JP2872156B2 - Communication mobile terminal - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a portable communication terminal, and more particularly, to a portable communication terminal capable of transmitting and receiving packet data.

[0002]

2. Description of the Related Art A conventional portable communication terminal is configured to perform communication using only one slot per subframe. Therefore, since the transmission / reception time per unit time is short, the load on the wireless unit is low, and the amount of heat generation is small. If the temperature is not controlled or the temperature becomes higher than a preset temperature, the communication is terminated. , The failure was displayed.

[0003]

This conventional communication portable terminal is designed to perform communication using only one slot per sub-frame. Therefore, when communication of a plurality of packet data is performed, heat generation of the radio unit occurs. As a result, the temperature of the communication portable terminal itself becomes high, and there is a problem that a terminal that does not control the temperature may cause a burn to the user of the terminal. In addition, there is a problem that a terminal having a function of detecting a preset temperature displays a failure, and terminates communication despite data to be transmitted.

[0004]

According to the present invention, there is provided a communication portable terminal having a radio section to which power is supplied only when transmitting / receiving packet data to / from a base station. A temperature detection unit for detecting a temperature, and after controlling the radio unit to transmit the first data to the base station with a preset maximum number of continuous time slots, the temperature detected by the temperature detection unit is set to a preset value. In the case of subsequent data transmission when the temperature is exceeded, the maximum continuous time slot number is reduced so that the detected temperature does not exceed the set temperature, or the number of divided time slots is transmitted, or Control means for controlling the radio section so as to transmit data at the maximum number of continuous time slots at predetermined time intervals.

[0005] A communication portable terminal according to the present invention is a communication portable terminal having a radio section to which power is supplied only when transmitting / receiving packet data to / from a base station. Detecting means for controlling the radio section to convert the first data into n (n ≧ 3) packet data to the base station and transmitting the data in n consecutive time slots, and detecting the temperature by the temperature detecting means If the temperature exceeds a preset temperature, the next second data is converted into n packet data, and separated into (n-1) consecutive time slots and one time slot, and transmitted. The wireless unit is controlled so as to convert the r-th data into n packet data when the detected temperature exceeds the set temperature at the time of the next r-th (2 ≦ r <n) data transmission. (Nr) Consecutive time slots and r (r ≦
When the detected temperature does not exceed the set temperature, the wireless unit transmits the data in the same manner as in the case of transmitting the first data in order to transmit the data separately in (n / 2) consecutive time slots. And control means for controlling the

A communication portable terminal according to the present invention is a communication portable terminal having a radio section to which power is supplied only when transmitting / receiving packet data to / from a base station. Detecting means for transmitting the first data by controlling the radio unit to convert the first data into n (n ≧ 3) packet data to the base station and transmit the data in n consecutive time slots; Then, when the temperature detected by the temperature detecting means exceeds a preset temperature, the next r-th (r ≧ 2) data is transmitted to the wireless unit after transmitting a transmission stop control signal to the n packet data. And sends it to the wireless unit to send a transmission restart control signal at the point in time when the detected temperature does not exceed the set temperature.
And control means for controlling the radio unit so as to transmit n packet data of the data in n consecutive time slots.

A communication portable terminal according to the present invention is a communication portable terminal having a radio section to which power is supplied only when transmitting / receiving packet data to / from a base station. Detecting means, timer signal generating means for generating a periodic timer signal in response to a start command,
After transmitting the first data to the base station by controlling the radio unit to convert the first data into n (n ≧ 3) packet data and transmitting it in n consecutive time slots, When the temperature detected by the detecting means exceeds a preset temperature, a transmission stop control signal is transmitted to the radio section, and the timer signal generating means is started to start the first period timer signal. The data of r (≧ 2) is converted into n packet data, transmitted to the radio unit and temporarily stored, and a transmission restart control signal is transmitted to the radio unit at the end of the cycle period of the first periodic timer signal. The wireless unit is controlled to transmit and transmit the n-th packet data of the temporarily stored r-th data in the n consecutive time slots during the period of the second period timer signal. Along with its transmission And a control means for the delivery of the transmission stop signal control signal again the transmission resumption control signal if the sensed temperature is sent does not exceed the set temperature to the radio unit again.

A communication portable terminal of the present invention transmits and receives a plurality of packet data wirelessly via a base station and an antenna and receives power only when transmitting and receiving the packet data. A temperature detecting unit for detecting a heat generation temperature of the memory, a memory for storing a preset allowable upper limit temperature and transmission / reception data, a key input unit for inputting data input and transmission / reception commands, and displaying the transmission / reception data. A display unit, a timer for generating a periodic timer signal for temporarily stopping the transmission of packet data temporarily, and a packet of data from the memory, and the detected temperature from the temperature detection unit and the timer Controlling the transmission / reception unit to control the number of continuous time slots of the packet data to the transmission / reception unit according to the periodic timer signal of And a communication control unit and that.

[0009]

Next, the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing a first embodiment of the present invention, and FIG. 2 shows a first transmission control method for a plurality of packet data based on detected temperature information in the first embodiment. FIG. 3 is a sequence diagram showing a second transmission control method for a plurality of packet data based on the detected temperature information according to the first embodiment.

In FIG. 1, a packet communication portable terminal 1 according to the first embodiment transmits and receives a plurality of packet data wirelessly to and from a base station (not shown) via an antenna 2. A transmission / reception unit 3 for supplying only power, a temperature detection unit 6 for detecting a heat generation temperature of the entire packet communication portable terminal 1, a memory 5 for storing a preset allowable upper limit temperature value and transmission / reception data,
Key input unit 7 for inputting data input and transmission / reception commands
A display unit 8 for displaying transmission / reception data, and a communication control for forming data from the memory 5 into a packet based on the temperature detected by the temperature detection unit 6 at the time of data transmission and performing slot control for the transmission / reception unit 3 Part 4. The transmission / reception unit 3 is controlled so that power is supplied only when transmitting packet data.

Next, the operation of the first embodiment will be described with reference to FIGS.

First, when the communication control unit 4 receives a data transmission request from the memory 5 from the key input unit 7, the data is configured as packet data and transmitted to the transmission / reception unit 3. The transmission / reception unit 3 transmits packet data to the wireless base station via the antenna 2 using an available slot.
The temperature detecting unit 6 periodically monitors the temperature of the packet communication portable terminal 1 and transmits temperature information at that time to the communication control unit 4. The communication control unit 4 that has received the temperature information performs transmission control for preventing heat generation to the transmitting and receiving unit 3 when the temperature information exceeds a preset temperature threshold value read from the memory 5. .

As shown in FIGS. 2 and 3, there are two types of transmission control for heat generation prevention in the first embodiment, and two types are set by setting a plurality of thresholds. It is also possible to combine the methods and use them in stages.

Hereinafter, each transmission control method for preventing heat generation will be described with reference to FIGS. 1, 2 and 3.

In a first transmission control method for preventing heat generation, a method for reducing the number of slots that can be used simultaneously will be described.

Referring to FIG. 2, when the temperature information received from temperature detecting section 6 exceeds a preset temperature threshold, communication control section 4 transmits to transmitting / receiving section 3 the number of slots that can be used simultaneously. Is reduced from 3 to 2.

That is, data a ', b',
The communication control unit 4 that has received c ′ forms the data into packet data a, b, and c and sends it to the transmission / reception unit 3. The transmission / reception unit 3 transmits the packet data a, b, and c to the base station by radio signals in slots 1, 2, and 3, respectively.

The communication control unit 4 determines whether the temperature information received from the temperature detecting unit 6 before sending the next data d ', e', f 'from the memory 5 is a temperature threshold stored in the memory 5 in advance. If it is higher than the value (S11), a slot control signal to use two slots is transmitted to the transmitting / receiving unit 3, and then the packet data d, e, and f are transmitted. The transmitting / receiving unit 3 converts the received packet data d, e, f into packet data d,
After transmitting e in the first and second slots, respectively, the third packet data f is transmitted again in the first slot.

Thereafter, when the temperature information received from the temperature detecting section 6 becomes lower than the preset threshold value, the communication control section 4 reduces the number of slots that can be used simultaneously to three.
Is transmitted to the transmission / reception unit 3.

In the first embodiment, the description has been made on the assumption that the threshold value of the detected temperature is one. However, by providing two threshold values, if the temperature information exceeds the first one of the threshold values, a It is also possible to gradually decrease the number from 3 to 2, and from 2 to 1 when the second threshold is exceeded. As a result, the number of transmission packet data per unit time decreases, and an effect of preventing heat generation can be obtained.

Next, a description will be given of a second transmission control method for preventing heat generation, in which packet data is transmitted once using three slots and then temporarily stopped.

Referring to FIG. 3, once packet data a, b, and c have been transmitted and the temperature information received from temperature detector 6 exceeds a preset temperature threshold (S21), communication control is performed. The unit 4 sends a transmission stop control signal to the transmission / reception unit 3. Upon receiving the transmission stop control signal, the transmission / reception unit 3 transmits a reception busy signal to the wireless base station to temporarily stop transmission, and receives packet data d, e, and f from the communication control unit 4. It is held without transmission to the wireless base station.

Thereafter, when the temperature information received from the temperature detecting unit 6 becomes lower than a preset threshold value stored in the memory 5 (S22), the communication control unit 4 sends a transmission restart control signal. It is sent to the transmission / reception unit 3. The transmission / reception unit 3 that has received the transmission restart control signal transmits a reception ready signal to the base station to restart reception, and transmits the held packet data d, e, and f to the wireless base station.

Next, a second embodiment of the present invention will be described with reference to the drawings.

FIG. 4 is a block diagram showing a second embodiment of the present invention, and FIG. 5 is a sequence diagram showing a transmission control method of a plurality of packet data based on detected temperature information in the second embodiment. It is.

In FIG. 4, the same components as those of the packet communication portable terminal 1 of the first embodiment shown in FIG. There are different requirements. A timer 9 for generating a periodic timer signal for temporarily stopping transmission of packet data periodically, and a transmitting and receiving unit based on the detected temperature from the temperature detecting unit 6 and the periodic timer signal from the timer 9. 3 has a communication control unit 4a that periodically controls packet data slot transmission.

Next, the operation of the packet communication portable terminal 1a according to the second embodiment will be described with reference to FIGS.

In FIG. 5, the communication control unit 4a
Data a ', b', c 'from the packet data a,
When the packet data is transmitted to the transmission / reception unit 3 as b and c, the transmission / reception unit 3 stores the packet data a, b, and c in slots,.
To transmit to the base station.

Next, when the temperature information from the temperature detecting section 6 exceeds the preset temperature threshold value (S31), the communication control section 4a activates the timer 9 and activates the transmitting / receiving section 3.
Sends a transmission stop control signal.

The transmission / reception section 3 which has received the transmission stop control signal transmits a reception busy signal to the base station, and does not transmit the packet data d, e, f from the communication control section 4a to the base station even if it receives the packet data. Hold with.

Upon receiving the preset period timer T ₁ from the timer 9, the communication control unit 4 a sends a transmission restart control signal to the transmission / reception unit 3.

After receiving the transmission restart control signal, the transmission / reception section 3 transmits a reception ready signal to the base station, and then stores the held packet data d, e, f in slots,.
To send.

When receiving the next periodic timer T ₂ , the communication control unit 4 a sends a transmission stop control signal again to the transmission / reception unit 3, whereby the transmission / reception unit 3 again transmits a reception busy signal to the base station. .

Next, when the temperature information received from the temperature detecting unit 6 becomes lower than the preset threshold value stored in the memory 5 (S32), the communication control unit 4a sends a transmission restart control signal. It is sent to the transmitting / receiving unit 3 again. The transmission / reception unit 3 that has received the transmission restart control signal also transmits a reception ready signal to the base station again, and becomes ready for transmission of the next packet data.

Although the packet data transmission control method of the second embodiment has a lower heat generation preventing effect than the second transmission control method of the first embodiment, it performs periodic transmission. Therefore, the entire packet data transmission time can be shortened.

[0037]

As described above, according to the present invention, in a communication portable terminal having a radio section to which power is supplied only when packet data is transmitted / received to / from a base station, the heat generation temperature of the communication portable terminal is detected. A temperature detecting means and a first
After controlling the radio unit to transmit the data of the maximum number of consecutive time slots, if the temperature detected by the temperature detecting means exceeds the preset temperature, the detected temperature will be increased in the case of subsequent data transmission. To reduce the maximum continuous time slot number so as not to exceed the set temperature and transmit it with the divided time slot number, or to transmit the subsequent data transmission with the maximum continuous time slot number at a preset time interval By providing control means for controlling the wireless unit, the communication portable terminal can be prevented from being heated even if packet data is communicated for a long time, so that a failure display is not performed, and the user can manually hold the communication unit for a long time. There is an effect that it is safe even if you have time.

Further, in order to prevent the problem of heat generation, there is an effect that the necessity of cutting off the packet communication by, for example, turning off the power so that the temperature of the communication portable terminal does not rise can be eliminated.

The reason is that, by setting a threshold value of the detected temperature, when the threshold value is exceeded, transmission control for preventing heat generation is performed, so that the temperature does not rise above the threshold value. .

[Brief description of the drawings]

FIG. 1 is a block diagram showing a first embodiment of the present invention.

FIG. 2 is a sequence diagram illustrating a first transmission control method for a plurality of packet data based on detected temperature information according to the first embodiment.

FIG. 3 is a sequence diagram showing a second transmission control method for a plurality of packet data based on detected temperature information according to the first embodiment.

FIG. 4 is a block diagram showing a second embodiment of the present invention.

FIG. 5 is a sequence diagram illustrating a transmission control method of a plurality of packet data based on detected temperature information according to the second embodiment.

[Explanation of symbols]

 1, 1a Packet communication portable terminal 2 Antenna 3 Transmission / reception unit 4, 4a Communication control unit 5 Memory 6 Temperature detection unit 7 Key input unit 8 Display unit

────────────────────────────────────────────────── ─── Continuation of front page (56) References JP-A-5-218886 (JP, A) JP-A-6-85711 (JP, A) JP-A-6-112876 (JP, A) JP-A-7-112 177055 (JP, A) JP-A-9-326749 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) H04B 1/02-1/04 H04B 1/38-1/58 H04B 7/24-7/26 H04Q 7/00-7/38

Claims (5)

(57) [Claims] 1. A communication portable terminal having a wireless unit to which power is supplied only when transmitting and receiving packet data to and from a base station, wherein: a temperature detecting means for detecting a heat generation temperature of the communication portable terminal; After controlling the wireless unit to transmit the first data to the preset maximum number of continuous time slots, if the temperature detected by the temperature detecting means exceeds the preset temperature, the subsequent data transmission To transmit the number of divided time slots by reducing the maximum number of continuous time slots so that the detected temperature does not exceed the set temperature, or to transmit the subsequent data transmission at a predetermined time interval Control means for controlling the radio unit so as to transmit with the maximum number of continuous time slots. 2. A communication portable terminal having a radio section to which power is supplied only when transmitting and receiving packet data to and from a base station, wherein: a temperature detecting means for detecting a heat generation temperature of the communication portable terminal; The wireless unit is controlled so that the first data is converted into n (n ≧ 3) packet data to a station and transmitted in n consecutive time slots, and the temperature detected by the temperature detecting means is set in advance. If the temperature is exceeded, the next second data is converted into n packet data (n-
1) The radio unit is controlled so as to separately transmit the time slots into one continuous time slot and one time slot, and the detected temperature is set to the value at the time of the next r-th (2 ≦ r <n) data transmission. If the temperature is exceeded, the r-th data is converted into n packet data and separated into (n−r) consecutive time slots and r (r ≦ n / 2) consecutive time slots. Control means for controlling the wireless unit to transmit the detected data in the same manner as the transmission of the first data when the detected temperature does not exceed the set temperature. Communication mobile terminal. 3. A communication portable terminal having a radio section to which power is supplied only when transmitting and receiving packet data to and from a base station, wherein: a temperature detecting means for detecting a heating temperature of the communication portable terminal; Controlling the radio unit so that the first data is converted into n (n ≧ 3) packet data to a station and transmitted in n consecutive time slots, and after transmitting the first data, the temperature detection means When the detected temperature exceeds a preset temperature, a transmission stop control signal is sent to the wireless unit, and the next r-th (r ≧ 2) data is converted into n packet data and sent to the wireless unit. The wireless unit transmits a transmission restart control signal at a point in time when the detected temperature does not exceed the set temperature and transmits n packet data of the r-th data in n consecutive time slots. Control Communication portable terminal; and a control unit that. 4. A communication portable terminal having a radio section to which power is supplied only when transmitting / receiving packet data to / from a base station, a temperature detecting means for detecting a heat generation temperature of the communication portable terminal, and a start command. Timer signal generating means for generating a periodic timer signal in response to the first data to the base station,
≧ 3), after controlling the radio section to transmit the first data by transmitting the packet data in n consecutive time slots, the temperature detected by the temperature detecting means exceeds a preset temperature. And transmitting a transmission stop control signal to the radio section and activating the timer signal generating means so that the transmission stop control signal is transmitted during the first period timer signal.
(≧ 2) data is converted into n packet data, transmitted to the radio unit and temporarily stored, and a transmission restart control signal is transmitted to the radio unit at the end of the cycle period of the first periodic timer signal. Controlling the radio unit to transmit n packet data of the temporarily stored r-th data in n consecutive time slots during the period of the second period timer signal; Control means for transmitting the transmission stop signal control signal again after the transmission, and transmitting the transmission restart control signal to the radio unit again if the detected temperature does not exceed the set temperature. Communication mobile terminal. 5. A transmission / reception unit which wirelessly transmits / receives a plurality of packet data via a base station and an antenna and receives power only when transmitting / receiving the packet data, and detects a heat generation temperature of the entire communication terminal. A temperature detection unit, a memory that stores preset allowable upper limit temperature and transmission / reception data, a key input unit that inputs data input and transmission / reception commands, a display unit that displays the transmission / reception data, A timer that generates a periodic timer signal for periodically stopping the transmission of packet data, and a packet formed of data from the memory, and a detected temperature from the temperature detector and a periodic timer signal from the timer. A communication control unit that controls the transmitting / receiving unit to control the number of continuous time slots of the packet data for the transmitting / receiving unit. A communication portable terminal, characterized in that: