JPS6224722A - Mobile telephone - Google Patents

Abstract

PURPOSE:To facilitate calling operation and to suppress repetitive transmission of a meaningless control signal by transmitting automatically a control signal to give a limit to the number of times if opening of a channel is failed. CONSTITUTION:When a call number is inputted and a send key 73 is depressed, its inverting output is inputted to a counter 71, the number of times No of transmission of the control signal set by a dip switch 72 is loaded to the counter 71 and the output Q of a flip-flop circuit 76 is brought to '1' by the said inverted output. The output and an output of the counter 71 causes a OR circuit 77 to the output '1'. Thus, a controller 30 enters the access state with a base station and the control signal is accessed. When the accessing is failed, a failure output of the controller 30 goes to '1', a Q output of the circuit 76 goes to '0', a count CNTR of the counter 71 is decremented by 1 and the control signal is sent again. When the access of the No circuit is failed, the count CNTR goes to '0' and the call state input of the controller 30 goes to '0' and the retransmission of the control signal is stopped.

Description

[Detailed description of the invention] [Industrial application field] This invention relates to mobile telephones.

[Summary of the invention]

This invention enables, for example, a car telephone to handle the process like a normal telephone by automatically performing the channel opening process again when it fails to open a channel.

[Conventional technology]

When making a call from a car phone, such as a car phone using the American cellular system, (i) Enter the phone number using the dial keys. or
Recall a telephone number from memory by speed dialing or re-dialing.

(ii) Next, press the send key.

Perform the following operations. (iii) A control signal, including a telephone number, etc., is then transmitted from the mobile telephone to the base station through the control channel.

(iv) Subsequently, a control signal specifying a communication channel etc. is sent back from the base station.

(v) After that, the communication channel is opened and the communication becomes possible.

The operation or processing is performed.

However, when the call channel is busy, when the car phone cannot correctly receive the control signal in (i,), or when the base station cannot correctly receive the control signal in (iii), the control signal is When a reorder command prompting retransmission is received, the communication channel is not opened, and the car phone makes a warning tone "baaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa.

In such a case, the user presses the end key to stop the warning sound, and if the user wants to make a call again, presses the send key again.

[Problem that the invention seeks to solve]

However, when it goes into reorder mode like this,
The operation of pressing the end key and then pressing the send key is something that normal telephones do not have, and is cumbersome to operate.

This invention attempts to solve these problems.

[Means for solving problems]

Now, if the car phone is located at a point with an average electric field relative to the base station, under normal use, it will fail to open the channel and enter reorder mode at l/20 to l/10.
It was about 0 times. Therefore, in this case, even if the reorder mode is entered, the channel will be opened in most cases by transmitting the control signal one more time. For example, even if the failure rate is 1/20, if the control signal is retransmitted one more time, the failure rate becomes 1/400.

On the other hand, if the car phone is located at a location with a weak electric field, such as near the base station service area, it will fail to open the channel and go into reorder mode from 7/10 onwards.
It was found through experimentation that this was 9/10 times. Therefore, in this case, there is a high probability that the control signal will fail even if it is transmitted two or three times.

Therefore, from the above, if the channel is not opened even after transmitting the control signal twice, it often fails even after transmitting it three times, and there is no point in repeating the transmission unnecessarily.

The present invention focuses on the above points, and when a channel opening fails, the control signal is automatically retransmitted, and the number of retransmissions is limited.

[Effect]

If a call operation is performed once, the control signal is retransmitted until the channel is opened, but if the possibility of opening the channel is small, no retransmission is performed.

〔Example〕

In Figure 1, 00) is the transmitting system, (20) is the receiving system,
Reference numerals (30) to (70) indicate control systems, where the portion to the left of the chain line is provided, for example, on a dash board of an automobile, and the portion to the right of the chain line is provided, for example, in a trunk room.

During a call, the audio signal from the handset's transmitter (11) is supplied to the bandpass filter (13) through the amplifier (12) to limit the band, and this band-limited audio signal is sent to the adder circuit ( 14) is supplied to a transmitting circuit (15) having an FM modulation circuit and a high frequency power amplifier, etc., to generate an up channel FM signal, and this signal is sent to an antenna (15) through a duplexer (2).
1 and transmitted to the base station.

Further, a down channel signal (radio wave) from the base station is received by an antenna (11), and this received signal is supplied to a superhetero gain type receiving circuit (21) through a duplexer (2) to extract an audio signal. This signal is supplied to a bandpass filter (22) to remove unnecessary signal components, and then supplied to the handset receiver (24) through an amplifier (23).

Furthermore, (30) shows a controller on the handset side, which is composed of a microcomputer, and has a dial key (41) and a hook switch (
42), an end key (43), etc. are connected, and a ringer and a speaker (44) for an alarm sound are connected as output means.

In addition, from the controller (30), the amplifier (12)
.

A muting signal is supplied to (23).

Further, (50) indicates a controller on the antenna side, which is also composed of a microcomputer, and a data line is connected between it and the controller (30), as well as an FSX modulation circuit (61) and an FSX demodulation circuit (62). and a SAT circuit (63), etc. are connected thereto. in this case,
The modulation circuit (61) and demodulation circuit (62) are for accessing control signals between the base station and the base station when opening a channel between the base station and the like, and are controlled by the controller (50). The signal is transmitted through the modulation circuit (61
) is supplied to the FSK signal, and this signal is supplied to the transmitter circuit (15) through the adder circuit (14) and transmitted to the pace station, and the control signal from the base station is sent to the receiver circuit in the FSK signal state. (21), and this extracted FSX signal is supplied to the demodulation circuit (62) to become the original control signal, and this signal is sent to the controller (50).
supplied to Furthermore, the SAT circuit (63) is for monitoring the channel status etc. during a call.
Sending system GO+ and receiving system (20) and controller (5
o).

Further, the controller (50) supplies the transmitting circuit (15) and the receiving circuit (21) with a control signal that specifies a channel, and also supplies the transmitting circuit (15) with a control signal that controls whether or not the transmission is possible. Ru.

Furthermore, (70) shows a control circuit that controls the sending of the control signal, (71) is an N-bit presettable down counter that counts the number of times the control signal is sent, and (72) is an N-bit presettable down counter for setting the number of times that the control signal is sent. dip switch,
(73) is a send key constituted by a non-lock type bush switch, (74) is a pull-up resistor thereof, and (76) is an RS flip-flop.

After entering the other party's phone number, press the send key (73).
When you press , the key output is inverted by the inverter (75) and then supplied to the load input LD of the counter (71), and the number of control signal transmissions set by the dip switch (72) is displayed on the counter (71). The output CNTR of the counter (71) is set to the value NO. Also, at this time, the output of the inverter (75) is supplied to the setting power S of the flip-flop (76), and the output Q of the flip-flop (76) is set to "1".

Then, the output CNTR of this counter (71) and the Q output of the flip-flop (76) are supplied to an OR circuit (77), whose OR output is set to 1'', and this OR output is the call state input of the controller (30). Therefore, the controller (30) enters the access state with the base station from the standby state, and the control signal is accessed through the control channel.

If this access is successful, a call channel is opened and calls can be made from now on.

However, if this access fails, the controller (3
The fail output of 0) becomes “1”, which is the OR circuit (
78) to the recent input R of the flip-flop (76), and its Q output is set to "O". Also,
At this time, the fail output of the controller (30) is supplied to the counter (71) as a count input, and the count value CNTR is decremented by rlJ.

At this time, if the count value CNTR after the decrement is not rOJ, the output of the OR circuit (77) is "1" and this is supplied to the call state input of the controller (3o). 30)
enters the access state with the base station again, and the control signal is transmitted again. - In this way, when the send key G73) is pressed, a control signal is transmitted, and if access to the base station fails, the control signal is transmitted again, and at this time, the counter (71
) count value CNTR is decremented by "1" for each access.

If the No access set by the dip switch (72) fails, the count value CNTR
becomes "0" and at this time, the Q output of the flip-flop (76) is also "0", so from now on the call state input of the controller (30) becomes "0" and the control signal is no longer retransmitted. Along with the speakers (44
) will sound a warning sound indicating that the access has failed, and the system will enter reorder mode.

Please note that the end key (4) is pressed at this time or during access.
3), the release output of the controller "y" (30) becomes "1", which is supplied to the reset manual power R of the counter (71), the count value CNTR is reset to "0", and the OR circuit ( 78), the flip-flop (76) is reset by being supplied to the reset power R, and the controller (30) is also placed in a standby state.

Thus, according to the present invention, when making a call, the send key (7
3) If you press once, the control signal for opening the channel will be automatically retransmitted even if opening the channel with the base station fails, so the user does not have to perform key operations multiple times. It can be used like a normal telephone. Moreover, in this case, especially according to the present invention, the number of retransmissions can be preset in advance using the DIP switch (72), and for example, by setting No. 2, the control signal will be transmitted twice, so there is no meaning. It is never sent multiple times.

FIG. 2 shows a flowchart when the above-mentioned control circuit (70) is configured by software.

In this case, the outputs of the dip switch (72) and send key (73) are directly transmitted to the controller (
30). Further, the routine of this flowchart is written into the ROM of the controller (30) and executed by its CPU.

That is, when the send key (73) is pressed, the sending corridor number indicated by the dip switch (72) is read in step (81) and the counter C is set by software.
NTR, and then in step (82) a control signal is sent to the base station through the control channel, and then in step (83) it is checked whether the communication channel with the base station has been successfully opened. When this happens, the process proceeds from step (83) to step (91), where processing for a call is performed and a call state is established.

However, if the opening fails in step (83), the process continues from step (83) to step (84).
), and in this step (84) the counter CN
After TR is decremented by rlJ, step (
85), it is checked whether CNTR=0, and if it is not rOJ, the process proceeds to step (85).
5), the process proceeds to step (86), waits for an appropriate period of time, and then returns to step (82). Therefore, even if channel opening fails in steps (82) to (86), the control signal will be retransmitted up to the number of times set by switch (72), and if channel opening is successful, step ( 91), the call state is established.

However, if the number of retransmissions set by the switch (72) fails, then CNTR=0, so the process proceeds from step (85) to step (92), a warning sound is sounded, and the reorder is restarted. mode.

Note that in the above description, the number of times the control signal is sent is N.

When is fixed, the switch (72) can be omitted.

〔Effect of the invention〕

According to this invention, when making a call, if the send key (73) is pressed once, even if the channel opening with the base station fails, the control signal for opening the channel is automatically retransmitted, so the user can It can be used like a regular telephone without the need for multiple keystrokes. Moreover, in this case, especially according to the present invention, the number of retransmissions can be preset in advance using the DIP switch (72), and for example, by setting No. 2, the control signal will be transmitted twice, so there is no meaning. It is never sent multiple times.

[Brief explanation of drawings]

FIG. 1 is a system diagram of one example of this invention, and FIG. 2 is a flowchart of another example of this invention. α0) is the transmitting system, (20) is the receiving system, (30),
(50) is a controller, and (70) is a control circuit. Figure 2

Claims (1)

[Claims] When making a call, a control signal is accessed with the base station, and when this access is successful, the main signal channel is opened.In the mobile phone, the success or failure of the access is detected. When the access fails, the mobile phone repeats the access using the control signal, counts the number of accesses, and stops the access when the count reaches a predetermined value.