Toshiba TOSVERT VF-AS1, TOSVERT VF-PS1 Instruction Manual

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E6581286②

TOSVERT VF-AS1

Option Instruction Manual

CCL001Z

NOTICE

1. Make sure that this instruction manual is delivered to the end user of the

CC-Link option for the VF-AS1.

2. Read this manual before installing or operating the CC-Link option for the

VF-AS1. And keep it in a safe place for reference.

*The data given in this manual are subject to change without notice.

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Safety precautions

On the inverter and in its instruction manual, important information is contained for preventing

injuries to users and damages to assets and for proper use of the device.

Read the instruction manual attached to the inverter along with this instruction manual for

completely understand the safety precautions, the symbols and indications shown below.

Please adhere to the contents of these manuals at all times.

Explanation of markings

Marking Meaning of marking

Indicates that errors in operation may lead to death or serious injury.

Danger

Indicates that errors in operation may lead to injury (*1) to people or that these errors

may cause damage to physical property. (*2)

Warning

(*1) Such things as injury, burns or shock that will not require hospitalization or long periods of

outpatient treatment.

(*2) Physical property damage refers to wide-ranging damage to assets and materials.

Meanings of symbols

Marking Meaning of marking

Indicates prohibition (Do not do it).

What is prohibited will be described in or near the symbol in either text or picture form.

Indicates something mandatory (must be done).

What is mandatory will be described in or near the symbol in either text or picture form.

Indicates danger.

What is dangerous will be described in or near the symbol in either text or picture form.

Indicates warning.

What the warning should be applied to will be described in or near the symbol in either text or picture form.

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■ Handling in general

Danger

Disassembly

prohibited

▼Never disassemble, modify or repair the product.

Disassembling the product may cause electric shocks, fire or injuries.

For repairs, call your sales/repair agency.

Prohibited

▼ Do not attach this option to any inverter other than the VF-AS1.

It may lead to electric shocks or fire.

▼ When the inverter is energized, never detach the this option from the VF-AS1.

It may lead to electric shocks.

▼ Do not place or insert any kind of object into this option.

(electrical wire cuttings, rods, wires) It may lead to electric shocks or fire.

▼ Do not splash water over the product, and do not wipe the body with a wet cloth.

It may lead to electric shocks or fire.

Mandatory

▼ Turn off input power before wiring and setting switches. ▼ Turn off the power immediately in case of any abnormalities such as smoke, smell or

abnormal noise.

Neglect of these conditions may lead to fire. For repairs, call your sales/repair agency.

■ Transportation and installation

Danger

Prohibited

▼ Do not install or operate the inverter if it is damaged or any part of it is missing.

Operating a defective inverter may lead to electric shocks or fire. For repairs, call your sales/repair agency.

▼ Do not put any flammable material near the product.

It may catch fire due to the product sparking in the case of a malfunction.

▼ Do not install in any location where the inverter may comes into contact with water or

other fluids. It may lead to electric shocks or fire.

▼ When installing this option, be careful not to touch the leads from parts on the reverse

side of its circuit board. It may lead to injury.

▼ Operate under the environmental conditions prescribed in the instruction manual.

Operations under any other conditions may lead to malfunction.

Mandatory

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■ Wiring

Danger

▼ Turn off input power before installing and wiring this option.

Mandatory

Wait at least 15 minutes and check to make sure that the charge lamp (VF-

S1) is no

longer lit.

▼ Tighten the screws on the terminal block to the specified torque (Refer to Section

3.2).

If the screws are not tightened to the specified torque, it may lead to fire.

▼ Electrical construction work must be done by a qualified expert.

Installation or connection of input power by someone who does not have that expert knowledge may lead to fire or electric shocks.

■ Operations

Danger

▼ Do not touch switches when the hands are wet and do not try to clean the inverter

with a wet cloth.

Prohibited

It may lead to electric shocks.

▼ Do not pull on any cable itself.

It may lead to damage or malfunction.

■ Disposal

Warning

▼ If you dispose off this unit, have it done by a specialist in industrial waste disposal*.

Improper disposal may result in explosion of capacitors or produce noxious gases,

resulting in injury.

Mandatory

(*) Persons who specialize in the processing of waste and known as “Industrial Waste

Product Collectors and Transporters” or “Industrial Waste Disposal Persons.” If the

collection, transport and disposal of industrial waste is done by someone who is not

licensed for that job, it is a punishable violation of the law (Laws in regard to cleaning and processing of waste materials).

Notes on use

Notes

▼ Avoid installing in a place where ambient temperature or/and humidity change sharply. ▼ Keep the communication cable separate and from the power cable of the inverter to

prevent the inverter from malfunctioning due to electromagnetic noise.

▼ Please make grounding of a network SLD terminal different from grounding an inverter

and a motor. It becomes the cause of the malfunction by the noise.

▼ Insert a magnetic contactor or similar device between the inverter and the power

supply to ensure that power is turned off if an emergency stop command is entered

through the externally.

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Preface

Thank you for purchasing a “CC-Link Option (CCL001Z)” for TOSVERT VF-AS1 inverter.

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-AS1 and using it. Besides this instruction

manual, the "CC-Link option Function Manual" is required to develop software communicating

with VF-AS1. In such a case, please get in touch with our branch offices or sales offices.

("CC-Link option Function Manual": E6581288).

This manual is also aimed at the operator using "VF-AS1 CC-Link option", so please use it for

future maintenance and inspection.

■ Explanation of model number of CC-Link option

CCL 001 Z - 0

Revision number

Cable length ( "Z" means 'without cable' )

Model number of CC-Link

Symbol of CC-Link

■ Accessory check list

CC-Link option is shipped together with the following items in the package. Contact your sales

agency if any of these is missing.

(1) VF-AS1 CC-Link option (CCL001Z)....... 1 board

(Terminal connector : MSTB2,5/5-ST5,08)

: PHOENIX CONTACT.....1 piece

(2) Instruction manual for the VF-AS1 CC-Link option.....1 copy

English: E6581286

(This manual)

Manual

(3) LED name label 1 sheet

E6581286②

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－ Table of contents －

1. Overview·················································································································································· 6

2. Name of functions of main parts·············································································································· 6

2.1. Exterior features ····························································································································· 6

2.2. Set the station No. and baud rate ·································································································· 7

2.3. About indicator of LED ··················································································································· 7

2.4. CC-Link connector·························································································································· 8

3. Installing the CCL001Z ···························································································································· 9

3.1. Case of installing two options······································································································· 10

3.2. Connection of CC-Link cable ······································································································· 10

3.3. Wiring / Connection with the CC-Link master ·············································································· 10

4. Functions ··············································································································································· 12

4.1. Initial setting·································································································································· 12

4.2. Basic functions ····························································································································· 13

4.2.1. Run and frequency operation command ············································································· 13

4.2.2. Monitor································································································································· 13

4.2.3. Writing and reading the parameter······················································································ 13

5. Unusual diagnosis ································································································································· 14

5.1. Option error ·································································································································· 14

5.2. Disconnection error of network cable··························································································· 14

6. List of CC-Link data ······························································································································· 15

6.1. RX(Monitor), RY(Instruction) ········································································································ 15

6.2. RWr, RWw resistor······················································································································· 16

6.3. Monitor code································································································································· 16

6.4. Instruction Codes ························································································································· 17

6.5. Reply Code··································································································································· 18

7. CC-Link local/Remote Operation··········································································································· 18

8. Specifications········································································································································· 19

9. Warranty ················································································································································ 19

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1. Overview

This option allows the VF-AS1 inverter to be connected into a CC-Link network. CC-Link

supports a maximum of 42 nodes, allowing for the Master unit and this option is based on

CC-Link Ver.1.10.

The CCL001Z is able to operate RUN/STOP, monitor the status of the inverter, set the

inverter's parameter and etc. by the CC-Link master through installing the VF-AS1. And it can

use different applications.

2. Name of functions of main parts

Here are the name and functions of the exterior components of the CCL001Z unit.

2.1. Exterior features

Earth Plate

CC-Link Connector

Station Number

Baud Rate Selector

CC-Link LED indicator

Connector to the inverter

Panel mounting tabs

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2.2. Set the station No. and baud rate

For the setting station number or communication speed to take effect, power needs to be

turned off and then turned back on.

x10 x1 BAUD RATE

•

Set the Station No.

The station number can be set between 1 and 64.

The switch x10 is set up the ten's place and x1 is set up the ones.

Set the arrow (↑) of the corresponding switch to the required numeral.

•

Set the transmission speed. (For details, refer to the CC-Link master unit manual.)

Setting Switch 0 1 2 3 4

Transmission Speed 156kbps 625kbps 2.5Mbps 5Mbps 10Mbps

*It causes an error when the switches are not set correct position (ex. set position between 0

and 1 switch label), or set over 5.

2.3. About indicator of LED

The LED shows the present status of the network and error.

Power Light on during transmission period.

L.RUN Light on during communication.

SD Light on during send the data of CC-Link.

Light on during receive the data of

CC-Link

i n k

L.ERR Light on during communication error

■Layout of LED

POWER

2.1

L.RUN

2.2

2.3

2.4

L.ERR

2.5

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Behavior of LED

State of LED

Cause

L.RUN SD RD L.ERR

Normal communication is made but CRC error has occurred

due to noise.

● ◎ ◎ ◎

Normal communication ● ◎ ◎ ○

Hardware fault ● ◎ ○ ◎

Hardware fault ● ◎ ○ ○

Can not answer due to CRC error of receive data. ● ○ ◎ ◎

Data sent to the host station does not reach destination. ● ○ ◎ ○

Hardware fault ● ○ ○ ◎

Hardware fault (It is possible to unstable by disconnection.) ● ○ ○ ○

Polling response is made but refresh receive is error in CRC.○ ◎ ◎ ◎

Hardware fault ○ ◎ ◎ ○

Hardware fault ○ ◎ ○ ◎

Hardware fault ○ ◎ ○ ○

Data sent to the host station is error in CRC. ○ ○ ◎ ◎

There is no data sent to the host station, or data sent to the

host station can't be received to noise.

○ ○ ◎ ○

Hardware fault ○ ○ ○ ◎

Can not receive data due to break in the cable, etc. ○ ○ ○ ○

◎ or ○ Invalid baud rate or station number setting ○ ○ ●

Baud rate or station number changed during operation. ● ◎ ◎ ◎

WDT error occurrence (hardware fault), power off etc. ○ ○ ○ ○

●：On ○：Off ◎：Flicker

2.4. CC-Link connector

Below figure is the terminal to connect the CC-Link cable. The terminal is a plug-type and the

signal of each terminal is as follows.

Symbol Signal contents

FG Frame ground

SLD Shield

DG Signal ground

DB Communication data －

DA Communication data ＋

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3. Installing the CCL001Z

Install the CC-Link option to VF-AS1 as follows.

* When this option is used together with the IO card option, attach this option to the front panel side.

(1) Turn off input power of VF-AS1 and wait for at least 15 minutes and then check that the

CHARGE lamp on VF-AS1 is no longer lit.

(2)Securing the option to the inverter

a) Insert a flat-blade screwdriver in each of the two holes at the upper part of the front panel,

release the panel mounting tab by pushing the screwdriver down and remove the front

panel cover.

b) Install the option in the inverter by fitting the tabs on the lower side the option into the

slots at the lower part of the inverter front panel.

c) Make sure the option is securely attached to the inverter. Then check whether the plastic

bosses on the inverter case have fitted in the holes at the upper and lower parts of the

option.

d) Insert the tabs at the lower part of the front cover into the slots at the lower part of the

inverter to attach the front cover to the inverter.

e) Stuck the enclosed "LED name label" in the option LED display part of a front cover.

LED name label

POWER L.RUN SD RD L.ERR

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3.1. Case of installing two options

Please install this option (CCL001Z) on the top of options when you install two options.

Do not install under the another option.

3.2. Connection of CC-Link cable

If use other than the CC-Link dedicated cable, the performance of the CC-Link system is not

guaranteed. For the specifications and availability of the CC-Link dedicated cable, please refer

to the CC-Link catalogs.

Please use the recommended CC-Link dedicated cable after stripping the cable sheaths and

twisting the wires. If the sheath was stripped too long, the cable may contact with the adjacent

cable and cause a short circuit. If the sheath was stripped too short, the cable may be

disconnected.

•

Recommend screwdriver：A small flat-blade screwdriver

(tip thickness 0.6mm, full length 3.5mm)

•

Recommended tightening torque ：0.5 to 0.6 N･m

•

Skin length ：about 7mm

7mm

Fix the communication cables after connected.

3.3. Wiring / Connection with the CC-Link master

The example of wiring/connection with the CC-Link master unit is shown in the following figure.

CC-Link

Master Unit

※1

SLD

CCL001Z

SLD

Inverter

VF-AS1

R/L1

S/L2

T/L3

U/T1

V/T2

W/T3

Motor

The example of wiring with the inverter VF-AS1

※1:

As for master station, when use the Mitsubishi Electric An series, the recommended version is "LS" or

later.

E6581286②

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• Connection of Several Inverters

Factory Automation can be applied with several inverters which share CC-Link system as a

remote device station, and are controlled and monitored by PLC user programs.

Communication terminal DA, DB

Set up the network using shielded twisted pair cable.

* Communication terminal DG

* Shield connection terminal SLD

Please connect the shield line of the dedicated CC-Link cable with the SLD terminal.

* Connection of the frame ground terminal FG

Grounding resistance is 100 ohm max.

* Termination resistor

Use the termination resistors supplied with the PLC or use a commercially available

110 ohm, 1/2W resistor.

(

Note : Please use 130 ohm, 1/2W resistors when use the high performance CC-Link

dedicated cable.)

SLD

Master unit

Inverter

CC-Link dedicated

cable

CC-Link dedicated

cable

Te rm in at i on resistor

SLD

Inverter

Te rm in at i on resistor

110 ohm, 1/2W

(130 ohm, 1/2W)

110 ohm, 1/2W

(130 ohm, 1/2W)

Ground (100 ohm or less)

* Maximum number of units connected to one master station is 42 units (when only inverters

are connected).

* If any other units are included, the number of occupied stations depends on the unit. So the

connectable number of units is different.

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4. 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.

4.1. Initial setting

Set the following parameters of the inverter.

Name of

parameter

Functions Adjustment of range

Factory

setting

CC-Link

setting

CMOD Command

mode selection

0: Terminal input enabled 1: Operation panel input enabled (including LED/LCD option input) 2: 2-wire RS485 communication input 3: 4-wire RS485 communication input 4: Communication option input

0 4

FMOD Frequency

setting mode

selection 1

1: VI/II (voltage/current input) 2: RR/S4 (potentiometer/voltage input) 3: RX (voltage input) 4: Operation panel input enabled (including LED/LCD option input) 5: 2-wire RS485 communication input 6: 4-wire RS485 communication input 7: Communication option input 8: Optional AI1 (differential current input)

9: Optional AI2 (voltage/current input) 10: Up/Down frequency 11: Optional RP pulse input 12: Optional high-speed pulse input 13: Optional binary/BCD input

2 7

F420 Torque

command

selection

1: VI/II (voltage/current input)

2: RR/S4 (potentiometer/voltage input)

3: RX (voltage input)

4: Operation panel input enabled

(including LED/LCD option input)

5: 2-wire RS485 communication input

6: 4-wire RS485 communication input

7: Communications option input enabled

8: Optional AI1 (differential current input)

3 *

* Change the setting of F420 if necessary.

E6581286②

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4.2. Basic functions

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

4.2.1. 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. (Change the setting of the torque command selection if necessary.)

The parameter setting of the inverter

Command mode selection

CMOD：4[Communication option input] (Factory setting: 0)

Frequency setting mode selection

FMOD ：7[Communication option input] (Factory setting: 2)

Torque command selection

F420 ：7[Communication option input] (Factory setting: 3)

4.2.2. Monitor

It is able to monitor the status of the inverter.

Set the monitor code to RWwn and turn RYnC on. The data is stored in the buffer memory of

the PLC.

"n" is depend on the station number.

•

Refer to "Section 6 List of CC-Link data" about the monitor code and unit.

4.2.3. 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 data to RWw(n+3) if necessary) and turn RYnF

(instruction code execution request) on. The inverter performs processing corresponding to the

command code, and return the response data, the read out data and RXnF (instruction code

execution completion).

• Refer to the "CC-Link Option Function Manual E6581288" for the command code, the unit of

the data, and the setting range.

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5. Unusual diagnosis

The VF-AS1 is able to install two kind options. The option error message is depended on the

position of the option under or panel side.

5.1. Option error

The error message is displayed when there is hardware error, software error or lose of

connection of wire.

■Display of trip information

E-23 (Error code : 55) : Add-on option 1 error

(This error is displayed at the time the bottom side option has an error or only one option is

installed and has an error.)

E-24 (Error code : 56) : Add-on option 2 error

(This error is displayed at the time the two-units are installed and the upper side option has

an error.)

5.2. Disconnection error of network cable

■Display of trip information

Err 8 (Error code : 27) : Communication error

■Related parameter

[F850 Disconnection detection extended time]

The range : 0.0 to 100 sec.

The waiting time from when a network error occurs to when a communication error "Err 8" is

displayed can be adjusted. If a network error continues past the time set in F850, it is

recognized as a communication error and "Err 8" is displayed.

When normal communication returns during the set time, a communication error is not

displayed and operation is continued.

[F851 Inverter operation at disconnection]

The range 0: Stop and Communication release

(CMOD, FMOD) 1: None (continued operation) 2: Deceleration stop 3: Coast stop 4: Network error (Err 8 trip) 5: Preset speed operation (by F852 setting)

The action of the inverter when the communication error occurred can be specified.

[F852 Preset speed operation selection] Setting range 0：None

1 to 15：Preset speed operation (by parameter setting)

E6581286②

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6. List of CC-Link data

This option occupies one station area of the buffer memory of the PLC.

6.1. RX(Monitor), RY(Instruction)

List of remote I/O

Inverter (Slave) -> PLC (Master) PLC (Master) -> Inverter (Slave)

Device No. Signal Device No. Signal

RXn0 Forward running RYn0 Forward rotation command RXn1 Reverse running RYn1 Reverse rotation command

RXn2

Output terminal function selection 1 (OUT1)

RYn2

Input terminal function selection 5 (S1)

RXn3

Output terminal function selection 2 (OUT2)

RYn3

Input terminal function selection 6 (S2)

RXn4

Output terminal function selection 3 (FL)

RYn4

Input terminal function selection 7 (S3)

RXn5

Output terminal function selection 4 (OUT3)

RYn5

Input terminal function selection 8 (S4)

RXn6

Output terminal function selection 5 (OUT4)

RYn6

Input terminal function selection 9 (L1)

RXn7

Output terminal function selection 6 (R1)

RYn7

Input terminal function selection 10 (L2)

RXn8

Output terminal function selection 7 (OUT5)

RYn8

Input terminal function selection 11 (L3)

RXn9

Output terminal function selection 8 (OUT6)

RYn9

Intercept output to inverter (Coast stop)

RXnA

Output terminal function selection 9 (R2)

RYnA Frequency priority CC-Link

RXnB Reserved RYnB Command priority CC-Link

RXnC Monitoring RYnC Monitor command

RXnD

Frequency setting completion (RAM)

RYnD Frequency setting command

RXnE

Torque setting completion (RAM)

RYnE

Torque setting command (RAM)

RXnF

Instruction code execution completion

RYnF

Instruction code execution

request RX(n+1)0 RY(n+1)0 RX(n+1)1 RY(n+1)1 RX(n+1)2 RY(n+1)2 RX(n+1)3 RY(n+1)3 RX(n+1)4 RY(n+1)4 RX(n+1)5 RY(n+1)5 RX(n+1)6 RY(n+1)6 RX(n+1)7 RY(n+1)7 RX(n+1)8 RY(n+1)8 RX(n+1)9

Reserved

RY(n+1)9

Reserved

RX(n+1)A Error status flag RY(n+1)A Error reset request flag *2 RX(n+1)B Remote station ready RY(n+1)B RX(n+1)C RY(n+1)C RX(n+1)D RY(n+1)D RX(n+1)E RY(n+1)E

RX(n+1)F

Reserved

RY(n+1)F

Reserved

"n" is depend on the station number.

*1 The reserved input signal should be set OFF ("0"). *2 A reset request is during switched ON.

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6.2. RWr, RWw resistor

RWr . RWw (Default value = 0)

Inverter → PLC (RWr) PLC → Inverter (RWw)

Address Contents Address Contents

RWr n First monitor value RWw n Monitor code (first and second) RWr n+1 Second monitor value (output frequency) RWw n+1 Set frequency/ torque RWr n+2 Reply code RWw n+2 Instruction code RWr n+3 Read data RWw n+3 Write data

"n" is depend on the station number.

6.3. Monitor code

Divide the monitor code (RWw n) into half and select the first monitor data (RWr n) from the

lower 8 bits and the second monitor data (RWr n) from the higher 8 bits.

(Example) When output voltage is selected for the first monitor and output torque is selected

for the second monitor.

-> The monitor code is 0703H.

RWw n

Monitor code

the higher 8 bits the lower 8 bits

Second monitor description First monitor description

* The hexadecimal value attaches and expresses "H" to the end of a number.

Monitor code (When an invalid monitor code is set up, monitor value fixes to 0.)

Code Number

Second Monitor Description

(the higher 8 bits)

First Monitor Description

(the lower 8 bits)

Unit

00H Output frequency None monitor (Monitor value is 0) 0.01Hz 01H Output frequency Output frequency 0.01Hz

02H *1 Output current Output current 0.01A 03H Output voltage Output voltage 0.1V 04H None monitor (Monitor value is 0) None monitor (Monitor value is 0) － 05H Frequency command value Frequency command value 0.01Hz 06H None monitor (Monitor value is 0) None monitor (Monitor value is 0) － 07H Output torque Output torque 0.1% 08H DC voltage DC voltage 0.1V 09H PBR load factor PBR load factor 0.1% 0AH Motor overload factor (OL2 data) Motor overload factor (OL2 data) 0.1%

0BH, 0CH None monitor (Monitor value is 0) None monitor (Monitor value is 0) －

0DH Input power Input power 0.01kW 0EH Output power Output power 0.01kW 0FH Input terminal information Input terminal information － 10H Output terminal information Output terminal information － 11H Output current (% monitor) Output current (% monitor) 0.1% 12H Exciting current Exciting current 0.01A 13H None monitor (Monitor value is 0) None monitor (Monitor value is 0) － 14H Cumulative operation time Cumulative operation time 1hr

15H, 16H None monitor (Monitor value is 0) None monitor (Monitor value is 0) －

17H Accumulation power supply ON time Accumulation power supply ON time 1hr 18H Motor overload factor Motor overload factor 0.1%

19H Integral input power Integral input power 1kWh 1AH Integral output power Integral output power 1kWh

1BH RR/S4 input RR/S4 input － 1CH VI/II input VI/II input － 1DH RX input RX input －

1EH, 1FH None monitor (Monitor value is 0) None monitor (Monitor value is 0) －

20H Torque command Torque command 0.1% 21H Torque current Torque current 0.1%

22H, 23H None monitor (Monitor value is 0) None monitor (Monitor value is 0) －

24H PID feedback value PID feedback value 0.01Hz

25H～2FH None monitor (Monitor value is 0) None monitor (Monitor value is 0) －

*1: The monitor code "02H" will be overflow when its value more than 327.67A. If that monitor overflowed, use the

monitor code "11H".

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6.4. Instruction Codes

Code No. Contents Description

1003H

Command mode selection read

2003H

Command mode selection write

0 : Terminal input enabled 1 : Operation panel input enabled (including LED/LCD option input) 2 : 2-wire RS485 communication input 3 : 4-wire RS485 communication input 4 : Communication option input

1004H

Frequency setting mode selection read

2004H

Frequency setting mode selection write

1 : VI/II (voltage/current input) 2 : RR/S4 (potentiometer/voltage input) 3 : RX (voltage input) 4 : Operation panel input enabled

(including LED/LCD option input)

5 : 2-wire RS485 communication input 6 : 4-wire RS485 communication input 7 : Communication option input 8 : Optional AI1 (differential current input) 9 : Optional AI2 (voltage/current input) 10 : UP/DOWN frequency 11 : Optional RP pulse input 12 : Optional high-speed pulse input 13 : Optional binary/BCD input

0072H

Special monitor

0000H～FFFFH : Monitor value selected after choosing

instruction code 00F3H.

0073H

read Special monitor code read Read the content which was monitored by special monitor.

00F3H

write Special monitor selection Select the monitor code of special monitor.

0074H

Trip history No.1, No.2 read

0075H

Trip history No.3, No.4 read

Read the No.1(latest) to No.4(oldest) trip records.

006DH

Frequency command value (RAM) read

Read the frequency command value (RAM).

006EH

Torque command value (RAM) read Read the torque command value (RAM).

00EDH

Option frequency command value (EEPROM&RAM) write

Write the option frequency command value (EEPROM

&RAM).

00EEH

Option torque command value (EEPROM&RAM) write

Write the option torque command value (EEPROM&RAM).

00F4H

Trip history clear 9696H : Clear all trip history.

00FCH

Parameter all clear

9696H : Clear all parameters. (Parameters other than

proofreading values are made into factory default settings.)

00FDH

Inverter reset 9696H : Reset the inverter.

1000H to

1999H

(1000H to

1F99H)

Read parameters (RAM)

To read parameters F000 to F984, add the triple figures that

follow Fxxx to 1000H. (Ex: F

984 -> 984 + 1000 = 1984)

No error occurs when you select 1A00 to 1F99. Because

these parameters are for maintenance.

2000H to

2999H

Write parameters (EEPROM&RAM)

To write parameters F000 to F984, add the triple figures

that follow Fxxx to 2000H.

E6581286②

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6.5. Reply Code

Reply code

Data Item Detailed contents

0000H Normal (No error) Normal completion of instruction code execution

Execution error.

0001H Write error

(Write protected during operation)

0002H Parameter selection error Unregistered code number was set. 0003H Setting range error Set data is outside the setting data range.

7. CC-Link local/Remote Operation

The example below shows how to configure the VF-AS1 for local/remote operation.

F terminal ................ Operating command

R terminal................ CC-Link local/remote (Terminal in this example) switching

RR/S4 terminal..... Operation frequency command

VF-AS1

RR/S4

Variable resistor for adjustment

10k ohm

CC-Link/local Switch

Operation command

SINK

SW1

SOURCE

CCA

cmod

(Command mode selection) = 0 (Terminal board)

fmod

(Frequency setting mode selection 1) = 2 (RR/S4)

f112

(Input terminal selection 2 (R)) = 48 (Remote/Local control)

R-CC terminal open: VF-AS1 is controlled as a slave device of CC-Link.

R-CC terminal closed:

F-CC terminal short to RUN

F-CC terminal short to STOP

Output frequency is set up by the RR/S4 signal input.

E6581286②

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8. Specifications

Item Specifications Model number CCL001Z Station type Remote device station Number of occupied stations

1 station occupied by 1 unit

Baud rate 156kbps, 625kbps, 2.5Mbps, 5Mbps, 10Mbps Power supply 5VDC supplied from the inverter

Use environments

Indoors, an altitude of 3000m or less, where the product will not be exposed to direct sunlight, corrosive or explosive gasses, vapor, coarse particulate including dust, and where there is no grinding or grinding oil nearby.

Ambient temperature 0 to +60℃ Storage temperature -25 to +65℃ Relative humidity 20 to 93% (No condensation and absence of vapor) Vibration 5.9 m/s2 {0.6G} or less (10 – 55Hz)

9. Warranty

Any part of the unit that proves defective will be repaired free of charge under the following

conditions:

1. If the product breaks down within one year after delivery, although it is installed and handled

properly, and if the breakdown is undoubtedly attributable to a defect in designing or

manufacturing by Toshiba, the product shall be repaired free of charge.

2. This warranty applies only to the option unit.

3. For the following kinds of failure or damage, the repair cost shall be borne by the customer even

within the warranty period.

1) Failure or damage caused by improper or incorrect use or handling, or unauthorized repair or

modification of the option unit.

2) Failure or damage caused by the unit falling or an accident during transportation after the

purchase.

3) Failure or damage caused by fire, salty water or wind, corrosive gas, earthquake, storm or

flood, lightning, abnormal voltage supply, or other natural disasters.

4) Damage sustained as a result of the fact that the product was used for any application other

than that designated for the CC-Link

option (circuit board) for the VF-AS1.

4. If terms and conditions of warranty are otherwise specified, priority is given to them.

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Toshiba TOSVERT VF-AS1, TOSVERT VF-PS1 Instruction Manual

Specifications and Main Features

Frequently Asked Questions

User Manual