JP5042065B2 - Communication converter for security system - Google Patents

Description

  The present invention relates to a communication converter for a security system that improves the communication reliability of a security system that employs a contention system (balanced or competitive system).

  Conventionally, for example, an entrance / exit management system is known as a crime prevention system. These systems are equipped with various security sensors (security devices) such as electric locks, door sensors, or passive sensors for each security area, and also read identification data such as ID cards and put the electric locks in a guarded / unlocked state. A non-contact reader (also called an access control device or a remote control device for security) is installed.

In addition, a control device that receives and monitors the status signals of these various security sensors or the status signal of the non-contact reader is installed. When the control device receives a notification signal from the non-contact reader or the security sensor, it notifies (transmits) the security center.
Since this crime prevention system requires urgency, the contention method (balanced type) with a high communication speed is adopted as the communication method between the crime prevention sensor (security device), non-contact reader, and control device ( For example, FIG.

However, as shown in FIG. 3, in the security system 100 that employs the contention type (balanced) communication as described above, the security sensor (not shown) frequently issues and recovers. The status signal (data) of the security sensor is frequently transmitted on the communication line (communication line 4), and signal collision occurs. Each signal causing the collision is also transmitted from the control device 1 to the non-contact reader (remote controller 2) via the communication line 4.
On the other hand, the non-contact reader (remote controller 2) periodically transmits a signal (normal confirmation signal) indicating that its function is normal to the control device 1. Since the signals collide (crosstalk), the control device 1 cannot recognize the normal confirmation signal from the non-contact reader (remote controller 2). As a result, there is a problem that the control device 1 determines that the device is abnormal, and frequently reports abnormality to a security center (not shown).

Therefore, for example, Patent Document 1 proposes to avoid signal collision in contention communication in a small crime prevention system.
JP 2002-251682 A

  However, in an actual crime prevention system, there are many cases where a plurality of non-contact readers are installed and monitored in one security area or a plurality of security areas are monitored, and therefore the control device monitors and controls a large number of non-contact readers. is doing. In addition, when there is an increase in the number of warning areas or the area of the warning area due to expansion or renovation of buildings or tenant facilities, it is necessary to add a large number of non-contact leaders. In such a case, a plurality of non-contact readers (remote control devices) may be guarded / released at substantially the same timing, and the signal collision problem has not been solved (for example, FIG. 3).

On the other hand, there are cases where the communication line of the crime prevention system is laid near other high power facilities or wired in a bundle with communication lines of other facilities, which may be affected by noise. Therefore, even if the device of the non-contact reader transmits a function normal signal in response to a transmission request from the control device, the control device cannot recognize it and determines that the device is abnormal, and notifies the security center of the abnormality. There was a problem that.
When the above-mentioned device abnormality report was made at the security center, workers went to the site, replaced the non-contact reader for each device, and performed maintenance inspection work such as inspecting the cause of the failure.

  However, as described above, in actuality, it is not caused by a failure of the device of the non-contact reader itself, but by a signal collision in communication or a wiring trouble in the field. That is, it is not a malfunction of the non-contact reader device itself, but the security center is notified of the non-contact reader device abnormality, and enormous time, labor, and expenses such as dispatching personnel and transporting the device to confirm the normality of the device. There was an enormous problem of requiring.

  Therefore, according to the present invention, as described above, the control device controls the security sensor and the non-contact reader by contention type (balanced type) communication. We provide a communication converter for a crime prevention system that can realize a crime prevention system with high communication reliability that drastically reduces (failure alarm), and even when a communication abnormality other than the above-mentioned communication abnormality is detected and reported to the security center For a security system that can easily and inexpensively investigate whether a non-contact reader device itself is malfunctioning or a factor other than a non-contact reader by self-diagnosis of a communication converter for the security system or operation by a person in charge of the field An object is to provide a communication converter.

  In order to achieve the above object, a communication converter for a crime prevention system according to a first aspect of the present invention is a remote controller capable of security / release setting of a crime prevention device, or balanced communication between the remote controller and the operation state of the crime prevention device. A communication converter for a crime prevention system connected via a communication line to a control device that monitors and controls by a system (contention system) and relays by an unbalanced communication system (polling system), wherein the balanced communication system (contention) System) or unbalanced communication method (polling method), the first transmission / reception unit and the second transmission / reception unit, the operation unit for setting various modes, and the master mode or child set in the operation unit A control unit that performs communication control by changing a communication method of the first transmission / reception unit and the second transmission / reception unit according to a machine mode; and the first transmission / reception unit or the first transmission / reception unit And a connection switching means for connecting each communication line, and when the control unit determines that communication is abnormal or when a setting input of a communication test mode is input from the operation unit, the connection switching means To disconnect the first transmission / reception unit or the second transmission / reception unit from each communication line and connect the first transmission / reception unit and the second transmission / reception unit, and the balanced communication system (contention system) or The communication test of the self-circuit is performed by communicating with any one of the unbalanced communication methods (polling methods).

  According to a second aspect of the present invention, there is provided a communication converter for a crime prevention system, comprising: a remote controller capable of setting a security device to be guarded / cancelled; A communication converter for a crime prevention system connected via a communication line to a control device to be monitored and controlled by an unbalanced communication method (polling method), wherein the balanced communication method (contention method) or unbalanced type The first transmission / reception unit and the second transmission / reception unit that perform communication by a communication method (polling method), an operation unit that sets various modes, and the parent device mode or the child device mode that is set by the operation unit, A control unit that performs communication control by differentiating communication methods of the first transmission / reception unit and the second transmission / reception unit, and the first transmission / reception unit or the second transmission / reception unit and each communication A connection switching unit for connecting the first transmission / reception unit by the connection switching unit when the control unit determines that a communication abnormality has occurred or when a setting of a communication test mode is input from the operation unit. Alternatively, the connection between the second transmission / reception unit and each communication line is canceled and the first transmission / reception unit and the second transmission / reception unit are connected, and the balanced communication method (contention method) or the unbalanced communication method ( A communication converter for a crime prevention system, which performs a communication test of a self circuit by communicating with a third communication method (communication test protocol) different from the polling method).

The invention according to claim 3 is characterized in that the communication converter for crime prevention system according to claim 1 or 2 is further provided with a display unit for displaying the result of the communication test.

According to a fourth aspect of the present invention, the controller of the security system communication converter according to any one of the first to third aspects is configured such that, after the communication test mode is completed, the control unit switches the first transmission / reception by the connection switching unit. Or the second transmission / reception unit is disconnected and the first transmission / reception unit is connected to the communication line, and the balanced communication method or the unbalanced communication method is set according to the setting of the parent device mode or the child device mode. To transmit the result of the communication test.

  According to the present invention, in a security system that controls a security sensor and a non-contact reader by contention type (balanced type) communication, communication errors (failure alarms) due to communication signal collisions and on-site wiring troubles are eliminated. It is possible to provide a crime prevention system with high communication reliability.

  In particular, by installing the communication converter for the crime prevention system of the present invention in the existing concise type crime prevention system, it is not a failure of the non-contact reader device itself, but a communication error (failure alarm) due to a communication signal collision or on-site wiring trouble This drastically reduces the capital investment cost and maintenance cost, and can provide a crime prevention system with high communication reliability.

  In addition, the communication converter for the crime prevention system has a self-diagnosis function or a communication circuit diagnosis function by switch operation (communication test mode setting input from the operation unit) and a diagnosis result display part. Even if a warning is detected and reported to the security center, it is possible to immediately determine whether the device itself or the person in charge of the site is malfunctioning due to the non-contact reader device itself or due to factors other than the non-contact reader. it can.

Hereinafter, the best mode for carrying out the present invention will be described with reference to the drawings.
(Overall configuration)
FIG. 1 is a diagram showing a crime prevention system 10 (entrance / exit management system) using the crime prevention system communication converter 3 (master unit 3a or slave unit 3b) of the present invention. FIG. 2 is a circuit configuration diagram of the communication converter for the crime prevention system of the present invention (master device 3a or slave device 3b) used in the crime prevention system 10. 1 and 2, the same reference numerals are given to the same components as those of the security system 100 of FIG. 3 described above.

  The security system 10 shown in FIG. 1 includes various security sensors such as door sensors and passive sensors installed in one or a plurality of security areas, or security devices such as ID cards and electric locks, ID card reading and electrical A non-contact reader (hereinafter referred to as a remote controller 2) that simultaneously performs security / release settings for the lock, a control device 1 that monitors and controls various security sensors and the remote controller 2, and the like. Security system communication converter base unit 3a for relaying communication with the operation unit 2, and security system communication converter base unit 3a for security system relaying the remote control unit 2 and the remote control unit 2 for one-to-one connection It is comprised by the communication converter subunit | mobile_unit 3b.

In each figure, various security sensors such as door sensors and passive sensors connected to the control device 1 described above and security devices such as ID cards and electric locks are well known and are not shown.
In the following, devices other than the control device 1 and the remote controller 2 in the crime prevention system and the communication converter master unit 3a and the slave unit 3b for the disaster prevention system are collectively referred to as “crime prevention devices”.
In the following description, “communication converter master unit 3a” or “master unit 3a” means “security converter communication converter master unit 3a” of the present invention, and “communication converter slave unit 3b” or “slave unit 3b”. "Means" security converter communication converter slave 3b "of the present invention. The “communication converter” or “communication converter 3a (3b)” means the “security system communication converter master 3a” and / or the “security system communication converter slave 3b” of the present invention.

(Configuration of communication converter)
Next, the configuration of the communication converter (master device 3a or slave device 3b) of the present invention will be described.
The communication converter 3a (3b) of the present invention shown in FIG. 1 or 2 includes a control unit 6 (hereinafter referred to as CPU 6), a mode changeover switch for setting a slave mode or a master mode of the CPU 6, and a communication test mode. An operation unit 11 provided with a communication test switch to be set, a display unit 12 provided with a green LED 12a and a red LED 12b, a power supply unit 20 connected to an external power supply and supplying constant voltage power to a circuit such as the CPU 6, and communication Connection terminals (X1, Y1), (X2, Y2) connected to the lines 4a, 4b or the communication line 5, and relay contacts controlled by the CPU 6 (or contacts controlled by operation of the communication test switch of the operation unit 11) The connection switching means 8, the first transmission / reception unit 7 a connected to the connection terminals (X 1, Y 1) to transmit / receive control signals, and the connection terminals (X 2, 2) a second transmission / reception unit 7b that transmits and receives control signals, and a communication driver circuit that receives a control command from the CPU 6 and supplies current to the first transmission / reception unit or the second transmission / reception unit (hereinafter, drivers 9a and 9b). It is composed of. Further, the communication converter 3a (3b) includes a storage unit and an address setting unit (not shown), and the storage unit includes operations necessary for the communication converter such as a master mode, a slave mode, a normal operation mode, and a communication test mode. The mode program and the address set by the address setting unit are stored.

(Connection)
Next, the connection (connection relationship) of the control device 1, the communication converter 3a (3b), the remote controller 2, and the communication lines 4a, 4b, and 5 in the embodiment of the present invention will be described.
As shown in FIGS. 1 and 2, the control device 1 is connected to the communication line 4a, and the other end of the communication line 4a is connected to the connection terminals (X1, Y1) of the communication converter base unit 3a. The communication line 5 is connected to the connection terminals (X2, Y2) of the communication converter base unit 3a. The other end of the communication line 5 is connected to the connection terminals (X1, Y1) of each communication converter slave unit 3b. That is, each communication converter slave 3 b is connected in parallel to the communication line 5. The communication line 4b is connected to the other connection terminal (X2, Y2) of the communication converter slave unit 3b, and the remote controller 2 is connected to the other end of the communication line 4b. That is, one remote controller 2 is connected to one communication converter slave unit 3b through the communication line 4b.

In the normal operation mode state described later, the connection switching unit 8 connects the first transmission / reception unit and the connection terminals (X1, Y1), and further connects the second transmission / reception unit and the connection terminals (X2, Y2). ing. With this connection, the first transmission / reception unit and the second transmission / reception unit are connected to each communication line.
In the communication test mode state described later, the connection switching unit 8 releases the connection between the first transmission / reception unit and the connection terminals (X1, Y1) and connects the second transmission / reception unit and the connection terminals (X2, Y2). Is switched to the connection between the first transmission / reception unit and the second transmission / reception unit.

(Communication converter functions and operations)
Next, functions and operations of the communication converter 3a (3b) will be described.
The communication converter 3a (3b) is connected to an external power supply. When the power is turned on, the power supply unit 20 of the communication converter 3a (3b) supplies a predetermined constant voltage to the CPU 6 and the like.
When the power is supplied, the CPU 6 is activated according to the mode set to either the parent device mode or the child device mode by a mode changeover switch (not shown) of the operation unit 11. Then, it shifts to a normal operation mode corresponding to either the parent device mode or the child device mode and operates.

Next, the operation of the communication converter (drivers 9a and 9b, the first transmission / reception unit, and the second transmission / reception unit) according to each mode will be described.
(1) When operating in parent device mode (and normal operation mode) The CPU 6 of the communication converter (3a) can transmit a control request signal to the control device 1 and is an acknowledgment signal or negative response signal from the control device 1. The driver 9a and the first transmission / reception unit are controlled so that the signal can be received. That is, the driver 9a and the first transmission / reception unit are controlled so as to enable contention communication with the control device 1.
Further, the CPU 6 of the communication converter (3a) is capable of transmitting a reply request signal by sequentially designating the address of the subordinate station (communication converter slave unit 3b) as a control station for high-speed polling communication. The driver 9b and the second transceiver are controlled so that the response signal from 3b) can be received.

(2) When operating in slave mode (and normal operation mode) The CPU 6 of the communication converter (3b) can receive a reply request signal from the control station (communication converter base unit 3a) as a slave station of high-speed polling communication. In addition, the driver 9a and the first transmission / reception unit are controlled so that a response signal can be transmitted to the control station (communication converter base unit 3a) when a reply request signal including its own address is received.
Further, the CPU 6 of the communication converter (3b) can receive a control request signal from the remote controller 2 connected in a one-to-one correspondence via the communication line 4b and can receive an acknowledgment signal or The driver 9b and the second transmission / reception unit are controlled so that a negative response signal can be transmitted. That is, the driver 9 and the second transmission / reception unit are controlled so that contention communication with the remote controller 2 is possible.

Moreover, the subunit | mobile_unit 3b performs the following operation in order to acquire own address.
The subunit | mobile_unit 3b waits to receive the starting response signal from the remote control device 2 (for example, address 1) of a connection destination for a fixed time. If it can be received, the address of the remote controller 2 is set as its own address (address 1). If the rising response signal cannot be received after a certain period of time, a status request signal including information with the address set to 1 is transmitted to the remote controller 2 (address 1), and an acknowledgment (ACK) is returned. To set (determine) its own address (address 1).

On the other hand, when no positive response (ACK) is received from the remote controller 2 (for example, when the handset 3b is connected to the remote controller 2 (address 2)), its own address is set to address 1. A status request signal including information is transmitted to the remote controller 2 (address 2), and after performing the above-described operation, a status request signal including information set in the address 2 is transmitted.
In this way, the slave unit 3b sequentially sets addresses until it receives a rising response signal or a positive response to the remote controller 2 that is the connection destination, transmits a status request signal, and performs this operation until it can acquire its own address. Continue.

Next, for example, an example in which a plurality of remote controllers 2 are operated for security setting at the same time will be described.
That is, the remote controller 2 is 2-1 and 2-2, the remote controller 2-1 is connected to the communication converter slave unit 3b-1, and the remote controller 2-1 is connected to the communication converter slave unit 3b-2. Then, these remote controllers 2-1 and 2-2 are simultaneously operated for security setting, and a signal DT1-1 indicating the security setting state is transmitted from the remote controller 2-1, from the remote controller 2-2. A crime prevention system when the signal DT1-2 indicating the security setting state is transmitted will be described.

When the security settings of the two remote controls are operated simultaneously as described above,
[1] At the same time when the operation signal DT1-1 is transmitted from the remote controller 2-1 to the communication converter slave 3b-1, the remote controller 2-2 transmits to the communication converter slave 3b-2. An operation signal DT1-2 is transmitted.
[2] The communication converter slave 3b-1 (or slave 3b-2) that has received the operation signal DT1-1 (or DT1-2) responds to its own address by high-speed polling communication from the communication converter master 3a. When the state confirmation signal is received, the operation signal DT1-1 (or DT1-2) is transmitted.

[3] When receiving the operation signal DT1-1, the communication converter base unit 3a transmits the operation signal DT1-1 to the control device 1 by the contention method via the communication line 4a. After the operation signal DT1-1 is transmitted, when the communication converter base unit 3a receives the operation state signal DT2-1 from the control device 1, the operation state signal DT2-1 is transmitted to the communication converter slave unit 3b via the communication line 5. .
[4] The communication converter parent device 3a (child device 3b) that has received the acknowledgment (ACK) or negative response (NAK) to the status signal or the like is received immediately by the communication line 4a and the communication line 4b.

  [5] At this time, regarding the processing of the base unit 3a of DT1-2 generated simultaneously with the operation signal DT1-1, the communication converter base unit 3a holds for a certain period of time until the above [3] and [4] are completed, and the communication No transmission is made on the line 4a.

[6] This gives priority to the response to the remote controller 2-1, does not feel operational stress, and communication abnormality (from operation of the remote controller 2 to the end of a series of flows (remote controller 2 -communication converter) This is because the time of the slave unit 3b, the master unit 3a, the control device 1, the master unit 3a, the slave unit 3b, and the remote controller 2) is determined).
[7] When the above [3] and [4] are completed, the master unit 3a performs the process for the remote controller 2-2 in the same manner.
[8] When a predetermined time has elapsed, the communication converter master 3a transmits a negative response (NAK) to the communication converter slave 3b-2.
[9] The communication converter slave unit 3b-2 that has received the negative response transmits a negative response (NAK) to the remote controller 2-2, and waits to receive the operation signal DT1-2 again.

  When the security setting of three or more remote controllers 2 (addresses 6, 1, 15) is made at the same time, processing is performed on each remote controller 2 for each series of flows according to the polling order. For example, if the remote controller 2 at address 6, address 1, and address 15 is operated simultaneously, and the polling address at a certain point is 6, a series of processing is performed for address 6, and then address 15 and address 1 in that order. Sequential polling is performed.

  Thereby, collision of communication signals can be avoided in the contention system on the communication line 4a. In addition, as described above, if operations are performed from a plurality of remote controllers 2 at the same time, processing delays due to polling priority processing occur. Can be avoided.

  Also, during communication by the polling method, important information such as an alarm is not missed by performing a process of holding important information such as an alarm even if a change (return to normal) is performed within one polling.

  When a process that the controller 1 wants to operate immediately occurs to the remote controller 2, the controller 1 forcibly changes the polling address to the address of the priority signal by transmitting a priority signal. be able to. As a result, it is possible to cope with a case where a real-time system is required.

(Communication test mode)
Next, the crime prevention system 10 and the communication converter (slave device 3b) in the communication test mode will be described.
When CPU 6 of communication converter slave unit 3b determines that it has not received a response signal (control request signal or signal indicating state operation) transmitted from remote controller 2 via second transmitter / receiver 7b and driver 9b a predetermined number of times. Transition from the normal operation mode to the self-diagnosis function (communication test mode). Alternatively, when there is an operation input (communication test mode setting input) of the communication test switch of the operation unit 11, the CPU 6 shifts from the normal operation mode to the self-diagnosis function (communication test mode).

With the transition to the communication test mode, the CPU 6 starts its own circuit diagnosis (self-diagnosis) according to the communication test protocol.
First, the relay of the connection switching means 8 is drive-controlled (ON) to release the connection between the second transmission / reception unit 7b and the connection terminals (X2, Y2) to disconnect the communication with the communication line 4b and the first transmission / reception unit 7a. And the connection terminals (X1, Y1) are disconnected and the communication with the communication line 5 is disconnected. Further, the first transmission / reception unit 7a and the second transmission / reception unit 7b are connected by relay control.

  By this control operation, the communication converter slave unit 3b is disconnected from the communication lines 4a, 5 and 4b of the security system 10 in the communication test mode, so that it is tested to another communication converter, the control device 1 or the remote controller 2. Does not affect command signal transmission.

  In this communication test mode state, the CPU 6 transmits a test command signal to the first transmission / reception unit 7a (or the second transmission / reception unit 7b) according to the communication test protocol. If the test command signal is received via the second transmitter / receiver 7b (or the first transmitter / receiver 7a), it is determined that its own communication circuit is functioning normally, and the LED of the display unit 12 is controlled to be lit.

  As a lighting control method, for example, when the communication converter slave unit 3b is operating normally, the CPU 6 controls the display of the green LED 12a, and controls the display of the red LED 12b when the communication is abnormal. And if it is judged that it is normal as a result of the self-diagnosis (communication test), both the green LED 12a and the red LED 12b are turned on and displayed. On the other hand, if it is determined as a result of the self-diagnosis (communication test) that the communication converter slave unit 3b itself has a communication circuit abnormality, the CPU 6 controls the red LED 12b to blink.

The communication test can also be performed by operating a communication test switch on the operation unit 11. In this case, the connection switching means 8 is a contact controlled by the communication test switch, and is switched to the connection relationship in the communication test mode as described above.
In addition, instead of transmitting a communication test command signal, the connection between the first transmission / reception unit or the second transmission / reception unit and each communication line, and the connection between the first transmission / reception unit and the second transmission / reception unit are switched to the communication test mode. As described above, the CPU 6 may confirm the transmission / reception of either the contention type or the polling type communication signal, and the self-diagnosis (communication test) of the self-communication circuit may be performed.

  The present invention can be applied as appropriate without departing from the scope of the present invention. For example, communication between the communication converter master unit 3a and the slave unit 3b of the security system can be realized by high-speed token communication.

  The present invention is not limited to the above embodiment and can be modified as appropriate. For example, the communication converter of the present invention can be applied to a nurse call system, a safety confirmation system, or the like that employs contention-based communication, and can be changed to a system with high communication reliability.

It is a figure which shows the crime prevention system which concerns on this invention. It is a figure which shows schematic circuit structure of the communication converter of the crime prevention system of FIG. It is a figure which shows the conventional crime prevention system.

Explanation of symbols

100 crime prevention system (entrance / exit management system)
10 Security system (entrance / exit management system)
1 Control device 2 Remote controller (non-contact reader)
3 Communication converter for crime prevention system 3a Communication converter master unit for security system 3b Communication converter slave unit for security system 4 Communication line (contention method (balanced type))
5 Communication line (polling method (unbalanced type))
6 Control unit (CPU)
7a 1st transmission / reception part 7b 2nd transmission / reception part 8 Connection switching means 9a Driver (communication driver circuit)
9b Driver (communication driver circuit)
11 Operation unit 12 Display unit 12a Green LED
12b Red LED
20 Power supply X and Y terminals

Claims (4)

Connected to a remote controller capable of security / release setting of the security device or a control device for monitoring and controlling the operation state of the remote controller and the security device by a balanced communication method through an unbalanced communication method. A communication converter for a crime prevention system to relay,
A first transmission / reception unit and a second transmission / reception unit that perform communication by the balanced communication method or the unbalanced communication method, an operation unit that sets various modes, and a parent device mode or a child device set by the operation unit A control unit that performs communication control by changing communication methods of the first transmission / reception unit and the second transmission / reception unit according to a mode, and the first transmission / reception unit or the second transmission / reception unit and each communication line are connected. Connection switching means for
When the control unit determines that the communication is abnormal or when a setting of a communication test mode is input from the operation unit, the connection switching unit communicates with the first transmission / reception unit or the second transmission / reception unit. Disconnect the line and connect the first transmission / reception unit and the second transmission / reception unit, and perform a communication test of the self-circuit by communicating with either the balanced communication method or the unbalanced communication method. A communication converter for a crime prevention system. Connected to a remote controller capable of security / release setting of the security device or a control device for monitoring and controlling the operation state of the remote controller and the security device by a balanced communication method through an unbalanced communication method. A communication converter for a crime prevention system to relay,
A first transmission / reception unit and a second transmission / reception unit that perform communication by the balanced communication method or the unbalanced communication method, an operation unit that sets various modes, and a parent device mode or a child device set by the operation unit A control unit that performs communication control by changing communication methods of the first transmission / reception unit and the second transmission / reception unit according to a mode, and the first transmission / reception unit or the second transmission / reception unit and each communication line are connected. Connection switching means for
When the control unit determines that the communication is abnormal or when a setting of a communication test mode is input from the operation unit, the connection switching unit communicates with the first transmission / reception unit or the second transmission / reception unit. A communication test of the self-circuit by releasing the connection with the line and connecting the first transmission / reception unit and the second transmission / reception unit, and communicating with the third communication method different from the balanced communication method or the unbalanced communication method. A communication converter for a security system, characterized by The communication converter for a crime prevention system according to claim 1 or 2, further comprising a display unit for displaying a result of the communication test. After the end of the communication test mode, the control unit releases the connection with the first transmission / reception unit or the second transmission / reception unit by the connection switching unit and connects the first transmission / reception unit with the communication line. 4. The crime prevention according to claim 1, wherein the result of the communication test is transmitted by the balanced communication method or the unbalanced communication method according to a setting of a mode or a slave mode. 5. Communication converter for system.

Images