ICP DAS USA Switch 100 700 PLCS User Manual

DN-3000  
AN INTELLIGENT  
MULTIPLE-FUNCTION COMMUNICATIONS  
INTERFACE UNIT FOR DEVICENET  
User Manual  
ICP PANEL-TEC  
Post Office Box 2394  
Huntsville, Alabama 35804  
(205) 534-8132  
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Warranty & Notices  
WARRANTY  
ICP PANEL-TEC, INC. warrants that all equipment purchased hereunder is warranted on a “RETURN  
TO FACTORY” basis against all defects in workmanship and materials under normal and proper use and  
service in its unmodified condition for a period of one (1) year from the date of initial shipment. ICP  
PANEL-TEC, INC. sole obligation under this warranty shall be limited to furnishing parts and labor to  
remedy such defects; either, at the option of ICP PANEL-TEC, INC., by replacing or repairing any  
defective parts which are returned to ICP PANEL-TEC, INC. factory or by making available at a  
purchaser designated facility a repaired or replaced part. All replaced equipment shall become the  
property of ICP PANEL-TEC, INC. The cost of freight to and from ICP PANEL-TEC, INC. will be  
borne by the purchaser. If ICP PANEL-TEC, INC. determines that the equipment returned to it for  
warranty correction is not defective, as herein defined, Purchaser shall pay ICP PANEL-TEC, INC., all  
costs of service, parts, handling and transportation.  
IMPORTANT NOTICES  
By accepting and using the DN-3000 (s) CONFIGURATION EDITOR SOFTWARE and information  
proprietary to ICP PANEL-TEC, INC. USA and/or its Licensers, you agree that such software and  
information (Software) constitutes valuable trade secrets and proprietary information of ICP PANEL-  
TEC, INC. and/or its Licenses and that you hold the software in confidence and secrecy and shall not, in  
whole or part, copy or disclose to any third party or make any unauthorized use thereof. Authorized use  
shall be limited to the DN-3000 (s) upon which the Software is initially supplied. You further agree that  
this agreement shall insure to the benefit of ICP PANEL-TEC, INC. and any third party holding any  
right, title, or interest in the software, or any software and information from which it is derived, and their  
respective transferees, successors, and assigns, and that any subsequent transferee of the unit herein  
decried shall be obligated to the same terms of this agreement.  
This document is based on information available at the time of its publication. While efforts have been  
made to render accuracy to its content, the information contained herein does not purport to cover all  
details or variations in hardware or software, nor to provide for every possible contingency in connection  
with installation, operation, and maintenance.  
Features may be decried herein which are not present in all hardware and software systems. ICP  
PANEL-TEC, INC. assumes no obligation of notice to holders of this document with respect to changes  
subsequently made.  
ICP PANEL-TEC, INC. makes no representation or warranty expressed, implied, or statutory, with  
respect to, and assumes no responsibility for accuracy, completeness, sufficiency or usefulness of the  
information contained herein.  
In no event shall ICP PANEL-TEC, INC. be responsible or liable for indirect or consequential damages  
that may result from installation or use of this equipment.  
(C) 1997 ICP PANEL-TEC, INC.  
ALL RIGHTS RESERVED  
Post Office Box 2394  
Huntsville, Al. 35804-2394  
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Table of Contents  
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1  
Software Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
Software Start-Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3  
Creating Project Files  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4  
Project Types . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5  
DeviceNet to PLCs or Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
Device Profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
Example Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8  
Configuring Port #1 (DeviceNet) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10  
Configuring Port #2 (PLCs or Devices) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12  
I/O Data Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15  
DeviceNet to Motor Drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23  
Configuring Port #1 (DeviceNet) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26  
Configuring Port #2 (Motor Drives) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28  
I/O Data Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30  
Upper Link Configuration (Mitsubishi Drives Only) . . . . . . . . . . . . . . . . . . . . . . 38  
Exception Table (Mitsubishi Drives Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39  
Options Settings  
Setting the Project Directory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42  
Selecting the Communications Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44  
Setting the Printer Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45  
Technical Information  
DIP Switch Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47  
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48  
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Table of Contents  
Application Notes – PLCs and Devices  
Koyo (PLC Direct and TI) PLCs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51  
Modicon PLCs (and Modbus Devices) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53  
Siemens S7-200 PLCs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54  
Westinghouse PLCs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56  
Application Notes – Motor Drives  
Baldor Motor Drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57  
Mitsubishi Motor Drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59  
Woods Motor Drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59  
Yaskawa Motor Drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59  
Cable Diagrams  
Configuration Cable Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60  
PLC and Device Cable Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61  
Motor Drive Cable Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72  
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Introduction  
INTRODUCTION  
The DN-3000 is an intelligent, multiple-function DeviceNet Data Transfer Unit designed for use within  
the harsh industrial environment.  
Using the DN-3000 Configuration Editor Software program, the DN-3000 can be programmed to run  
either of the two (2) following application types:  
1) DEVICENET TO PLCS OR DEVICES Allows a DeviceNet Host to read or write data registers in  
one or more PLCs or Devices that use the same protocol. One of the DN-3000’s three ports can be  
used as a pass-through port in which all messages received are simply passed through to one of the  
connected PLCs/Devices (if supported for that PLC/Device protocol), allowing PLC programming  
software, a third party’s intelligent (MMI) Man-Machine Interface terminal or a SCADA software  
program to be “connected” to the same port on the PLCs/Devices used by the DN-3000.  
2) DEVICENET TO MOTOR DRIVES Allows a DeviceNet Host to control and/or monitor parameters  
in up to 32 Motor Drives.  
This manual is presented in two sections. Each section deals with the configuration requirements for each  
of the above applications: DeviceNet to PLCs and DeviceNet to Motor Drives.  
Please note that the application type is selected when a new project is created using the DN-3000  
configuration software and may not be changed after the project is created.  
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Software Installation  
GENERAL INFORMATION  
The Panel-Tec DN3000 Configuration Editor Software Program is designed to operate on an IBM or  
compatible computer running MS-DOS 3.3 or higher.  
While the Configuration Editor Software Program will run under “WINDOWS 3.1” in most  
configurations, it is not recommended. As of this date, no problems have been reported running the  
software under “WINDOWS 95”.  
The configuration editor software will default during start-up to using “COMM 1” unless changed using  
the OPTIONS menu. This may conflict with a mouse driver program and prevent up/down loading  
configuration information to the DN-3000 interface unit.  
INSTALLATION  
Place the supplied program disk into drive “A” (or B).  
At the MS-DOS prompt, C:> type in A: (or B:) and then press the “ENTER” key.  
When the “A” (or B) prompt appears, A:> type in “INSTALL” and press the “ENTER” key.  
The following message will appear;  
DN3000 Configuration Editor Installation Program  
Enter the drive where the editor is to be installed ==>  
Enter “C” (or any other hard drive you care to use), then press the “ENTER” key.  
A new message will appear:  
Enter the sub-directory on drive C to install the editor into ==>  
Suggested directory name is: DN3000  
The next message to appear before the installation is started is:  
The Editor will be installed from “A” to “C:\DN3000”  
Is this correct (Y/N) ?  
If the above information is correct, push the “Y” key, then the “ENTER” key and the software will be  
installed. The last message to appear will be:  
Installation Complete.  
Enter “DN3000” to run the configuration Editor  
C:\DN3000>  
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Software Information  
SOFTWARE START-UP  
To start the DN-3000 Configuration Editor program. First start your computer and at the MS-DOS  
prompt; C:> type in “CD\DN3000” (to change the directory) then press the ENTER key. At the next  
MS-DOS prompt; C:\DN3000>, type in “DN3000” and press the ENTER key to start the  
Configuration Editor Software Program.  
Upon starting of the configuration software program, the first screen to appear will be the “Support  
Information Page”, shown below.  
After pressing the computer’s ENTER key, the support information page will disappear. Use the  
computer’s LEFT/RIGHT arrow keys and move the highlighted bar (very top of the screen) between the  
four (4) main system selection headers. To select any one of these main selection headers, place the  
highlight bar around that desired heading and then press the computer’s ENTER key. Below is a brief  
description of the main project header and each internal subheading; NOTE: These brief descriptions  
listed are as the system starts without any projects opened or new projects created.  
Selecting PROJECT opens a menu with the following options:  
OPEN allows you to open any saved project file.  
NEW allows you to create a new project file.  
DOS SHELL allows you to exit to MS-DOS without closing the DN-3000 Configuration Editor  
Program and return to the Configuration Editor Program by typing in EXIT and then pressing the  
ENTER key.  
QUIT allows you to exit the Configuration Editor Program.  
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Creating Project Files  
CREATING A PROJECT FILE  
To create a project file, move the highlighted bar to the “PROJECT” heading and press the computer’s  
ENTER key. When the menu appears move the highlight bar to the “NEW” sub-heading and press  
“PROJECT”  
Menu  
the computer’s ENTER key. At the “Project Name” entry area, type in your file name.  
Enter your  
Project’s  
File Name  
After entering in the project’s file name, press the ENTER key. The highlighted bar now moves to  
“Project Type”. Press ENTER to open the “Project Type” window (default setting is “DeviceNet to  
PLCs or Devices”). Move the highlight bar by pressing the DOWN arrow key to the project type you  
wish to configure and then press the ENTER key. The software enters this selection and returns to the  
“PROJECT” menu.  
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Creating Project Files  
“PROJECT  
TYPE”  
List  
PROJECT TYPES  
DeviceNet to PLCs or Devices allows a DeviceNet Host to read and write registers in up to 32  
PLCs or devices.  
DeviceNet to Motor Drives allows a DeviceNet Host to control and/or monitor up to 32 supported  
Motor Drives.  
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Creating Project Files  
When the system returns to the “PROJECT’ menu, notice the additional sub-headings that were added to  
the “PROJECT” menu and are now available for you to use. A brief description of each of these new  
sub-headings are listed below:  
Additional PROJECT  
Menu Sub-Headings  
CLOSE allows you to close a project file. More than one project file can be open at any time.  
VIEW allows you to view; the project file name, project file type, and the current selections for each  
of the DN-3000’s serial ports.  
SAVE allows you to save the current project file.  
SAVE AS allows to save the current open project file under a different file name.  
SWITCH TO allows you to switch between the opened project files. (Multiple files can be open.)  
PRINT allows you to print the project file’s configuration information.  
GENERATE EDS FILE allows you to generate an EDS file for the current Project. The EDS file is  
used to tell a DeviceNet configuration tool information about the DN-3000 and I/O sizes. If you are  
using a DeviceNet configuration tool to set up your DeviceNet network, you should generate a new  
EDS file for each project.  
Use the RIGHT arrow key to move the highlight bar from the top “PROJECT” header to the top  
“EDIT” header to proceed with editing the configuration information stored in the project file.  
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DeviceNet to PLCs or Devices  
DEVICENET TO PLCS OR DEVICES  
The ”DeviceNet to Motor Drives” application allows a DeviceNet Host device to access data registers in  
up to 32 serial PLCs or Devices via Explicit Messages and/or I/O Data.  
Explicit Messages allows the DeviceNet Host to issue requests to the DN-3000 to read or write specific  
PLC/Device data registers. The DN-3000 converts those requests into serial communications requests in  
the selected serial PLC’s or Device’s protocol.  
I/O Data allows the DN-3000 to exchange a fixed set of PLC/Device data registers between a DeviceNet  
Host and serial PLCs or Devices. The DN-3000 writes Output Data received from the DeviceNet Host to  
fixed PLC/Device data registers (see Output Data Table in this section) in the connected serial PLCs or  
Devices. Input Data is read from fixed PLC/Device data registers in the connected serial PLCs or  
Devices and sent to the DeviceNet Host (see Input Data Table in this section).  
Important Note: The DN-3000 can be used to access only data registers in the selected PLCs or  
Devices. See the Application Notes for the selected PLC/Device for more information.  
DEVICE PROFILE  
The DN-3000 is based on the “PLC/Device Gateway” Device Profile, a vendor-specific extension of the  
“Communications Adapter” Device Profile (described in the “ODVA DeviceNet Specifications”). This  
Device Profile introduces two new vendor-specific Objects: the “PLC/Device Interface Object” and the  
“PLC/Device Command Object”. Documentation on this profile and these objects are available from  
Panel-Tec, Inc.  
The DN-3000 is a Group 2 Only Server utilizing the Predifined Master/Slave Connection Set (as  
described in the (ODVA DeviceNet Specifications”). It supports both Explicit Messaging and Polled,  
Change-of-State (COS) and Cyclic I/O connections to a DeviceNet Host. It does not support Bit-Strobed  
I/O connections.  
To access register data via Explicit Messaging, the DeviceNet Host must issue an explicit Get_Member or  
Set_Member request to the desired “PLC/Device Interface Object” Instance (based on PLC/Device  
Address) of the DN-3000.  
If Polled, COS and/or Cyclic I/O connections are to be used, you must first set up the I/O  
configuration of the DN-3000 with the DN3000 Configuration Editor software. See I/O Data  
Configuration in this section.  
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DeviceNet to PLCs or Devices  
EXAMPLE APPLICATIONS  
DeviceNet Host to Serial PLC with Pass-Through Connection  
Supported PLC or Device  
Programming  
Software  
(if supported)  
2
3
DN-3000  
DeviceNet Host  
DeviceNet Host to Multi-Dropped Serial PLCs  
PLC # 1  
PLC # 2  
PLC # 3  
RS-422/485  
Multi-Drop  
Network  
DeviceNet Host  
2
3
DN-3000  
Up to 32  
PLCs  
may be  
connected  
PLC # 4  
PLC # 5  
PLC # 6  
PLC # 7  
NOTE: Multiple PLCs/Devices can be connected to Port 2 of a DN-3000 if:  
1) All PLCs/Devices use the same protocol.  
2) Each PLC/Device can be internally addressed with a network address.  
3) Each PLC/Device can communicate on a RS-485/422 multi-drop communications network;  
-OR- RS232 to RS485 converters (1 per PLC or Device) are used;  
-OR- a 3rd Party multi-port communications expansion module (Port Expander) is used.  
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DeviceNet to PLCs or Devices  
Multiple DN-3000s with Different PLC or Device Types  
DeviceNet Host  
2 3  
2 3  
2 3  
2 3  
2 3  
DN-3000  
# 1  
DN-3000  
# 2  
DN-3000  
# 3  
DN-3000  
# 4  
DN-3000  
# 5  
PLC # 1  
Brand I  
PLC # 1  
Brand A  
PLC # 1  
Brand M  
PLC # 1  
Brand S  
PLC # 1  
Brand O  
PLC # 2  
Brand A  
PLC # 2  
Brand O  
PLC # 2  
Brand I  
PLC # 3  
Brand I  
RS-422/485 Multiple-Drop Networks  
NOTE:  
1) Each DN-3000 can support up to 32 PLCs/Devices (if they are network addressable internally).  
2) The DeviceNet Host can address a maximum of 63 DN-3000 units.  
3) Multiple Brands of PLCs or Devices may be addressed by the DeviceNet Host by using multiple  
DN-3000s, but only one PLC/Device Protocol may be used on a single DN-3000 unit.  
4) If multiple DN-3000s are to be used, each DN-3000 must be configured with a unique node  
address (MAC ID) on the DeviceNet network.  
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DeviceNet to PLCs or Devices  
CONFIGURING PORT #1, (DEVICENET)  
With the highlight bar around the “PROJECT” header use the RIGHT arrow key and move the highlight  
bar to the “EDIT” header This action will close the “PROJECT” menu and open the “EDIT” menu.  
DeviceNet to  
PLCs or Devices  
EDIT Menu  
Move the highlight bar to the “Port 1 (DeviceNet)” sub-heading and press the ENTER key to open the  
DeviceNet configuration screen.  
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DeviceNet to PLCs or Devices  
MAC ID of DN3000  
The MAC ID of the DN-3000 is its node address on a DeviceNet Network. The MAC ID of a DN-3000  
can range from 0 to 63. Type the desired value in the field and press ENTER.  
Baud Rate  
Baud Rate determines the rate at which the DN-3000 exchanges data on a DeviceNet network. The Baud  
Rate setting must be the same for all devices on the DeviceNet network. The DN-3000 supports baud  
rates of 125, 250 and 500 kbps. The dot between the brackets indicates the current selection. Use the  
UP/DOWN arrow keys and the SPACEBAR to select the desired baud rate.  
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DeviceNet to PLCs or Devices  
CONFIGURING PORT #2 (PLCS OR DEVICES)  
When the highlight bar is around the “Port 2 (PLCs/Devices)” sub-heading, press the ENTER key. This  
opens a window which allows you to select the type of PLCs or devices connected to this port and check  
all of the communication settings.  
PORT # 2  
PLC  
Configuration  
Window  
PLC/Device Protocol  
The window for PORT # 2 Configuration will open with the highlighted bar at the “PLC/DEVICE  
PROTOCOL” selection heading. If the displayed Protocol is not the one wanted, simply press the  
ENTER key and a smaller window will appear.  
PLC/Device  
Protocol  
Selection  
Window  
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DeviceNet to PLCs or Devices  
Use your computer’s UP/DOWN arrow keys to move through the PLC/Device Protocol List. Place the  
highlight bar on the desired Protocol and press the ENTER key. The software will enter this selection  
and automatically close the Protocol selection window. After the selection window closes, you will need  
to check the communications setting for the selected Protocol, making changes as necessary.  
2 Wire RS422 or RS485 Communications  
This box will only need to be checked if the communications with your PLC/Device is a 2-wire RS485 or  
RS422 interface. When 2-wire communications are being used, RTS must be looped back to CTS on the  
DN-3000 side of the cable. This can be done on the RS232 side by looping pins 4 and 5 or on the  
RS422/485 side by looping 16 to 18 and 17 to 19.  
DN3000 Address  
Some PLC/Device protocols require each PLC or Device on a network to be assigned a unique address.  
The DN3000 Address is the address assigned to the DN-3000 on the PLC/Device network.  
Communications Settings  
The communications settings are automatically set to the default values for each type of PLC/Device  
when its Protocol is first selected. Before changing any of these settings, consult your PLC/Device  
manual for the correct settings. To move between the communications settings, press the TAB or  
ENTER keys. To select a setting, use the UP/DOWN arrow key to move to the desired setting and press  
the SPACE BAR to enter or change your selection.  
RTS Control (Request to Send Control)  
RTS Control selection is an option provided for modems or for PLCs/Devices that require RTS to be  
active only while the DN-3000 is transmitting to the PLC. If RTS/CTS is selected, the DN-3000 will  
activate RTS and wait until CTS is active before transmitting to the PLC. If RTS Delay is selected, the  
DN-3000 will activate RTS and wait for the specified delay time to pass before transmitting to the PLC.  
Response Time-Out  
The Response Time-Out tells the DN-3000 how long to wait after transmitting a request to a PLC/Device  
if no response has been received from the PLC/Device. After this amount of time (specified in  
milliseconds) passes with no response being received, the DN-3000 will assume that no response is  
coming and will retry the request.  
To save the configuration for Port #1, press the “Alt+S” keys or the F10 function key once and a small  
window appears stating the information was saved. Press the ENTER key, then the ESC key to return to  
the “EDIT” window.  
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DeviceNet to PLCs or Devices  
CONFIGURING PORT # 3 (PASSTHROUGH)  
Not all PLC/Device protocols allow for the pass-through communications. If your selected Protocol on  
Port 2 is capable of pass-through communications, the “Port 3 (Passthrough)” header within the “EDIT”  
menu will be black (if light gray, the PLC does not support Pass-Through communications). Place the  
Highlight bar around the “Port 3 (Passthrough)” header and press the ENTER key to open this screen.  
(See drawing below)  
A Selected PLC or  
Device Protocol  
that supports  
Pass-Through  
Communications  
For descriptions of all entry fields on this screen except for the Intermessage Time-Out, refer to  
CONFIGURING PORT #2 (PLCs or Devices) in this section.  
Intermessage Time-Out  
The DN-3000 uses the Intermessage Time-Out to determine when a complete message has been received  
on the PassThrough port. Once the first character of a message has been received, if the amount of time  
specified by the Intermessage Time-Out passes with no additional characters being received, the DN-3000  
will consider the message to be complete and process it.  
Check over the communications settings, making corrections as needed, and save this information by  
pressing the letter “S” or the F10 function key(s) once. A small window will appear stating the  
information was saved. Press the ENTER key, then the ESC key to return to the “EDIT” menu.  
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DeviceNet to PLCs or Devices  
I/O DATA CONFIGURATION  
Using the DOWN arrow key, move the highlight bar to the “I/O Data Configuration” sub-heading  
within the EDIT” menu and press the ENTER key. This action opens the I/O Data Configuration setup  
screen to allow you to set up the I/O data parameters for your project. You should have some idea of how  
you want your I/O set up before selecting this option.  
Use I/O Data  
If your project requires the use one or more I/O connections (Polled, Change-Of-State (COS) or Cyclic  
I/O) for data exchange between the DN-3000 and a DeviceNet host, you should select this option by  
pressing the SPACEBAR, ‘X’ or ‘Y’ key on your keyboard. When you select “Use I/O Data”, the other  
available I/O options will appear on the screen.  
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DeviceNet to PLCs or Devices  
The DN-3000 supports up to a total of 64 bytes (32 words) of combined Input and Output data. Each  
word (2 bytes) of Input or Output data can be configured to exchange data with any one valid data register  
in any one of the PLCs/Devices connected to port 2 of the DN-3000 (see “CONFIGURING PORT 2” for  
PLC/Device Protocol and communication parameters).  
Use Command Block  
In some projects it may be necessary to be able to access more than just the 32 PLC/Device registers that  
can be configured in the Input and Output data. A Command Block reserves the first 4 words of Output  
data for commands, and the first 4 words of Input data for command results. This reduces your total  
number of words that can be used for register data to 24 words, but adds flexibility by allowing your  
DeviceNet Host to issue commands to the DN-3000 to access any valid data registers in any PLC or  
Device connected to port 2 of the DN-3000. Commands are issued by moving a command code,  
PLC/Device address, file number (Allen-Bradley PLCs only), register number, and data into the first 4  
words of the Output data (see “COMMAND BLOCK”).  
Use Diagnostics  
Diagnostics allows the DeviceNet Host to monitor PLC/Device connections to the DN-3000. The first  
word of the Input data following the Command Result Block (if any) will be reserved for Diagnostics if  
this option is selected. The DN-3000 keeps track of the connection status with each PLC/Device address  
(0-255). Whenever an attempt to communicate with a PLC/Device is successful, the connection status for  
that PLC/Device is set to ‘0’. Whenever an attempt to communicate with a PLC/Device is unsuccessful,  
the connection status for that PLC/Device is set to ‘1’. Of course, returning 256 status bits would require  
16 words of Input data (half of the available I/O data). Instead, only 16 bits (1 word) of are returned.  
Each of the 16 bits of the Diagnostics word represents the status of 16 PLC/Device addresses, as follows:  
bit 0 represents PLC/Device addresses 0, 16, 32, 48, 64, etc.; bit 1 represents PLC/Device addresses 1, 17,  
33, 49, 65, etc.; and so forth. If the status of any of the PLC/Device addresses represented by a bit is ‘1’,  
that bit will contain a ‘1’, otherwise, that bit will contain a ‘0’. Note that the status of a PLC/Device is set  
to ‘1’ only if the DN-3000 attempts to communicate with that PLC/Device and that attempt is  
unsuccessful.  
Output Data Size  
This determines the number of words of Output data that will be used in your project. Output data is data  
that is output from your DeviceNet Host to the DN-3000 (commands, and register data to be written to  
PLCs/Devices). This is also known as the Consumed I/O Data of the DN-3000. If a Command Block is  
used, it will automatically reserve 4 words of Output data. The combined size of the Input and Output  
data must not exceed 32 words.  
Output Data  
Pressing the Output Data button brings up a window allowing you to edit the configuration of the Output  
data in your project. You can press the Output Data button by clicking on it with your mouse, or moving  
the focus to the button with the arrow keys and pressing the SPACEBAR. See “OUTPUT DATA  
TABLE”.  
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DeviceNet to PLCs or Devices  
Input Data Size  
This determines the number of words of Input data that will be used in your project. Input data is data  
that is input to your DeviceNet Host from the DN-3000 (command results, diagnostics information, and  
register data read from PLCs/Devices). This is also known as the Produced I/O Data of the DN-3000. If  
a Command Block is used, it will automatically reserve 4 words of Input data for command results.  
Similarly, if Diagnostics is used, it will automatically reserve 1 word of Input data. The combined size of  
Input and Output data must not exceed 32 words.  
Input Data  
Pressing the Input Data button brings up a window allowing you to edit the configuration of the Input  
data in your project. You can press the Input Data button by clicking on it with your mouse, or moving  
the focus to the button with the arrow keys and pressing the SPACEBAR. See “INPUT DATA TABLE”.  
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DeviceNet to PLCs or Devices  
OUTPUT DATA TABLE  
Within the “I/O Data Configuration” screen, use the DOWN arrow key to move the focus to the Output  
Data button and press the ENTER key. This action opens the Output Data Table setup screen to allow  
you to set up the PLC/Device registers to be mapped to each word of Output data.  
Output data is data received by the DN-3000 from the DeviceNet Host to be written to PLC/Device  
registers. Each word of Output data (except those reserved for the Command Block) can be mapped to  
specific PLC/Device registers. Output data is only written to registers when that data changes.  
Use the UP/DOWN arrow keys to scroll through the list of Output data words until the highlight bar is  
over the Output word you wish to edit, and press ENTER. A window will open allowing you to edit the  
PLC/Device Address, File Number (Allen-Bradley PLCs only) and Register Number mapped to that  
Output word.  
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DeviceNet to PLCs or Devices  
Use Output Word xx  
If you want to map this word of Output data to a PLC/Device register, select this option. If this option is  
not selected, any data appearing in this Output word will be ignored.  
PLC/Device Address  
This is the Address of the PLC/Device mapped to this word of Output data. The PLC/Device Address  
must be in the range 0 to 255.  
File Number (Allen-Bradley PLCs only)  
This is the File Number of the register in the PLC mapped to this word of Output data.  
Register Number  
This is the Register Number of the PLC/Device mapped to this word of Output data. Whenever the value  
in this Output word changes, the DN-3000 will write that value to the register specified by the  
PLC/Device Address, File Number and Register Number.  
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DeviceNet to PLCs or Devices  
INPUT DATA TABLE  
Within the “I/O Data Configuration” screen, use the DOWN arrow key to move the focus to the Input  
Data button and press the ENTER key. This action opens the Input Data Table setup screen to allow you  
to set up the PLC/Device registers to be mapped to each word of Input data.  
Input data is data read from PLC/Device registers and sent from the DN-3000 to the DeviceNet Host.  
Each word of Input data (except those reserved for the Command Block and Diagnostics) can be mapped  
to specific PLC/Device registers. Mapped registers in the Input Data Table are read from the  
PLCs/Devices and placed in the Input data in a round-robin fashion as quickly as the serial  
communications link allows.  
Use the UP/DOWN arrow keys to scroll through the list of Input data words until the highlight bar is over  
the Input word you wish to edit, and press ENTER. A window will open allowing you to edit the  
PLC/Device Address, File Number (Allen-Bradley PLCs only) and Register Number mapped to that Input  
word.  
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DeviceNet to PLCs or Devices  
Use Input Word xx  
If you want to map this word of Input data to a PLC/Device register, select this option. If this option is  
not selected, the data in this Input word will be set to 0.  
PLC/DeviceAddress  
This is the Address of the PLC/Device mapped to this word of Input data. The PLC/Device Address must  
be in the range 0 to 255.  
File Number (Allen-Bradley PLCs only)  
This is the File Number of the register in the PLC mapped to this word of Input data.  
Register Number  
This is the Register Number in the PLC/Device mapped to this word of Input data. The DN-3000 will  
read the value of the register specified by the PLC/Device Address, File Number (Allen-Bradley PLCs  
only) and Register Number and place that value in this word of the Input data.  
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DeviceNet to PLCs or Devices  
COMMAND BLOCK  
Using I/O data to update and/or monitor motor drive parameters requires very little programming in your  
DeviceNet Host device – the configuration of the DN-3000 specifies which PLC/Device registers are  
mapped to which words of I/O data. However, you can only access a total of 32 registers this way, and  
those registers are fixed when the DN-3000 is configured. If your application requires that you access  
more than 32 registers, you must either use multiple DN-3000s, or use a Command Block.  
A Command Block allows your DeviceNet Host to issue commands at run-time to read or write any valid  
register in any PLC/Device connected to Port 2 of the DN-3000. The Command Block reserves the first 4  
words of Output data for commands issued by the Host, and the first 4 words of Input data for the results  
of those commands (along with any returned data). Commands are issued by moving a PLC/Device  
Address, File Number, Register Number, any required Register Data (for write commands only), and a  
Command code into the Command Block, as follows:  
15 14 13 12 11 10  
9
8
7
6
5
4
3
2
1
0
PLC/Device Address (0-255)  
0
0
0
0
Command  
word 1  
word 2  
word 3  
word 4  
File Number  
Register Number  
Register Data (write command only)  
The DN-3000 looks for changes in the Command Block data to determine when there is a new request to  
be processed, “throwing out” any invalid commands received. Valid Commands are 1 (read) and 2  
(write). To ensure that partial commands are not processed (in systems where it is possible that Output  
data could be sent by the host before all 4 words of data have been moved into the command block), you  
should set the Command to 0 (indicating no command), then place the data in words 2-4, and only set the  
Command to 1 or 2 after all of the other data is in place. After a command has been processed by the DN-  
3000, it will “echo” the command in the Command Result Block in the Input data, and set the Result Code  
and any Returned Register Data, as follows:  
15 14 13 12 11 10  
9
8
7
6
5
4
3
2
1
0
PLC/Device Address  
1
Result Code  
Command  
word 1  
word 2  
word 3  
word 4  
File Number  
Register Number  
Returned Register Data (read command only)  
If a read command (1) was issued, the Returned Register Data will contain the register data read from the  
specified PLC/Device. If a write command (2) was issued, the Returned Register Data will be the same  
as for the issued command. The Result Code indicates the result of processing the issued command.  
Valid Result Codes are as follows:  
Result Code  
Meaning  
0
1
7
Command was completed successfully.  
DN-3000 could not communicate with indicated PLC/Device.  
Command was invalid.  
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DeviceNet to Motor Drives  
DEVICENET TO MOTOR DRIVES  
The ”DeviceNet to Motor Drives” application allows a DeviceNet Host device to access parameters in up  
to 32 serial Motor Drives via Explicit Messages and/or I/O Data.  
Explicit Messages allows the DeviceNet Host to issue requests to the DN-3000 to read or write specific  
Motor Drive parameters. The DN-3000 converts those requests into serial communications requests in  
the selected serial Motor Drive’s protocol.  
I/O Data allows the DN-3000 to exchange a fixed set of Motor Drive parameters between a DeviceNet  
Host and serial Motor Drives. The DN-3000 writes Output Data received from the DeviceNet Host to  
fixed Motor Drive parameters (see Output Data Table in this section) in the connected serial Motor  
Drives. Input Data is read from fixed Motor Drive parameters in the connected serial Motor Drives and  
sent to the DeviceNet Host (see Input Data Table in this section).  
DEVICE PROFILE  
This application of the DN-3000 is based on the “Motor Drive Gateway” Device Profile, a vendor-  
specific extension of the “Communications Adapter” Device Profile (described in the “ODVA  
DeviceNet Specifications”). This Device Profile introduces two new vendor-specific Objects: the  
“Motor Drive Interface Object” and the “Motor Drive Command Object”. Documentation on this  
profile and these objects are available from Panel-Tec, Inc.  
The DN-3000 is a Group 2 Only Server utilizing the Predifined Master/Slave Connection Set (as  
described in the (ODVA DeviceNet Specifications”). It supports both Explicit Messaging and Polled,  
Change-of-State (COS) and Cyclic I/O connections to a DeviceNet Host. It does not support Bit-Strobed  
I/O connections.  
To access Motor Drive Parameter data via Explicit Messaging, the DeviceNet Host must issue an explicit  
Get_Member or Set_Member request to the desired “Motor Drive Interface Object” Instance (based on  
Motor Drive Address) of the DN-3000.  
If Polled, COS and/or Cyclic I/O connections are to be used, you must first set up the I/O  
configuration of the DN-3000 with the DN3000 Configuration Editor software. See I/O  
Configuration in this section.  
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DeviceNet to Motor Drives  
EXAMPLE APPLICATIONS  
DeviceNet Host to Serial Motor Drive  
Supported  
Motor Drive  
DeviceNet Host  
2
3
DN-3000  
DeviceNet Host to Multi-Dropped Serial Motor Drives  
Drive #1  
Drive # 2  
Drive # 3  
RS-422/485  
Multi-Drop  
Network  
DeviceNet Host  
2
3
DN-3000  
Up to 32  
Drives  
may be  
connected  
Drive # 4  
Drive # 5  
Drive # 6  
Drive # 7  
NOTE: Multiple Motor Drives can be connected to Port 2 of a DN-3000 if:  
1) All Motor Drives use the same protocol.  
2) Each Motor Drive can be internally addressed with a network address.  
3) Each Motor Drive can communicate on a RS-485/422 multi-drop communications network;  
-OR- RS232 to RS485 converters (1 per Motor Drive) are used;  
-OR- a 3rd Party multi-port communications expansion module (Port Expander) is used.  
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DeviceNet to Motor Drives  
Multiple DN-3000s with Different Motor Drive Types  
DeviceNet Host  
2 3  
2 3  
2 3  
2 3  
2 3  
DN-3000  
# 1  
DN-3000  
# 2  
DN-3000  
# 3  
DN-3000  
# 4  
DN-3000  
# 5  
Drive # 1  
Brand I  
Drive # 1  
Brand A  
Drive # 1  
Brand M  
Drive # 1  
Brand S  
Drive # 1  
Brand O  
Drive # 2  
Brand A  
Drive # 2  
Brand O  
Drive # 2  
Brand I  
Drive # 3  
Brand I  
RS-422/485 Multiple-Drop Networks  
NOTE:  
1) Each DN-3000 can support up to 32 Motor Drives (if they are network addressable internally).  
2) The DeviceNet Host can address a maximum of 63 DN-3000 units.  
3) Multiple Brands of Motor Drives may be addressed by the DeviceNet Host by using multiple  
DN-3000s, but only one Motor Drive Type may be used on a single DN-3000 unit.  
4) If multiple DN-3000s are to be used, each DN-3000 must be configured with a unique node  
address (MAC ID) on the DeviceNet network.  
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DeviceNet to Motor Drives  
CONFIGURING PORT #1, (DEVICENET)  
With the highlight bar around the “PROJECT” header use the RIGHT arrow key and move the highlight  
bar to the “EDIT” header This action will close the “PROJECT” menu and open the “EDIT” menu.  
DeviceNet to  
Motor Drives  
EDIT Menu  
Move the highlight bar to the “Port 1 (DeviceNet)” sub-heading and press the ENTER key to open the  
DeviceNet configuration screen.  
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DeviceNet to Motor Drives  
MAC ID of DN3000  
The MAC ID of the DN-3000 is its node address on a DeviceNet Network. The MAC ID of a DN-3000  
can range from 0 to 63. Type the desired value in the field and press ENTER.  
Baud Rate  
Baud Rate determines the rate at which the DN-3000 exchanges data on a DeviceNet network. The Baud  
Rate setting must be the same for all devices on the DeviceNet network. The DN-3000 supports baud  
rates of 125, 250 and 500 kbps. The dot between the brackets indicates the current selection. Use the  
UP/DOWN arrow keys and the SPACEBAR to select the desired baud rate.  
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DeviceNet to Motor Drives  
CONFIGURING PORT # 2 (MOTOR DRIVES)  
Using the DOWN arrow key, move the highlight bar to the “Port 2 (Motor Drives)” sub-heading (within  
the EDIT” menu) and press the ENTER key. This action opens the Motor Drive selection screen to  
allow you to select the drive manufacturer and to check all the motor drive’s communications settings.  
Motor Drive Type  
The Port 2 (Motor Drives) Configuration screen will open with the highlight bar at the “MOTOR DRIVE  
TYPE” selection area. Simply press the ENTER key to open the current list of supported motor drives.  
Use your UP/DOWN arrow keys to move through the drive list and place the highlight bar around the  
drive of your choice, then press the ENTER key to enter your selection. The software automatically  
saves your entry and closes the “MOTOR DRIVE SELECTION” window.  
Motor Drive  
Selection  
Window  
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DeviceNet to Motor Drives  
2-Wire RS422 or RS485 Communications  
This box will only need to be checked if the communications with your Motor Drive is a 2-wire RS485 or  
RS422 interface. When 2-wire communications are being used, RTS must be looped back to CTS on the  
DN-3000 side of the cable. This can be done on the RS232 side by looping pins 4 and 5 or on the  
RS422/485 side by looping 16 to 18 and 17 to 19.  
Communications Settings  
The communications settings are automatically set to the default values for each type of Motor Drive  
when the Motor Drive is first selected. Before changing any of these settings, consult your drive manual  
for the correct settings. To move between the communications settings, press the TAB or ENTER keys.  
To select a setting, use the UP/DOWN arrow keys to move to the desired setting and press the SPACE  
BAR to enter or change your selection.  
RTS Control (Request to Send Control)  
RTS Control selection is an option provided for modems or for Motor Drives that require RTS to be  
active only while the DN-3000 is transmitting to the drive. If RTS/CTS is selected, the DN-3000 will  
activate RTS and wait until CTS is active before transmitting to the drive. If RTS Delay is selected, the  
DN-3000 will activate RTS and wait for the specified delay time to pass before transmitting to the drive.  
Response Time-Out  
The Response Time-Out is tells the DN-3000 how long to wait after transmitting a request to the Motor  
Drive if no response has been received from the drive. After this amount of time (specified in  
milliseconds) passes with no response being received, the DN-3000 will assume that no response is  
coming and will retry the request.  
Minimum Delay Between Messages  
The Minimum Delay Between Messages is only needed for Motor Drives that get “confused” when  
consecutive requests are sent too close together. The Mitsubishi Z200 Series of Motor Drives is the only  
currently known drive that requires this delay (set to 60 ms for Mitsubishi Z200 drives).  
Save this information by pressing the Alt+S” or F10 function keys. After the “Information Saved”  
window appears, press the ENTER key, then the ESC key to return to the “EDIT” window.  
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DeviceNet to Motor Drives  
I/O DATA CONFIGURATION  
Using the DOWN arrow key, move the highlight bar to the “I/O Data Configuration” sub-heading  
within the EDIT” menu and press the ENTER key. This action opens the I/O Data Configuration setup  
screen to allow you to set up the I/O data parameters for your project. You should have some idea of how  
you want your I/O set up before selecting this option.  
Use I/O Data  
If your project requires the use of Polled, Change-Of-State (COS) or Cyclic I/O to be exchanged between  
the DN-3000 and a DeviceNet host, you should select this option.  
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DeviceNet to Motor Drives  
The DN-3000 supports up to a total of 64 bytes (32 words) of combined Input and Output data. Each  
word (2 bytes) of Input or Output data can be configured to exchange data with any one valid parameter  
in any one of the motor drives connected to port 2 of the DN-3000 (see “CONFIGURING PORT 2” for  
motor drive type and communication parameters).  
Use Command Block  
In some projects it may be necessary to be able to access more than just the 32 motor drive parameters  
that can be configured in the Input and Output data. A Command Block reserves the first 3 words of  
Output data for commands, and the first 3 words of Input data for command results. This reduces your  
total number of words that can be used for parameter data to 26 words, but adds flexibility by allowing  
your DeviceNet Host to issue commands to the DN-3000 to access any valid parameter in any motor drive  
connected to port 2 of the DN-3000. Commands are issued by moving a command code, motor drive  
address, parameter number, and data into the first 3 words of the Output data (see “COMMAND  
BLOCK”).  
Use Diagnostics  
Diagnostics allows the DeviceNet Host to monitor motor drive connections to the DN-3000. The first  
word of the Input data following the Command Result Block (if any) will be reserved for Diagnostics if  
this option is selected. The DN-3000 keeps track of the connection status with each motor drive address  
(0-255). Whenever an attempt to communicate with a motor drive address is successful, the connection  
status for that address is set to ‘0’. Whenever an attempt to communicate with a motor drive address is  
unsuccessful, the connection status for that address is set to ‘1’. Of course, returning 256 status bits  
would require 16 words of Input data (half of the available I/O data). Instead, only 16 bits (1 word) of are  
returned. Each of the 16 bits of the Diagnostics word represents the status of 16 motor drive addresses, as  
follows: bit 0 represents motor drive addresses 0, 16, 32, 48, 64, etc.; bit 1 represents motor drive  
addresses 1, 17, 33, 49, 65, etc.; and so forth. If the status of any of the motor drive addresses represented  
by a bit is ‘1’, that bit will contain a ‘1’, otherwise, that bit will contain a ‘0’. Note that the status of a  
motor drive address is set to ‘1’ only if the DN-3000 attempts to communicate with that motor drive  
address and that attempt is unsuccessful.  
Output Data Size  
This determines the number of words of Output data that will be used in your project. Output data is data  
that is output from your DeviceNet Host to the DN-3000 (commands, and parameter data to be written to  
motor drives). This is also known as the Consumed I/O Data of the DN-3000. If a Command Block is  
used, it will automatically reserve 3 words of Output data. The combined size of the Input and Output  
data must not exceed 32 words.  
Output Data  
Pressing the Output Data button brings up a window allowing you to edit the configuration of the Output  
data in your project. You can press the Output Data button by clicking on it with your mouse, or moving  
the focus to the button with the arrow keys and pressing the SPACEBAR. See “OUTPUT DATA  
TABLE CONFIGURATION”.  
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DeviceNet to Motor Drives  
Input Data Size  
This determines the number of words of Input data that will be used in your project. Input data is data  
that is input to your DeviceNet Host from the DN-3000 (command results, diagnostics information, and  
parameter data read from motor drives). This is also known as the Produced I/O Data of the DN-3000. If  
a Command Block is used, it will automatically reserve 3 words of Input data for command results.  
Similarly, if Diagnostics is used, it will automatically reserve 1 word of Input data. The combined size of  
Input and Output data must not exceed 32 words.  
Input Data  
Pressing the Input Data button brings up a window allowing you to edit the configuration of the Input  
data in your project. You can press the Input Data button by clicking on it with your mouse, or moving  
the focus to the button with the arrow keys and pressing the SPACEBAR. See “INPUT DATA TABLE  
CONFIGURATION”.  
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DeviceNet to Motor Drives  
OUTPUT DATA TABLE  
Within the “I/O Data Configuration” screen, use the DOWN arrow key to move the focus to the Output  
Data button and press the ENTER key. This action opens the Output Data Table setup screen to allow  
you to set up the motor drive parameters to be mapped to each word of Output data.  
Output data is data received by the DN-3000 from the DeviceNet Host to be written to motor drive  
parameters. Each word of Output data (except those reserved for the Command Block) can be mapped to  
specific motor drive parameters. Output data is only written to motor drive parameters when that data  
changes.  
Use the UP/DOWN arrow keys to scroll through the list of Output data words until the highlight bar is  
over the Output word you wish to edit, and press ENTER. A window will open allowing you to edit the  
Motor Drive Address and Parameter Number mapped to that Output word.  
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DeviceNet to Motor Drives  
Use Output Word xx  
If you want to map this word of Output data to a motor drive parameter, select this option. If this option  
is not selected, any data appearing in this Output word will be ignored.  
Motor Drive Address  
This is the Address of the Motor Drive mapped to this word of Output data. The Motor Drive Address  
must be in the range 0 to 255.  
Parameter Number  
This is the Parameter Number of the Motor Drive mapped to this word of Output data. Whenever the  
value in this Output word changes, the DN-3000 will write that value to the motor drive parameter  
specified by the Motor Drive Address and Parameter Number.  
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DeviceNet to Motor Drives  
INPUT DATA TABLE  
Within the “I/O Data Configuration” screen, use the DOWN arrow key to move the focus to the Input  
Data button and press the ENTER key. This action opens the Input Data Table setup screen to allow you  
to set up the motor drive parameters to be mapped to each word of Input data.  
Input data is data read from motor drive parameters and sent from the DN-3000 to the DeviceNet Host.  
Each word of Input data (except those reserved for the Command Block and Diagnostics) can be mapped  
to specific motor drive parameters. Mapped motor drive parameters in the Input Data Table are read from  
the motor drives and placed in the Input data in a round-robin fashion as quickly as the motor drives’  
serial communications link allows.  
Use the UP/DOWN arrow keys to scroll through the list of Input data words until the highlight bar is over  
the Input word you wish to edit, and press ENTER. A window will open allowing you to edit the Motor  
Drive Address and Parameter Number mapped to that Input word.  
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DeviceNet to Motor Drives  
Use Input Word xx  
If you want to map this word of Input data to a motor drive parameter, select this option. If this option is  
not selected, the data in this Input word will be set to 0.  
Motor Drive Address  
This is the Address of the Motor Drive mapped to this word of Input data. The Motor Drive Address  
must be in the range 0 to 255.  
Parameter Number  
This is the Parameter Number of the Motor Drive mapped to this word of Input data. The DN-3000 will  
read the value of the motor drive parameter specified by the Motor Drive Address and Parameter Number  
and place that value in this word of the Input data.  
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DeviceNet to Motor Drives  
COMMAND BLOCK  
Using I/O data to update and/or monitor motor drive parameters requires very little programming in your  
DeviceNet Host device – the configuration of the DN-3000 specifies which motor drive parameters are  
mapped to which words of I/O data. However, you can only access a total of 32 motor drive parameters  
this way, and those parameters are fixed when the DN-3000 is configured. If your application requires  
that you access more than 32 motor drive parameters, you must either use multiple DN-3000s, or use a  
Command Block.  
A Command Block allows your DeviceNet Host to issue commands at run-time to read or write any valid  
parameter of any motor drive connected to Port 2 of the DN-3000. The Command Block reserves the first  
3 words of Output data for commands issued by the Host, and the first 3 words of Input data for the  
results of those commands (along with any returned data). Commands are issued by moving a Motor  
Drive Address, Parameter Number, any required Parameter Data (for write commands only), and a  
Command code into the Command Block, as follows:  
15 14 13 12 11 10  
9
8
7
6
5
4
3
2
1
0
Motor Drive Address (0-255)  
0
0
0
0
Command  
word 1  
word 2  
word 3  
Parameter Number  
Parameter Data (write command only)  
The DN-3000 looks for changes in the Command Block data to determine when there is a new request to  
be processed, “throwing out” any invalid commands received. Valid Commands are 1 (read) and 2  
(write). To ensure that partial commands are not processed (in systems where it is possible that Output  
data could be sent by the host before all 4 words of data have been moved into the command block), you  
should set the Command to 0 (indicating no command), then place the data in words 2-3, and only set the  
Command to 1 or 2 after all of the other data is in place. After a command has been processed by the DN-  
3000, it will “echo” the command in the Command Result Block in the Input data, and set the Result Code  
and any Returned Parameter Data, as follows:  
15 14 13 12 11 10  
9
8
7
6
5
4
3
2
1
0
Motor Drive Address (0-255)  
1
Result Code  
Command  
word 1  
word 2  
word 3  
Parameter Number  
Returned Parameter Data (read command only)  
If a read command (1) was issued, the Returned Parameter Data will contain the parameter data read  
from the specified Motor Drive. If a write command (2) was issued, the Returned Parameter Data will be  
the same as for the issued command. The Result Code indicates the result of processing the issued  
command. Valid Result Codes are as follows:  
Result Code  
Meaning  
0
1
2-6  
7
Command was completed successfully.  
DN-3000 could not communicate with indicated motor drive.  
Drive specific error code (see “Application Notes” for motor drive).  
Command was invalid.  
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DeviceNet to Motor Drives  
UPPER LINK CONFIGURATION (Mitsubishi Drives Only)  
The “Upper Link Configuration” screen is only used with Mitsubishi Drives. To open this screen, place  
the highlighted bar around the “Upper Link Table” sub-heading (within the “EDIT” menu) and press the  
ENTER key. The Upper Link Table is used to select which drive or drives support Upper Parameter  
Numbers. If a particular drive supports upper parameters, it must be set in this table to insure proper  
communications with the motor drive.  
To enable the Upper Link for any drive, use the computer’s arrow KEYS to move the highlighted  
brackets to the desired drive number and press the SPACE BAR. This places an “X” between the  
brackets. The Upper Link Activity time-out is used by the DN-3000 to ensure the state of the link setting  
in the drive when it has not had any communications with the drive for a certain period of time.  
Mitsubishi’s  
Upper Link  
Configuration  
Window  
Numbers  
represent  
the drive  
addresses  
Operation of the Link Switch  
When the parameter number 128 or higher is being accessed, the DN-3000 will automatically set the link  
switch to Upper Parameters if not already set. When parameter number 127 or lower is being accessed,  
the DN-3000 will automatically set the link switch to Lower Parameters if not already set. If the Upper  
Link Activity time-out value is reached without any communications activity to a particular drive, the  
DN-3000 will consider the state of the link switch for that drive to be indeterminate and will set the upper  
link switch to the appropriate setting for the next parameter that is being accessed regardless of what the  
previous setting was.  
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DeviceNet to Motor Drives  
EXCEPTION TABLE (Mitsubishi Drives Only)  
There are some parameters within Mitsubishi Drives that must be written to the drive as 2-byte ASCII  
numbers instead of the usual 4-byte ASCII numbers. These parameter numbers need to be entered for  
each drive that requires these “exceptions” to the usual 4-byte ASCII format. A total of eight (8)  
exceptions may be entered for each drive.  
To enter the exception numbers, move the highlight bar (while in the “EDIT” menu) to the  
“EXCEPTION TABLE” sub-heading and press the ENTER key. The “EXCEPTION TABLE” screen  
will open with the highlight bar at motor drive zero (0).  
List of  
Exceptions for  
each Motor  
Drive  
Parameter  
Exception  
Entry Area  
To enter exceptions, press the ENTER, TAB or RIGHT arrow key(s) to move into the Exception Entry  
Area. Press the SPACE BAR and a “X” will be placed between the brackets of the first exception area  
and a small shaded area will appear to allow entry of the parameter number. Press the DOWN arrow key  
and the system will move to the next exception entry area. Repeat all the steps until all exceptions for this  
drive have been entered, then move the highlight to the “SAVE” button and then press the ENTER key.  
After the “Information Saved” screen appears, press the ESC key and the highlight returns to the  
“Drive/Exception List”. Press the DOWN arrow key once and the highlighted bar will move to the  
second drive in the list. Repeat all the steps to enter exceptions for each drive and then save this  
information.  
NOTE: If all the drives are to have the same exceptions, move the highlight to the “SETALL”  
button and press the ENTER key. This will allow you to enter the exceptions that will be set for all  
32 drives.  
Your next step is to transfer this created project file into the DN-3000. Refer to the section  
TRANSFERRING PROJECT FILES.”  
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Transferring Project Files  
TRANSFERRING PROJECT FILES  
From the “TRANSFER” menu you will be able to:  
1) Transfer (Download) a completed project file to the DN-3000  
2) Upload a project file from the DN-3000  
3) Compare a loaded project file within the DN-3000 to a stored project file within the computer.  
4) Check the current application within the DN-3000  
Use the computer’s RIGHT arrow key to move the highlight bar to the top “TRANSFER” heading and  
press the ENTER key to open the “TRANSFER” menu.  
TRANSFER  
Menu  
Move the highlight bar (DOWN arrow key) to the operation you wish to perform and press the ENTER  
key to begin this function. A message screen will appear as you start the transfer operation and will  
always appear as a warning screen for any of the four transferring operations:  
“Connect Configuration Cable from PC to DN3000, Port 3.”  
“Change DN3000 DIP switch to position 3 ON, and the rest OFF.”  
Next, check to see the following has been completed before you transfer any files:  
1) Power is applied to the DN-3000 unit.  
2) The configuration cable is connected between the computer serial port and port 3 of the DN-3000  
unit. (for cable pin-out information see Application Notes.)  
3) DIP switch number 3 is in the ON position and the rest of the switches are in the OFF position.  
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Transferring Project Files  
Communication  
“Startup”  
Screen  
TRANSFER OPTIONS  
Download Project to DN3000  
Allows you to transfer (download) any created project file from the PC to the DN-3000.  
Upload Project from DN3000  
Allows you to transfer (upload) the project file stored in the DN-3000 to the PC. The computer will  
upload the project file under the name “NONAME.” You must save this uploaded project file using the  
“SAVE AS” command from the “PROJECT” window and enter your own file name.  
Verify  
This feature allows you to verify a project file within your computer against the current project file stored  
in the DN-3000 unit. After completing the verification process, if the project files are the same, a  
message will appear stating “Data Verified OK”. If the files are different, a message will be displayed  
stating which part of the project files are different.  
Check Application in DN3000  
This is allows you to check what type of project file is loaded (DeviceNet to PLC, DeviceNet to Motor  
Drives) and which protocols have been loaded for each of the communication ports.  
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Options Settings  
OPTIONS SETTINGS  
Use the LEFT/RIGHT arrow keys to highlight the top “OPTIONS” heading and press the ENTER key.  
This will open the OPTIONS” menu. From within the “OPTIONS” menu you can change the directory  
where project files are stored, select the PC communications port to use, and set up your printer.  
Any changes you make will only be effective while you are operating within this software. When you  
close the configuration software, all settings for the project directory, communications port and will  
return to the default, unless you save the new options to Disk.  
OPTIONS  
Menu  
SET DIRECTORY  
All saved project files will be stored in the selected “PROJECT DIRECTORY”. Changing the directory  
setting is not usually required unless you wish to group “like” project types in one directory and other  
“like” project types in another directory.  
ADDING A DIRECTORY  
Before you save your project file, use the UP/DOWN arrow keys to move the highlight bar to the “Set  
Directory” sub-heading, press the ENTER key and a directory selection screen (see next page) will  
appear.  
The computer’s cursor will automatically appear at the “Directory Name.” Type in your new directory  
path and press the ENTER key. A small window will appear with the following message, “Directory  
does not exist, Make the directory?” Pressing the ENTER key creates the new directory and returns you  
to the “OPTIONS” menu.  
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Options Settings  
NOTE: Each time you start the “DN-3000 Configuration Software Program” it defaults (unless you  
saved the directory information to disk - see “Save Options to Disk”) to the “Projects” sub-directory  
allowing you to open only those files saved within this sub-directory. To access project files saved in a  
different directory, you will need to use the “Set Directory” screen. Only the current directory and sub-  
directory will be shown. To view all sub-directories, move the highlight bar into the graphic directory  
area. Place the highlight bar on the configuration software’s main directory (example: DN-3000) and  
press the ENTER key. All sub-directories within this main directory will appear. Move the highlight bar  
to the sub-directory desired and press the ENTER key. To enter this change and return to the  
“OPTIONS” menu, tab to the OK box and press ENTER or press the ALT+K keys.  
Current  
Directory  
Path  
Directory  
Graphic  
Area  
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Options Settings  
SET COM PORT  
To change the communications port (default setting = COM 1) setting, move the highlight bar to the “Set  
Com Port” sub-heading and press the ENTER key. When the “Set Communications Port” screen  
appears, use the LEFT/RIGHT arrow keys to highlight the communications port desired and then press  
the SPACE BAR to enter this new selection. Press the ALT+S (save this entry) and then the ESC key to  
return to the “OPTIONS” window.  
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Options Settings  
SET PRINTER OPTIONS  
To change the printer port (default = LPT 1) setting, move the highlight bar to the “Setup Printer” sub-  
heading and press the ENTER key. When the “Setup Printer” screen appears (see following page), use  
the arrow keys to highlight the “LPTx” or “FILE” setting as required and press the SPACE BAR to  
enter your selection. To print to a file, enter the drive\directory\file name and press the ALT+S keys  
(saves this entry) and then the ESC key to return to the “OPTIONS” menu.  
Print File  
Setup  
Window  
LOAD OPTIONS FROM DISK  
The “Load Options from Disk” option will retrieve the options settings that were last saved to disk using  
“Save Options to Disk”.  
SAVE OPTIONS TO DISK  
The “Save Options to Disk” option will save all currently selected options settings to disk. The next time  
the configuration software is loaded, these options will automatically be loaded from disk during startup.  
DEFAULT OPTIONS  
The “Default Options” option is a quick way to reset all option settings to the original configuration  
software default settings for directory, communications port and printer options.  
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Technical Information  
POWER REQUIREMENTS  
9 - 28 VDC , 7 WATT with optional Earth Ground. A 9 VDC power supply (Part # 4000-0203) is  
available from Panel-Tec.  
PHYSICAL DIMENSIONS  
5.6”  
5.54”  
.95”  
3.64”  
.95”  
1.9”  
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Technical Information  
DIP SWITCH SETTINGS  
OPERATING MODE  
Normal  
Switch # 1  
Off  
Switch # 2  
Off  
Switch # 3  
Off  
Switch # 4  
Off  
Off  
ON  
Off  
ON  
Off  
Off  
Configuration  
Diagnostic  
ON  
Off  
VISUAL (LED) INDICATORS  
The DN3000 has 5 tri-color LEDs: 2 Communication Port LEDs (Ports 2 and 3), a Status LED and 2  
DeviceNet LEDs (Module Status and Network Status). The Module Status and Network Status LEDs are  
located on the side of the DN-3000, with the Network Status LED closest to the DeviceNet Port. The  
LEDs change color and go from a steady glow to flashing depending on the current operating mode. The  
following tables describe the LED indications in the three operating modes: Normal, Configuration and  
Diagnostic.  
NORMAL MODE:  
LED  
COLOR  
Green  
MEANING  
Transmitting Data  
Receiving Data  
Communication Port LEDs  
Red  
Green  
Red  
Off  
DeviceNet Initialized/Ok  
DeviceNet Error  
No Power  
Status LED  
Flashing Green  
Green  
Flashing Red  
Red  
Device in Standby  
Device Operational  
Minor Fault  
Unrecoverable Fault  
Device Self Testing  
Module Status LED  
Flashing Red-Green  
Off  
Not Powered/Not Online  
Online, Not Connected  
Link OK, Online, Connected  
One or more I/O Connections are in  
the Timed-Out state  
Flashing Green  
Green  
Network Status LED  
Flashing Red  
Critical Link Failure (Duplicate  
Mac ID or Bus-off)  
Red  
Flashing Red-Green  
Device Self Testing  
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Technical Information  
CONFIGURATION MODE:  
LED  
COLOR  
MEANING  
Communication Port # 3  
LED  
Flashing Red-Green  
Flashing Green  
Communicating with Computer  
Configuration Mode  
Status LED  
DIAGNOSTIC MODE:  
LED  
COLOR  
MEANING  
Flashing Green  
Flashing Red or  
Yellow  
Port is Operational  
Port not Operational or Loopback  
Connector not Installed  
Communication Port LEDs  
Status LED  
Flashing Red  
Diagnostics Mode  
DN-3000 TROUBLESHOOTING INFORMATION  
The DN-3000 performs a self-test each time the unit is powered up or when the Mode Selection DIP  
Switch is changed. When it detects a failure, it will report the type of failure on the Status LED. All  
failures are reported as a flash code in which the DN-3000 will flash its Status LED yellow a designated  
number of times followed by a pause. The flash code will repeat itself until the unit is powered off. The  
possible errors that can be reported and the recommended actions are:  
2 flashes followed by a pause  
Random Access Memory Failure (RAM Failure)  
Send the unit in for repair (Obtain RMA number first).  
3 flashes followed by a pause  
Firmware stored in ROM failed checksum test (ROM Failure)  
Send the unit in for repair (Obtain RMA number first).  
4 flashes followed by a pause  
Unit Not Configured or EEPROM failure  
If transferring your project file to the DN-3000 does not correct this error, send the unit in for  
repair (Obtain RMA number first).  
5 flashes followed by a pause  
Invalid DIP Switch Setting  
Verify that the DIP Switch is properly set to a valid operating mode (See DIP Switch Settings  
in this section). If the DIP Switch is properly set, send the unit in for repair (Obtain RMA  
number first).  
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Application Notes – PLCs and Devices  
ALLEN-BRADLEY PLC 5, SLC500 AND MICROLOGIX PLCS  
Registers Accessed  
The DN-3000 will only access registers in Integer files in the PLC memory (N file types). When  
specifying register numbers in the DN-3000 Configuration Software, the file number is entered into the  
File Number field and the element number within the file is entered into the Register Number field.  
Protocols Supported  
The DN-3000 uses the DF1 protocol, which is also known as Full Duplex or Point to Point. It supports  
both the CRC and BCC methods of error checking.  
Please note that the MicroLogix PLC only supports the CRC method of error checking. Therefore, when  
using a MicroLogix PLC, the protocol selected on the port configuration screen in the DN-3000  
Configuration Editor must be “AB SLC500 (CRC)”.  
GE FANUC 90/20, 90/30 AND 90/70 PLCS  
Registers Accessed  
The DN-3000 will only access registers in the Data Register Area of PLC memory (%R1 to %R9999).  
When entering register numbers, only the offset into this area (1-9999) should be entered. For example,  
to access register number %R1, the value 1 should be entered. To access register number %R9999, the  
value 9999 should be entered.  
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Application Notes – PLCs and Devices  
IDEC MICRO-3 PLCS  
Registers Accessed  
The DN-3000 will only access registers in the Data Register Area of PLC memory (D0 to D9999). When  
entering register numbers, only the offset into this area (0-9999) should be entered. For example, to  
access register number D1, the value 1 should be entered. To access register number D9999, the value  
9999 should be entered.  
Link Adapter Requirement  
The DN-3000 requires an Idec Link Adapter or equivalent to be used when communicating with any of  
the FA Series PLCs.  
IDEC FA SERIES PLCS  
Registers Accessed  
The DN-3000 will only access registers in the Data Register Area of PLC memory (D0 to D9999). When  
entering register numbers, only the offset into this area (0-9999) should be entered. For example, to  
access register number D1, the value 1 should be entered. To access register number D9999, the value  
9999 should be entered.  
Link Adapter Requirement  
The DN-3000 requires an Idec Link Adapter or equivalent to be used when communicating with any of  
the FA Series PLCs.  
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Application Notes – PLCs and Devices  
KOYO / PLC DIRECT 205 SERIES PLCS  
Registers Accessed  
The DN-3000 can access all register types in the 205 Series PLC through the use of the V-Memory  
assignments shown in the following table:  
V-Memory Address  
V00000 – V00177  
V01000 – V01177  
V02000 – V03777  
V04000 – V04377  
V40400 – V40423  
V40500 – V40523  
V40600 – V40617  
V41000 – V41037  
V41100 – V41107  
V41140 – V41147  
PLC Registers Accessed  
Timer T0 – T177 Current Values  
Counter CT0 – CT177 Current Values  
Data Words V2000 – V3777  
Non-Volatile Data Words V4000 – V4377  
Input Points X0 – X477 (16 per V-Memory word)  
Output Points Y0 – Y477 (16 per V-Memory word)  
Control Relays C0 – C377 (16 per V-Memory word)  
Stages S0 – S777 (16 per V-Memory word)  
Timer T0 – T177 Status Bits (16 per V-Memory word)  
Counter CT0 – CT177 Status Bits (16 per V-Memory word)  
Important Note: The V-Memory word numbers in the above table are shown in octal. These numbers  
must be converted to decimal before they are entered into the DN-3000 Configuration Software. For  
example, if the DN-3000 is to access register V02000, the value 2000 in octal corresponds to the value  
1024 in decimal. The value 1024 is then entered into the DN-3000 Configuration Software.  
KOYO / PLC DIRECT / TI 405 SERIES PLCS  
Registers Accessed  
The DN-3000 can access all register types in the 405 Series PLC through the use of the V-Memory  
assignments shown in the following table:  
V-Memory Address  
V00000 – V00377  
V01000 – V01177  
V01400 – V07377  
V10000 – V17777  
V40000 – V40077  
V40400 – V40423  
V40500 – V40523  
V40600 – V40677  
V41000 – V41077  
V41100 – V41117  
V41140 – V41147  
PLC Registers Accessed  
Timer T0 – T377 Current Values  
Counter CT0 – CT177 Current Values  
Data Words V1400 – V7377  
Data Words V10000 – V17777  
Remote I/O GX0 – GX1777 (16 per V-Memory word)  
Input Points X0 – X477 (16 per V-Memory word)  
Output Points Y0 – Y477 (16 per V-Memory word)  
Control Relays C0 – C1777 (16 per V-Memory word)  
Stages S0 – S1777 (16 per V-Memory word)  
Timer T0 – T377 Status Bits (16 per V-Memory word)  
Counter CT0 – CT177 Status Bits (16 per V-Memory word)  
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Application Notes – PLCs and Devices  
Important Note: The V-Memory word numbers in the above table are shown in octal. These numbers  
must be converted to decimal before they are entered into the DN-3000 Configuration Software. For  
example, if the DN-3000 is to access register V02000, the value 2000 in octal corresponds to the value  
1024 in decimal. The value 1024 is then entered into the DN-3000 Configuration Software.  
KOYO / PLC DIRECT / TI 305 SERIES PLCS  
Registers Accessed  
The DN-3000 will only access registers in the Data Area of PLC memory (R400–R577 and R700–R777)  
which are 8-bit registers. Because the DN-3000 will only read and write 16-bit values, it will use two  
consecutive 8-bit registers in the 305 Series PLCs to form a 16-bit value. The first of these consecutive  
registers must be located on an even boundary (i.e. R400, R402, etc.). The low order byte of the 16-bit  
value is located in the lowest numbered register and the high order byte is located in the highest  
numbered register.  
When entering register numbers into the DN-3000 Configuration Software, they must be converted from  
octal to decimal. For example, if the DN-3000 is to access register R400 (and R401), the value 400 in  
octal is converted to the value 256 in decimal. This value of 256 is then entered into the DN-3000  
Configuration Software.  
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Application Notes – PLCs and Devices  
MITSUBISHI FX SERIES PLCS  
Registers Accessed  
The DN-3000 will only access registers in the Data Register Area of PLC memory (D0 to D9999). When  
entering register numbers, only the offset into this area (0-9999) should be entered. For example, to  
access register number D1, the value 1 should be entered. To access register number D9999, the value  
9999 should be entered.  
RTS Control  
The Mitsubishi FX-32 and equivalent PLCs require RTS to be active when sending to the PLC and  
inactive when receiving from the PLC. The DN-3000 can be configured to do so by performing the  
following steps when configuring the PLC Port in the DN-3000 Configuration Software:  
1) Select “RTS Delay” in the RTS Control selection box  
2) Set the RTS Delay time to 2 ms  
MODICON PLCS AND MODBUS DEVICES  
Registers Accessed  
The DN-3000 will only access registers in the Holding Area of PLC memory (40001 to 49999). When  
entering register numbers, only the offset into this area (1-9999) should be entered. For example, to  
access register number 40001, the value 1 should be entered. To access register number 49999, the value  
9999 should be entered.  
OMRON PLCS  
Registers Accessed  
The DN-3000 will only access registers in the Data Area of PLC memory (DM0 to DM9999). When  
entering register numbers, only the offset into this area (0-9999) should be entered. For example, to  
access register number DM1, the value 1 should be entered. To access register number DM9999, the  
value 9999 should be entered.  
PLCs / Protocols Supported  
The DN-3000 will communicate with any Omron PLC that uses the Host Link Protocol. On many PLCs,  
this requires the use of a Host Link Module.  
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Application Notes – PLCs and Devices  
SIEMENS S7-200 PLCS  
Registers Accessed  
The DN-3000 will only access registers in the V-Memory area of PLC memory (VB0 to VB9999) which  
are 8-bit registers. Because the DN-3000 will only read and write 16-bit values, it will use two  
consecutive 8-bit registers in Siemens S7 PLCs to form a 16-bit value. The first of these consecutive  
registers must be located on an even boundary (i.e. VB0, VB2, etc.). The low order byte of the 16-bit  
value is located in the lowest numbered register and the high order byte is located in the highest  
numbered register. These registers can also be accessed in the PLC program or in Charts as 16-bit  
registers VW0, VW2, VW4, etc.  
When entering register numbers, only the offset into the V-Memory area (0-9998) should be entered. For  
example, to access register number VW0 (VB0 and VB1), the value 0 should be entered. To access  
register number VW9998 (VB9998 and VB9999), the value 9998 should be entered.  
Protocol Information  
The DN-3000 follows the Point-to-Point (PPI) protocol specification for token passing masters used with  
Siemens S7-200 PLCs. It will operate on a PPI network along with other masters.  
The fully implemented, multi-master version of the PPI protocol is very slow because of the token  
passing, Therefore a unique feature has been implemented on the DN-3000 which allows it to run as a  
single master with no token passing. This feature can only be used when no other masters are present on  
the PPI network. To activate this feature, enter the value 125 into the DN-3000 Address field on the PLC  
Port configuration screen in the DN-3000 Configuration Software. Whenever the DN-3000 Address  
(address which it resides at on the PPI network) is set to 125, it will act as a single master.  
Pass-Through Port  
For Siemens S7-200 PLCs, there is an additional advantage to the “Pass-Through” port of the DN-3000.  
It allows a non-token passing master such as a personal computer running Micro/DOS to have access to a  
multiple-master token passing network without the requirement for an MPI card in the personal computer.  
This feature can only be used when the DN-3000 Address is not set to 125 (see above).  
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Application Notes – PLCs and Devices  
SQUARE D MODEL 100-700 PLCS  
Registers Accessed  
The DN-3000 will only access registers in the Data Area of PLC memory (S0 to S9999). When entering  
register numbers, only the offset into this area (0-9999) should be entered. For example, to access  
register number S10, the value 10 should be entered. To access register number S999, the value 999  
should be entered.  
SQUARE D TSX07 PLCS  
Registers Accessed  
The DN-3000 will only access registers in the Memory Word Area of PLC memory (%MW0 to  
%MW999). When entering register numbers, only the offset into this area (0-999) should be entered. For  
example, to access register number %MW0, the value 0 should be entered. To access register number  
%MW999, the value 999 should be entered.  
TI505 SERIES PLCS  
Registers Accessed  
The DN-3000 will only access registers in the V Area of PLC memory (V1 to V9999). When entering  
register numbers, only the offset into this area (1-9999) should be entered. For example, to access  
register number V1, the value 1 should be entered. To access register number V9999, the value 9999  
should be entered.  
Passthrough Port Note  
When using TISOFT PLC programming software on the passthrough port (Port 3) of the DN-3000, the  
software must be invoked with the following parameters:  
p1 T0 0 (for PC COM Port 1) OR  
p2 T0 0 (for PC COM Port 2)  
For example, if you are using a 545 PLC and you are using COM2 on your PC, you would invoke  
TISOFT as follows:  
TI545 p2 T0 0  
These parameters will prevent the programming software from switching over to the Transparent Byte  
Protocol, which is not supported by the DN-3000.  
55  
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Application Notes – PLCs and Devices  
TOSHIBA EX AND M SERIES PLCS  
Registers Accessed  
The DN-3000 will only access registers in the Data Register of PLC memory (D0 to D9999). When  
entering register numbers, only the offset into this area (0-9999) should be entered. For example, to  
access register number D0, the value 0 should be entered. To access register number D9999, the value  
9999 should be entered.  
Protocols Supported  
The DN-3000 will only communicate with Toshiba EX and M Series PLCs using the Binary Computer  
Link protocol.  
TOSHIBA T SERIES PLCS  
Registers Accessed  
The DN-3000 will only access registers in the Data Register of PLC memory (D0 to D9999). When  
entering register numbers, only the offset into this area (0-9999) should be entered. For example, to  
access register number D0, the value 0 should be entered. To access register number D9999, the value  
9999 should be entered.  
Protocols Supported  
The DN-3000 will only communicate with Toshiba T Series PLCs using the ASCII Computer Link  
protocol.  
WESTINGHOUSE PLCS  
Registers Accessed  
The DN-3000 will only access registers in the Holding Register of PLC memory (HR1 to HR9999).  
When entering register numbers, only the offset into this area (1-9999) should be entered. For example,  
to access register number HR1, the value 1 should be entered. To access register number HR9999, the  
value 9999 should be entered.  
56  
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Application Notes – Motor Drives  
BALDOR MOTOR DRIVES  
Drive Parameter Numbers Assigned By Panel-Tec  
ASCII  
COMMAND  
COMMAND  
DESCRIPTION  
READ OR  
WRITE  
PARAMETER NUMBERS  
P
IO  
IO  
IO  
IO  
O
O
O
O
O
O
O
O
O
V
T
SC  
W
Z
Parameter Command  
IO Status (J1 or J4)  
IO Status (J1 or J4)  
IO Status (J1 or J4)  
IO Status (J1 or J4)  
Report  
Read/Write  
Read Only  
Read Only  
Read Only  
Read Only  
Read Only  
Read Only  
Read Only  
Read Only  
Read Only  
Read Only  
Read Only  
Read Only  
Read Only  
Read/Write  
Read/Write  
Write Only  
Write Only  
Write Only  
Write Only  
Read/Write  
Read/Write  
Read/Write  
Read/Write  
Read/Write  
Write Only  
Write Only  
Read Only  
1000-6999 from Baldor Manual  
7001 for Terminal Pin 1 Status  
7002 for Terminal Pin 2 Status  
7032 for Terminal Pin 32 Status  
7101 for RPM Value  
7102 for Hz Present Value  
7103 for Motor V(rms)  
7104 for Motor A(rms)  
7105 for % Rated Load  
7106 for Analog Input  
7107 for Opto-Outputs (0-15)  
7108 for Abs Pos from 0 (Low)  
7109 for Abs Pos from 0 (High)  
8000  
Report  
Report  
Report  
Report  
Report  
Report  
Report  
Report  
Velocity  
Torque  
Security Code  
Position to Zero  
Set Cursor Pos. to Zero  
Home  
8001  
8101  
8501  
8502  
H
8503  
M
M
m
m
v
Absolute Move  
Absolute Move  
Incremental Move  
Incremental Move  
Positioning Speed  
Calculate  
8504 (Low Order)  
8505 (High Order)  
8506 (Low Order)  
8507 (High Order)  
8508  
CALC  
AU  
ST  
8600  
Auto-Tune  
8601-8609 (for AUI-AU9)  
9000  
Status  
E
D
S
F
C
Enable  
Disable  
Stop  
Write Only  
Write Only  
Write Only  
Read Only  
Write Only  
9001  
9002  
9003  
9101  
9102  
Return Fault Code  
Clear Fault  
Note: Parameters 1001-2999 are found in the Baldor Drive Installation & Operating Manual. Parameters  
3000-6999 are reserved for additions. Parameters 7000-9999 are assigned by Panel-Tec as shown above.  
57  
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Application Notes – Motor Drives  
Drive Addresses Assigned By Panel-Tec  
Drive Number 255 is used to address all motor drives present on a 485 or 422 communications link. This  
drive address can only be used when writing a parameter or value to the motor drives. This allows for  
motor drives to be multi-dropped together and a command such as a new velocity to be sent to all drives  
at the exact same time.  
Note: When using Drive Number 255, the same value is sent to all drives as a single Global Broadcast  
command. Therefore, the number of drives (if using the Command Block or Transfer Table) or  
the number of registers (if using a Modbus Master) must be set to 1.  
Drive Specific Completion Codes (Bits 6 thru 4 of the Result Word)  
2 = The DN-3000 obtained an invalid response from drive  
Configuring A Baldor Drive For Serial Communications  
Before a Baldor Motor Drive can be used for serial communications with the DN-3000, the following  
steps must be performed:  
1) The Serial Communication Expansion Board must be installed and configured correctly.  
2) The DN-3000 must be configured with the same communication options selected on the  
Dip Switches of the Serial Communication Expansion Board.  
3) Pins 8, 9, 10, and 17 of Terminal Strip J1 on the Baldor drive must all be jumpered together.  
4) Using the Baldor keypad, go to the INPUT block title, select OPERATING MODE and  
change the mode to SERIAL. Press the DISP key and the text SERIAL should appear on  
the display.  
58  
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Application Notes – Motor Drives  
MITSUBISHI MOTOR DRIVES  
Drive Specific Completion Codes (Bits 6 thru 4 of Result Word)  
2 = Drive Returned a Mode Error  
3 = Drive Returned an Instruction Code Error  
4 = Drive Returned a Data Range Error  
5 = Drive Returned a Communications Error or DN-3000 encountered a Communications Error.  
6 = Drive Returned an Error Code other than those designated above  
WOODS MOTOR DRIVES  
Drive Specific Completion Codes (Bits 6 thru 4 of Result Word)  
5 = The DN-3000 encountered a communications error when receiving the response from the drive.  
Configuring A Woods Drive For Serial Communications  
1) Parameter number 21 must be set to the value of 16, 17, or 18 and parameter number 22 must be set to  
the value of 3 to be able to control the drive (inverter) with the Woods SIO option.  
2) Any parameter may be read from the drive (inverter) at any time during operation.  
3) Parameter numbers that are less than 30 with the exception of 21 may be written any time during  
operation.  
4) Parameter numbers 30 and above can only be written while the drive (inverter) is in the program  
mode. To place the drive into the program mode, when the motor is stopped, write the value of 4 to  
parameter number 22. When all desired parameters have been changed, the drive should be taken out  
of the program mode by writing the value of 3 to parameter number 22.  
YASKAWA MOTOR DRIVES  
“G5” Drive Specific Completion Codes (Bits 6 thru 4 of Result Word)  
5 = The DN-3000 encountered a communications error when receiving the response from the drive  
(Inverter).  
59  
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Cable Diagrams  
DN3000 Configuration Cable  
(or Pass-Through Port Cable)  
Computer  
DB9 Female  
DN3000  
DB25 Male  
PART # 7000-RS232  
TXD 03 ------------------------------ 03 RXD  
RXD 02 ------------------------------ 02 TXD  
CABLE TYPE  
GND 05 ------------------------------ 07 GND  
4 Conductor Round  
RTS 07  
CTS 08  
DCD 01  
DTR 04  
DSR 06  
Computer  
DN3000  
DB25 Female  
DB25 Male  
PART # 7000-RS25  
TXD 02 ------------------------------ 03 RXD  
RXD 03 ------------------------------ 02 TXD  
CABLE TYPE  
GND 07 ------------------------------ 07 GND  
4 Conductor Round  
RTS 04  
CTS 05  
DCD 08  
DTR 20  
DSR 06  
60  
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Cable Diagrams  
Allen Bradley  
PLC5  
DB25 Male  
DN3000  
DB25 Male  
PLC MODEL  
PLC5 Channel 0  
RXD 03 ------------------------------ 02 TXD  
TXD 02 ------------------------------ 03 RXD  
GND 07 ------------------------------ 07 GND  
RTS 04  
PART # 7000-6004  
CABLE TYPE  
CTS 05  
3 or 4 Conductor Round  
SLC500  
DN3000  
PLC MODEL - SLC5/03 & 04 DB9 Female  
DB25 Male  
PART # 7000-6002  
CABLE TYPE  
RXD 02 ------------------------------ 02 TXD  
TXD 03 ------------------------------ 03 RXD  
GND05 ------------------------------ 07 GND  
4 Conductor Round  
8
7
6
5
4
3
2
1
Solder End  
MicroLogix  
DN3000  
PLC MODEL - MicroLogix  
PART # 7000-6003  
Mini Din  
DB25 Male  
RXD 04 ------------------------------ 02 TXD  
TXD 07 ------------------------------ 03 RXD  
GND 02 ------------------------------ 07 GND  
CABLE TYPE  
4 Conductor Round  
61  
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Cable Diagrams  
GE Fanuc 90/20, 30, 70  
GE Fanuc  
DN3000  
PLC MODEL  
90/20,30,70  
DB15 Male  
DB25 Male  
RDB 11 ------------------------------ 23 TX+  
PART # 7000-6016  
SDB13 ------------------------------ 24 RX+  
RDA 10 ------------------------------ 21 TX-  
CABLE TYPE  
SDA12 ------------------------------ 22 RX-  
4 Conductor Round  
06  
15  
08  
14  
62  
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Cable Diagrams  
IDEC  
8
7
6
5
4
3
2
1
Solder End  
MICRO-3  
DN3000  
PLC MODEL - Micro-3  
PART # 7000-6022  
Mini Din  
DB25 Male  
D+ 01 ------------------------------ 23 TX+  
24 RX+  
D - 02 ------------------------------21 TX-  
CABLE TYPE  
22 RX -  
04 RTS  
05 CTS  
3 Conductor Round  
PLC MODEL  
FA Series  
DN3000  
FA with Link Adapter  
PART # 7000-6023  
CABLE TYPE  
DB25 Male  
DB25 Male  
RXD 03 ------------------------------ 02 TXD  
TXD 02 ------------------------------ 03 RXD  
GND07 ------------------------------ 07 GND  
4 Conductor Round  
63  
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Cable Diagrams  
Koyo/PLC Direct  
Clip  
6 5 4 3 2 1  
View From Back Side  
KOYO 205  
DN3000  
DB25 Male  
RJ11  
PART # 7000-6031  
TXD 04 ------------------------------ 03 RXD  
RXD 03 ------------------------------ 02 TXD  
GND 01 ------------------------------ 07 GND  
CABLE TYPE  
Round Phone Cable  
Clip  
4 3 2 1  
View From Back Side  
KOYO 305  
DN3000  
RJ04  
DB25 Male  
PART # 7000-6032  
CABLE TYPE  
TXD 02 ------------------------------ 03 RXD  
RXD 01 ------------------------------ 02 TXD  
GND 04 ------------------------------ 07 GND  
Round Phone Cable  
KOYO 405  
DN3000  
DB15 Male  
DB25 Male  
01  
07  
08  
PART # 7000-6033  
TXD  
02 ------------------------------ 03 RXD  
CABLE TYPE  
RXD 03 ------------------------------ 02 TXD  
4 Conductor Round  
GND 04 ------------------------------ 07 GND  
13  
14  
15  
64  
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Cable Diagrams  
Mitsubishi FX Series  
MITSUBISHI  
DN3000  
PLC MODEL - FX  
PART # 7000-6061  
CABLE TYPE  
DB25 Male  
DB25 Male  
RX+ 02 ------------------------------ 23 TX+  
TX+ 03 ------------------------------ 24 RX+  
CTS+ 04 ------------------------------ 18 RTS+  
RX- 15 ------------------------------ 21 TX-  
TX-  
16 ------------------------------ 22 RX-  
CTS- 17 ------------------------------ 19 RTS-  
6 Conductor Round  
20  
21  
8
7
6
5
4
3
2
1
Solder End  
MITSUBISHI  
DN3000  
PLC MODEL - FXo/FXon  
PART # 7000-6062  
Mini Din  
DB25 Male  
RX+ 02 ------------------------------ 23 TX+  
TX+ 07 ------------------------------ 24 RX+  
RX - 01 ------------------------------ 21 TX -  
TX - 04 ------------------------------ 22 RX -  
CABLE TYPE  
6 Conductor Round  
65  
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Cable Diagrams  
Modicon  
Clip  
8 7 6 5 4 3 2 1  
View from Back  
MODICON  
DN3000  
PLC MODEL  
RJ-45  
DB25 Male  
Micro 984  
CTS 02 ------------ Orange ------ 04 RTS  
TXD 03 ------------ Black --------- 03 RXD  
RXD 04 ------------ Red ----------- 02 TXD  
GND 05 ------------ Green -------- 07 GND  
06 ------------ Yellow --------11  
PART # 7000-6037  
CABLE TYPE  
Flat Phone Cable  
07 ------------ Brown -------- 12  
CGND08 ------------ Gray ---------- 01 CGND  
MODICON  
DN3000  
PLC MODEL  
DB9 Male  
DB25 Male  
984 / Compact 984  
TXD 03 ------------------------------ 03 RXD  
PART # 7000-6038  
RXD 02 ------------------------------ 02 TXD  
GND 05 ------------------------------ 07 GND  
CABLE TYPE  
07  
08  
04  
06  
3 Conductor Round  
66  
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Cable Diagrams  
Omron  
HOST LINK  
DB25 Male  
DN3000  
DB25 Male  
PLC MODEL  
232 Host Link  
PART # 7000-6043  
CABLE TYPE  
TXD  
RXD  
GND  
RTS  
CTS  
02 ------------------------------ 03 RXD  
03 ------------------------------ 02 TXD  
07 ------------------------------ 07 GND  
04  
05  
4 Conductor Round  
CQM1  
DB9 Male  
TXD 02 ------------------------------ 03 RXD  
RXD 03 ------------------------------ 02 TXD  
GND 09 ------------------------------ 07 GND  
DN3000  
DB25 Male  
PLC MODEL  
CQM1  
PART # 7000-6042  
CABLE TYPE  
4 Conductor Round  
C28H  
DN3000  
PLC MODEL  
C28H  
PART # 7000-6041  
DB9 Male  
DB25 Male  
TXD 02 ------------------------------ 03 RXD  
RXD 03 ------------------------------ 02 TXD  
GND 07 ------------------------------ 07 GND  
CABLE TYPE  
4 Conductor Round  
67  
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Cable Diagrams  
Siemens S7  
PLC/Drive  
DB9 Male  
DN3000  
DB25 Male  
PART # 7000-6045  
D+ 03 ------------------------------ 23 TX+  
24 RX+  
D - 08 ------------------------------ 21 TX -  
22 RX -  
CABLE TYPE  
3 or 4 Conductor Round  
04 RTS  
05 CTS  
GND 05 ------------------------------ 07 GND  
Note: To connect additional PLC’s, daisy-chain Pin 3 of each PLC together and  
daisy-chain Pin 8 of each PLC together before connecting both signals to the  
DN3000.  
S7 PLC  
S7 PLC  
DN3000  
DB9 Male  
DB9 Male  
DB25 Male  
03 ------------------------------ 03 ------------------------------ 23 TX+  
24 RX+  
08 ------------------------------ 08 ------------------------------ 21 TX -  
22 RX -  
04 RTS  
05 CTS  
05 ------------------------------ 05 ------------------------------ 07 GND  
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Cable Diagrams  
Square D  
Square D  
DB9 Male  
DN3000  
DB25 Male  
PLC MODEL  
Models 100-700  
RX+ 04 ------------------------------ 23 TX+  
TX+ 02 ------------------------------ 24 RX+  
RX- 03 ------------------------------ 21 TX-  
PART # 7000-6052  
CABLE TYPE  
TX-  
01 ------------------------------ 22 RX-  
4 Conductor Round  
8
7
4
6
5
3
2
1
Solder End  
TSX07  
DN3000  
PLC MODEL - TSX07  
PART # 7000-6054  
Mini Din  
DB25 Male  
D+ 01 ------------------------------ 23 TX+  
24 RX+  
D - 02 ------------------------------21 TX-  
CABLE TYPE  
22 RX-  
04 RTS  
05 CTS  
3 or 4 Conductor Round  
69  
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Cable Diagrams  
Simatic TI5 Series  
TI5 232 Port  
DN3000  
PLC MODEL  
DB9 Female  
DB25 Male  
TI5 232 Port  
TXD 03 ------------------------------ 03 RXD  
RXD 02 ------------------------------ 02 TXD  
PART # 7000-6047  
GND 05 ------------------------------ 07 GND  
RTS 07  
CTS 08  
DCD 01  
DTR 04  
DSR 06  
CABLE TYPE  
4 Conductor Round  
TI5 422 Port  
DN3000  
PLC MODEL  
DB9 Male  
DB25 Male  
TI5 422 Port  
TX + 01 ------------------------------ 24 RX+  
TX - 07 ------------------------------ 22 RX -  
RX + 05 ------------------------------ 23 TX +  
RX - 08 ------------------------------ 21 TX -  
GND 06 ------------------------------ 07 GND  
PART # 7000-6048  
CABLE TYPE  
6 Conductor Round  
70  
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Cable Diagrams  
Toshiba  
Toshiba  
DN3000  
PLC MODEL  
EX & M Series  
Stripped Wires  
DB25 Male  
RXA ----------------------------------- 23 TX+  
PART # 7000-6056  
CABLE TYPE  
TXA ----------------------------------- 24 RX+  
RXB ----------------------------------- 21 TX-  
TXB ----------------------------------- 22 RX-  
4 Conductor Round  
Toshiba  
DB15  
DN3000  
DB25 Male  
PLC MODEL  
T Series (Computer Link)  
RXA 02 --------------------------------------- 23 TX+  
TXA 03 --------------------------------------- 24 RX+  
PART # 7000-6057  
RXB 10 --------------------------------------- 21 TX-  
TXB 11 --------------------------------------- 22 RX-  
CABLE TYPE  
RTSA 05  
CTSA 04  
RTSB 13  
CTSB 12  
4 Conductor Round  
71  
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Cable Diagrams  
Baldor Motor Drives  
BALDOR  
DN3000  
DRIVE TYPE - 485  
PART # 7000-9002  
Stripped Wires  
DB25 Male  
RXB ------------------------------ 23 TX+  
24 RX+  
RXA ------------------------------ 21 TX-  
22 RX -  
CABLE TYPE  
3 or 4 Conductor Round  
GND ------------------------------- 07 GND  
04 RTS  
05 CTS  
DRIVE TYPE- 232  
BALDOR  
DB9 Female  
DN3000  
DB25 Male  
PART # 7000-9001  
CABLE TYPE  
RXD 02 ------------------------------ 02 TXD  
TXD 03 ------------------------------ 03 RXD  
GND 05 ------------------------------ 07 GND  
3 or 4 Conductor Round  
72  
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Cable Diagrams  
Mitsubishi Motor Drives  
Mitsubishi  
DN3000  
Stripped Wires  
DB25 Male  
PART # 7000-9003  
RDIA ----------------------------------- 23 TX+  
SDIA ----------------------------------- 24 RX+  
RDIB ----------------------------------- 21 TX-  
SDIB ----------------------------------- 22 RX-  
CABLE TYPE  
4 Conductor Round  
73  
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Cable Diagrams  
Woods Motor Drives  
WOODS  
DN3000  
Stripped Wires  
DB25 Male  
SIO+ ------------------------------- 23 TX+  
PART # 7000-9004  
24 RX+  
SIO - ------------------------------- 21 TX-  
CABLE TYPE  
22 RX -  
04 RTS  
05 CTS  
3 Conductor Round  
74  
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Cable Diagrams  
Yaskawa Motor Drives  
G5  
DN3000  
DRIVE MODEL  
Stripped Wires  
DB25 Male  
G5 Series  
1 (+) ---------------------------------- 23 TX+  
24 RX+  
PART # 7000-9005  
2 (-) ---------------------------------- 21 TX-  
22 RX-  
04 RTS  
05 CTS  
CABLE TYPE  
2, 3 or 4 Conductor Round  
75  
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Cable Diagrams  
DeviceNet Cable  
DeviceNet  
DN3000  
Stripped Wires  
DB9 Male  
Black ---------------------------------- 3 V-  
Blue ---------------------------------- 2 CAN_L  
Bare ---------------------------------- 5 Shield  
White ----------------------------- 7 CAN_H  
Red ----------------------------- 9 V+  
PART # 7800-0001  
CABLE TYPE  
2-twisted pair (blue/white, black/red) w/shield and bare drain wire  
The DeviceNet Bus must be powered externally (via a Power Tap). No bus power is provided  
by the DN3000.  
76  
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