HI 200DNWM WEIGH MODULE Series B OPERATION AND INSTALLATION MANUAL Corporate Headquarters 9440 Carroll Park Drive, Suite 150 San Diego, CA 92121 Phone: (858) 278-2900 FAX: (858) 278-6700 Web-Site: http://www.hardyinst.com Hardy Instruments Document Number: 0596-0227-01 Rev F Copyright August 1998 Hardy Instruments, Inc. All Rights Reserved. Printed in the U.S.A.
Local Field Service Hardy has over 200 field technicians in the U.S., and more positioned throughout the world to assist you in your support needs. We also have factory engineers who will travel to your facility anywhere in the world to help you solve challenging applications.
Table of Contents Table of Contents TABLE OF CONTENTS - - - - - - - - - - - - - - - - - - - -I TABLE OF ILLUSTRATIONS - - - - - - - - - - - - - - - - -I CHAPTER 1 - OVERVIEW - - - Scope - - - - - - - - - - - - - About Hardy Manuals - - - - - Description - - - - - - - - - - - WAVERSAVER® - - - - - - - - C2® Calibration - - - - - - - - The Button - - - - - - - - - - - What is DeviceNet®? - - - - - - Physical Layer (Network Topology) - - - - - - - - - - - - - - -1-1 -1-1 -1-1 -1-2 -1-3 -1-4 -1-4
HI 200DNWM MANUAL CHAPTER 3 - INSTALLATION - - - - - - - - - - - - - - - SCOPE - - - - - - - - - - - - - - - - - - - - - - - - - - Unpacking - - - - - - - - - - - - - - - - - - - - - - - - - Mechanical Installation - - - - - - - - - - - - - - - - - - - Installing the Bare Weigh Module in an Enclosure - - - - Installing Weigh Module in DIN Rail - - - - - - - - - - - Installing the Pre-stacked Weigh Module - - - - - - - - Electrical Installation - - - - - - - - - - - - - - - - - - - - Wiring Diagram for the J
Table of Contents CHAPTER 6 - CALIBRATION - - - - - SCOPE - - - - - - - - - - - - - - - - Pre-Calibration Procedures - - - - - - - C2® Calibration (The Button) - - - - - - C2® Calibration from RS NetWorx® - - Test Weight Calibration from RS NetWorx® - - - - - - - - - - -6-1 -6-1 -6-1 -6-1 -6-2 -6-3 CHAPTER 7 - OPERATION - - - - - - - - SCOPE - - - - - - - - - - - - - - - - - - Operating Capabilities - - - - - - - - - - - Explicit Message Request Parameters - - - Monitoring Weight Readings from R
HI 200DNWM MANUAL iv
CHAPTER 1 - OVERVIEW CHAPTER 1 - OVERVIEW Scope This manual provides the user with a description of the operating procedures, specifications, installation and setup for the Hardy Instruments HI 200DNWM (Hardy Instruments Series 200 DeviceNet™ Weigh Module). To get the maximum service life from the HI 200DNWM users should use the instrument in accordance with the recommended practices implied or contained in this manual.
HI 200DNWM MANUAL • • • • • • • Description 1-2 Chapter Two - Provides a complete list of Specifications. Chapter Three - Contains information needed to Install the HI 200DNWM weight module. Chapter Four - Provides complete hardware Configuration instructions for setting dip switches and jumpers. Chapter Five - Pertains to the firmware Setup and preparation procedures to calibrate and operate the module. Chapter Six - Provides Calibration instructions.
CHAPTER 1 - OVERVIEW 1. 2. 3. 4. Metric Poll Averages (1-255) WAVERSAVER® Calibration Type (C2® or Hard Calibration) - Not configurable, Read Only 5. Span Weight 6. Set Point Values a. Mode b. Preact c. Deadband NOTE: WAVERSAVER® and C2® are registered trademarks of Hardy Instruments, Inc. Configuration data is stored in an EEprom. I/O slave messaging is polled. The weight module supports two TTL levels out to relays for use as set points. A bit is supplied when the set point is reached.
HI 200DNWM MANUAL the weigh module to distinguish between actual weight data and mechanical noise, both of which are typically transferred to the weight controller by the load cell signal. WAVERSAVER® can be configured from devicenet controller to ignore noise with frequencies as low as 0.5 Hz. One of three other additional cut off frequencies may be selected to provide a faster instrument response time. The default factory configuration is 1.0 Hz vibration frequency immunity.
CHAPTER 1 - OVERVIEW through a single cable from a programmable controller directly to smart devices such as sensors, push buttons, motor starters, simple operator interfaces, drives and weigh modules. You no longer have to hard-wire each device to an I/O module or I/O block. Because you use significantly less wire, you spend far less time and money on wiring and installation time.
HI 200DNWM MANUAL • • Zero length drops allow direct connection of nodes to the trunk. Multiple power supplies can be used for load distribution and backup. FIG.
CHAPTER 2 - SPECIFICATIONS CHAPTER 2 - SPECIFICATIONS SCOPE Chapter 2 lists the specifications of the HI 200DNWM weigh module. Specifications are listed for the standard module and optional equipment. The specifications listed are designed to assist in the installation, operation and troubleshooting of the module. All service personnel should be familiar with this chapter before attempting an installation or repair of the instrument.
HI 200 DNWM MANUAL Temperature Coefficient Less than 0.0005% per degree C for zero and span. Temperature Range -10 degrees C to +50 degrees C Temperature Storage Range -20 degrees to +85 degrees C Physical Dimensions 3.80” W x 8.5” L x 1.0” H (96.52 mm W x 215.9 mm L x 25.
CHAPTER 2 - SPECIFICATIONS Connectors J1 Phoenix Combicon type with unsealed screw terminal mate. PC board side-vertical pins. All connector numbering is from left to right when looking down on the board with the connector side of the board facing toward you.
HI 200 DNWM MANUAL Current Draw at 24VDC Table 1: Current Draw at 24 VDC # Load Cells 2-4 Milli-Amp Reading W/Relay TTL W/O Relay TTL 1 167 ma 166 ma 2 174 ma 171 ma 3 179 ma 175 ma 4 189 ma 179 ma
CHAPTER 3 - INSTALLATION CHAPTER 3 - INSTALLATION SCOPE Chapter 3 covers unpacking, cabling, interconnecting and installing the HI 200DNWM weigh module. Users and service personnel should be familiar with the procedures in this chapter before installing or operating the weigh module. Unpacking 1. Before signing the packing slip, inspect the packing for damage of any kind. 2. Report any damage to the carrier company immediately. 3. Check to see that everything in the package matches the bill of lading.
HI 200DNWM MANUAL NOTE: 2 HI 200DNWM complete weigh modules pre-stacked. 1 Installation and Operation Manual Electronic Data Sheet Software available on our Website www.hardyinst.com 7. HI 200DNWM Module with Stacking Kit (-SK) NOTE: 1 HI 200DNWM Module with mating connectors 4 Standoffs 4 Phillips Pan Head Machine Screws 1 Installation and Operation Manual Electronic Data Sheet Software is available on our Website www.hardyinst.com 8.
CHAPTER 3 - INSTALLATION Hardy Instruments Inc. 3860 Calle Fortunada San Diego, CA 92123-1825 Phone: (858) 278-4900 FAX: (858) 278-6700 Web Site: http//www.hardyinst.com E-Mail: hardysupport@hardyinst.com 10. Record the model number and serial number of the Weigh Module. Store this information in a convenient, secure location for reference when contacting Hardy Instruments Customer Support Department or to buy parts or firmware upgrades.
HI 200DNWM MANUAL Step 5. Connect the phoenix connectors to the headers mounted on the weigh module. NOTE: Stand offs and fasteners are not included. NOTE: Make sure that the connectors are seated properly in the headers. FIG. 3-1 2” CLEARANCE AROUND THE MODULE FIG.
CHAPTER 3 - INSTALLATION FIG. 3-3 FASTENING MODULE TO BACK PLATE Installing Weigh Module in DIN Rail Step 1. Take one end piece and one rail insert. Snap the rail guide insert into the end piece. Take the other end piece and install the other rail guide insert (See Fig. 3-4 & 3-5) Step 2. Take one of the small rail pieces and insert the rail pins into the end piece. (See Fig. 3-6) Step 3. Take one of the large rail pieces and insert the rail pins into the small rail piece. Do this on both sides.
HI 200DNWM MANUAL FIG. 3-4 INSTALLING THE RAIL GUIDE INSERT INTO THE END PIECE FIG.
CHAPTER 3 - INSTALLATION FIG. 3-6 INSTALLATION OF THE RAIL PIECES Step 5. Gently slide the HI 200DNWM into the assembled DIN Rail until the board is flush against the other end piece. (See Fig. 3-7) Step 6. Take the other assembled end piece and snap it into the rail pieces. (See Fig. 3-7) Step 7. The HI 200DNWM is completely in the Din Rail assembly ready for installation. (See Fig.
HI 200DNWM MANUAL FIG. 3-7 INSTALLING THE WEIGH MODULE INTO THE ASSEMBLED DIN RAIL FIG. 3-8 WEIGH MODULE INSTALLED IN THE DIN RAIL NOTE: 3-8 The Weigh Module can be installed in the DIN Rail Assembly in either direction.
CHAPTER 3 - INSTALLATION Installing the Pre-stacked Weigh Module Step 1. Drill four (4) thru holes or threaded holes for four (4) 6-32 threaded male 1/4” hex standoffs. Step 2. Screw four (4) 3/8” long x 1/4” wide male standoffs into the back panel. NOTE: The four (4) 3/8” x 1/4” do not come with the stacking kit. NOTE: Refer to Paragraph 3.1.1 for clearance and hole diameter specifications. Step 3. Place the bottom weigh module onto the 3/8” standoffs. Step 4. Fasten the 1.
HI 200DNWM MANUAL FIG. 3-9 INSTALLING THE STACKING KIT Electrical Installation Wiring Diagram for the J1 Load Sensor 8 Pin Connector NOTE: 3-10 Pin Description 1 2 3 4 5 6 7 8 -C2 +C2 -EXC (Minus Excitation -SEN (Minus Sense) -SIG (Minus Signal) +SIG (Plus Signal) +SEN (Plus Sense) +EXC (Plus Excitation) +5VDC If the sense lines are not used to measure the actual excitation voltage at the junction box, an error is introduced.
CHAPTER 3 - INSTALLATION the instrument is 5 volts and the excitation voltage at the junction box was 4.9 volts, 0.1 volts was lost due to cable resistance. This loss will cause a linear error of 1% of applied load in all weight readings. This error is introduced because the programmed millivolt per volt data of the load point is multiplied by the voltage between the sense lines to compute the calibrations curve of the load point. (See Chapter 7, Paragraph 7.3.
HI 200DNWM MANUAL Model EXC + SEN + SIG + SIG - SEN - EXC - C2 + C2 - J-BOX RED BLUE GRN WHT BRWN BLK GREY VIO Table 1: C2 CABLE COLOR CODE/HI 215JB J-BOX FIG. 3-10 C2 LOAD CELL CONNECTION/HI 215JB JUNCTION BOX 1 2 3 4 5 3-12 Recommended load cell cable, Hardy Instruments (Prt. #6020-0001) Attach the load shield to the terminal block mounted next to the J1 connector on the HI 200DNWM Module.
CHAPTER 3 - INSTALLATION Non-C2 Loadcell Cable Connection (J1) 1 2 3 Attach the load cell cable to the terminal block mounted next to the J1 connector on the HI 200DNWM Module. Factory installed jumpers to remain in place for 4 wire, non-C2 load cell connections. (See Fig. 3-11) Do not run load cell cable in parallel with or in the same conduit with power wiring, relay cables or any other high energy cables. FIG.
HI 200DNWM MANUAL 3-14
CHAPTER 4 - CONFIGURATION CHAPTER 4 - CONFIGURATION SCOPE Chapter Four consists of all the procedures for configuring the HI 200DNWM Weigh Module. System configuration includes only hardware adjustments such as Jumper and Dip Switch settings. We recommend that maintenance personnel be familiar with this chapter before configuring the Weigh Module. Alternative configuration procedures are not recommended.
HI 200DNWM MANUAL ladder logic written that refers to the 4 bytes of input polled data needs to be changed and any reference to the output data also needs to be reviewed and possible modified. DIP Switch (S1) Configuration Configuring the DIP switch sets the following: 1. Baud Rate 2. Node Address DIP Switch Location The DIP Switch is located between THE BUTTON and the J3 Header. (See Fig. 41 & 4-2) Configuring the Baud Rate Refer to Table 4-1 to configure the baud rate.
CHAPTER 4 - CONFIGURATION FIG. 4-1 S1 DIP SWITCH LOCATION FIG. 4-2 FACTORY DEFAULT DIP SWITCH CONFIGURATION Configuring the DeviceNet Node Address Refer to Table 4-2 to configure the DeviceNet Node Address.
HI 200DNWM MANUAL Address S1-1 S1-2 S1-3 S1-4 S1-5 S1-6 0 OFF OFF OFF OFF OFF OFF 1 OFF OFF OFF OFF OFF ON 2 OFF OFF OFF OFF ON OFF 3 OFF OFF OFF OFF ON ON “ “ “ “ “ “ “ 62 ON ON ON ON ON OFF 63 ON ON ON ON ON ON Table 4-2: DeviceNet Node Addresses 4-4
CHAPTER 5 - SETUP CHAPTER 5 - SETUP SCOPE All information contained in Chapter 5 pertains to software or firmware settings or procedures to prepare the HI 200DNWM weigh module for calibration and operation. Alternatives to these procedures either explicit or implied, contained in this section are not recommended. It is very important that the user and service personnel be familiar with the procedures contained in this chapter, before going through the setup procedures.
HI 200DNWM MANUAL SAVER®” for example, the SAVE request should be sent BEFORE cycling the power. The non-volatile RAM has a maximum of 5,000,000 writes. Parameters • NOTE: Default settings are indicated by bold type. • NOTE: 5-2 Parameter 1 = Metric Poll True = kgs net False = lbs net Length in Bytes = 1 Parameter 2 = WAVERSAVER® Setting 0 =OFF 1 = 4 Hz, 2 = 2Hz, 3 = 1.0 Hz, 4 = 1/2 Hz Length in Bytes = 1 By selecting OFF (0) or 1 the module increases the updates per second from 10 to 55.
CHAPTER 5 - SETUP • Parameter 7 = Set Point One Lbs Value -2147483648 to 2147483647 10000.000 Length in Bytes = 4 • Parameter 8 = Set Point One Deadband in Lbs 0 to 2147483647 0.100 Length in Bytes = 4 • Parameter 9 = Set Point One Preact in Lbs 0.00 to 2147483.647 Length in Bytes = 4 • Parameter 10 = Set Point Two Type bit 7 = On/Off bit 1 = Low/High bit 0 = Net/Gross Length in Bytes = 1 • Parameter 11 = Set Point Two Lbs Value -2147483648 to 2147483647 100000.
HI 200DNWM MANUAL 5-4 • Parameter 14 = Number of C2® Chips Found 0 to 8 (Read Only) Length in Bytes = 1 • Parameter 15 = Net Weight in Lbs Read Only Length in Bytes = 4 • Parameter 16 = Gross Weight in Lbs Read Only Length in Bytes = 4 • Parameter 17 = Tare Weight in Lbs -999999 - 999999 0.
CHAPTER 5 - SETUP • Parameter 22 = Calibrate using C2® 0 to 1 (Set to True to Complete Command) Length in Bytes = 1 • Parameter 23 = Span Weight in Kgs 0.000 to 2147483.647 0.045 Length in Bytes = 4 • Parameter 24 = Set Point One Kgs Value Read Only Length in Bytes = 4 • Parameter 25 = Set Point One Deadband in Kgs 0.00 to 2147483.647 0.045 Length in Bytes = 4 • Parameter 26 = Set Point One Preact in Kgs 0 to 2147483.647 Length in Bytes = 4 • Parameter 27 = Set Point Two Kgs Value -2147483.
HI 200DNWM MANUAL • Parameter 30 = Net Weight in Kgs Read Only Length in Bytes = 4 • Parameter 31 = Gross Weight in Kgs Read Only Length in Bytes = 4 • Parameter 32 = Tare Weight in Kgs -999999 - 999999 0.00 Length in Bytes = 4 • Parameter 33 = Relay Outputs Length in Bytes = 1 • Parameter 34 = A/D Counts Length in Bytes = 4 • Parameter 35 = Calibration Low Weight in Lbs. Length in Bytes = 4 • Parameter 36 = Calibration Low Weight in Kgs.
CHAPTER 5 - SETUP the number of decimal places in the 32 bit integer weight outputs. The value 0 causes these weight outputs to be in floating point format. NOTE: This applies ONLY to the weights as viewed through the I/O (Command) interface. The explicit message interface continues to use 3 decimal place 32 bit integer format only. • Parameter 38 = Write non-volatile command. Length in Bytes = 1 Setting this parameter to 1 will cause a save to non-volatile memory.
HI 200DNWM MANUAL Format of Commands (4 byte input data) Byte 0 Parameter value, least significant byte. (Used by the WRITE command only. Byte 1 Parameter value, second least significant byte. (Used by the WRITE command only.) Byte 2 Parameter number. The parameter number is the instance of the parameter object. These are listed in the HI 200DNWM manual. Byte 3 (Command byte): 0=READ command.
CHAPTER 5 - SETUP • • Examples Using the Command Interface If the specified parameter is an invalid number (0 for example: there is no parameter number 0), the data is net weight, with units as determined by the METRIC POLL parameter. If the Command byte of the input data is non-zero (WRITE), the output data echoes the input data. Reading Gross Weight in the polled output data. 1. First word (2 least significant bytes) of the input data is not used. Ignore. 2.
HI 200DNWM MANUAL parameter. During the execution of the command, the output polled data reflects the input polled data. Setpoints About SetPoints The set point value is the target weight or level in either net or gross weight units Dead Band Limits The dead band value can be set as a High or Low value. It is used to deactivate the set point.
CHAPTER 5 - SETUP FIG. 5-1 LOW AND HIGH PREACT TRIP LIMITS Three General Rules for Set Points 1. Set Points activate at the set point plus the preact. 2. Set Points deactivate at the set point plus the deadband. 3. The deaband should be numerically larger than the preact. Preact Limits 1. The preact value is the number of units below or above the set point at which the relay will trip. 2. The preact value is used as an “in-flight” compensation value when filling a vessel.
HI 200DNWM MANUAL using. Be sure to read the DeviceNet Manager instructions first before setting. Setpoint Mode Parameters About Setpoint Mode Parameter Entering Setpoint Mode Parameters 5-12 The Setpoint mode parameter is a bit encoded byte that affects the behavior of the setpoint. Bit Description Bit 7 Setpoint On/Off. Set to 1 to activate the setpoint, set to 0 to disable it.
CHAPTER 6 - CALIBRATION CHAPTER 6 - CALIBRATION SCOPE Chapter 6 pertains to the calibration procedures for the HI 200DNWM weigh module. Alternatives to any procedures either implied or explicitly contained in this chapter are not recommended. In order for the weigh module to work properly, it must be calibrated prior to operation. All calibration should be recalibrated periodically, or when not in use for extended periods of time.
HI 200DNWM MANUAL Customer Support for assistance. Step 2. Press the RED BUTTON on the weigh module printed circuit board and hold the button down until the Module Status LED goes off. (See Fig. 6-1) NOTE: This could take up to 2 seconds. Step 3. When the Module Status LED comes back on. Release the RED BUTTON. The weigh module system is calibrated. Step 4. If the LED does not come back on contact Hardy Customer Support for assistance. FIG.
CHAPTER 6 - CALIBRATION 36. The DeviceNet Weigh Module Dialog Box appears. Step 4. Click on the Parameter tab. The Parameter List appears with the information for the weigh module at address 36. Step 5. Click on Cal LO. Step 6. Enter the Cal LO value. Step 7. Click on the Apply button. Step 8. Click on Yes. Step 9. Click on C2 Cal Cmd. Step 10. Set the C2 Cal Cmd to “1”. Step 11. Click on the Apply button. Step 12. Click on Yes. Step 13. Click on Cmd Save non-vol. Step 14. Set the Cmd Save non-vol to “1”.
HI 200DNWM MANUAL Step 6. Enter the Span Weight Value. Step 7. Click on Cal LO. Step 8. Enter the Cal LO weight. Step 9. Click on Cal LO command. Step 10. Set the Cal LO to “1”. Step 11. Click on the Apply button. Step 12. Click on Yes. Step 13. Place the test weight on the scale. Step 14. Click on Cal HI command. Step 15. Set the Cal HI command to “1” Step 16. Click on the Apply button. Step 17. Click on Yes. Step 18. Click on Cmd Save non-vol. Step 19. Set the Cmd Save non-vol to “1”. Step 20.
CHAPTER 7 - OPERATION CHAPTER 7 - OPERATION SCOPE All information contained in Chapter 7 pertains to the operation of the HI 200DNWM weigh module. We recommend that the processes and procedures contained in this chapter be followed to insure that the module give the user maximum quality performance. It is very important that the user be familiar with this chapter before operating the weigh module. Operating Capabilities The HI 200DNWM can do the following or can be used in the following operations: 1.
HI 200DNWM MANUAL • • can be found in the HI 200DNWM WEIGH MODULE I&O manual. ATTRIBUTE: The parameter value attribute number is 1. DATA: (varies) NOTE: Data length can vary, be sure to enter the correct length (size) of data or problems will occur. NOTE: Order of bytes must be least significant first. Monitoring Weight Readings from RS NetWorx NOTE: Step 1. On the PC open RS NetWorx. Step 2. Browse the Network. Step 3. Double click on the Node Icon of the weigh module you want to monitor.
CHAPTER 7 - OPERATION STATE LED INDICATION OPERATION AND ON LINE NOT CONNECTED FLASHING GREEN ON LINE NORMAL CONDITION NO CONNECTIONS Dup_MAC_ID PASSED & ON LINE, NO CONNECTIONS TO OTHER NODES. CRITICAL FAULT OR LINK FAILURE RED UNRECOVERABLE FAULT (MAY NEED REPLACING) FAILED COMMUICATIONS (DUPLICATE Mac ID OR BUS OFF) Table 7-1: NETWORK STATUS (DS1) Module Status (DS2) STATE LED INDICATION NOT POWERED/ NOT ON LINE OFF DEVICE IS NOT ON LINE 1.
HI 200DNWM MANUAL 7-4
CHAPTER 8 - TROUBLESHOOTING CHAPTER 8 - TROUBLESHOOTING SCOPE All the information in Chapter 8 pertains to the troubleshooting and resolution of operating problems that may occur. All maintenance personnel and users should be familiar with Chapter 8 before attempting to repair the HI 200DNWM. Module LED does not Come Back on When Performing Calibration with The Button If the Module LED does not come back on when performing The Button (C2 Calibration) it indicates a hardware problem.
HI 200DNWM MANUAL 1) 2) 3) 4) 5) 6) 7) 8) All pipes and conduits flexible? Mechanically isolated from ladders and connecting structures? 1) 2) 3) Keep flexures on the horizontal Vertical flexures should be avoided Do not use flexures to correct for misaligned piping Do not use hose flexures to make right angle bends Non-flexed piping should have an unsupported horizontal run using a ratio of 36 times it's diameter.
CHAPTER 8 - TROUBLESHOOTING Load Sharing and Load Sensor Checkout See Figure 8-2 1) 2) Does the mV signal increase in a positive direction. If you receive a negative results, check if load cell is mounted correctly. a) The arrow goes with the direction of force. b) If there isn't an arrow, you must manually verify the correct direction. A negative reading indicates the load cell is upside down. c) Load cells in tension will not reflect a negative reading if install upside down.
HI 200DNWM MANUAL Guidelines for Instabilities on Formerly Operating Systems See Figure 8-3 Check for Electrical Stability OK ? No B1 No B2 No B3 Yes Check for Mechanical Stability OK ? Yes Check Configuration settings for Stability OK ? Yes Contact Hardy Instruments Customer Support FIG.
CHAPTER 8 - TROUBLESHOOTING Electrical See Figure 8-4 B1 B1.1 B1.2 Electrical Physical Grounding All common equipment share a common ground point. Keep the ground cable length to earth ground as short as possible. Install a new ground rod if the cable length is excessive. Cable Cuts or breaks in the loadcell cable insulation allow moisture to wick into the cable and loadpoints. This can setup stray capacitance charges and allow ground currents to exist.
HI 200DNWM MANUAL Mechanical Stability and Configuration Settings See Figure 8-5 Mechanical Stability Vessel When inspecting a vessel keep in mind, the Center of Gravity (COG) should be low and centered equally over all the load cells. Insure the load is directly over or under the load point to avoid side-loading. Insure there isn't any side loading from piping or external forces. Install flexures on all piping to insure a free floating vessel.
Index Index A About Hardy Manuals 1-1 About Setpoint Mode Paramete About SetPoints 5-10 Approvals 2-2 ATTRIBUTE 7-2 Averages 2-1 5-12 B Batching 7-1 Baud Rate 4-2 C C2 Loadcell Cable Connection 3-11 C2® Calibration 1-4 C2® Calibration (The Button) 6-1 C2® Calibration from a Personal Computer 6-2 C2® Second Generation Calibration 1-4 Calibration Type 1-3 Check Weighing 7-1 CLASS 7-1 Command Interface 5-7 Configuring the Baud Rate 4-2 Configuring the DeviceNet Node Address 4-3 Connectors 2-3 Conversion Rat
HI 200DNWM MANUAL I I/O block 1-5 I/O module 1-5 Input power 2-1 Inputs 2-2 Installing the Bare Weigh Module in an Enclosure 3-3 Installing the Pre-stacked Weigh Module 3-9 Installing Weigh Module in DIN Rail 3-5 INSTANCE J J1 J2 J3 N Network Status (DS1) 7-2 Node Icon 6-2, 6-3 Non-C2 Loadcell Cable Connection (J1) 3-13 Non-Linearity 2-1 Non-Volatile RAM 5-1 O Operating Capabilities Outputs 2-2 7-1 7-1 2-3 2-3 2-3 L load cell I&M manual 6-1 Load Sensors 2-1 Load Sharing and Load Sensor Checkout 8-3 Lo
Index The Button 1-4 Three General Rules for Set Points 5- 11 Trunk Line 1-5 U Unpacking 3-1 Unused Wires 3-14 V Vendor Specific Voltage 2-1 2-2 W WAVERSAVER 1-3 Weigh Module 1-2 What is DeviceNet®? 1-4 Wiring Diagram for the HI 215JB Junction Box 3-11 Wiring Diagram for the J2 DeviceNet Interface 5 Pin Open 3-11 Wiring Diagram for the J3 Set Point Out 4 Pin 3-11 Z Zero and Tare commands 1-2 Zero Length Drops 1-6