Toshiba TOSVERT VF-FS1 series Function Manual

E6581404

TOSVERT VF-FS1 series

BACnet® option unit

Communication Function Manual

NOTICE

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

®

option

unit.

2. Read this manual before installing or operating the BACnet

®

option unit. Keep it in a

safe place for reference.

3. All information contained in this manual are subject to change without notice. Please
confirm the latest information on our web site “www.inverter.co.jp”.

E6581404

Introduction

Thank you for purchasing the “BACnet® option unit” for TOSVERT VF-FS1 series Inverter.
Before using BACnet® option unit, carefully read this function manual in order to completely and correctly
utilize its excellent performance.
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-FS1 Instruction Manual ･･･････････････････････････････････ E6581381
･TOSVERT VF-FS1 Communications Function Instruction Manual ････････ E6581393
･BCN002Z Instruction Manual ････････････････････････････････････････････ E6581402

* BACnet is a registered trademark of ASHRAE.

Handling in general

Danger

Do not connect or disconnect a network cable while the Inverter power is on.

It may lead to electric shocks or fire.

Prohibited

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.

Mandatory

Network control

Danger

Do not send the value out of the valid range to network variables.

Otherwise, the motor may suddenly start/stop and that may result in injuries.

Prohibited

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.

Warning

Set up “Communication error trip function (see below)” to stop the Inverter when the

option unit is deactivated by an unusual event such as tripping, an operating error,
power outage, failure, etc.

- Communication error trip time, Operation at communication error
(f803 ,f892 and f851, see the Inverter instruction manual for details)

Deactivated option unit 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 Inverter’s fault. The

motor may suddenly start and that may result in injuries.

Mandatory

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 10000 times. Avoid writing a command more than

10000 times to the same parameter of the Inverter and the communication board.

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E6581404

Table of Contents

1. Scope ..................................................................................................................................................3

1.1. Overview ....................................................................................................................................3

2. Names and functions of main parts.....................................................................................................3

2.1. Name of main parts....................................................................................................................3

2.2. Use of RS485 communication port........................................................................................... .4

2.3. LED indicator..............................................................................................................................4

2.4. Command & Setpoint selection (Local/Remote)........................................................................5

2.5. Description of terminals .............................................................................................................6

2.6. Network cable connection..........................................................................................................7

2.7. Network configuration ................................................................................................................7

2.8. Wiring of a control terminal ........................................................................................................8

3. Parameters..........................................................................................................................................9

3.1. Communication parameters.......................................................................................................9

3.2. Communication setting between option board.........................................................................10

3.3. Communication error detection between inverter and option board........................................10

3.4. Selection of the communication protocol (f829).................................................................10

3.5. Number of motor poles for communication (f856)..............................................................10

3.6. Network address (f890)......................................................................................................10

3.7. Network baud rate (f891)....................................................................................................10

3.8. Instance Number (f893, f894).......................................................................................10

3.9. MaxMaster (f895) ...............................................................................................................10

3.10. MaxInfoFrames (f896)........................................................................................................10

3.11. Use the communication option.................................................................................................11

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

4.1. Object / Property support Matrix..............................................................................................12

4.2. Drive I/O Objects......................................................................................................................13

4.2.1. Binary Input Object Instance...........................................................................................13

4.2.2. Binary Input Object Instance...........................................................................................13

4.2.3. Analog Output Object Instance .......................................................................................13

4.3. Control objects.........................................................................................................................14

4.3.1. Binary Value Objects Instance........................................................................................14

4.3.2. Analog Value Objects Instance.......................................................................................15

4.4. Device Objects.........................................................................................................................15

4.5. Parameter access....................................................................................................................16

4.6. Option Error..............................................................................................................................16

5. Specifications ....................................................................................................................................17

5.1. BACnet Protocol Implementation Conformance Statement ....................................................18

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E6581404

1. Scope

1.1. Overview

Thank you for purchasing a “BACnet communication Option (BCN002Z)” for TOSVERT VF-FS1 inverter.
This option can connect with open field network BACnet MS/TP network and data communications with
the network through installing this option in the VF-FS1 and using it. BACnet MS/TP supports a maximum
of 32 nodes for one segment.
By attaching BCN002Z to VF-FS1, the monitor of run/stop and the setting change of the parameter
become possible from the network, and it can cope with various application.

This manual is also aimed at the operator using "VF-FS1 BACnet option", so please use it for future
maintenance and inspection.

2. Names and functions of main parts

2.1. Name of main parts

Detachable terminal
Network
communication

Communication
condition monitor LED

Input terminal
SINK/SOURCE
VIB/PTC select SW

Optional RS485 communication port
RS485 communication option can be
used. However it makes BACnet
Communication be disabled.

B A GND SCR

Connector

Termination

resistor SW

Terminal board fixing
screw hole

(M3 screw)

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E6581404

2.2. Use of RS485 communication port

Serial communication (2-wire RS485) option can be used. However, while it is connected, the internal
communication line is switched to RS485 then the communication via BACnet network is disabled and
the data can not be refreshed. In this case, communication error trip time (f803) is also active.
Use RS485 serial communication option specified by Toshiba.

2.3. LED indicator

The option has two LEDs. Those functions are below table.

COM
Green

ERR
Red

1s

OFF

2s

OFF

1s 1s

ON

ABC EF

2s

OFF

1s

D

State

LEDs

Comment

A

Green LED : OFF
Red LED : Flashing 5 times in 1 second

BACnet board failure

B

Green LED : OFF
Red LED :

Flashing 3 times in 2 seconds, Off for 1
second

Communication loss detected. Confirm the
network condition and connection of the cable.

C

Green LED : ON
Red LED : OFF 0.5s, ON 0.5s

Invalid configuration detected (ADR > max
master), or an option is connected to RJ45.

D

Green LED :

Flashing 3 times in 2 seconds, Off for 1
second

Red LED : OFF

Waiting for Auto baudrate detection

E

Green LED : Flashing Intermittent Green
Red LED : ---

Valid message received for this node

F

Green LED : --­Red LED : Flashing Intermittent Red

Invalid message received (any node)

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E6581404

2.4. Command & Setpoint selection (Local/Remote)

Indication to display Local/Remote mode is on the inverter unit (Refer to the inverter instruction manual
for details). BACnet option command and setpoint are activated on Remote mode

*1

.
Inverters have some switches to select the command and setpoint location. Following figure shows the
diagram. Refer to the inverter instruction manual for the parameter in detail.

*1 Be careful that cmod command and fmod setpoint are activated for a short time just after the

inverter power turned on. Set cmod and fmod to “network” to prevent this problem.

Command

Setpoint

Control T e rminal
Operation Pan el

Serial Com.(BACnet)

VI

A

VIB

Operation Pan el

Serial Com.(BACnet)

UP/DOWN

Operation

Panel

Serial Com.

(BACnet)

Operation

Panel

Local/Remote　key

cmod

fmod

Logic input = 48 (SC/LC)

Network cancel switch

1
2
3
4
5

0
1
2

1

0

1

0

REM

LOC

Serial Com.

(BACnet)

0

1

0

1

Binary Value #22

REM

LOC

Binary Value #21

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2.5. Description of terminals

<Control terminals specification>

Terminal

symbol

Function Electrical specifications Internal circuits

B Communication signal (+)
A Communication signal (-)

GND Signal common

SCR

BACnet communication signal
EIA-485

Shield terminal.
Connect to network ground

B
A

GND

SCR

47k

47k

4.7k

4.7k

120

SW4

TERM

F

R

Multifunctional programmable
contact input.

SINK/SOURCE can be
selected with SW.

No voltage contact input
24V

DC

, 5mA or less

N.B. Use contact parts for low

current.

F, R

CC

P24

P24

4.7k

PTC

SOURCESINK

820

VIB

Multifunction programmable
analog input.
with internal pull-up resistor for
PTC

0 to 10V

DC

input
Using this terminal as PTC
input, set SW2 to PTC side
and set the parameters
(f645 and f646) to
proper value.

VIB

15k

VIB

P10

PTC

15k

3.3k

CC

Control circuit’s equipotential
terminal

P24 24 VDC power supply output 24VDC-50mA

P24

P24

PTC

FLA
FLB
FLC

Multifunctional programmable
relay contact outputs

1c contact
30V

DC

-0.5A

250V

AC

-1A (cosφ =1）

250V

AC

-0.5A (cosφ =0.4)

FLA
FLB

FLC

Ry

Danger

Prohibited

Do not change switches settings while the power is on.

It may lead to electric shocks or damage.

Mandatory

Turn off the motor operation signals before setting the parameter and the switch

(SW), when changing the VIB function. Otherwise, the motor may suddenly start
and that may result in injuries.

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E6581404

2.6. Network cable connection

Connect the BACnet network cable to communication option as follows.

Title Description

Wire type Shielded twisted cable

Characteristic impedance Between 100 and 130 ohm

Distributed impedance between

conductors

Less than 100pF per meter

Distributed impedance between

conductors and shield

Less than 200pF per meter
Foil or braided shields are acceptable.

Length of an MSTP segment 1200 meters with AWG18 (0.8mm2)

Cable sheath should be peeled off by about 7mm.
For wiring work, use a flat blade screwdriver with a 0.6mm thick and

3.5mm width blade.
Tightening torque for the terminal block is 0.5Nm.

* Fix a cable so that a communication connector may be not taken the weight of wire.

７

mm

2.7. Network configuration

Make up the network as follows.

- Transmission/reception signals (A, B)
Make up the communication path by connecting all transmission/reception data cables.

- Signal common (GND)
GND is the signal common.

- Grounding the shield of cable (SCR)
Connect the all shield lines of network cable. The shield shall be grounded at one end only prevent
currents from being created.

- Termination resistor
A termination resistance of 120 ohms plus or minus 5% shall be connected at each of the two ends of
the segment medium. This option has a termination resistor, so if use, set up the termination resistor
SW. (Refer to

2.1Name of main parts)
At least one set, and no more than two sets, of network bias resistors shall exist for each segment.
This option has local bias resistors.

Termination

B

A

GND

+5

510

510

Node with network

bias resistors

120

B

A

GND

Node without
bias resistors

B

A

GND

+5

47k

Node with local bias resistors

This option board

47k

4.7k

4.7k

Termination

120

SCR

Communication

cable

Communication

cable

SCRSCR

SW4

TERM

N.B.:Do not connect the SCR terminal to the power ground of inverters or other units.

Keep the network cables 20cm or more separate from the power cables to prevent from
malfunctioning due to electromagnetic noise.

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2.8. Wiring of a control terminal

Observe the following when wiring.

- Use 0.3 to 1.5mm2 solid/stranded wire (AWG 22 to 16) for control cables.

- Remove the sheath of a cable about 7mm (6mm for FLA, FLB, FLC and G/E) from the end of cable.

- Use a flat-headed screwdriver with its blade 0.6mm in thickness and 3.5mm in width.

- Screw tightening torque for the terminal block screws should be 0.5 to 0.6Nm.

N.B.: Keep the control signal cables 20cm or more separate from the power cables

to prevent from

malfunctioning due to electromagnetic noise.

N.B.: Provide an inter-lock system stated in below, when using a programmable controller that has the

open collector output.
When the programmable controller is turned off with the inverter is on, the difference between
each control power potential will cause wrong signals to the inverter as shown in below figure.
Provide an inter-lock so that the programmable controller cannot be turned off when the inverter
power is alive.

COM

+24V

Inverter
internal +24V

External
+24V supply

VF-FS1 + BCN002ZProgrammable controller

Input terminal

Fuse blowout
detection
circuit

Fuse

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E6581404

3. Parameters

3.1. Communication parameters

Set up the inverter parameters as follows. To update, reset the power of inverter. If these parameters are
set to correct value, this unit can not work normally.

Title Function Description

Shipment

setting

BACnet

cmod Command mode selection

0: Terminal board
1: Operation panel
2: Serial communication

0 2

fmod

Frequency setting mode
selection 1

1: VIA
2: VIB
3: Operation panel
4: Serial communication
5: UP/DOWN from external contact

1 4

f800 Communication rate Set “1: 19200bps” (default). 1 1
f801 Parity Set “1: Even” (default). 1 1

f803 Communication error trip time

Set communication time out period.
The way of stop is selected by f603.

0 ---

f829 Communication protocol Set “4: BACnet protocol” 0 4

f851

Operation at communication
error by disconnection

0: Inverter stop, communication command,

frequency mode open (by cmod,

fmod)
1: None (continued operation)
2: Deceleration stop
3: Coast stop
4: Communication error (err5 trip)
or Network error (err8 trip)

4 ---

f856

Number of motor poles for
communication

1: 2 poles

5: 10 poles

2: 4 poles 6: 12 poles
3: 6 poles 7: 14 poles
4: 8 poles 8: 16 poles

2 ---

f890 Address Set node address 0 ---

f891 Network baud rate

0: AUTO adaptive
1: 9600
2: 19.2kbps
3: 38.4kbps
4: 76.8kbps
Over 5 is AUTO adaptive.

0 ---

f892 Network Time-Out

0: No action
Unit 0.1sec, Setting range : 1 to 65535

0 ---

f893 0 ---
f894

Instance number Instance No.= f893 x 1000 + f894

0 ---

f895 MaxMaster

Setting range : 0 to 127
Over 127 is limited 127.

0 ---

f896 MaxInfoFrame

Setting range : 0 to 100
Over 100 is limited 100.

0 ---

Warning

Mandatory

Set up “Communication error trip function (f803, see the inverter instruction manual

for details)” to stop the inverter when this option unit is deactivated by an unusual event
such as tripping, an operating error, power outage, failure, etc. Deactivated option unit
may cause an accident, if the “Communication error trip function” is not properly set up.

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E6581404

3.2. Communication setting between option board

Do not change communication rate (f800), parity (f801) and communication waiting time
(f805) from shipment setting. If change the setting, the option board does not work properly.

3.3. Communication error detection between inverter and option board

Set the communication loss action time to f803 between the inverter and the option board. And the
network communication loss action time to f892. The network loss action function starts from
receiving the properly frame message. The action of the network communication loss is set by f851.
When set the communication loss action time f803 and connect the option to the RJ45 connector, the
communication between the inverter and the option is disabled, so the communication loss may be
detected.

3.4. Selection of the communication protocol (f829)

Set the communication protocol f829 to “4:BACnet protocol”. The communication protocol of RJ45 is
set to MODBUS, so when communicate with PC, use MODBUS protocol.

3.5. Number of motor poles for communication (f856)

Set the motor pole number of using. This parameter is for the calculation of min-1 unit motor speed of
BACnet data.

3.6. Network address (f890)

Set the network address of this node. Do not set same address number in the segment, and not set over
MaxMaster (f895). If set wrong number, the option board does not work properly.

3.7. Network baud rate (f891)

Set the network baud rate to f891. Set the same baud rate data in the network. If set AUTO baud rate,
when the option detect network baud rate, the option sets the baud rate data to f891 automatically.

3.8. Instance Number (f893, f894)

Set BACnet Object Instance number. The instance number should not be duplicate in the network. The
instance number is 22bit data length, and set the number of this option board as below.

Instance number = f893 x 1000 + f894

3.9. MaxMaster (f895)

Set the max master number of this segment. The network poles to MaxMaster address to find master
node, so set MaxMaster to be small number to be a small response time.

3.10. MaxInfoFrames (f896)

Set the max information frame number to send from this node. Not need to change.

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E6581404

3.11. Use the communication option

Serial communication (2-wire RS485) option can be used. However, while it is connected, the internal
communication line is switched to RS485 then the communication via BACnet network is disabled. In
this case, communication error trip time (f803) is also active.
Use RS485 serial communication option specified by Toshiba

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E6581404

4. Functions

This option board is based on BACnet “Application Specific Controller” (B-ASC).

4.1. Object / Property support Matrix

This option board supports below table objects and properties.

Object Type

Property

Device

Binary

Input

Binary

Output

Binary

Value

Analog

Input

Analog
Output

Analog

Value

Object Identifier       

Object Name       

Object Type       

System Status 

Vendor Name 

Vendor Identifier 

Model Name 

Firmware Revision 

Appl Software Revision 

Protocol Version 

Protocol Revision 

Services Supported 

Object Types Supported 

Object List 

Max APDU Length 

Segmentation Support 

APDU Timeout 

Number APDU Retries 

Max Master 

Max Info Frames 

Device Address Binding 

Database Revision 

Present Value      

Status Flags      

Event State      

Out-of-Service      

Units   

Priority Array   *1   *1

Relinquish Default   *1   *1

Polarity  

Active Text   

Inactive Text   

*1: For commandable values only.

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4.2. Drive I/O Objects

4.2.1. Binary Input Object Instance

The output terminals and the input terminals can be monitored.

Binary Input

Instance ID Object Name VFFS1 Description

Active /
Inactive

Access

Binary input #0 RO 1 ACT FL Output terminal monitor ON / OF F R
Binary input #1 RO 2 ACT RY Output terminal monitor ON / OF F R
Binary input #2 --- --- Reserve --- --­Binary input #3 --- --- Reserve --- --­Binary input #4 --- --- Reserve --- --­Binary input #5 --- --- Reserve --- --­Binary input #6 DI 1 ACT F Input terminal monitor ON / OFF R
Binary input #7 DI 2 ACT R Input terminal monitor ON / OFF R

4.2.2. Binary Input Object Instance

The output terminals can be controlled via network. Set the terminal function parameter before control
via network.

Binary Output

Instance ID Object Name VFFS1 Description

Active /
Inactive

Access

Binary Output #0 RO 1 CMD FL

Output terminal function
Set f132 to 38.

ON / OFF C

4.2.3. Analog Output Object Instance

The analog input value can be monitored.

Analog Input

Instance ID Object Name VFFS1 Description Units Access

Analog Input #1 ANALOG INPUT 2 VIB Analog input monitor % R

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4.3. Control objects

4.3.1. Binary Value Objects Instance

Binary Value Object Instance

Binary

Value ID

Object Name Description

Active/

Inactive Text

Access

#0 RUN/STOP ACT Indicates the drive status RUNS/ READY R
#1 FWD/REV ACT Indicates the motor rotation’s direction REV/ FWD R
#2 FAULT ACT Indicates the drive’s fault status FAULTED/NONE R
#3 --- --- - / - ---

#4

HAND/AUTO

ACT

Indicates if the drive is locally controlled or not

HAND/

AUTO

R

#5 --- --- - / - ---
#6 MAINT REQ Commutative operation time alarm status YES / NO R

#7 DRIVE READY The VSD is ready and waits a start command

READY/

NOT READY

R

#8 AT SETPOINT The VSD has reached the target speed

REACHED/

NO

R

#9 --- --- - / - ---

#10

RUN/STOP

CMD

Commands a drive start

START/

STOP

C

#11 FWD/REV CMD Commands a monitor direction’s change

REV/
FWD

C

#12 --- --- - / - ---
#13 --- --- - / - ---

#14 FAULT REST Resets faults

RESET/

NO

C

#15 MBOX READ Command to read parameter

WRITE/

RESET

W

#16 MBOX WRITE Command to write parameter

WRITE/

RESET

W

#17 --- --- - / - ---
#18 SP1PRESET Preset speed operation frequency 1

SP1/

NONE

C

#19 SP2PRESET Preset speed operation frequency 2

SP2/

NONE

C

#20 SP3PRESET Preset speed operation frequency 3

SP3/

NONE

C

#21 STPSEL Frequency priority selection ENABLED/OFF C
#22 CMDSEL Command priority selection ENABLED/OFF C

R = Read-only, W=Writable, C=Commandable. Commandable values support the priority arrays and relinquish
defaults.

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4.3.2. Analog Value Objects Instance

Analog Value Object Instance

Analog

Value ID

Object Name Description Units

Access

#0

OUTPUT

SPEED

Output speed min-1 R

#1 OUTPUT FREQ Output frequency Hz R
#2 DC BUS VOLT DC bus voltage *1 V R
#3 OUTPUT VOLT Motor voltage V R
#4 CURRENT Motor current A R
#5 TORQUE Motor Torque % R

#6 POWER

Motor Power
100%=√3×VSD rate voltage×Motor rate current

% R

#7 DRIVE TEMP Drive Thermal State % R
#8 KWH (R) Energy counter KWh R
#9 --- --- --- ---

#10 PRC PID FBCK PID regulator feedback *1 % R
#11 --- --- --- --­#12 --- --- --- ---
#13 --- --- --- ---
#14 RUN TIME Operating time H R
#15 --- --- --- ---

#16 INPUT REF 1

Speed reference from Bus
100%=vl (Base frequency), Setting range=+,- fh / vl x100

% C

#17 --- --- --- ---
#18 LAST FLT Error code --- --­#19 PREV FLT 1 Previous fault (occurred before LASTFLT) --- --­#20 PREV FLT 2 Previous fault (occurred before FLT1) --- --­#21 --- --- --- ---
#22 --- --- --- ---
#23 ACCEL1 TIME Acceleration time s W
#24 DECEL1 TIME Deceleration time s W
#25 MBOX PARAM Parameter number --- W
#26 MBOX DATA Parameter value --- W

R = Read-only, W=Writable, C=Commandable. Commandable values support the priority arrays and relinquish
defaults.
*1: The value are hold when the inverter trip.

4.4. Device Objects

Object Name “VF-FS1”
Object Type “8” (device)
Vendor Name “TOSHIBA”
Model Name “VFFS1-2007PM”
Firmware Revision “V1.02”
Application Software Version “V1.08” (VSD software version)
Protocol Version “1”
Protocol Revision “2”

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4.5. Parameter access

Using below objects, inverter parameters can be read and written.

Object ID Object Name

Description

Analog value #25

MBOX PARAM

Parameter No. Set the parameter number
(hexadecimal) to decimal value number.

Analog value #26

MBOX DATA

Parameter value. The data unit is depend on the
parameter specification. Refer to the inverter
instruction manual and the communication
function manual (E6581393).

Binary value #15

MBOX READ Command to read parameter

Binary value #16

MBOX WRITE Command to write parameter

1) Read Acc. time (Communication number of ACC1 is 0010 )
a) Set “16 (16 dec=0010 hex)” to Analog value #25.
b) Set “1” to Binary vale #15.
c) Read the data (ACC1) from Analog value #26. The unit is 0.1s.

2) Write Dec. time (Communication number of DEC1 is 0011 )
a) Set “17 (17 dec=0011 hex)” to Analog value #25.
b) Set “110 (110=11.0 sec” to Analog value #26.
c) Set “1” to Binary value #16.

4.6. Option Error

If the option detects the hardware or software error, the error status is indicated as LEDs on the board.
Refer to 2.3 LED indicator.

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5. Specifications

< Environmental specification >

Item Specification

Service environment Conforms to VF-FS1

Operation temperature Conforms to VF-FS1

Storage temperature

-25 to +65℃

Relative humidity 20 to 93% (free from condensation and vapor)

Vibration 5.9m/s2 (0.6G) or less (10 to 55 Hz) (To be complied with JIS C0040.)

< BACnet option terminal specification >

Item Specification Note

Communication between

inverter

VF-FS1

Only one board connection is
available.

Applicable model
Communication method MODBUS-RTU
Baud rate 19200bps

Set the inverter parameter
(refer to section

3.1)

Parity Even number

Control power supply 5 V Supplied from inverter

DC

2 circuits (F,R)

Logic input terminal Slide switch (SW) enable to select

logical configurations (Source/Sink).

Not isolated

Logic output terminal Nothing

1 circuit (FL): 30V

-0.5A

DC

Relay contact output
terminal

250V

-1A (cosφ =1）

Isolated

AC

250V

-0.5A (cosφ =0.4)

AC

(R1 circuit (VIB): 10V

DC IN

=

30kohm)

Not isolated Analog input terminals

Analog output terminals Nothing
Power supply output 24V -50mA Current limit function

DC

< BACnet option network specification >

Item Specification
Data link / Physical layers Master-Slave / Token Passing (MS/TP)
Node type Master node
Maximum node 32 nodes per segment

9600bps, 19.2kbps, 38.4kbps, 76.8kbps

Communication baud rate

supports auto-baud detection
Bias resistor and
termination

Local bias resistors are mounted.

Termination resistor (120 ohm) can be select by SW.

Detachable terminal block 4-pole (5.08mm pitch)
Terminal block Manufacturer: PHOENIX CONTACT

Type-Form : MSTB 2,5/4-ST-5.08

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E6581404

5.1. BACnet Protocol Implementation Conformance Statement

Oct. 2006

Date

Toshiba Schneider Inverter Corporation

Vendor Name

Low Voltage AC Motor Drive

Product Name

VF-FS1

Product Model Number

V1.08 (VSD software version)

Applications Software Version

V1.02

Firmware Revision

2

BACnet Protocol Revision

BACnet Option board is designed for VF-FS1 series.

Product Description

All standard MS/TP baud rates are supported, as well as master mode
functionality. Over BACnet, the drive can be fully controlled as a
standard adjustable frequency drive.

BACnet Standardized Device Profile

□ BACnet Operator Workstation (B-OWS)

(Annex L)

□ BACnet Building Controller (B-BC)
□ BACnet Advanced Application Controller (B-AAC)

■ BACnet Application Specific Controller (B-ASC)
□ BACnet Smart Sensor (B-SS)
□ BACnet Smart Actuator (B-SA)

List all BACnet Interoperability Building

DS-RP-B, DS-WP-B,
DM-DDB-B, DM-DOB-B, DM-DCC-B, DM-RD-B

Blocks Supported (Annex K)
Segmentation Capability

□ Segmented requests supported. Window Size ____
□ Segmented responses supported. Window Size ____

Standard Object Types Supported:

An object type is supported if it may be present in the device. For each standard Object Type supported provide the
following

1) Whether objects of this type are dynamically creatable using the CreateObject service

2) Whether objects of this type are dynamically detectable using the DeleteObject service

3) List of the optional properties supported 4) List of all properties that are writable where not otherwise required by
this standard

5) List of proprietary properties and for each its property identifier, datatype, and meaning

6) List of any property range restrictions

Data Link Layer Options:

□ BACnet IP, (Annex J)
□ BACnet IP, (Annex J), Foreign Device
□ ISO 8802-3, Ethernet (Clause 7)
□ ANSI/ATA 878.1, 2.5 Mb. ARCNET (Clause 8)
□ ANSI/ATA 878.1, RS-485 ARCNET (Clause 8), baud rate(s) ___

■ MS/TP master (Clause 9),

baud rate(s): 9600, 19200, 38400, 76800

□ MS/TP slave (Clause 9), baud rate(s): ___
□ Point-To-Point, EIA 232 (Clause 10), baud rate(s): ___
□ Point-To-Point, modem, (Clause 10), baud rate(s): ___
□ LonTalk, (Clause 11), medium: __________
□ Other: __________

Device Address Binding:

□ Yes

Is static device binding supported? (This is
currently necessary for two-way
communication with MS/TP slaves and
certain other devices.)

■ No

Networking Options:

□ Router, Clause 6 - List all routing configurations,
e.g., ARCNET-Ethernet, Ethernet-MS/TP, etc.

□ Annex H, BACnet Tunneling Router over IP
□ BACnet/IP Broadcast Management Device (BBMD)

Does the BBMD support registrations by

□ Yes

Foreign Devices?

□ No

- 18 E -

E6581404

- 19 E -

Character Sets Supported:

Indicating support for multiple character sets
does not imply that they can all be supported
simultaneously.

■ ANSI X3.4
□ ISO 8859-1
□ ISO 10646 (UCS-4)

□ IBM™/Microsoft™ DBCS
□ ISO 10646 (UCS-2)
□ JIS C 6226

If this product is a communication
gateway, describe the types of
non-BACnet equipment/networks(s) that
the gateway supports: