Toshiba Tosvert Vf S15 Series Option Unit Function E6581830 Users Manual

2014-12-13

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E6581830

TOSVERT VF-S15 series
®

option unit Function Manual
CCL003Z

NOTICE
1. Read this manual before installing or operating. Keep this instruction manual on
hand of the end user, and make use of this manual in maintenance and inspection.
2. All information contained in this manual will be changed without notice. Please
contact your Toshiba distributor to confirm the latest information.

E658130

Introduction
Thank you for purchasing the “CC-Link® option (CCL003Z)” for TOSVERT VF-S15 drive.
This option can connect with open field network CC-Link and data communications with
the CC-Link master through installing this option in the VF-S15 and using it. Besides this
instruction manual, the “CC-Link option Instruction Manual” is required to develop
software communicating with VF-S15.
This option needs the option adaptor to connect VF-S15 which type form is SBP009Z.
Please match here and buy it when SBP009Z is not at hand yet.
After reading this function manual, please keep it handy for future reference.
For details of its general handling, see an instruction manual attached with the option
unit.
- TOSVERT VF-S15 Instruction Manual ·························································· E6581611
- TOSVERT VF-MB1/S15 communication option Precautions Manual ··········· E6581739
- TOSVERT VF-S15 Communication Function Instruction Manual ················· E6581913

CC-Link® is a registered trademark of Mitsubishi Electric Corporation.

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E658130
Handling in general

Warning
Prohibited

Do not connect or disconnect a network cable while the drive power is on.
It may lead to electric shocks or fire.

Mandatory

See the instruction manual attached with the option unit for cautions the handling.
Otherwise, it may lead to electric shocks, fire, injuries or damage to product.

Network control

Warning
Prohibited

Do not send the value out of the valid range to objects and attributes.
Otherwise, the motor may suddenly start/stop and that may result in injuries.

Mandatory

Use an additional safety device with your system to prevent a serious accident due to the
network malfunctions. Usage without an additional safety device may cause an accident.

Caution

Mandatory

Set up “Communication error trip function (see below)” to stop the drive when the option
unit is deactivated by an unusual event such as tripping, an operating error, power
outage, failure, etc.
- Network Time-Out, drive operation at disconnection, Preset speed operation
selection
(Refer to 5.2 for details)
Deactivated the option module may cause an accident, if the “Communication error trip
function” is not properly set up.
Make sure that the operation signals are STOP before resetting drive’s fault. The motor
may suddenly start and that may result in injuries.

Notes on operation

Notes
When the control power is shut off by the instantaneous power failure, communication
will be unavailable for a while.
The Life of EEPROM is approximately 100,000 times. Avoid writing a command more
than 100,000 times to the same parameter of the drive and the option module.

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E658130

Table of Contents
1.
2.

OVERVIEW ............................................................................................................................................ - 4 BASIC SPECIFICATIONS ..................................................................................................................... - 4 2.1. CC-Link Version .............................................................................................................................. - 5 2.1.1. CC-Link Ver. 1.10 .................................................................................................................... - 5 2.1.2. CC-Link Ver. 2 ......................................................................................................................... - 5 3. NAMES AND FUNCTIONS ................................................................................................................... - 6 3.1. Outline ............................................................................................................................................. - 6 4. INSTALLATION ON INVERTER ........................................................................................................... - 7 4.1. Connection cable ............................................................................................................................ - 7 4.2. Terminating resistor ........................................................................................................................ - 7 4.3. Connection of CC-Link master unit and inverter............................................................................. - 8 4.4. The maximum connection number of units ..................................................................................... - 9 4.5. LED indicator................................................................................................................................. - 11 5. FUNCTIONS ........................................................................................................................................ - 12 5.1. Initial setting .................................................................................................................................. - 12 5.2. Communication parameters for CCL003Z .................................................................................... - 13 5.3. CC-Link function setting ................................................................................................................ - 14 5.3.1. Station number setting ........................................................................................................... - 14 5.3.2. Baud rate setting.................................................................................................................... - 14 5.3.3. CC-Link extended setting ...................................................................................................... - 15 5.4. Basic functions .............................................................................................................................. - 16 5.4.1. Run and frequency operation command ............................................................................... - 16 5.4.2. Monitor ................................................................................................................................... - 16 5.4.3. Writing and reading the parameter ........................................................................................ - 16 5.5. I/O signal list.................................................................................................................................. - 17 5.5.1. One station is occupied (CC-Link Ver.1) (c122=0)........................................................... - 17 5.5.2. Double setting is selected (CC-Link Ver.2) (c122=1) ....................................................... - 18 5.5.3. Quadruple setting is selected (CC-Link Ver.2) (c122=2).................................................. - 18 5.5.4. Octuple setting is selected (CC-Link Ver.2) (c122=3) ...................................................... - 19 5.5.5. Faults history.......................................................................................................................... - 20 5.5.6. Detail of input and output signals........................................................................................... - 21 5.5.7. Remote Register Assignment ................................................................................................ - 24 5.5.8. Instruction Codes ................................................................................................................... - 28 5.5.9. The details of an error code................................................................................................... - 30 5.5.10.
Description of reply code.................................................................................................... - 32 5.5.11.
Description of monitor code ............................................................................................... - 33 5.5.12.
Description of input terminal information............................................................................ - 34 5.5.13.
Description of output terminal information ......................................................................... - 34 6. PROGRAMMING EXAMPLES ............................................................................................................ - 35 6.1. Program example for reading the inverter status.......................................................................... - 38 6.2. Program example for setting the operation mode......................................................................... - 39 6.3. Program example for setting the operation commands ................................................................ - 40 6.4. Program example for setting the running frequency..................................................................... - 40 6.5. Program example for monitoring the output frequency................................................................. - 41 6.6. Program example for parameter writing........................................................................................ - 42 6.7. Program example for parameter reading ...................................................................................... - 43 6.8. Program example for fault record reading .................................................................................... - 44 6.9. Program example for resetting the inverter at inverter error......................................................... - 45 6.10.
Instructions ................................................................................................................................ - 46 7. UNUSUAL DIAGNOSIS....................................................................................................................... - 47 7.1. Option error ................................................................................................................................... - 47 7.2. Disconnection error of network cable ........................................................................................... - 47 7.3. How to check the error using the LEDs ........................................................................................ - 48 -

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E658130

1. Overview
The option allows the VF-S15 drive to be connected into a CC-Link network. CC-Link supports a
maximum of 42 nodes, allowing for the Master and this option is based on CC-Link V1.1 and V2.0.
The CCL-003Z is able to operate RUN/STOP, monitor the status of the drive, set the drive’s parameter
and etc. by the CC-Link master through installing the VF-S15. And it can use various applications.

2. Basic specifications

Item

Specification

Operating
environment

Indoors, an altitude of 3,000m or less, where the product will not be exposed
to direct sunlight, corrosive or explosive gasses, vapor, coarse particulates
including dust and where there is no grinding fluid or grinding oil nearby.

Ambient
temperature

0 to + 60 degreeC

Storage
temperature

-25 to +65 degreeC

Related
temperature

20 to 93% (no condensation and absence of vapor)

Vibration

5.9 m/s2 (0.6G) or less (10 – 55Hz)

Item
Number of
corrected

Specification
units

42 units max. (1 station occupied by 1 unit). May be used with other
equipment.

Baud rate

156k, 625k, 2.5M, 5M, 10Mbps

Power supply

Supplied from SBP009Z

Station type

Remote device station

Number of stations
occupied

Ver.1: occupies one station, V2: occupies one station (selectable from among
double, quadruple and octuple)

Connect cable

CC-Link dedicated cable,
CC-Link V1.10 compatible CC-Link dedicated cable

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E658130

2.1. CC-Link Version
2.1.1.

CC-Link Ver. 1.10
The conventional CC-Link products, whose inter-station cable lengths have equally been
changed to 20cm (7.87 inch) or more to improve the inter-station cable length restriction,
are defined as CC-Link Ver. 1.10. In comparison the conventional products are defined
as CC-link Ver. 1.00.
Refer to the CC-link Master Module Manual for the maximum overall cable lengths and
inter-station cable lengths of CC-Link Ver. 1.00 and Ver. 1.10
CC-Link Ver. 1.10 compatibility conditions
1) All modules that comprise a CC-Link system should be compatible with CC-Link Ver.
1.10.
2) All data link cables should be CC-Link Ver. 1.10 compatible, CC-Link dedicated cables.
(CC-Link Ver.1.10 compatible cables have a logo or Ver. 1.10 indication.)
*In a system that uses the CC-Link Ver. 1.00 and Ver. 1.10 modules and cables together,
the maximum overall cable length and inter-station cable length are as specified for
CC-Link Ver. 1.00.

2.1.2.

CC-Link Ver. 2
The CCL003Z is compatible with CC-Link Ver.2.
When using the CC-Link Ver.2 setting with the CCL003Z, the master station needs to be
compatible with the CC-Link Ver.2.
For CC-Link Ver.2, double, quadruple and octuple settings can be used to increase
remote register (RWw/r) point.

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E658130

3. Names and functions
The drawing below shows names and functions of main parts.

3.1. Outline
Connector to the inverter

Release tab

LED indicator
(See 4.5)

CC-Link Connector
DA

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SLD

E658130

4. Installation on inverter
Refer to VF-S15 option adapter instruction manual (E6581838) for the installation on the
inverter.

Mandatory

The following steps must be performed before installing.
1. Shut off all input power.
2. Wait at least 15 minutes and check to make sure that the charge lamp is no longer lit.

4.1. Connection cable
In the CC-Link system, use CC-Link dedicated cables.
If the cable used is other than the CC-Link dedicated cable, the performance of the
CC-Link system is not guaranteed.
For the specifications of the CC-Link dedicated cable, refer to the website of the CC-Link
Partner Association.
Website: http://www.cc-link.org/
Strip off the sheath of the CC-Link dedicated cable and wind wires to use. If the length of
the sheath pealed is too long, a short circuit may occur among neighboring wires. If the
length is too short, wires might come off.
･Recommended screwdriver：Small flat-blade screwdriver
(Tip thickness: 0.4mm /tip width: 2.5mm)
･Recommented tightening Torque：0.22N･m to 0.25N･m
･Cable stripping size：About 7mm

７mm

*Fix a cable so that a communication connector may be not taken the weight of wire.
When the cable is not connected easily, the use of the following bar terminal is
recommended.
Phoenix Contact Co. Ltd.
Bar terminal model: AI-TWIN2x0,5-8 WH
Length of bar terminal: 8mm

4.2. Terminating resistor
Connect the terminating resistor of 110Ω or 130Ω (CC-Link Ver.1.00 dedicated high
performance cable.) between terminals at the end.

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E658130

4.3. Connection of CC-Link master unit and inverter
The example of the connection of the CC-Link master unit and the inverter is shown.。
Motor
U/T1

R/L1

CC-Link
Master
Unit

SLD

S/L2

Inverter

V/T2

T/L3

VF-S15

W/T3

CCL003Z

*Connection of Several Inverters
Factory Automation can be applied to several inverters which share a link system as
CC-Link remote device stations and are controlled and monitored by PLC user programs.

◎ DA,DB
Shield twisted cable
◎ DG
◎ SLD / FG
Connect the shielded wire of the dedicated CC-Link cable to the “SLD” of each
module, and ground both ends of the shielded wire using type-D grounding (class 3
grounding) via “FG.”
(The ground resistance is 100Ω or less.)
◎ Terminal resistor
Connect the terminal resistor of 110Ω.
(130Ω is a resistance value for the CC-Link Ver.1.00 dedicated high performance cable.)

Terminal

Inverter
DA

Inverter

Mater unit
DA

resistor
110Ω 1/2W
(130Ω 1/2W)

SLD
FG

Shie ld twisted cable

SLD
FG

-8-

S hield twisted cable

SLD
FG

Terminal
resistor
110Ω 1/2W
(130Ω 1/2W)

E658130

4.4.

The maximum connection number of units
1. Maximum number of units connected to one master station (CC-Link Ver.1.10)
42 units (when only inverters are connected)
If any other units are included, the number of stations occupied depends on the unit and
therefore the following conditions must be satisfied:
{(1 × a) + (2 × b) + (3 × c) + (4 × d)} ≦ 64
a: Number of units occupying 1 station
b: Number of units occupying 2 stations
c: Number of units occupying 3 stations
d: Number of units occupying 4 stations
{(16 × A) + (54 × B) + (88 × C)} ≦ 2304
A: Number of remote I/O stations ≦ 64
B: Number of remote device stations ≦ 42
C: Number of local, standby master and intelligent device stations ≦ 26

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E658130
2. Maximum number of units connected to one master station (CC-Link Ver.2.00)
42 units (when connections are inverter only)
If any other units are included, the number of stations occupied depends on the unit and
therefore the following conditions must be satisfied:
{(a + a2 + a4 + a8) + (b + b2 + b4 + b8) × 2 + (c + c2 + c4 + c8) × 3
+ (d + d2 + d4 + d8) × 4} ≦ 64
{(a × 32 + a2 × 32 + a4 × 64 + a8 × 128) + (b × 64 + b2 × 96 + b4 × 192 + b8 × 384)
+ (c × 96 + c2 × 160 + c4 × 320 + c8 × 640) + (d × 128 + d2 × 224 + d4 × 448 + d8 × 896)}
≦ 8192
{(a × 4 + a2 × 8 + a4 × 16 + a8 × 32) + (b × 8 + b2 × 16 + b4 × 32 + b8 × 64)
+ (c × 12 + c2 × 24 + c4 × 48 + c8 × 96) + (d × 16 + d2 × 32 + d4 × 64 + d8 × 128)} ≦
2048
a: Number of single setting devices occupying one station
b: Number of single setting devices occupying two stations
c: Number of single setting devices occupying three stations
d: Number of single setting devices occupying four stations
a2: Number of double setting devices occupying one station
b2: Number of double setting devices occupying two stations
c2: Number of double setting devices occupying three stations
d2: Number of double setting devices occupying four stations
a4: Number of quadruple setting devices occupying one station
b4: Number of quadruple setting devices occupying two stations
c4: Number of quadruple setting devices occupying three stations
d4: Number of quadruple setting devices occupying four stations
a8: Number of octuple setting devices occupying one station
b8: Number of octuple setting devices occupying two stations
c8: Number of octuple setting devices occupying three stations
d8: Number of octuple setting devices occupying four stations
16 × A + 54 × B + 88 × C ≦ 2304
A: Numbers of remote I/O ≦ 64
B: Number of remote device stations ≦ 42
C: Number of local and intelligent device stations ≦ 26

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E658130

4.5.

LED indicator
The LEDs shows the present status of the network and module
Refer to 7.3 for detail.
L.RUN

L.ERR

■ Layout of LED
L.RUN

Light on during communication.

Light on during send the data of CC-Link.

Light on during receive the data of CC-Link.

L.ERR

Light on during communication error.

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E658130

Functions
This option is a communication interface unit that allows the PLC program to operate, monitor
and set the parameter of the inverter as a remote station of CC-Link. It is able to communicate
with a maximum speed of 10Mbps not only transmitting bit data but also by word data.
Moreover, more data transmissions are possible by the use of CC-Link V2.0.

5.1. Initial setting
Set the following parameters of the inverter.
Title

cmod

fmod

Function

Command mode
selection

Frequency
setting
mode selection 1

Description
0: Terminal board
1: Panel keypad (including remote keypad)
2: RS485 communication
3: CANopen communication
4: Communcation option
0: Setting dial 1 (save even if power is off)
1: Terminal board VIA
2: Terminal board VIB
3: Setting dial 2 (press in center to save)
4: RS485 communication
5: UP/DOWN from external logic input
6: CANopen communication
7: Communication option
8: Terminal board VIC
9, 10: 11: Pulse train input

Factory
setting

CC-Link
setting

12, 13: 14: sro

f856

Number of motor
pole for
communication

f899

Communication
function reset

1: 2 poles
2: 4 poles
3: 6 poles
4: 8 poles
5: 10 poles
6: 12 poles
7: 14 poles
8: 16 poles
0: 1: Reset (after execution: 0)

*Set parameter according to number of motor pole used.

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E658130

5.2.

Communication parameters for CCL003Z

Title
c100

Function
Communication error detection
delay time

c101
Inverter operation at the
communication loss action

c102
c103

c120*

Preset speed
operation selection
Communication time-out
condition selection
CC-Link station number
selection

Description
0.0 - 100.0 sec.
0: Stop and controlled by cmod, fmod
1: Operation continue
2: Deceleration stop
3: Coast stop
4: Network error stop (err8 trip)
5: Preset speed operation (by c102 setting)
0: None
1 to 15: Preset speed
0: Disconnection detection
1: When communication mode enable (Both cmod and
fmod are set CANopen or communication option) only
2: 1 + Driving operation

1 to 64
Set the number of stations of inverters (Remote device
station).

c121*

CC-Link baud rate selection

0: 156kbps
1: 625kbps
2: 2.5Mbps
3: 5Mbps
4: 10Mbps
Set the baud rate for CC-LINK network

c122*

CC-Link extended selection

0: Occupies one station (V1.10)
1: Occupies one station double (V2.0)
2: Occupies one station quadruple (V2.0)
3: Occupies one station octuple (V2.0)
The function of remote registers can be enhanced.

* Set parameters according to the CC-Link network system.

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E658130

5.3.

CC-Link function setting

5.3.1. Station number setting
Use parameter c120 to set station number of the inverter.
Set this parameter within the range of 1 to 64.
Title
c120

Function

Description

CC-Link station
number selection

1 to 64

*Use different station numbers for different devices. (If different devices have the same station
number, the communication cannot be performed properly.)

･ Set consecutive numbers for the station numbers. (Do not skip a number in sequence
like "station number 1 - station number 2 - station number 4".)
･The station number does not have to match with the physical connection sequence.
(There is no problem with having the physical connection sequence like "station
number 1 - station number 3 - station number 4 - station number 2".)
･ One inverter occupies one station. (One remote device station)
･ "L.ERR" LED flickers if the setting is changed. When power is switched on again,
reset by parameter (f899 = 1) or the RES signal is turned on, the setting value is
reflected and the LED turns off.

5.3.2. Baud rate setting
Set the transmission speed. (Refer to the manual for the CC-Link master module for
details of transmission speed.)
Title

Function

c121

CC-Link baud rate selection

Description
0: 156kbps
1: 625kbps
2: 2.5Mbps
3: 5Mbps
4: 10Mbps

･ "L.ERR" LED flickers if the setting is changed. When power is switched on again,
reset by parameter (f899 = 1) or the RES signal is turned on, the setting value is
reflected and the LED turns off.

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E658130

5.3.3. CC-Link extended setting
Remote register function can be extended.
Title

Function

c122*

CC-Link extended selection

Description
0: Occupies one station (V1.10)
1: Occupies one station double (V2.0)
2: Occupies one station quadruple (V2.0)
3: Occupies one station octuple (V2.0)

･ When using double, quadruple and octuple settings of the CC-Link Ver.2, station data
of the master station must be set to double, quadruple and octuple also.
(If the master station is CC-Link Ver.1 compatible station, the above setting can not be
made.)

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E658130

5.4.

Basic functions
This clause shows the basic function of this CC-Link option using by CC-Link communication.

5.4.1. Run and frequency operation command
The PLC program can operate the inverter to run, stop, set the operation frequency and
change the parameters.
If the PLC controls these operations, select the command mode and the frequency setting
mode.
The parameter setting of the inverter
Command mode selection
cmod

: 4[Communication option] (Factory setting: 1)

Frequency setting mode selection
fmod

: 7[Communication option] (Factory setting: 0)

* The frequency setting and command can be made CC-Link priority by RYnA and RYnB.
("n" is depend on the station number.)

5.4.2. Monitor
It is able to monitor the status of the inverter.
Set a monitor code to RWw n and turn RYnC on.
The data is stored in the buffer memory of the PLC.
* "n" is depend on the station number.
The monitor value is updated while RynC has been turned on.
Refer to 5.5.11 for detail.

5.4.3. Writing and reading the parameter
The PLC can read, write the inverter parameters and reset the inverter.
Set the command code to RWw(n+2) (set the write data to RWw(n+3) if necessary) and
turn RYnF (instruction code execution request) on.
The inverter performs processing corresponding to the command code, return the response
data, read out data and RXnF (instruction code execution completion).
▪ Refer to 5.5.8 for detail.

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E658130

5.5.

I/O signal list

5.5.1. One station is occupied (CC-Link Ver.1) (c122=0)
This option occupies one station area of the buffer memory of the PLC.
In the case of c122 = 0, there are remote I/O (RX, RY both 32 bits) and the remote register
(RWw, RWr both 4 word) in the communication data for one station area.
Remote I/O (Default value = 0)
Inverter (Slave) → PLC (Master)
Device No.
Signal
RXn0
Forward running
RXn1
Reverse running
RXn2
Output terminal 1 (RY-RC)
RXn3
Output terminal 2 (OUT)
RXn4
Output terminal 3 (FL)
RXn5
Failure FL
RXn6
PI control OFF
Acceleration/deceleration
RXn7
pattern selection (1 or 2)
RXn8
Emergency stop

PLC (Master) → Inverter (Slave)
Device No.
Signal
RYn0
Forward rotation command
RYn1
Reverse rotation command
RYn2
Input terminal 3 (S1)
RYn3
Input terminal 4 (S2)
RYn4
Input terminal 5 (S3)
RYn5
Input terminal 6 (S4)
RYn6
Input terminal 7 (PIOFF)
RYn7

Input terminal 8 (AD1)

RYn8

RYnE

Input terminal 9 (ESTP)
Intercept output to inverter
(Coast stop)
Frequency priority CC-Link
Command priority CC-Link
Monitor command
Frequency setting command
(RAM)
Reserved**

RYnF

Instruction code execution request

RXn9

Coast stop (ST = OFF)

RYn9

RXnA
RXnB
RXnC

Alarm
Reserved*
Monitoring
Frequency setting completion
(RAM)
Reserved*
Instruction code execution
completion

RYnA
RYnB
RYnC

RXnD
RXnE
RXnF

RYnD

RX(n+1)0
to
RX(n+1)9

Reserved*

RY(n+1)0
to
RY(n+1)9

RX(n+1)A

Error status flag

RY(n+1)A

Reserved**
Error reset request flag
(A reset request is during switched
ON)
Reserved**

RX(n+1)B
Remote station ready
RY(n+1)B
RX(n+1)C
RY(n+1)C
to
Reserved*
to
Reserved**
RX(n+1)F
RY(n+1)F
"n" is depend on the station number.
* The bit described " Reserved " is unstable. Don't use the “Reserved " bit for the judgment.

** Set OFF (“0”) to reserved bit.
Remote register (Default value = 0)
RWr
Inverter → PLC
Address
Signal
RWr n
Monitor value 1
Monitor value 2
RWr n+1
(output frequency)
RWr n+2
Reply code
RWr n+3
Read data
"n" is depend on the station number.

RWw

- 17 -

Address
RWw n
RWw n+1

PLC → Inverter
Signal
Monitor code (1 and 2)
Set frequency

RWw n+2
RWw n+3

Instruction code
Write data

E658130

5.5.2. Double setting is selected (CC-Link Ver.2) (c122=1)
This option occupies one station area of the buffer memory of the PLC.
In the case of c122 = 1, there are remote I/O (RX, RY both 32 bits(same as CC-LINK
Ver.1)) and the remote register (RWw, RWr both 8 word) in the communication data for one
station area.
* Default value of RY and RX is 0.
Remote register (Default value = 0)
RWr
Inverter → PLC
Address
Signal
RWr n
Monitor value 1
Monitor value 2
RWr n+1
(output frequency)
RWr n+2
Reply code
RWr n+3
Read data
RWr n+4
Monitor value 3
RWr n+5
Monitor value 4
RWr n+6
Monitor value 5
RWr n+7
Monitor value 6
"n" is depend on the station number.

RWw
Address
RWw n
RWw n+1

PLC → Inverter
Signal
Monitor code (1 and 2)
Set frequency

RWw n+2
RWw n+3
RWw n+4
RWw n+5
RWw n+6
RWw n+7

Instruction code
Write data
Monitor code 3
Monitor code 4
Monitor code 5
Monitor code 6

5.5.3. Quadruple setting is selected (CC-Link Ver.2) (c122=2)
This option occupies one station area of the buffer memory of the PLC.
In the case of c122 = 2, there are remote I/O (RX, RY both 32 bits(same as CC-LINK
Ver.1)) and the remote register (RWw, RWr both 16 word) in the communication data for one
station area.
* Default value of RY and RX is 0.
Remote register (Default value = 0)
RWr
Inverter → PLC
RWw
PLC → Inverter
Address
Signal
Address
Signal
RWr n
Monitor value 1
RWw n
Monitor code (1 and 2)
Monitor value 2
RWw n+1
Set frequency
RWr n+1
(output frequency)
RWr n+2
Reply code
RWw n+2
Instruction code
RWr n+3
Read data
RWw n+3
Write data
RWr n+4
Monitor value 3
RWw n+4
Monitor code 3
RWr n+５
Monitor value 4
RWw n+5
Monitor code 4
RWr n+６
Monitor value 5
RWw n+6
Monitor code 5
RWr n+７
Monitor value 6
RWw n+7
Monitor code 6
Upper 8
Upper 8
Trip history No.
Trip history No.
Bits
Bits
RWr n+8
RWw n+8
Lower 8
Lower 8
Trip code
Reserved**
Bits
Bits
RWr n+9
Trip information (output frequency)
RWw n+9
Reserved**
RWr n+A
Trip information (output current)
RWw n+A
Reserved**
RWr n+B
Trip information (output voltage)
RWw n+B
Reserved**
RWr n+C
Trip information (energization time)
RWw n+C
Reserved**
RWr n+D
Reserved*
RWw n+D
Reserved**
RWr n+E
Reserved*
RWw n+E
Reserved**
RWr n+F
Reserved*
RWw n+F
Reserved**
"n" is depend on the station number.
* The bit described " Reserved " is unstable. Don't use the “Reserved " bit for the judgment.

** Do not use it.
- 18 -

E658130

5.5.4. Octuple setting is selected (CC-Link Ver.2) (c122=3)
This option occupies one station area of the buffer memory of the PLC.
In the case of c122 = 3, there are remote I/O (RX, RY both 32 bits(same as CC-LINK
Ver.1)) and the remote register (RWw, RWr both 32 word) in the communication data for one
station area.
* Default value of RY and RX is 0.
Remote register (Default value = 0)
RWr
Inverter → PLC
RWw
PLC → Inverter
Address
Signal
Address
Signal
RWr n
Monitor value 1
RWw n
Monitor code (1 and 2)
Monitor value 2
RWw n+1
Set frequency
RWr n+1
(output frequency)
RWr n+2
Reply code
RWw n+2
Instruction code
RWr n+3
Read data
RWw n+3
Write data
RWr n+4
Monitor value 3
RWw n+4
Monitor code 3
RWr n+５
Monitor value 4
RWw n+5
Monitor code 4
RWr n+６
Monitor value 5
RWw n+6
Monitor code 5
RWr n+７
Monitor value 6
RWw n+7
Monitor code 6
Upper 8
Upper 8
Trip history No.
Trip history No..
Bits
Bits
RWr n+8
RWw n+8
Lower 8
Lower 8
Trip code
Reserved**
Bits
Bits
RWr n+9
Trip information (output frequency)
RWw n+9
Reserved**
RWr n+A
Trip information (output current)
RWw n+A
Reserved**
RWr n+B
Trip information (output voltage)
RWw n+B
Reserved**
RWr n+C
Trip information (energization time)
RWw n+C
Reserved**
RWr n+D
Reserved*
RWw n+D
Reserved**
RWr n+E
Reserved*
RWw n+E
Reserved**
RWr n+F
Reserved*
RWw n+F
Reserved**
RWr n+10
Reply code 2
RWw n+10
Instruction code 2
RWr n+11
Read data 2
RWw n+11
Write data 2
RWr n+12
Reply code 3
RWw n+12
Instruction code 3
RWr n+13
Read data 3
RWw n+13
Write data 3
RWr n+14
Reply code 4
RWw n+14
Instruction code 4
RWr n+1５
Read data 4
RWw n+15
Write data 4
RWr n+1６
Reply code 5
RWw n+16
Instruction code 5
RWr n+1７
Read data 5
RWw n+17
Write data 5
RWr n+18
Reply code 6
RWw n+18
Instruction code 6
RWr n+19
Read data 6
RWw n+19
Write data 6
RWr n+1A
Reserved*
RWw n+1A
Reserved**
RWr n+1B
Reserved*
RWw n+1B
Reserved**
RWr n+1C
Reserved*
RWw n+1C
Reserved**
RWr n+1D
Reserved*
RWw n+1D
Reserved**
RWr n+1E
Reserved*
RWw n+1E
Reserved**
RWr n+1F
Reserved*
RWw n+1F
Reserved**
"n" is depend on the station number.
* The bit described " Reserved " is unstable. Don't use the “Reserved " bit for the judgment.

** Do not use it.

- 19 -

E658130

5.5.5. Trip history
When “Quadruple setting” or “Octuple setting” of CC-LINK V.2 is selected, the past trip
information can be referred to by the following methods.

RWr n+8
RWr n+9
RWr n+A
RWr n+B
RWr n+C

Upper 8
Trip history No.
Bits
Lower 8
Trip code
Bits
Trip information (output frequency)
Trip information (output current)
Trip information (output voltage)
Trip information (energization time)

RWw n+8
RWw n+9
RWw n+A
RWw n+B
RWw n+C

Upper 8
Bits
Lower 8
Bits
Reserved
Reserved
Reserved
Reserved

1. Set the past trip history No. to upper 8 bits of "RWw n+8."
2. The following information is stored to registers.
Trip history No. : Upper 8 bits of "RWr n+8."
Trip code

: Lower 8 bits of "RWr n+8."

Output frequency : “RWr n+9”

Output current

: “RWr n+A”

Output voltage

: “RWr n+B”

Energization time : “RWr n+C”

- 20 -

Trip history No..
Reserved

E658130

5.5.6. Detail of input and output signals
1. Output signals (Master -> Inverter)
The output signals from the master unit are indicated. (Input signals to inverter)
Device No.
RYn0
RYn1
RYn2
RYn3
RYn4
RYn5
RYn6
RYn7
RYn8

RYnA
RYnB

Signal
Forward run command
Reverse run command
Input terminal function 3(S1)
Input terminal function 4(S2)
Input terminal function 5(S3)
Input terminal function 6(S4)
Input terminal function (PIOFF)
Input terminal function 8(AD1)
Input terminal function 9(ESTP)
Intercept output to inverter
(Coast stop)
Frequency priority CC-Link
Command priority CC-Link

RYnC

Monitor command

RYnD

Frequency setting command
(RAM)

RYnE

Reserved**

RYnF

Instruction code execution request

RYn9

RY(n+1)0
to Y(n+1)9
RY(n+1)A

Description
OFF: Stop command ON: Forward run command***
OFF: Stop command ON: Reverse run command***
The function depends on input terminal selection 3 (c142) *
The function depends on input terminal selection 4 (c143) *
The function depends on input terminal selection 5 (c144) *
The function depends on input terminal selection 6 (c145) *
The function depends on input terminal selection 7 (c146) *
The function depends on input terminal selection 8 (c147) *
The function depends on input terminal selection 9 (c148) *
Stop the output of the inverter when turned on this signal.
(Stop the output in the secondary circuit)
Speed commands are entered from the CC-Link.
Signals from the CC-Link are used to start and stop operation
When the monitor command (RYnC) is switched on, each
monitored values are set to remote registers RWrn, RWrn+1,
RWrn+4 to RWrn+7 and monitoring flag (RXnC) switches on.
While the monitor command (RYnC) is on, the monitored
value is always updated.
When the frequency setting command (RYnD) is switched
on, the set frequency RWwn+1 is written to the inverter.
After the writing completion, frequency setting completion flag
(RXnD) switches on.
When the frequency setting command (RYnD) is ON, the set
frequency is always updated.
Reserved**
When the instruction code execution request (RYnF) is
switched on, processes corresponding to the instruction codes
are set to RWwn+2, RWwn+10, RWwn+12, RWwn+14,
RWwn+16 and RWwn+18 are executed.
After completion of instruction code execution, instruction code
execution completion flag (RXnF) switches on.
When an instruction code execution error occurs, a value other
than 0 is set to the reply code (RWrn+2, RWrn+10, RWrn+12,
RWrn+14, RWrn+16 and RWrn+18)
The instruction code execution request is effective only when
this signal changes from OFF to ON.
Special monitor (72H) is chosen by the instruction code, and
this signal always updates a monitor value during ON.

Reserved**

Error reset request

If the error reset request (RY(n+1)A) is switched on only
when an inverter fault occurs, the inverter is reset and the
error status flag (RX(n+1)A) switches off.

RY(n+1)B
Reserved**
Reserved**
to RY(n+1)F
"n" is depend on the station number.
* The input terminal function can be changed by the input terminal function selections(c142 to c148).
(But there are functional restrictions. Refer to the following page.)

** Set OFF (“0”) to reserved bit.
***When RYn0 and RYn1 are ON simultaneously, the rotation is followed a parameter f105(default = stop).

- 21 -

E658130
■Input function selection from the CC-Link.
The function numbers selection of the RYn2 to RYn8 function valid from the command of the CC-Link are following
boldface numbers.
Positive logic Negative logic
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
32
33
36
37
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
74
75
76
77

Function
Speed control
No function is assigned
●/●
Forward run command
●/●
Reverse run command
●/●
Standby
●/●
Reset command
●/●
Preset speed command 1
●/●
Preset speed command 2
●/●
Preset speed command 3
●/●
Preset speed command 4
●/●
Jog run mode
●/●
Emergency stop by external signal *
●/●
DC braking command
●/●
2nd acceleration/deceleration
●/●
3rd acceleration/deceleration
●/●
2nd V/F control mode switching
●/●
2nd stall prevention level
●/●
PID control prohibition
●/●
External thermal error input
●/●
Forced local from communication
●/●
Operation hold (hold of 3-wire operation)
●/●
PID integral/differential clear
●/●
PID characteristics switching
●/●
Forced run operation
●/●
Fire speed operation
●/●
Acceleration/deceleration suspend signal
●/●
Power failure synchronized signal
●/●
My function-S trigger signal
●/●
Integrating wattmeter(kWh) display clear
●/●
Trace back trigger signal
●/●
Light-load high-speed operation
78
79
●/●
prohibitive signal
80
81
Holding of RY-RC terminal output
●/●
82
83
Holding of OUT terminal output
●/●
88
89
Frequency UP
●/●
90
91
Frequency DOWN
●/●
92
93
Clear frequency UP/DOWN
●/●
96
97
Coast stop command
●/●
98
99
Forward/reverse selection
●/●
100
101
Run/Stop command
●/●
104
105
Frequency setting mode forced switching
●/●
106
107
Frequency setting mode terminal block
●/●
108
109
Command mode terminal block
●/●
110
111
Parameter editing permission
●/●
120
121
Fast stop command 1
●/●
122
123
Fast stop command 2
●/●
134
135
Traverse permission signal
●/●
136
137
Low voltage operation signal
●/●
140
141
Forward deceleration
●/●
142
143
Forward stop
●/●
144
145
Reverse deceleration
●/●
146
147
Reverse stop
●/●
No.2 motor switching
152
153
●/●
(AD2 + VF2 + OCS2)
200
201
Parameter editing prohibition
●/●
202
203
Parameter reading prohibition
●/●
* This function is not dependent on cmod.

- 22 -

PM control
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●

V/f
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
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●

●

●
●
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●

●
●

E658130
2. Input signal (Inverter -> Master)
The following shows input signals to the master unit. (The output signals for the inverter.)
Device No..

Signal

RXn0

Forward running

RXn1

Reverse running

RXn2

Output terminal function 1
(RY-RC)

RXn3

Output terminal function 2 (OUT)

RXn4

Output terminal function 3 (FL)

RXn5

Failure FL

RXn6

PI control OFF

RXn8

Acceleration/ deceleration
pattern selection (1 or 2)
Emergency stop

RXn9

Coast stop (ST = OFF)

RXnA

Alarm

RXnB

Reserved*

RXnC

Monitoring flag

RXnD

Frequency setting completion flag
(RAM)

RXnE

Reserved*

RXnF

Instruction code execution
completion flag

RXn7

RX(n+1)0
to RX(n+1)9

Reserved*

RX(n+1)A

Error status flag

RX(n+1)B

Remote station ready

Description
OFF: Other than forward running
(during stop or reverse rotation)
ON : Forward running
OFF: Other than reverse running
(during stop or forward rotation)
ON : Reverse running
The function depends on output terminal function selection 1
(f130).
The function depends on output terminal function selection 2
(f131).
The function depends on output terminal function selection 3
(f132).
OFF : No failure
ON : Failure
OFF : PI control permitted
ON : PI control prohibited
OFF: Acceleration/deceleration pattern 1 (AD1)
ON : Acceleration/deceleration pattern 2 (AD2)
ON : Emergency stop
OFF : ST = ON
ON : ST = OFF
OFF: No alarm
ON : Alarm issued
Reserved*
Switched on when the monitored values are set to RWrn,
RWrn+1, RWrn+4 to RWrn+7 by the monitor command
(RYnC) switching on. Switched off when the monitor
command (RYnC) is switched off.
Switched on when the set frequency is written to the inverter
by the frequency setting command (RYnD) switching on.
Switched off when the frequency setting command (RYnD)
is switched off.
Reserved*
Switched on completion of the processing corresponding to
the instruction code (RWw+2) which is executed when the
instruction code execution request (RYnF) switches on.
Switched off when the instruction code execution completion
flag (RXnF) is switched off.
Reserved*
Switched on when occurred an inverter error or option error
(watchdog error, CPU error, ROM error or RAM error).
It is not switched on besides that.
Switched on when the inverter goes into the ready status on
completion of initial setting after power-on or hardware reset.
(Used as an interlock for read/write from/to the master.)
Switched off when an inverter error occurs (protective
function is activated).

RX(n+1)C
Reserved*
Reserved*
to RX(n+1)F
"n" is depend on the station number.
* The bit described " Reserved " is unstable. Don't use the “Reserved " bit for the judgment.

- 23 -

E658130

5.5.7. Remote Register Assignment
Divide the monitor code (RWw n) into half and select the monitor value 1 (RWr n) from the
lower 8 bits and the monitor value 2 (RWr n) from the higher 8 bits.
For example: When output voltage is selected for the monitor value 1 and output torque is
selected for the monitor value 2. -> The monitor code is 0703H.
* The hexadecimal value attaches and expresses "H" to the end of a number.
1. Remote register (Master -> inverter)
RWw
Address

Signal

Description
Set the monitor code to be referenced. By switching on the (RYnC) signal
after setting, the specified monitored data is set to (RWr n).

RWw n

Monitor code
(1 and 2)

The monitor value 1 (RWr n): RWw n Setting of the lower 8 bits of monitor
code.
The monitor value 2 (RWr n+1): RWw n Setting of the upper 8 bits of
monitor code.
Set the set frequency. After setting the register, a frequency is written

RWwn+1

Set frequency

after turning on (RynD). When the writing of the frequency is completed,
(RXnD) turns on, depending on the input command.
Unit: 0.01Hz
Set the command code for actions such as operation mode switching,

RWwn+2

Command code 1

parameter read, write, error reference, error clear, etc. The command will
be executed by turning (RynF) on after the register setting is completed.
When the command execution is completed, (RXnF) turns on.
Set data specified by the above-mentioned command code
(if necessary).

RWwn+3

Write data 1

If no data needs to be written, the value shall be zero.
(RynF) is turned on after setting the above-mentioned command code
and this register.

RWwn+4

Monitor code 3

RWwn+5

Monitor code 4

RWwn+6

Monitor code 5

RWwn+7

Monitor code 6

Set the monitor code to be monitored. By setting "ON” in (RYC) after
setting, the specified monitored data is stored in RWr n+4.
Set the monitor code to be monitored. By setting "ON” in (RYC) after
setting, the specified monitored data is stored in RWr n+5.
Set the monitor code to be monitored. By setting "ON” in (RYC) after
setting, the specified monitored data is stored in RWr n+6.
Set the monitor code to be monitored. By setting "ON” in (RYC) after
setting, the specified monitored data is stored in RWr n+7.
Set how many fault records in past to be read.

RWwn+8

Trip history No.

Upper 8 bits: H00 (latest fault) to H07 (eight faults in past)
Lower 8 bits: H00

RWwn+9
to

Reserved
Reserved

RWwn+F

- 24 -

E658130

Address

Signal

Description
Set the command code for actions such as operation mode switching,

RWwn+10

Instruction code 2

RWwn+11

Write data 2