. In this case, once in the sleep state, the sleep unit keeps the sleep state until the operation of the mobile phone is performed again, so that the power supply and the liquid crystal are turned on until the operation is performed again. Can be avoided reliably.
[0053]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described below with reference to FIG. In the present embodiment, a switched capacitor type LED drive power supply device that obtains a voltage twice as high as the input side at the output side will be described as an example.
[0054]
FIG. 1 is a block diagram showing a configuration example of a switched capacitor type LED drive power supply device suitable for a mobile phone. This switched-capacitor LED drive power supply device is different from the conventional one shown in FIG. 10 in that a signal input detection circuit 100, a time measurement circuit 101, a sleep circuit 102, and a signal input detection terminal 7 are further provided. Is different from the constant voltage output switched capacitor type LED driving power supply device. In FIG. 1, members having the same functions as those in FIG. 10 are denoted by the same reference numerals.
[0055]
The operation of the switched capacitor unit will be described with reference to FIG. The input voltage Vin is input via the terminal 2. At this time, the switches S1 and S3 are turned on by the control unit CTL. Thus, the capacitor C1 connected between the terminals 5 and 6 is charged by the input voltage Vin so that the terminal 6 is on the positive (+) side (denoted by C + in the drawing).
[0056]
Thereafter, the switches S1 and S3 are turned off and the switches S2 and S4 are turned on by the control unit CTL. The input voltage Vin, which is the voltage across the capacitor C2, and the voltage across the capacitor C3 are connected in series. As a result, the negative side (terminal 5: denoted by C- in the figure) of the capacitor C1 is raised to Vin, so that a voltage twice the input voltage Vin is supplied to both ends of the capacitor C3, and the output voltage Vo increases. .
[0057]
Thereafter, the switches S1 and S3 are turned on again, and the switches S2 and S4 are turned off. During this time, since the output current flows to the LED (load), a part of the charge of the capacitor C3 is discharged, and the output voltage Vo decreases.
[0058]
In the case of the constant voltage output switched capacitor, this operation is repeated, and the output voltage Vo increases to the threshold (threshold) of the comparator COM1. The output voltage Vo is detected by a voltage divider composed of resistors R1 and R2, and when the voltage at the connection point (voltage between terminals 3-4) reaches the reference voltage Vref, a signal is sent from the comparator COM1 to the control unit CTL. And the operation of the switched capacitor is stopped.
[0059]
Since the comparator COM1 uses a comparator with a hysteresis function, the operation of the switched capacitor unit remains stopped as long as the voltage at the connection point in the voltage dividing circuit is within the hysteresis width even if the voltage is smaller than the threshold. When the output voltage Vo further decreases and the voltage at the connection point decreases beyond the hysteresis width, the operation of the switched capacitor starts again. By repeating such an operation, the output voltage Vo is made constant.
[0060]
When the signal input detection circuit 100 detects a signal input via the terminal 7 (when no push button operation is performed on the mobile phone), the signal input detection circuit 100 sends a signal to the time measurement circuit 101. Upon receiving this signal, the time measurement circuit 101 starts measuring time. If no further input signal is detected after a lapse of a predetermined time after the start of time measurement, the time measurement circuit 101 sends a signal to the sleep circuit 102. Upon receiving this signal, the sleep circuit 102 puts the switched capacitor type LED drive power supply into a sleep state.
[0061]
As described above, by providing the signal input detection circuit 100, the time measurement circuit 101, and the sleep circuit 102 in the switched-capacitor-type LED drive power supply device, the user's design burden is reduced and the number of external components is reduced. And the mounting area can be reduced, and the cost in the number of mounting steps can be reduced. In addition, when the push button operation is not performed for a predetermined time, the driving power supply device enters a sleep state, and current consumption during operation is suppressed, so that battery consumption in the mobile phone can be reliably reduced.
[0062]
Here, a configuration example of another switched capacitor type LED drive power supply device according to the present embodiment will be described below with reference to FIG. Members having the same functions as those in FIG. 1 are denoted by the same reference numerals, and detailed description thereof will be omitted.
[0063]
As shown in FIG. 2, the switched-capacitor LED driving power supply device shown in FIG. _LED Is provided and the LED is a switch SW _LED Is different from the configuration in FIG.
[0064]
In the configuration shown in FIG. 2, the LED is connected to the switch SW through a terminal 8. _LED Is connected to one end. Switch SW _LED Is connected to the ground.
[0065]
The signal input detection circuit 100 sends a signal to the time measurement circuit 101 when detecting a signal input via the terminal 7 (when no push button operation is performed on the mobile phone). Upon receiving this signal, the time measurement circuit 101 starts measuring time. If the signal input detection circuit 100 does not detect any further input signal after a predetermined time has elapsed after the start of the time measurement, the time measurement circuit 101 _LED To switch W _LED Turn off (disconnect). Thereby, the LED is reliably turned off.
[0066]
As described above, the signal input detection circuit 100, the time measurement circuit 101, and the switch SW are provided in the switched capacitor type LED drive power supply device. _LED In addition to reducing the user's design burden, the number of external parts and the mounting area can be reduced, and the cost in the number of mounting steps can be reduced. In addition, when the push button operation is not performed for a predetermined time, the LED is reliably turned off by the switch means, and current consumption during operation is suppressed, so that battery consumption in the mobile phone can be reliably reduced.
[0067]
Here, a configuration example of still another switched capacitor type LED drive power supply device according to the present embodiment will be described below with reference to FIG. Note that members having the same functions as in FIG. 2 are denoted by the same reference numerals, and detailed description thereof will be omitted.
[0068]
As shown in FIG. 3, the switched-capacitor-type LED drive power supply device shown here drives a plurality of LEDs (LEDs 1 and 2), and a SW for turning off the plurality of LEDs in a stepwise manner. _LED1 ・ SW _LED2 , And a switch ON / OFF control circuit 103 is provided. Although FIG. 3 illustrates the case where the number of LEDs is two, the present invention is not limited to this, and can be applied to a case where three or more LEDs are driven.
[0069]
In the configuration shown in FIG. 3, LED1 and LED2 are connected to the switch SW through terminals 9 and 8. _LED1 ・ SW _LED2 Is connected to one end of the Switch SW _LED1 ・ SW _LED2 Are connected to the ground, respectively.
[0070]
The signal input detection circuit 100 sends a signal to the time measurement circuit 101 when detecting a signal input via the terminal 7 (when no push button operation is performed on the mobile phone). Upon receiving this signal, the time measurement circuit 101 starts measuring time.
[0071]
If no further input signal is detected even after the first predetermined time has elapsed after the start of the time measurement, the time measurement circuit 101 firstly performs the switch SW as a first stage. _LED1 , And the switch ON / OFF control circuit 103 _LED1 Is turned off (the LED 1 is turned off).
[0072]
Then, after the start of the time measurement, if no further input signal is detected after a lapse of a second predetermined time (a time longer than the first predetermined time), the time measurement circuit 101 performs the following steps: Switch SW _LED2 , And the switch ON / OFF control circuit 103 _LED2 Is turned off (the LED 2 is turned off). At this time, the switch SW _LED1 ・ SW _LED2 Are in a disconnected state, and both LED1 and LED2 are off.
[0073]
In this manner, in the mobile phone, it is possible to gradually darken the liquid crystal screen or to sequentially turn off the liquid crystal used for different parts such as the rear liquid crystal.
[0074]
As described above, the signal input detection circuit 100, the time measurement circuit 101, the switch SW _LED1 ・ SW _LED2 By providing the switch ON / OFF control circuit 103, the design burden on the user can be reduced, the number of external components and the mounting area can be reduced, and the cost of mounting steps can be reduced. In addition, when the push button operation is not performed for a predetermined time, the LED is turned off, and current consumption during operation is suppressed, so that battery consumption in the mobile phone can be reliably reduced.
[0075]
In addition, when driving a plurality of LEDs, by gradually turning off the switch, the liquid crystal screen is gradually darkened in the mobile phone, or the liquid crystal used in different parts such as the rear liquid crystal is sequentially turned off. Or it becomes possible.
[0076]
Here, a configuration example of another switched capacitor type LED drive power supply device according to the present embodiment will be described below with reference to FIG. Note that members having the same functions as those in FIGS. 12 and 1 are denoted by the same reference numerals, and detailed description thereof will be omitted.
[0077]
This switched-capacitor LED drive power supply further includes a signal input detection circuit 100, a time measurement circuit 101, a constant current adjustment circuit 104 for adjusting the reference voltage Vref, and a signal input detection terminal 8. 1 is different from the conventional constant current output switched capacitor type LED drive power supply device shown in FIG.
[0078]
The step-up operation is the same as that of the above-described constant-voltage output switched capacitor, and will not be described. Feedback is performed by the error amplifier AMP1 so that the voltage of the node a1 is equal to the reference voltage Vref, and a constant current output is possible. The value of the constant current flowing from the transistor Tr1 to the resistor Rset can be set by (Vref / Rset) according to Ohm's law. The current mirror CM1 having a ratio of 1: n has a constant current (I _o ) From the terminal 3 to the load (LED).
[0079]
The signal input detection circuit 100 sends a signal to the time measurement circuit 101 when detecting a signal input via the terminal 8 (when no push button operation is performed on the mobile phone). Upon receiving this signal, the time measurement circuit 101 starts measuring time.
[0080]
If no further input signal is detected after a predetermined time has elapsed after the start of the time measurement, the time measurement circuit 101 sends a signal to the constant current adjustment circuit 104. Upon receiving this signal, the constant current adjustment circuit 104 adjusts the reference voltage Vref applied to the non-inverting input terminal of the error amplifier AMP1 (that is, adjusts the reference voltage Vref so that the current flowing through the LED decreases). ).
[0081]
As described above, by providing the signal input detection circuit 100, the time measurement circuit 101, and the constant current adjustment circuit 104 in the switched capacitor type LED drive power supply device, the push button operation can be performed without increasing the mounting area. If the operation is not performed for a predetermined time, the current consumption of the LED is adjusted, and the consumption of the battery in the mobile phone can be reliably reduced.
[0082]
Here, a specific configuration example of the above constant current adjustment circuit 104 will be described below with reference to FIG.
[0083]
As shown in FIG. 5, the constant current adjusting circuit 104 is a reference voltage switching circuit, and receives a constant voltage circuit 150 that receives the input voltage Vin and outputs a constant voltage, a voltage dividing resistance changeover switch 151, It comprises voltage dividing resistors R1a, R1b, R2b and R3b for dividing the constant voltage from the constant voltage circuit 150.
[0084]
Although the example of FIG. 5 describes the case where the number of switches of the voltage dividing resistance changeover switch 151 is three, the present invention is not limited to this, and two or four or more switches are used. Also applicable to cases.
[0085]
According to the configuration of FIG. 5, when a signal is received from the time measuring circuit 101, in the constant current adjusting circuit 104, the voltage dividing resistance changeover switch 151 switches an internal switch based on the signal, and the non-inversion of the error amplifier AMP1. The reference voltage Vref applied to the input terminal is adjusted.
[0086]
More specifically, the constant current adjusting circuit 104 switches the voltage dividing resistors R1b, R2b, or R3b connected to the voltage dividing resistor R1a by the voltage dividing resistor changeover switch 151 based on the signal from the time measuring circuit 101. Selected (two or more of the voltage dividing resistors R1b, R2b, or R3b may be selected). Accordingly, the voltage at the connection point P changes, so that the reference voltage Vref input to the non-inverting input terminal of the error amplifier AMP1 can be easily changed.
[0087]
Here, a configuration example of still another switched capacitor type LED drive power supply device according to the present embodiment will be described below with reference to FIG. Note that members having the same functions as those in FIGS. 4 and 1 (excluding the terminals 3, 7 and 8) are denoted by the same reference numerals, and detailed description thereof is omitted here.
[0088]
The configuration shown in FIG. 6 differs from the configuration shown in FIG. 4 in that a sleep circuit 102 is further provided.
[0089]
The signal input detection circuit 100 sends a signal to the time measurement circuit 101 when detecting a signal input via the terminal 8 (when no push button operation is performed on the mobile phone). Upon receiving this signal, the time measurement circuit 101 starts measuring time.
[0090]
After the start of the time measurement, if no further input signal is detected even after the first predetermined time has elapsed, the time measurement circuit 101 sends a signal to the constant current adjustment circuit 104. Upon receiving this signal, the constant current adjustment circuit 104 adjusts the reference voltage Vref applied to the non-inverting input terminal of the error amplifier AMP1 (that is, the reference is set so that the current flowing through the LED decreases (may be zero)). Adjust the voltage Vref.).
[0091]
If no further input signal is detected after a second predetermined time (a time longer than the first predetermined time) has elapsed after the start of the time measurement, the time measurement circuit 101 causes the sleep circuit 102 to A signal is sent to put the switched capacitor type LED drive power supply into a sleep state. As a result, it is possible to suppress current consumption during operation and to surely prevent battery consumption of the mobile phone.
[0092]
The first predetermined time and the second predetermined time are set so that the switched-capacitor-type LED drive power supply is put into the sleep state almost immediately after the current limitation by the constant current adjustment circuit 104. It may be.
[0093]
As described above, by providing the signal input detection circuit 100, the time measurement circuit 101, the sleep circuit 102, and the constant current adjustment circuit 104 in the switched capacitor type LED drive power supply device, the mounting area can be increased. In addition, when the push button operation is not performed for a predetermined time, the LED is turned off, so that the consumption of the battery in the mobile phone can be reliably reduced.
[0094]
Here, a specific example of the time measurement circuit 101 will be described with reference to FIG. FIG. 7 is a block diagram of the time measuring circuit 101. According to this example, the clock counter circuit 202 is provided inside the IC (inside the switched capacitor type LED drive power supply device), and the pulse of the oscillator 201 used for setting the boosted switching operation of the switched capacitor to a predetermined frequency is generated. The time is measured by counting.
[0095]
As described above, when the clock counter circuit 202 is used for the time measurement circuit 101, a pulse from the oscillator 201 is used as a switching control signal for the switches S1 to S4 and a count signal for the clock counter circuit 202. Since the oscillator 201 is used in common, the area of the power supply control IC can be reduced.
[0096]
Here, another specific example of the time measurement circuit 101 will be described with reference to FIG.
[0097]
FIG. 8 is a block diagram of another time measurement circuit 101. According to this example, a constant current source is generated based on the constant voltage circuit 250 that receives the input voltage Vin and outputs a constant voltage. In the time measuring circuit 101, a series connection of a capacitor Ct and a resistor Rc, a voltage clamping Zener diode DZ1, and a discharging switch SW1 are connected in parallel with each other. One end of the parallel connection is connected to the constant current source, and the other end is connected to the ground.
[0098]
In addition, on / off of the discharge switch SW1 is controlled based on a signal from the signal input detection circuit 100 described above.
[0099]
In the time measuring circuit 101, voltage dividing resistors R1c and R2c are provided between the constant voltage circuit 250 and the ground, and a connection point between the voltage dividing resistors R1c and R2c is connected to an inverting input terminal of the comparator COM2. ing.
[0100]
Note that the cathode of the Zener diode DZ1 for voltage clamping is connected to the non-inverting input terminal of the comparator COM2. The output signal of the comparator COM2 is sent to the sleep circuit 102, the constant current adjustment circuit 104, and the switch ON / OFF control circuit 103.
[0101]
According to the configuration of FIG. 8, when the input voltage Vin is applied to the constant voltage circuit 250, the constant current Ichg flows from the constant current source to the capacitor Ct having the capacitance C, and the capacitor Ct is charged. A constant voltage Vc is generated from the constant voltage circuit 250 by the voltage dividing resistors R1c and R2c, and supplied to the inverting input terminal of the comparator COM2. Further, the charge voltage of the capacitor Ct is supplied to the non-inverting input terminal of the comparator COM2.
[0102]
After a predetermined time, when the charge voltage of the capacitor Ct (potential at the point A1 in FIG. 8) becomes higher than Vc (potential at the connection point of the voltage dividing resistors R1c and R2c), the output signal of the comparator COM2 (eg, high Level signal) is supplied to the sleep circuit 102, the constant current adjustment circuit 104, and the switch ON / OFF control circuit 103. The predetermined time is determined by (Vc × C / Ichg).
[0103]
The charge voltage of the capacitor Ct (potential at point A1 in FIG. 8) is clamped to the rated voltage of the voltage clamping Zener diode DZ1, and does not become higher than the rated voltage.
[0104]
On the other hand, when a signal is received via the terminal 8 (when a push button is operated on the mobile phone), the signal input detection circuit 100 supplies a square wave signal to the discharge switch SW1. As a result, the discharge switch SW1 is turned on for a certain period (the ON period of the square wave signal), and the electric charge of the capacitor Ct is discharged via the discharge switch SW1. As a result, the time measurement circuit 101 is reset. In this way, the time measurement operation and the non-measurement operation are performed.
[0105]
Here, still another switched capacitor type stabilized power supply device of the present embodiment will be described below with reference to FIG.
[0106]
The switched-capacitor-type stabilized power supply described here has a flip-flop 105 between the time measurement circuit 101 and the sleep circuit 102 as shown in FIG. The configuration is different. In the flip-flop 105, an output signal (reset signal) of the signal input detection circuit 100 is supplied to a reset terminal R, an output signal of the time measurement circuit 101 is supplied to a set terminal S, and an output terminal The output signal from Q is supplied to the sleep circuit 102.
[0107]
According to the configuration of FIG. 9, when the signal input detection circuit 100 detects a signal (when the push button is not operated on the mobile phone), it sends a signal to the time measurement circuit 101, and the time measurement circuit 101 The measurement is performed, and a reset signal is also sent to the reset terminal R of the flip-flop 105. As a result, a low-level signal is supplied to the sleep 102 from the output terminal Q of the flip-flop 105. In this case, the sleep operation is not performed.
[0108]
After a lapse of a predetermined time (unless a push button operation or the like is performed for a predetermined time), a set signal is supplied to the set terminal S of the flip-flop 105. Accordingly, an output signal (high-level signal) from the output terminal Q of the flip-flop 105 is supplied to the sleep circuit 102. As a result, the sleep circuit 102 operates, whereby the switched-capacitor stabilized power supply enters a sleep state. Thereafter, the output signal from the output terminal Q of the flip-flop 105 is maintained (the sleep state is maintained) until the signal input detection circuit 101 detects the signal again (until the push button operation or the like is restarted). However, the switched capacitor stabilized power supply does not return to operation.
[0109]
On the other hand, when the signal input detection circuit 101 detects the signal again (when the push button operation or the like is restarted), a reset signal is supplied to the flip-flop 105 and the time measurement circuit 101, so that the time measurement circuit 101 is initialized. At the same time, the sleep circuit 102 is turned off, and the switched capacitor type stabilized power supply returns to operation. Then, the above operation is repeated.
[0110]
While the switched-capacitor stabilized power supply is in the sleep state, all of the components other than the signal input detection circuit 100, the time measurement circuit 101, the sleep circuit 102, and the flip-flop circuit 105 are in the off state. Be reduced.
[0111]
As described above, by providing the flip-flop 105 between the time measuring circuit 101 and the sleep circuit 102, if the push button operation is not performed for a predetermined time without increasing the mounting area, Since the sleep state is maintained until is resumed, it is possible to reliably prevent the drive power supply and the liquid crystal from being turned on during this time. Thereby, the consumption of the battery in the mobile phone can be reliably reduced.
[0112]
As described above, the switched-capacitor-type LED drive power supply device for a mobile phone according to the present invention firstly charges a capacitor from an input DC voltage by a switching operation (hereinafter, referred to as a charging period). In addition, an input DC voltage and an operation of supplying the charged capacitor from the charged capacitor to the output-side capacitor (hereinafter, referred to as a boosting period) are repeated, and a boosting means for obtaining an output voltage higher than the input voltage; And means for controlling the switching operation with a duty (charging period-boosting period ratio), and a DC voltage output by the means is fed back. When the reference voltage is reached, the switching operation is turned off (during this period, the charging period), After turning off, the output DC voltage drops, and when the output voltage reaches a predetermined set voltage, the switching operation is restored ( A constant-voltage output switched-capacitor-type LED drive power supply device having means for controlling a constant voltage at the output, and means for flowing a constant current to the LED after boosting the LED to the VF voltage or more by the means. A constant-current output switched-capacitor LED drive power supply for both types of mobile phone having a signal input detection means, a time measurement means, and a sleep means, If a signal is not detected within a predetermined time after the input monitoring means detects a signal from the operation of the mobile phone, the apparatus automatically sleeps (turns off).
[0113]
When the mobile phone is not used (when no input operation is performed), the backlight of the liquid crystal is turned off to prevent battery consumption. Therefore, it is necessary to provide a circuit for detecting the use of the mobile phone and turning off the LED for the liquid crystal backlight when the mobile phone is not used.
[0114]
The switched capacitor type LED drive power supply device of the present invention includes the above-mentioned circuit inside, not only to assist the user in designing, but also to reduce the number of external components and the mounting area, and to reduce the number of mounting steps. Cost can be reduced. Furthermore, by making the driving power supply device sleep, current consumption during operation of the power supply IC (switched capacitor type LED driving power supply device) can be suppressed, so that battery consumption can be reduced.
[0115]
The power supply IC includes a signal input detecting unit, a time measuring unit, one or more LEDs, a switch for turning on / off the LEDs, and a switch driving unit. If a signal input is not detected within a predetermined time after detecting a signal due to the operation described above, a switch for flowing a current to the LED may be turned off. In this case, an LED switch is provided, and turning off the switch can also reduce battery consumption.
[0116]
A switched-capacitor-type LED driving power supply for a mobile phone, comprising: a signal input detecting unit, a time measuring unit, two or more LEDs, a switch for turning on / off the LEDs, and a switch driving unit. Alternatively, a configuration may be adopted in which, if a signal input is not detected within a predetermined time after a signal from the operation of the mobile phone is detected by the signal input detection means, a switch for flowing a current to the LED is turned off stepwise at predetermined time intervals. In this case, when a switch for driving a plurality of LEDs is provided, the liquid crystal screen is gradually darkened by gradually turning off the switch, and the liquid crystal used for different parts such as the rear liquid crystal is sequentially turned off. be able to.
[0117]
The switched capacitor type LED drive power supply device includes a signal input detection unit, a time measurement unit, one or more LEDs, a constant current flowing through the LEDs, a current adjustable element, and the element drive unit. After the signal input monitoring means detects a signal from the operation of the mobile phone, if no signal input is detected for a predetermined time, the current flowing to the LED may be reduced. In this case, even in a constant current output type in which a constant current can flow to the LED, the consumption of the battery can be suppressed by gradually reducing the amount of current.
[0118]
In the switched capacitor type LED drive power supply device, it is preferable that the current flowing through the LED is adjusted by adjusting a reference voltage. In this case, the amount of current can be easily changed stepwise by changing the reference voltage.
[0119]
In the above-described switched capacitor type LED drive power supply device, a configuration may be adopted in which the current flowing to the LED is set to 0, and the sleep mode is automatically set after a predetermined time has elapsed. In this case, by putting the switched-capacitor type power supply itself into a sleep state in a state where no current is flowing through the LED, current consumption during operation can be suppressed, and battery consumption can be further reduced.
[0120]
The above-described time measurement circuit may include a clock counter circuit, and the time measurement may be performed by counting the number of oscillations (number of pulses) of the oscillator. In this case, when a clock counter circuit is used for the time measurement circuit, the area of the power supply control IC can be reduced by sharing the pulse of the oscillator with the switching signal and the count.
[0121]
The above-described time measurement circuit has a constant current circuit, a capacitor, and voltage monitoring means, and the time measurement is performed by charging the capacitor with the constant current circuit and monitoring the voltage to a predetermined voltage by the voltage monitoring means. May be. In this case, since the capacitor is charged from the constant current source, and the voltage is monitored and the time is measured, the time can be set by the capacitance of the capacitor. You can set the time.
[0122]
In the switched-capacitor-type LED drive power supply device provided with the sleep means, a configuration may be adopted in which once the sleep mode is set, it does not return until a signal for operating the mobile phone is detected. In this case, the switched capacitor that has once slept does not return until a signal due to use of the mobile phone is detected, so that the power supply device and the liquid crystal can be reliably prevented from being turned on when not in use.
[0123]
It should be noted that the present invention is not limited to the specific examples described above, but various modifications are possible within the scope of the claims, and the technical means disclosed in the different specific examples may be appropriately combined. Specific examples obtained are also included in the technical means of the present invention.
[0124]
【The invention's effect】
As described above, the switched-capacitor-type LED driving power supply device for a mobile phone according to the present invention includes a signal input detection unit that detects whether or not the mobile phone is operated and a time period during which the operation is not performed. A time measuring unit that does not measure time when the above operation is performed, and a sleep unit that puts the apparatus main body into a sleep state when a predetermined time has elapsed is measured by the time measuring unit. Have.
[0125]
In the above-mentioned switched capacitor type LED drive power supply device, means for turning off the LED is provided inside. The means for turning off the LED includes a signal input detecting means, a time measuring means, and a sleep means.
[0126]
Whether the mobile phone is operated or not is detected by the signal input detecting means, and the detection result is sent to the time measuring means. The time measuring means measures the time during which the above operation is not performed, and when the predetermined time has elapsed, the main body of the apparatus is put into a sleep state by the sleep means. The time measuring means does not measure time when the above operation is being performed.
[0127]
As described above, according to the switched capacitor type LED driving power supply device, the means for turning off the LED is provided inside the power supply device, so that the design burden on the user is reduced, and the number of external components and the mounting area are reduced. In addition, cost reduction in mounting man-hours and the like can be achieved. In addition, when the push button operation is not performed for a predetermined time, the LED is turned off, and the current consumption during operation is suppressed, so that the effect of reliably reducing the battery consumption in the mobile phone can be achieved.
[0128]
As described above, another switched-capacitor-type LED drive power supply device for a mobile phone according to the present invention includes a signal input detection unit for detecting whether or not the mobile phone is operated, and the above-described operation not being performed. Time measuring means for measuring time and not measuring time when the operation is performed, and switch means for turning off the LED when a predetermined time has elapsed by the time measuring means. And
[0129]
In the above-mentioned switched capacitor type LED drive power supply device, means for turning off the LED is provided inside. The means for turning off the LED includes a signal input detecting means, a time measuring means, and a switch means.
[0130]
Whether the mobile phone is operated or not is detected by the signal input detecting means, and the detection result is sent to the time measuring means. The time measuring means measures the time during which the operation is not performed, and when the predetermined time has elapsed, the LED is turned off by the switch means. Thus, the current consumption of the LED can be reliably reduced to zero. The time measuring means does not measure time when the above operation is being performed.
[0131]
As described above, according to the switched capacitor type LED driving power supply device, the means for turning off the LED is provided inside the power supply device, so that the design burden on the user is reduced, and the number of external components and the mounting area are reduced. In addition, cost reduction in mounting man-hours and the like can be achieved. In addition, when the push button operation is not performed for a predetermined time, the LED is reliably turned off by the switch means, and current consumption during operation is suppressed, so that the effect of reliably reducing battery consumption in the mobile phone can be achieved.
[0132]
Still another switched-capacitor-type LED drive power supply device for a mobile phone according to the present invention includes, as described above, a signal input detecting means for detecting whether or not the mobile phone is operated, and the above-described operation being performed. A time measuring means for measuring no time and not measuring the time when the above operation is performed; a switch means provided for each of the LEDs for respectively connecting and disconnecting these LEDs; And a switch control means for controlling connection and disconnection of the switch means and turning off the plurality of LEDs stepwise when it is determined that the predetermined time has elapsed.
[0133]
In the above-mentioned switched capacitor type LED drive power supply device, means for turning off the LED is provided inside. The means for turning off the LED includes a signal input detecting means, a time measuring means, a switch means, and a switch control means.
[0134]
Whether the mobile phone is operated or not is detected by the signal input detecting means, and the detection result is sent to the time measuring means. The time measuring means measures the time during which the operation is not performed, and when the predetermined time has elapsed, the connection / disconnection of the switch means is controlled by the switch control means. As a result, the plurality of LEDs are turned off stepwise. The time measuring means does not measure time when the above operation is being performed.
[0135]
As described above, according to the switched capacitor type LED driving power supply device, the means for turning off the LED is provided inside the power supply device, so that the design burden on the user is reduced, and the number of external components and the mounting area are reduced. In addition, cost reduction in mounting man-hours and the like can be achieved. In addition, when the push button operation is not performed for a predetermined time, the LED is reliably turned off by the switch means, and current consumption during operation is suppressed, so that battery consumption in the mobile phone can be reliably reduced.
[0136]
In addition, by turning off a plurality of LEDs step by step, it is possible to gradually darken the liquid crystal screen and sequentially turn off the liquid crystal used in different parts such as the rear liquid crystal in the mobile phone. It also has an effect.
[0137]
Still another switched-capacitor-type LED drive power supply device for a mobile phone according to the present invention includes, as described above, a signal input detecting means for detecting whether or not the mobile phone is operated, and the above-described operation being performed. When the operation is performed, the constant current supplied to the LED is measured when the predetermined time has elapsed. Constant current adjusting means for decreasing the current.
[0138]
In the above-mentioned switched capacitor type LED drive power supply device, means for turning off the LED is provided inside. The means for turning off the LED comprises a signal input detecting means, a time measuring means, and a constant current adjusting means.
[0139]
Whether the mobile phone is operated or not is detected by the signal input detecting means, and the detection result is sent to the time measuring means. The time measuring means measures the time during which the operation is not performed, and when the predetermined time has elapsed, the constant current supplied to the LED is reduced by the constant current adjusting means. The time measuring means does not measure time when the above operation is being performed.
[0140]
As described above, according to the switched capacitor type LED driving power supply device, the means for turning off the LED is provided inside the power supply device, so that the design burden on the user is reduced, and the number of external components and the mounting area are reduced. In addition, cost reduction in mounting man-hours and the like can be achieved. In addition, since the constant current supplied to the LED is reduced and the current consumption during operation is suppressed, the effect of reliably reducing battery consumption in the mobile phone is also achieved.
[0141]
The above-mentioned switched-capacitor type LED drive power supply device for a mobile phone, further comprising a constant current generating means for generating a constant current that varies according to a reference voltage and outputting the constant current as a constant current to be supplied to the LED. Preferably, the means reduces the constant current by adjusting the reference voltage. In this case, by adjusting the reference voltage, the effect that the amount of the constant current can be easily reduced step by step can be easily achieved.
[0142]
The above-mentioned switched-capacitor type LED drive power supply for a mobile phone, further comprising a voltage dividing circuit for dividing a predetermined voltage into a plurality of voltages, wherein the constant current adjusting means selects a voltage selected from the plurality of voltages with the reference voltage. Is preferred. In this case, the driving power supply device can be realized with a simple configuration in which a voltage dividing circuit is provided.
[0143]
It is preferable that the above-mentioned switched-capacitor type LED drive power supply device for a mobile phone further includes a sleep unit that puts the device main body into a sleep state when the predetermined time has elapsed by the time measurement unit. In this case, current consumption during operation can be suppressed, and the effect of reliably reducing battery consumption can be achieved.
[0144]
In any of the above-described switched-capacitor type LED driving power supply devices for mobile phones, the power supply device further includes an oscillating means for generating a pulse of a predetermined frequency, wherein the boosting is performed by a switching operation based on the pulse and the time measuring means. Preferably comprises pulse counter means for counting pulses of the predetermined frequency. In this case, since the pulse generated by the oscillating means is used for both the switching operation at the time of boosting and the counting operation by the pulse counting means, the effect that the mounting area can be reduced correspondingly is exhibited.
[0145]
Further, the time measuring means compares the magnitude relationship between the constant current source, the charge holding means charged by the constant current source, the comparison reference voltage and the voltage across the charge holding means, and compares the comparison result with the above. It is preferable that the charging means include a comparing means for outputting as an output signal of the time measuring means, and a discharging means for discharging the electric charge of the electric charge holding means when the operation is performed.
[0146]
In this case, the voltage at both ends of the charge holding means increases with charging by the constant current source. By comparing this voltage with the comparison reference voltage by the comparison means, it can be determined whether or not a predetermined time corresponding to the comparison reference voltage has elapsed.
[0147]
The charge of the charge holding means is reset by discharging by the discharging means. The discharging by the discharging means is performed when an operation is being performed on the mobile phone.
[0148]
The predetermined time can be easily set by changing the charging time of the charge holding means. For example, when the charge holding means is realized by a capacitor, the above-mentioned predetermined time can be easily varied by connecting the capacitor externally and changing its capacity.
[0149]
In the switched-capacitor-type LED driving power supply device for a mobile phone, when the sleep unit is put into a sleep state by the sleep unit, the sleep unit maintains the sleep state until the operation of the mobile phone is performed again. Is preferred.
[0150]
In this case, once in the sleep state, the sleep unit keeps the sleep state until the operation of the mobile phone is performed again, so that the power supply and the liquid crystal are turned on until the operation is performed again. The effect that it can be avoided reliably is also achieved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration example of a switched capacitor type LED drive power supply device for a mobile phone according to the present invention.
FIG. 2 is a block diagram showing another configuration example of the switched capacitor type LED drive power supply device for a mobile phone according to the present invention.
FIG. 3 is a block diagram showing still another configuration example of the switched capacitor type LED drive power supply device for a mobile phone according to the present invention.
FIG. 4 is a block diagram showing still another configuration example of the switched capacitor type LED drive power supply device for a mobile phone according to the present invention.
FIG. 5 is a circuit diagram showing a specific configuration example of a constant current adjustment circuit of the switched capacitor type LED drive power supply device for a mobile phone.
FIG. 6 is a block diagram showing yet another configuration example of the switched capacitor type LED drive power supply device for a mobile phone according to the present invention.
FIG. 7 is a block diagram showing a specific configuration example of a time measuring circuit in the switched capacitor type LED drive power supply device for a mobile phone.
FIG. 8 is a block diagram showing another specific configuration example of the time measuring circuit in the switched capacitor type LED drive power supply device for a mobile phone.
FIG. 9 is a block diagram showing still another configuration example of the switched capacitor type LED drive power supply device for a mobile phone according to the present invention.
FIG. 10 is a block diagram showing a configuration example of a conventional switched-capacitor-type LED drive power supply device for a mobile phone.
FIG. 11 is a waveform chart showing waveforms of main parts of FIG.
FIG. 12 is a block diagram showing another configuration example of a conventional switched-capacitor-type LED drive power supply device for a mobile phone.
[Explanation of symbols]
100 signal input detection circuit
101 Time measurement circuit
102 Sleep circuit
104 constant current adjustment circuit
105 flip-flop (sleep state maintaining means)
150 constant voltage circuit
151 Voltage division resistance changeover switch
SW1 Discharge switch

Claims (10)

A switched capacitor type LED drive power supply device for boosting an input DC voltage and driving an LED used as a liquid crystal backlight in a mobile phone,
Signal input detection means for detecting whether or not the operation of the mobile phone is performed;
Time measuring means for measuring time during which the operation is not performed, and not measuring time when the operation is performed;
A switched capacitor type LED driving power supply for a mobile phone, comprising: a sleep unit for setting the apparatus main body to a sleep state when a predetermined time has elapsed by the time measuring unit. A switched capacitor type LED drive power supply device for boosting an input DC voltage and driving an LED used as a liquid crystal backlight in a mobile phone,
Signal input detection means for detecting whether or not the operation of the mobile phone is performed;
Time measuring means for measuring time during which the operation is not performed, and not measuring time when the operation is performed;
A switching means for turning off the LED when a predetermined time has elapsed by the time measuring means; and a switch capacitor type LED driving power supply for a mobile phone. A switched-capacitor LED drive power supply that boosts an input DC voltage and drives a plurality of LEDs used as a liquid crystal backlight in a mobile phone,
Signal input detection means for detecting whether or not the operation of the mobile phone is performed;
Time measuring means for measuring time during which the operation is not performed, and not measuring time when the operation is performed;
Switch means provided for each of the LEDs, for disconnecting and connecting these LEDs,
A mobile phone comprising: switch control means for controlling connection / disconnection of the switch means and turning off the plurality of LEDs stepwise when the predetermined time has elapsed by the time measurement means. Switched-capacitor LED drive power supply. A switched capacitor type LED driving power supply for a mobile phone, which boosts an input DC voltage and drives an LED used as a liquid crystal backlight in the mobile phone at a constant current,
Signal input detection means for detecting whether or not the operation of the mobile phone is performed;
Time measuring means for measuring time during which the operation is not performed, and not measuring time when the operation is performed;
A constant current adjusting means for decreasing a constant current supplied to the LED when a predetermined time has elapsed by the time measuring means; . The apparatus further includes a constant current generating unit that generates a constant current that changes in accordance with a reference voltage and outputs the constant current as a constant current to be supplied to the LED. The constant current adjustment unit reduces the constant current by adjusting the reference voltage. The switched-capacitor-type LED drive power supply device for a mobile phone according to claim 4, wherein: 6. The mobile phone according to claim 5, further comprising a voltage dividing circuit that divides a predetermined voltage into a plurality of voltages, wherein the constant current adjusting unit selects a voltage selected from the plurality of voltages as the reference voltage. Switched capacitor type LED drive power supply. 7. The mobile phone switch according to claim 4, further comprising a sleep unit that sets the apparatus main body to a sleep state when the predetermined time has elapsed by the time measurement unit. Capacitor type LED drive power supply. Oscillation means for generating a pulse of a predetermined frequency is further provided,
The boosting is performed by a switching operation based on the pulse,
The switched capacitor type LED drive power supply device for a mobile phone according to any one of claims 1 to 7, wherein the time measuring means comprises pulse counter means for counting the pulses of the predetermined frequency. The time measuring means,
A constant current source,
Charge holding means charged by the constant current source;
Comparing means for comparing the magnitude relationship between the comparison reference voltage and the voltage across the charge holding means, and outputting the comparison result as an output signal of the time measuring means;
The switched capacitor type for a mobile phone according to any one of claims 1 to 7, further comprising discharging means for discharging the electric charge of the electric charge holding means when the operation is performed. LED drive power supply. 8. The mobile phone according to claim 1, further comprising: a sleep state maintaining unit that causes the sleep unit to maintain the sleep state until the operation of the mobile phone is performed again when the sleep unit enters the sleep state. Switched-capacitor LED drive power supply.

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