• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A slave device is connected to a master device and a lower-level slave device via a transmission path, and includes a first connector, a second connector, a switch, and a communicator. The switch is connectable to an connection end and configured to switch the connection end between the first connector and the second connector based on a type of connection of the slave device with the master device and the lower-level slave device. The communicator is connected to the first connector and the switch, and is configured to transmit and receive a first communication signal to and from the first connector and transmit and receive a second communication signal to and from the switch.
    公开号:EP3703320A1
    申请号:EP20160057.4
    申请日:2020-02-28
    公开日:2020-09-02
    发明作者:Manabu Fujita;Wataru NOZAKI;Isamu Matsumura;Junya Hisamatsu
    申请人:Yaskawa Electric Corp;
    IPC主号:H04L12-00
    专利说明:
    [0001] The present invention relates to a slave device and a communication system. DISCUSSION OF THE BACKGROUND
    [0002] Patent documents 1 to 4 disclose a communication system that includes a master device and a plurality of slave devices. Related Art DocumentsPatent Documents
    [0003] Patent document 1: JP63-050138A Patent document 2: JP2010-238000A Patent document 3: JP4935336B Patent document 4: JP6349687B
    [0004] In communication systems, there are two typical types of connection (physical topology) between a master device and a plurality of slave devices, namely, cascade connection (or daisy-chain connection, line connection, or linear connection) and T-branch connection.
    [0005] Cascade connection and T-branch connection are different types of connection and use different devices. This has made the selection and operation of necessary devices complicated in establishing a communication system.
    [0006] In light of the considerations above, it is an object of the present invention to provide a slave device and a communication system that are usable both in cascade connection and T-branch connection. SUMMARY
    [0007] According to the present invention, a slave device as defined by claim 1 is provided. A communication system according to the present invention is defined in claim 9. The dependent claims show some examples of such a slave device. According to another aspect of the present invention, which aspect may be separately from or combined with the aspect defined in claim 1, a slave device is connected to a master device and a lower-level slave device via a transmission path, and includes a first connector, a second connector, a switch, and a communicator. The switch is connectable to an connection end and configured to switch the connection end between the first connector and the second connector based on a type of connection of the slave device with the master device and the lower-level slave device. The communicator is connected to the first connector and the switch, and is configured to transmit and receive a first communication signal to and from the first connector and transmit and receive a second communication signal to and from the switch.
    [0008] According to another aspect of the present invention, which aspect may be separately from or combined with the aspect defined in claim 9, a communication system includes the above-described slave device, a master device, and at least one lower-level slave device. The master device is connected to the slave device and located at an upper level relative to the slave device. The at least one lower-level slave device is connected to the slave device and located at a lower level relative to the slave device.
    [0009] According to a first further aspect of the present invention, which first further aspect may be separately from or combined with any of the remaining aspects of the present invention, a slave device is provided, with the slave device connected to a master device and a lower-level slave device via a transmission path, the slave device having: a first connector; a second connector; a switch connectable to an connection end and configured to switch the connection end between the first connector and the second connector based on a type of connection of the slave device with the master device and the lower-level slave device; and a communicator connected to the first connector and the switch and configured to transmit and receive a first communication signal to and from the first connector and transmit and receive a second communication signal to and from the switch.
    [0010] According to a first embodiment of the first further aspect of the present invention, the slave device further comprises: a first transceiver located between and connected to the first connector and the communicator; a second transceiver located between and connected to the first connector and the switch; and a third transceiver located between and connected to the second connector and the switch.
    [0011] According to a second embodiment of the first further aspect of the present invention, the slave device further comprises: a first transceiver located between and connected to the first connector and the communicator; and a second transceiver located between and connected to the switch and the communicator.
    [0012] According to a third embodiment of the first further aspect of the present invention, which third embodiment may be also combined with any of the first and second embodiments of the first further aspect of the present invention, when the type of connection is T-branch connection, the switch is configured to switch the connection end to the first connector, and when the type of connection is cascade connection, the switch is configured to switch the connection end to the second connector.
    [0013] According to a fourth embodiment of the first further aspect of the present invention, which fourth embodiment may be also combined with any of the first to third embodiments of the first further aspect of the present invention, upon turning-on of the slave device, the switch is configured to check a connection state indicating whether the connection end is the first connector or the second connector.
    [0014] According to a first example of the fourth embodiment of the first further aspect of the present invention, the communicator is configured to: manage the connection state; notify the switch of the connection state upon receipt of a connection request signal from the master device via the first connector; and switch the connection end based on the connection state that has been notified.
    [0015] According to a second example of the fourth embodiment of the first further aspect of the present invention, in an initial state of the switch, the switch is connected to at least one connector among the first connector and the second connector, wherein upon receipt of a connection request signal from the master device via the first connector, the communicator is configured to forward the connection request signal to the lower-level slave device via the switch, wherein when the communicator has received from the lower-level slave device a response signal responsive to the connection request signal within a predetermined period of time, the communicator is configured to transmit to the master device a connection completion signal responsive to the connection request signal, and wherein when the communicator has not received from the lower-level slave device the response signal within the predetermined period of time, the communicator is configured to instruct the switch to switch the connection end.
    [0016] According to a third example of the fourth embodiment of the first further aspect of the present invention, in an initial state of the switch, the switch is connected to at least one connector among the first connector and the second connector, wherein the switch is configured to transmit a check signal to the lower-level slave device via the connector to which the switch is connected, and wherein when the switch has not received from the lower-level slave device a response signal responsive to the check signal within a predetermined period of time, the switch is configured to switch the connection end.
    [0017] According to a second further aspect of the present invention, which first further aspect may be separately from or combined with any of the remaining aspects of the present invention, a communication system is provided, the communication system having a slave device according to the present invention; a master device connected to the slave device and located at an upper level relative to the slave device; and at least one lower-level slave device connected to the slave device and located at a lower level relative to the slave device.
    [0018] The above-described aspects of the present invention provide a slave device and a communication system that are usable both in cascade connection and T-branch connection. BRIEF DESCRIPTION OF THE DRAWINGS
    [0019] A more complete appreciation of the present invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:FIG. 1 is a schematic illustrating an example overall configuration of a communication system according to a first embodiment; FIG. 2 is a schematic illustrating another example overall configuration of the communication system according to the first embodiment; FIG. 3 illustrates an example functional block of a slave device constituting a part of the communication system according to the first embodiment; FIG. 4 illustrates an example functional block of a slave device constituting a part of a communication system according to a second embodiment; FIG. 5 is a schematic illustrating an example overall configuration of a communication system according to a modification of the first and second embodiments; and FIG. 6 is a schematic illustrating an example overall configuration of a communication system according to another modification of the first and second embodiments. DESCRIPTION OF THE EMBODIMENTS
    [0020] Ebodiments will be described by referring to FIGs. 1 to 6. First Embodiment
    [0021] By referring to FIGs. 1 to 3, an example configuration of a communication system 1 according to this embodiment will be described.
    [0022] It is to be noted that the communication system 1 according to this embodiment may be used in a sensor communication network or in a modbus communication network.
    [0023] As illustrated in FIGs. 1 and 2, the communication system 1 according to this embodiment includes a master device 10 and a plurality of slave devices 20 (20A, 20B, 20C, and 20D). In the communication system 1 according to this embodiment, the type of connection (physical topology) between the master device 10 and the plurality of slave devices 20 may be T-branch connection as illustrated in FIG. 1 or may be cascade connection as illustrated in FIG. 2.
    [0024] In T-branch connection, which is illustrated in FIG. 1, the master device 10 is connected to a branching unit 30A via a transmission path (cable) 41; the slave devices 20A, 20B, and 20C are connected to the branching unit 30A via transmission paths 42A, 42B, and 42C, respectively; the slave device 20D is connected to a branching unit 30B via a transmission path 42D; and the branching unit 30A and the branching unit 30B are connected to each other via a transmission path 43.
    [0025] In this T-branch connection, communication signals are transmitted and received by bidirectional communication between the master device 10 and the slave device 20A, between the slave device 20A and the slave device 20B, between the slave device 20B and the slave device 20C, and between the slave device 20C and the slave device 20D.
    [0026] Also in this T-branch connection, power source signals and auxiliary power source signals from the master device 10 are supplied to: the slave devices 20A, 20B, and 20C via the transmission path 41, the branching unit 30A, and the transmission paths 42A, 42B, and 42C; and the slave device 20D via the transmission path 41, the branching unit 30A, the transmission path 43, the branching unit 30B, and the transmission path 42D.
    [0027] While the type of connection illustrated in FIG. 1 is termed herein as "T-branch connection", it is also possible to use some other term for the type of connection illustrated in FIG. 1.
    [0028] In cascade connection, which is illustrated in FIG. 2, the master device 10 is connected to the slave device 20A via a transmission path 51; the slave device 20A is connected to the slave device 20B via a transmission path 52; and the slave device 20B is connected to the slave device 20C via a transmission path 53.
    [0029] Also in this cascade connection, communication signals are transmitted and received by bidirectional communication between the master device 10 and the slave device 20A, between the slave device 20A and the slave device 20B, and between the slave device 20B and the slave device 20C.
    [0030] Also in this cascade connection, power source signals and auxiliary power source signals from the master device 10 are transmitted to the slave device 20A via the transmission path 51; then to the slave device 20B via the transmission path 52; and then to the slave device 20C via the transmission path 53.
    [0031] While the type of connection illustrated in FIG. 2 is termed herein as "cascade connection", it is also possible to use some other term for the type of connection illustrated in FIG. 2.
    [0032] In the communication system 1 according to this embodiment, examples of the master device 10 include, but are not limited to, a motor controller for a servo amplifier, a multi-axis controller, a programmable logic controller, and a motion controller. Also in the communication system 1 according to this embodiment, examples of the slave devices 20A, 20B, 20C, and 20D include, but are not limited to: various sensors (such as a distance sensor, a vibration sensor, a temperature sensor, a pressure sensor, a contact sensor, a illuminance sensor, a color temperature sensor, and a photoelectronic sensor); encoders; and linear scales.
    [0033] As illustrated in FIG. 3, the slave device 20A according to this embodiment includes a connector 21 (first connector), a connector 22 (second connector), a switch 23, a communicator 24, a transceiver 25 (first transceiver), a transceiver 26 (second transceiver), and a transceiver 27 (third transceiver).
    [0034] When the T-branch connection illustrated in FIG. 1 is employed, the connector 21 is connected to a transmission path 42A. When the cascade connection illustrated in FIG. 2 is employed, the connector 21 is connected to the transmission path 51. When the T-branch connection illustrated in FIG. 1 is employed, the connector 22 is not used. When the cascade connection illustrated in FIG. 2 is employed, the connector 22 is connected to the transmission path 52.
    [0035] The communicator 24 is connected to the connector 21 and the switch 23. The communicator 24 transmits and receives a first communication signal to and from the connector 21, and transmits and receives a second communication signal to and from the switch 23.
    [0036] Specifically, the communicator 24 may be connected to the connector 21 via the transceiver 25. In this case, the communicator 24 may transmit and receive a first communication signal to and from the connector 21 via the transceiver 25.
    [0037] Examples of the communicator 24 include, but are not limited to, a central processing unit (CPU), an application specific integrated circuit (ASIC), and a field-programmable gate array (FPGA).
    [0038] The transceiver 25 is located between and connected to the connector 21 and the communicator 24, and converts the protocol of the first communication signal. The transceiver 26 is located between and connected to the connector 21 and the switch 23, and converts the protocol of the second communication signal. The transceiver 27 is located between and connected to the connector 22 and the switch 23, and converts the protocol of the second communication signal.
    [0039] The transceivers 25, 26, and 27 are high-speed transmission interfaces IC for communication signals transmitted from the communicator 24 and/or communication signals received from the connector 21/22 (for example, RS422 signals and RS485 signals).
    [0040] A non-limiting example of the switch 23 is a switching circuit such as an analogue switch, and the switch 23 is connectable to at least one connector among the connector 21 and the connector 22.
    [0041] Specifically, based on the type of connection between the slave device 20A and the master device 10 and the type of connection between the slave device 20A and the slave devices 20B, 20C, and 20D (lower-level slave devices), the switch 23 switches the connection end (to which the switch 23 is connected) between the connector 21 and the connector 22.
    [0042] For example, when the type of connection is T-branch connection, the switch 23 switches the connection end to the connector 21 (the transceiver 26). When the type of connection is cascade connection, the switch 23 switches the connection end to the connector 22.
    [0043] The switch 23 may, upon turning-on of the slave device 20A, check a connection state indicating whether the connection end is the first connector 21 or the second connector 22.
    [0044] Also, the communicator 24 may manage the connection state and notify the switch 23 of the connection state upon receipt of a connection request signal from the master device 10 via the connector 21. The switch 23 may switch the connection end between the connector 21 and the connector 22 based on the connection state that has been notified.
    [0045] It is to be noted that the switch 23 may be, in its initial state, connected at least one connector among the connector 21 and the connector 22.
    [0046] Upon receipt of a connection request signal from the master device 10 via the connector 21, the communicator 24 may forward the connection request signal to the slave device 20B via the switch 23.
    [0047] In this case, when the communicator 24 has received from the slave device 20B a response signal responsive to the connection request signal within a predetermined period of time, the communicator 24 transmits to the master device 10 a connection completion signal responsive to the connection request signal.
    [0048] When the communicator 24 has not received from the slave device 20B the response signal within the predetermined period of time, the communicator 24 instructs the switch 23 to switch the connection end.
    [0049] Alternatively, the switch 23 may transmit a check signal to the slave device 20B via the connector 21 or the connector 22 to which the switch 23 is connected.
    [0050] In this case, when the switch 23 has not received from the slave device 20B a response signal responsive to the check signal within a predetermined period of time, the switch 23 switches the connection end.
    [0051] When the switch 23 has received from the slave device 20B the response signal within the predetermined period of time, the switch 23 does not switch the connection end. Second Embodiment
    [0052] By referring to FIG. 4, a communication system 1 according to the second embodiment will be described, with a primary focus on differences from the communication system 1 according to the first embodiment.
    [0053] As illustrated in FIG. 4, in the slave device 20A according to this embodiment, a transceiver 28 (first transceiver) is located between and connected to the connector 21 and the communicator 24, and a transceiver 29 is located between and connected to the switch 23 and the communicator 24. Modifications
    [0054] The slave device 20A according to the first or second embodiment may have the type of connection illustrated in FIG. 5. Specifically, a plurality of slave devices 20 are connected by T-branch connection on the upstream side, and a plurality of other slave devices 20 are connected by cascade connection on the downstream side. The slave device 20A according to the first or second embodiment may also have the type of connection illustrated in FIG. 6. Specifically, a plurality of slave devices 20 are connected by cascade connection on the upstream side, and a plurality of slave devices 20 are connected by T-branch connection on the downstream side. Advantageous Effects of the First and Second Embodiments
    [0055] As has been described hereinbefore, the slave device 20A used in the communication system 1 is connected to the master device 10 via the transmission path 42A and the transmission path 41, and is connected to the slave device 20B via the transmission path 42A and the transmission path 42B. The slave device 20A includes the connector 21, the connector 22, the switch 23, and the communicator 24. The switch 23 is connectable to a connection end switchable between the connector 21 and the connector 22. The communicator 24 is connected to the connector 21 and the switch 23. The communicator 24 transmits and receives a first communication signal to and from the connector 21, and transmits and receives a second communication signal to and from the switch 23. The switch 23 switches the connection end between the connector 21 and the connector 22 based on the type of connection of the slave device 20A with the master device 10 and the slave devices 20B, 20C, and 20D.
    [0056] With this configuration, the switch 23 switches the transmission or receiving end of the second communication signal (which is transmitted and received to and from the slave device 23B) between the connector 21 and the connector 22. This makes the single slave device 20A usable in both types of connection, cascade connection and T-branch connection.
    [0057] The slave device 20A may further include the transceiver 25, the transceiver 26, and the transceiver 27. The transceiver 25 is located between and connected to the connector 21 and the communicator 24. The transceiver 26 is located between and connected to the connector 21 and the switch 23. The transceiver 27 is located between and connected to the connector 22 and the switch 23.
    [0058] This ensures that the second communication signal transmitted from the communicator 24 can be switched quickly.
    [0059] The slave device 20A may further include the transceiver 28 and the transceiver 29. The transceiver 28 is located between and connected to the connector 21 and the communicator 24. The transceiver 29 is located between and connected to the switch 23 and the communicator 24.
    [0060] This ensures that the first communication signal and the second communication signal transmitted from the communicator 24 can be switched using a small number of transceivers (for example, two transceiver 28 and 29).
    [0061] Also in the slave device 20A, when the type of connection is T-branch connection, the switch 23 may switch the connection end to the connector 21. When the type of connection is cascade connection, the switch 23 may switch the connection end to the connector 22.
    [0062] This ensures that the transmission or receiving end of the second communication signal is switched appropriately using the single slave device 20A in both types of connection, cascade connection and T-branch connection.
    [0063] Also in the slave device 20A, the switch 23 may check the connection state upon turning-on of the slave device 20A. This enables a communication to start quickly after power of the slave device 20A is on.
    [0064] Also in the slave device 20A, the communicator 24 may manage the connection state and notify the switch 23 of the connection state upon receipt of a connection request signal from the master device 10 via the connector 21. The switch 23 may switch the connection end based on the connection state that has been notified.
    [0065] Also in the slave device 20A, the switch 23 may, in its initial state, be connected to at least one connector among the connector 21 and the connector 22. The communicator 24 may, upon receipt of a connection request signal from the master device 10 via the connector 21, forward the connection request signal to the slave device 20B via the switch 23. When the communicator 24 has received, from the slave device 20B, a response signal responsive to the connection request signal within a predetermined period of time, the communicator 24 may transmit to the master device 10 a connection completion signal responsive to the connection request signal. When the communicator 24 has not received the response signal from the slave device 20B within the predetermined period of time, the communicator 24 may instruct the switch 23 to switch the connection end.
    [0066] This ensures that the type of connection is checked quickly in response to a connection request signal received from the existing master device 10 serving as a trigger.
    [0067] Also in the slave device 20A, the switch 23 may, in its initial state, be connected to at least one connector among the connector 21 and the connector 22. The switch 23 may transmit a check signal to the slave device 20B via the connector 21 or the connector 22 to which the switch 23 is connected. When the switch 23 has not received from the slave device 20B a response signal responsive to the check signal within a predetermined period of time, the switch 23 may switch the connection end. This ensures that the switch 23 is capable of autonomously checking the type of connection without waiting for a connection request signal from the master device 10.
    [0068] In the slave device 20A and the communication system 1 according to the first and second embodiments, a single slave device 20A is usable in both types of connection, cascade connection and T-branch connection. The connection end may be a part of the switch that can be selectively put in a first position, thereby causing a connection (electrical or signal connection, respectively) to the first connector, and in a second position, thereby causing a connection (electrical or signal connection, respectively) to the second connector. 1 Communication system 10 Master device 20, 20A, 20B, 20C, 20D Slave device 21, 22 Connector 23 Switch 24 Communicator 25, 26, 27, 28, 29 Transceiver 30A, 30B Branching unit 41, 42A, 42B, 42C, 42D, 43, 51, 52, 53 Transmission path
    权利要求:
    Claims (9)
    [0001] A slave device (20) for a communication system, the slave device (20) comprising:
    a first connector (21) connectable to a master device (10);
    a second connector (22) connectable to another slave device;
    a switch (23) configured to alternatively connect to the first connector (21) or the second connector (22) according to a connection way via which the slave device (20) is connected to the master device (10) and the other slave device, provided that the first connector (21) is connected to the master device (10); and
    a communicator (24) connected to the first connector (21) and the switch (23), configured to transmit and receive a first communication signal to and from the first connector (21), and configured to transmit and receive a second communication signal to and from the switch (23).
    [0002] The slave device (20) according to claim 1, further comprising:
    a first transceiver (28) located between and connected to the first connector (21) and the communicator (24);
    a second transceiver (29) located between and connected to the first connector (21) and the switch (23); and
    a third transceiver (27) located between and connected to the second connector (22) and the switch (23).
    [0003] The slave device (20) according to claim 1, further comprising:
    a first transceiver (28) located between and connected to the first connector (21) and the communicator (24); and
    a second transceiver (29) located between and connected to the switch (23) and the communicator (24).
    [0004] The slave device (20) according to any one of claims 1 to 3,wherein when the type of connection is T-branch connection, the switch (23) is configured to connect to the first connector (21), andwherein when the type of connection is cascade connection, the switch (23) is configured to connect to the second connector (22).
    [0005] The slave device (20) according to any one of claims 1 to 4, wherein upon turning-on of the slave device (20), the switch (23) is configured to check a connection state indicating whether the switch is connected to connection the first connector (21) or to the second connector (22).
    [0006] The slave device (20) according to claim 5, wherein the communicator (24) is configured to:
    manage the connection state;
    notify the switch (23) of the connection state upon receipt of a connection request signal from the master device (10) via the first connector (21); and
    connect the switch to either to the first connection end or the second connection end based on the connection state that has been notified.
    [0007] The slave device (20) according to any claims 5 and 6,wherein in an initial state of the switch (23), the switch (23) is connected to at least one connector among the first connector (21) and the second connector (22),wherein upon receipt of a connection request signal from the master device (10) via the first connector (21), the communicator (24) is configured to forward the connection request signal to the lower-level slave device (20B; 20C; 20D) via the switch (23),wherein when the communicator (24) has received from the lower-level slave device (20B; 20C; 20D) a response signal responsive to the connection request signal within a predetermined period of time, the communicator (24) is configured to transmit to the master device (10) a connection completion signal responsive to the connection request signal, andwherein when the communicator (24) has not received from the lower-level slave device (20B; 20C; 20D) the response signal within the predetermined period of time, the communicator (24) is configured to instruct the switch (23) to switch a to connect alternatively to the first connection end or second connection end.
    [0008] The slave device (20) according to any of claims 5 to 7,wherein in an initial state of the switch (23), the switch (23) is connected to at least one connector among the first connector (21) and the second connector (22),wherein the switch (23) is configured to transmit a check signal to the lower-level slave device (20B; 20C; 20D) via the connector (21, 22) to which the switch (23) is connected, andwherein when the switch (23) has not received from the lower-level slave device (20B; 20C; 20D) a response signal responsive to the check signal within a predetermined period of time, the switch (23) is configured to switch a connection alternatively to the first connection end or second connection end.
    [0009] A communication system (1), characterized by:
    the slave device (20A) according to any one of claims 1 to 8;
    a master device (10) connected to the slave device (20A) and located at an upper level relative to the slave device (20A); and
    at least one another slave device (20B; 20C; 20D)) connected to the slave device (20A) and located at a lower level relative to the slave device (20A).
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