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(1/25) Model CC-Link Ver.1.10/Ver.2.0 Compatible Title CC-Link Intelligent Device Station Conformance Test Specifications Management number : BAP-C0401-020-B CC-Link Partner Association

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

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Text of Model CC-Link Ver.1.10/Ver.2.0 Compatible Title CC-Link

Management number : BAP-C0401-020-B
CC-Link Partner Association
number 1. Noise tests
· Change of the test method in 1-(3) “Floating capacity measurement”
· Change of the item in 2-(1) from “Confirmation of specified parts” to “Confirmation of used parts”
· Change of the test configuration in 4-(1) “Maximum cable length”
· Addition of the item 4-(4) “Worst-point test 3”
· Addition of a system configuration “Appendix 1-2”
6/22/2009 A
2. Hardware tests
3. Software tests
· Added a recommended part (filter) in 2-(1) “Confirmation of used parts”.
· Change of the title in 3-(1) from “Confirmation of station number and setting data” to “Confirmation of station information”
· Addition of the item 3-(2) “Number of Occupied Stations Values”
· Addition of the item 3-(3) “Station Number Verification”
6/10/2010 B
1-(2) Cable (bundle) noise test
1-(3) Floating capacity measurement
2. Hardware tests ______________________________________________ 10
2-(2) Confirmation at power-on
2-(3) Online module replacement
3. Software tests ______________________________________________ 12
3-(2) Number of Occupied Stations Values
3-(3) Station Number Verification
3-(4) Confirmation of handshake
Appendix 1: Aging test system configuration _______________________________ 21
Appendix 2: Unit arrangement and the wiring order on testing rack _____________ 23
Appendix 3: Noise simulator waveforms _______________________________ 24
(4/25)
Overview This specifications document contains items related to CC-Link-compatible Intelligent Device station connectivity conformance tests. 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 described with [PASS/FAIL] on the result of each test item column. Describe [-] when there is no corresponding function. Also, depending on the test contents, measurement values must be input as necessary. Whether the test is executed or not depending on the CC-Link version of the test station is as indicated in "(2) Test item list". (1) The test configuration and notes
Unless otherwise specified, the hardware configuration shown in the figure below shall be used for testing. Unless otherwise specified, the communication speed and station-to-station distance (cable length) shall be 10 Mbps and 5 m, respectively. The data communicated between the master station and test station is changed each time so that no identical data is transmitted successively. In addition to cyclic send in tests performed by the Association, read/write from the test station to the master station D1500 platform was executed on a transient basis (utilizing test station programs written by the device manufacturer). Communication is 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").
Basic test configuration
Local station
(Master Module)
PC CPU and master module combinations allowed for testing 1) When test station is Ver.1.10 compatible
PC CPU (Mitsubishi Electric Corp.) Master module (Mitsubishi Electric Corp.)
QCPU QJ61BT11 or QJ61BT11N
PC CPU (Mitsubishi Electric Corp.) Master module (Mitsubishi Electric Corp.)
QCPU QJ61BT11
(5/25)
(2) Test item list Whether test is executed or not depending
on test station version ( : Executed) Ver.1.10 Ver.2.0
Classification Test item
both modes
*A
1. Noise tests
1-(3) Floating capacity measurement *A 2-(1) Confirmation of used parts *A 2-(2) Confirmation at power-on *B
2. Hardware tests
2-(3) Online module replacement *B 3-(1) Confirmation of station information *B 3-(2) Number of Occupied Stations Values *B 3-(3) Station Number Verification *B 3-(4) Confirmation of handshake *B 3-(5) Error handling *B
3. Software tests
3-(6) Transient Send function *B 4-(1) Maximum cable length *A 4-(2) Worst-point test 1 *A 4-(3) Worst-point test 2 *A
4. Combination tests
4-(4) Worst-point test 3 *1 *1 *A 5-(1) Profile confirmation *B 5. Interoperability tests 5-(2) Interoperability *B
6. Aging test 6-(1) Aging test *B 7. Basic function check *B
*1:Performed only when parts other than the recommended ones are used
*A: Executed in Ver.1.10 mode
*B: Executed in both Ver.1.10/Ver.2.0 modes
(6/25)
(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 (6C0H) 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 (6C1H) TIME error Number of timeout errors detected
SW00C2 (6C2H) CRC error Number of CRC errors detected
SW00C3 (6C3H) Abort error Number of abort errors detected
SW00C4 (6C4H) Hardware error Number of hardware errors detected
SW00C5 (6C5H) Line error Number of line errors detected
SW00C6 (6C6H) Software error Number of software monitoring timeouts
SW00C7 (6C7H) Invalid XCD Number of invalid XCDs detected
SW00C8 (6C8H) 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
error content.
is turned on or at power-off.
2) Master module Link special relays (SB0010 to SB0011) Number (buffer memory address)
Name Content Details
SB0010 (5E1H 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 (5E1H bit 1) Send path clear Number of line Send errors clear
The number of line Send 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.
(7/25)
(4) PLC CPU Device Access Codes Specify the following access codes when accessing a PLC device.
Type Device Contents Name
Input relay X 01H 0 to 1FFF
Output relay Y 02H 0 to 1FFF
Special relay SM 43H 0 to 2047
Special register SD 44H 0 to 2047
Internal relay M 03H 0 to 8191
Latch relay L 83H 0 to 8191
Timer (contact) T 09H 0 to 2047
Timer (coil) T 0AH 0 to 2047
Timer (current value) T 0CH 0 to 2047
Acc. Timer (contact) ST 89H 0 to 2047 *: 0 to 224
Acc. Timer (coil) ST 8AH 0 to 2047 *: 0 to 224
Acc. Timer (current value) ST 8CH 0 to 2047 *: 0 to 224
Counter (contact) C 11H 0 to 1023
Counter (coil) C 12H 0 to 1023
Counter (current value) C 14H 0 to 1023
Data register D 04H 0 to 12288
File register R 84H 0 to 32767
Link relay B 23H 0 to 1FFF
Link register W 24H 0 to 1FFF
Link special relay SB 63H 0 to 7FF
S upported range
Link special register SW 64H 0 to 7FF (type b: bit, w: word)
(Note 1) The above values indicate the default device range for the Mistubishi Electric Q/QnA series PLC. (An asterisk (*) on a series indicates possible acc. timer setting range when other devices' setting ranges are within default setting range) Refer to the appropriate PLC manual for the actual device access ranges.
(Note 2) Use any access code for devices that use a single common memory. (Note 3) Unsupported devices cannot be accessed. If this range of device data is necessary,
use the PLC program to pass data and other processes via another device.
(Note 4) If the bit device’s leading device number is a multiple of 8, set the read/write multiple to 16.
(8/25)
Classification 1. Noise tests
Test item 1-(1) Simulator noise (Common mode) test [AC/DC power supply]
Test method
Power supply line length must be 20 cm to 50 cm and twisted pair cable.
Simulator set conditions
Pulse widt h 1 S Wiring
length 50cm or less Noise simulator Model name: INS400L
Rise 1nS Thickness 2 mm2 Isolating transformer Model name: NCT-160
Test conditions
Frequency 45Hz
Test results Noise waveform produced by test
Judgment criteria Must communicate normally for two hours or more at the noise voltage below (Retry error
must not be occured.) AC power supply: 2000V, DC power supply: 900V
Manufacturer (Required) CLPA (Required)
CC-Link Partner Association
L (+) Power supply of all equipments must be supplied from isolating transformer. L ( )
DC Power (/ ) N ( )
Noise applie
SG FG(OPEN)
Test method
Grounding connection (FG) The equipments used (Reference)
Pulse width 1 S Wiring length 50cm or less Noise simulator Model name: INS400L
Rise 1nS Thickness 2mm2 Isolating transformer Model name: NCT-160
Test conditions
Frequency 45Hz Coupling adapter Model name: CA-805B
Judgment criteria Must communicate normally for 10 minutes or more at the noise voltage of 1000V(Retry error must not be occured.)
Manufacturer (Required) CLPA (Required)
Test method
Subject test
Measure the floating capacity between DA and DB terminals (Frequency: (measured frequency: 10 MHz) Measurement equipment (Reference) : HP4285A Measurement probe (Reference) : HP16334A (Refer to “Floating capacity measurement procedure guide” [BAP -C0401-008])
Judgment
criteria
The floating capacity between DA and DB terminals must be 20 pF or less at FG non-connection.
Manufacturer (Required) CLPA (Confirmation)
L ( )
N ( )
AC100
Noise applied
QJ61BT1
(10/25)
Test method Confirm the used parts in the communication-related interface circuit.
Parts name Model name Manufacturers
Used/Not used
MCT7050-A401 SINKA JAPAN Used / Not used Filter
SN75ALS181NS Texas Instruments Used / Not used RS485
driver/receiver
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
Judgment criteria
Use of recommended parts, or parts with either equaling 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 the equaling or surpassing quality of the parts comparing with recommended parts (the items and format can be in any style).
CC-Link Partner Association
(11/25)
Hereinafter test results must be described with [PASS/FAIL]. Input [ ] when there is no corresponding function.
Classification 2. Hardware tests
facturer CLPA
The L RUN LED of the test station is on LED of the test station is off (*Only when the LED is provided)
The L ERR LED of the test station is off LED of the test station is off (*Only when the LED is provided)
The RX (m n) 8 is on at the master station
Power-on
With the master station operating, confirm operation when the power supply to the test station is turned on
All except the RX (m n) 8 are off at the master station
The L RUN LED of the test station is on (*Only when the LED is provided)
Power-on Master station stop
While master station is stopped (power OFF) Confirm that the test station operates normally while Power is on.
The L ERR LED of the test station is off (*Only when the LED is provided)
The L RUN LED of the test station is on (*Only when the LED is provided)
The test station L ERR. LED blinks (*Only when the LED is provided)
The RX (m n) 8 is on at the master station
2-(2) Confirmation at power-on
Power-on Master station stop
Running
Master station stop Confirm operation of the test station when the status of the master station is changed from stop (power off) to running
All except the RX (m n) 8 are off at the master station
Confirm that module replacement can be completed without affecting the communication of master and other stations
2-(3) Online Module
Module repla cement
Using 2 or more remote stations, replace test stations (modules) during normal link communication
* Applicable to modules us ing a two-piece terminal module
Confirm that the test station returns to the system normally upon completion of replacement
CC-Link Partner Association
Test method
Confirm the station information of the test station using the master module and FROM/TO areas. Confirm the station number on the first, 35th and 64th stations, respectively.
*1 If the test station occupies multiple stations, confirm the last station number that can be set
Two stations occupied : station number 63 Three stations occupied : station number 62 Four stations occupied : station number 61
When master station is Q series When master station is QnA/A series
Master station FROM/TO areas Master station FROM/TO areas
(Upper byte Lower byte)
Data (*2) Data (*2)
code [ ]
0802H Software version
Areas for station
number 1 Area
0803H Reserved area
Areas for station
number 1 Area
0803H Software version [ ]
code
088AH Software version
Areas for station
number 35 Area
088BH Reserved area
Areas for station
number 35 Area
088BH Software version
code
08FEH Software version
Areas for station
number 64 Area
08FFH Reserved area
Areas for station
number 64 Area
08FFH Software version
Enter correct station information in specified station number address Confirm that correct station information (manufacturer code/model code/model type/software version) is stored at the address of the station number set.
Remarks *2 Record data for comparison during the test by CLPA
Manufacturer (Required) CLPA (Required)
(13/25)
Hereinafter test results must be described with [PASS/FAIL]. Input “ “ when there is no corresponding f unction.
Classification 3. Software tests
Test item 3-(2) Number of Occupied Stations Values
(*This test is only for devices where the Number of Occupied Stations is configurable by the operator.)
Test method For each valid Number of Occupied Stations value, verify the test station operates as defined.
Judgment criteria Confirm that the test station operates as defined for each valid configurable Number of Occupied Stations value (setting).
Test station
Test item 3-(3) Station Number Verification
Test method Verify that the test station can be set to any valid Station Number.
Choose three (3) random valid Station Number values (settings).
Judgment criteria Confirm that the test station operates as defined for each selected valid Station Number value (setting).
Test station
facturer CLPA
Initial Data Request
Initial Data Complete
Confirm handshake with the master station when the power of the test station is turned on. Confirm continuously 10 times or more
Confirm the following actions using the PLC program of the master station
RX (m n) 8 Initial data
processing request
processing complete
Initial Data Setting
Complete
At the master station (PLC program), confirm handshake when the initial data setting reques flag [RX (m n) 9] is turned on. Confirm continuously 10 times or more
Confirm the following actions using the PLC program of the master station
RY (m n) 9 Initial data
setting request
setting complete
3-(4)
Error reset
Cause an error at the test station, bring up error flag. Force [RX(m n)A] ON Confirm continuously 10 times or more
Confirm the following actions using the PLC program of the master station
RX (m n) A Error state
RY (m n) A Error
reset request
Ready
At master unit SW0080-SW0083, confirm data for test station error is loaded. (Power off.)
Cause an error at the test station. [Error-causing method] Turn the power off or use other method (if any error-causing method specific to the test station is available)
Confirm at the master module that the RX (m n) A turns on. (When other method is used: describe the test method in the space below) Test method
Error handling
Confirm the output status when the test station is in error (Does the result agree with the manufacturer’s finding?) OFF/HOLD/ON
Confirm that the result agrees with the manufacturer’s finding
Indicate the manufacturer’s finding (Circle t he applicable item shown to left)
Test station Power ON OFF ON
Confirm that the test station returns automatically
Automatic return
Test station reset operation *If there is a way to perform reset operation to the test station
Confirm that the test station returns automatically
Duplicate station number
Set the station number of the test station to a number occupied by other remote station. (However, the number must be different from the h ead station number of the remote station)
At master unit SW0098-SW009B, Confirm that information is loaded.
Station number setting
Out of range
Set the station number of the test station to a number outside the setting range. (0 and 65)
Confirm error at the test station
3-(5) Error handling
Baud rate Setting error
Set the baud rate setting swi tch of the test station to a value outside the setting range
Confirm error at the test station
CC-Link Partner Association
Q
send/receive
Confirm that all master station devices can send and receive data using the transient function for all ranges. After the Q series is confirmed at the master station, the A series will confirm at the master station. (A series can only be confirmed at a Ver. 1.10-compatible test station.) *Any restrictions are listed in the manual.
A
Q
send/receive
Confirm that all local station devices can send and receive data using the transient function for all ranges. After the A series is confirmed at the master station, the Q series will confirm at the master station. (A series can only be confirmed at a Ver. 1.10-compatible test station.) *Any restrictions are listed in the manual.
A
Test one-on-one communication between the master station and subject test station using a cable with the length specified below:
Test method
Communication condition : 10Mbps Communication time : 6 hours Cable length : 200m (300m when parts other than th e recommended ones are used)
L ( )
N ( )
AC100V
DC power supply( / )
Judgment
criteria
Confirm that normal communication can be established between the master station and test
station using a cable of the above length.
Manufacturer (Required) CLPA (Confirmation)
Test method
25 0.2m 5.0m
25 units 25 stations
Number of remote station units Number of stations 26 units 38 stations (when the number of occupied station is 1) 25 units 37 stations (when the number of occupied station is 2) 24 units 36 stations (when the number of occupied station is 3) 23 units 35 stations (when the number of occupied station is 4)
a 124.8m, b 5.2m (1 station occupied) a 125.0m, b 5.0m (2 stations occupied) a 125.2m, b 4.8m (3 stations occupied) a 125.4m, b 4.6m (4 stations occupied)
Distance
Number of units
Place the master station at the network terminus and the test station at the reflective wave's worst point. Confirm that communication is possible when placed (at the worst point).
System configuration : Using aging test system configuration Transfer speed : 10 MBPS Test time : 6 hours (continuous)
Test method : Communication between the test station and 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 in SW00C0 to SW00C8
CLPA (Required)
Test method
Remote station
25 0.2m 5.0m
25 units 25 stations
Number of remote station units Number of stations
26 units 38 stations (when the number of occupied station is 1) 25 units 37 stations (when the number of occupied station is 2) 24 units 36 stations (when the number of occupied station is 3) 23 units 35 stations (when the number of occupied station is 4)
a 124.8m, b 5.2m (1 station occupied) a 125.0m, b 5.0m (2 stations occupied) a 125.2m, b 4.8m (3 stations occupied) a 125.4m, b 4.6m (4 stations occupied)
Distance
Master station
Test station
Remote station
Remote station
Remote station
Local station
Worst point
Place the test station at the network terminus and the master station at the reflective wave's worst point. Confirm that communication is possible when placed (at the worst point).
System configuration : Using aging test system configuration After switching the test station and master station positions.
Transfer speed : 10 MBPS Test time : 6 hours (continuous) Test method : Communication between the test station and
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 in SW00C0 to SW00C8
CLPA (Required)
Test item
4-(4) Worst-point test 3) (*Performed only when parts other than the recommended ones are used)
Test method
Master station + test stations (maximum number of connected stations) Overall distance 150m (-10%)
Number of test station units Number of stations 26 units 26 stations (Intelligent device station: when the number of occupied station is 1) 16 units 52 stations (Intelligent device station: when the number of occupied station is 2) 21 units 63 stations (Intelligent device station: when the number of occupied station is 3) 16 units 64 stations (Intelligent device station: when the number of occupied station is 4) *Test with the minimum number of occupied stations that can be set when the test station allows 2 or more occupied stations to be selected.
a=130.0m, b=5.0m (Intelligent device station: 1 station occupied) a=130.0m, b=5.0m (Intelligent device station: 2 stations occupied) a=131.0m, b=4.0m (Intelligent device station: 3 stations occupied) a=132.0m, b=3.0m (Intelligent device station: 4 stations occupied)
Distance
Distance between two adjacent test stations: 0.2m
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 Transfer speed : 10Mbps Test time : 24 hours (continuous) Test method : Communication between the test station and 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)
Test item 5-(1) Profile confirmation
Test method Confirm that the memory mapping conforms to the profile corresponding to the model
of the test station
Manufacturer (Required) CLPA (Confirmation)
Test method
Use a different model (or manufacturer) but the same type (working) as the test station and without changing the PLC program, confirm that the different model (manufacturer) unit works correctly. *If there is no module of the same type (same application), this test is not necessary.
Judgment
criteria
Basic areas must operate. *However, confirm the common areas only if the module has model-specific functions.
CLPA (Required)
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: 10 Mbps
Continuous operation time: 12 hours or more
Outline of the PLC program 1. Perform lookback check for all I/O
modules 2. Similarly,
Perform lookback check for analog modules
3. Perform lookback check on data between the master station and local stations
4. Perform lookback 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 in SW00C0 to SW00C8
CLPA (Required)
1. Signal name is clear in vicinity of terminal block.
2. Dedicated CC-Link cable can be correctly installed.
3. Five types of transmission speeds,
from 156kbps to 10Mbps can be transmitted.
4. The supplied firmware version is displayed so it
can be determined in a static state.
Display method/place

5. If an error occurs only on the device, the output
signal status is clearly defined in the manual.
6.
irrespective of the order in which power
is applied to the master station and the personal
station.
7.
is turned on, even if the CC-Link cable is not
configured correctly. Normal
connections are made correctly.
s or the installed equipment specifications.
T he
c ab
le le
ng th
s be
tw ee
n re
sp ec
tiv e
st at
io ns
25 )
(24/25)
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 est s ta tion S t.N o .61
S t.N o .51
S t.N o .52
S t.N o .53
S pace fo r b reak e r and D C pow er supp ly
T he back o f te s ting rack T he fron t o f tes ting rack
(25/25)
Simulator setting procedure
Select the smallest C at which no overshooting will occur
Example of simulator waveform