JPS5970033A - Reset system - Google Patents

Abstract

PURPOSE:To stabilize the operation of a system by reseting forcedly a defective control circuit when an other control circuit detects a fault in a controlling system having plural control circuits. CONSTITUTION:A car telephone set is constituted by a telephone set body 200 and a hand set 300. The body 200 and the hand set 300 have respective control circuits 210, 301. When the body 200 detects an error in data from the hand set 300, the control circuit 210 counts up the number of errors within a fixed time. If the number of errors generated within the fixed time exceeds a prescribed constant, the control circuit 210 resets the control circuit 301 of the hand set 300 forcedly.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a reset method in a control system such as a mobile phone having a plurality of control circuits.

In such a control system, as will be described later, there has been no effective means for correctly resetting the control circuit to the initial value when the other control circuit malfunctions.

The present invention solves the conventional drawbacks. When one control circuit detects an abnormal operation of the other control circuit, one control circuit forcibly sets the other control circuit to the initial setting. This provides a reset method that quickly restores normal operation.

The present invention will be explained in detail below with reference to the drawings.

First, a car telephone device will be explained as an example of a control system to which the present invention is applied.

Conventionally, among car telephones, dial-in handset type telephones (hereinafter referred to as D-H telephones), which have a dial, display, etc. Some use a configuration in which a dial and display are built into the telephone body, and the control circuit of the telephone body controls the dialing and display inside the handset, but the number of core wires in the cable connecting the handset and the telephone body increases. However, the connection cable became too thick to be practical.

Therefore, in order to reduce the number of core wires of the connecting cable, an example of a proposed configuration is shown in FIG. 1, in which control circuits are provided both inside the telephone and in the telephone body, and data is transmitted between them. Here, 100 is the radio unit of the car phone, 200
is the phone body, and 300 is.../docenote. The radio unit 100 includes an antenna 10 for communicating with a base station.
1 is provided, and an audio system including a transmit signal line 102 and a receive signal m1o3, and a digital signal line 104 connect the radio unit 1.
00 and the telephone main body 200 mutually transmit signals. Further, power is supplied to the radio unit 100 from a car battery (not shown), and is supplied to the telephone main body 200 and the handset 300 through a power line 105. Inside the telephone main body 200 and the handset 300, 201 and 301 are brown 1. Second control circuits 202 and 304 convert parallel signals into serial signals (r) and transmit them.
3 and 305 are transmission completion detection circuits that detect that the signal transmission circuit 202 or 304 has completed transmission of a series of signals, and 204 and 302 are transmission completion detection circuits that receive serial signals and convert them into parallel signals. Second signal receiving circuit, 205 and 30
3 is a reception completion detection circuit 206 that detects that the signal reception circuit 204 or 302 has completed reception of a series of signals;
306 is an input means such as a keyboard, 307 is a display such as 7 segments, 308 is a power supply circuit, and 309 is a transmitter. 310 is a telephone receiver.

Transmission of signals between the telephone main body 200 and the telephone set 300 will be explained. First, in order to send a signal from the control circuit 201 of the telephone 2000 to the handset 300 (for example, a signal to the display 307), the telephone main body 200 side sets a series of data from the control circuit 201 to the signal sending circuit 202 according to a specified format. At the same time, the return timer 206 is activated. The data set in the signal transmitting circuit 202 is converted from a parallel signal to a serial signal, and the signals are sequentially sent to the signal receiving circuit 302. When the signal transmission circuit 202 detects that data transmission has been completed, the transmission completion detection circuit 203 notifies the control circuit 201 of transmission completion, and changes the mode from the transmission mode to the reception mode of the control circuit 21). Performs switching and waits for data to be received.

On the other hand, the handset 300 side receives a signal from the signal transmitting circuit 202 of the packing machine main body 200 in the signal receiving circuit 302, converts it into a parallel signal, and sends the signal to the control circuit 300.
Notify 1. When the reception completion detection circuit 3 ( ) 3 detects that the reception of a series of data has been completed in the signal reception circuit 302 , the reception completion detection circuit 3 ( ) 3 detects the completion of the reception by the control circuit 301 .
Notify. When the control circuit 301 detects that data reception has been completed, the control circuit 301 performs an error check on the data received by the signal reception circuit 302 by, for example, a parity check, and if there is no error, the data is taken in and subjected to necessary processing, such as display. Display on the device. Thereafter, the control circuit 301 reads the data from the input means 306 and sets the data in the signal transmitting circuit 304 according to a prescribed format. Signal transmission circuit 30
4 converts the parallel signal into a serial signal and sends it to the telephone main body 200.
Data is sent to the host. When the transmission is completed, the transmission completion detection circuit 305 detects the completion of the transmission and notifies the control circuit 3'', and the control circuit 301 completes the transmission operation and waits to receive the next data.

On the other hand, the telephone body 200 sends the data signal to the signal receiving circuit 2.
04 receives the signal and transfers it to the control circuit 201. When the reception completion detection circuit 205 detects the completion of a series of data reception, it notifies the division unit 1 circuit 201 of the reception completion. The control circuit 201 performs an error check on the received data,
If there is no error, the data is taken in and necessary processing, ie, keyboard data, is sent to the radio section 100 through the digital signal line 104.

The radio unit 100 performs necessary processing according to the key information.

The telephone body 200 waits for the repeat timer 206 to time up and resumes sending data to the handset 300.

Repeat the above operations to connect the radio unit ioo and the phone body 2.
00, H/Dose, ) 300 is transferred. Further, regarding voice signals, the transmitter 309 and the radio unit 100 are connected to each other via the transmitting signal line 102.
A telephone call can be made between the receiver and the receiver through the receiving signal line 103.

In the normal case, as described above, abnormalities may occur in the operation of the control circuit 201 or 301 due to noise or the like. In this case, the control circuit 201 or 301
There were times when the system went out of control, and we could not guarantee future operation. In order to detect an abnormality in such a state, for example, a watchdog corresponding to the control circuit can be used.
Depends on the timer.

Once this watchdog timer starts operating, if the watchdog timer is not restarted within a certain period of time, the control circuit 201 or 3
1 is forcibly notified that an abnormality has occurred, and the control circuit 2
01 or 301 has a method of forcibly resetting the entire system and restarting operation after all status watchdog timers have elapsed for a certain period of time. but,
With these methods, it is possible to detect abnormalities in the control circuit 201 or 301, but for example, if an abnormality occurs in the control circuit 301 in the node set 300, data cannot be transferred normally. Even if it becomes impossible to perform, the control circuit may not be able to detect it. In this case, even if the control circuit 201 on the phone main body 200 side may be able to detect the abnormal operation, the abnormal operation of the control circuit 301 will simply wait until it becomes normal, and the control circuit 301 will be forcibly detected. It was impossible to perform a recovery process to reset to the initial state and quickly return to the normal state.

FIG. 2 shows an embodiment of the present invention for solving the above-mentioned drawbacks, and the same components as those in FIG. 1 are given the same numbers. In normal operation, the first
Although the configuration is similar to that shown in the figure, when the telephone main body 200 normally receives data from the handset 300,
The reception completion detection circuit 205 notifies the control circuit 201,
When the received data is processed and the operation of the repeat timer 206 is completed, the gate circuit 207 checks whether or not the previous data has been completely received.
If reception is not completed, a signal is output from gate circuit 207, passes through gate circuit 208, and advances the count value of error counter 209. If the reception is normal, no output is output from the gate circuit 207, so the error counter 2
09 will never count up.

After that, the control circuit 201 checks the value of the error count, and if the value is above a certain value, the control circuit 201 causes the power supply control circuit 211 to stop supplying power to the node set side for a part of the time, and Re-enter after a while. Through this operation, the power supply circuit 308 on the node set 300 side detects the power supply state and detects a power outage, and when the control circuit 308 detects the power supply state and detects a power outage,
The control circuit 301 is reset. In this way, by turning on the power again, the control circuit 301 can be completely returned to its initial state. Therefore, since the state holding circuit in the control circuit, such as a flip-flop, can be initially set due to noise, etc., the control circuit 201 can detect errors that cannot be detected by the control circuit 301, and the control circuit 301 can be initialized. The state can be reset.

On the other hand, when data is received from the handset 300 and the reception completion detection circuit 205 notifies the control circuit 201 of reception completion, the control circuit 201 checks the received data, and if an error such as a parity error is detected, , outputs a signal to the signal line 208a, and advances the count value of the error counter 209 through the gate circuit 208. After that, when the repeat timer 206 times up, the gate circuit 207 receives an input from the repeat timer 206 side, but since there is no input from the reception completion detection circuit 205, the error counter 209 outputs an output and does not count up.

At the same time, the control circuit 201 checks the value of the error counter 209, and if the value of the error counter 206 is above a certain value, the control circuit 201 performs processing such as cutting off the power for a certain period of time to the power supply control circuit 211 as described above. Therefore, further explanation will be omitted.

The error counter 209 is reset when the control circuit 201 checks the received data and receives the data normally, or when the control circuit 201 detects that the error counter 209 is equal to or higher than the specified value. , the error color/reset 209 can be reset by the control circuit 201 through the operation flow shown in Figure 3.

In another embodiment, an error color/return timer (not shown) is provided, and after a certain period of time has elapsed or when the control circuit 201 detects that the error counter 209 is greater than or equal to a specified value, the operation 70- as shown in FIG. 4 is performed. The error counter 209 may be reset by the control circuit 201.

In the above explanation, when resetting the control circuit 301 on the phone main body 200 side and the Shiba Nodoset 300 side, a method is used in which the power is cut off. control circuit 301
It goes without saying that the 4'14 metallurgy, which is directly reset to the 4'14 value, may also be used.

Furthermore, although error detection is performed only on the telephone main body 200 side, an abnormality detection means is similarly provided on the handset 300 side, and the control circuit 201 on the telephone main body 200 side is reset from the handset 300 side. It goes without saying that it is also possible to add .

As explained above, according to the present invention, it is not just an error that can be detected by each control circuit in the telephone main body or handset, but when an error that cannot be detected by itself occurs, the control circuit can be forcibly detected by the other control circuit. Since the initial setting is performed automatically, there are many advantages such as more stable operation of the stem as a whole.

[Brief explanation of the drawing]

Fig. 1 is a side view of the configuration of a control system to which the present invention can be applied, Fig. 2 is a diagram showing an embodiment of the present invention, and Figs. 3 and 4 are flowcharts showing an example of the operation of the present invention. be. 100... Radio unit, IQI... Antenna, 1o2
... Transmitting signal line, 103... Receiving signal line, 104.
...Digital signal line, 105...Power line, 2oo...
・Telephone body, 2o1...control circuit (first), 202
. . . Signal transmission circuit (first), 203 . . . Transmission completion detection circuit, 204 . . . Signal reception circuit [second], 205.
...Reception completion detection circuit, 206...Timer, 207.
...and gate, 208...or gate, 20
9... Error color/re, 211... Power supply side @1 circuit, 220a... Input signal line, 22ob... Select line, 221a... Segment control line, 221b...
Digit control line, 300...Handset, 3ol...Control circuit (second), 302...Signal receiving circuit (second L30)
3... Reception completion detection circuit, 304... Signal transmission circuit (2nd L305... Transmission completion detection circuit, 306...
Input means, 3o7... Display unit, 308... Power supply circuit, 309... Transmitter, 31o... Receiver. Patent applicant: Iwasaki Tsushinki Co., Ltd. Agent Otsuka: 1 person from outside the university

Claims (3)

[Claims] (1) A first control circuit, a first signal sending circuit and a first signal receiving circuit whose inputs and outputs are respectively connected to the first control circuit, and controlled by the first control circuit. a timer circuit and a counting circuit; a second control circuit; a second signal sending circuit and a second signal receiving circuit whose inputs and outputs are respectively connected to the second control circuit; and the first signal sending circuit. a cable interconnecting an output of the circuit and an input of the second signal receiving circuit and an input of the first signal receiving circuit and an output of the second signal sending circuit; The timer circuit transmits signals to the second control circuit via the first signal sending circuit, the cable, and the second signal receiving circuit. The signal from the second unpacking circuit cannot be received by the first signal receiving circuit within a predetermined period of time, or an error is detected in the received signal. when the counting circuit counts clock pulses, and when the counted value of the counting circuit exceeds a predetermined value, the first control circuit resets the power supply of the second control circuit. A reset method configured to return to an initial state. (2) The counted value of the counting circuit is reset when the first signal receiving circuit normally receives the signal from the second control circuit within the certain period of time. Reset method described in Range 1. (3) The reset method according to claim 1, wherein the count value of the counting circuit is reset at every predetermined time.