JPH06338853A - Radio communication device - Google Patents

Abstract

PURPOSE:To surely execute a data transmission without destroying the data from an external operation terminal in the process by limiting the channel which can be switched by the channel changeover switch of a user operation to only a channel for voice call. CONSTITUTION:By turning on a channel changeover switch 52, a channel (ch) address is made +1. When the (ch) set before the switch 52 is turned on is the (ch) of (ch) number 1, a (ch) address to be set becomes the (ch) address of a (ch) number 2. Therefore, the one which is next read from an EEPROM 22 and for which frequency data is set or not is judged is the contents of the (ch) number 2. If this (ch) number 2 is a null area, the contents is judged as NO and the (ch) address is set to the address of the (ch) number 1. Next, the contents of the (ch) number 1 is read from the EEPROM 22. Therefore, the (ch) which can be switched by the switch 52 can be limited from the head address to the null area address where frequency data is not stored.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication device, and more particularly to a wireless communication device having a voice call channel and a data transmission channel.

[0002]

2. Description of the Related Art FIG. 5 is a block diagram schematically showing a conventional wireless communication device 50. The wireless communication device 50 includes a wireless communication device main body 51, a push button type channel changeover switch 52, a microphone 53, an external operation terminal 54 and the like. The wireless communication device main body 51 includes a CPU 61, E
It is configured to include an EPROM 62, a wireless circuit 64, and the like. The EEPROM 62 is connected to the CPU 61, and C
The PU 61 is connected to the wireless circuit 64. The external operation terminal 54 is connected to the CPU 61 via the serial signal line 63, and also connected to the CP via the channel switching line 54a.
It is connected to the channel switching signal input terminal T _CH of U61. The terminal 52b of the channel changeover switch 52 is connected to the channel changeover signal input terminal T _CH , and the other terminal 52a of the channel changeover switch 52 is grounded. The microphone 53 is a wireless circuit 64
The wireless circuit 64 is connected to the antenna 55.

In the wireless communication device 50 configured as described above, channel switching is performed as follows. In the wireless communication device 50, the EEPROM 62 stores channel setting data for voice communication and data transmission, and the channel is switched in the wireless circuit 64 according to the channel setting data stored in the EEPROM 62.

Channel switching in the radio circuit 64 can be performed either from the channel selection switch 52 or from the external operation terminal 54. (1) The radio circuit 6 is operated by the channel selection switch 52.
When channel 4 is switched When the user operates (presses) the channel switch 52, the channel switch signal is input to the channel switch signal input terminal T _CH of the CPU 61. And
When the CPU 61 receives the channel switching signal, the E
The channel setting data stored at the address indicated by the switching signal is called from the EPROM 62, and the channel of the wireless circuit 64 is switched to the channel indicated by the setting data.

(2) The wireless circuit 6 is operated by the external operating terminal 54.
When the channel is switched in 4, the channel switching signal is input from the external operation terminal 54 to the channel switching signal input terminal T _CH of the CPU 61 through the channel switching line 54a. Then, as in the case of (1), the CPU 61 calls the channel setting data stored in the address indicated by the switching signal from the EEPROM 62, and the channel of the wireless circuit 64 indicates the channel indicated by the information, in this case, data transmission. Channel is switched to.

[0006]

As described in (1) and (2) above, in the wireless communication device 50, the channels of the wireless circuit 64 are switched in parallel both from the channel selection switch 52 and from the external operation terminal 54. Is able to. That is, the external operation terminal 5
4 or from the channel selector switch 52 that can be operated by the user, the channels of the wireless circuit 64 are stored in the EEPROM 62, including not only the channels for voice communication but also the channels for data transmission. You can switch to other channels. Below, channel switch 5
The case of switching the channel of the wireless circuit 64 by 2 will be briefly described.

For example, as shown in FIG.
It is assumed that N channels 64 of ch1 to chN are prepared as channels that can be used by the wireless communication device 50. First, the channel of the wireless circuit 64 is ch1
, The channel number (address) called from the EEPROM 62 sequentially shifts every time the channel changeover switch 52 is operated, and the channel of the wireless circuit 64 becomes c.
The channels are sequentially switched to the channel indicated by the setting data of h1 → ch2 → ch3 → ... chN. Then, after the shift reaches chN, when it is confirmed that the channel information is not stored in the address next to chN, the process returns to ch1 again. That is, by operating the channel changeover switch 52, the user can ch1 to ch1
Circulate N to change channels of the wireless circuit 64 from ch1 to c
It is possible to switch to any channel indicated by the hN setting data.

However, in that case, the following problems occur. If ch1 to ch (N-1) are areas where channel setting data for voice communication is stored, and chN is an area where channel setting data for data transmission are stored, the external operation terminal 54 In the case of transmitting data from, the channel of the wireless circuit 64 is switched to the channel indicated by the chN setting data via the CPU 61. However, as described above, since the user can switch the channel of the wireless circuit 64 to the arbitrary channel indicated by the setting data of ch1 to chN by the channel changeover switch 52, the data can be transmitted from the external operation terminal 54. There is a possibility that the user may erroneously operate the channel changeover switch 52 during transmission to shift to the data transmission channel in order to make a voice call. Then, the data transmitted from the external operation terminal 54 will be broken in the middle. Especially when N = 2, the above-mentioned erroneous operations increase.

The present invention has been made in view of the above problems, and is provided with a channel switching means capable of reliably executing the data transmission without breaking the data transmitted from the external operation terminal on the way. An object is to provide a wireless communication device.

[0010]

In order to achieve the above object, a wireless communication device according to the present invention is a wireless communication device including a voice call channel and a data transmission channel, a channel changeover switch, an external operation terminal, a CPU and the like. In the device, the external operation terminal is connected to the CPU via a serial signal line, and a memory having an area for storing channel setting data is connected to the CPU. A blank area in which no data is set is formed between the address where the data related to the setting of the call channel and the address where the data related to the setting of the data transmission channel is stored, and the blank area is switched by the channel selection switch. The channels that can be used are limited to the voice call channels, and Is characterized in that the channel can be switched by the operation terminal and a channel switching means of any channel stored in the memory.

[0011]

In the wireless communication device having the above structure, channel switching by the channel switch is performed as follows. When the channel changeover switch is operated, the address (= channel number) where the data relating to the channel setting is stored is increased. Then, it is determined whether or not the data related to the channel setting is stored at the updated address.
When data related to channel setting is stored in the updated address, when the channel changeover switch is operated, the address is updated to the next channel number. On the other hand, when the data related to the channel setting is not stored in the up address, that is, when the up address is a blank area, the address is not changed even if the channel selection switch is operated. The address is not updated, and the address returns to the address of channel number 1.

By the way, the blank area is formed between the address where the data relating to the setting of the voice communication channel is stored and the address where the data relating to the setting of the data transmission channel is stored as described above. ing. Therefore, in the case of the wireless communication device having the above configuration, for example, channel number 1 and channel number 2
If the frequency for voice communication is stored in, the channel number 3 is set as a blank area, and the frequency for data transmission is stored in channel number 4, the channels that can be switched by the channel changeover switch are channel number 1 and channel number 2. Limited to voice call channels only.

On the other hand, it is possible to directly specify the address where the setting data of the data transmission channel is stored from the external operation terminal through the serial signal line. To explain using the above example, when data is transmitted from the external operation terminal, a channel switching signal is transmitted from the external operation terminal via the serial signal line to the C
It is input to the PU and the channel number 4 in the EEPROM is directly specified. This makes the channel number 4
The channel of the wireless circuit is switched to the data transmission channel in accordance with the setting data stored in, and the data transmission is executed.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of a wireless communication device according to the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram schematically showing a wireless communication device 10 according to an embodiment. It should be noted that components having the same functions as those of the conventional example are designated by the same reference numerals.

The wireless communication device 10 differs from the conventional wireless communication device 50 shown in FIG. 5 in that the wireless communication device main body 51 is the wireless communication device main body 11 and the CPU 61 is the CP.
The point is that U21, the EEPROM 62 becomes the EEPROM 22, and the channel switching signal line 54a connected from the external operation terminal 54 to the channel switching signal input terminal T _CH of the CPU 61 is deleted in the wireless communication device 10. Other configurations are the same.

The operation of the wireless communication device 10 configured as described above will be described with reference to FIGS. Figure 2 is EEPR
FIG. 6 is a diagram showing a storage area of setting data of a voice call channel and a data transmission channel in the OM 22 in the case of three channels. In the wireless communication device 10, the voice call frequency is stored in the channel number 1 (address A), the data transmission frequency is stored in the channel number 3 (address A + 2), and the frequency is not stored in the channel number 2 (address A + 1). It is a blank area.

Next, the operation of the radio communication device 10 when the channel is switched by the channel switch 52 will be described with reference to FIGS. 2 and 3. In FIG. 3, the wireless communication device 10 is operated by the channel changeover switch 52.
7 is a flowchart showing the operation of the CPU 21 when switching the channel of FIG.

First, at step 1, it is judged whether or not the channel changeover switch 52 is turned on and the channel changeover signal is inputted to the channel changeover signal input terminal T _CH . If it is input to the channel switching signal channel switching signal input terminal T _CH, the process proceeds to Step 2, the channel address chADDR is +1.
Next, in step 3, the content of the channel address which is incremented by 1 in step 2 is read from the EEPROM 22 and it is determined whether or not frequency data is set in the channel address (step 4). If frequency data is set in the channel address, the channel of the wireless communication device 10 is set to the channel indicated by the frequency data. On the other hand, when the frequency data is not set in the blank area of the channel address, the process proceeds to step 5 and the channel address ch
ADDR is set to the start address A. Then, in step 6, the content of the channel address A is read, and the channel of the wireless communication device 10 is the channel number 1
To the voice call channel.

The details of the flow chart described above with reference to FIG. 2 are as follows. When the channel switch 52 is turned on in step 1, the channel address chADDR is incremented by 1 in step 2. At this time, the channel set before the channel selection switch 52 is turned on is the channel number 1
If the channel is No. 2, the channel address set in step 2 is the channel address (A + 2) of channel number 2. Therefore, it is the content of the channel number 2 that is read from the EEPROM 22 in step 3 and is judged in step 4 whether or not the frequency data is set. However, Figure 2
As shown in, the channel number 2 is a blank area. Therefore, NO is determined in step 4. Then, in step 5, the channel address chADDR is set to the address A of the channel number 1, and in step 6, E
The content of address A, that is, the content of channel number 1 is read from the EPROM 22.

As described above, in the radio communication device 10, the channels that can be switched by the channel changeover switch 52 are set to the respective channel numbers from the head address to the address which is a blank area where frequency data is not stored. Voice call channel,
In FIG. 2, channel number 1 and channel number 2
Can be limited to Therefore, if the wireless communication device 10 is used, the user operates the channel changeover switch 52 while data is being transmitted from the external operation terminal 54 to switch to the data transmission channel, and the data transmission channel is being transmitted. It is possible to prevent the data from being broken, and it is possible to reliably execute the data transmission.

Next, the operation of the radio communication device 10 when the channel is switched by the external operation terminal 54 will be described with reference to FIG. FIG. 4 shows the external operation terminal 5
4 is a flowchart showing an operation of the CPU 21 when the channel is switched by 4.

In step 1, it is determined whether command data has been received from the external operation terminal 54 via the serial signal line 63. When the command data is received, the process proceeds to step 2 and it is determined whether the command data includes a channel switching request. If the request is not included, the process returns to step 1, and if the request is included, in step 3, the address specified by the command data is set to the channel address chADDR. Then, the content of the channel address set in step 3 is read from the EEPROM 22 (step 4), and it is determined whether or not frequency data is stored (step 5). If frequency data is stored in the channel address read out in step 4, the frequency data is set as a data transmission channel of the wireless communication device 10. On the other hand, if the frequency data is not stored in the channel address, steps 6 and 7 are executed.

Normally, when the channel is switched by the external operation terminal 54, the channel address set before the switching process is temporarily saved in the temporary address chATP. In step 6, the channel address chADDR is set to the temporary address chATP, that is, the address (the address in which the data of the voice call channel is stored) set before the channel switching process is executed.
Then, in step 7, from the EEPROM 22 to step 6
The content of the address set in step 1 is read out, and the channel of the wireless communication device 10 is set (returned) to the voice call channel.

As described above, in the radio communication device 10 according to the embodiment, as shown in step 3, the external operation terminal 54 can directly specify the address where the frequency data regarding the data transmission channel is stored. . Thus, when the number of channels is 3 or more, the channel of the wireless communication device 10 can be always switched from the voice call channel to the data transmission channel from the external operation terminal 54 at a constant time regardless of the number of channels. .

[0025]

As described above in detail, in the wireless communication device according to the present invention, the channels that can be switched by the channel selector switch that can be operated by the user are limited to the voice call channels.
While data is being transmitted from the external operation terminal, the user does not operate the channel selection switch by mistake to switch to the data transmission channel, and the data being transmitted is not destroyed. Can be executed.

[Brief description of drawings]

FIG. 1 is a schematic block diagram showing an embodiment of a wireless communication device according to the present invention.

FIG. 2 is an example showing a storage format of channel data stored in an EEPROM.

FIG. 3 is a flowchart showing an operation of a CPU when a channel is switched by a channel switch.

FIG. 4 is a flowchart showing an operation of a CPU when a channel is switched by an external operation terminal.

FIG. 5 is a block diagram schematically showing a conventional wireless communication device.

FIG. 6 is an example showing a storage format of channel data stored in an EEPROM in a conventional wireless communication device.

[Explanation of symbols]

 10 wireless communication device 11 wireless communication device main body 21 CPU 22 EEPROM 52 channel selection switch 54 external operation terminal 63 serial signal line 64 wireless circuit

Claims (1)

[Claims] 1. A wireless communication device comprising a voice call channel and a data transmission channel, a channel changeover switch, an external operation terminal, a CPU, etc., wherein the external operation terminal is connected to the CPU via a serial signal line, A memory having an area for storing channel setting data is connected to the CPU, and an address at which data relating to the setting of a voice communication channel is stored in the memory and a setting of the data transmitting channel. A blank area in which no data is set is formed between the data stored address and the channel that can be switched by the channel selection switch is limited to only the voice call channel and switched by the external operation terminal. Channels that can be stored in the memory A wireless communication device comprising channel switching means for setting an arbitrary channel.