JP3838037B2 - Communication slave station and control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
This invention To the station It is related.
[0002]
[Prior art]
FIG. 1 shows an example of the entire system to which the present invention is applied. As shown in the figure, a PLC (programmable controller) 1 as a master station and a plurality of communication slaves 2 as slave stations are connected via a network 3. The remote I / O communication slave 2 is connected by a bus via a network 3. That is, an address is assigned to each communication device (master station, slave station), and signals of each channel are transmitted and received.
[0003]
In the illustrated example, the PLC 1 is configured by connecting a plurality of units such as a power supply unit 1a, a CPU unit 1b that performs arithmetic processing, an I / O unit 1c, and a communication master unit 1d. It is not limited to.
[0004]
The communication slave 2 has at least one of an input channel and an output channel. An input I / O device (input device) 4 such as a sensor and a switch, a valve, a motor driving device, a relay, a solenoid, and a servo are provided on a predetermined channel. An output I / O device (output device) 5 such as a driver is connected. More specifically, the input device 4 connected to the input channel requires a power supply such as a sensor such as a photoelectric switch and a proximity switch, and various types such as a limit switch, a micro switch, and a push button switch. Some switches, such as switches, do not require power supply. In the case where power supply is required, there is one that receives supply from the communication slave 2 (the specific configuration will be described later). The input device 4 and the output device 5 can be connected to the I / O unit 1c of the PLC 1.
[0005]
As is well known, in the system configured as described above, an ON / OFF signal indicating the state of the input device 4 is given to the communication slave 2, and after performing parallel / serial conversion there, the communication master of the PLC 1. Sent to unit 1d. Then, the PLC 1 gives the received state of the input device 4 to the CPU unit 1b, executes necessary processing such as arithmetic processing there, and determines the operation of the output device 5. Then, a control command is sent to the communication slave 2 to which the output device 5 is connected via the network 3, and the communication slave 2 controls the operation of the output device 5 according to the received control command.
[0006]
FIG. 2 shows the appearance of the communication slave 2 to which the input device 4 is connected. As shown in FIG. 6A, a connector 2a connected to a network 3 (remote I / O bus line), a terminal 2b for attaching an input device 4, an internal power supply terminal 2c to an internal circuit, An I / O power supply terminal 2d for supplying power to the I / O device (input device 4) and an indicator lamp 2e for displaying an I / O signal (ON: ON, OFF: OFF) are provided. .
[0007]
The terminal arrangement of the terminal 2b, the internal power supply terminal 2c and the I / O power supply terminal 2d is as shown in FIG. In the example shown in the figure, an input of 8 points is shown. In this example, power is supplied to the input device 4 from the communication slave 2 side, and the internal power supply terminal 2 c and the I / O power supply terminal 2 d are electrically connected inside the communication slave 2. Thus, when an external power supply is connected to the internal power supply terminal 2c, a predetermined voltage is output to the I / O power supply terminal 2d.
[0008]
Therefore, the input device 4 which requires a power supply can receive power supply by connecting to the I / O power supply terminal 2d. An example of a specific connection form is shown in FIG. In the case of the three-wire sensor 4a, the I / O power supply terminal 2d is connected to the plus (V) side and minus side (G) and the terminal 2b. The sensor output is connected to the terminal 2b. In the case of the two-wire sensor 4b, since power supply is not required, the sensor is connected between the terminal 2b and the ground (the negative side (G) of the I / O power supply terminal 2d). There are two types of communication slaves 2, NPN type and PNP type. Here, an NPN type communication slave is illustrated, and an NPN type sensor is used.
[0009]
FIG. 4 shows the internal structure when the three-wire sensor 4a and the communication slave 2 are connected. For convenience of illustration, the other seven input sensors are omitted. As shown in the figure, the internal power supply terminal 2c is connected to an internal circuit (CPU) 2f. Further, the internal power supply terminal 2c and the I / O power supply terminal 2d are electrically connected to each other on the positive side and the negative side. Further, since the sensor to be connected is an NPN type, the plus side is grounded.
[0010]
As a result, when the internal power supply 6 is connected to the internal power supply terminal 2c as shown in the figure, power is supplied to the internal circuit 2f and a voltage is also applied between the terminals of the I / O power supply terminal 2d. Therefore, the two power terminals of the three-wire sensor 4a such as a three-wire photoelectric switch are connected to the two I / O power supply terminals 2d. Then, power is supplied from the internal power supply 6 to the three-wire sensor 4a.
[0011]
Further, the sensor output is connected to the terminal 2b. As a result, the transistor Tr is ON / OFF controlled by the sensor internal circuit 4a ′, and the state is given as a sensor output to the terminal 2b and thus to the internal circuit 2f of the communication slave 2.
[0012]
[Problems to be solved by the invention]
In the above-described conventional apparatus, the following problems occur as a result of common use of the internal power supply of the communication slave 2 and the power supply to the I / O device (input device 4). That is, since the power supply line is made common as a single system as described above for downsizing and cost reduction, if a short circuit occurs in any part of the power supply line, the internal circuit (CPU) 2f in the communication slave 2 is connected. Power supply cannot be performed or becomes unstable. Then, there is a possibility that the internal circuit 2f stops operating, or malfunctions and transmits erroneous data. Then, there is a possibility of adversely affecting the control on the PLC1 side.
[0013]
Then, in view of the phenomenon of occurrence of a short circuit that has an adverse effect, the wiring (cord) connecting the communication slave 2 exposed to the outside and the three-wire sensor 4a rather than occurring inside the three-wire sensor 4a or the communication slave 2 (cord) ) Is likely to be caused by breaking or the like. Specifically, not only when the sensor power supply line (positive side, negative side) is short-circuited, but also when the negative side and chassis ground are short-circuited, they are short-circuited to the positive side via the chassis ground (NPN). For). In addition, the same problem occurs when the sensor is turned on in a state where the sensor signal line (path to the terminal 2b) and the positive side of the sensor power supply line or the chassis ground are short-circuited. Arise.
[0014]
If the above phenomenon is caused by, for example, the cord covering being peeled off by being stepped on or hooked on the exposed wiring (cord), it can be protected by covering it with a wiring cover. is there. However, it is complicated to install such a wiring cover, and there is a problem in that it is necessary to move the wiring cover each time each device is moved. Furthermore, there is a possibility that a short-circuit accident may occur due to erroneous connection of each line. In such a case, the above-described wiring cover cannot naturally cope with it.
The present invention provides a communication device that does not adversely affect an internal circuit (CPU) even if a short circuit occurs. Station The purpose is to provide.
[0015]
[Means for Solving the Problems]
In the communication slave station according to the present invention, Multiple input devices can be connected externally, and status signals for each input device In the communication slave station that communicates with the communication master station of the programmable controller, the power supplied from the power input unit, the internal circuit, Said Input device Respectively Has a power supply system for operating power The power supply system for each input device is independent. ,
A power supply point to the internal circuit in the power supply system, and the input device Respectively During the power supply point to Short-circuit detection is performed independently for each input device, and when a short-circuit is detected, only power supply to the input device to be detected is stopped. Short circuit protection circuit , For each of the input devices The internal circuit has a function of executing an abnormal process when a short circuit occurs.
[0016]
The number of input devices connected to one short circuit protection circuit may be one as shown in the first embodiment, or a plurality of input devices as shown in the second embodiment. Further, the power input unit corresponds to the internal power supply terminal 11 in the embodiment.
[0017]
According to the present invention, when a short circuit accident occurs in a power supply system (including a connection line with an input device connected to the outside of a communication slave station) connected to an input device, power is supplied to the input device by a short circuit protection circuit. Is stopped. The power supply to the internal circuit is stably continued. In other words, since the power supply system connected to the input device and the power supply system connected to the internal circuit are electrically in the same system, if there is a short circuit accident in the power supply system connected to the input device as it is, the power supply system connected to the internal circuit Although the system is also short-circuited, in the present invention, power supply to the internal circuit is ensured by the short-circuit protection circuit. As described above, since the internal circuit operates normally, it is possible to perform various types of abnormal processing, and there is no occurrence of breakage / damage associated with a short circuit.
[0018]
Many communication slave stations can be connected as a plurality of external input devices. In such a case, a plurality of input devices may be managed by a single short-circuit protection circuit. In this way, since only one short-circuit protection circuit is required, the circuit board and the like can be made smaller. In addition, each of the power supply systems for a plurality of input devices may be provided, and the short circuit protection circuit may be configured to operate independently of each other and have a function of stopping only power supply to the connected input devices. it can. In this way, a short-circuit protection circuit is required for the number of input devices, and the entire device becomes larger, but since individual control is performed, input devices that are not short-circuited can be operated as they are. Become.
[0019]
According to a preferred embodiment of the present invention, the short circuit protection circuit has a function of notifying when a short circuit is detected. The “notification” here refers to notification to the user using various notification means such as notifying the internal circuit of the occurrence of a short circuit, turning on an indicator lamp such as an LED, or sounding an alarm buzzer. There are things. In short, since the short-circuit protection circuit knows that a short-circuit has occurred, it includes everything that notifies other short-circuit information points. In this way, by spontaneously notifying the occurrence of a short circuit, the other party that has received the notification can quickly perform processing corresponding to the short circuit.
[0020]
As an abnormal process, for example, there is a process of notifying the communication master station of the occurrence of a short circuit. The detection of the occurrence of a short circuit can be made on the internal circuit side, or can be performed by receiving a signal for notifying an external short circuit. In addition, Internal circuit error processing is Among multiple input devices Short circuit Which input device has detected Identified and identified information Is preferably performed to notify the communication master station. Here, in the embodiment, the short-circuit location is an input terminal number (also called a channel) where a short-circuit accident has occurred. Furthermore, the occurrence of a short circuit accident between the input device (for example, a three-wire sensor) itself connected to the input terminal or the connection line is defined as a short-circuit portion in the input terminal system.
[0021]
Of course, in this invention, it is not necessary to notify a short circuit location in this way. Of course, if the short-circuit location is unknown (cannot be recognized), even if it can be recognized, the communication master station may be notified of the occurrence of the short-circuit.
[0022]
Furthermore, the processing at the time of abnormality is not limited to such notification. For example, an indicator lamp that notifies of the occurrence of a short circuit is turned on, a predetermined partner other than the communication master station is notified, or a short circuit protection circuit is provided. There are various types such as automatic return.
[0023]
Furthermore, when the short circuit protection circuit stops power supply when a short circuit occurs, the power supply system to be cut off may be on the non-connected side of the chassis ground. In this way, protection from short circuit is surely taken. further, Once a short circuit is detected by the short circuit protection circuit, it is preferable to provide a self-holding circuit for each input device that stops only the power supply to the input device subject to short circuit detection and holds the state. In addition, it is more preferable to provide a manual return switch that releases the holding state of the self-holding circuit so that the power supply to the input device subject to short circuit detection can be resumed. In addition, The self-recovery function Affect As the manual switch is pressed Not only It can be done automatically.
[0024]
Further, the communication slave station of the present invention is a communication slave station that communicates with the communication master station of the programmable controller. The power supplied from the power supply input unit is used as an operating power source for the internal circuit and the external input device. A short-circuit protection circuit is provided in the power supply system, and when the short-circuit occurs due to the operation of the short-circuit protection circuit, the power supply to the input device and the internal circuit is stopped, and the short-circuit protection The circuit includes a switching element, and the power supply is stopped by turning off the switching element. When the switching element is turned off due to the occurrence of a short circuit, the circuit self-holds the state, and the self It is to provide a return function that cancels the holding.
[0027]
The above-described components of the present invention can be combined as much as possible. Each means constituting the present invention can be realized by a dedicated hardware circuit, or can be realized by a programmed computer.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 5 shows a first embodiment of the present invention. This figure shows a state in which a sensor 20 as an input device is connected to the communication slave 10. The communication slave 10 is network-connected to the master PLC and performs I / O communication. That is, it is realized by the system configuration as shown in FIG. Of course, other configurations than those shown in FIG.
[0029]
The sensor 20 is an NPN type three-wire type. And the internal circuit 21 which performs the sensing which is the original function of the sensor 20, and the transistor 22 for outputting the result are incorporated. That is, the base voltage of the transistor 22 is controlled by the internal circuit 21 and the ON / OFF of the transistor 22 is controlled. By expressing the state of the sensor 20 by ON / OFF of the transistor 22, the state of the sensor 20 is transmitted to the communication slave 10.
[0030]
The communication slave 10 includes an internal power supply terminal 11 for connecting the internal power supply 6, an I / O power supply terminal 12 for supplying power to the sensor 20, and an I / O terminal 13 for receiving sensor signals. It has. As shown in the figure, in the driving state, the internal power supply 6 is connected to the I / O power supply terminal 12. Further, the internal circuit 21 of the sensor 20 is connected to the I / O power supply terminal 12. In both cases, the positive side of each power line is installed on the chassis ground. Further, the output signal of the sensor 20 is connected to the I / O terminal 13.
[0031]
As a result, the power supply system of the internal circuit (CPU) 14 in the communication slave 10 and the internal circuit 21 of the sensor 20 is shared, and the internal circuit (CPU) 14 and the sensor 20 are supplied with power from the internal power supply 6. The sensor output is given to the internal circuit 14 in the communication slave 10, and a predetermined process is executed by the internal circuit 14 to create a transmission frame, which is transmitted to the PLC. Since the processing function is the same as the conventional one, detailed description thereof is omitted.
[0032]
Here, in the present invention, a protection circuit 15 is provided on the power supply line of the communication slave 10 and a function is provided for cutting off the power supply line when a short circuit occurs downstream of the protection circuit 15 (referenced to the internal power supply 6). . Furthermore, although it is an installation position of the protection circuit 15, it is connected downstream from the power supply point of the internal circuit. That is, the protection circuit 15 is installed between the internal circuit 14 and the I / O terminal 13. In other words, the protection circuit 15 is provided between the power supply point A to the internal circuit 14 and the power supply point B to the sensor 20 in the power supply system (power supply line).
[0033]
As a result, even if a short circuit occurs and the protection circuit 15 or the power supply line is disconnected, the power line higher than that, that is, the power supply line between the internal power supply terminal 11 and the protection circuit 15 operates normally. The power supply from the power supply 6 to the internal circuit 14 is continued.
[0034]
As shown in the schematic configuration of FIG. 5, the protection circuit 15 monitors the current flowing through the power supply line (minus side), and determines whether or not there is a short circuit depending on whether or not an overcurrent state occurs. It has a switching element Tr3 inserted in series on a power supply line (minus side: a line different from the chassis ground line). The switching element Tr3 is ON in a steady state and the switch is closed. When a short circuit is detected by the short circuit detection circuit 16, the switching element Tr3 is turned OFF and the switch is opened. That is, it operates to shut off (the operation principle will be described later).
[0035]
The reason why the switching element Tr3 is provided on the non-grounded line of the chassis ground in this way is as follows. That is, since the communication slave illustrated in FIG. 5 is an NPN type, the plus side is an electrical common and the plus side terminal of the I / O power supply terminal 12 is grounded to the chassis ground. Therefore, even if a switching element is provided on the plus side of the power supply line and the switching element is cut off when a short circuit accident occurs, there is a possibility that the short circuit remains through the chassis ground in the communication slave 10. For example, if the minus line of the three cables for connecting to the sensor 20 touches the ground, or if the sensor signal line touches the ground and the transistor 22 of the sensor 20 is turned on, a short circuit route is formed. This is because the short circuit accident cannot be resolved.
[0036]
Further, a self-holding circuit 18 is provided so that once the short circuit detection circuit 16 detects a short circuit and outputs a detection signal, the state is held. That is, when the switching element Tr3 is turned off based on the output of the short circuit detection circuit 16, it is natural that current does not flow and the overcurrent state is released. Accordingly, the short circuit detection circuit 16 determines that there is no overcurrent as it is, and the switching element Tr3 is turned on again, causing chattering. Therefore, the self-holding circuit 18 maintains the OFF state while keeping the base potential of the switching element Tr3 in the Low state.
[0037]
Further, a short circuit detection indicator lamp 19 is provided. This short-circuit detection indicator lamp 19 is composed of an LED, and is normally off, and operates so as to be lit when a short-circuit occurs. Thus, the user can visually recognize which sensor is causing the short circuit based on whether or not the short circuit detection indicator lamp 19 is lit. As an example of a specific installation position, it can install in parallel (for example, two steps up and down) so that it may adjoin and correspond to the indicator lamp which shows ON / OFF of the sensor signal shown in FIG. That is, one of the upper and lower stages is a sensor signal and the other is a short circuit detection indicator.
[0038]
An example of a more specific circuit configuration of the protection circuit 15 is shown in FIG. The configuration will be described while explaining the operation. First, in a steady state, a voltage generated by dividing the voltage (between BS + and BS−) applied to the sensor 20 by the resistors R5 and R6 is applied to the base of the switching element Tr3. As a result, the switching element Tr3 is turned on (normally closed), and a voltage is applied to the sensor 20. Note that the four transistors Tr1, Tr2, Tr4, Tr5 are OFF in a steady state.
[0039]
A detection resistor R7 is inserted in series on the negative side of the power supply line. Thereby, for example, when a short circuit occurs between the power supply lines to the sensor 20 and an overcurrent flows, the upper end potential of the detection resistor R7 increases. Then, the base voltage of the transistor Tr1 generated by the resistors R9, R10, and R11 also increases, and the transistor Tr1 is turned on. Then, since the predetermined base voltage is applied to the base voltage of the transistor Tr4 by the resistors R12, R13, and R14, the transistor Tr4 is also turned on when the transistor Tr1 is turned on.
[0040]
As a result, the resistor R6 connected to the base of the switching element Tr3 and the negative line is short-circuited by the two transistors Tr4 and Tr1, and the base of the switching element Tr3 becomes Low, so that the switching element Tr3 is turned OFF. As a result, the power supply line is cut off, so that power supply to the short-circuit path between the supply power supply lines to the sensor 20 is stopped, and so-called “short-circuit protection” is performed. In addition, since the two transistors Tr4 and Tr1 are turned on, a current flows through the LED that is the short-circuit detection indicator lamp 19, and the LED is turned on.
[0041]
The short-circuit detection circuit 16 includes the detection resistor R7, the transistor Tr1, and the resistors R9, R10, and R11 for generating the base voltage of the transistor Tr1.
[0042]
The transistor Tr4 is an inrush current protection circuit. That is, the current value increases due to the inrush current when the power is turned on, and the transistor Tr1 may be turned on. In order to prevent this, the time constant determined by the resistors R12, R13, R14 and the capacitor C4 delays the rise of the base voltage of the transistor Tr4 from the power-on to a desired value, and turns off the transistor Tr4 for a certain period. Like to do. Note that the base voltage rises to a desired value after a lapse of a certain period, but the transistor Tr4 remains OFF because the transistor Tr1 is OFF as described above.
[0043]
On the other hand, once the switching element Tr3 is turned off when a short circuit occurs, no current flows through the detection resistor R7, and as it is, the base voltage of the transistor Tr1 is lowered and turned off, and the base potential of the switching element Tr3 is set to the resistance R5. The switching element Tr3 is turned on again.
[0044]
Therefore, a self-holding circuit 18 is provided to prevent the transistor Tr1 from turning off. That is, since the two transistors Tr4 and Tr1 are turned on, the resistor R3 conducts to the negative side of the power supply line, and a desired voltage divided by the resistors R2 and R3 is applied to the transistor Tr2 as a base voltage. As a result, the transistor Tr2 is turned on. Then, a path of this transistor Tr2 → resistor R4 → resistor R10 → resistor R11 is formed, and the transistor Tr1 maintains the ON state by the base voltage generated by the voltage division by the resistors R4, R10, and R11.
[0045]
Further, a transistor Tr5 that is turned on / off based on the upper end voltage of the detection resistor R7 is also provided. Similarly to Tr1, the transistor Tr5 is also turned on when the upper end voltage of the detection resistor R7 increases due to overcurrent. The collector terminal of the transistor Tr5 is connected to the internal circuit (CPU) 14. Thereby, at the time of a short circuit, the transistor Tr5 is turned ON, and the collector potential changes from High to Low. This is sent to the internal circuit (CPU) 14 as a short circuit detection signal. Therefore, the internal circuit (CPU) 14 can determine the presence or absence of a short circuit based on the change in the short circuit detection signal.
[0046]
In the above example, the short-circuit detection indicator lamp 19 is configured to operate in the protection circuit 15, but the present invention does not necessarily require such a configuration. For example, the internal circuit (CPU) 14 can directly drive and control the LED by the internal circuit (CPU) 14 by a short circuit detection signal from the transistor Tr5. Of course, the present invention is not limited to LEDs or other lamps, and alarm means using a buzzer or sound may be used.
[0047]
Next, the release of the self-holding circuit 18 will be described. When the return switch SW, which is a normally open contact, is turned ON, first, the base voltage of the transistor Tr1 becomes Low, so that the transistor Tr1 is turned OFF. Then, since a desired base voltage is applied to the base of the switching element Tr3 along with the resistors R5 and R6, the switching element Tr3 is turned on. The transistor Tr2 of the self-holding circuit 18 is also turned off because the base is open. Further, as the return switch SW is turned on, the charge charged in the capacitor is discharged via the diodes D2 to D4.
[0048]
The return switch SW may be manually operated, but for example, automatic return control that is periodically turned on based on a control signal from the internal circuit (CPU) 14 may be performed.
[0049]
The protection circuit 15 configured as described above is preferably provided for each sensor (input I / O device). That is, as shown in FIG. 7, a protection circuit 15 is provided for each I / O power supply terminal 12 for each sensor. As a result, each protection circuit 15 is arranged in parallel with the power supply line from the internal power supply terminal 11. Furthermore, each protection circuit 15 is installed downstream of the internal circuit (CPU) 14.
[0050]
FIG. 7 shows an example in which three-wire sensors are connected to all the input terminals, and Vo (n) is a sensor power supply (positive side) for the nth sensor, and G (n ) Is a sensor supply power source (minus side) for the nth sensor, and S (n) is an input terminal of a sensor signal for the nth sensor. These are the same in the following figures.
[0051]
At this time, the I / O power supply terminal 12 of the communication slave is made independent for each input point. 2 to 4, the I / O power supply terminal 2d has two systems. However, when the number of input points is eight as in this embodiment, the power supply terminals have eight systems. That is, one plus / minus of the I / O power supply terminal 12 is provided for each of the I / O terminals 13 for attaching the input device, and eight systems are provided. Therefore, although not shown, the external appearance of the present embodiment has a structure in which a predetermined number of I / O power supply terminals 2d are increased by a predetermined number on the basis of those of FIGS.
[0052]
The internal configuration of the protection circuit 15 is the same as that shown in FIG. Therefore, a short-circuit detection function by the transistor Tr5 is provided. Therefore, a short circuit detection signal from each protection circuit 15 is input to a different port of the internal circuit (CPU) 14. As a result, the internal circuit (CPU) 14 determines from which port the short circuit detection signal has been received (that is, whether there has been a change between High and Low). Can be identified.
[0053]
Further, in this embodiment, the internal circuit (CPU) 14 is also provided with a function of communicating to the master side (PLC) which channel is short-circuited. Specifically, an internal structure as shown in FIG. 8 is adopted. That is, in this example, since eight sensors can be connected, eight ports for inputting sensor signals are prepared, and in addition to this, a short circuit detection signal from each protection circuit 15 is input. Eight ports are also available. Ports for 8 channels for sensor signals are directly given to the port information reading unit 14a, and ports for 8 channels for short circuit detection signals from the protection circuit 15 are given via the short circuit detection input unit 14b. In the figure, a single connection line from the short-circuit detection input unit 14b to the port information reading unit 14a is shown, but eight channels are prepared.
[0054]
According to such a configuration, the sensor signal and the short circuit detection signal from the protection circuit 15 are given to the port information reading unit 14a. Then, the parallel / serial conversion unit 14c performs parallel / serial conversion, arranges the sensor signal and the short circuit detection signal in a predetermined order, converts the signal into a serial signal, and supplies the serial signal to the transmission frame generation unit 14d. The transmission frame generation unit 14d generates a transmission frame for transmitting the received serial signal to the master PLC. Specifically, as shown in FIG. 9 (a), a transmission frame in which a serial signal (sensor signal + short-circuit detection data) received following a transmission destination address and a header is added and a footer is added after that is added. Generate. Then, the generated transmission frame is transmitted to the remote I / O bus via the communication driver 14e. Thereby, it is possible to notify the partner (PLC side communication master unit 1d) specified by the transmission destination address of the sensor information and the short circuit presence / absence information.
[0055]
With such a configuration, the master PLC can determine which channel the short circuit accident has occurred, so that the sensor signal of that channel can be determined to be inaccurate and appropriate control can be continued as the inaccurate signal. . Here, with appropriate control, for example, it is possible to execute a predetermined abnormality process by event interruption. Further, the control content may be stopped on the safe side. Note that it is possible to continue the control by determining that the sensor signal from the channel where no accident has occurred is valid.
[0056]
In the present embodiment, all the short-circuit detection signals from the protection circuit 15 acquired by the short-circuit detection input unit 14b are directly supplied to the port information reading unit 14a. For example, the short-circuit detection input unit 14b may be an OR circuit for eight inputs, and may be turned ON when there is a short-circuit accident in any channel. Good.
[0057]
In this case, the port information reading unit 14a receives in parallel a channel signal (n points) of sensor signals and a 1-bit signal indicating whether or not a short circuit accident has occurred. The transmission frame finally generated by the transmission frame generation unit 14d can be as shown in FIG. 9B. In this case, although it is impossible for the PLC to know which channel has caused the short-circuit accident, it is understood that the reliability of the sensor signal transmitted from the communication slave device in which the short-circuit has occurred is low. If all sensor signals received from slave devices are invalidated, or if the status of the sensor signal changes, it is determined that the channel is operating normally, and sensor signals on other channels are invalidated. can do. Further, the appropriate processing associated with an abnormality is executed in the same manner as described above.
[0058]
In this embodiment, a message generation unit 14f that generates a message for notifying a short circuit is provided. That is, when the output of the short-circuit detection input unit 14b is received and a short-circuit accident occurs, a short-circuit detection message is transmitted to notify that and is given to the transmission frame generation unit 14d. Then, a transmission address, a header, and a footer are added to the short circuit detection message by the transmission frame generation unit 14d to generate a transmission frame as shown in FIG. 9C. This transmission frame is transmitted to the master PLC by event communication. At this time, the content of notifying that the short-circuit accident has occurred may be added to the content of the short-circuit detection message, or the content specifying the channel until the short-circuit accident has occurred may be added.
[0059]
Further, in the above-described embodiment, a function of automatically notifying the master PLC when a short circuit accident occurs is provided, but this function may not be provided. Even if it is provided, the user may alternatively be able to select whether or not to use the function.
[0060]
FIG. 10 shows a modification of the present embodiment. That is, in the above-described embodiment, the example using the NPN type communication slave and the sensor has been described. However, the illustrated example shows the PNP type communication slave 10 ′ that connects the PNP type sensor 20 ′. . As shown in the figure, in the case of the PNP type, since the minus side is an electric common, it is necessary to ground the minus side to the chassis ground. Therefore, when the protection circuit 15 is provided in the communication slave 10 ', the blocking switching element Tr3 is provided on the positive side of the power supply line. Thereby, when an overcurrent flows through the power supply line, the switching element Tr3 is opened and shut off. Therefore, the short circuit state is eliminated, and power is stably supplied to the internal circuit (CPU) 14. The internal configuration of the protection circuit 15 is symmetrically inverted between the plus and minus relationships and the P and N relationship. However, the operation of the internal circuit 14 at the time of a short circuit is the same as in the above-described embodiments and modifications. Therefore, detailed description thereof is omitted.
[0061]
FIG. 11 shows a second embodiment of the present invention. As shown in the figure, in the present embodiment, one protection circuit 15 is provided, and a plurality of sensors (I / O power supply terminals 12) are connected to the protection circuit 15 in parallel. Further, the installation position of the protection circuit 15 in the power supply line is arranged downstream of the internal circuit (CPU) 14, that is, between the internal circuit 14 and the sensor 20. In other words, the power supply from the internal power supply 6 is performed via the protection circuit 15 for the sensor, but directly to the internal circuit (CPU) 14. The internal configuration of the protection circuit 15 is the same as that in the first embodiment described above.
[0062]
As a result, when a short circuit accident occurs in any of the sensors and channels, the protection circuit 15 is activated and the power supply line to all sensors is shut off. Accordingly, power supply to the internal circuit (CPU) 14 is ensured, and the internal circuit (CPU) remains operable even if a short circuit accident is occurring. For example, the PLC may be informed that such a short circuit accident has occurred. The communication slave 10 itself can be controlled to be automatically turned off.
[0063]
The short circuit detection notification can be executed based on the same function as that of the first embodiment. However, in this embodiment, it is not possible to specify in which channel a short circuit accident has occurred, and a notification that a short circuit has occurred in any of the channels is given. Therefore, the transmission frame is either one of FIGS. 9B and 9C.
[0064]
The second embodiment as described above is based on the idea of collectively performing short-circuit protection for a plurality of input terminals. In the example shown in FIG. 11, when the number of input contacts is 8 (n = 8), one protection circuit 15 is provided for eight input terminals. For example, the first to fourth input terminals This includes the idea that one protection circuit is provided and one protection circuit is provided at the fifth to eighth input terminals. At this time, since there are two I / O power supply terminals of the communication slave, two systems as shown in FIGS.
[0065]
Furthermore, in the present invention, as long as a single protection circuit protects a plurality of input terminals from being short-circuited, the number of protection circuits installed in one communication slave 10 is not limited to one. In addition, as illustrated above, it is not necessary to distribute the sensors for short circuit protection evenly, such as four sensors. Furthermore, as in the first embodiment, one input terminal is replaced by one protection circuit. A part that is short-circuit protected may be included. That is, for example, seven sensors can be short-circuit protected with one protection circuit, and one sensor can be short-circuit protected with another protection circuit.
[0066]
In this embodiment, since the protection circuit 15 is less than the input terminal, it is suitable for downsizing and cost reduction. Since other configurations and operational effects are the same as those of the above-described embodiment and modification, detailed description thereof is omitted.
[0067]
FIG. 12 shows a third embodiment of the present invention. In the present embodiment, one protection circuit 15 is provided as in the embodiment shown in FIG. And the installation position differs from each above-mentioned embodiment, and it installs in the upstream rather than the internal circuit (CPU) 14. That is, when an overcurrent state occurs due to a short circuit, the protection circuit 15 cuts off the power supply line and cuts the power supply on the downstream side, so that the power supply to the internal circuit (CPU) 14 as well as the sensor is stopped. ing.
[0068]
By taking such a configuration, the internal circuit (CPU) 14 is damaged due to a short-circuit accident, or erroneous information generated by unstable power supply to the internal circuit (CPU) 14 is sent to the PLC. It can be fundamentally suppressed that the control of the PLC becomes strange due to the erroneous information. In addition, although it is not possible to notify the short circuit from the communication slave 10 spontaneously, it is relatively easy to notice from the movement of the equipment device that the operation is strange (the communication slave 10 is not in operation) by a local supervisor or the like. In many cases, the cause of the failure is limited, and repairs and repairs can be made by checking and checking for broken sensors and wiring errors.
[0069]
In the present embodiment, since the internal circuit (CPU) 14 does not operate, it is not necessary to output a short circuit detection signal from the protection circuit 15 as in the first and third embodiments. Therefore, the internal configuration of the protection circuit 15 can be realized by removing the functional portion that outputs the short-circuit detection signal including the transistor Tr5 from the configuration of each of the embodiments described above.
[0070]
Finally, another application example will be described. In the above-described three embodiments, an example is shown in which the present invention is applied to a communication slave that is a slave station of a PLC remote I / O. However, the present invention is not limited to this, and is a control device that can connect an input device. The present invention can be applied to a power supply line common to the input device and the internal circuit of the control device. As an example, there is a small single unit PLC called a micro PLC (PLC in which each unit of the PLC illustrated in FIG. 1 is integrated and accommodated in a single case).
[0071]
When a connection line to the input device connected to the control device is short-circuited, the protection circuit may be activated to stop the operation of the input device and continue the operation of the control device.
[0072]
Of course, communication slaves can also be applied to communication slaves that support I / O contacts that connect both input and output devices. In this case, the inventive concept is applied to an input system in which a power supply line to an input device is shared with an internal circuit. In any case, the configuration and installation position of the protection circuit are the same as those in each of the above-described embodiments, and thus detailed description thereof is omitted.
[0073]
【The invention's effect】
As described above, according to the present invention, even if a short circuit occurs, the short circuit protection circuit operates, so that there is no adverse effect on the internal circuit (CPU) and the like.
[Brief description of the drawings]
FIG. 1 shows an example of the overall configuration of a system to which the present invention is applied.
FIG. 2A is a diagram illustrating an example of an appearance of a communication slave.
(B) is a figure which shows the example of arrangement | positioning of a terminal.
FIG. 3 is a diagram illustrating an example of wiring.
FIG. 4 is a diagram showing an internal structure of a sensor and a communication slave showing a conventional example.
FIG. 5 is a block diagram showing a first embodiment of the present invention.
6 is a diagram illustrating a specific configuration example of a protection circuit 15. FIG.
FIG. 7 is a diagram showing a specific example of the first embodiment of the present invention.
FIG. 8 is a diagram showing an internal structure of an internal circuit.
FIG. 9 is a diagram illustrating an example of a transmission frame.
FIG. 10 is a diagram showing a modification.
FIG. 11 is a diagram showing a specific example of the second embodiment of the present invention.
FIG. 12 is a diagram showing a specific example of the third embodiment of the present invention.
[Explanation of symbols]
6 Internal power supply
10 Communication slave (slave station)
11 Internal power supply terminal
12 I / O power supply terminal
13 I / O terminal
14 Internal circuit (CPU)
15 Protection circuit
16 Short circuit detection circuit
18 Self-holding circuit
19 Short-circuit detection indicator
Tr3 switching element
20,20 'sensor

Claims (4)

In communication slave stations that can connect multiple input devices externally and communicate the status signal of each input device to the communication master station of the programmable controller,
The power supplied from the power input unit, and an internal circuit has a power supply system for the operating power of each of the input device, each of the power supply system input device is independent,
And a power supply point to the internal circuit in the power supply system, between the power supply point to each of the input device, independently of one another to detect a short circuit for each input device, the detection when detecting a short circuit A short-circuit protection circuit that stops only power supply to the target input device is provided for each of the input devices ,
The communication slave station, wherein the internal circuit has a function of executing an abnormal process when a short circuit occurs. The internal circuit abnormality process is a process of identifying which input device detects a short circuit among a plurality of input devices and notifying the communication master station of the identified information. Item 2. The communication slave station according to item 1 . Once a short circuit is detected by the short circuit protection circuit, a power supply to the input device subject to short circuit detection is stopped, and a self-holding circuit for holding the state is provided for each input device. The communication slave station according to claim 1. 4. The communication slave station according to claim 3, further comprising a manual return switch that cancels the holding state of the self-holding circuit and enables the supply of power to the input device subject to short-circuit detection to be resumed.

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