Toshiba TOSVERT VF-FS1 Series Scope, Overview, Applicable model, System configuration

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LONWORKS

E6581373

1. Scope

1.1. Overview

technology is a network control system concept developed by Echelon Corporation, LONWORKS network provides Local Operating Network that is superior in the distributed control. it is featured by peer to peer communication between the LONWORKS nodes. This LONWORKS option is equipped with the LONWORKS Smart Transceiver (Neuron Chip) and LonTalk protocol in its firmware.

This network has following features.

1.Features the merit of distributed control. It enables to configure the network without Host computer.

2.The free topology wiring supported by the TP/FT-10 channel type accommodates bus, star, loop, or several combinations of these topologies.

3.Network construction tools are commercially available, and desirable network environment can be designed.

4.Products of the other manufacturer can also be laid out by open and non-exclusive network.

1.2.Applicable model

Applicable models are shown in the table below.

Part number of LONWORKS option unit	Applicable inverter model
LIU006Z	Under development
LIU007Z	VF-FS1 series

1.3.System configuration

-Network configuration example

Host computer

Router

Free topology: 63 units connected at maximum

Router

Router

LIU007Z		LIU007Z

VF-FS1		VF-FS1

Number of connected units to the router: 63 nodes at maximum

- The free topology wiring example.

Complex topology can be configured

Termination resistor

means a node

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Contents E6581373 Handling in general IntroductionTable of Contents E6581373 Scope System configurationOverview Applicable modelOutline view Names and functions of main partsLIU006Z LIU007Z for VF-FS1LED DiagnosticsService LED Status LED Fault LEDLED on LED OFF OFFRS485 communication port Service pin Device interface XIF file ConfigurationsInverter configurations Neuron IDLIU007Z Command & Setpoint selection Local/RemoteReference parameter of the inverter Object id Functional profileFunctional profile supported by this option Network variables Node Object Node Object functional blockObject map NviRequest Object Request NciLocation Location LabelNvoStatus Object Status Object map is the following ACMotorDrive functional blockLIU Network variable list VSD601011Network variable list the other NciMinSpeed Minimum Speed Configuration propertiesNciMaxSpeed Maximum Speed NciMinOutTm Minimum Send Time NciRcvHrtBt Receive Heartbeat TimeNciSndHrtBt Send Heartbeat Time NciRampUpTm Ramp Up Time NciNmlSpeed Nominal Motor Speed in min-1NciNmlFreq Nominal Motor Frequency NciRampDownTm Ramp Down Time NciDrvSpeedScale Default value for nviDrvSpeedScaleNciPwUpOutTm Power up delay time Input network variables NviResetFault Fault Reset CommandNviDrvSpeedStpt Drive Speed Setpoint NviDrvSpeedScale Drive Speed Setpoint ScalingNviRelay1 /nviDigitalOut1,2 Control of Digital Output NviInvSetFreq Frequency SetpointNviDigitalOutput Control of All Digital Outputs LIU007Z LIU006ZNviEmergOverride Emergency stop NviAnalogOut1,2 Control of Analog outputLnrecall NviParamCmd Parameter accessLnlearncurrent LnlearnvalueOutput network variables NvoStatusWord Inverter Status NvoDrvAlarm AlarmNvoDrvFeedback Velocity Feedback NvoDrvThermal Drive Thermal State NvoAlarmWord Alarm StatusNvoMotorThermal Motor Thermal State NvoTorque Motor Torque MonitorNvoDigitalIn1 to 8 Digital Input Monitor NvoDrvEnergy Cumulative Input EnergyNvoDigitalInput All Digital Inputs Monitor NvoEmergStatus Emergency Status NvoAnalogIn1 to 3 Analog Input MonitorNvoTypeVer Identification NvoParamResp Parameter Access ResponseAscii ToshibaOption unit reset method ProcedureExample usage BindingCommunication health management Parameter access method E6581373 ANSI/EIA/CEA Specifications