Owner manual
Table Of Contents
- HI 3000 Series
- Operation and Installation Manual
- Table of Contents
- Table of Contents
- Table of Illustrations
- Communications
- Cabling
- Network
- Security
- HI 3001
- Glossary of terms
- Index
- Table of Illustrations
- Communications
- Cabling
- Network
- Security
- HI 3001
- communications: installation & Operation
- Overview
- Communication Option Cards
- Remote I/O
- ControlNet
- Profibus
- MOD-Bus/TPC/IP
- OPC
- EtherNet/IP™
- Allen-Bradley Remote I/O
- Allen-Bradley License
- Common Applications
- Monitoring Weighing Parameters
- Short Glossary of Terms
- Tare Value
- Remote I/O Board Cable Termination Dip Switch Configuration
- About Cable Termination
- Dip Switch Settings
- Installing the RIO Option Board
- Connector Pin Out
- LED Indicators
- Removing the Remote I/O Option Card
- Remote I/O Configuration Procedures from the Front Panel
- Remote I/O Configuration Procedures from the Web Page
- FIG. 13: instrument home page/selecting configuration
- FIG. 14: configuration - options page/ selecting view remote i/o configuration
- FIG. 15: remote i/o configuration page
- FIG. 16: remote i/o configuration/ selecting baud rate
- FIG. 17: remote i/o configuration/ selecting rack size
- FIG. 18: remote i/0 configuration/ selecting quarter
- FIG. 19: Remote i/o configuration/ selecting last quarter
- Discrete Remote I/O Mapping
- About Discrete Remote I/O Mapping
- General Information
- For Reads:
- Mapping
- cabling: installation
- General Introduction to Cabling
- Unpacking
- Input Power Wiring
- Digital Input Wiring
- Output Relay Wiring
- Load Point Connections
- -JB Option Wiring
- Ethernet Cable Connection and Setup
- FIG. 26: rear panel/ethernet RJ 45 connection
- FIG. 27: configuration menu/selection setup
- FIG. 28: setup menu
- FIG. 29: setup menu/ethernet sub-menu
- FIG. 30: ethernet menu/default ip address
- FIG. 31: enter IP address in browser address field
- FIG. 32: web page
- Setting the IP Address for the Blind Remote
- Setting or Changing the IP Address using the Ethernet
- DeviceNet Connection and Setup From the Front Panel
- ControlNet Option Card Installation
- Removing the ControlNet Option Card
- ControlNet Connection and Setup
- Hardware Requirements:
- Software Requirements:
- Setting the ControlNet Node Address from the Front Panel
- Activating ControlNet and Setting the ControlNet Node Address from the Web Page
- FIG. 57: home page/selecting configuration
- FIG. 58: configuration page/selecting options
- FIG. 59: options page/selecting view controlnet configuration
- FIG. 60: controlnet page/activaTING CONTROLNET
- FIG. 61: controlnet configuration page/ entering node address
- FIG. 62: ControlNet configuration/entering node address
- LED Status Indicators
- EtherNet/IP™ Option Card Installation
- Removing the EtherNet/IP Option Card
- Profibus Option Card Installation
- Profibus Connection and Setup
- Removing the Profibus Option Card
- Analog Output Option Card Installation
- Removing the Analog Option Card
- Rear Cover Installation (HI 3000-RC)
- Installing the HI 3000-RC Rear Cover
- Network: Installation
- About Networks
- Simple Ethernet Network (See Fig. 90)
- Hardy Control-Link Ethernet Network
- FIG. 97: Hardy control-link Ethernet Network
- Materials Required
- Setting Node Addresses for HI 3000 Series Instruments from the Browser
- FIG. 98: filler/dispenser home page/ selecting configuration
- FIG. 99: configuration page/selecting hardy control-link
- FIG. 100: configuration - hardy control- link page
- FIG. 101: configuration - hardy control- link/instrument selection pull down list
- FIG. 102: Configuration page with instruments not assigned a node address
- FIG. 103: selected instrument with IP address in ip address field
- FIG. 104: hi-3010 (IP Address 192.168.110.68) assigned to node 0
- FIG. 105: selected instrument with IP address in ip address field
- FIG. 106: hi-3010 (IP Address 192.168.110.24) assigned to node 1
- FIG. 107: instruments assigned to node 0 through node 7
- FIG. 108: saving the configuration
- FIG. 109: transferring the node configuration from node 0 to node 1
- Using the Ping Tool
- Devicenet Network Setup
- RSNetWorx Setup for HI 3000 Series Instruments
- FIG. 110: selecting EDS wizard
- FIG. 111: eds wizard dialog box
- FIG. 112: selecting “register an eds file”
- FIG. 113: selecting the hardy eds file
- FIG. 114: selecting the hardy eds file
- FIG. 115: eds file installation test results dialog box
- FIG. 116: change graphic image dialog box
- FIG. 117: Final Task summary dialog box
- FIG. 118: Hardware/vendor/hardy instruments inc. installed
- FIG. 119: graph/hardy filler icon
- RSNetWorx Setup for HI 3000 Series Instruments
- Slave Mode Setup
- Building a Scanlist in RSNetWorx
- ControlNet Network Setup
- RSNetWorx Setup for HI 3000 Series Instruments with ControlNet Option Card
- Schedule the Network Using RSNetWorx for ControlNet
- Verify the Network Properties
- Survey the Network for Connected Devices
- Schedule the Network and Save the Configuration
- Selecting the ControlNet Node Address from the Front Panel
- Selecting the ControlNet Node Address from the Web Page
- PROFIBUS-DP Network Setup
- Initialization Process
- Profibus-DP .GSD File
- Pre-Initialization Procedures
- Initialization Procedures
- FIG. 141: hardware catalog/selecting anybus-s pdp folder
- FIG. 142: anybus-s pdp parameters dialog box
- FIG. 143: selecting the Input and output size
- FIG. 144: anybus-s pdp appears in the network
- FIG. 145: downloading hi 3000 series configuration
- FIG. 146: select destination module dialog box
- FIG. 147: select station address dialog box
- FIG. 148: downloading configuration prompt
- FIG. 149: initialization complete
- Selecting the Profibus Node Address from the Front Panel
- Selecting the Profibus Node Address from the Web Page
- MODBUS - TCP/IP Over Ethernet
- About MODBUS/TCP/IP Over Ethernet
- Installing MODBUS
- Enabling MODBUS in the HI 3000 Module
- Installing Hardy Modbus-Link
- FIG. 164: hardy modbus-link display
- FIG. 165: hardy modbus-link/selecting connect
- FIG. 166: tcp/ip connection display
- FIG. 167: tcp/ip connection display/ selecting tcp/ip
- FIG. 168: tcp/ip connection display/ entering the ip address
- FIG. 169: mapping display/clicking on destination - scratchpad: HFO4 (Hardy Float Out - word 4)
- FIG. 170: mapping display/selecting destination - scratchpad: HFO4
- FIG. 171: mapping display/selecting source - MFI0 (Modbus float IN - word 0)
- FIG. 172: mapping display/mapping the source to the destination
- FIG. 173: mapping display/HFO - float variables/entering a value for word 0
- FIG. 174: hardy modbus-link display/ selecting display/float inverse
- HI3000bk-P2.pdf
- FIG. 175: hardy modbus-link display/555.0000 appears
- FIG. 176: hardy modbus-link display/ selecting button 23 - read/write multiple registers
- FIG. 177: hardy modbus-link display/ writer multiple registers display
- FIG. 178: hardy modbus-link/enter value display
- FIG. 179: hardy modbus-link/enter value display/entering 999
- FIG. 180: hardy modbus-link/write multiple registers/sending new value
- FIG. 181: Response OK pop up
- FIG. 182: mapping display with value “999.0000” received from the Hardy Modbus-link client
- Using MODBUS with Excel®
- OPC Network Setup
- FIG. 183: OPC heterogeneous computing environment
- OPC SERVER
- Configuring Omniserver to Communicate with an HI 3000 Module
- FIG. 185: omniserver configuration dialog box
- FIG. 186: Omniserver configuration dialog box
- FIG. 187: Winsock device configuration/ default parameters
- FIG. 188: winsock configuration/entering hi 3000 setup parameters
- FIG. 189: pinging hi 3000 module/connection indicated
- FIG. 190: HI 3000 device icon with ip address
- FIG. 191: protocols dialog box
- FIG. 192: protocol definition/double or right click on protocol settings
- FIG. 193: protocols definition dialog box/ creating protocol name and description
- FIG. 194: protocol definition/binary formats page
- FIG. 195: protocols definition
- FIG. 196: protocol settings with new protocol definitions
- FIG. 197: selecting topics icon
- FIG. 198: topics page/selecting a new topic
- FIG. 199: topic definition dialog box/ creating topic definition
- FIG. 200: topic definition/variables page
- FIG. 201: topic definition/hardyfloat icon
- FIG. 202: protocol page/highlighting hardyopc_float
- FIG. 203: protocol page/selecting new item
- FIG. 204: item definition dialog box
- FIG. 205: item definition
- FIG. 206: item definition/entering fO00
- FIG. 207: item definition
- FIG. 208: protocol page/item list entered
- FIG. 209: item definition/Send data trigger
- FIG. 210: item definition/sequence number in
- FIG. 211: item definition/sequence number out
- FIG. 212: protocol page/selecting host message
- FIG. 213: host message definition
- FIG. 214: request page with no request message
- FIG. 215: selecting www link
- FIG. 216: hi 3000 support site
- FIG. 217: Eps files/selecting opc float dpd file
- FIG. 218: file download dialog box
- FIG. 219: save as dialog box/selecting program files
- FIG. 220: program files/selecting descartes omniserver
- FIG. 221: omniserver folder saving dpd file
- FIG. 222: host message
- FIG. 223: chains and triggers page
- FIG. 224: protocol definition/selecting unsolicited messages
- FIG. 225: unsolicited message definition page
- FIG. 226: unsolicited message definition/ name and description entered
- FIG. 227: unsolicited message definition/ received page
- FIG. 228: unsolicited message definition/ received message
- Setting Up OPC Communication with a Client
- About OPC Clients
- FIG. 229: wonderware/selecting wwclient
- FIG. 230: wonderware/close the log viewer
- FIG. 231: wwclient/selecting create connection
- FIG. 232: create connection dialog box
- FIG. 233: create connection dialog box
- FIG. 234: iot connection
- FIG. 235: item dialog box
- FIG. 236: wwclient/list of iot connections
- FIG. 237: WWClient/list of items (FI00)
- FIG. 238: wonderware/opening windowmaker
- FIG. 239: windowmaker dialog box
- FIG. 240: windowmaker/opening a new window
- FIG. 241: window maker/creating a new window
- FIG. 242: Machine Monitor window entering ###.####
- FIG. 243: windowmaker/selecting animation links
- FIG. 244: windowmaker/object type dialog box
- FIG. 245: Windowmaker/access name dialog box
- FIG. 246: windowmaker/add access name dialog box
- FIG. 247: windowmaker/selecting tagname dictionary
- FIG. 248: windowmaker/creating a tag name
- FIG. 249: windowmaker/select tag dialog box/selecting ips
- FIG. 250: newly created window
- FIG. 251: windowmaker/selecting runtime
- FIG. 252: windowmaker/runtime value
- Setting up the Output to the OPC Server and the Client from the HI 3000 Module
- Adding the HI 3000 Module to the Hardy Control- Link (TCP/IP) Network
- FIG. 253: HI 3030 Main web page/selecting configuration
- FIG. 254: Configuration page/selecting hardy control link
- FIG. 255: hardy control-link page/ selecting listed hi 3000 module ip address
- FIG. 256: hardy control-link page selecting node 5
- FIG. 257: selected instrument’s ip address appears in the node 5 text field
- FIG. 258: saving the node address assignment
- FIG. 259: ok message box
- FIG. 260: Node IP Address configured
- Mapping Parameters to the HardyFloat Output Table
- FIG. 261: configuration page/selecting mapping setup
- FIG. 262: mapping setup page 1
- FIG. 263: mapping setup page 1/selecting hardy control-link float out
- FIG. 264: hardy control-link float out selected/word 0
- FIG. 265: hardy control-link float out/ word 0 (EFO0) set as mapping destination
- FIG. 266: mapping setup 2/source selection page
- FIG. 267: mapping setup 2/selecting process data/gross weight
- FIG. 268: process data/gross weight channel 1 (HF14)
- FIG. 269: Gross Weight-channel 1 assigned to hardy control-link float out
- FIG. 270: gross weight assigned to hardy control-link float out
- FIG. 271: hardy control-link float out/ word 2
- FIG. 272: hardy control-link float out/ word 2 selected as destination
- FIG. 273: mapping page 2 selecting net weight
- FIG. 274: process data/selecting net weight/channel 1
- FIG. 275: current mappings/net weight/ channel 1 (HFI8) assigned to hardy Control-link float out (EFO2)
- FIG. 276: Net weight assigned to hardy control-link float out
- FIG. 277: hardy control-link float out/ word 4
- FIG. 278: hardy control-link float out/ word 4 selected as destination
- FIG. 279: mapping page 2 selecting gross weight
- FIG. 280: process data/selecting Gross weight/channel 2
- FIG. 281: current mappings/gross weight/ channel 2 (HFI8) assigned to hardy Control-link float out/word 4 (EFO4)
- FIG. 282: gross weight assigned to hardy control-link float out
- FIG. 283: hardy control-link float out/ word 6
- FIG. 284: hardy control-link float out/ word 4 selected as destination
- FIG. 285: mapping page 2 selecting net weight
- FIG. 286: process data/selecting Net weight/channel 2
- FIG. 287: current mappings/gross weight/ channel 2 (HFI9) assigned to hardy Control-link float out/word 4 (EFO4)
- FIG. 288: gross weight assigned to hardy control-link float out
- FIG. 289: selecting an expanded map
- FIG. 290: expanded map dialog box
- Configuring EtherNet/IP Using RSLogix5000®
- Mapping
- E-Mail: Configuration and Operation
- Overview
- Understanding IP Addresses
- Glossary of E-Mail Terms
- Configuring the E-Mail Server
- FIG. 296: instrument home page/selecting configuration
- FIG. 297: configuration web page/selecting E-mail
- FIG. 298: e-mail configuration web page
- Entering the Mail Server Name from the Front Panel
- Continuing E-Mail Configuration from the Web Page
- Configuring Standard E-Mail
- Configuring Custom E-Mail
- About Custom E-Mail
- About Tokens
- FIG. 309: list of parameter descriptions and hexadecimal numbers
- FIG. 310: Map dictionary
- FIG. 311: expanded view of entered tokens
- FIG. 312: configuration web page/ selecting mapping setup
- FIG. 313: mapping setup1/sending custom e- mail
- FIG. 314: mapping Setup 1/selecting send email
- FIG. 315: entering email number
- FIG. 316: send email #0 entered in the equation
- FIG. 317: mapping setup 2 page
- FIG. 318: selecting local inputs
- FIG. 319: selecting local input #1
- FIG. 320: equation entered (HO3.0=HI0.0)
- FIG. 321: e-mail mapping complete
- Testing E-Mail
- Setting up Filters in E-mail Applications
- security: setup
- Overview
- Security Levels
- Setting up Passwords from the Front Panel
- Setting up Passwords from the Browser
- FIG. 327: home page/selecting configuration
- FIG. 328: configuration page/selecting security
- FIG. 329: enter network password dialog box
- FIG. 330: password authentication failed
- FIG. 331: configuration/security page
- FIG. 332: configuration - security page typing passwords
- FIG. 333: configuration - security/ selecting security level for a menu
- FIG. 334: configuration - security/ parameters set for security levels
- Log On Procedures
- HI 3001: Master Display
- Glossary of terms
- Accuracy
- alarm
- appurtenance
- Baud rate
- bi-directional
- capacity
- Check weighing
- clear key
- dead band
- dead load
- decimal point position
- dispenser
- display
- engineering units
- electrostatic discharge
- enter key
- eprom
- error
- even
- excitation
- filler
- full-scale
- graduation size
- gross weight
- IBC
- Internet
- Intranet
- Kilograms
- Levelling
- led
- load cell
- menu
- menu driven
- microprocessor
- midpoint linearity correction
- motion
- nema 4
- nema 4x
- Node
- net weight
- non-linearity
- number of readings per average
- odd
- option
- option slot
- parity
- pounds
- POP
- preact
- previous key
- prompts
- Protocol
- ram
- rate of change (ROC)
- repeatability
- resolution
- rom
- rts
- rxd
- scale capacity
- secure memory module (SMM)
- set point
- span
- tag
- tare
- temperature coefficient
- time base
- Token
- transmitter span
- transmitter zero
- ttl
- txd
- update rate
- zero
- zero calibration
- zero tolerance
- Index
1 Communications
Installation & Operation
COMMUNICATIONS: INSTALLATION & OPERATION
Overview
The HI 3000 Series of instruments provide the user total
monitoring and instrument control via HI 3000 instruments’
built-in and optional connectivity which includes:
• DeviceNet (For Cable Installation See
Cabling Section - For Network Configura-
tion See Network Section)
• Hardy Link Ethernet (TCP/IP) (For Cable
Installation See Cabling Section - For Net-
work Configuration See Network Section)
• IR Port (Wireless)
• RS-232 Simplex Serial Port
• Remote I/O (For Cable Installation See
Cabling Section)
• ControlNet (For Cable Installation See
Cabling Section - For Network Configura-
tion See Network Section)
• Profibus I/O (For Cable Installation See
Cabling Section - For Network Configura-
tion See Network Section)
• Ethernet/IP (For Cable Installation See
Cabling Section - For Network Configura-
tion See Network Section)
Now the user can connect to any of the HI Series 3000 prod-
ucts from anywhere in the world, 365 days a year, 24 hours a
day, 7 days a week. Hardy’s connectivity puts you in touch
with your weigh process or vibration monitor at your conve-
nience no matter where you are or where the instrument is
located.
DeviceNet™
DeviceNet is a low-level network designed to connect the
Hardy HI 3000 Series Instruments to higher-level controllers
such as PCs, PLCs, or embedded controllers. The DeviceNet
Network is an open, global industry-standard communica-
tion network designed to provide an interface through a sin-
gle cable from a programmable controller or PC directly to
all HI 3000 Series instruments as well as smart devices such
as sensors, push buttons, motor starters, simple operator
interfaces, drives and other weigh modules. With DeviceNet
the user can monitor or control multiple applications from
one display and allows 3rd party I/O to be easily added to
any system. You no longer have to hard-wire each device to
an I/O module or I/O block. The network also provides
access to the intelligence present in the instruments for supe-
rior diagnostics and troubleshooting to help increase system
up time. The DeviceNet network lets you monitor your
plant-floor devices from a central location and reconfigure
them as your needs change or service them as required. The
DeviceNet network's capabilities help reduce integration,
and reduce installation and wiring costs.
Hardy Control-Link TCP/IP (Ethernet)
All HI Series 3000 instruments are designed with a select-
able 10/100 base T Ethernet connection which links your PC
to an embedded web server in the instrument. You can con-
nect to an HI Series 3000 instrument via the Internet,
Intranet, Extranet, or VPN (Virtual Private Network). Your
computer must have an ethernet card and cable with an RJ45
connector to connect to the HI 3000 Series instrument. Once
connected you can transfer data, configure, and control any
of the instruments from your web browser from any location
in your plant or enterprise. Help wizards are also available to
assist when performing setup or troubleshooting of an instru-
ment. In addition the browser connects you to the Hardy web
site which connects the user to a full range of customer ser-
vices and support. File downloads from your control room
are a snap. No more hauling devices to download files to the
instrument. Should you want to download a file or monitor
the instrument from your laptop at the site, simply connect a
short cable from the laptop to the Ethernet connection at the
rear panel of the instrument to transfer files, monitor or con-
figure the instrument. No matter where you are, if you are
connected to our instrument you can operate, configure and
troubleshoot any HI 3000 Series Instrument.
NOTE: RSNetWorx™ is a trademark of Rockwell Auto-
mation. DeviceNet™ is a trademark of the Open
DeviceNet Vendor Association, Inc. Control-
Link™ is a trademark of Hardy Instruments Inc.
PRS-232 Simplex Serial Port
NOTE: The RS-232 is a Serial Port for a Printer or
Scoreboard.
The HI 3000 Series instruments allow the user to control the
instrument using Hardy’s DeviceNet™ ControlLink™ Soft-
ware or RSNetWorx™ which can be purchased from Rock-
well Automation.
Communication Option Cards
Remote I/O
Under license from The Allen-Bradley Corporation, Hardy
Process Solutions has developed a Remote I/O Interface for
the HI 3000 Series products.
Hardy Instruments worked with substantial customer input
and Allen-Bradley to identify and design the remote I/O
communications network which best matched the needs of
system integrators and end users for industrial and process
applications. The interface is fast, field proven, requires min-
imal wiring, requires no special software drivers, and is stan-