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Model CC-Link Ver.1.10/Ver.2.0 Compatible Title CC-Link ... · for gate control Judgment criteria Use of recommended parts, or parts with either equivalent or surpassing the quality

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  • (1/22)

    Model CC-Link Ver.1.10/Ver.2.0 Compatible

    Title CC-Link Repeater Conformance Test Specifications

    Management number : BAP-C0401-031-B

    CC-Link Partner Association

  • (2/22)

    Revisions

    Revision item Revision description Revision date Sub- number2. Hardware tests 4. Combination tests Appendix 1

    • Changed the item in 2-(1) from “Confirmation of specified parts” to “Confirmation of used parts”.

    • Changed the test configuration in 4-(1) “Maximum cable length”.

    • Added item 4-(4) “Worst-point test 3”. • Added “Appendix 1-2” to Aging test system

    configuration.

    6/22/2009 A

    2. Hardware tests

    • Added a recommended part (filter) in 2-(1) “Confirmation of used parts”.

    6/10/2010 B

  • (3/22)

    Table of Contents

    Overview ---------------------------------------------------------------------------------------------- 4 1. Noise tests ---------------------------------------------------------------------------------------- 6

    1-(1) Simulator noise (Common mode) test [AC/DC power supply] 1-(2) Cable (bundle) noise test 1-(3) Floating capacity measurement

    2. Hardware tests ----------------------------------------------------------------------------------- 10 2-(1) Confirmation of used parts 2-(2) Confirmation of disconnection/return at power ON/OFF

    3. Software tests------------------------------------------------------------------------------------ 12 3-(1) Error handling

    4. Combination tests ------------------------------------------------------------------------------ 12 4-(1) Maximum cable length 4-(2) Worst-point test 1 4-(3) Worst-point test 2 4-(4) Worst-point test 3

    5. Aging test ------------------------------------------------------------------------------------------- 16 6. Measurement test of transmission delay time -------------------------------------------- 17

    6-(1) Measurement of transmission delay time at maximum distance

    Appendix 1 Aging test system configuration ---------------------------------------- 20 Appendix 2 Unit arrangement and the wiring order on testing rack ------------- 22

  • (4/22)

    Overview

    This specification document refers to the test items regarding the connectivity (conformance) of CC-Link compatible repeaters.

    A device shall be judged connectable to the CC-Link after passing all of the tests specified in this specification document.

    * See the CC-Link Conformance Test Procedure (BAP-05012) for details.

    The conformance test can be divided into tests conducted by the manufacturer of the device and those conducted by CC-Link

    Partner Association (hereafter, CLPA).

    This specification document describes both tests: those conducted by the manufacturer of the device and those by CLPA.

    Test results must be entered as “PASS” or “FAIL” in the result column of each test item. If the corresponding function does not

    exist, enter a “-“.And, the measurement value etc. must be recorded if necessary according to the test item.

    Whether the test for the equipment under test (hereafter “EUT”) is executed or not is indicated in "(2) Test item list".

    (1) Test configuration and precautions

    ・ Unless otherwise specified, the hardware configuration shown in the figure below shall be used for testing.

    ・ Unless otherwise specified, the communication speed shall be 10 Mbps, and the distance between the EUTs shall be at a

    maximum distance per EUT’s specification (attenuator may be used).In addition, station-to-station distance (cable length) shall

    be 5 m.

    ・ The data communicated between the master station and the EUTs is to be changed each time so that no identical data is

    transmitted successively.

    ・ Communication shall be considered normally executed if no count is added to the SW00C0 to SW00C8 registers in the master

    module (refer to "(3) Link special registers and link special relays of master station").

    ・ If the EUT has functions of a slave station, execute conformance test on the slave station separately.

    Basic test configuration Power supply

    module QCPU QJ61BT11N

    (Master

    station)

    5m

    Subject test

    product

    Subject test

    product Other station

    (Remote station)

    5m

    Equivalent to the maximum distance for the specification

    * The CC-Link repeater (EUT) is configured in detached or integrated form

    PC CPU Master module

    QCPU QJ61BT11N

    Alternative test configuration

    PC CPU or a Desktop PC Master module

    QCPU QJ61BT11

    QnACPU AJ61QBT11

    Q2ASCPU A1SJ61QBT11

    AnS/AnSH/A2USCPU A1SJ61BT11

    Desktop PC Q80BD-J61BT11N、 Q81BD-J61BT11

    CC-Link repeater (*)

  • (5/22)

    (2) Test item list Classification Test item Manufacturer CLPA

    1-(1) Simulator noise test 1-(2) Cable noise test 1. Noise tests 1-(3) Floating capacity measurement - 2-(1) Confirmation of used parts - 2. Hardware tests 2-(2) Confirmation of disconnection/return at power ON/OFF

    3. Software tests 3-(1) Error handling 4-(1) Maximum cable length - 4-(2) Worst-point test 1 - 4-(3) Worst-point test 2 -

    4. Combination tests

    4-(4) Worst-point test 3 - 5. Aging test 5-(1) Aging test - 6. Measurement

    test of transmission delay time.

    6-(1) Measurement of transmission delay time at maximum distance

    : Performed only when parts other than the recommended ones are used

    (3) Link special registers and link special relays of master station

    1) Master module Link special registers (SW00C0 to SW00C8) Number

    (buffer memory address) Name Content Details

    SW00C0 ( 6C0 H ) Number of retries

    Number of retries executed

    • During 1 link scan, if communication is established normally within the set number of retries, or if the number of retries is exceeded (data link error), “1” is added to the count (+1).(Example) When the retry setting is the default of 1 to 3 times, and if normal communication is established at the third retry, only “1” is added to the count (+1).

    • Accumulated number of retries • Cleared when the SB0010 is turned on or at

    power-off.

    SW00C1 ( 6C1 H ) TIME error Number of timeout errors detected

    SW00C2 ( 6C2 H ) CRC error Number of CRC errors detected

    SW00C3 ( 6C3 H ) Abort error Number of abort errors detected

    SW00C4 ( 6C4 H ) Hardware error

    Number of hardware errors detected

    SW00C5 ( 6C5 H ) Line error Number of line errors detected

    SW00C6 (6C6 H) Software errorNumber of software monitoring timeouts

    SW00C7 (6C7 H) Invalid XCD Number of invalid XCDs detected

    SW00C8 (6C8 H) Overflow Number of receive buffer overflows occurred

    • Retry processing is performed for the set

    number of times, and the station with which

    data link could not be established is detected

    as a data link faulty station.

    • The accumulated number of errors occurred is

    input for each error content.

    • Cleared when the SB0011 is turned on or at

    power-off.

    2) Master module Link special relays (SB0010 to SB0011) Number

    (buffer memory address) Name Content Details

    SB0010 (5E1 H bit 0) Number clear Number of retries

    clear The number of retries is cleared OFF: no clear instruction ON: clear instruction issued (cleared during ON)

    SB0011 (5E1 H bit 1) Transmission path clear

    Number of line transmission errors clear

    The number of line transmission errors is cleared.OFF: no clear instruction ON: clear instruction issued (cleared during ON)

    Note: Please refrain from disclosing the corresponding buffer memory addresses to customers and others as they are areas not disclosed to users.

  • (6/22)

    Classification 1. Noise tests

    Test item 1-(1) Simulator noise (Common mode) test 1 [AC/DC power supply]

    Test method

    Power must be supplied from an isolating transformer when using AC power supply.

    Communication speed: 10Mbps Power supply line length to the EUT A: 20 to 50 cm twisted pair cable

    Simulator settings Grounding connection (FG) Equipment used (Reference)

    Pulse width 1μS Wiring

    length ≤50cm Noise simulator

    Manufacturer: NOISE LABORATORY CO., LTD Model name: INS-4020

    Rise 1nS Thickness 2mm2 Isolating

    transformer

    Manufacturer: NOISE LABORATORY CO., LTD Model name: NCT-160

    Test conditions:

    Frequency 45Hz

    Noise waveform

    produced by test

    Judgment criteria

    Must communicate normally for two hours or more at the noise voltage below: AC power supply: ±2000V, DC power supply: ±900V

    No count should be added to the numbers of errors in SW00C0 to SW00C8.

    Manufacturer (Required) CLPA (Required)

    Result

    CC-Link Partner Association

  • (7/22)

    Classification 1. Noise tests

    Test item 1-(1) Simulator noise (Common mode) test 2 [AC/DC power supply]

    Test method

    If the EUTs are in detached form and each have a power input terminal, then perform the tests with the following configuration:

    Noise simulatorEUT LINE power supply

    SG

    LGFG

    +24V24G

    DADB

    DGSLD

    FG

    AJ65SBT

    Subject test product B

    5m DC power supply

    DADBDGSLD

    FANC-110SBH

    LGFG

    Subject test product A

    DADBDGSLD

    FANC-110SBH

    5m

    QCPU QJ61BT11N

    LGFG FG

    AC(L/N)DC(+/-)

    L(+)N(-) Noise applied

    FG grounds to the ground plane at one point.

    Communication speed: 10Mbps Power supply line length to EUT B: 20 to 50 cm twisted pair cable

    Judgment

    criteria

    Must communicate normally for two hours or more at the noise voltage below: AC power supply: ±2000V, DC power supply: ±900V

    No count should be added to the numbers of errors in SW00C0 to SW00C8.

    Manufacturer (Required) CLPA (Required)

    Result

    CC-Link Partner Association

  • (8/22)

    Classification 1. Noise tests

    Test item 1-(2) Cable noise (bundle) test 1

    Test method

    Power must be supplied from an isolating transformer when using AC power supply.

    Communication speed: 10Mbps Distance from EUT A to the coupling adapter: 1m

    Simulator settings Grounding connection (FG) Equipment used (Reference)

    Pulse width 1μS Wiring

    length ≤50 cm Noise simulator

    Manufacturer: NOISE LABORATORY CO., LTD Model name: INS-4020

    Rise 1nS Thickness 2 mm2 Isolating

    transformer

    Manufacturer: NOISE LABORATORY CO., LTD Model name: NCT-160

    Test conditions:

    Frequency 45Hz Coupling adapter

    Manufacturer: NOISE LABORATORY CO., LTD Mode name: CA-805B

    Judgment

    criteria

    Must communicate normally for 10 minutes or more at the noise voltage of ±1000V. No count should be added to the numbers of errors in SW00C0 to SW00C8.

    Manufacturer (Required) CLPA (Required)

    Result

    CC-Link Partner Association

  • (9/22)

    Classification 1. Noise tests

    Test item 1-(2) Cable noise (bundle) test 2

    Test method

    Power must be supplied from an isolating transformer when using AC power supply.

    Communication speed: 10Mbps Distance from EUT B to the coupling adapter: 1m

    Judgment

    criteria

    Must communicate normally for 10 minutes or more at the noise voltage of ±1000V. No count should be added to the numbers of errors in SW00C0 to SW00C8.

    Manufacturer (Required) CLPA (Required)

    Result

    CC-Link Partner Association

    Classification 1. Noise tests

    Test item 1-(3) Floating capacity measurement

    Test method

    FG

    DG

    SLD

    DA

    DBMeasure

    Test stationMeasure the floating capacity between DA and DB terminals. (Frequency: 10MHz)

    Measurement equipment (Reference): HP4285A Measurement probe (Reference) : HP16334A (Refer to “Floating capacity measurement procedure guide” [BAP-C0401-008])

    Judgment

    criteria Must be 20 pF or less. (when not connected to FG)

    Manufacturer (Required) CLPA (Confirmation)

    Result pF

    CC-Link Partner Association

  • (10/22)

    Classification 2. Hardware tests

    Test item 2-(1) Confirmation of used parts

    Test method Confirm the used parts in the communication-related interface circuit.

    Parts name Model name Manufacturers Used/Not used

    (Manufacturer (Required))

    CLPA(Confir-mation)

    ZCYS51R5-M3PAT-01 TDK Used/Not used

    MCT7050-A401 SINKA JAPAN Used/Not used Filter

    SN75ALS181NS Texas

    Instruments Used/Not used RS485

    Driver/Receiver

    RD6.2Z-T2B-A Renesas

    Electronics Used/Not used

    HZU6.2ZTRF-E Renesas

    Electronics Used/Not used Zener diode

    (Hereinafter, when insulating the communication system)

    HCPL-7720-500E Avago

    Technologies Used/Not used

    HCPL-0720-500E Avago

    Technologies Used/Not used Photocoupler

    for signal line

    HCPL-2611-500E Avago

    Technologies Used/Not used

    HCPL-M611-500E Avago

    Technologies Used/Not used

    PS9117-F3-A Renesas

    Electronics Used/Not used

    Examination of

    used parts

    Photocoupler

    for gate control

    Judgment criteria

    Use of recommended parts, or parts with either equivalent or surpassing the quality of the recommended parts.

    Remarks

    When recommended parts (described above) are used, circle “Used” in the partner manufacturer column. When other parts are used, circle “Not used” in the partner manufacturer column, and describe the model name and manufacturer in the space below. When parts other than the recommended ones are used, attach the datasheet of corresponding parts and the data that confirm equivalent or surpassing quality of the parts comparing with recommended parts (the items and format can be in any style).

    CC-Link Partner Association

  • (11/22)

    Hereinafter test results must be written as “PASS” or “FAIL”. If the corresponding function does not exist, enter a “-“.

    Classification 2. Hardware tests

    Test item 2-(2) Confirmation of disconnection/return at power ON/OFF

    Test method

    In Configuration 1, confirm the disconnection/return operation status when the power is turned ON/OFF for the master station and the EUTs. Furthermore, when conducted by CLPA, insert the EUT and the remote station number 61 in the worst point of the aging system configuration shown in Appendix 1, and confirm the disconnection/return operation status when the power is turned ON/OFF for the master station and the EUTs. Configuration 1

    Result Detail item Confirmation Operation status Manufacturer CLPA

    L RUN LED of station number 2 is ON (returned). At this point, L RUN LED of station number 1 remains ON.

    With the master station operating, confirm operation when the power supply to EUT A is turned on last (* repeat more than 20 times).

    L ERR. LED of station number 2 is OFF. At this point, L ERR. LED of station number 1 remains OFF.

    L RUN LED of station number 2 is OFF (disconnected). At this point, L RUN LED of station number 1 remains ON.

    Power ON/OFF of EUT A

    With the master station operating, confirm operation when the power supply to EUT A is turned off (* repeat more than 20 times).

    L ERR. LED of station number 2 is ON. At this point, L ERR. LED of station number 1 remains OFF.

    L RUN LED of station number 2 is ON (returned). At this point, L RUN LED of station number 1 remains ON.

    With the master station operating, confirm operation when the power supply to EUT B is turned on last (* repeat more than 20 times).

    L ERR. LED of station number 2 is OFF. At this point, L ERR. LED of station number 1 remains OFF.

    L RUN LED of station number 2 is OFF (disconnected). At this point, L RUN LED of station number 1 remains ON.

    Power ON/OFF of EUT B

    With the master station operating, confirm operation when the power supply to EUT B is turned off (* repeat more than 20 times).

    L ERR. LED of station number 2 is ON. At this point, L ERR. LED of station number 1 remains OFF.

    L RUN LED of station number 2 is ON (returned). At this point, L RUN LED of station number 1 remains ON.

    With the master station operating, confirm operation when the power supply to EUT A and B is turned ON last, simultaneously. (* repeat more then 20 times)

    L ERR. LED of station number 2 is OFF. At this point, L ERR. LED of station number 1 remains OFF.

    L RUN LED of station number 2 is OFF (disconnected). At this point, L RUN LED of station number 1 remains ON.

    Simultaneous power ON/OFF of

    EUT A and B With the master station operating, confirm operation when the power supply to EUT A and B is turned OFF last, simultaneously. (* repeat more then 20 times)

    L ERR. LED of station number 2 is ON. At this point, L ERR. LED of station number 1 remains OFF.

    CC-Link Partner Association

  • (12/22)

    Hereinafter test results must be written as “PASS” or “FAIL”.

    If the corresponding function does not exist, enter a “-“.

    Classification 2. Hardware tests

    Result Detail item Confirmation Operation status Manufacturer CLPA L RUN LED of station numbers 1 and 2 are ON (returned).

    With the master station stopped (power off), confirm operation of EUT and other stations when the power is turned ON.

    L ERR. LED of station numbers 1 and 2 are OFF.

    L RUN LED of station numbers 1 and 2 are OFF (disconnected).

    Power ON/OFF of master station With the master station operating

    (power on), confirm operation of EUT and other stations when the power is turned OFF.

    L ERR. LED of station numbers 1 and 2 are ON.

    Classification 3. Software tests

    Result Test item Detail item Confirmation Operation status Manufacturer CLPA Automatic

    return

    EUT reset operation * If there is a way to perform reset operation to the EUT

    Confirm that all stations return automatically. 3-(1)

    Error handling Baud rate configuration

    error

    Set the baud rate setting switch of the EUT outside of the setting range.

    Confirm abnormality in the EUT.

    Classification 4. Combination tests

    Test item 4-(1) Maximum cable length

    Integrate the EUTs between the master station and the slave station, and perform the test using the cable lengths specified below:

    Test method

    Communication condition : 10Mbps Communication time : 6 hours Cable length a: 200m (300m when parts other than the recommended ones are used)

    b: Maximum distance per specification of the EUTs plus 5% (margin)

    Judgment criteria

    Confirm that normal communication can be established between the master station and the slave station, where the distance between EUT A and B is 5% longer than the maximum distance in the specifications. No count should be added to the numbers of errors in SW00C0 to SW00C8.

    Manufacturer (Required) CLPA (Confirmation) Result

    CC-Link Partner Association

  • (13/22)

    Classification 4. Combination tests

    Test item 4-(2) Worst-point test 1

    Test method

    Number of occupied EUTs a b

    None or 1 station occupied 124.8m 5.2m 2 stations occupied 125.0m 5.0m 3 stations occupied 125.2m 4.8m 4 stations occupied 125.4m 4.6m

    Confirm that normal communication can be established by placing the master station at a network terminal and the EUTs at the worst point in terms of reflected waves (point of worst communication condition).

    System configuration : Use the system configuration of the aging testTransmission speed : 10Mbps Test time : 6 hours (continuous) Test method : Communication between the slave stations,

    EUTs and the master station

    * Program transmission data so that it is different each time.

    Judgment criteria

    Confirm that normal communication can be established for 6 hours or more continuously. No count should be added to the numbers of errors in SW00C0 to SW00C8.

    CLPA (Required)

    Result

    CC-Link Partner Association

  • (14/22)

    Classification 4. Combination tests

    Test item 4-(3) Worst-point test 2

    Test method

    Number of occupied EUTs a b

    None and 1 station 124.8m 5.2m 2 stations occupied 125.0m 5.0m 3 stations occupied 125.2m 4.8m 4 stations occupied 125.4m 4.6m

    Confirm that normal communication can be established by placing EUT A at a network segment terminal and the master station at the worst point in terms of reflected waves (point of worst communication condition).

    System configuration : Use the configuration for the aging test, after switching the positions of test subjects and master station.

    Transmission speed : 10Mbps Test time : 6 hours (continuous) Test method : Communication between the slave stations,

    EUTs and the master station

    * Program transmission data so that it is different each time

    Judgment criteria

    Confirm that normal communication can be established for 6 hours or more continuously.

    No count should be added to the numbers of errors in SW00C0 to SW00C8.

    CLPA (Required)

    Result

    CC-Link Partner Association

  • (15/22)

    Classification 4. Combination tests

    Test item 4-(4) Worst-point test 3 (*Performed only when parts other than the recommended ones are used)

    Test method

    Master station

    a b

    Master station + subject test products (maximum number of connected products) Overall distance 150m (-10%)

    Number of remote station units, Number of stations, Number of subject test products64 units 64 stations 64 sets (when the number of occupied station is 0)32 units 64 stations 32 sets (equivalent of remote I/O station, when the number of occupied station is 1)32 units 64 stations 32 sets (equivalent of remote device station, when the number of occupied station is 1)21 units 63 stations 21 sets (equivalent of remote device station, when the number of occupied station is 2)16 units 64 stations 16 sets (equivalent of remote device station, when the number of occupied station is 3)12 units 60 stations 12 sets (equivalent of remote device station, when the number of occupied station is 4)* Test with the minimum number of occupied stations that can be set when the subject test product allows 2

    or more occupied stations to be selected.* Distance between two adjacent subject test products: 0.2m .0 2 m

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    SubjectTest

    product

    Remote station

    Remote station

    Remote station

    Remote station

    Remote station

    Remote station

    Remote station

    Confirm that normal communication can be established by placing the master station at a network terminal and connecting the maximum number of test stations that can be connected.

    System configuration : Refer to the figure above Transmission speed : 10Mbps Test time : 24 hours (continuous) Test method : Communication between the remote

    stations, EUTs and the master station

    * Program transmission data so that it is different each time.

    Judgment criteria

    Confirm that normal communication can be established for 24 hours or more continuously.

    No count should be added to the numbers of errors in SW00C0 to SW00C8. *Attach a picture of the test configuration.

    Manufacturer (Required) CLPA (Confirmation)

    Result

    CC-Link Partner Association

  • (16/22)

    Classification 5. Aging test

    Test item 5-(1) Aging test

    Test method

    Perform continuous operation using the system configuration shown in Appendix 1. When only recommended parts are used:

    use the system configuration shown in Appendix 1-1. When parts other than the recommended ones are used:

    use the system configuration shown in Appendix 1-2. Communication speed: Maximum communication speed per specification of the EUTs Continuous operation time: 12 hours or more

    Outline of the sequence program 1. Perform loopback check for all I/O

    modules. 2. Similarly, perform loopback check

    for analog modules. 3. Perform loopback check on data

    between the master station and local stations.

    4. Perform loopback of data between local stations.

    * Program transmission data so that it

    is different each time.

    Judgment criteria

    Confirm that operation can be continued continuously for 12 hours or more. No count should be added to the numbers of errors in SW00C0 to SW00C8.

    CLPA (Required)

    Result

    CC-Link Partner Association

  • (17/22)

    Classification 6. Measurement test of transmission delay time

    Test item 6-(1) Measurement of transmission delay time at maximum distance

    Test method

    Using as reference the delay time of the remote station’s response to the polling and refresh data from the master station in Configuration 1, take the same measurement when the EUTs are placed between the master and remote stations, in order to evaluate the transmission delay time after the EUTs are added. Configuration 1: Measuring the slave station’s response time (reference value)

    Configuration 2: Measuring the remote station’s response time after EUTs are added ・Delay time at maximum transmission distance: TM ・Delay time of EUT A: TA ・Delay time of EUT B: TB

    Connect an oscilloscope to the master station’s communication terminal, and calculate the transmission delay time when EUTs are connected, by taking the difference in the response times of the remote stations in response to the polling and refresh data from the master station, between configuration 1 and 2.

    System configuration : Refer to the figure above. Transmission speed : 10Mbps, 5Mbps, 2.5Mbps, 625kbps, 156kbps Test method: Communication between the remote stations, EUTs and the master stationTransmission delay time: TDR = (Tresponse time in configuration 2 - Tresponse time in configuration 1)/2

    Remarks

    In detached form: Consider the environment conditions and submit (1) and (2) below: (1) Specification values (Max, Typ, Min) of each of transmission delay times (TM, TA, TB) (2) Method to convert the measured value at short transmission distance to maximum

    transmission distance. From this, the maximum transmission delay time must be calculated from the CLPA test results at normal temperature and short transmission distance.

    In integrated form: Consider the environment conditions and submit (1) below: (1) Specification values (Max, Typ, Min) of transmission delay time (TDR)

    As for the wave form measured, submit it to CLPA.

    CC-Link Partner Association

  • (18/22)

    Classification 6. Measurement test of transmission delay time.

    Test item 6-(1) Measurement of transmission delay time at maximum distance

    Judgment criteria

    Confirm that the specification value Max TDR = Max (TA+TB+TM) and transmission delay bit calculated based on the number of connectable segment stages meet the following criteria:

    Number of connectable segment stages: N Bit length in baud rate: [ns]

    Transmission delay time: TDR = (Tresponse time in configuration 2 - Tresponse time in configuration 1)/2

    = TA + TM + TB [ns]

    Transmission delay bit: (TDR/ + 10) × N ≤ 300 [bit] Transmission speed [bps] 10M 5M 2.5M 625k 156k

    1-bit long [ns] 100 200 400 1600 6400

    Manufacturer (Required) CLPA

    (Required) Response time in Configuration

    1 (normal temp) [ns] [ns]Response time in Configuration

    2 (normal temp) [ns] [ns]Specifications Measured TDR Measured TDR Min Typ Max (Normal temp) (Normal temp)

    TA + TB Measured value Measured value

    TM Short

    distance ( m)

    [ns] [ns]Detached form

    Max

    distance( m)

    Measured value [ns] Converted value

    [ns]

    Integrated form TDR

    Measured value

    [ns]

    Measured value

    [ns]

    Maximum stages Manufacturer’s specification [stages] -

    Result (10Mbps)

    Transmission delay bit Converted value [bit] Converted value

    [bit]Response time in Configuration

    1 (normal temp) [ns] [ns]Response time in Configuration

    2 (normal temp) [ns] [ns]Specifications [ns] Measured TDR Measured TDR Min Typ Max (Normal temp) (Normal temp)

    TA + TB Short

    distance ( m)

    Measured value

    [ns]

    Measured value

    [ns]Detached form TM Max

    distance( m)

    Measured value [ns] Converted value

    [ns]

    Integrated form TDR

    Measured value

    [ns]

    Measured value

    [ns]

    Maximum stages Manufacturer’s specification [stages] -

    Result (5Mbps)

    Transmission delay bit Converted value [bit] Converted value

    [bit]

  • (19/22)

    Classification 6. Measurement test of transmission delay time.

    Test item 6-(1) Measurement of transmission delay time at maximum distance

    Manufacturer (Required) CLPA

    (Required) Response time in Configuration

    1 (normal temp) [ns] [ns]Response time in Configuration

    2 (normal temp) [ns] [ns]Specifications [ns] Measured TDR Measured TDR Min Typ Max (Normal temp) (Normal temp)

    TA + TB Measured value Measured value

    TM Short

    distance ( m)

    [ns] [ns]Detached form

    Max

    distance( m)

    Measured value [ns] Converted value

    [ns]

    Integrated form TDR

    Measured value

    [ns]

    Measured value

    [ns]Maximum stages Manufacturer’s specification [stages] -

    Result (2.5Mbps)

    Transmission delay bit Converted value [bit] Converted value

    [bit]Response time in Configuration

    1 (normal temp) [ns] [ns]Response time in Configuration

    2 (normal temp) [ns] [ns]Specifications [ns] Measured TDR Measured TDR Min Typ Max (Normal temp) (Normal temp)

    TA + TB Measured value Measured value

    TM Short

    distance ( m)

    [ns] [ns]Detached form

    Max

    distance( m)

    Measured value [ns] Converted value

    [ns]

    Integrated form TDR

    Measured value

    [ns]

    Measured value

    [ns]Maximum stages Manufacturer’s specification [stages] -

    Result (625kbps)

    Transmission delay bit Converted value [bit] Converted value

    [bit]Response time in Configuration

    1 (normal temp) [ns] [ns]Response time in Configuration

    2 (normal temp) [ns] [ns]Specifications [ns] Measured TDR Measured TDR Min Typ Max (Normal temp) (Normal temp)

    TA + TB Measured value Measured value

    TM Short

    distance ( m)

    [ns] [ns]Detached form

    Max

    distance( m)

    Measured value [ns] Converted value

    [ns]

    Integrated form TDR

    Measured value

    [ns]

    Measured value

    [ns]Maximum stages Manufacturer’s specification [stages] -

    Result (156kbps)

    Transmission delay bit Converted value [bit] Converted value

    [bit]

    Judgment

    CC-Link Partner Association

  • (20/22)

    Appendix 1-1: Aging test system configuration (when only recommended parts are used)

    AJ65SBTB1-16D(Station number 57)

    AJ65SBTB1-16T (Station number 56)

    AJ65SBTB1-16D (Station number 47)

    AJ65SBTB1-16T (Station number 46)

    AJ65SBTB1-16D(Station number 55)

    AJ65SBTB1-16T (Station number 54)

    AJ65SBTB1-16D (Station number 48)

    AJ65SBTB1-16T (Station number 49)

    Q02 CPU-A

    A1SJ61 BT11

    (Local station)(Station number

    52)

    Q02HCPU

    QJ61 BT11

    (Local station)(Station number

    53)

    A2USCPU

    A1SJ61 BT11

    (Local station)(Station number

    50)

    Q2ASCPU

    A1SJ61 QBT11

    (Local station)(Station number

    51)

    AJ65SBTB1-32D (Station number 60)

    AJ65SBTB1-32T (Station number 59)

    AJ65SBTB1-16DT(Station number 58)

    AJ65SBTB1-16D (Station number 43)

    AJ65SBTB1-16T (Station number 42)

    AJ65SBTB1-16DT(Station number 44)

    AJ65SBTB1-16DT(Station number 45)

    Caution: CC-Link Ver.1.10 certified cable must be used.

    Q02HCPU

    QJ61 BT11(N)

    (Master station)

    AJ65SBTB1-32D(Station number 2)

    AJ65SBTB1-32T (Station number 1)

    AJ65SBTB1-32D(Station number 38)

    AJ65SBTB1-32T (Station number 39)

    AJ65SBTB1-32D(Station number 18)

    AJ65SBTB1-32T (Station number 17)

    AJ65SBTB1-16D(Station number 16)

    AJ65SBTB1-16T (Station number 15)

    AJ65SBTB1-16D (Station number 40)

    AJ65SBTB1-16T (Station number 41)

    AJ65SBTB1-16DT(Station number 64)

    AJ65SBTB1-32D (Station number 36)

    AJ65SBTB1-32T (Station number 37)

    AJ65SBTB1-16D (Station number 33)

    AJ65SBTB1-16T (Station number 32)

    AJ65SBTB1-16D(Station number 35)

    AJ65SBTB1-16T (Station number 34)

    AJ65BT-64DAI (Station number 26)

    AJ65BT-64AD (Station number 28)

    AJ65BT-64DAV (Station number 30)

    AJ65SBTB1-16DT(Station number 63)

    Test product

    (repeater)

    AJ65BT-64DAI (Station number 20)

    AJ65BT-64AD (Station number 22)

    AJ65BT-64DAV (Station number 24)

    AJ65SBTB1-16DT(Station number 19)

    AJ65BT-64DAI (Station number 3)

    AJ65BT-64AD (Station number 5)

    AJ65BT-64DAV (Station number 7)

    AJ65BT-64DAI (Station number 9)

    AJ65BT-64AD (Station number 11)

    AJ65BT-64DAV (Station number 13)

    AJ65SBTB1-16DT (Station number 62)

    *

    The cable lengths between respective stations are shown below: Before/after the mater station --- Changes depending on the number of occupied stations for the test station.

    Number of occupied stations 1 station = 124.8m 2 stations = 125.0 m 3 stations = 125.2 m 4 stations = 125.4 m Other stations = 0.2 m

    However, the cable length of before/after test station should be connectable minimal length if wiring of 0.2m is impossible because of the shape of test station.

    When the test station is Ver.2.0 compatible, use QJ61BT11N.

    AJ65SBTB1-16DT (Station number 61)

    Test product

    (repeater)

    The module configuration inside changes depending on the number of occupied stations for the test station. Number of occupied stations 1 station = 3 units (As shown by the figure) 2 stations = 2 units 3 stations = 1 units 4 stations = 0 units

    200m

    2 stations occupied Remote device station

    Remote I/O station 1 station occupied

    CC-Link twisted pair cable Signal line for loopback check of I/O, etc

    *

  • (21/22)

    Appendix 1-2: Aging test system configuration (when parts other than the recommended ones are used)

    Q02HCPU

    QJ61 BT11(N)(Master station)

    CC-Link twisted pair cable (0.2m)

    Signal line for loopback check of I/O, etc

    AJ65SBTB1-32D (Station number 2)

    AJ65SBTB1-32T (Station number 1)

    AJ65SBTB1-16D (Station number 57)

    AJ65SBTB1-16T (Station number 56)

    AJ65SBTB1-32D (Station number 38)

    AJ65SBTB1-32T (Station number 39)

    AJ65SBTB1-32D (Station number 18)

    AJ65SBTB1-32T (Station number 17)

    AJ65SBTB1-16D (Station number 16)

    AJ65SBTB1-16T (Station number 15)

    AJ65SBTB1-16D (Station number 40)

    AJ65SBTB1-16T (Station number 41)

    AJ65SBTB1-16DT(Station number 64)

    AJ65SBTB1-32D (Station number 36)

    AJ65SBTB1-32T (Station number 37)

    AJ65SBTB1-16D (Station number 33)

    AJ65SBTB1-16T (Station number 32)

    AJ65SBTB1-16D (Station number 35)

    AJ65SBTB1-16T (Station number 34)

    AJ65BT-64DAI (Station number 26)

    AJ65BT-64AD (Station number 28)

    AJ65SBTB1-16D (Station number 47)

    AJ65SBTB1-16T (Station number 46)

    AJ65BT-64DAV (Station number 30)

    AJ65SBTB1-16DT(Station number 63)

    AJ65SBTB1-16D (Station number 55)

    AJ65SBTB1-16T (Station number 54)

    AJ65SBTB1-16D (Station number 48)

    AJ65SBTB1-16T (Station number 49)

    Q02 CPU-A

    A1SJ61 BT11

    (Local station) (Station number

    52)

    Q02HCPU

    QJ61 BT11

    (Local station) (Station number

    53)

    A2USCPU

    A1SJ61 BT11

    (Local station) (Station number

    50)

    Q2ASCPU

    A1SJ61 QBT11

    (Local station) (Station number

    51)

    AJ65SBTB1-32D (Station number 60)

    AJ65SBTB1-32T (Station number 59)

    AJ65SBTB1-16DT(Station number 58)

    AJ65BT-64DAI (Station number 20)

    AJ65BT-64AD (Station number 22)

    AJ65BT-64DAV (Station number 24)

    AJ65SBTB1-16D (Station number 43)

    AJ65SBTB1-16T (Station number 42)

    AJ65SBTB1-16DT(Station number 44)

    AJ65SBTB1-16DT(Station number 45)

    AJ65SBTB1-16DT(Station number 19)

    AJ65BT-64DAI (Station number 3)

    AJ65BT-64AD (Station number 5)

    AJ65BT-64DAV (Station number 7)

    AJ65BT-64DAI (Station number 9)

    AJ65BT-64AD (Station number 11)

    AJ65BT-64DAV (Station number 13)

    AJ65SBTB1-16DT (Station number 62)

    *1

    *1 The module configuration inside changes depending on the number of occupied stations for the test station. Number of occupied stations 1 station = 3 units (As shown by the figure) 2 stations = 2 units 3 stations = 1 units 4 stations = 0 units

    The cable lengths between respective stations are shown below:

    part in the left figure = 41m Other stations = 0.2 m However, the cable length of before/after test station should be connectable minimal length if wiring of 0.2 m is impossible because of the shape of test station.

    Remote device station

    2 stations occupied

    Remote I/O station1 station occupied

    Caution: CC-Link Ver.1.10 certified cable must be used.

    *2

    CC-Link twisted pair cable (41m)

    41m

    41m

    41m

    *2 Place the master station at the worst point.

    When the test station is Ver.2.0 compatible, use QJ61BT11N.

    Test product

    (repeater)

    AJ65SBTB1-16DT (Station number 61)

    Test product

    (repeater)200m

  • (22/22)

    Appendix 2: Unit arrangement and the wiring order on testing rack

    S t.N o.50 S t.N o .48 S t.N o.41

    S t.N o.59 S t.N o .60

    S t.N o.58 S t.N o .57 S t.N o.56

    S t.N o .54 S t.N o.55

    S t.N o .45 S t.N o.44

    S t.N o .46 S t.N o.43

    S t.N o .47 S t.N o.42

    S t.N o .49 S t.N o.40

    S t.N o .38 S t.N o.37 S t.N o .34

    S t.N o .62 S t.N o.19 S t.N o .20

    S t.N o .63 S t.N o.18 S t.N o .22

    S t.N o .64 S t.N o.17 S t.N o .24

    S t.N o .1 S t.N o.16 S t.N o .26

    S t.N o .2 S t.N o.15 S t.N o .28

    S t.N o .3 S t.N o.13 S t.N o .30

    S t.N o .5 S t.N o.11 S t.N o .32

    S t.N o .7 S t.N o.9 S t.N o .33

    S t.N o .39 S t.N o.36 S t.N o .35

    M aste r s ta tion

    T es t p roduc t repea ter

    S t.N o.51

    S t.N o.52

    S t.N o.53

    S pace fo r b reaker and D C pow er supp ly

    T esting rack (le ft s ide ) T es ting rack (righ t s ide )

    S pace fo r b reaker and D C pow er supp ly

    S pace fo r s ta tion num ber pow er supp ly sw itch S pace fo r s ta tion num ber pow er supp ly sw itch

    T es t p roduc t repeater

    S t.N o .61