JP5245751B2 - Electronic device, temperature rise control method, program, and recording medium - Google Patents

Description

  The present invention relates to an electronic device that detects contact, a temperature rise control method, a program thereof, and a recording medium.

  In recent years, electronic devices such as mobile phones and audio products have become more multifunctional, and the amount of heat generated inside has increased. At the same time, the miniaturization of the device is also progressing, heat generated inside the electronic device is easily transmitted to the device surface, and the device surface temperature during use of the device is increasing.

  Since these electronic devices are used while being in contact with the user's skin, there has been a problem of causing burns due to an increase in the device surface temperature. In order to solve this problem, for example, a temperature detection circuit is provided, and when the set threshold value is exceeded, control is performed so that the voltage decreases, so that the device temperature does not exceed the limit temperature of burns. The technique to do is disclosed (for example, patent document 1).

  In addition, these electronic devices may be used in contact with the user's skin for a long time. In this case, there is a problem that even if the temperature that causes burns is not reached by contact for a short time, low temperature burns are caused by contact with the skin for a long time.

  In order to solve the above problem, a technique for suppressing an increase in the temperature of the device surface by stopping charging is disclosed. However, in the above technique, there is a problem that the electronic device stops charging even when the user's skin is not in contact with the temperature rising portion due to use of an externally connected device or the like. If the skin is not in contact with the heat-generating part, there is no problem even if the temperature of the device rises above the limit temperature of low-temperature burns, so there is no need to stop charging. Note that the technique disclosed in Patent Document 1 has the same problem as the problem described above.

To solve the above problem, install a touch sensor near the receiver of the mobile phone, determine whether something is touching the touch sensor, and stop charging the mobile phone if any touch is detected The technique to do is disclosed (for example, patent document 2).
JP 2006-230080 A JP 2007-166500 A

  However, in the technique of Patent Document 2, for example, if contact is detected with the touch sensor even for a short time, charging of the mobile phone is stopped even if the surface temperature of the device is relatively low. In other words, long-term skin contact that may cause low-temperature burns cannot be accurately detected, and charging is performed even if the touch sensor is touched for a short period of time or if it touches the touch sensor accidentally. Since it stops, there existed a problem of impairing a user's convenience.

  The present invention has been made in view of such a situation, and an electronic device and a temperature rise control method for accurately detecting a human contact and switching a temperature to be protected when a human contact is detected or not detected An object of the present invention is to provide a program and a recording medium.

The electronic device according to the present invention includes a temperature threshold setting means for setting at least two temperature thresholds inside the device, a temperature detection means for detecting the internal temperature of the device, and a protective contact for detecting contact with a human body. Detection means, temperature threshold switching means for switching the temperature threshold, and comparison means for comparing the internal temperature of the apparatus detected by the temperature detection means with the temperature threshold set by the temperature threshold setting means And a control means for controlling the operation based on the comparison result of the comparison means, and the temperature threshold value switching means detects the contact of the human body for a predetermined time or more by the protective contact detection means, and the protective contact when the detection means has passed a predetermined time after that no longer detect contact of the human body, switching the temperature threshold, the control unit is higher than the internal temperature temperature threshold of the device by the comparing means If it is determined, and performs the operation control of lowering the temperature inside the device.

The temperature rise control method of the present invention detects a temperature threshold setting step for setting at least two temperature thresholds inside the device, a temperature detection step for detecting the internal temperature of the device, and a contact with a human body. The protective contact detection step, the temperature threshold switching step for switching the temperature threshold, and the internal temperature of the apparatus detected by the temperature detection step are compared with the temperature threshold set by the temperature threshold setting step. A comparison step and a control step for controlling the operation based on the comparison result of the comparison step, and the temperature threshold value switching step when the contact of the human body for a certain time or more is detected by the protective contact detection step ; when the predetermined time after the detects no human contact with the protective contact detection step has elapsed, switch temperature threshold, controlling the scan -Up, when the internal temperature of the apparatus by comparison step is determined to be higher than the temperature threshold, and performs the operation control of lowering the temperature inside the device.

The program of the present invention includes a process for setting at least two temperature thresholds inside the apparatus, a process for detecting the internal temperature of the apparatus, a process for detecting contact with the human body, and a process for switching the temperature thresholds. And a process for comparing the internal temperature of the apparatus with a temperature threshold and a process for controlling the operation based on the comparison result of the process to be compared. The process that switches and controls the temperature threshold when a contact is detected and when a certain amount of time has passed after no contact with the human body is detected determines that the internal temperature of the device is higher than the temperature threshold. In such a case, operation control is performed to reduce the temperature inside the apparatus.

  The recording medium of the present invention is a computer-readable recording medium on which the program is recorded.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to improve a user's convenience by detecting the contact of a human body exactly and switching the temperature protected appropriately.

  Hereinafter, examples of embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 shows a schematic function example of the electronic apparatus according to the present embodiment. In this embodiment, a configuration in the case where a mobile phone is applied as an electronic device is taken as an example.

  As shown in FIG. 1, the mobile phone according to the present embodiment includes a touch panel in addition to a configuration necessary to function as a mobile phone such as a radio unit 2, a baseband unit 3, and a CPU (Central Processing Unit) 14. 15, touch panel I / F unit 16, protective contact detection unit 17, timer value 1 18, timer value 2 19, temperature sensor 20, temperature threshold value 1 25, temperature threshold value 2 22, comparator 1 24, comparison A device 221, a gate circuit 23, and a switch circuit 26 are provided.

  The protective contact detection unit 17 serving as a protective contact detection unit detects that the touch state on the touch panel 15 has continued for a certain period of time and that the non-contact state has continued for a certain period of time. The time setting for detecting the contact state is set by a timer value 118, and the time setting for detecting the non-contact state is set by a timer value 219.

  A temperature sensor 20 serving as a temperature detection unit measures the internal temperature of the apparatus. The temperature threshold value 1 25 and the temperature threshold value 2 22 are set by the temperature threshold value setting means in consideration of safety, but the temperature threshold value 1 25 is a temperature value. When a temperature lower than the threshold value 222 is set and the human skin is touched for a long time, a temperature is set so as not to cause low-temperature burns. The temperature threshold 222 sets a temperature at which a burn is not caused by a relatively short contact. Depending on the shape of the device and the position of the temperature sensor, there will be a difference between the temperature of the part in contact with the skin and the temperature detected by the temperature sensor 20, but the temperature threshold value is set in consideration of this difference. .

  Comparator 124 and comparator 221, which are comparison means, compare the temperature detected by temperature sensor 20 with a temperature threshold value. The comparison result is processed by the gate circuit 23 and the switch circuit 26 and then notified to the CPU 14 to perform control for ensuring safety. For example, when the device temperature rises and becomes higher than the temperature threshold set temperature, the CPU 14 as the control means controls the charging / power control unit 28 to stop charging the battery 27 and prevent the device temperature from rising. . There is also a method of turning off the camera 9 and displaying an avatar image during a TV phone to prevent a temperature rise.

  FIG. 2 shows an operation example of the electronic apparatus according to the present embodiment. Hereinafter, the operation example of the present embodiment will be described in detail with reference to the drawings shown in FIGS.

  FIG. 1 is an example of a block diagram of a mobile phone to which the present embodiment is applied, and FIG. 2 is a diagram showing an example of operation timing thereof. FIG. 2 shows an example of the operation state of the mobile phone, and shows the operation when the state changes as follows from the left side of the figure.

  The state (1) indicates a standby state while charging (standby / charging). The state (2) indicates a state in which a videophone call is made while charging (TV phone / charge). State (3) indicates a state in which a voice call is performed while charging (call / charge). The state (4) indicates a standby state while charging (standby / charging). The state (5) indicates a state in which a videophone call is made while charging (TV phone / charge). The state (6) indicates a state in which digital TV recording is started during a TV phone while charging (TV phone / charging / recording). The state (7) indicates a standby state while charging (standby / charging).

  2 are, in order from the top, the set value (SH1) of the temperature threshold value 1, the set value (SH2) of the temperature threshold value 2, the detected temperature (K) of the temperature sensor 20, The output (M) of the comparator 1, the output (L) of the comparator 2, the operating state of the mobile phone, the touch detection (I) that is the output of the touch panel I / F unit 16, and the output of the protective contact detection unit 17. The contact protection detection (J), the output of the gate circuit 23 (N), and the function restriction detection (O) which is the output of the switch circuit 26 are shown.

"State (1)"
The first state is a standby state while charging, and although the temperature rise due to charging is relatively small, the detected temperature (K) of the temperature sensor 20 exceeds the temperature threshold 2 (SH2). Absent. From this state (1), when the user operates the touch panel 15 to make a videophone call, the touch panel I / F unit 16 detects the detection signal (G) of the touch panel 15. Then, the touch detection (I) of the touch panel I / F unit 16 detected by the detection signal (G) changes to the “H” level.

  Here, as shown in FIG. 1, although the mobile phone according to the present embodiment includes the key input unit 13, the mobile phone can be operated by the touch panel 15. It was made by. In addition, since the operation of the touch panel 15 at that time is relatively short, the time for the touch detection (I) to become “H” level is short in the timing chart shown in FIG.

"State (2)"
When the TV phone is connected, current consumption of the wireless unit 2 and the baseband unit 3 increases, so that the device temperature rises and the detected temperature (K) starts to rise. When detected temperature (K) becomes higher than temperature threshold value 2 (SH2), the output of comparator 222 changes to “H” level. When the time further elapses, the temperature rise stops and stabilizes within a certain temperature range, but the temperature threshold value 1 (SH1) is set higher than the temperature of this stable temperature range. The output remains at the “L” level.

  On the other hand, the touch detection (I) is input to the protective contact detection unit 17 and used to generate the touch protection detection (J). The protective contact detection unit 17 uses the timer value 1 setting (T1), the timer value 2 setting (T2), the touch detection (I) from the touch panel I / F unit 16, and the operation clock (H) as input signals for contact. Generate protection detection (J).

  The contact protection detection (J) is “H” level when the touch panel 15 is continuously in contact with the timer value 1 setting (T1) or more for a time longer than the timer value 2 setting (T2). It becomes “L” level in the case of Details of the operation of the protective contact detector 17 will be described later with reference to FIG.

"State (3)"
Next, when the state is changed from the connected state of the videophone (state (2)) to the state of the voice call (state (3)) while being charged by the user operation, the current consumption of the device is reduced from the state (2). The detected temperature (K) also decreases and stabilizes within a certain temperature range. In the case of a voice call, since the face is brought into contact with the mobile phone, the touch signal (I) is in a state where the “H” level continues for a long time. When the time set by the timer value 1 setting (T1) elapses after touching the face, the contact protection detection (J) changes to the “H” level.

  The switch circuit 26 selects the output of the comparator 222 when the contact protection detection (J) is at the “H” level, and selects the output of the comparator 124 when the contact protection detection (J) is at the “L” level. For this reason, when the contact protection detection (J) becomes “H” level, the output of the switch circuit 26 is outputted through the gate circuit 23 to the output (L) of the comparator 222. That is, the switch circuit 26 is also means for switching the temperature threshold value to determine which of the temperature threshold value 1 and the temperature threshold value 2 is used.

  When the contact for the time exceeding the timer value 1 (T1) is detected and the temperature exceeding the set value (SH2) of the temperature threshold 2 is detected, the function limit detection (O) output from the switch circuit 26 is , “H” level. The CPU 14 that has received this function restriction detection (O) controls the operation to be restricted in order to reduce the apparatus temperature. In the present embodiment, the CPU 14 controls the charging / power supply control unit 28 to limit the charging operation, thereby reducing the apparatus temperature. Specifically, the charging is stopped, the heat generation of the charging / power control unit 28 is suppressed, and the temperature of the apparatus is lowered.

  When the apparatus temperature decreases and becomes lower than the set value (SH2) of the temperature threshold value 2, the output (L) of the comparator 2 becomes “L” level, and the output of the gate circuit 23 and the output of the switch circuit 26 also. Changes to “L” level. When the function limit detection (O) becomes the “L” level, the CPU 14 determines that the apparatus temperature has fallen below the set value (SH2) of the temperature threshold 2, and restarts charging again.

  When the apparatus temperature rises again by resuming charging, the output of the comparator 222 becomes “H” level, and the function restriction detection (O) also becomes “H” level. When detecting the “H” level, the CPU 14 stops charging again and performs control to prevent the apparatus temperature from rising. Since the comparator 1 24 and the comparator 2 21 have a hysteresis width in order to stabilize the output, even if the detected temperature (K) falls below the threshold value, the output of the comparator is “ The “H” level will be maintained.

"State (4)"
Next, when the call is disconnected from the state of the voice call while charging (state (3)) and transitioned to the standby state (state (4)), the apparatus temperature decreases and the same temperature as the state (1) above. It stabilizes at. Further, since the user removes his / her face from the mobile phone by disconnecting the call, there is no contact with the touch panel 15 and the touch detection (I) changes to the “L” level.

  After the contact is lost, the contact protection detection (J) changes to “L” level when the timer value 2 setting (T2) elapses, and the output side of the comparator 124 becomes effective as the output of the switch circuit 26. Become.

"State (5)"
Subsequently, when the state transitions to the state of the videophone (state (5)), the apparatus temperature rises again and stabilizes within a certain temperature range that is the same temperature as the state (2).

"State (6)"
Thereafter, the recording time of the digital TV set in advance by the user is reached, and when the recording is started, the video phone, charging, and recording operations are all performed (state (6)). In this state, since the internal current consumption increases compared to the above state (5), the temperature of the device is further increased.

  When the temperature of the device becomes higher than the set value (SH1) of the temperature threshold value 1 as a result of the rise in the device temperature, the output of the comparator 124 becomes “H” level and the output of the switch circuit 26 also becomes “H” level. Change. When the function restriction detection (O) becomes “H” level, the CPU 14 performs the OFF / ON control of the charging / power supply control unit 28 again, and the device temperature exceeds the set value (SH1) of the temperature threshold value 1. Control to not.

"State (7)"
Thereafter, when the videophone is terminated by the disconnection operation, the state shifts to a charging standby state (state (7)) while recording the digital TV, and the apparatus temperature is stabilized at a temperature lower than the temperature threshold value 2.

  FIG. 3 shows a schematic functional configuration example of the protective contact detection unit 17 of the electronic device according to the present embodiment. FIG. 4 shows an operation example of the protective contact detection unit 17 of the electronic device according to the present embodiment. Hereinafter, an operation example of the protective contact detection unit 17 will be described with reference to FIGS. 3 and 4.

  The protective contact detection unit 17 uses the touch detection (I) and the operation clock (H) from the touch panel I / F unit 16 as input signals. Touch detection (I) is delayed by delay circuit 1 (I ′), and touch detection (I) and inversion of the delay signal (I ′) are ANDed by gate circuit 35 to detect the rising edge of touch detection (I). A signal (c) is generated. Further, the fall detection signal (d) of the touch detection (I) is generated by ANDing the inversion of the touch detection (I) and the delay signal (I ′) by the gate circuit 36.

  The counter 1 counts the operation clock (H) while the touch detection (I) is at the “H” level, and the output of the counter 1 is compared with the timer value 1 by the comparator 32. When the output of the counter 1 exceeds the timer value 1, the output of the comparator 1 becomes “H” level, is latched by the D flip-flop (D-FF), and the contact protection detection (J) changes to “H” level. If the contact of the human body is not detected while the counter 1 is counting, the falling detection (d) becomes “H” and the counter 1 is reset and starts counting from 0 again. Therefore, if the human body is not in contact for a time longer than the timer set value 1, the contact protection detection (J) does not become the “H” level.

  Next, a case will be described in which contact with the skin is lost after the contact protection detection (J) becomes “H” level. When the contact protection detection (J) is “H” level and the touch detection (I) is “L”, the output of the gate circuit 34 becomes “H” level, and the counter 2 starts. The output of the counter 2 is compared with the timer value 2 by the comparator 33. When the timer value 2 is exceeded, the output of the comparator 33 becomes “H” level, the D-FF is reset, and the output becomes “L” level. Become. If the human body touches again while the counter 2 is counting, the rising edge detection (c) becomes the “H” level, so the counter 2 is reset and starts counting from 0 again. Therefore, the contact protection detection (J) does not change to the “L” level unless the non-contact state of the human body is maintained for a period longer than the timer set value 2.

  Next, the effect of this embodiment will be described. As shown in FIG. 2, since the voice call state (state (3)) is used with the face in contact with a wide area of the mobile phone, there is a high possibility that the human skin directly touches the heat generating portion. As described above, since the skin is in contact for a long time, an electronic device such as a cellular phone needs to be designed in consideration of low-temperature burns. Therefore, if a temperature threshold value is set and the temperature is exceeded, as shown in the operation example of the present embodiment described above, the function operation such as charging is limited and the temperature of the device is higher than the temperature causing the low temperature burn. Control so that it does not occur.

  On the other hand, mobile phones have various usage states due to diversification of functions. For example, when used away from the face, such as a TV phone or digital TV viewing, the skin does not directly touch the heat generating part. In the present embodiment, contact / non-contact of the human body is detected, and the temperature threshold value is switched depending on whether or not the human body is in contact. Therefore, according to the present embodiment, it is possible to operate without restricting the function in a state where the skin is not directly in contact with the heat generating portion (state (2), state (5)), which improves the convenience for the user. It becomes possible.

  In addition, the finger touch time for menu operations is relatively short and the possibility of low temperature burns is low. For optimal control, skin with a long time that is at risk of low temperature burns. It is necessary to accurately detect the contact. In the present embodiment, as described with reference to FIGS. 3 and 4, accurate detection can be performed by the function of the protective contact detection unit. Therefore, it is possible to accurately control the apparatus temperature.

  In the present embodiment, an example in which two temperature threshold values are set as temperature threshold values has been described. However, the present invention is not limited to this, and two or more temperature threshold values are provided. It is also possible to control the temperature.

  The program for the CPU 14 to execute the processing shown in each timing diagram constitutes a program according to the present invention. As a computer-readable recording medium for recording the program, a semiconductor storage unit, an optical and / or magnetic storage unit, or the like can be used. By using such a program and a recording medium in a system having a configuration different from that of each of the above-described embodiments and causing the CPU to execute the program, substantially the same effect as the present invention can be obtained.

  Although specifically described based on the preferred embodiments, the present invention is not limited to the electronic device, the temperature rise control method, the program, and the recording medium described above, and various modifications can be made without departing from the scope of the invention. It goes without saying that it is possible.

It is a block diagram which shows the example of a schematic function of the electronic device which concerns on this embodiment. It is a timing diagram which shows the operation example of the electronic device which concerns on this embodiment. It is a block diagram which shows the schematic functional structural example of the protection contact detection part of the electronic device which concerns on this embodiment. It is a timing diagram which shows the operation example of the protection contact detection part of the electronic device which concerns on this embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Cell phone antenna 2 Radio part 3 Baseband part 4 Voice CODEC part 5 Receiver 6 Microphone 7 LCD (Liquid Crystal Display)
8 Display Control Unit 9 Camera 10 Display Control Unit 11 Data Memory 12 Program Memory 13 Key Input Unit 14 CPU
15 Touch Panel 16 Touch Panel I / F Unit 17 Protective Contact Detection Unit 18 Timer Value 1
19 Timer value 2
20 Temperature sensor 21 Comparator 2
22 Temperature threshold 2
23 Gate circuit 24 Comparator 1
25 Temperature threshold 1
26 Switch Circuit 27 Battery 28 Charging / Power Supply Control Unit 29 AC / DC Adapter 30 TV Antenna 31 Digital TV Signal Reception Unit 32, 33 Comparator 34, 35, 36 Gate Circuit

Claims (9)

Temperature threshold setting means for setting at least two temperature thresholds inside the apparatus;
Temperature detecting means for detecting the internal temperature of the apparatus;
Protective contact detection means for detecting contact of the human body;
Temperature threshold switching means for switching the temperature threshold;
Comparison means for comparing the internal temperature of the apparatus detected by the temperature detection means with the temperature threshold set by the temperature threshold setting means;
Control means for controlling the operation based on the comparison result of the comparison means,
The temperature threshold value switching means is when the human body contact is detected for a predetermined time or more by the protective contact detection means, and when the predetermined time has elapsed after the protective contact detection means no longer detects human contact. , switching the temperature threshold,
The electronic device according to claim 1, wherein the control unit performs operation control to lower the temperature inside the device when the comparison unit determines that the internal temperature of the device is higher than the temperature threshold value.   2. The electronic device according to claim 1, wherein the temperature threshold value switching means switches to a temperature threshold value having the lowest set temperature when the contact of the human body for a predetermined time or more is detected by the protective contact detection means. apparatus.   The electronic device according to claim 1, wherein the control unit performs control to reduce a temperature inside the device by stopping charging.   4. The electronic device according to claim 1, wherein the temperature threshold setting unit sets at least three temperature thresholds. A temperature threshold setting step for setting at least two temperature thresholds inside the apparatus;
A temperature detecting step for detecting an internal temperature of the device;
A protective contact detection step for detecting human contact;
A temperature threshold switching step for switching the temperature threshold;
A comparison step for comparing the internal temperature of the apparatus detected by the temperature detection step with the temperature threshold set by the temperature threshold setting step;
A control step for controlling the operation based on the comparison result of the comparison step,
The temperature threshold value switching step is performed when the contact of the human body for a predetermined time or more is detected by the protective contact detection step, and when the fixed time has elapsed after the contact of the human body is not detected by the protective contact detection step. , switching the temperature threshold,
In the control step, when the comparison step determines that the internal temperature of the apparatus is higher than the temperature threshold value, the temperature increase control is characterized in that operation control is performed to decrease the internal temperature of the apparatus. Method.   6. The temperature according to claim 5, wherein the temperature threshold value switching step switches to a temperature threshold value having the lowest set temperature when the contact of the human body for a predetermined time or more is detected by the protective contact detection step. Ascent control method. A process of setting at least two temperature thresholds inside the apparatus;
Processing to detect the internal temperature of the device;
Processing to detect human contact;
A process of switching the temperature threshold;
A process of comparing the internal temperature of the device with the temperature threshold;
Processing to control the operation based on the comparison result of the processing to be compared,
The switching process switches the temperature threshold when a human contact for a certain time or more is detected and when a certain time elapses after no human contact is detected ,
The program for controlling performs operation control for lowering the temperature inside the device when it is determined that the internal temperature of the device is higher than the temperature threshold value.   8. The program according to claim 7, wherein the switching process switches to a temperature threshold having the lowest set temperature when contact with a human body for a predetermined time or longer is detected.   A computer-readable recording medium on which the program according to claim 7 or 8 is recorded.

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