JP4191209B2 - Portable terminal device, method of mitigating heat generation by portable terminal device - Google Patents

Description

  The present invention relates to a portable terminal device and a method for mitigating heat generation by the portable terminal device.

  In recent years, mobile terminal devices such as mobile phones have become highly functional, and current consumption tends to increase. In addition, since the mobile terminal device uses a rechargeable battery, there is a scene where charging is performed at the time of high power consumption. In such a scene, there is a demand for a short charging time.

  However, in a mobile terminal device, if the charging current is increased in order to shorten the charging time when the current consumption is high, the heat generated on the substrate may become excessive. Since recent portable terminal devices are becoming thinner, if the heat generated locally on the substrate becomes excessive, the heat is likely to be transmitted to the surface of the portable terminal device.

  When the mobile terminal device generates heat locally as described above, it is of course a problem in terms of safety, but depending on the heat generation location, there is a risk of causing discomfort to the user of the mobile terminal device. For example, when the user of the mobile terminal device makes a call, his / her face is brought close to the operation unit side case, and thus the user may experience discomfort if the operation unit side case generates heat during the call.

Therefore, in the conventional portable terminal device, in order to suppress local heat generation that causes discomfort to the user, a method of stopping charging at a high temperature or a charging current as disclosed in Patent Document 1 Methods have been taken to control the value.
JP 2006-20446 A

  However, among the above-described conventional techniques, the method of stopping charging at a high temperature has a problem that the charging time increases as a result.

  Further, in the method of controlling the charging current value as disclosed in Patent Document 1, the charging current is eventually reduced, resulting in an increase in charging time as a result, and a fixed time. There is a problem that the amount of charge stored in the battery decreases.

  Accordingly, an object of the present invention is to provide a portable terminal device that can suppress local heat generation that causes discomfort to the user without reducing the charging current, and a method for mitigating heat generation by the portable terminal device. It is in.

In order to achieve the above object, the first exothermic mitigation method of the present invention comprises:
A method of mitigating heat generation by a portable terminal device having a rechargeable battery,
Providing a plurality of charging paths for passing a charging current to the rechargeable battery;
When charging the rechargeable battery,
A use state determination step for determining a use state of the mobile terminal device;
On the basis of the use state of the portable terminal device selects a charging path from among the plurality of charging path, have a, and a control step of flowing a charging current to the charging route of said selected,
The control step includes
Selecting a charging path candidate from the plurality of charging paths based on a usage state of the mobile terminal device; and
While a first charging path is selected from the charging path candidates and a charging current is flowing through the first charging path, a temperature in the vicinity of the first charging path is detected, and the temperature is When a threshold is exceeded, selecting a second charging path from among the charging path candidates;
And stopping the flow of a charging current through the first charging path, and flowing the charging current flowing through the first charging path into the second charging path .
According to said structure, since a charge path | route can be changed according to the use condition of a portable terminal device at the time of charge, the discomfort to a user can be decreased. Moreover, since the charging current is continuously supplied to the selected charging path, the charging current does not decrease.
Moreover, according to said structure, since heat_generation | fever can be disperse | distributed, without reducing charging current as a whole, the improvement of safety | security can be aimed at.
In order to achieve the above object, the second exothermic mitigation method of the present invention comprises:
A method of mitigating heat generation by a portable terminal device having a rechargeable battery,
Providing a plurality of charging paths for passing a charging current to the rechargeable battery;
When charging the rechargeable battery,
A use state determination step for determining a use state of the mobile terminal device;
Selecting a charging path from the plurality of charging paths based on a usage state of the mobile terminal device, and flowing a charging current through the selected charging path, and
The control step includes
Selecting a charging path candidate from the plurality of charging paths based on a usage state of the mobile terminal device; and
While the first charging path is selected from the charging path candidates and the charging current is flowing through the first charging path, the temperature in the vicinity of the first charging path is detected. When a threshold is exceeded, selecting a second charging path from among the charging path candidates;
And a step of reducing a charging current flowing through the first charging path and flowing a charging current corresponding to the decreased amount through the second charging path.
According to said structure, since a charge path | route can be changed according to the use condition of a portable terminal device at the time of charge, the discomfort to a user can be decreased. Moreover, since the charging current is continuously supplied to the selected charging path, the charging current does not decrease.
Moreover, according to said structure, since heat_generation | fever can be disperse | distributed, without reducing charging current as a whole, the improvement of safety | security can be aimed at. Furthermore, since the charging current flowing through each charging path decreases, heat generation in each charging path can be suppressed.

  In the use state determination step, when the mobile terminal device is a folding type that opens and closes two housings, the open / close state of the two housings may be determined as the use state of the mobile terminal device. good. In the use state determination step, the operation mode of the mobile terminal device may be determined as the use state of the mobile terminal device.

  As described above, in the present invention, at the time of charging, the usage state determination unit determines the usage state of the mobile terminal device, and the control unit selects one of a plurality of charging paths based on the usage state of the mobile terminal device. Select and let charging current flow.

  Therefore, since the charging path can be changed according to the usage state of the mobile terminal device during charging, local heat generation that causes discomfort to the user can be suppressed. Moreover, since the charging current is continuously supplied to the selected charging path, the charging current does not decrease.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

  FIG. 1 is a diagram illustrating an extracted configuration of the charging unit 1 in the mobile terminal device according to the embodiment of the present invention.

Referring to FIG. 1, the charging unit 1 performs charging through the charging terminal unit 2, and includes a plurality (n) of charging blocks (# 1 to #n) 3 _{1 to} 3 _n and a use state determination. Unit 7, control unit 8, main storage unit 9, and rechargeable battery (charging unit) 10.

  The charging terminal part 2 is a location connected with a charger in a portable terminal device.

The charging blocks (# 1 to #n) 3 _{1 to} 3 _n are arranged at physically separated locations and have equivalent functions. Hereinafter, the configuration of the charging blocks (# 1 to #n) 3 _{1 to} 3 _n will be described by taking the charging block (# 1) 3 ₁ as an example.

The charging block (# 1) 3 ₁ includes a temperature detection circuit (# 1) 4 ₁ , a charging current limiting circuit (# 1) 5 _1, and a current monitor circuit (# 1) 6 ₁ .

The charging current limiting circuit (# 1) 5 ₁ has a function of limiting the charging current value flowing through the charging block (# 1) 3 ₁ . The charging current limiting circuit (# 1) 5 ₁ is generally constructed of a semiconductor such as FET. The charging block (# 1) 3 _{1 also} includes a circuit that protects excessive current and voltage from the charging terminal unit 2, but is omitted from FIG. The charging current limiting circuit (# 1) 5 ₁ charging current value is controlled by the control unit 8.

The temperature detection circuit (# 1) 4 ₁ has a function of detecting temperature and outputting temperature information, and is in the vicinity of the charging current limiting circuit (# 1) 5 ₁ and the current monitor circuit (# 1) 6 ₁ . Be placed. The temperature detection circuit (# 1) 4 ₁ is usually composed of an element whose resistance value changes with temperature, an IC whose output voltage changes with temperature, and the like.

The current monitor circuit (# 1) 6 ₁ has a function of monitoring and outputting the charging current value flowing through the charging block (# 1) 3 ₁ . Current monitor circuit (# 1) 6 ₁ is generally constructed from a fixed resistor having a low resistance value, it performs monitoring by converting the current value from the voltage value generated by the current flowing through the fixed resistor.

  The usage state determination unit 7 has a function of determining and outputting the usage state of the mobile terminal device. For example, if the mobile terminal device is a folding type that opens and closes two housings, the use state determination unit 7 determines the open / close state of the housings. In the determination of the open / closed state of the housing, for example, the open / closed state may be determined using a reed switch that is turned on / off by the magnet and the magnetic force of the magnet, or the open / closed state may be determined by turning on / off the micro switch. it can. Further, the use state determination unit 7 determines the operation mode (call mode, mail mode, site browsing mode, etc.) of the mobile terminal device. In the determination of the operation mode, for example, the operation mode can be determined according to the operation content of the operation unit, the activation status of the application software corresponding to each operation mode, or the like.

The control unit 8 monitors the temperature information output from the temperature detection circuits (# 1 to #n) 4 ₁ to 4 _n and the usage state of the mobile terminal device output from the usage state determination unit 7. Based on the function, the usage state of the portable terminal device and the temperature information, the charging current value of each charging block (# 1 to #n) 3 _{1 to} 3 _n is determined and each charging current limiting circuit (# 1 to #n) 5 is determined. A function of controlling _{1 to} 5 _n and a function of monitoring a current value output from each of the current monitor circuits (# 1 to #n) 6 _{1 to} 6 _n in order to determine whether the control is normally performed .

The main storage unit 9 is a place where information for determining control values performed by the control unit 8 is stored in advance. For example, the main storage unit 9 determines whether the charging blocks (# 1 to #n) 3 _{1 to} 3 _n are at a high temperature or not, information on a high temperature set value (threshold) used to determine whether or not the mobile terminal device is in use. It stores information on the charging block to be selected accordingly.

The rechargeable battery (charging unit) 10 is a battery that accumulates electricity. The charging current that has passed through the charging blocks (# 1 to #n) 3 _{1 to} 3 _n is accumulated in the charging battery (charging unit) 10.

  Hereinafter, an operation during charging of the mobile terminal device shown in FIG. 1 will be described with reference to FIGS. 2 and 3.

FIG. 2 is a flowchart for explaining the operation of the mobile terminal device shown in FIG. 1 during charging. FIG. 3 is a diagram for explaining the charging current and the state of heat generation in each of the charging blocks (# 1 to #n) 3 _{1 to} 3 _n shown in FIG.

  First, the use state determination unit 7 determines the use state of the mobile terminal device (step 201). Here, it is assumed that the mobile terminal device is a folding type, and the open / close state and the operation mode of the housing are determined.

Next, the control unit 8 selects a charging block candidate from the charging blocks (# 1 to #n) 3 _{1 to} 3 _n based on the usage state of the mobile terminal device (step 202).

  For example, when the case of the mobile terminal device is open and in the call mode, the user makes a call with the face close to the operation unit side case. However, conversely, it is considered that there is little discomfort to the user even if the back portion of the display unit side body generates heat. In addition, if the casing of the mobile terminal device is closed, it is considered that there is little discomfort to the user even if the closed inner portion, that is, the front portion of the casing, generates heat.

  Therefore, the main storage unit 9 has less discomfort to the user even if it generates heat for each use state of the mobile terminal device (in this embodiment, for each combination of the open / close state of the housing and the operation mode). The information of one or more charging blocks arranged in the portion considered to be stored in advance.

For this reason, the control unit 8 searches the above information stored in the main storage unit 9 in advance using the open / close state and operation mode of the casing of the mobile terminal device as keys. A charging block placed in a place where it is considered that there is little pleasure is selected as a candidate. Here, it is assumed that charging blocks (# 1, # 2) 3 ₁ and 3 ₂ are selected as candidates.

Next, the control unit 8 selects one of the candidate charging blocks (# 1, # 2) 3 ₁ , 3 ₂ (step 203). Note that this selection is arbitrary and may be selected either, here, and selects the charger block (# 1) 3 _1.

Next, the controller 8 turns ON the charging current limiting circuit (# 1) 5 _1, flow the charging current I1 (step 204). Then, the control unit 8, the current monitor circuit (# 1) through 6 ₁ monitors whether the charging current I1 is flowing correctly. At this time, since the other charging current limiting circuits (# 2 to #n) are all OFF, the charging currents I2 to In are all 0.

The amount of heat generated is proportional to the charging current flowing through the charging block. Therefore, the heat generation 1 generated from the charging block (# 1) 3 ₁ through which the charging current I1 flows is large. However, since the charging currents I2 to In are all 0, the heat generation ₂ to _n of the charging blocks (# 2 to #n) 3 _{2 to} 3 _n are all 0. Therefore, only the temperature around charging block (# 1) 3 ₁ rises extremely.

During charging, the control unit 8 monitors the temperature in the vicinity of the charging block (# 1) 3 ₁ through the temperature detection circuit (# 1) 41, sets it in advance, and stores it in the main storage unit 9. It is determined whether or not the temperature is higher than the set value (step 205).

Here, when the temperature in the vicinity of the charging block (# 1) 3 ₁ becomes equal to or higher than the high temperature set value, the control unit 8 changes the charging block through which the charging current flows from the charging block (# 1) 3 ₁ to the charging block ( # 2) Change to 3 ₂ (step 206). That is, the control unit 8, the charger blocks (# 1) 3 ₁ of the charging current limiting circuit (# 1) 5 ₁ OFF the charging block (# 2) 3 ₂ of the charging current control circuit (# 2) 5 ₂ Turn on.

Then, since the charging current I1 flowing through the charging block (# 1) 3 ₁ becomes 0, the heat 1 from the charging block (# 1) 3 ₁ disappears, and the temperature around the charging block (# 1) 3 ₁ decreases. To do. Conversely, the charger blocks (# 2) 3 ₂ Since the charging current flows I2, heating 2 increases, the temperature in the vicinity of the charger blocks (# 2) 3 ₂ rises. However, since the vicinity of the charging block (# 2) 3 ₂ did not generate heat before being turned on, it does not immediately become the high temperature set value set in advance and stored in the main storage unit 9.

Here, the charging current I charged to the rechargeable battery (charging unit) 10 is _expressed by the charging currents I1 to In flowing through the charging blocks (# 1 to #n) 3 _{1 to} 3 _n as shown in the following formula 1. Expressed as a sum.

Charging current I = charging current I1 + charging current I2 +... + Charging current In (Formula 1)
Therefore, even if the charging block through which the charging current flows changes from the charging block (# 1) 3 ₁ to the charging block (# 2) 3 ₂ , the charging current I charged in the charging battery (charging unit) 10 does not change. .

As described above, in the present embodiment, at the time of charging, the usage state determination unit 7 determines the usage state of the mobile terminal device, and the control unit 8 determines the charging block (# 1 to # 1) based on the usage state of the mobile terminal device. #N) A charging block is selected from 3 _{1 to} 3 _n and a charging current is passed.

  Thus, at the time of charge, a user's discomfort can be reduced by changing a charge block according to the use condition of a portable terminal device. Further, since the charging current continuously flows through the selected charging block, the charging current does not decrease.

  Specifically, for example, if the case of the mobile terminal device is in the open state and in the call mode, the back portion of the display unit side housing is considered to have less discomfort to the user even if it generates heat. It can be changed to the charging block arranged in the. In addition, if the casing of the portable terminal device is in a closed state, it is considered that there is little discomfort to the user even if it generates heat. Can be changed to a block.

In addition, since any _{one of} the charging blocks (# 1 to #n) 3 _{1 to} 3 _n is turned on and the others are turned off, charging that flows to the rechargeable battery (charging unit) 10 is performed. The current does not decrease as a whole, and the charging time does not increase. Moreover, heat generation can be dispersed, and safety is improved.

In step 206 described above, the example in which the charging block for supplying the charging current is changed from the charging block (# 1) 3 ₁ to the charging block (# 2) 3 ₂ has been described. In addition to the charging block (# 1) 3 ₁ , a charging block (# 2) 3 ₂ can also be added.

For example, when the temperature in the vicinity of the charging block (# 1) 3 ₁ becomes equal to or higher than the high temperature set value, the control unit 8 turns on the charging current limiting circuit (# 1) 5 ₁ of the charging block (# 1) 3 _1. The charging current control circuit (# 2) 5 ₂ of the charging block (# 2) 3 ₂ is turned on, and the charging current I1 flowing to the charging block (# 1) 3 ₁ is reduced to 1/2 of I to charge. A charging current I2 that is 1/2 of I is supplied to the block (# 2) 3 ₂ .

As a result, the charging current flowing through the charging battery (charging unit) 10 does not change with the charging current I as a whole, but the current flowing through each charging block (# 1, # 2) 3 ₁ , 3 ₂ is halved. Therefore, it is possible to suppress the heat generation of each charging block (# 1, # 2) 3 ₁ , 3 ₂ rather than controlling by ON / OFF as described above.

In other words, when the entire charging blocks (# 1 to #n) 3 _{1 to} 3 _n are viewed, the sum of currents flowing through the charging blocks (# 1 to #n) 3 _{1 to} 3 _n does not change with the charging current I. each charger blocks (# 1~ # n) 3 ₁ at the to 3 _n flowing 0-1 times the charging current of the charging current I, the charger blocks (# 1~ # n) 3 ₁ current flowing in to 3 _n As a result, heat generation can be dispersed and safety is improved.

It is a figure which shows the structure of the charging part in the portable terminal device of one Embodiment of this invention. 3 is a flowchart illustrating an operation during charging of the mobile terminal device shown in FIG. 1. It is a figure explaining the state of the charging current and heat_generation | fever in each charging block shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Charging part 2 Charging terminal part 3 _{1-3 n} charge block (# 1- # n)
4 ₁ to 4 _n temperature detection circuit (# 1 to #n)
5 _{1 to} 5 _n charging current limiting circuit (# 1 to #n)
6 _{1 to} 6 _n current monitor circuit (# 1 to #n)
7 usage state determination unit 8 control unit 9 main storage unit 10 rechargeable battery (charging unit)

Claims (8)

A method of mitigating heat generation by a portable terminal device having a rechargeable battery,
Providing a plurality of charging paths for passing a charging current to the rechargeable battery;
When charging the rechargeable battery,
A use state determination step for determining a use state of the mobile terminal device;
On the basis of the use state of the portable terminal device selects a charging path from among the plurality of charging path, have a, and a control step of flowing a charging current to the charging route of said selected,
The control step includes
Selecting a charging path candidate from the plurality of charging paths based on a usage state of the mobile terminal device; and
While a first charging path is selected from the charging path candidates and a charging current is flowing through the first charging path, a temperature in the vicinity of the first charging path is detected, and the temperature is When a threshold is exceeded, selecting a second charging path from among the charging path candidates;
And a step of stopping the flow of the charging current through the first charging path and the step of flowing the charging current flowing through the first charging path into the second charging path .   A method of mitigating heat generation by a portable terminal device having a rechargeable battery,
  Providing a plurality of charging paths for passing a charging current to the rechargeable battery;
  When charging the rechargeable battery,
  A use state determination step for determining a use state of the mobile terminal device;
  Selecting a charging path from the plurality of charging paths based on a usage state of the mobile terminal device, and flowing a charging current through the selected charging path, and
  The control step includes
  Selecting a charging path candidate from the plurality of charging paths based on a usage state of the mobile terminal device; and
  While a first charging path is selected from the charging path candidates and a charging current is flowing through the first charging path, a temperature in the vicinity of the first charging path is detected, and the temperature is When a threshold is exceeded, selecting a second charging path from among the charging path candidates;
  Reducing the charging current flowing through the first charging path and flowing the reduced charging current through the second charging path. The use state determining step, wherein when the portable terminal device is a folding type for opening and closing the two cases, as the state used in the portable terminal device determines the opening and closing state of the two housings, claim 1 or 2. The exothermic mitigation method according to 2. The heat generation mitigation method according to any one of claims 1 to 3, wherein in the use state determination step, an operation mode of the mobile terminal device is determined as a use state of the mobile terminal device. In a mobile terminal device having a rechargeable battery,
A plurality of charging paths for supplying a charging current to the rechargeable battery;
A charging current limiting circuit that is provided corresponding to each of the plurality of charging paths and limits a charging current flowing through the charging path;
A use state determination unit for determining a use state of the mobile terminal device;
When charging the rechargeable battery, a charging path is selected from the plurality of charging paths based on the usage state determined by the usage state determination unit, and charging is provided corresponding to the selected charging path. A control unit for controlling the current limiting circuit to flow a charging current through the charging path;
A temperature detection circuit that is provided corresponding to each of the plurality of charging paths and detects a temperature in the vicinity of the charging path;
The controller is
When charging to the rechargeable battery, select a charging path candidate from the plurality of charging paths based on the usage state determined by the usage state determination unit,
While a first charging path is selected from among the charging path candidates and a charging current is flowing through the first charging path, a temperature detection circuit provided corresponding to the first charging path is used. When the detected temperature exceeds a threshold, a second charging path is selected from the charging path candidates,
The charging current limiting circuit provided corresponding to the first charging path is controlled to stop the flow of charging current through the first charging path, and provided corresponding to the second charging path. A portable terminal device that controls the charging current limiting circuit to flow the charging current that has flowed through the first charging path to the second charging path .   In a mobile terminal device having a rechargeable battery,
  A plurality of charging paths for supplying a charging current to the rechargeable battery;
  A charging current limiting circuit that is provided corresponding to each of the plurality of charging paths and limits a charging current flowing through the charging path;
  A use state determination unit for determining a use state of the mobile terminal device;
  When charging the rechargeable battery, a charging path is selected from the plurality of charging paths based on the usage state determined by the usage state determination unit, and charging is provided corresponding to the selected charging path. A control unit for controlling the current limiting circuit to flow a charging current through the charging path;
  A temperature detection circuit that is provided corresponding to each of the plurality of charging paths and detects a temperature in the vicinity of the charging path;
  The controller is
  When charging to the rechargeable battery, select a charging path candidate from the plurality of charging paths based on the usage state determined by the usage state determination unit,
  While a first charging path is selected from among the charging path candidates and a charging current is flowing through the first charging path, a temperature detection circuit provided corresponding to the first charging path is used. When the detected temperature exceeds a threshold, a second charging path is selected from the charging path candidates,
  The charging current limiting circuit provided corresponding to the first charging path is controlled to reduce the charging current flowing through the first charging path, and the reduced charging current is supplied to the second charging path. A portable terminal device that controls a charging current limiting circuit provided correspondingly to flow through the second charging path. The use state determining unit, the case the portable terminal apparatus is a foldable type for opening and closing the two cases, as the state used in the portable terminal device determines the opening and closing state of the two housings, claim 5 or 6. The mobile terminal device according to 6 . The mobile terminal device according to any one of claims 5 to 7, wherein the usage state determination unit determines an operation mode of the mobile terminal device as a usage state of the mobile terminal device.

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