of 33/33
(1/33) Model CC-Link IE Field Network Compatible Title CC-Link IE Field Network Intelligent Device Station Conformance Test Specifications Management number: BAP-C0401-037-B CC-Link Partner Association

CC-Link IE Field Network Compatible CC-Link IE …...Aging test (1) Aging test (6/33) (3) Link special register and link special relay A list of link special register, link special

  • View
    0

  • Download
    0

Embed Size (px)

Text of CC-Link IE Field Network Compatible CC-Link IE …...Aging test (1) Aging test (6/33) (3) Link...

  • (1/33)

    Model CC-Link IE Field Network Compatible

    Title CC-Link IE Field Network

    Intelligent Device Station Conformance Test Specifications

    Management number: BAP-C0401-037-B

    CC-Link Partner Association

  • (2/33)

    Revisions

    Sub-number Revision contents Issued month/year

    * First edition Jan. 2010

    A Transient communication tests divided into Transient1 and Transient2, and for

    Transient2, whether the functions are installed or not can be entered.

    Apr. 2011

    B Made changes to support transient link scan unit limitation mode and node

    unit transmission limitation mode.

    Made changes to support the motion function.

    Nov. 2011

  • (3/33)

    Table of contents

    Overview .................................................................................................................................................................4

    1. Hardware test...................................................................................................................................................8

    1.1. Simulator noise (common mode) test .......................................................................................................8

    1.2. Cable (bundle type) noise test ..................................................................................................................9

    1.3. Cable maximum length test ....................................................................................................................10

    1.4. Network link up confirmation test ............................................................................................................11

    1.5. LED confirmation test..............................................................................................................................13

    1.6. 1000BASE-T compliance test .................................................................................................................14

    1.7. Confirmation test for parts used..............................................................................................................16

    2. Software test ..................................................................................................................................................17

    2.1. Host station information ..........................................................................................................................17

    2.2. Basic function .........................................................................................................................................18

    2.3. Control ....................................................................................................................................................21

    2.4. Topology .................................................................................................................................................24

    2.5. Error processing .....................................................................................................................................26

    2.6. Synchronization function.........................................................................................................................30

    3. Aging..............................................................................................................................................................32

    Appendix 1 Wave examples of noise simulator output ..........................................................................................33

  • (4/33)

    Overview

    This specification document contains information about test items for the connectivity (conformance) of the

    CC-Link IE Field network-compatible intelligent device station.

    Conformance tests are classified into 2 groups: the tests conducted by device manufacturers and the tests

    conducted by CC-Link Partner Association (CLPA). Test target modules need to pass (PASS) all the

    conformance tests, which are described in this document, to be evaluated as a connectable module to the

    CC-Link IE Field Network.

    Fill in the result columns for each test item: When a module passes the test, the tester needs to fill in "PASS" to

    the column, and if a module fails the test, the tester needs to fill in "FAIL" to the column. Enter “-“ in the column

    when there is no corresponding function. Also, measurement value etc. should be entered, if necessary.

    (1) Test configuration and precautions

    • If not otherwise specified, the test should be conducted in the basic test configuration of Figure 1 and Figure 2.

    • If not otherwise specified, cables (Type name/SC-E5EW-S□M: □ indicates a cable length in meters) with

    Manufacturer: Mitsubishi Electric System & Service Co., Ltd. plugs should be used. The same cable needs to be

    used for the test at CLPA.

    • If not otherwise specified, Mitsubishi Electric-manufactured master/local modules and head units should be

    used for the master station, the local station and the intelligent device station. Configurations of each station are

    shown in Table 1.

    Test target stationQnUQJ71GF11-T2Station No. 0Master station

    QnUQJ71GF11-T2Station No. 1

    Figure 1 Basic test configuration (hardware test)

    Figure 2 Basic test configuration (software test)

    Table 1 Usable programmable controller CPU, master station and slave station for test

    Type Test equipment name Programmable controller CPU QnU series Master station QJ71GF11-T2

    CC-Link IE Field Network master/local module Local station QJ71GF11-T2

    CC-Link IE Field Network master/local module Slave station

    Intelligent device station

    LJ72GF15-T2 CC-Link IE Field Network head module

  • (5/33)

    (2) Test item list

    Test item list is shown in Table 2.

    Table 2 Test item list : Executed, : Not executed, : The result must be checked by CLPA.

    Executed/Not executed Classification Test item Manufacturer CLPA

    (1) Simulator noise (common mode) test (2) Cable (bundle type) noise test (3) Cable maximum length test (4) Network link up confirmation test (5) Monitor indicator confirmation test (6) 1000BASE-T compliance test

    1. Hardware test

    (7) Confirmation test for parts used 2-1. Host station information (1) Confirmation of host station information 2-2. Basic function (1) Cyclic communication (2) Transient communication 2-3. Control (1) Cyclic start/stop indicated by master station (2) Cyclic start/stop to host station (3) Reserved station 2-4. Topology (1) Line connection (2) Star connection (3) Ring connection 2-5. Error processing (1) Station No. duplication (2) Station No. setting mismatch (3) Network No. setting mismatch (4) Station type mismatch 2-6. Synchronization function

    2. Software test

    (1) Synchronization slave station 3. Aging test (1) Aging test

  • (6/33)

    (3) Link special register and link special relay

    A list of link special register, link special relay and buffer memory of master station, which are checked in this test,

    is shown in Table 3, 4 and 5.

    Table 3 Link special register list No. Name Details

    SW0000 Indicated contents of data link start/stop

    Indicates the conditions to start and stop the data link. 00h: Host station 01h: All stations 02h: Specified station 80h: Host station forcing (valid for start only) 81h: All station forcing (valid for start only) 82h: Specified station forcing (valid for start only)

    SW0001 to SW0008

    Station specification of data link start/stop

    Indicates the station No. to start and stop the data link of each station (SW0000=02h and 82h) 0: No indication to start/stop 1: Indication to start/stop

    SW00B0 to SW00B7

    Data link status of each station

    Indicates the data link status of each station (valid for connected modules only). 0: Normal 1: Error

    SW00C0 to SW00C7

    Reserved station specification

    Indicates the reserved station set by parameter in bit (valid for connected modules only). In addition, the station which was canceled temporarily is considered no indication of reserved station at the reserved station setting. 0: No reserved station specification 1: Reserved station specification

  • (7/33)

    Table 4 Link special relay No. Name Details

    SB0002 Data link start of the entire system

    Indicates the data link (cyclic transmission) start of the entire system. Follow the contents of SW0001 to SW0008, and start. 0: No start indication 1: Start indication (valid for rise time)

    SB0003 Data link stop of the entire system

    Indicates the data link (cyclic transmission) stop of the entire system. Follow the contents of SW0001 to SW0008, and stop. 0: No stop indication 1: Stop indication (valid for rise time)

    SB006A Link up status of host station port 1 side

    Indicates the link up status of host station port 1 side. 0: Link up operating 1: During link down

    SB006B Link up status of host station port 2 side

    Indicates the link up status of host station port 2 side. 0: Link up operating 1: During link down

    Table 5 Error counter of master station No.

    (buffer memory) Name Details

    4A33H, 4A32H Master → Slave (station No. 1)MyStatus unreceived counter

    Indicates the frequency that Slave (station No. 1) cannot receive MyStatus from Master during 1 link scan.

    4A35H, 4A34H Master → Slave (station No. 1)Cyclic unreceived counter

    Indicates the frequency that Slave (station No. 1) cannot receive cyclic data from Master during 1 link scan.

    4A3BH, 4A3AH Slave (station No. 1) → MasterMyStatus unreceived counter

    Indicates the frequency that Master cannot receive MyStatus from Slave (station No. 1) during 1 link scan.

    4A3DH, 4A3CH

    Slave (station No. 1) → MasterCyclic unreceived counter

    Indicates the frequency that Master cannot receive cyclic data from Slave (station No. 1) during 1 link scan.

    4A43H, 4A42H Master → Slave (station No. 2)MyStatus unreceived counter

    Indicates the frequency that Slave (station No. 2) cannot receive MyStatus from Master during 1 link scan.

    4A45H, 4A44H

    Master → Slave (station No. 2)Cyclic unreceived counter

    Indicates the frequency that Slave (station No. 2) cannot receive cyclic data from Master during 1 link scan.

    4A4BH,, 4A4AH

    Slave (station No. 2) → MasterMyStatus unreceived counter

    Indicates the frequency that Master cannot receive MyStatus from Slave (station No. 2) during 1 link scan.

    4A4DH, 4A4CH

    Slave (station No. 2) → MasterCyclic unreceived counter

    Indicates the frequency that Master cannot receive cyclic data from Slave (station No. 2) during 1 link scan.

    Note) This area is confidential. Please do not disclose the area information to customers etc.

  • (8/33)

    1. Hardware test 1.1. Simulator noise (common mode) test

    Classification 1. Hardware test

    Test item (1) Simulator noise (common mode) test

    Purpose To confirm whether the test target has the noise immunity to endure the FA usage, under the application of noise to the power supply.

    Test method

    Conduct the test in the following configuration.

    Noise simulator device

    Port1 Port2

    Master station (QJ71GF11-T2, Station No. 0)

    Slave station (QJ71GF11-T2, Station No. 1)

    AC/DC power supply

    Space cables from the test

    bench 16cm or more.

    Cable: 5m

    Test target station (slave station, station

    No. 2)

    Cable: 5m

    Coil cables 5 times in 15cm in diameter.

    1m

    Test panel FG

    LGLG

    FGLG

    1m

    FG

    Supply the power of all equipment from the insulation transformer.

    Note 1) Test panel should be grounded to FG. Note 2) Programmable controller and test panel should be brought together. Note 3) FG should be single point ground. FG should be dropped on the gland. Note 4) Test should be conducted with transmission: 2 times and token transmission: 4 times. Note 5) Noise simulator should meet the following "Simulator setting condition". Note 6) Refer to Appendix 1 for the wave samples of the noise simulator. Simulator setting condition Grounding wire (FG) Equipments used (reference)

    Pulse width 1μs

    Wiring length

    Within 50cm Noise simulator NoiseKen INS-4020

    Rise time 1nS Wire diameter 2 mm2 Insulation transformer NoiseKen NCT-160

    Frequency 45Hz

    Test conditions

    Judgment criteria

    The test target should communicate properly at the following specified noise voltage, for 2 hours or more. All the error counters (refer to Table 5) of master station should be 0. AC power: ± 2000V, DC power: ± 900V

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

  • (9/33)

    1.2. Cable (bundle type) noise test

    Classification 1. Hardware test

    Test item (2) Cable (bundle type) noise test

    Purpose To confirm whether the test target has the noise immunity to endure the FA usage, under the application of noise to the cable.

    Test method

    Conduct the test in the following configuration. This configuration is different than the basic configuration.

    Port2Port1

    Noise simulator

    1m

    Master station (QJ71GF11-T2, Station No. 0)

    Slave station (QJ71GF11-T2, Station No. 1)

    Cable: 5m

    Coil cables 5 times in 15cm in diameter.

    Space cables from the test bench 16cm

    or more.Coupling adaptor

    Test target station (slave station, station No. 2)

    1m

    1m

    Test panel

    LG

    FG

    LG

    FG

    LG

    FG

    Supply the power of all equipment from the insulation transformer.

    Note 1) Test panel should be grounded to FG. Note 2) Programmable controller and test panel should be brought together. Note 3) FG should be single point ground. FG should be dropped on the gland. Note 4) Test should be conducted with transmission: 2 times and token transmission: 4 times. Note 5) Noise simulator should meet the following "Simulator setting condition". Note 6) Refer to Appendix 1 for the wave samples of the noise simulator. Simulator setting condition Grounding wire (FG) The equipments used (Reference)

    Pulse width 1μs

    Wiring length

    Within 50cm Noise simulator NoiseKen INS-4020

    Rise time 1nS Wire diameter 2 mm2 Insulation transformer NoiseKen NCT-160

    Frequency 45Hz Coupling adaptor NoiseKen CA-805B

    Test conditions

    Judgment criteria

    The test target should communicate properly at the following specified noise voltage, for 10 minutes or more. All the error counters (refer to Table 5) of master station should be 0. With a motion function compatible node: ±2000 V With a motion function non-compatible node: ±1000 V

    Result Manufacturer (required) CLPA (required)

    CC-Link Partner Association

  • (10/33)

    1.3. Cable maximum length test

    Classification 1. Hardware test

    Test item (3) Cable maximum length test

    Purpose To confirm whether a test target can operate normally at the maximum length of 100m.

    Test method

    Operate for 12 hours in the following configuration. Conduct the test at room temperature.

    Test target station (slave station, station No. 2)

    Cable: 100m

    Port1 Port2

    Master station (QJ71GF11-T2, Station No. 0)

    Slave station (QJ71GF11-T2, Station No. 1)

    Diameter: 40cm

    Approx. 1m

    Approx. 2m

    Test panel

    LG

    FGLGFG

    Diameter: 40cm

    Approx. 1m

    Approx. 2m

    Space cables from the test bench 16cm or more.

    LG

    FG

    Note 1) Test panel should be grounded to FG. Note 2) Programmable controller and test panel should be brought together. Note 3) FG should be single point ground. FG should be grounded. Note 4) Test should be conducted with transmission: 2 times and token transmission: 4 times.

    Equipments used

    Test conditions

    • Use 4 pairs balanced-type shielded cables, compliant with ANSI/TIA/EIA-568 (Category 5e).

    • Conduct the test at room temperature, and with the cable length of 100m.

    Judgment criteria All the error counters (refer to Table 5) of the master station should be 0.

    Manufacturer (required) CLPA (confirmation) Result

    CC-Link Partner Association

  • (11/33)

    1.4. Network link up confirmation test

    Classification 1. Hardware test

    Test item (4) Network link up confirmation test

    Purpose To confirm whether a test target operates link up and data link when the power turns ON/OFF and when the cable is removed and inserted.

    Test method

    Test target station (slave station, station No. 2)

    Cable: 5m Cable: 5mPort1 Port2

    Master station (QJ71GF11-T2, Station No. 0) Slave station (QJ71GF11-T2, Station No. 1)

    Port1

    The test should be conducted by the following procedure. Master station uses port 1. 1. Check the link up function when the power turns ON/OFF. 1-1): Turn on master station (station No. 0) and slave station (station No. 1). 1-2): Turn on a test target station (station No. 2) to be the normal operation status (cyclic

    communication status). 1-3): Check the value of SB006A: the link special relay, and b0 and b1 of SW00B0 (data

    link status of other stations). 1-4): Turn off the test target station. 1-5): Check the value of SB006A: the link special relay, and b0 and b1 of SW00B0 (data

    link status of other stations). 1-6): Repeat operations 2) to 5) 10 times. 2. Check the link up function when the cable is inserted and removed. 2-1): Turn on all the stations to be the normal operation status (cyclic communication status). 2-2): Check the value of SB006A: the link special relay, and b0 and b1 of SW00B0 (data

    link status of other stations). 2-3): Remove the port 1 side cable from the test target station. 2-4): Check the value of SB006A: the link special relay, and b0 and b1 of SW00B0 (data

    link status of other stations). 2-5): Insert the port 1 side cable into the test target station. 2-6): Check the value of SB006A: the link special relay, and b0 and b1 of SW00B0 (data

    link status of other stations). 2-7): Repeat operations 3) to 6) 10 times. The test should be conducted to port 2 in the same method as port 1.

    Equipments used

    Test conditions

    None

  • (12/33)

    Judgment criteria

    Follow the table below. Link special relay/register (check with the master station)

    NO.

    Connection status

    Master station SW00B0 b0

    Master station SW00B0 b1

    Master station SB006A

    1-3) Test target station: power ON 0 0 0 1. Check the link up function when the power turns ON/OFF.

    1-5) Test target station: power OFF 1 1 1

    2-2), 2-6)

    Port 1: Cable connected Port 2: Cable connected

    0 0 0

    2-4) Port 1: Cable unconnected Port 2: Cable connected

    1 1 1

    2. Check the link up function when the cable is removed and inserted. 2-4) Port 1: Cable connected

    Port 2: Cable unconnected 1 0 0

    Result Manufacturer (required) CLPA (required)

    CC-Link Partner Association

  • (13/33)

    1.5. LED confirmation test

    Classification 1. Hardware test

    Test item (5) Monitor indicator confirmation test

    Purpose To confirm that monitor indicators operate in accordance with the implementation conventions of the CC-Link IE Field Network.

    Test method Test target station (slave station, station No. 2)

    Cable: 5m Cable: 5mPort1 Port2

    Master station (QJ71GF11-T2, Station No. 0)

    Slave station (QJ71GF11-T2, Station No. 1)

    Figure 1: Test configuration

    Check the monitor indicators of the tested station under the four conditions below, based on the configuration shown in Figure 1. Condition 1): Cyclic communication status (Figure 1 configuration) Condition 2): When the port 1 cable is removed (remove the port 1 side cable in the Figure

    1 configuration Condition 3): When the port 2 cable is removed (remove the port 2 side cable in the Figure

    1 configuration Condition 4): When the port 1 and 2 cables are removed (remove the port 1 and 2 cables

    in the Figure 1 configuration) Note 1) It is unnecessary to check unmounted monitor indicators.

    Equipments used Test conditions

    None

    Judgment criteria

    Verify that the monitor indicators operate as indicated in the table below. On: , Flicker: , Off: .

    Status

    PW

    RU

    N

    ER

    R

    D LIN

    K

    L.ER

    R

    SD

    RD

    LINK

    L.ER

    LINK

    L.ER

    LED of communication port 1

    LED of communication

    port 2

    Condition 1)

    Condition 2)

    Condition 3)

    Condition 4) Manufacturer (required) CLPA (required)

    Result

    CC-Link Partner Association

  • (14/33)

    1.6. 1000BASE-T compliance test

    Classification 1. Hardware test

    Test item (6) 1000BASE-T compliance test

    Purpose To check the waveform of the transmission path based on the IEEE802.3 specification.

    Test method

    The waveform tests are conducted based on the IEEE802.3 specification. The tests to be conducted are as follows:

    No. Test name Test mode Corresponding page in IEEE802.3 Remarks

    1 Template Test mode 1 40.6.1.2.3 Differential output templates -

    2 Peak voltage Test mode 1 40.6.1.2.1 Peak differential output voltage and level accuracy -

    3 Droop Test mode 1 40.6.1.2.2 Maximum output droop -

    4 Distortion Test mode 4 40.6.1.2.4 Transmitter distortion -

    5 Return loss Test mode 4 40.8.3.1 MDI return loss -

    6 Common mode voltage Test mode 4 40.8.3.3 MDI common-mode output voltage

    -

    7 Jitter Test mode 2 and 3 40.6.1.2.5 Transmitter timing jitter

    If PHY device does not correspond to the test method which IEEE802.3 describes, iol-recommended test method (*) can be conducted.

    *: Refer to Appendix 40.B of the test specifications: “GIGABIT ETHERNET CONSORTIUM Clause 40

    Physical Medium Attachment (PMA) Test Suite Version 2.4” published by iol (Inter Operability Laboratory) for further information.

    Note 1) Select equipments which can be conducted by the 1000BASE-T compliance test. Equipments used (reference)

    Oscilloscope Tectronix TDS7254B

    Signal generator Tectronix AWG5012B

    Differential probe Tectronix P6247

    Compliance test fixture Tectronix TF-GBE-ATP

    Test conditions

    One example of test device configurations is shown in the following page.

    Software for compliance test Tectronix TDSET3

    Judgment criteria

    The result should satisfy the judgment value written on IEEE802.3ab. Manufacturers need to provide the test result, which the test equipment outputs, to CLPA.

    Manufacturer (required) CLPA (confirmation) Result

    CC-Link Partner Association

  • (15/33)

    Test mode1,4

    OscilloscopeSignal generator

    Test target station

    Cable

    Oscilloscope

    Test target station

    Cable

    Compliance test fixture

    Test mode2,3

    Test fixture substrate

    Differential probe

    Differential probe

    Software for compliance test

    Install on oscilloscope.

    Software for compliance testInstall on

    oscilloscope.

  • (16/33)

    1.7. Confirmation test for parts used

    Classification 1. Hardware test

    Test item (7) Confirmation test for parts used

    Purpose To check if the interface parts, which are used in the communication, satisfy the implement specifications.

    Test method

    The parts should be checked if they correspond to the following table. Part name Check item Check

    (When parts correspond to the items, enter in the blanks below.)

    Jack should be compliant with ANSI/TIA/EIA-568 (Category 5e).

    Connector (RJ45 jack)

    Jack should be shielded-type. Pulse transformer should correspond to Auto MDI MDI-X.

    Pulse transformer

    Pulse transformer should correspond to 1000BASE-T.

    PHY should correspond to Auto MDI MDI-X. PHY cannot be set as master or slave by manual. * * The value of MASTER-SLAVE Mannual Config Enable bit (bit12) of MASTER-SLAVE Control register (Register 9) must be set to “0=Disable”.

    PHY

    PHY should correspond to 1000BASE-T.

    Equipments used (reference)

    Test conditions

    None

    Judgment criteria The parts should satisfy the check items.

    Manufacturer (required) CLPA (confirmation) Result

    CC-Link Partner Association

  • (17/33)

    2. Software test 2.1. Host station information

    Classification 2. Software test

    Test item 2-1. Host station information (1) Confirmation of host station information

    Test method Confirm the station information of the test target by the master station.

    Judgment criteria

    Check the value of the buffer memory of the master station.

    Buffer memory address (word)

    Name Monitor value Data (*1)

    5020h + 20h Station No.

    Vendor code Vender code (hexadecimal) supplied by CLPA

    [ ]

    5021h + 20h Station No.

    Device type Device type (hexadecimal) supplied by CLPA

    [ ]

    5022h + 20h Station No.

    Model name code Optional However, the code should be uniquely managed in the same vendor code.

    [ ]

    5023h + 20h Station No.

    Version Optional [ ]

    Note) This area is confidential. Please do not disclose the area information to customers etc.

    Remarks *1 Fill in the data to compare in the CLPA test. *2 Data need to follow the specifications presented by manufacturers.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

  • (18/33)

    2.2. Basic function

    Classification 2. Software test

    Test item 2-2. Basic function (1) Cyclic communication

    Test method

    Execute the cyclic communication in the test target station. Configuration needs to follow the basic test configuration. The setting of each station is as follows:

    Name Station type Station No.

    Slave station No. 1 Local station 1

    Test target station Intelligent device station 2

    Slave station No. 2 Intelligent device station 3

    Judgment criteria

    Check the followings. *1

    No. Judgment criteria Result (When the following items are satisfied, enter in the blanks.)

    (1) Special register SW00B0 (b1) of the master station is turned off. (This means that the data link of station No. 2 is normal.)

    (2) Data link of the test target station becomes normal. (3) The master station can receive RX sent by the test target station. (4) The master station can receive RWr sent by the test target station. (5) The local station can receive RX sent by the test target station. (6) The local station can receive RWr sent by the test target station. (7) RY of the test target station can receive RY sent by the master

    station.

    (8) RWw of the test target station can receive RWw sent by the master station.

    Remarks *1 Manufacturers need to provide the method that checked data link status, RX, RY, RWr and RWw of the test target station to CLPA.

    Manufacturer (required) CLPA (confirmation) Result

    CC-Link Partner Association

  • (19/33)

    Classification 2. Software test

    Test item 2-2. Basic function (2) Transient communication (a) Transient1

    Test method

    Execute the transient communication in the test target station. Configuration needs to follow the basic test configuration. The settings of each station is as follows:

    Name Station type Station No.

    Slave station No. 1 Local station 1

    Test target station Intelligent device station 2

    Slave station No. 2 Intelligent device station 3

    # Test target command: nodeInfoDetailGetRequest/ nodeInfoDetailGetResponse

    Judgment criteria

    When the testing station performs transmission in link scan unit limitation mode Check the values of buffer memory of the master station.

    Buffer memory address (word)

    Name Monitor value Data (*1)

    5068h Controller information valid or invalid flag

    1 Fixed [ ]

    5069h Vendor code Vender code (hexadecimal) supplied by CLPA [ ] 506Ah Device type Device type (hexadecimal) specified by CLPA [ ] 506Bh Model name code Optional

    However, the code should be uniquely managed in the same vendor code.

    [ ]

    506Ch Version Optional [ ] 506Dh Model name string Optional [ ] 5077h Vender unique

    equipment information

    Optional [ ]

    When the testing station performs transmission in node unit limitation mode

    Check the value of the buffer memory of the master station.

    Buffer memory address (word)

    Name Monitor value Data (*1)

    5068h Controller information valid or invalid flag

    1 Fixed [ ]

    5069h Vendor code Vender code (hexadecimal) supplied by CLPA [ ] 506Ah Device type Device type (hexadecimal) specified by CLPA [ ] 506Bh Model name code Optional

    However, the code should be uniquely managed in the same vendor code.

    [ ]

    506Ch Version Optional [ ] 506Dh Model name string Optional [ ] 5077h Vender unique

    equipment information

    Optional [ ]

    Note) This buffer memory is a confidential area. Please do not disclose the area

    information to customers etc.

    Remarks Manufacturer (required) CLPA (confirmation) Result

    CC-Link Partner Association

  • (20/33)

    Classification 2. Software test

    Test item 2-2. Basic function (2) Transient communication (b) Transient2

    Test method

    Execute the transient communication in the test target station. Master station is to be the communication target. Configuration needs to follow the basic test configuration. The setting of each station needs to be the same as "Basic function (Cyclic communication)". Only the corresponding command types need to be tested, and transient types are as follows: (1) Retrieve memory access information. (2) RUN (3) STOP (4) Read from memory. (5) Write to memory.

    Judgment criteria

    Check the followings. *1 Transient server function: (1) The test target station should return a correct transient ACK.

    If the test target station does not give the transient ACK, error will occur in the master station. (Error code=D0A3h)

    (2) The test target station should return a correct response. If the response does not return, error will occur in the master station. (Error code=D253h)

    Transient client function: (3) The test target station can send a transient request. (4) The test target can receive a correct transient response. When the testing station performs transmission in link scan unit limitation mode

    Mounting Status [*1] Item Test result When the process is completed properly, enter in the blanks below.

    (1) Memory access information retrieval

    CT=04h (2) (1) RUN CT=08h (2) (1) STOP CT=09h (2) (1) Read from memory CT=10h (2) (1)

    Transient server function

    Write to memory CT=12h (2)

    [*1] Enter a checkmark if the item is mounted. When the testing station performs transmission in node unit limitation mode

    Mounting Status [*1] Item Test result When the process is completed properly, enter in the blanks below.

    (1) Memory access information retrieval

    CT=04h (2) (1) RUN CT=08h (2) (1) STOP CT=09h (2) (1) Read from memory CT=10h (2) (1)

    Transient server function

    Write to memory CT=12h (2)

    [*1] Enter a checkmark if the item is mounted.

    Remarks *1 Manufacturers need to provide the response operation of the transient communication to CLPA. Manufacturer (required) CLPA (confirmation) Result

    CC-Link Partner Association

  • (21/33)

    2.3. Control

    Classification 2. Software test

    Test item 2-3. Control (1) Cyclic start/stop indicated by master station

    Test method

    Confirm that the test target station corresponds to the cyclic start/stop of the master station by executing the cyclic communication. Configuration needs to follow the basic test configuration. The setting of each station needs to be the same as "Basic function (Cyclic communication)". The method of starting cyclic is as follows: (1) Turn on the special register SW0001 (b2) of the master station. (2) Turn on the special relay SB0002 of the master station. The method of stopping cyclic is as follows: (1) Turn on the special register SW0001 (b2) of the master station. (2) Turn on the special relay SB0003 of the master station.

    Judgment criteria

    Check the followings. *1 To the cyclic stop indication: (1) Special register SW00B0 (b1) of the master station is turned on. (This means that

    the data link of station No. 2 is abnormal.) (2) Data link of the test target station needs to stop, and the data must not be

    communicated. To the cyclic start indication: (3) Special register SW00B0 (b1) of the master station is turned off. (This means that

    the data link of station No. 2 is normal.) (4) Data link of the test target station needs to start, and the data must be

    communicated.

    Item Result When the process is completed properly, enter in the blanks below.

    (1) (2) (3) (4)

    Remarks *1 Manufacturers need to provide the method that checked data link status and the data communication of the test target station to CLPA.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

  • (22/33)

    Classification 2. Software test

    Test item 2-3. Control (2) Cyclic start/stop to host station

    Test method

    Confirm that the test target station corresponds to the cyclic start/stop of the host station by executing the cyclic communication in case that the host station can execute the cyclic start/stop. Configuration needs to follow the basic test configuration. The setting of each station needs to be the same as "Basic function (Cyclic communication)". The method of the cyclic start/stop needs to follow the specifications presented by manufacturers. In case that there is some function that executes cyclic start/stop due to application errors, confirm that the cyclic communication is started/stopped by those error.

    Judgment criteria

    Check the followings. To the cyclic stop indication of the test target station: (1) Special register SW00B0 (bit1) of the master station is turned on. (This means that

    the data link of station No. 2 is abnormal.) (2) Data link of the test target station needs to stop, and the data must not be

    communicated. To the cyclic start indication of the test target station: (3) Special register SW00B0 (bit1) of the master station is turned off. (This means that

    the data link of station No. 2 is normal.) (4) Data link of the test target station needs to start again, and the data must be

    communicated.

    Item Result When the process is completed properly, enter in the blanks below.

    (1) (2) (3) (4)

    Remarks *1 Manufacturers need to provide the method that checked data link status and the data communication of the test target station to CLPA.

    Manufacturer (required) CLPA (confirmation) Result

    CC-Link Partner Association

  • (23/33)

    Classification 2. Software test

    Test item 2-3. Control (3) Reserved station

    Test method

    Confirm that the reserved station corresponds to its setting. Configuration needs to follow the basic test configuration. The setting of each station needs to be the same as "Basic function (Cyclic communication)". The number of data communication point is optional, and the setting of each station is as follows:

    Station No.

    Station type Reserved station setting

    1 Local station No 2 Intelligent device station Yes 3 Intelligent device station No

    Judgment criteria

    Check the followings. *1 (1) Special register SW00C0 (b1) of the master station is turned on. (This means the

    reserved station of station No. 2.) (2) Cyclic stops.

    Item Result When the process is completed properly, enter in the blanks below.

    (1) (2)

    Remarks *1 Manufacturers need to provide the method that checked the data link status of the test target to CLPA.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

  • (24/33)

    2.4. Topology

    Classification 2. Software test

    Test item 2-4. Topology (1) Line connection

    Test method

    Execute the cyclic communication in the following 3 kinds of the line communication. Configuration 1

    Configuration 2

    Configuration 3

    The setting of each station needs to be the same as "Basic function (Cyclic communication)".

    Judgment criteria

    Check the followings in Configuration 1 to 3. *1 (1) Special register SW00B0 (b1) of the master station is turned off. (This means that the

    data link of station No. 2 is normal.) (2) Data link of the test target station becomes normal. (3) The master station can receive RX sent by the test target station. (4) The master station can receive RWr sent by the test target station. (5) The local station can receive RX sent by the test target station. (6) The local station can receive RWr sent by the test target station. (7) RY of the test target station can receive RY sent by the master station. (8) RWw of the test target station can receive RWw sent by the master station.

    Result When the process is completed properly, enter in the blanks below.

    Configuration

    (1) (2) (3) (4) (5) (6) (7) (8) 1 2 3

    Remarks *1 Manufacturers need to provide the method that checked data link status, RX, RY, RWr and RWw of the test target station to CLPA.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

  • (25/33)

    Classification 2. Software test

    Test item 2-4. Topology (2) Star connection

    Test method

    Execute the cyclic communication by the star connection. Configuration 1

    The setting of each station needs to be the same as "Basic function (Cyclic communication)".

    Judgment criteria

    Confirm the followings in Configuration 1: *1 (1) Special register SW00B0 (b1) of the master station is turned off. (This means that the

    data link of station No. 2 is normal.) (2) Data link of the test target station becomes normal. (3) The master station can receive RX sent by the test target station. (4) The master station can receive RWr sent by the test target station. (5) The local station can receive RX sent by the test target station. (6) The local station can receive RWr sent by the test target station. (7) RY of the test target station can receive RY sent by the master station. (8) RWw of the test target station can receive RWw sent by the master station.

    Result When the process is completed properly, enter in the blanks below.

    Configuration

    (1) (2) (3) (4) (5) (6) (7) (8) 1

    Remarks *1 Manufacturers need to provide the method that checked data link status, RX, RY, RWr and RWw of the test target station to CLPA.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

  • (26/33)

    Classification 2. Software test

    Test item 2-4. Topology (3) Ring connection

    Test method

    Execute the cyclic communication by the ring connection. Configuration 1

    Test target stationNetwork No. 1Station No. 2

    QnU(D)Master stationNetwork No. 1Station No. 0

    QnU(D)Local station

    Network No. 1Station No. 1

    Intelligent device stationNetwork No. 1Station No. 3

    Configuration 2

    Test target stationNetwork No. 1Station No. 2

    QnU(D)Master stationNetwork No. 1Station No. 0

    QnU(D)Local station

    Network No. 1Station No. 1

    Intelligent device stationNetwork No. 1Station No. 3

    The setting of each station needs to be the same as "Basic function (Cyclic communication)".

    Judgment criteria

    Check the followings in Configuration 1 and 2. *1 (1) Special register SW00B0 (b1) of the master station is turned off. (This means that the

    data link of station No. 2 is normal.) (2) Data link of the test target station becomes normal. (3) The master station can receive RX sent by the test target station. (4) The master station can receive RWr sent by the test target station. (5) The local station can receive RX sent by the test target station. (6) The local station can receive RWr sent by the test target station. (7) RY of the test target station can receive RY sent by the master station. (8) RWw of the test target station can receive RWw sent by the master station.

    Result When the process is completed properly, enter in the blanks below.

    Configuration

    (1) (2) (3) (4) (5) (6) (7) (8) 1 2

    Remarks *1 Manufacturers need to provide the method that checked data link status, RX, RY, RWr and RWw of the test target station to CLPA.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

    2.5. Error processing

  • (27/33)

    Classification 2. Software test

    Test item 2-5. Error processing (1) Station No. duplication

    Test method

    When adding the test target station to the cyclic-running network, the station No. might overlap the existing station No. This test confirms that the cyclic does not start when the station No. overlaps the existing station No. Configuration needs be the following.

    The setting of each station is as follows:

    Station No. Slave station No. 1 Test target station Slave station No. 2

    Item

    Local station Intelligent device station Intelligent device station (a) 1 1 3 (b) 1 3 3

    Judgment criteria

    Check the followings. *1 (1) Special register SW00B0 (b1) of the master station is turned on. (This means that

    the data link of station No. 2 is abnormal.) (2) Data link of the test target station does not start, and the data must not be

    communicated. (3) Output of the test target station matches the specifications presented by

    manufacturers.

    Result When the process is completed properly, enter in the blanks below.

    Item

    (1) (2) (3) (a) (b)

    Remarks *1 Manufacturers need to provide the method that checked data link status and the data communication of the test target station to CLPA.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

    Classification 2. Software test

  • (28/33)

    Test item 2-5. Error processing (2) Station No. setting mismatch

    Test method

    Confirm that the cyclic does not start when the value, which is not in the parameter value set by the master station, is specified to the station No. of the test target station. Configuration needs to follow the basic test configuration. The setting of each station is as follows:

    Setting of each station Station No. Slave station No. 1 Test target station Slave station No. 2

    Item

    Local station Intelligent device station Intelligent device stationParameter of master station 1 2 3 (a) 1 4 3

    Judgment criteria

    Check the followings. *1 (1) Special register SW00B0 (b1) of the master station is turned on. (This means that

    the data link of station No. 2 is abnormal.) (2) Data link of the test target station does not start, and the data must not be

    communicated. (3) Output of the test target station matches the specifications presented by

    manufacturers.

    Result When the process is completed properly, enter in the blanks below.

    Item

    (1) (2) (3) (a)

    Remarks *1 Manufacturers need to provide the method that checked data link status and the data communication of the test target station to CLPA.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

    Classification 2. Software test

  • (29/33)

    Test item 2-5. Error processing (3) Network No. setting mismatch

    Test method

    Confirm that the cyclic does not start when the value, which is not in the parameter value set by the master station, is specified to the network No. of the test target station. Configuration needs to follow the basic test configuration. The setting of each station is as follows:

    Setting of each station

    Network No.

    Item

    Test target station Other than test target station

    (a) 2 1

    Judgment criteria

    Check the followings. *1 (1) Special register SW00B0 (b1) of the master station is turned on. (This means that

    the data link of station No. 2 is abnormal.) (2) Data link of the test target station does not start, and the data must not be

    communicated. (3) Output of the test target station matches the specifications presented by

    manufacturers.

    Result When the process is completed properly, enter in the blanks below.

    Item

    (1) (2) (3) (a)

    Remarks *1 Manufacturers need to provide the method that checked data link status and the data communication of the test target station to CLPA.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

    Classification 2. Software test

  • (30/33)

    Test item 2-5. Error processing (4) Station type mismatch

    Test method

    Confirm that the cyclic does not start when the test target station and the parameter do not have a matched station type. Configuration needs to follow the basic test configuration. The setting of each station needs to be the same as "Basic function (Cyclic communication)". The number of communication point is optional, and the setting of each station is as follows:

    Setting of each station Station type

    Item

    Slave station No. 1 Test target station Slave station No. 2

    (a) Local station Local station Intelligent device station

    Judgment criteria

    Check the followings. *1 (1) Special register SW00B0 (b1) of the master station is turned on. (This means that

    the data link of station No. 2 is abnormal.) (2) Data link of the test target station does not start, and the data must not be

    communicated. (3) Output of the test target station matches the specifications presented by

    manufacturers.

    Result When the process is completed properly, enter in the blanks below.

    Item

    (1) (2) (3) (a)

    Remarks *1 Manufacturers need to provide the method that checked data link status and the data communication of the test target station to CLPA.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

    2.6. Synchronization function

    Classification 2. Software test

  • (31/33)

    Test item 2-6. Synchronization function (1) Synchronization slave station

    Test method

    Confirm that the tested station receives MyStatus frames periodically sent by the synchronization master station and becomes synchronized. The cycle (T) of the MyStatus frames sent by the master station is 888 µs or 1 ms. Present the value prior to testing. The test period is 1,000 cycles.

    QnU(D)Master stationNetwork No. 1Station No. 0

    Tested stationStation No. 1

    Slave stationStation No. 2

    Measuring device

    Oscilloscope

    Judgment criteria

    Observe the synchronized output of the tested station using the oscilloscope. Verify that the cycle is T and that the amount of error is ±T or less. The tested station should have an external output based on timing generated by the synchronization function. The station should have a function that identifies the continuous timing by executing inversion at the time of each synchronization process, for example. This may be achieved using a jumper wire temporarily withdrawn from the interior.

    Remarks The measuring device shall be a device capable of identifying MyStatus frames and measuring the periodic interval.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

  • (32/33)

    3. Aging

    Classification 3. Aging test

    Test item (1) Aging test

    Test method

    Conduct this test continuously for 12 hours. Confirm that the product operates without any problem during the 12-hour continuous execution of the test. Configuration needs to follow the basic test configuration. Set the RY/RX/RWw/RWr assignment of the cyclic transmission to the maximum points. The settings of each station is as follows:

    Name Station type Station No.

    Slave station No. 1 Local station 1

    Test target station Intelligent device station 2

    Slave station No. 2 Intelligent device station 3

    (1) Cyclic communication function When the test target station supports the loop-back function in the link device: The master station should execute the loop-back verification of the cyclic data continuously to station No. 1 to 3 (including test target stations).

    When the test target station does not support the loop-back function in the link device: The master station should execute the loop-back verification of the cyclic data continuously to station No. 1 and 3. It also should send/receive the cyclic data to/from the test target station continuously.

    (2) Transient communication function When the target station supports the transient function for user application: Continuously execute the transient communication (Transient2) to the test target station from the master station.

    When the target station does not support the transient function for user application: Continuously execute the transient communication (Transient2) to station No. 1 and 3 from the master station.

    Judgment criteria

    Confirm that the devices can operate continuously for 12 hours or more. (1) Able to execute the cyclic communication. (2) Able to execute the transient communication.

    Item Result When the process is completed properly, enter in the blanks below.

    (1) (2)

    Remarks *1 Manufacturers need to provide the method that checked the cyclic and transient communication of the test target station to CLPA.

    Manufacturer (required) CLPA (required) Result

    CC-Link Partner Association

  • (33/33)

    Appendix 1 Wave examples of noise simulator output

    Actual output voltage should follow the each test item.