JP2970373B2 - Wireless terminal - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication with a base station connected to a center device via a telephone line or the like.
The present invention relates to a wireless terminal device that accesses a center device via a base station and communicates various information.

[0002]

2. Description of the Related Art A radio terminal device of this type is called a teleterminal, and a teleterminal system comprising these teleterminals is configured as shown in FIG. That is, in FIG. 4, 1 is center device, ₂₁ to ₂₄
Is a wireless terminal device which is the base station, 3 ₁ to 3 ₅ are wirelessly connected to the base station ₂₁ to ₂₄ are connected via a line L, such as the center apparatus 1 and the telephone line.

[0003] By the way, such a wireless terminal device 3 has an 8
Communication is performed with the base station 2 at a radio frequency of 00 MHz, and the object to be handled is not a voice signal but a data signal.
Therefore, each person has such a wireless terminal device,
If the message is bidirectionally communicated as a data signal via the center device 1 and displayed on the display of each wireless terminal device, the message can be accurately transmitted to the other party. Therefore, the wireless terminal device can be effectively used for an ordering management system, a maintenance service support system, a construction site information management system, a vehicle dynamics management system, and the like. Further, since this wireless terminal device is portable, a battery is used as a power source, and has a transmission power of 5 W (watt) so that it can be transmitted to a distant place during transmission.

[0004]

As described above, the conventional wireless terminal device requires a large amount of power at the time of transmission, and the temperature inside the device increases with the large amount of generated power. Therefore, there is a problem that a large heat radiating plate is required and the device cannot be downsized.

Accordingly, it is an object of the present invention to reduce the size of the heat radiating plate in the device and make the device compact.

[0006]

SUMMARY OF THE INVENTION In order to solve such a problem, the present invention provides a transmitting unit that consumes a large amount of power when transmitting data, and a heat amount generated based on data transmission of the transmitting unit. and a heat radiating plate for, in the wireless terminal device for transmitting and receiving radio-connected base station and the data, detecting means for detecting a temperature of said heat radiating plate, the transmission unit according to the detection output of the detection means And control means for controlling a data transmission cycle . Also, the present invention
Cycle control means is longer than the period of the predetermined period of data transmission
And a display means for displaying the effect when the control is performed by the user. In addition, the control means responds to the temperature detected by the detection means.
To control the data transmission cycle of the transmission unit in multiple stages
It is.

[0007]

[Function] The temperature of the heat sink is detected when transmitting data.
It is the, circumference of the data transmission of the transmitter in response to the detected temperature
The period is controlled . As a result, since the temperature rise of the heat sink can be suppressed, it is possible to reduce the size of the heat sink.
In addition, the data transmission cycle is set as the temperature of the heat sink rises.
When the control is performed at a cycle longer than the cycle of the above, the fact is displayed to notify the operator of the apparatus. Also send
The data transmission cycle of the communication part has multiple stages according to the detected temperature.
Controlled.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing one embodiment of a wireless terminal device according to the present invention. In this figure, a CPU 31 is provided in the wireless terminal device 3, and an LCD unit 32 for performing various displays and an A / D converter 33 are connected to the CPU 31. Here, the A / D conversion unit 33
The voltage level signal from the touch key section 34 is converted into a digital signal and transmitted to the CPU 31. The touch key portion 34 is formed of a set of resistors, and is formed on the back surface of the LCD unit 32 described above.
When each part on the surface is pressed down, it generates each voltage level signal in the X direction and the Y direction according to the pressed position. These voltage level signals are converted into digital signals by the A / D converter 33 described above. .

The CPU 31 is connected to a buzzer 35 that sounds when an incoming call is received, a clock unit 36, and a modem unit 37. Here, the modem unit 37 sends the data signal from the CPU 31 to the wireless transmission / reception unit 38 and sends the data signal to the base station 2 shown in FIG.
To the base station 2 via the radio transceiver 38.
When a data signal is received from the
31. Also, this wireless terminal device 3
Is a portable type, the battery 39 is used as a power source,
The power control unit 40 converts the output voltage of the battery 39 and supplies it as an output voltage V to each unit of the device. The battery 3
The use time of No. 9 is about 12 hours, and when this time elapses, the battery is charged by the charger 50.

When an operation signal is input from the touch key unit 33 via the A / D conversion unit 34, the CPU 31 performs a predetermined process and displays the processing result on the LCD unit 32. When this display screen is transmitted to, for example, a partner device, after calling the partner device, the display screen data is transmitted to the base station 2 shown in FIG. 4 via the modem unit 37, the wireless transmission / reception unit 38, and the antenna AT. Send as As a result, the display screen data is transmitted to the base station wirelessly connected to the partner device via the base station 2 and the center device 1 in the area of the transmitting device, and further transmitted to a desired partner device for display. . The display screen data transmitted from the partner device is received by the CPU 31 via the antenna AT, the wireless transmission / reception unit 38, and the modem unit 37, and is similarly displayed on the LCD unit 32. In this way, the present apparatus can perform two-way communication of a data signal such as display screen data with a partner apparatus.

By the way, in the transmission output transistor (not shown) of the radio transmission / reception section 38 of the present apparatus, about 5
Since the power of W is consumed and a large amount of heat is generated at the time of transmission, a heat radiating plate 41 is provided in the wireless transmission / reception unit 38 to perform heat diffusion so that the temperature inside the device does not become high. However, in order to prevent the inside of the device from becoming hot, the size of the heat radiating plate 41 needs to be increased, and the device cannot be configured to be small. For this reason, in this embodiment, a thermistor 42 for detecting the temperature is provided on the heat radiating plate 41, and the detected temperature of the thermistor 42 is transmitted to the CPU 31 and
By causing the PU 31 to perform transmission control, it is possible to prevent the temperature inside the device from rising and to make the heat radiation plate 41 smaller.

That is, this type of wireless terminal device 3 is always in a receiving state of receiving a data signal from the base station 2, and when a designated timing signal is received from the base station 2, if there is transmission data, Normally, packet data is transmitted every 150 msec for 50 msec.
However, when transmitting data signals frequently like this,
The amount of heat generated from the wireless transmission / reception unit 38 increases. For this reason, when the output of the thermistor 42 for detecting the temperature of the heat radiating plate 41 becomes, for example, 40 ° C. or more, the CPU 31 reduces the transmission process of the wireless transmitting and receiving unit 38 so as to thin out.
, For example, to perform packet data transmission processing for every 50 msec every 300 msec. At this time, the CPU 31 displays this fact on the LCD unit 32,
Notify the operator of the device.

FIG. 2 is a timing chart showing the state of the transmission timing at which the transmission process is performed in accordance with the temperature of the radiator plate 41. When the temperature of the radiator plate 41 is a low temperature of 39 ° C. or less, the timing chart is the same. As shown in FIG.
The packet data is sequentially transmitted for 50 msec at intervals of 50 msec. When the temperature of the heat radiating plate 41 is a medium temperature of about 40 ° C. to 45 ° C., the packet data is sequentially transmitted for 300 msec intervals for 50 msec as shown in FIG. 2B. When the temperature of the heat sink 41 is 5
In the case of a high temperature of about 0 ° C., as shown in FIG.
The packet data is sequentially transmitted at intervals of 600 msec for 50 msec. When the temperature of the radiator plate 41 is extremely high at about 70 ° C., the packet data is transmitted for 50 msec within the slow polling time as shown in FIG.
The next packet data is transmitted only for sec.

[0014] The slow polling time is a few minutes during which the wireless terminal device 3 is used in a vehicle and the vehicle enters a tunnel and cannot communicate with the base station 2. If no transmission is made from the wireless terminal device 3 even after the elapse of the time, the base station 2 forcibly disconnects the call of the device 3. As described above, by changing the transmission time of the device in accordance with the temperature of the heat sink 41, the temperature of the heat sink 41 can be kept constant and the size of the heat sink 41 can be reduced.

Next, FIG. 3 shows a process of thinning out the transmission processing executed by the wireless terminal device in accordance with the temperature of the radiator plate 41.
4 is a flowchart illustrating an operation of a PU 31. That is, C
The PU 31 detects the temperature of the heat radiating plate 41, and when the temperature is low and becomes “Y” in step ST1, the PU 31 instructs the modem unit 37 to transmit packet data for 50 msec every 150 msec as before. As a result, the wireless transmission / reception unit 38 performs step S based on the control of the modem unit 37.
At T2, the transmission process is performed at the above timing.

As described above, every 150 msec, 50 msec
During the transmission of the packet between c, the temperature of the radiator plate 41 rises, and as a result, the determination of “medium temperature?” in step ST3 becomes “Y”. In this case, the CPU 31 proceeds to step ST4.
And instructs the modem unit 37 to "stop the transmission process once", and displays this at a predetermined location on the LCD unit 32. Then, in the modem section 37, the wireless transmission / reception section 38
50 m in the above 300 msec in step ST2
The transmission process is executed for sec. As a result, the heat sink 4
1 is suppressed from rising. Further, when the temperature of the heat radiating plate 41 further rises and the determination of “high temperature?” In step ST3 becomes “Y”, the CPU 31 instructs the modem unit 37 to “stop transmission processing three times” in step ST4. At the same time, this fact is displayed at a predetermined location on the LCD unit 32. Then, in step ST2, the modem unit 37 transmits 50 msec to the above-mentioned 600 msec in step ST2.
The transmission process is executed only for c.

If the temperature of the radiator plate 41 further rises to an extremely high temperature, the determination in step ST3 is "N".
Becomes In this case, the CPU 31 activates a timer corresponding to the above-mentioned slow polling time in order to further reduce and execute the transmission processing of the wireless transmission / reception unit 38,
At this time, no transmission instruction is given to the modem unit 37. In addition, at a predetermined position of the LCD unit 32, a message that "intermittent transmission is performed because the temperature in the apparatus is rising" is displayed. Then, “5 seconds before slow polling?” In step ST7 and “Decrease to a middle temperature of the radiator plate 41?” In step ST8 are sequentially determined.

If the temperature of the heat radiating plate 41 does not drop to the middle temperature before 5 seconds before the slow polling time and it is determined to be "Y" in step ST7, the CPU 31 instructs the modem unit 37 and in step ST2. The transmission processing for 50 msec is performed by the wireless transmission / reception unit 38. Also, the heat radiating plate 41 must be within 5 seconds before the slow polling time.
Is lower than the medium temperature and if "Y" is determined in step ST8, the process returns to step ST3. And in this case,
Since the determination of “medium temperature?” In step ST3 is “Y”, the processing from step 4 described above is executed.

As described above, the transmission process in the wireless transmission / reception unit 38 is intermittently executed according to the temperature rise in the device, so that the temperature rise can be suppressed and the heat radiation plate 41 can be suppressed.
Can be configured to be small, and thus the device can be downsized.

[0020]

According to the present invention described above, according to the present invention, the transmission unit that consumes a large electric power at the time of transmission is Tsu line data transmission and
When the temperature of the radiator plate provided in the apparatus to come is detected, its
The data transmission cycle of the transmission unit is controlled in accordance with the detected temperature of the radiator plate , for example, the temperature of the heat sink increases.
Since the data transmission cycle is controlled in a long cycle, the temperature rise of the heat radiating plate can be suppressed , and as a result , the size of the heat radiating plate can be made smaller than before, and thus the device can be downsized. Can be configured. Further, when the data transmission cycle is controlled at a cycle longer than the predetermined cycle due to the temperature rise of the heat sink, the fact is displayed to notify the operator of the apparatus.

[Brief description of the drawings]

FIG. 1 is a block diagram showing one embodiment of a wireless terminal device according to the present invention.

FIG. 2 is a timing chart showing a timing at the time of data transmission of the device.

FIG. 3 is a flowchart showing the operation of the above device.

FIG. 4 is a diagram showing a configuration of a teleterminal system to which the above device is applied.

[Explanation of symbols]

1 center device ₂₁ to ₂₄ base stations 3 ₁ to 3 ₅ the wireless terminal device 31 CPU 37 modem unit 38 wireless transceiver 41 radiator plate 42 thermistor AT antenna L1~L4 line

Continuation of front page (58) Fields surveyed (Int.Cl. ⁶ , DB name) H04B 1/02-1/04 H04B 1/38-1/58

Claims (3)

(57) [Claims] 1. A data transmission apparatus comprising: a transmission unit that consumes a large amount of power when transmitting data; and a radiator plate that spreads a heat amount generated based on the data transmission of the transmission unit. in the wireless terminal device that performs transmission and reception, a detecting means for detecting a temperature of the heat radiating plate, and further comprising a control means for controlling the period of data transmission of the transmission unit according to the detection output of the detection means Wireless terminal device. 2. The method according to claim 1, wherein the control unit sets a data transmission cycle longer than a predetermined cycle.
A wireless terminal device comprising a display means for displaying a message when performing control in a cycle . 3. The control device according to claim 1, wherein the control means is configured to control the temperature of the vehicle according to a temperature detected by the detection means.
Controlling the data transmission cycle of the transmitter in multiple stages
A wireless terminal device.