KR100243305B1 - Portable phone for sensing light - Google Patents

Abstract

The present invention relates to a light sensing mobile phone device for controlling the backlight of a liquid crystal display and a keypad according to the amount of light detected, and the present invention detects the amount of external light in the light sensing unit and adjusts the amount of light detected. Accordingly, by automatically controlling the power supplied to the backlight of the liquid crystal display and the keypad to ON (ON) or OFF (OFF), it is possible to extend the talk time by suppressing the unnecessary power consumption when using the optical sensing mobile phone device.

Description

Light sensing mobile phone devices

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a photosensitive mobile phone device, and more particularly to a photosensitive mobile phone device for automatically controlling the backlight of a liquid crystal display and a keypad of a mobile phone device according to the amount of light detected.

In general, when a user wants to use a mobile phone device, when the keys on the keypad are operated, the LCD display and the backlight of the keypad are automatically turned on to turn on the light, which is particularly useful in dark places. Very useful when used.

1 is a background lighting control circuit diagram of such a conventional mobile telephone apparatus.

As shown, the power control unit 1 for controlling the power of the liquid crystal display backlight unit 2 and the keypad backlight unit 3 in accordance with a control signal for controlling the power of the liquid crystal display and keypad backlighting transmitted from the processor, A liquid crystal display placed between an externally applied power (V _cc ) and the power control unit (1) and turning on a background light on a liquid crystal display with the externally applied power (V _cc ) when the power control unit (1) is driven. background illumination (2), the liquid crystal display background illumination (2) and is connected in parallel to the power supply control unit (1) when the backlight to the keypad to power supply (V _cc) applied in the external drive thought the proud tree keypad background illumination of It consisted of (3).

The power control unit 1 is operated by a resistor R1 for setting an operating point of the transistor TR as a control signal transmitted from the processor and a control signal through the resistor R1 to operate the liquid crystal display background. A transistor TR for controlling the power supply of the lighting unit 2 and the keypad backlight 3 and a resistor R2 for bypassing the voltage flowing to the emitter of the transistor TR to ground.

In addition, the liquid crystal display backlight unit 2 is constituted by a light emitting diode D1 that provides background lighting to the liquid crystal display of the mobile telephone apparatus.

The keypad backlight unit 3 is composed of a light emitting diode D2 that provides background lighting to the keypad of the cellular phone device.

The operation of the background lighting control circuit of the conventional cellular phone device configured as described above is as follows.

First, when a key of a keypad is operated, the processor transmits a control signal (high signal) to the power control unit 1 so that the backlight of the liquid crystal display and the keypad is turned on. Then, the transistor TR in the power control unit 1 is turned on by the control signal (high signal), and the transistor TR is turned on in the liquid crystal display backlight unit 2 as the transistor TR is turned on. Power is supplied to the light emitting diode D1 so that the light emitting diode D1 emits light so that the backlight is turned on in the liquid crystal display.

At the same time, the light emitting diode D2 in the keypad backlight unit 3 also turns on the backlight on the keypad by supplying power as the transistor TR is turned on.

Then, when a predetermined time elapses after the key of the keypad is pressed, the processor generates a control signal (low signal) for controlling the backlight to be turned off on the liquid crystal display and the keypad. Then, the transistor TR is turned off by the control signal (low signal), so that no power is supplied to the liquid crystal display backlight 2 and the keypad backlight 3 so that the liquid crystal display backlight and the keypad backlight are turned off. .

In the case described above, the liquid crystal display backlight unit and the light emitting diodes in the keypad backlight unit are automatically controlled when the keys of the keypad are operated.

In addition, when the flip cover is opened, power is automatically supplied to the liquid crystal display backlight and the keypad backlight so that each light emitting diode in the liquid crystal display backlight and the keypad backlight illuminates automatically. There is also a mobile phone apparatus in which power is supplied to the liquid crystal display backlight unit and the keypad backlight unit so that each light emitting diode in the liquid crystal display backlight unit and the keypad backlight unit is automatically turned off.

In another mobile phone device, there is also a method in which the user turns off the backlight by key operation.

However, such a conventional mobile phone device, since the backlight of the liquid crystal display and the keypad is automatically turned on when the key of the mobile phone device is pressed or the flip is opened in a bright place as well as a dark place, the current of the mobile phone device consumes a lot of current. There was a problem.

In particular, even in bright daylight, even without the backlight of the keypad or the liquid crystal display, even though the recognition of the characters displayed on the keys or the keypad of the keypad is sufficient, it is not controlled and emits the background light unconditionally by simple operation of key input or flip. The current consumption becomes large.

As described above, the increase in current consumption causes a problem of shortening call time (including call waiting time).

Accordingly, the present invention is to solve the above conventional problems, an object of the present invention is to detect the amount of external light and to automatically control the power of the backlight according to the amount of light detected to prevent current consumption. The present invention provides a photosensitive mobile telephone device.

The device according to the present invention for achieving the above object, in the mobile phone device providing a backlight of the liquid crystal display and the keypad, the liquid crystal display backlight unit and the keypad according to the amount of light sensed and sensed A light sensing unit controlling power supplied to the backlight unit; A liquid crystal display and keypad backlight driver for controlling driving of the liquid crystal display backlight unit and keypad backlight unit according to a liquid crystal display and keypad backlight control signal transmitted from a processor for controlling the overall operation of the cellular phone device; The driving is determined by the control of the liquid crystal display and the keypad backlight driver, and the liquid crystal display and the keypad backlight are provided to emit light with the power supplied from the light sensing unit to provide the backlight of the liquid crystal display and the keypad. do.

According to another aspect of the present invention, there is provided a mobile phone device for providing a backlight of a liquid crystal display and a keypad, wherein the liquid crystal display backlight unit and the keypad are sensed according to the detected amount of light. A light detecting unit generating a signal for controlling power supplied to the backlight unit; A multiplexer for multiplexing the liquid crystal display and keypad backlight control signal transmitted from the processor for controlling the overall operation of the cellular phone device and the power control signal output from the light sensing unit and generating a result as a driving control signal; A liquid crystal display and keypad backlight driver for controlling driving of the liquid crystal display backlight unit and keypad backlight unit according to a driving control signal generated by the multiplexer; The driving is determined according to the control of the liquid crystal display and the keypad backlight driver and is characterized by consisting of a liquid crystal display and a keypad backlight unit that provide a background light of the liquid crystal display and the keypad by emitting light from an externally supplied power. .

Another apparatus according to the present invention for achieving the above object is a mobile phone device for providing a backlight of the liquid crystal display and the keypad, the liquid crystal display and keypad backlight unit for providing a background light of the liquid crystal display and the keypad Wow; A light sensing unit for sensing an amount of light and controlling power supplied to the keypad backlight unit according to the detected amount of light; And a liquid crystal display and keypad backlight driver for controlling driving of the liquid crystal display backlight unit and keypad backlight unit according to a liquid crystal display and keypad backlight driving control signal transmitted from a processor for controlling the overall operation of the mobile phone device. do.

1 is a background lighting control circuit diagram of a conventional cellular phone device.

2 is a circuit diagram showing an embodiment of the light-sensing cellular phone device according to the present invention.

3 is a circuit diagram showing another embodiment of the light-sensing cellular phone device according to the present invention.

4 is a circuit diagram showing another embodiment of the light-sensing cellular phone device according to the present invention.

<Explanation of symbols for main parts of drawing>

10,40,60: light sensing unit 21: liquid crystal display background lighting unit

22: keypad background lighting

30: liquid crystal display and keypad background light driver

Hereinafter, the configuration and operation of an embodiment according to the technical spirit of the present invention "photosensitive mobile phone device" will be described in detail with reference to the accompanying drawings.

Example 1

First, as shown in FIG. 2, the first embodiment of the light sensing mobile telephone apparatus is configured to detect the amount of light and to provide the liquid crystal display backlight 21 and the keypad backlight 22 according to the detected amount of light. An optical sensing unit 10 for controlling the supplied power V _cc ; A liquid crystal display and keypad backlight driver for controlling driving of the liquid crystal display backlight unit 21 and the keypad backlight unit 22 according to a liquid crystal display and keypad backlight control signal transmitted from a processor for controlling the overall operation of the mobile phone device. 30; The driving is determined by the control of the liquid crystal display and the keypad backlight driver 30, and the light is emitted by the power supplied from the light sensing unit 10 to provide the backlight of the liquid crystal display and the keypad. It consists of illumination parts 21 and 22.

The liquid crystal display and keypad backlight driver 30 operates by a resistor R10 for setting an operating point of the transistor TR1 as a control signal transmitted from the processor, and by a control signal through the resistor R10. A transistor TR1 for controlling the driving of the liquid crystal display backlight unit 21 and the keypad backlight unit 22; and a resistor R2 for bypassing the voltage flowing through the emitter of the transistor TR1 to ground. do.

In addition, the liquid crystal display backlight unit 21 is composed of a light emitting diode D10 that provides background lighting to the liquid crystal display of the mobile telephone apparatus.

The keypad backlight unit 55 is composed of a light emitting diode D11 that provides the backlight to the keypad of the cellular phone device.

The operation of the first embodiment of the optical sensing cell phone device according to the present invention configured as described above is as follows.

First, when a key of the photosensitive mobile phone device is pressed in a dark place, a processor (not shown) that controls the entire operation of the mobile phone device generates a control signal (high signal) to turn on the backlight of the liquid crystal display and keypad. The transistor TR1 in the liquid crystal display and keypad backlight driver 30 is driven.

At the same time, the light sensor 10 is blocked jugeona supply the liquid crystal display background illumination portion 21 and the keypad background illumination light emitting power (22) (V _cc) in accordance with the amount of detecting the amount of external light and detect light Let's go.

That is, since it is assumed that the current state is a dark place, the amount of external light is also relatively small, so that an internal phototransistor (not shown) constituting the light sensing unit 10 is turned off to be applied from the outside (V _cc ). Is supplied to the liquid crystal display backlight 21 and the keypad backlight 22.

In the liquid crystal display background illumination portion 21 along the light-emitting diode (D10) and a keypad background illumination portion 22 within the light-emitting diode (D11) is supplied emits light power (V _cc), therefore the two light emitting diode (D10) (D11 ) Will illuminate and turn on the backlight on the LCD and keypad at night or in low light.

In the above, the phototransistor in the photosensitive unit 10 actually switches and turns off when the amount of external light is small (dark or night), so that the external power source V _cc is left as it is. ) And the keypad backlight 22, on the other hand, when there is a large amount of external light (day or bright place), the external power supply (V _cc ) is turned on the liquid crystal display backlight 21 and the keypad backlight ( 22) to block the supply.

In addition, the photodetector 10 may use an optical sensor in which the internal resistance is different depending on the amount of light in addition to the photo transistor. In this case, when the external light amount is small, the internal resistance is relatively small, so that the external power supply (V _cc ) It does not block the circuit and supplies it to the rear stage. On the contrary, when there is a large amount of external light, the internal resistance is relatively high to block external power (V _cc ) from being supplied to the rear stage.

Next, describing the case where the key of the photosensitive mobile phone device is pressed in a bright place, the processor may turn on the backlight of the liquid crystal display and keypad as if the key of the photosensitive mobile phone device is pressed in a dark place. A control signal (high signal) is generated to drive the transistor TR1 in the liquid crystal display and keypad backlight driver 30.

At the same time, the light sensor 10 is blocked jugeona supply the liquid crystal display background illumination portion 21 and the keypad background illumination light emitting power (22) (V _cc) in accordance with the amount of detecting the amount of external light and detect light Let's go.

That is, since it is assumed that the current state is a bright place, the amount of external light is also relatively high, so that an internal phototransistor (not shown) constituting the light sensing unit 10 is turned on and applied from the outside (V). _cc ) is blocked from being supplied to the liquid crystal display backlight 21 and the keypad backlight 22.

In the liquid crystal display background illumination portion 21 within the light-emitting diode (D10) and a keypad background illumination portion 22 within the light-emitting diode (D11) is not supplied to the light emission power supply (V _cc), therefore the two light emitting diode (D10) in accordance with ( D11) is turned off to turn off the backlight of the liquid crystal display and keypad in bright places or during the day.

In the first embodiment of the optical sensing mobile phone device as described above, the control signal for turning on the backlight of the liquid crystal display and the keypad is received from the processor, and the liquid crystal display and the keypad according to the amount of light detected by the light sensing unit. By controlling the power supplied to the backlight of the backlight, the backlight of the liquid crystal display and keypad can be turned on only when the light-sensitive mobile phone device is used in a dark place. In other words, by turning off the backlight of the liquid crystal display and the keypad during a bright place or a large amount of light, power consumption can be reduced, thereby extending the use time of the mobile phone device.

Example 2

Next, another embodiment configuration of the light sensing mobile phone device is configured to detect the amount of light and provide it to the liquid crystal display backlight 21 and the keypad backlight 22 according to the detected amount of light, as shown in FIG. An optical sensing unit 40 generating a signal for controlling the supplied power; A multiplexer for multiplexing a liquid crystal display and keypad backlight control signal transmitted from a processor for controlling the overall operation of the cellular phone device and a power control signal output from the light sensing unit 40 and generating a result as a driving control signal; 50); A liquid crystal display and keypad backlight driver 30 for controlling the driving of the liquid crystal display backlight 21 and the keypad backlight 22 according to a driving control signal generated by the multiplexer 50; The driving is determined according to the control of the liquid crystal display and the keypad backlighting driver 30, and when the driving is performed, light is emitted by an externally supplied power (V _cc ) to provide a backlight of the liquid crystal display and the keypad. It consists of illumination parts 21 and 22.

The liquid crystal display and keypad backlight driver 30 operates by a resistor R10 for setting an operating point of the transistor TR1 as a control signal transmitted from the processor, and by a control signal through the resistor R10. A transistor TR1 for controlling the driving of the liquid crystal display backlight unit 21 and the keypad backlight unit 22; and a resistor R2 for bypassing the voltage flowing through the emitter of the transistor TR1 to ground. do.

In addition, the liquid crystal display backlight unit 21 is composed of a light emitting diode D10 that provides background lighting to the liquid crystal display of the mobile telephone apparatus.

The keypad backlight unit 55 is composed of a light emitting diode D11 that provides the backlight to the keypad of the cellular phone device.

The operation of the second embodiment of the optical sensing mobile telephone apparatus according to the present invention configured as described above is as follows.

First, when the key of the light-sensing cellular phone device is pressed in a dark place, the processor generates a control signal to turn on the backlight of the liquid crystal display and the keypad, and the light sensing unit 40 detects the amount of light. It generates a control signal that can sense and control the power supplied according to the amount of light detected.

That is, the light detecting unit 40 detects the external light amount using a photo transistor, which is an internal light receiving element, and according to the detected light amount, a high signal (when the light amount is less than or equal to the set value) or a low signal (light amount is greater than or equal to the set value). Case).

The setting value is a value applied to determine the clarity in operating the keys of the keypad or confirming the characters displayed on the liquid crystal display.

For example, when the user operates the keys on the keypad without any difficulty, the user can operate the keys above the set value.In contrast, when the user is in a dark or night environment, difficulty in operating the keys on the keypad occurs. See below the set value. Therefore, the setpoint is determined appropriately by referring to this point of view.

On the other hand, the multiplexer 50 multiplexes the control signal generated from the processor and the power control signal output from the light sensing unit 40 and generates the result as a drive control signal.

That is, the internal configuration (not shown) of the multiplexer 50 may be implemented in various circuit configurations. However, if the simplest logic element is used, an AND gate may be used. Therefore, since the control signal output from the processor is a high signal and the output signal of the light sensing unit 40 is a high signal (a control signal generated when it is dark or at night), the resultant output signal is also a high signal so that the liquid crystal display and It is delivered to the keypad backlight driver 30.

Accordingly, the transistor TR1 in the liquid crystal display and keypad backlight driver 30 is turned on. As the transistor TR1 is turned on, the liquid crystal display backlight 21 and the keypad backlight 22 are turned on. each light-emitting diode (D10) (light emission power supply (V _cc) to both D11) in a) is fed.

Therefore, all of the light emitting diodes D10 and D11 emit light so that the backlight is turned on in the liquid crystal display and the keypad.

That is, in a dark place or at night, as long as the user's key operation exists, the backlight is turned on in the liquid crystal display and the keypad.

Next, when the key of the light-sensing cellular phone device is pressed in a bright place (or day), the processor generates a control signal (high signal) so that the backlight of the liquid crystal display and keypad is turned on. The unit 4 detects the amount of light and generates a control signal for controlling the power supplied according to the detected amount of light.

That is, the light detecting unit 40 detects the external light amount using a photo transistor, which is an internal light receiving element, and according to the detected light amount, a high signal (when the light amount is less than or equal to the set value) or a low signal (light amount is greater than or equal to the set value). Case).

Accordingly, the multiplexer 50 multiplexes the control signal generated from the processor and the power control signal output from the light sensing unit 40 and generates the result as a drive control signal.

That is, since the control signal output from the processor is a high signal and the output signal of the light sensing unit 40 is a low signal, the multiplexer 50 generates a low signal as a result output signal to generate a liquid crystal display and a keypad backlight driver ( To 30).

Accordingly, the transistor TR1 in the liquid crystal display and keypad backlight driver 30 is turned off, and as the transistor TR1 is turned off, the liquid crystal display backlight 21 and the keypad backlight 22 are turned off. all power to each light emitting diode in the (D10) (D11) light emission (V _cc) is not supplied.

Therefore, since the light emitting diodes D10 and D11 are all turned off, the backlight is turned off on the liquid crystal display and the keypad.

That is, even in a bright place or day, even if the user's key operation is present, the backlight is not turned on in the liquid crystal display and the keypad.

Example 3

Another embodiment of the light-sensing cellular phone apparatus according to the present invention comprises a liquid crystal display and keypad backlighting unit 21 and 22 for providing a backlight of the liquid crystal display and the keypad, as shown in FIG. A light sensing unit 60 for sensing an amount of light and controlling power V _cc supplied to the keypad backlight unit 22 according to the detected amount of light; A liquid crystal display and keypad backlight for controlling the driving of the liquid crystal display backlight unit 21 and the keypad backlight unit 22 according to a liquid crystal display and keypad backlight driving control signal transmitted from a processor controlling the overall operation of the cellular phone device. It consists of a drive unit 30.

In the third embodiment according to the present invention configured as described above, the light sensing unit 60 only participates in the keypad backlight unit 60.

That is, the liquid crystal display backlight 21 may turn on the transistor TR1 in the liquid crystal display and the keypad backlight driver 30 according to a control signal (high signal) output from the processor when a user's key is operated. The light emitting diode D10 in the backlight unit 21 emits light.

However, the light emitting diode D11 in the keypad backlight unit 22 does not operate immediately under the above conditions, and is controlled by detecting the amount of external light of the light detecting unit 60.

That is, in a dark place or at night, the light detecting unit 60 is turned off during the switching operation because the amount of external detection light is less than or equal to the set value, and maintains the initial state (referring to the state in which the switch is closed).

Therefore, a loop of the power supply V _cc connected to one side of the light emitting diode D11 in the keypad backlight unit 22 is formed, so that the light emitting diode D11 emits light.

That is, when there is a key operation for use in a dark place or at night, the backlight is turned on both the liquid crystal display and the keypad.

Next, in a bright place or in the daytime, since the amount of external light is greater than or equal to the set value, the light detecting unit 60 is turned on during the switching action to open the switch (the first state is the state in which the switch is closed).

Therefore, the loop of the power supply Vcc connected to one side of the light emitting diode D11 in the keypad backlight unit 22 is not formed, so that the light emitting diode D11 is turned off.

That is, even in a bright place or day, even if the user's key operation exists, the backlight is not turned on in the keypad.

The above-described light sensing portable device according to the present invention has been described only for the technique of controlling the backlight of the keypad or the liquid crystal display on or off according to the amount of external light, but the internal resistance of the light sensing unit varies according to the amount of external light. If a variable resistor or the like is applied, the degree of light emission of the liquid crystal display and the keypad may be differentially adjusted according to the amount of external light.

That is, the degree of light emission of the background light can be varied according to the degree of darkness.

In addition, the present invention has been described by applying the technology only to a mobile phone device, but is not limited to this, and can be applied to all telephones (especially home wired telephones) including a keypad or a liquid crystal display.

As described above, the present invention, the "light-sensing mobile phone device", in particular, by detecting the amount of light and by controlling the power supplied to the backlight of the keypad or the liquid crystal display according to the detected amount of light, The backlight of the liquid crystal display and keypad can be turned on only at places or at night, which reduces the power consumption of the photosensitive mobile phone device.

In addition, by reducing the power consumption of the light-sensing mobile phone device as described above, it is possible to increase the call waiting time and the using time.

Claims (1)

The liquid crystal display and keypad backlight driving unit which controls the driving of the liquid crystal display backlight unit and the keypad backlight unit are determined by the control of the liquid crystal display and keypad backlight backlight driving unit, and the light is supplied by the power supplied to the liquid crystal display and the keypad. A photosensitive mobile telephone device having a liquid crystal display and a keypad backlight for providing a backlight, wherein the collector terminal is connected to an input power supply and the emitter terminal is connected to a power input of the liquid crystal display and keypad backlight driver. A light sensing device having a transistor, sensing an amount of external light of the light sensing mobile phone device through a base end, and controlling power supplied to the liquid crystal display backlight unit and keypad backlight unit according to the detected light amount; Light-sensing mobile phone device, characterized in that configured to include .

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