JP4265749B2 - Electronic device with LCD remote control - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic device with a liquid crystal remote controller that can operate a connected main unit by operating a liquid crystal remote controller and displays information from the main unit on a liquid crystal display unit of the liquid crystal remote controller. In particular, the present invention relates to an electronic device with a liquid crystal remote controller that controls lighting of a backlight that illuminates a liquid crystal display unit of the liquid crystal remote controller from the back.
[0002]
[Prior art]
2. Description of the Related Art In recent years, electronic devices such as mobile phones that are equipped with a storage medium such as an SD memory card or a memory stick card that stores music data, etc., and that can operate a connected liquid crystal remote controller to perform music playback, telephone calls, etc. It is popular. At this time, information stored in the storage medium such as a song title and artist name and information such as mail are displayed on the liquid crystal display section of the liquid crystal remote controller.
[0003]
FIG. 6 is a block diagram showing an electrical configuration of such a conventional mobile phone with a liquid crystal remote controller. In FIG. 6, reference numeral 1 denotes a liquid crystal remote controller, 2 denotes a mobile phone main body, and the liquid crystal remote controller 1 and the mobile phone main body 2 are connected via a plug portion 3 including a connection cord or the like with a connection plug. The liquid crystal remote controller 1 includes a liquid crystal display unit 41, an LED (backlight) 42, a remote control CPU (remote control unit) 43, an operation unit 5, and an audio input / output unit 6. The liquid crystal display unit 41 displays information such as a song title, artist name, mail, etc., and the LED 42 emits light when a current flows through the current limiting resistor RX connected to the power supply terminal 31 of the plug unit 3, and the liquid crystal display unit 41 is illuminated from the back. In addition, there are a case where illumination is performed directly from the back surface of the liquid crystal display unit and a case where illumination is performed indirectly using reflected light or the like.
[0004]
The remote control CPU 43 uses the power supplied from the mobile phone body 2 via the power terminal 31 as a driving power. Further, the remote control CPU 43 has a liquid crystal control unit 44 for performing dot, segment and common control of the liquid crystal display unit 41, and an LED control terminal 49 to which the LED 42 is connected. The potential of the LED control terminal 49 is set to L (Low). The LED 42 is turned on at the potential, and the lighting control is performed to turn off the LED 42 at the H (High) potential, and the mobile phone main body using the UART 45 connected to the mobile phone main body 2 via the communication terminals 32 and 33 of the plug unit 3. 2 includes a remote controller core CPU 46 for serial data communication, and a ROM 47 and a RAM 48 connected to the remote controller core CPU 46.
[0005]
Further, the operation unit 5 includes operation keys SW1 to SW7 for operating the mobile phone body 2 for music reproduction, and voltage dividing resistors R1 to R6 connected in series. One end (the voltage dividing resistor R1 side) of the series circuit of the voltage dividing resistors R1 to R6 is connected to the remote control SW detection terminal 36 of the plug unit 3, and the other end (the voltage dividing resistor R6 side) is plugged via the operation key SW7. It is connected to the GND terminal 35 of the unit 3. The GND terminal 35 is connected to the GND of the mobile phone body 2. The connection point between the remote control SW detection terminal 36 and the voltage dividing resistor R1 is connected to the voltage dividing resistors R2 and R3 via the operation key SW1, and the connection point between the voltage dividing resistors R1 and R2 is connected via the operation key SW2. The connection point is via the operation key SW3, the connection point between the voltage dividing resistors R3 and R4 is via the operation key SW4, and the connection point between the voltage dividing resistors R4 and R5 is via the operation key SW5 and the voltage dividing resistor R5. And R6 are connected to the GND terminal 35 through the operation key SW6.
[0006]
The operation key SW1 is an operation key for instructing the mobile phone body 2 to “play / stop” music playback. The operation key SW2 operates “fast forward”, the operation key SW3 operates “rewind”, The key SW4 is an operation for instructing “start / end” of a call, the operation key SW5 is “sound quality switching”, the operation key SW6 is “volume switching up”, and the operation key SW7 is “volume switching down”. Key.
[0007]
The voice input / output unit 6 is connected to the microphone input terminal 34 and the GND terminal 35 of the plug unit 3. The microphone 61 converts the voice generated by the user into an electrical signal and transmits it to the mobile phone body 2, and the plug. The receiver output terminals 37 and 38 of the section 3 are connected to the GND terminal 35, and a headphone connection jack 62 for connecting headphones (not shown) is provided. Thereby, the user can listen to the music reproduced by the liquid crystal remote controller 1 or make a call even in a state where the mobile phone body 2 is put in the bag.
[0008]
Next, the mobile phone body 2 will be described. The mobile phone main body 2 includes a mobile phone main body power source 7 obtained from a mounted rechargeable battery or the like (not shown) and a main body CPU (main body control unit) 8. The mobile phone body power supply 7 supplies a power supply voltage V (V) to the remote control CPU 43 and the LED 42 via the power supply terminal 31. In addition, the mobile phone main body power supply 7 is connected to the remote control SW detection terminal 36 via the pull-up resistor R 0 and supplies a voltage to the operation unit 5.
[0009]
In addition, the main body CPU 8 uses a UART 81 connected to the UART 45 of the liquid crystal remote controller 1 via the communication terminals 32 and 33, and a main body core CPU 82 that performs serial data communication with the liquid crystal remote controller 1, and an RTC (real time) that provides the current time as data. Clock) 83, an A / D converter (A / D conversion unit) 84 for supplying a voltage value obtained by A / D converting and digitizing the voltage from the remote control SW detection terminal 36 to the main body core CPU, and the main body core CPU. A connected RAM (storage unit) 85 is provided.
[0010]
With such a configuration, by operating the operation keys SW1 to SW7 of the liquid crystal remote controller 1, the combined resistance from the pull-up resistor R0 of the mobile phone body 2 and the voltage dividing resistors R1 to R6 corresponding to the operated operation key. The power supply voltage V (V) of the mobile phone body power supply 7 is divided by the value, and the divided voltage becomes a DC voltage value corresponding to the operated operation key, and is supplied to the remote control SW detection terminal 36. appear. For example, when the operation key SW5 is operated, the power supply voltage V (V) is integrated with the ratio of the combined resistance value R1 to R4 and the pull-up resistor R0.
[0011]
The DC voltage value corresponding to each operation key is converted into a digital numerical value by the A / D converter 84 in the main body CPU 8 of the mobile phone main body 2, and the main body core CPU 82 checks for an event that occurs asynchronously. Polling, which is one of the methods, is performed to detect a continuous digital conversion value and the number of continuous digital conversion values. Then, a comparison determination process between the digital conversion numerical value (predetermined predetermined value) corresponding to each operation key of the liquid crystal remote controller 1 set by the software of the main body CPU 8 and the detected continuous digital conversion numerical value and the number of times. The operation key that has been operated is determined based on the match. After the operated operation key is determined, the main body CPU 8 performs various operation controls such as music playback / stop, start of outgoing call, and end of outgoing call in accordance with each operated key.
[0012]
Further, as an input method of operation keys of the liquid crystal remote controller, there is a method as shown in FIG. FIG. 7 shows another conventional liquid crystal in which a storage medium such as an SD memory card or a memory stick card storing music data or the like is mounted, and music playback, a telephone call or the like is made possible by operating a connected liquid crystal remote controller. It is a block diagram which shows the electric constitution of the mobile telephone with a remote control. In FIG. 7, the same parts as those in FIG. 6 are denoted by the same reference numerals, and the description thereof is omitted.
[0013]
6 differs from the mobile phone with a liquid crystal remote controller shown in FIG. 6 in that an operation unit 10 including operation keys such as operation keys SW1 to SW7 shown in FIG. 6 is used instead of the operation unit 5 shown in FIG. The point connected to the key input terminal of the CPU 43, the remote control SW detection terminal 36 of the plug unit 3 required for determining the operation key of the operation unit 5, the pull-up resistor R0, and the A / D conversion of the main body CPU 8 The point is that there is no vessel 84.
[0014]
With such a configuration, the remote controller CPU 43 detects a key input indicating which operation key of the operation unit 10 is pressed, and sends the detected key input data to the main body CPU 8 of the mobile phone main body 2 by UART communication. The operation key operated by the main body CPU 8 is discriminated. After the operated operation key is determined, the main body CPU 8 performs various operation controls such as music playback / stop, start of outgoing call, and end of outgoing call in accordance with each operated key. Further, when each operation key of the operation unit 10 is directly connected to the key input terminal of the remote control CPU 43, and after forming a key matrix circuit with each operation key of the operation unit 10, the key input terminal of the remote control CPU 43 May be connected to.
[0015]
6 and 7, the remote controller CPU 43 performs serial data communication with the main body CPU 8 of the mobile phone body 2, and the liquid crystal control unit 44 controls the dots, segments, and common control of the liquid crystal display unit 41. The information based on the data obtained by the serial data communication is displayed on the liquid crystal. In the case of a long mail such that the display information cannot be displayed on the liquid crystal display unit 41 at a time, scroll display is performed according to the data obtained by the serial data communication.
[0016]
Further, in order to improve the visibility of the liquid crystal display unit 41, an LED (backlight) 42 that illuminates from the back of the liquid crystal display unit 41 is supplied with power from the mobile phone device body 2, and each key of the liquid crystal remote controller 1 is received. Lights for several seconds (for example, 3 seconds or 5 seconds) in conjunction with the operation. When the liquid crystal display content is a song title, artist name, mail, etc., the display is long and the display time is long. Therefore, the display is lit for several tens of seconds (for example, a maximum of 20 seconds), and then the LED 42 is turned on. The time-fixing control specification is set to turn off the light in order to reduce the current consumption (for example, 15 mA) and reduce the battery capacity consumption of the mobile phone body 2.
[0017]
As described above, the lighting control of the LED 42 is performed by performing UART serial data communication between the main body CPU 8 and the remote controller CPU 43 when each operated key of the liquid crystal remote controller 1 is determined. Based on the obtained data, the remote control core CPU 46 sets the LED control terminal 49 to the L potential and turns on the LED 42. Then, the main body core CPU 82 compares and matches the current time data of the RTC 83 and the set time data of the RAM 85, and when the set time (for example, 3 seconds or 5 seconds, or up to 20 seconds in the case of scroll display) elapses, UART serial data communication is performed, and the remote control core CPU 46 sets the LED control terminal 49 to the H potential and turns off the LED 42 based on the data obtained by this communication.
[0018]
Some push-button telephones are provided with a switch for switching a confirmation sound generated during on-hook dialing to “key touch sound”, “pea popper sound”, or “mute” (see, for example, Patent Document 1).
[0019]
In addition, in order to communicate using radio waves, at least a transceiver unit, an operation unit, and a battery unit are included, and the operation unit includes a numeric keypad using a button switch, a power key, and a function key. In some mobile phones in which button switches are exposed on the outer surface of the casing, a prohibition switch that electrically disables the operation of all button switches is provided on the outer surface of the casing (for example, see Patent Document 2).
[0020]
[Patent Document 1]
Japanese Utility Model Publication No. 62-49893
[Patent Document 2]
Japanese Utility Model Publication No. 4-44751
[0021]
[Problems to be solved by the invention]
However, in the above-described conventional mobile phone with a liquid crystal remote controller, when confirming the liquid crystal display of the liquid crystal remote controller, a long message mail is displayed when the backlight is turned on at night or the like. However, there is a problem that when the set time of the fixed time control specification described above elapses, the backlight is turned off and the contents of the mail cannot be confirmed.
[0022]
Even if the backlight is turned on again by operating the LCD remote control key, the continuous scrolling of the mail contents is displayed from the time the backlight is turned off until it is turned on again. There was also a problem that it was not possible to see the contents. In addition, even when the backlight is turned on again, the backlight is turned off when the set time elapses again. Therefore, it is necessary to operate the operation keys of the liquid crystal remote controller a plurality of times to turn on the backlight.
[0023]
In addition, there is a problem that the user feels uncomfortable in the visibility of the liquid crystal display of the liquid crystal remote controller during the daytime when the backlight of the liquid crystal remote controller is unnecessary, when the backlight is lit and when the backlight is off.
[0024]
In addition, for users who frequently adjust the volume and change the sound quality effect by operating the operation keys on the LCD remote control during music playback, the result of switching the volume and sound quality is checked by hearing. Although the backlight of the liquid crystal remote control is not necessary, as described above, the conventional mobile phone with the liquid crystal remote control is lit for several seconds in conjunction with the key operation. There was a problem.
[0025]
In the prior art described in Patent Document 1, the confirmation sound generated at the time of on-hook dialing in a push-button telephone can be switched to “key touch sound”, “piper sound”, or “mute”. However, since the lighting state of the backlight of the liquid crystal display is not switched, the visibility of the liquid crystal display unit cannot be improved and the battery capacity consumption cannot be reduced.
[0026]
In the prior art described in Patent Document 2, in the cellular phone, all button switches can be electrically enabled / disabled. However, when disabled, the liquid crystal can be operated even if the button switch is operated. The backlight of the display is not turned on, and the visibility of the liquid crystal display deteriorates. When enabled, there is a problem that the backlight is turned on every time the button switch is operated, which is disadvantageous in terms of battery capacity consumption. .
[0027]
In view of the above points, the present invention provides an electronic device with a liquid crystal remote controller that can switch the backlight lighting state of the liquid crystal remote controller according to the situation, improve the visibility and usability of the liquid crystal display contents, and reduce the battery capacity consumption. An object is to provide an electronic device with a remote control.
[0030]
[Means for Solving the Problems]
  In order to achieve the above object, the present invention provides an electronic device with a liquid crystal remote control comprising a main device and a liquid crystal remote control for operating the main device as a remote control, wherein the liquid crystal remote control includes a liquid crystal display unit and the liquid crystal display unit. A backlight that illuminates from the back, an operation unit that includes an operation key for remote-controlling the main device, and receives data transmitted from the main device and displays information on the liquid crystal display based on the data. With a liquid crystal remote controller having a remote control unit that turns on / off a backlight, and the main body device has a main body control unit that transmits the data to the remote control unit in response to a key input of the operation key of the operation unit In electronic devices,The operation of the main device with the operation key is enabled, the hold-off always lighting mode in which the backlight is always turned on, the hold-off always-off mode in which the backlight is always turned off, and predetermined from when the operation key is operated. Hold-off auto mode for turning on only for a predetermined period, and hold-on auto mode for turning off the operation of the main device by the operation key and turning on the backlight for a predetermined period after the operation key is operated. eitherA switch for selecting a mode is provided in the operation unit, and the main body control unit transmits data to the remote control unit so as to turn on / off the backlight according to the mode selected by the switch. The operation of the main device by the operation key is made valid / invalid according to the mode selected by the switch.
[0031]
In this case, there is no need to separately provide a switch for switching the backlight lighting state of the liquid crystal remote controller and a hold switch for enabling / disabling operation of the main device by the operation keys of the liquid crystal remote controller. Space saving and downsizing. Further, the cost can be reduced.
[0040]
  Also,The present inventionAn electronic device with a liquid crystal remote controller comprising a main device and a liquid crystal remote controller for remotely controlling the main device, wherein the liquid crystal remote controller includes a liquid crystal display unit, a backlight for illuminating the liquid crystal display unit from the back, and the main device An operation unit having an operation key for operating the remote controller, and a remote control unit for receiving data transmitted from the main device, displaying information on the liquid crystal display unit based on the data, and turning on / off the backlight And the main body device has a main body control unit that transmits the data to the remote control unit in response to a key input of the operation key of the operation unit. The backlight is turned on before data for scrolling display of the information on the liquid crystal display unit is transmitted to the remote control unit. The data is transmitted to the remote control unit, and the data for terminating the scroll display of the information is transmitted to the remote control unit, and then the data for turning off the backlight is transmitted to the remote control unit. Turn on the backlight while scrolling.In addition, the operation of the main device by the operation key is enabled, the hold-off constantly lighting mode in which the backlight is always turned on, the hold-off always-off mode in which the backlight is always turned off, and a predetermined time from when the operation key is operated. A hold-off auto mode that is lit only for a predetermined period and while the information is scroll-displayed on the liquid crystal display unit, and invalidating the operation of the main device by the key operation of the operation key, and the backlight A switch for selecting any one of a hold-on auto mode that is lit only for a predetermined period from when the operation key is operated and while the information is scroll-displayed on the liquid crystal display unit is provided on the operation unit. Provided, and the main body control unit controls the bar according to the mode selected by the switch. Data to perform ON / OFF of a scaling and transmits to the remote control unit, is obtained by the enable / disable operation of the main device by the operation key in response to the mode selected by the switch. Thus, the backlight can be automatically turned on while the information is scroll-displayed on the liquid crystal display unit.
[0043]
In this way, the backlight lighting state of the liquid crystal remote controller is always lit by the user's selection, is always lit off, and the information is scroll-displayed on the liquid crystal display unit for a predetermined period from when the operation key is operated. Since there is no need to separately provide a switch for switching to a lit state for a period during which it is lit, and a hold switch for enabling / disabling the operation of the main device with the operation keys of the liquid crystal remote control, space saving of the liquid crystal remote control And downsizing. Further, the cost can be reduced.
[0045]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an electrical configuration of a mobile phone with a liquid crystal remote controller according to a first embodiment of the present invention.
[0046]
In FIG. 1, the same parts as those in FIG. The difference from the mobile phone with a liquid crystal remote controller shown in FIG. 6 is that a backlight switch SW11 and voltage dividing resistors R10 to R12 are provided in the operation unit 5 of the liquid crystal remote controller 1. The backlight switch SW11 has four contacts, contacts a, b, c, and d. A position where the contact A and the contact b are short-circuited always turns on the LED 42. A backlight auto mode for instructing the always-on mode and causing the B position where the contact b and the contact c are short-circuited to turn on the LED 42 for a predetermined period after any of the operation keys SW1 to SW7 is operated. The position C, where the contact c and the contact d are short-circuited, instructs the backlight normal extinguishing mode in which the lighting state of the LED 42 is always extinguished.
[0047]
One end of the voltage dividing resistor R10 is connected to the connection point between the voltage dividing resistor R6 and the operation key SW7, and the other end of the voltage dividing resistor R10 is connected to the contact a and one end of the voltage dividing resistor R11. The other end of the voltage dividing resistor R11 is connected to the contact c, and the contact d is connected to the GND terminal 35 via the voltage dividing resistor R12. Further, the contact b is directly connected to the GND terminal 35.
[0048]
With this configuration, when the operation keys SW1 to SW7 are not operated in the backlight continuous lighting mode in which the backlight switch SW11 is in the A position, the combined resistance value of the series circuit of the voltage dividing resistors R1 to R6 and R10 The power supply voltage V (V) of the mobile phone body power supply 7 is divided by the pull-up resistor R0 of the mobile phone device body 2. The divided DC voltage value is converted into a digital numerical value by the A / D converter 84 in the main body CPU 8 and given to the main body core CPU 82. That is, a digital numerical value corresponding to the position A of the backlight switch SW11 is given to the main body core CPU 82.
[0049]
The main body core CPU 82 performs polling, which is one of the methods for checking an event that occurs asynchronously, in the same manner as when the operated operation key described above is discriminated. The number of digital conversion values is detected respectively. The digital conversion value (predetermined predetermined value) corresponding to each switch position of the backlight switch SW11 of the liquid crystal remote controller 1 set by the software of the main body CPU 8 and the detected continuous digital conversion value and the number of times Is determined in the comparison determination process to determine that the backlight switch SW11 is in a position for instructing the backlight continuous lighting mode at the A position, and this is stored. The reason for storing is that when the operation keys SW1 to SW7 are operated, the divided DC voltage value changes to a divided voltage corresponding to the operated operation key.
[0050]
Then, after determining that the backlight switch SW11 is at the A position, data for turning on the backlight is transmitted to the remote control CPU 43 by serial data communication via the UART 81. The remote control core CPU 46 of the remote control CPU 43 receives this data via the UART 45, and based on this data, sets the LED control terminal 49 to the L potential and turns on the LED 42. Then, the main body core CPU 82 does not perform a comparison and coincidence operation between the current time data of the RTC 83 and the set time data stored in the RAM 85, and the LED 42 continues to be lit.
[0051]
Next, in the backlight auto mode in which the backlight switch SW11 is in the B position, when the operation keys SW1 to SW7 are not operated, the combined resistance value of the series circuit of the voltage dividing resistors R1 to R6, R10 and R11 and the mobile phone The power supply voltage V (V) of the mobile phone main body power supply 7 is divided by the pull-up resistor R0 of the device main body 2. The divided DC voltage value is converted into a digital numerical value by the A / D converter 84 in the main body CPU 8 and given to the main body core CPU 82. That is, a digital numerical value corresponding to the B position of the backlight switch SW11 is given to the main body core CPU 82.
[0052]
The main body core CPU 82 determines and stores that the backlight switch SW11 is in a position instructing the backlight continuous lighting mode at the B position by comparing the digital numerical values in the comparison determination processing described above. Thereafter, when the operation keys SW1 to SW7 are operated, the divided DC voltage value is changed to a divided voltage corresponding to the operated operation key, so that it is detected that the operation key is operated. At this time, data for turning on the backlight is transmitted to the remote controller CPU 43 by serial data communication via the UART 81. The remote control core CPU 46 of the remote control CPU 43 receives this data via the UART 45, and based on this data, sets the LED control terminal 49 to the L potential and turns on the LED 42. Then, the main body core CPU 82 sends data for turning on the backlight, and then performs a comparison and coincidence operation between the current time data of the RTC 83 and the set time data stored in the RAM 85, and the set time (for example, 3 seconds) has elapsed. Then, serial data communication is performed again, and data for turning off the backlight is transmitted. The remote control core CPU 46 of the remote control CPU 43 receives this data via the UART 45, and based on this data, sets the LED control terminal 49 to the H potential and turns off the LED 42.
[0053]
Next, when the backlight switch SW11 is at the C position in the backlight always-off mode, it is carried by the combined resistance value of the series circuit of the voltage dividing resistors R1 to R6 and R10 to R12 and the pull-up resistor R0 of the mobile phone device body 2. The power supply voltage V (V) of the telephone main body power supply 7 is divided. The divided DC voltage value is converted into a digital numerical value by the A / D converter 84 in the main body CPU 8 and given to the main body core CPU 82. That is, a digital numerical value corresponding to the C position of the backlight switch SW11 is given to the main body core CPU 82.
[0054]
The main body core CPU 82 determines and stores that the backlight switch SW11 is in a position for instructing the backlight constant extinguishing mode at the C position by comparing the digital numerical values in the comparison determination process described above. Thereafter, data for turning off the backlight is sent to the remote control CPU 43 by serial data communication via the UART 81. The remote control core CPU 46 of the remote control CPU 43 receives this data via the UART 45, and based on this data, sets the LED control terminal 49 to the H potential and turns off the LED 42. Then, the main body core CPU 82 does not perform the comparison and matching operation between the current time data of the RTC 83 and the set time data stored in the RAM 85, and the LED 42 continues to be turned off.
[0055]
In this way, the backlight lighting control of the liquid crystal remote controller 1 is performed. In this way, when a long message mail is displayed when the backlight is turned on at night or the like, the backlight switch SW11 is switched to the A position so that the backlight is always lit. As a result, the long mail can be viewed with continuous contents to the end without performing key operations of other operation keys.
[0056]
In addition, in the daytime when the backlight of the liquid crystal remote controller is not required, when the user feels uncomfortable with the visibility of the liquid crystal display of the liquid crystal remote controller between when the backlight is lit and when the backlight is turned off, the backlight switch SW11 is set to the A position or By switching to the C position and always turning on or off the backlight, the visibility of the liquid crystal display of the liquid crystal remote controller can be made constant.
[0057]
In addition, when you play music, you can adjust the volume, change the sound quality effect, etc. with your audibility, so it is not necessary to turn on the backlight of the LCD remote control according to the operation of the operation keys. If the liquid crystal display can be sufficiently confirmed even if it is not, the battery capacity consumption can be reduced by switching the backlight switch SW11 to the C position and always turning off the backlight.
[0058]
In addition, by switching the backlight switch SW11 to the B position, when the backlight is necessary for visually recognizing the liquid crystal display, the backlight of the liquid crystal remote controller is lit only for a predetermined period after the operation key is operated, and the battery capacity is consumed. Can be reduced. In addition, the number of input circuits and the like increase according to the number of contacts between the operation keys SW1 to SW7 and the backlight switch SW11, and the circuit scale does not increase.
[0059]
Usually, since the operation keys SW1 to SW7 are exposed on the surface of the liquid crystal remote controller 1, the mobile phone body 2 may be operated against the user's will when the operation keys touch something. In order to prevent this, normally, the liquid crystal remote controller 1 of the mobile phone with a liquid crystal remote controller as shown in FIG. 1 has a hold switch for switching the operation of the mobile phone body 2 by the operation of the operation keys SW1 to SW7 of the liquid crystal remote controller 1 between valid / invalid. Is provided. Next, an example of a backlight switch that also serves as such a hold switch will be described.
[0060]
FIG. 2 is a block diagram showing an electrical configuration of the mobile phone with a liquid crystal remote controller according to the second embodiment of the present invention. In FIG. 2, the same parts as those in FIG. 1 is different from the mobile phone with a liquid crystal remote controller shown in FIG. 1 in that the voltage dividing circuit portion including the backlight switch 11 and the voltage dividing resistors R10 to R12 of the operation unit 5 is different from the backlight switch 12 and the voltage dividing resistors R20 to R23. It is the point comprised from these.
[0061]
The backlight switch SW12 has five contacts e, f, g, h, and i, and the D position where the contact e and the contact f are short-circuited indicates the lighting state of the LED 42 by the operation keys SW1 to SW7. Lights only for a predetermined period from any operation, instructs the hold-on auto mode to invalidate the operation of the mobile phone body 2 by operating the operation keys SW1 to SW7, and short-circuits the contact f and g The position E turns on the LED 42 for a predetermined period after any of the operation keys SW1 to SW7 is operated, and enables the operation of the mobile phone body 2 by the operation of the operation keys SW1 to SW7. Indicates the hold-off auto mode.
[0062]
Further, the F position at which the contact g and the contact h are short-circuited always turns off the lighting state of the LED 42, and a hold-off always-off mode for enabling the operation of the mobile phone body 2 by operating the operation keys SW1 to SW7. The G position for instructing and short-circuiting the contact h and the contact i makes the lighting state of the LED 42 always lit, and the hold-off steadily lighting mode that enables the operation of the mobile phone body 2 by the operation of the operation keys SW1 to SW7. Instruct.
[0063]
FIG. 3 is a diagram showing the relationship between the switch position of the backlight switch SW12 described above, the backlight lighting control function, and the hold function. In FIG. 3, the ellipse portion in which the vertical line is drawn is an image of the slide portion of the slide switch, and the black circle portion indicates the switch positions of D to G. By sliding the oval part to the black circle part, the state of the contact inside the switch is switched as described above, and the backlight lighting control mode and the hold valid / invalid are switched.
[0064]
In FIG. 2, one end of the voltage dividing resistor R20 is connected to a connection point between the voltage dividing resistor R6 and the operation key SW7, and the other end of the voltage dividing resistor R20 is connected to the contact e and one end of the voltage dividing resistor R21. The other end of the voltage dividing resistor R21 is connected to the contact g and one end of the voltage dividing resistor R22, and the other end of the voltage dividing resistor R22 is connected to the contact i. Further, the contact h is connected to the GND terminal 35 via the voltage dividing resistor R23, and the contact f is directly connected to the GND terminal 35.
[0065]
With such a configuration, when the operation keys SW1 to SW7 are not operated, and in the hold-on auto mode in which the backlight switch SW12 is in the D position, the series circuit of the voltage dividing resistors R1 to R6 and R20 is synthesized. The resistance value and the pull-up resistor R0 of the mobile phone device body 2 divide the power supply voltage V (V) of the mobile phone body power supply 7, and in the hold-off auto mode at the E position, the voltage dividing resistors R1 to R6, R20 The power supply voltage V (V) of the mobile phone main body power supply 7 is divided by the combined resistance value of the series circuit R21 and the pull-up resistor R0 of the mobile phone device main body 2.
[0066]
When the operation keys SW1 to SW7 are not operated and the backlight switch SW12 is in the F position and in the hold-off constantly extinguishing mode, the series circuit of the voltage dividing resistors R1 to R6, R20, R21, and R23 is used. The combined resistance value and the pull-up resistor R0 of the mobile phone device body 2 divide the power supply voltage V (V) of the mobile phone body power supply 7, and in the hold-off constant lighting mode at the G position, the voltage dividing resistors R1 to R6 The power supply voltage V (V) of the mobile phone body power supply 7 is divided by the combined resistance value of the series circuit of R20 to R23 and the pull-up resistor R0 of the mobile phone device body 2.
[0067]
These divided DC voltage values are converted into digital numerical values by the A / D converter 84 in the main body CPU 8 and given to the main body core CPU 82. That is, a digital numerical value corresponding to the switch position of the backlight switch SW12 is given to the main body core CPU 82.
[0068]
The main body core CPU 82 determines whether the backlight switch SW12 is in the D position to the G position by comparing these digital numerical values in the comparison determination process described above, and stores this. Thereafter, backlight lighting control is performed according to the mode indicated by each switch position.
[0069]
First, when it is determined that the backlight switch SW12 is in the D position or the E position, when the operation keys SW1 to SW7 are operated thereafter, that is, the operation key in which the divided DC voltage value is operated. Therefore, when it is detected that the operation key has been operated, data for turning on the backlight is transmitted to the remote control CPU 43 by serial data communication via the UART 81. The remote control core CPU 46 of the remote control CPU 43 receives this data via the UART 45, and based on this data, sets the LED control terminal 49 to the L potential and turns on the LED 42. Then, the main body core CPU 82 sends data for turning on the backlight, and then performs a comparison and coincidence operation between the current time data of the RTC 83 and the set time data stored in the RAM 85, and the set time (for example, 3 seconds) has elapsed. Then, serial data communication is performed again, and data for turning off the backlight is transmitted. The remote control core CPU 46 of the remote control CPU 43 receives this data via the UART 45, and based on this data, sets the LED control terminal 49 to the H potential and turns off the LED 42.
[0070]
Next, when it is determined that the backlight switch SW12 is in the F position, data for turning off the backlight is transmitted to the remote controller CPU 43 by serial data communication via the UART 81. The remote control core CPU 46 of the remote control CPU 43 receives this data via the UART 45, and based on this data, sets the LED control terminal 49 to the H potential and turns off the LED 42. Then, the main body core CPU 82 does not perform the comparison and matching operation between the current time data of the RTC 83 and the set time data stored in the RAM 85, and the LED 42 continues to be turned off.
[0071]
Next, when it is determined that the backlight switch SW12 is in the G position, thereafter, data for turning on the backlight is transmitted to the remote control CPU 43 by serial data communication via the UART 81. The remote control core CPU 46 of the remote control CPU 43 receives this data via the UART 45, and based on this data, sets the LED control terminal 49 to the L potential and turns on the LED 42. Then, the main body core CPU 82 does not perform the comparison and matching operation between the current time data of the RTC 83 and the set time data stored in the RAM 85, and the LED 42 continues to be lit.
[0072]
The main body CPU 8 performs the backlight lighting control as described above, and according to the switch position of the backlight switch SW12 determined as described above, the main body CPU 8 operates the operation keys SW1 to SW7. Switch between enabling and disabling the operation.
[0073]
The divided voltage generated at the remote control SW detection terminal 36 is divided according to the operated operation key regardless of the switch position of the backlight switch SW12 when any of the operation keys SW1 to SW7 is operated. Therefore, as described above, the operation key operated can be determined by the main body CPU 8. When it is determined that the backlight switch SW12 is in the D position, the main body CPU 8 stores a hold-on mode, that is, a mode for invalidating the operation of the mobile phone main body 2 by operating the operation keys SW1 to SW7. In addition, each operation control such as music playback / stop, call start, call end, etc. according to each operated key is not performed.
[0074]
On the other hand, when it is determined that the backlight switch SW12 is in the E position, the F position, or the G position, the main body CPU 8 enables the operation of the mobile phone main body 2 by the operation of the hold-off mode, that is, the operation keys SW1 to SW7. The mode is stored, and each operation control such as music playback / stop, call start, call end, etc. according to each operated key is performed.
[0075]
As described above, the backlight switch SW12 shown in FIG. 3 having the backlight control function of the liquid crystal remote controller 1 and the hold switch function for enabling / disabling the operation of the mobile phone body 2 by the operation of the operation keys SW1 to SW7 is provided. As a result, the liquid crystal remote controller 1 can be saved in space, reduced in size, and improved in usability.
[0076]
FIG. 4 is a block diagram showing an electrical configuration of a mobile phone with a liquid crystal remote controller according to a third embodiment of the present invention. 4, the same parts as those in FIG. 7 are denoted by the same reference numerals, and the description thereof is omitted. The difference from the mobile phone with a liquid crystal remote controller shown in FIG. 7 is that a backlight switch unit 11 is provided in the operation unit 10 of the liquid crystal remote controller 1.
[0077]
The backlight switch unit 11 shown in FIG. 4 switches the backlight lighting control mode of the liquid crystal remote controller 1 such as the backlight switch SW11 shown in FIG. 1 or the backlight switch SW12 shown in FIG. It has a changeover switch to be disabled. Then, the switch input of the changeover switch is input to the remote control CPU 43 together with the key input of other operation keys of the operation unit 10, and is transmitted from the remote control CPU 43 to the main body CPU 8 by serial data communication. Note that a matrix circuit may be assembled with this changeover switch and other operation keys and then input to the remote control CPU.
[0078]
With such a configuration, by switching the change-over switch of the backlight switch unit 11 shown in FIG. 4, the backlight is always lit, always turned off, and operated in the same manner as the mobile phone with a liquid crystal remote controller shown in FIGS. It is possible to switch the auto lighting to light only for a predetermined period after the key operation. The remote controller CPU 43 captures the operation key and the changeover switch information, sends the key and switch information to the main body CPU 8 by UAAT communication, and selects the operation key and changeover switch operated by the main body CPU 8. Is determined, data is sent to the remote control CPU 43, and the remote control core CPU 46 turns on / off the LED 42. Further, in the case of having a switch for switching the backlight lighting control mode of the liquid crystal remote controller 1 and enabling / disabling the hold function, such as the backlight switch SW12 shown in FIG. The operation of the main body 2 can be switched between valid / invalid.
[0079]
Thus, the same effects as those of the mobile phone with a liquid crystal remote controller shown in FIGS. 1 and 2 can be obtained, and the remote control SW detection terminal 36 of the plug portion 3 shown in FIGS. 1 and 2, the pull-up resistor R0, and the main body The A / D converter 84 of the CPU 8 becomes unnecessary. Further, it is not necessary to newly provide a signal transmission path such as wiring for individually transmitting the key input of the operation key of the liquid crystal remote controller 1 and the contact input of the backlight switch to the mobile phone body 2.
[0080]
Next, a description will be given of an embodiment in which the user controls lighting of the backlight in the liquid crystal remote controller by key input of the mobile phone main body. FIG. 5 is a block diagram showing an electrical configuration of a mobile phone with a liquid crystal remote controller according to a fourth embodiment of the present invention. In FIG. 5, the same parts as those in FIG. The difference from the mobile phone with a liquid crystal remote control shown in FIG. 6 is that a setting unit 9 for setting the time is provided in the mobile phone body 2. The set time set by the setting unit 9 is stored in a RAM (storage unit) 85 in the main body CPU 8. Note that the setting unit 9 may use a key input unit such as a numeric key that a mobile phone normally has.
[0081]
The setting time set by the setting unit 9 includes an automatic ON setting time when the LED 42 which is the backlight of the liquid crystal remote controller is automatically turned on when the setting time is reached, and an automatic OFF setting where the LED 42 is automatically turned off when the setting time is reached. For example, since it is difficult for the user to see the liquid crystal display at night, if the automatic ON setting time is set at 6:00 in the evening (18:00), the backlight of the liquid crystal remote control is automatically turned on at 6:00 in the evening To do. In addition, since the liquid crystal display can be seen sufficiently even in the daytime without a backlight, setting the automatic OFF setting time at 6:00 am (6:00) will automatically turn off the backlight after 6:00 am and The battery consumption of the main body 2 is suppressed.
[0082]
Further, at the set time set by the setting unit 9, the LED 42 is lit only for a predetermined period after the set time or during the two set times from when the operation keys SW1 to SW7 of the liquid crystal remote controller 1 are operated. There is an automatic auto set time when the auto mode is set, for example, an auto set time when the auto mode is set at 6 o'clock in the evening (18:00), and the auto mode is canceled at 6 o'clock in the morning (6:00). When the out setting time is set, during the time period when the LCD display is difficult to see from 6pm to 6am, the backlight turns on for a predetermined period when the operation key is operated, from 6am to 6pm. During the time period when the liquid crystal display is sufficiently visible even without the backlight, the backlight is always turned off to suppress battery consumption of the mobile phone body 2.
[0083]
The backlight lighting control operation of the liquid crystal remote controller 1 based on these set times is performed by inputting the automatic ON time, automatic OFF time, and automatic auto time into the RAM 85 of the main body CPU 8 when the automatic ON time, automatic OFF time, and automatic automatic time are input by the setting unit 9 of the cellular phone body 2 Time data is input, and the set time data and the current time data from the RTC 83 are compared by the main body core CPU 82, so that when the set time data matches the current time data, the main body CPU 8 sends the UART serial data to the remote control CPU 43. Data is sent by communication, and based on this received data, the remote control core CPU 46 controls the LED control terminal 49 to automatically control turning on / off of the LED 42 of the liquid crystal backlight.
[0084]
In this way, the backlight lighting control of the liquid crystal remote controller 1 is performed. In this way, even if a long message mail is displayed when the backlight is turned on at night or the like, the automatic ON setting time is set to the time when the backlight needs to be turned on (for example, evening By setting it to 6 o'clock), when the backlight needs to be turned on at night, etc., the backlight is turned on at all times, so that the long mail can be continued to the end without any other key operation. Can be seen in the contents.
[0085]
Also, during the daytime when the backlight of the liquid crystal remote control is not required, if the user feels uncomfortable with the visibility of the liquid crystal display on the liquid crystal remote control between when the backlight is lit and when the backlight is turned off, the automatic OFF setting time is turned on. By setting the time at which the display becomes unnecessary (for example, 6:00 am) and always turning off the backlight, the liquid crystal display visibility of the liquid crystal remote controller can be made constant.
[0086]
In addition, when you play music, you can adjust the volume, change the sound quality effect, etc. with your audibility, so it is not necessary to turn on the backlight of the LCD remote control according to the operation of the operation keys. If the liquid crystal display can be sufficiently confirmed even if it is not, the battery capacity consumption can be reduced by setting the automatic OFF setting time to a time at which the backlight does not need to be turned on and always turning off the backlight.
[0087]
In the mobile phone with a liquid crystal remote control shown in FIG. 7, it goes without saying that the same effect can be obtained even if the setting unit 9 is provided and the same control as described above is performed.
[0088]
Next, in the mobile phone with a liquid crystal remote control of the first to fourth embodiments described above, when information is scroll-displayed on the liquid crystal display unit 41 of the liquid crystal remote control 1, the backlight is turned on at the start of display, The backlight lighting control that turns off simultaneously will be described.
[0089]
In FIG. 1, FIG. 2, FIG. 4 and FIG. 5, the cellular phone body 2 displays information such as mail received and stored from other devices on the liquid crystal display unit 41 by operating the liquid crystal remote controller 1. Usually, since the full text of the mail cannot be displayed on the liquid crystal display unit 41, it is sequentially displayed by scroll display. At this time, the main body CPU 8 sends data for turning on the backlight and sends the scroll display of the mail before sending the command data for scroll display together with the mail data to be displayed by UART communication at the start of the scroll display. After transmitting the command data to be terminated, the data for turning off the backlight is transmitted.
[0090]
In this way, when scrolling long text mail, the backlight is turned on at the start of scroll display and can be turned off after the scroll display is finished. You can see long texts with continuous content. Further, the backlight may be turned on while the above-described information is scrolled only in the auto mode in which the backlight is turned on for a predetermined period from when the operation key of the liquid crystal remote controller 1 is operated.
[0091]
Although the present embodiment has been described using a mobile phone with a liquid crystal remote controller, the present invention can be applied to other electronic devices with a liquid crystal remote controller such as a CD player and an MD player with a liquid crystal remote controller. Further, the backlight mounted on the liquid crystal remote controller is not limited to the LED, and may be another illumination device such as an EL panel.
[0093]
【The invention's effect】
  more thanAccording to the present invention,liquidA switch for changing the backlight lighting state of the crystal remote control,liquidIt is not necessary to separately provide a hold switch for enabling / disabling the operation of the main device by the operation keys of the crystal remote control, and the liquid crystal remote control can be saved in space and reduced in size. Further, the cost can be reduced.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electrical configuration of a mobile phone with a liquid crystal remote controller according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing an electrical configuration of a mobile phone with a liquid crystal remote controller according to a second embodiment of the present invention.
FIG. 3 is a diagram showing a relationship among a switch position of the backlight switch shown in FIG. 2, a backlight lighting control function, and a hold function;
FIG. 4 is a block diagram showing an electrical configuration of a mobile phone with a liquid crystal remote controller according to a third embodiment of the present invention.
FIG. 5 is a block diagram showing an electrical configuration of a mobile phone with a liquid crystal remote controller according to a fourth embodiment of the present invention.
FIG. 6 is a block diagram showing an electrical configuration of a conventional mobile phone with a liquid crystal remote controller.
FIG. 7 is a block diagram showing an electrical configuration of another conventional mobile phone with a liquid crystal remote controller.
[Explanation of symbols]
1 LCD remote control
2 Mobile phone body
3 Plug part
5, 10 Operation part
6 Voice input / output
7 Mobile phone power supply
8 Main body CPU (Main body control part)
9 Setting part
11 Backlight switch
31 Power supply terminal
32, 33 Communication terminal
34 Microphone input terminal
35 GND terminal
36 Remote control SW detection terminal
37, 38 Receiver output terminal
41 Liquid crystal display
42 LED (Backlight)
43 Remote control CPU (remote control unit)
44 LCD controller
45, 81 UART
46 Remote control core CPU
47 ROM
48 RAM
61 Microphone
62 Headphone connection jack
82 Core CPU
83 RTC (Real Time Clock)
84 A / D converter (A / D converter)
85 RAM (storage unit)
a, b, c, d, e, f, g, h, i contact
R0 pull-up resistor
R1 to R6, R10 to R12, R20 to R23 Partial resistance
SW1 to SW7 operation keys

Claims (2)

An electronic device with a liquid crystal remote controller comprising a main device and a liquid crystal remote controller for remotely controlling the main device, wherein the liquid crystal remote controller includes a liquid crystal display unit, a backlight for illuminating the liquid crystal display unit from the back, and the main device An operation unit having an operation key for operating the remote controller, and a remote control unit for receiving data transmitted from the main device, displaying information on the liquid crystal display unit based on the data, and turning on / off the backlight Have
In the electronic device with a liquid crystal remote controller, the main device has a main body control unit that transmits the data to the remote control unit in response to a key input of the operation key of the operation unit.
The operation of the main device with the operation key is enabled, the hold-off always lighting mode in which the backlight is always turned on, the hold-off always-off mode in which the backlight is always turned off, and predetermined from when the operation key is operated. Hold-off auto mode for turning on only for a predetermined period, and hold-on auto mode for turning off the operation of the main device by the operation key and turning on the backlight for a predetermined period after the operation key is operated. A switch for selecting one of the modes is provided in the operation unit, and the main body control unit transmits data to the remote control unit so that the backlight is turned on / off according to the mode selected by the switch. And the operation according to the mode selected by the switch. The electronic device with an LCD remote control, characterized by operating the enable / disable the main device by chromatography. An electronic device with a liquid crystal remote controller comprising a main device and a liquid crystal remote controller for remotely controlling the main device, wherein the liquid crystal remote controller includes a liquid crystal display unit, a backlight for illuminating the liquid crystal display unit from the back, and the main device An operation unit having an operation key for operating the remote controller, and a remote control unit for receiving data transmitted from the main device, displaying information on the liquid crystal display unit based on the data, and turning on / off the backlight Have
In the electronic device with a liquid crystal remote controller, the main device has a main body control unit that transmits the data to the remote control unit in response to a key input of the operation key of the operation unit.
The main body control unit transmits data for turning on the backlight to the remote control unit before transmitting data for scrolling display of the information on the liquid crystal display unit to the remote control unit, and scrolls the information. By transmitting data for turning off the backlight to the remote control unit after transmitting data for terminating display to the remote control unit, the backlight is turned on while the information is scroll-displayed ,
The operation of the main device with the operation key is enabled, the hold-off always lighting mode in which the backlight is always turned on, the hold-off always-off mode in which the backlight is always turned off, and predetermined from when the operation key is operated. A hold-off auto mode that is lit only during a predetermined period and while the information is scrolled on the liquid crystal display, invalidates the operation of the main device by the key operation of the operation key, and operates the backlight. A switch for selecting any one of a hold-on auto mode that is lit only for a predetermined period from when the key is operated and while the information is scroll-displayed on the liquid crystal display unit is provided on the operation unit. The main body control unit responds to the mode selected by the switch. Data to perform on / off of the light and transmits to the remote control unit, and wherein the enable / disable operation of the main device by the operation key in response to the mode selected by the switch Electronic device with LCD remote control.

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