Schneider Electric Network Router 174 CEV User Guide

174 CEV 200 30  
Modicon TSX Momentum  
Modbus Plus to Ethernet Bridge  
User Guide  
890 USE 151 00  
03/98  
Breite: 185 mm  
Höhe: 230 mm  
Breite: 178 mm  
Höhe: 216 mm  
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Contents  
Contents  
Modbus Plus to Ethernet Bridge  
174 CEV 200 30 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
1
1.1  
1.2  
1.3  
Introducing the Ethernet to Modbus Plus Bridge . . . . . . . . . . . . . . . . . . . . . . . .  
Bridge Message Transactions and Paths . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2
4
6
Installing the Bridge Hardware . . . . . . . . . . . . . . . . . . . . . . . . .  
9
2.1  
2.2  
2.3  
2.4  
2.5  
2.6  
2.7  
2.7.1  
2.7.2  
2.8  
2.8.1  
2.8.2  
2.9  
Overview: Hardware Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Setting the Modbus Plus Node Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Setting the Ethernet Connector Jumper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Mounting the Bridge Hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Connecting the Network and Power Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
CE Installation Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Verifying the Network Communication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Ethernet Card Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Modbus Plus Card Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Factory Default Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Ethernet Card Defaults . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Modbus Plus Card Defaults . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Periodic Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
10  
12  
14  
16  
18  
20  
21  
21  
21  
22  
22  
23  
24  
Configuring the Bridge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25  
3.1  
3.1.1  
3.1.2  
3.1.3  
3.1.4  
3.2  
3.2.1  
3.2.2  
3.3  
Files Supplied With the Bridge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Files Resident in the Bridge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Host Software Disk (31000017) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Files Generated or Modified by the Bridge . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
The Software Startup Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Overview: Software Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Setting the Ethernet Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Setting the Modbus Plus and TCP/IP Address Mapping . . . . . . . . . . . . . . . . .  
Configuration With a BOOTP Server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Configuration With the CFGUTIL Utility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Starting CFGUTIL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Navigating the CFGUTIL Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Required Configuration Fields . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Additional Configuration Fields . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Address Mapping Table Fields . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
26  
26  
26  
27  
27  
28  
28  
28  
29  
30  
30  
30  
31  
31  
31  
3.4  
3.4.1  
3.4.2  
3.4.3  
3.4.4  
3.4.5  
890--USE--151--00  
i
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Breite: 178 mm  
Contents  
3.4.6  
3.5  
3.5.1  
3.5.2  
3.5.3  
3.5.4  
3.6  
3.6.1  
3.6.2  
3.6.3  
3.7  
Saving the Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
How Mapping Works: TCP/IP to Modbus Plus . . . . . . . . . . . . . . . . . . . . . . . . .  
Destination Indexes 1 ... 249: Mapped Routing . . . . . . . . . . . . . . . . . . . . . . . .  
Destination Indexes 0 and 254: Dynamic Message Routing . . . . . . . . . . . . .  
Destination Index 255: Bridge Internal Command . . . . . . . . . . . . . . . . . . . . . .  
Reserved Destination Indexes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Setting the Mapping: TCP/IP to Modbus Plus . . . . . . . . . . . . . . . . . . . . . . . . . .  
MB+ Mapping Table Layout and Default Entries . . . . . . . . . . . . . . . . . . . . . . . .  
Entry Example: MB+ Mapping Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Saving the Mapping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
How Mapping Works: Modbus Plus to TCP/IP . . . . . . . . . . . . . . . . . . . . . . . . .  
Setting the Mapping: Modbus Plus to TCP/IP . . . . . . . . . . . . . . . . . . . . . . . . . .  
TCP Mapping Table Layout and Default Entries . . . . . . . . . . . . . . . . . . . . . . . .  
Entry Example: TCP Mapping Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Saving the Mapping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Dynamic Routing of Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Setting Up the Bridge for Dynamic Routing . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Using Dynamic Routing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Clearing the Bridge’s Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
31  
32  
32  
33  
33  
33  
34  
34  
35  
35  
36  
38  
38  
39  
39  
40  
40  
41  
42  
3.8  
3.8.1  
3.8.2  
3.8.3  
3.9  
3.9.1  
3.9.2  
3.10  
Using the Bridge Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43  
4.1  
4.1.1  
4.1.2  
4.2  
4.2.1  
4.2.2  
Bridge Software Contents: SW--MBPE--000 . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Bridge Software Disk (31000020) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Host Software Disk (31000017) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Using the Software in Custom Configurations . . . . . . . . . . . . . . . . . . . . . . . . . .  
Minimum Requirements for Custom Bridge Configurations . . . . . . . . . . . . . . .  
Setting Up a Custom Bridge Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
44  
44  
44  
45  
45  
45  
Uploading and Downloading Files . . . . . . . . . . . . . . . . . . . . . 47  
5.1  
5.1.1  
5.2  
5.2.1  
5.2.2  
5.2.3  
5.3  
5.3.1  
5.3.2  
5.3.3  
Configuring an HTTP Server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Configuration Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Uploading Files to a Host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Upload Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Initiating an Upload . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Upload Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Downloading Files to the Bridge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Download Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Initiating a Download . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Download Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
48  
48  
50  
50  
50  
51  
52  
52  
52  
53  
ii  
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Contents  
Diagnostic Tools . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55  
6.1  
6.1.1  
6.1.2  
6.1.3  
6.2  
6.2.1  
6.3  
6.4  
6.5  
6.5.1  
6.5.2  
6.6  
6.6.1  
6.6.2  
6.6.3  
6.7  
Diagnostics Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Logging the Bridge’s Activity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Ethernet Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Modbus Plus Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Logging the Bridge’s Activity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Notes for Logging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
TCPINFO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
BDRESET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
PING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Starting PING at the Bridge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Starting PING at the Host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
MBPSTAT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Starting MBPSTAT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Selecting the Network to be Analyzed . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Network Selection Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Your MBPSTAT Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Option 1: Set Routing Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Option 2: Monitor Network Activity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Option 3: Read Global Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Option 4: Global Data Present Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Option 5: Node Active Station Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Option 6: Node Error Statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Option 7: Token Station Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Option 8: Token Owner Work Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Option 9: Current Internal Path Transactions . . . . . . . . . . . . . . . . . . . . . . . . . .  
Option 10: Node Personality . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
56  
56  
56  
57  
58  
59  
60  
60  
61  
61  
61  
62  
62  
62  
62  
64  
65  
66  
67  
68  
69  
70  
71  
72  
73  
74  
6.8  
6.9  
6.10  
6.11  
6.12  
6.13  
6.14  
6.15  
6.16  
6.17  
Message Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75  
7.1  
7.2  
MSTR Example: TCP/IP Node . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
MSTR Example: Modbus Plus Node . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
76  
77  
NCB Return Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79  
8.1  
Network Control Block (NCB) Return Codes . . . . . . . . . . . . . . . . . . . . . . . . . . .  
80  
Glossary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81  
890--USE--151--00  
iii  
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Breite: 178 mm  
Modbus Plus to Ethernet Bridge  
174 CEV 200 30  
1
H
H
H
Introducing the Ethernet to Modbus Plus Bridge  
Bridge Message Transactions and Paths  
Specifications  
1
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Modbus Plus to Ethernet Bridge  
1.1  
Introducing the Ethernet to Modbus Plus Bridge  
The Modicon Ethernet to Modbus Plus Bridge provides a transparent multipath  
connection between Ethernet host applications and the Modbus Plus industrial  
network. The bridge functions as an addressable node on each network,  
managing the Ethernet and Modbus Plus protocols and translating messages  
between the network applications in both directions.  
Ethernet hosts can establish connections to the bridge and send messages  
intended for Modbus Plus nodes. The bridge accepts the messages, creates  
internal paths for the Modbus Plus transactions, waits for the Modbus Plus token  
frame, and forwards the messages to the destination nodes. It receives the data  
responses from the Modbus Plus nodes, returns them to the Ethernet hosts, and  
closes the paths.  
Messages sent to the bridge on either Ethernet or Modbus Plus contain an  
embedded Modbus message, consisting of a function code and additional  
information such as register addresses and data. The bridge uses the Modbus  
function code to determine the type of internal path required for the transaction,  
and opens a path if one is available. If a path is not available, a Modbus error  
code (exception code) is returned by the bridge to the requesting node.  
The bridge provides Modbus Data Master, Data Slave, Program Master, and  
Program Slave paths as defined by the Modbus function codes in the messages.  
It supports up to eight concurrent Data paths and eight concurrent Program paths.  
The bridge supports full five--byte Modbus Plus routing, enabling transactions  
through Modicon BP85 Modbus Plus bridges to Modbus Plus nodes on up to three  
networks beyond the Ethernet bridge.  
Note that Modbus Plus Global Data or Peer Cop messages are not supported  
because those types of messages are passed as part of the Modbus Plus token  
frame. The token frame is passed among nodes on the local Modbus Plus  
network, but is not passed through any bridge devices to other networks.  
Figure 1 illustrates a typical bridge connection.  
2
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Modbus Plus to Ethernet Bridge  
Figure 1 Bridge Overview  
Ethernet  
TCP/IP  
Interface  
BRIDGE  
8 Data Paths  
8 Program Paths  
Modbus Plus  
Interface  
Modbus Plus  
BP85  
Modbus Plus  
Bridge  
Additional  
Modbus Plus  
Networks  
The bridge maintains two internal mapping tables that provide address mapping  
between IP addresses (255.255.255.255) and Modbus Plus path addresses  
(64.64.64.64.64). The user can define the mapping at a local keyboard and  
monitor connection, using a configuration utility that is stored in the bridge.  
Mapping tables can also be downloaded by HTTP from the Ethernet host to the  
bridge. If neither method is used, the bridge provides default mapping tables.  
The user can assign the bridge’s IP address through a BOOTP server using the  
bridge’s MAC address, or locally by means of the bridge’s configuration utility.  
The bridge’s Modbus Plus address is assigned in hardware switches on the  
bridge’s Modbus Plus card.  
The bridge is supplied with brackets for mounting on a vertical panel or horizontal  
shelf. Its rear panel has connectors for the networks and for operating power, and  
LED indicators for the power, Ethernet and Modbus Plus communication status.  
3
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Modbus Plus to Ethernet Bridge  
1.2  
Bridge Message Transactions and Paths  
Two types of messages can be initiated to Modbus Plus nodes using Modbus  
commands. Programming messages are used for logging into a node and  
controlling it, as in load/record/verify operations. Data access messages are used  
to read or write data at the node, or to get statistics from the node.  
When a message transaction is initiated, a logical path is established between the  
originating node and destination node. The path is maintained until the transaction  
is completed. The type of path that is set in each device is determined by the  
Modbus command embedded in the message.  
Table 1 summarizes the four possible types of Modbus Plus paths. The bridge  
supports up to eight paths of each type.  
Table 1 Modbus Plus Path Types  
Path Type  
Opened in Node  
Originator  
Destination  
Originator  
Opened for Modbus Command  
Data access  
Data access  
Programming  
Programming  
Data Master (DM)  
Data Slave (DS)  
Program Master (PM)  
Program Slave (PS)  
Destination  
The maximum amount of concurrent TCP/IP connections available in the bridge is  
between 8 and 16, depending on the usage of paths in host applications.  
For example, up to 16 data connections can be active between TCP/IP hosts and  
Modbus Plus nodes (a maximum of 8 active DM paths and 8 active DS paths). Up  
to 16 programming paths can be active (8 PM and 8 PS).  
If Modsoft software is being used, it sets both a PM and a DM path in the bridge  
for each active connection it maintains to a Modbus Plus destination node.  
Modsoft could be running on a single host, or simultaneously on multiple hosts.  
Thus up to eight TCP/IP connections can be maintained with Modsoft running on  
one to eight hosts.  
Table 2 summarizes the Modbus function codes which open DM and DS paths in  
the respective nodes. For complete information about Modbus commands, see  
the Modbus Protocol Reference Guide, publication PI--MBUS--300.  
4
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Modbus Plus to Ethernet Bridge  
Table 2 Summary of Modbus Data Access Commands  
Function Code (Decimal)  
Command Name  
1
2
3
4
5
6
7
Read Discrete Output Status (0xxxx)  
Read Discrete Input Status (1xxxx)  
Read Output Register (4xxxx)  
Read Input Register (3xxxx)  
Force Single Coil (0xxxx)  
Preset Single Register (4xxxx)  
Read Exception Status  
8
Subfunction 21  
Get/Clear Network Statistics  
Force Multiple Coils (0xxxx)  
Preset Multiple Registers (4xxxx)  
Report Slave ID  
15  
16  
17  
Devices which use the Modbus protocol accept incoming requests for data or  
statistics. They reply by returning either a normal or an exception response.  
The Modbus function code in the request from an originating node always contains  
a most significant bit value of 0 (zero). In a normal Modbus response, the function  
code of the originating request is echoed, followed by any requested data or  
statistics. In an exception response, the most significant bit is set to 1 (one) to  
indicate an error, and the next byte contains an exception code showing the  
reason for the error.  
Table 3 summarizes the Modbus exception codes which may be returned by the  
bridge to the originating node. For further information see the Modbus Protocol  
Reference Guide, publication PI--MBUS--300.  
Table 3 Summary of Modbus Exception Codes  
Exception Code (Hexadecimal)  
Meaning  
01  
02  
03  
04  
05  
06  
07  
08  
09  
0A  
Illegal function  
Illegal data address  
Illegal data value  
Unexpected failure during command execution  
ACK ---- Requested operation is in progress  
BUSY ---- Not ready to perform requested operation  
NAK ---- Requested operation rejected  
Could not open Modbus Plus path  
Error during Modbus Plus send  
Error during Modbus Plus reply  
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Modbus Plus to Ethernet Bridge  
1.3  
Specifications  
Table 4 Power  
Input  
Tolerance  
Current  
110 V ac (--15% +10%) 47--63 Hz  
94--121 V ac  
Inrush 15 A at 115 V ac  
Operating 1 A nominal  
220 V ac (--15% +10%) 47--63 Hz  
187--242 V ac  
30 A at 230 V ac  
Operating 1 A nominal  
The bridge automatically senses the power voltage. There is no user--configured  
setup other than ensuring the input voltage is within the specified range.  
Table 5 Immunity  
Parameter  
Reference  
EN 55011  
EN 55011  
EN 50140  
IEC 1000--4--3  
Component  
Enclosure  
Enclosure  
Enclosure  
Limits  
Class A  
Class A  
80...1000 MHz, 10 V/m  
Radiated Interference  
Conducted Interference  
Radiated RF Immunity  
Radiated RF Impulse  
Immunity  
Electrostatic Discharge  
EN 50140  
Enclosure  
Enclosure  
900 MHz, 10 V/m  
IEC 1000--4--2  
8 kV air  
4 kV contact  
Conducted RF Immunity  
(Note 1)  
EN 50141  
IEC 1000--4--6  
Network Lines, 0.15...80 MHz, 10 V rms  
Power Lines  
Fast Transient Burst  
IEC 1000--4--4  
Network Lines 1 kV Capacitive Clamp  
Power Lines  
2 kV Direct  
Surge Transient  
EN 50142  
IEC 1000--4--5  
Shield to Gnd 2 kV Common Mode  
Power Lines  
0.5 kV Common Mode,  
1 kV Differential Mode  
Voltage Dips / Sag  
EN 61000--4--11 Power Lines  
--30%, 10 ms  
--60%, 100 ms  
Protective Earth  
Continuity  
IEC 1131,  
par. 4.7.2  
Enclosure to  
Earth  
30 A < 0.1  
Hipot  
Hipot (0...2 km  
altitude)  
Network Lines 500 v dc  
Power Lines 1780 v dc  
Notes  
1.  
For Network Lines longer than 3 m and permanently connected to the  
device.  
6
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Modbus Plus to Ethernet Bridge  
Table 6 Environmental  
Parameter  
Reference  
Limits  
Temperature, Storage  
IEC 68--2--1  
IEC 68--2--2  
--25_ C for 96 hrs  
+70_ C for 96 hrs  
Temperature, Operating  
Humidity, Non--operating  
IEC 68--2--14  
IEC 68--2--3  
0...50_ C ambient  
95% RH at 50_ C for 24 hrs  
non--condensing  
Humidity, Operating  
Vibration, Operating  
IEC 68--2--3  
IEC 68--2--6  
95% RH at 50_ C for 24 hrs  
non--condensing  
Sinusoidal, 10 sweeps  
10...57 Hz: 0.075 mm amplitude  
57...150 Hz: 1 g  
Shock, Operating  
IEC 68--2--27  
IEC 68--2--32  
IEC 68--2--32  
3 shocks/axis  
15 g half sine, 11 ms  
Free Fall, Packaged  
Free Fall, Unpackaged  
1 drop at 1.220 m  
5 drops at 0.610 m  
2 drops at 0.500 m  
Table 7 Packaging  
Parameter  
Desription  
Enclosure Material  
Weight, Product  
Weight, Shipping  
Steel, baked enamel  
9.4 lb (4.3 kg)  
10.5 lb (4.8 kg)  
Table 8 Agency Approval  
Agency  
UL, CSA  
CE  
Status  
Approved  
Meets CE Requirements (see Section 2.6)  
7
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Installing the Bridge Hardware  
2
H
H
H
H
H
H
H
H
H
Overview: Hardware Installation  
Setting the Modbus Plus Node Address  
Setting the Ethernet Connector Jumper  
Mounting the Bridge Hardware  
Connecting the Network and Power Cables  
CE Installation Requirements  
Verifying the Network Communication  
Factory Default Settings  
Periodic Maintenance  
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Installing the Bridge Hardware  
2.1  
Overview: Hardware Installation  
Here is an overview of the tasks for installing the bridge hardware. The references  
are to the sections in this chapter that contain the detailed installation steps.  
Setting the Modbus Plus Node Address (Section 2.2)  
Before installing the bridge, set its Modbus Plus node address in switches on the  
internal Modbus Plus card. The card is accessible by removing the bridge’s cover.  
Note that every Modbus Plus node must have a unique address on the network.  
The bridge is shipped with the node address set to the default of 1.  
Setting the Ethernet Connector Jumper (Section 2.3)  
Before installing the bridge, set its internal Ethernet Connector jumper to define  
the type of physical cable connection you will be making to the Ethernet. The  
bridge has these Ethernet connectors:  
H
H
H
IEEE 802.3 10Base--T unshielded twisted pair cable (UTP RJ--45)  
IEEE 802.3 10Base--5 thick cable (AUI DB--15S)  
IEEE 802.3 10Base--2 thin cable (BNC).  
The Ethernet Connector jumper has two positions:  
H
H
Position 1: RJ--45/BNC connection  
Position 2: AUI connection.  
The bridge is shipped with the jumper set to the default RJ--45/BNC position.  
Mounting the Bridge Hardware (Section 2.4)  
The bridge can be physically installed on a vertical wall panel or horizontal shelf  
using mounting brackets supplied with the bridge. Be sure to provide clearance  
for ventilation and access to the bridge’s rear panel connectors and indicators.  
Connecting the Network and Power Cables (Section 2.5)  
Connect the Ethernet and Modbus Plus cables to the bridge’s rear panel. Connect  
the power cable and apply power. The bridge has these connectors:  
H
H
H
Ethernet: RJ--45, AUI or BNC (according to your Connector Jumper setting).  
Modbus Plus: Two DB--9S for dual Modbus Plus drop cables.  
Power: Three--prong 110/220 V ac connector.  
10  
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Installing the Bridge Hardware  
CE Installation Requirements (Section 2.6)  
If the bridge is being installed at a site that must meet CE requirements, and the  
10Base--T (RJ--45) connector is being used, a ferrite bead must be installed on the  
Ethernet cable at the RJ--45 connector.  
Verifying the Network Communication (Section 2.7)  
Check the Ethernet and Modbus Plus LEDs to verify operation of the bridge.  
11  
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Installing the Bridge Hardware  
2.2  
Setting the Modbus Plus Node Address  
Do not apply power to the bridge yet. Remove the four screws securing the  
enclosure cover, and remove the cover.  
Figure 2 Bridge Enclosure Screws  
Remove  
Screws  
Remove  
Screws  
Locate the Modbus Plus card as outlined in Figure 3. Note that there are two sets  
of switches on the card. The Modbus Plus address switches are toward the  
bridge’s cable connector panel.  
Figure 3 Bridge Top View (Cover Removed)  
Switch Detail  
Modbus Plus  
Address Switches  
I/O Base Address  
DO NOT CHANGE  
Modbus Plus Card  
Ethernet Card  
CPU Card  
Cable Connector Panel  
12  
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Installing the Bridge Hardware  
The bridge is shipped with the switches set of a default address of 1 (all switches  
in the 0 (zero) position, closest to the card surface).  
Set the Modbus Plus address switches 1--6 to the address in your application.  
Switches 7 and 8 are not used.  
Switch 1 is the least significant bit of the address. Switch 6 is the most significant  
bit. The address will be one higher than the binary value you set into the switches.  
Table 9 shows the addresses and switch settings.  
Table 9 Modbus Plus Addresses and Switch Settings  
Address Switches 6--1  
Address Switches 6--1  
Address Switches 6--1  
1
2
3
4
5
6
7
8
0 0 0 0 0 0  
0 0 0 0 0 1  
0 0 0 0 1 0  
0 0 0 0 1 1  
0 0 0 1 0 0  
0 0 0 1 0 1  
0 0 0 1 1 0  
0 0 0 1 1 1  
0 0 1 0 0 0  
0 0 1 0 0 1  
0 0 1 0 1 0  
0 0 1 0 1 1  
0 0 1 1 0 0  
0 0 1 1 0 1  
0 0 1 1 1 0  
0 0 1 1 1 1  
0 1 0 0 0 0  
0 1 0 0 0 1  
0 1 0 0 1 0  
0 1 0 0 1 1  
0 1 0 1 0 0  
0 1 0 1 0 1  
23  
24  
25  
26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
0 1 0 1 1 0  
0 1 0 1 1 1  
0 1 1 0 0 0  
0 1 1 0 0 1  
0 1 1 0 1 0  
0 1 1 0 1 1  
0 1 1 1 0 0  
0 1 1 1 0 1  
0 1 1 1 1 0  
0 1 1 1 1 1  
1 0 0 0 0 0  
1 0 0 0 0 1  
1 0 0 0 1 0  
1 0 0 0 1 1  
1 0 0 1 0 0  
1 0 0 1 0 1  
1 0 0 1 1 0  
1 0 0 1 1 1  
1 0 1 0 0 0  
1 0 1 0 0 1  
1 0 1 0 1 0  
1 0 1 0 1 1  
45  
46  
47  
48  
49  
50  
51  
52  
53  
54  
55  
56  
57  
58  
59  
60  
61  
62  
63  
64  
1 0 1 1 0 0  
1 0 1 1 0 1  
1 0 1 1 1 0  
1 0 1 1 1 1  
1 1 0 0 0 0  
1 1 0 0 0 1  
1 1 0 0 1 0  
1 1 0 0 1 1  
1 1 0 1 0 0  
1 1 0 1 0 1  
1 1 0 1 1 0  
1 1 0 1 1 1  
1 1 1 0 0 0  
1 1 1 0 0 1  
1 1 1 0 1 0  
1 1 1 0 1 1  
1 1 1 1 0 0  
1 1 1 1 0 1  
1 1 1 1 1 0  
1 1 1 1 1 1  
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
Default Setting  
The default setting of the address switches is shown in Section 2.8.  
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Installing the Bridge Hardware  
2.3  
Setting the Ethernet Connector Jumper  
Do not apply power to the bridge yet. The bridge has three types of Ethernet  
connectors:  
H
H
H
IEEE 802.3 10Base--T UTP cable (RJ--45)  
IEEE 802.3 10Base--5 thick cable (AUI)  
IEEE 802.3 10Base--2 thin cable (BNC)  
A jumper on the Ethernet card defines the connector to be used. The bridge is  
shipped with the jumper set to the default RJ--45/BNC position.  
If you intend to use either the RJ--45 or BNC connection, you do not need to  
change the jumper position. Continue to the next section in this book.  
If you intend to use the AUI connection, you must change the jumper from position  
1 to position 2. Remove the Ethernet card, change the jumper, and re--install the  
card. Figure 4 shows the jumper location.  
14  
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Installing the Bridge Hardware  
Figure 4 Ethernet Connector Jumper Location  
SW1  
JP1 JP2  
UTP RJ--45  
(10Base--T)  
DO NOT  
CHANGE  
AUI  
(10Base--5)  
BNC  
(10Base--2)  
JP2  
AUI  
2
1
Set this jumper for the  
Ethernet connector  
used on your network  
UTP RJ--45 or BNC  
(Default)  
Default Setting  
The jumper’s default setting is shown in Section 2.8.  
15  
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Installing the Bridge Hardware  
2.4  
Mounting the Bridge Hardware  
Replace the bridge enclosure cover. Do not apply power to the bridge yet.  
The bridge is supplied with two mounting brackets. Install them on the bridge’s  
side or bottom panel as shown in Figure 5, using the screws provided.  
If you use your own hardware, use 6--32 machine screws and do not allow any  
screw to protrude more than 1/4 in (6 mm) into the bridge.  
Secure the bridge to a vertical panel or horizontal shelf with screws through the  
mounting bracket holes.  
Mounting Requirements  
Provide adequate service access to the rear panel LEDs and cable connectors.  
Also note the requirements for venting clearances as shown in Figure 6.  
Figure 5 Mounting Dimensions  
164 mm  
164 mm  
Side  
Panel  
Mounting  
243  
mm  
Bottom  
Panel  
Mounting  
138 mm  
Do not allow screws to protrude more than 1/4 in (6 mm) inside Bridge.  
16  
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Installing the Bridge Hardware  
Figure 6 Enclosure Dimensions and Clearances  
122 mm  
Vents  
229 mm  
Vents  
For proper ventilation, maintain minimum clearance of 5.0 in (125 mm)  
between all vents and all external equipment.  
248 mm  
Vents  
229 mm  
17  
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Installing the Bridge Hardware  
2.5  
Connecting the Network and Power Cables  
Before connecting the power cable, connect the Ethernet and Modbus Plus  
network cables. Refer to the rear panel layout in Figure 7 and the panel detail in  
Figure 8 for locations of the connectors.  
For information about Modbus Plus network design, including the availability of  
drop cables for connection to the bridge, refer to the Modbus Plus Network  
Planning and Installation Guide, publication 890 USE 100 00.  
See your Ethernet network administrator for information about the Ethernet cables  
and connectors applicable to your installation.  
Figure 7 Rear Panel Layout  
Power LED  
Connector Panel  
(see detail)  
Power Switch  
AC Power  
Connector  
18  
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Installing the Bridge Hardware  
Figure 8 Connector Panel Detail  
RJ--45  
TCP/IP  
Connection Network  
Valid  
Active  
VGA  
Video  
RJ--45  
Modbus  
Plus  
Port B  
10Base--T  
(UTP cable)  
MB Plus  
Active  
PS/2  
Mouse  
DB--15  
10Base--5  
Error  
Channel B  
Error  
Channel A  
Serial  
Port  
Modbus  
Plus  
Port A  
BNC  
10Base--2  
PS/2  
Keyboard  
Slot 1  
Accessories  
Slot 2  
Ethernet  
Slot 3  
Modbus Plus  
When you have completed the connection of the Ethernet and Modbus Plus  
cables, set the bridge’s power switch to the 0 (OFF) position. Connect the power  
cable to the bridge power connector and to the external power source.  
Set the bridge’s power switch to the 1 (ON) position. The bridge’s Power LED  
should illuminate, showing that power is applied and within specification.  
The LED indicators for the Ethernet and Modbus Plus cards may also illuminate if  
those networks are active. Section 2.7 describes the network LED indicators.  
19  
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Installing the Bridge Hardware  
2.6  
CE Installation Requirements  
If the bridge is being installed at a site that must meet CE requirements, the  
following steps must be taken to complete the installation.  
Grounding  
The bridge must be provided with a direct ground connection of 0.1 ohm or less.  
Mounting the bridge on a suitably grounded panel as described in Section 2.4  
satisfies this requirement.  
In addition the Modbus Plus cable must be grounded to the panel using the ground  
wire that is integral to the cable.  
Ferrite Bead on RF--45 Cable  
If the Ethernet network is being connected to the 10Base--T (RJ--45) connector, an  
approved ferrite bead must be installed on the cable at the connector.  
The approved bead shown in Figure 9 and in Table 10 is enclosed in a plastic box  
which can be clipped over the network cable. It is not necessary to insert the  
cable through the bead before you install the RJ--45 connector on the cable.  
Figure 9 Ferrite Bead on RJ--45 Cable (CE Requirement)  
Cable Tie  
prevents bead  
from slipping  
Ferrite Bead  
28A2029--0A0  
32 mm  
12 mm  
22 mm  
Table 10 Approved Ferrite Bead  
Manufacturer  
Location and  
Telephone  
Livingston, Scotland, UK  
0044--1--506--414--200  
(or Equivalent)  
Part Number  
28A2029--0A0  
Steward  
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Installing the Bridge Hardware  
2.7  
Verifying the Network Communication  
Refer to Figure 8 for the locations of the bridge’s indicators.  
2.7.1  
Ethernet Card Indicators  
The Ethernet card has an indicator that shows a valid connection between the  
card’s RJ--45 (UTP) jack and the network. It has another indicator which flashes  
to show’s the bridge’s communication activity on the Ethernet link.  
Table 11 Ethernet Card Indicators  
Indicator (Green)  
Status  
RJ--45 Connection Valid  
TCP/IP Network Active  
Valid connection exists at RJ--45 port.  
Bridge is actively communicating TCP/IP.  
2.7.2  
Modbus Plus Card Indicators  
The Modbus Plus card has an indicator that flashes a repetitive pattern to show its  
network communication status, plus two indicators which identify communication  
errors on the two Modbus Plus cable paths. Note that one error indicator will be lit  
normally in single--cable installations, showing that a second cable does not exist.  
Table 12 Modbus Plus Active Indicator Patterns  
Indicator Pattern (Green)  
Status  
Six flashes/second  
Normal operating state. All nodes on a  
healthy network flash this pattern.  
One flash/second  
The node is off-line. After being in this state  
for 5 seconds, the node attempts to go to its  
normal operating state.  
Two flashes, then OFF for 2 seconds  
The node detects the network token being  
passed among other nodes, but it never  
receives the token.  
Three flashes, then OFF for 1.7 seconds  
Four flashes, then OFF for 1.4 seconds  
The node does not detect any token passing  
on the network.  
The node has detected another node using  
the same address.  
Table 13 Modbus Plus Channel Error Indicators  
Indicator (Red)  
Error Channel A  
Error Channel B  
Status  
Communications error at network port A.  
Communications error at network port B.  
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Installing the Bridge Hardware  
2.8  
Factory Default Settings  
This information is provided to allow the installer to restore the factory default  
settings, in case one of them is altered inadvertently.  
2.8.1  
Ethernet Card Defaults  
The only user--configurable setting on the card is in jumper JP2 for selecting the  
Ethernet connector. This must be set for the connector you are using. Defaults  
are shown in Figure 10.  
Figure 10 Ethernet Card Defaults  
SW1  
JP1 JP2  
UTP  
(10Base--T)  
AUI  
(10Base--5)  
BNC  
(10Base--2)  
JP1  
JP2  
SW1  
3
2
1
2
1
Set this jumper for the  
Ethernet connector  
used on your network:  
Do Not change  
these  
Do Not change  
this  
switches  
jumper  
2 = AUI  
1 = UTP/BNC (Default)  
22  
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Installing the Bridge Hardware  
2.8.2  
Modbus Plus Card Defaults  
This card contains two sets of switches. As you view the card at its top edge, the  
I/O Base Address switches are located nearest to the end of the card. These  
switch settings should not be changed.  
The only user--configurable setting on the card is in the Modbus Plus Address  
switches. These must be set to the Modbus Plus node address that will be used  
by the bridge in your application (see section 2.2 for details).  
Factory default settings are shown in Figure 11.  
Figure 11 Modbus Plus Card Defaults  
I/O Base  
Address Switches  
Modbus Plus  
Address Switches  
Card  
Edge  
Do Not change  
these  
Set these switches to the  
Modbus Plus address  
for the bridge  
switches  
23  
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Installing the Bridge Hardware  
2.9  
Periodic Maintenance  
Periodic maintenance consists of cleaning of the bridge’s two internal air filters.  
This should be done at least once per year, and more often as required by the  
bridge’s environment.  
Figure 12 Location of Air Filters  
Remove 2 screws,  
remove power supply  
Upper  
Air Filter  
(behind Vent)  
to clean  
Lower Filter  
Lower  
Air Filter  
(behind Vent)  
Cleaning the Filters  
You will have to remove operating power to the bridge before cleaning the filters.  
Contact your network administrator and make sure your application will not be  
adversely affected. Then remove power to the bridge.  
Remove the filters, clean them with a detergent solution suitable for your site, and  
reinstall them. The filter locations are described below.  
Upper Filter  
Remove the four screws securing the bridge’s enclosure cover, and remove the  
cover. The upper filter is accessible behind the bridge’s front panel.  
Lower Filter  
Remove the two screws securing the bridge’s power supply, and move the supply  
away from the rest of the bridge assembly. The lower filter is accessible behind  
the power supply’s front panel.  
24  
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Configuring the Bridge  
3
H
H
H
H
H
H
H
H
H
H
Files Supplied With the Bridge  
Overview: Software Configuration  
Configuration With a BOOTP Server  
Configuration With the Internal CFGUTIL Utility  
How Mapping Works: TCP/IP to Modbus Plus  
Setting the Mapping: TCP/IP to Modbus Plus  
How Mapping Works: Modbus Plus to TCP/IP  
Setting the Mapping: Modbus Plus to TCP/IP  
Dynamic Routing of Messages  
Clearing the Bridge’s Configuration  
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Configuring the Bridge  
3.1  
Files Supplied With the Bridge  
The bridge is shipped with its application software pre--installed. A Host Software  
disk is provided containing files for managing the bridge application at a host PC.  
3.1.1  
Files Resident in the Bridge  
These files are pre--installed and resident in the bridge:  
Table 14 Files Resident in the Bridge  
File  
Purpose  
COMMAND.COM  
AUTOEXEC.BAT  
CONFIG.SYS  
GATELOOP.BAT  
SGATE.EXE  
DOS command interpreter  
Startup at bridge initialization  
Startup at bridge initialization  
Runs the bridge application  
Bridge application program  
BDRESET.EXE  
MBPHOST.SYS  
CFGUTIL.EXE  
CFGUTIL.HLP  
MBPSTAT.EXE  
PING.EXE  
TCPINFO.EXE  
WATTCP.CFG  
PNPPD.COM  
Initializes the Modbus Plus card  
Driver for the Modbus Plus card  
Configures the bridge IP setup, MB+ and TCP mapping  
Help screen for CFGUTIL.EXE  
Diagnostic tool for the Modbus Plus network connection  
Diagnostic tool for the Ethernet network connection  
Diagnostic tool for BOOTP server communication  
Contains the bridge’s IP setup and network parameters  
Ethernet packet driver  
3.1.2  
Host Software Disk (31000017)  
The bridge is supplied with one 3.5--inch (1.44 MB) disk, with files for configuring  
the bridge at a host PC and downloading the configuration to the bridge. The disk  
contains these files:  
Table 15 Files on Host Software Disk  
File  
Purpose  
CFGUTIL.EXE  
CFGUTIL.HLP  
DWNLD.EXE  
README  
Configures the bridge IP setup, MB+ and TCP mapping  
Help screen for CFGUTIL.EXE  
Download program for host  
Text file with current release information and application notes  
26  
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Configuring the Bridge  
3.1.3  
Files Generated or Modified by the Bridge  
When the bridge is configured using the CFGUTIL program, it writes ASCII text  
files that record the bridge’s current configuration and network mapping. The files  
are retained in the bridge and referenced for configuration on subsequent startups.  
Table 16 Files Generated or Modified by the Bridge  
File  
Purpose  
RTE.CFG  
WATTCP.CFG  
RTE.OLD  
WATTCP.OLD  
Contains the bridge’s MB+ and TCP mapping  
Contains the bridge’s IP setup and network parameters  
Contains the RTE.CFG version prior to the last write  
Contains the WATTCP.CFG version prior to the last write  
These files can be uploaded and stored in a host. They can be downloaded to  
restore a bridge’s configuration. Sections 5.2 and 5.3 describe these procedures.  
Note that RTE.CFG must be renamed to RTE.TXT prior to downloading.  
Figure 13 Sample File Contents: RTE.CFG (or RTE.TXT) and WATTCP.CFG  
Sample: RTE.CFG or RTE.TXT  
Sample: WATTCP.CFG  
mbp_1=1. 0. 0. 0. 0  
mbp_2=2. 0. 0. 0. 0  
mbp_3=1. 0. 0. 0. 0  
mbp_4=2. 0. 0. 0. 0  
. . .  
mbp_249=3. 2. 57. 0. 0  
t c p_1=205. 167. 7. 1  
t c p_2=205. 167. 7. 2  
t c p_3=205. 167. 7. 3  
t c p_4=205. 167. 7. 4  
. . .  
my_i p=205. 167. 7. 65  
i p_a ddr e s s =205. 167. 7. 65  
ne t ma s k=255. 255. 255. 0  
na me s e r ve r =205. 167. 7. 2  
ga t e wa y=205. 167. 7. 2  
doma i ns l i s t =mydoma i n. c om  
i dl e _t i me out =300  
t c p_255=205. 167. 7. 255  
3.1.4  
The Software Startup Sequence  
On power--up the bridge software performs the following sequence.  
H
H
H
H
H
CONFIG.SYS loads the Modbus Plus driver MBPHOST.SYS.  
AUTOEXEC.BAT calls GATELOOP.BAT.  
GATELOOP.BAT executes BDRESET.EXE, initializing the Modbus Plus card.  
GATELOOP.BAT executes the Ethernet driver program PNPPD.COM.  
GATELOOP.BAT executes the bridge application program SGATE.EXE.  
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Configuring the Bridge  
3.2  
Overview: Software Configuration  
Here is an overview of the tasks for configuring the bridge. The references are to  
the sections of this guidebook that show the detailed installation steps.  
3.2.1  
Setting the Ethernet Configuration  
Configure the bridge’s IP address and other Ethernet parameters to allow your  
host application to recognize the bridge.  
Configuration With a BOOTP Server (Section 3.3)  
If a BOOTP server exists, configure the server to recognize the bridge. When the  
bridge is initially powered up, it will attempt for 30 seconds to connect to a BOOTP  
server. If the server is found, the bridge will automatically configure for the  
Ethernet connection. Note that you will still have to set up the mappings between  
Ethernet and Modbus Plus devices, or you can create a host file for centralized  
mapping which you can download.  
Configuration With the CFGUTIL Utility (Section 3.4)  
If a BOOTP server is not available, you can use the internal CFGUTIL program to  
configure the bridge. Connect a keyboard and VGA monitor to the bridge, start the  
utility, and use it to setup the bridge’s IP and gateway addresses, and subnetwork  
mask.  
3.2.2  
Setting the Modbus Plus and TCP/IP Address Mapping  
Setup your bridge’s mapping tables to control the flow of traffic through the bridge.  
Your mappings define the routing destinations for messages received by the  
bridge on one network and passed through it to destinations on the other network.  
Setting the Mapping: TCP/IP to Modbus Plus (Sections 3.5 and 3.6)  
Messages received by the bridge over TCP/IP contain a Destination Index  
address byte in the range 1 ... 249 decimal. This byte corresponds to the  
de s t _i dx field in Modbus Application Protocol commands issued in Modicon  
panel software such as Concept and Modsoft. The bridge maps this byte to one of  
249 possible Modbus Plus node destinations. You define the Modbus Plus node  
address to be associated with each Destination Index byte value.  
Setting the Mapping: Modbus Plus to TCP/IP (Sections 3.7 and 3.8)  
Messages received by the bridge over Modbus Plus contain a routing byte in the  
range 1 ... 255 decimal (the de s t _i dx field). The bridge maps this byte to one of  
255 IP destinations. You define the IP address to be associated with each  
Modbus Plus routing byte value.  
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Configuring the Bridge  
3.3  
Configuration With a BOOTP Server  
If a BOOTP server is available, you can use it to configure the bridge remotely.  
You will need the MAC address of the bridge. The MAC address is marked on a  
label on the bridge’s rear panel. Note the address and give it to your server  
system administrator.  
Use the BOOTP server to associate the bridge’s MAC address with a unique IP  
address and assign it to the bridge.  
If you want the bridge to use a centralized mapping file for mapping TCP/IP and  
Modbus Plus addresses, provide the Uniform Resource Locator (URL) to the file  
RTE.TXT in the root path option (option 17) of the BOOTP server.  
The URL format is:  
/ / <hos t _na me >/ r t e . t xt  
Examples:  
/ / us e r . modi c on. c om/ r t e . t xt  
/ / 205. 167. 7. 0/ r t e . t xt  
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Configuring the Bridge  
3.4  
Configuration With the CFGUTIL Utility  
If a BOOTP server is not available, you can configure the bridge locally using its  
internal CFGUTIL.EXE utility.  
Set the bridge power switch to 0 (OFF). Refer to the connector panel detail in  
Figure 8 and connect a keyboard and VGA monitor to the bridge. Then set the  
bridge power to 1 (ON).  
3.4.1  
Starting CFGUTIL  
Press Ctrl--C to stop the bridge application. This will display the bridge’s  
command line prompt. Enter CFGUTIL to start the utility.  
Here is an example of the opening menu in CFGUTIL.  
Figure 14 CFGUTIL Opening Menu  
3.4.2  
Navigating the CFGUTIL Menu  
Use your Tab key, or Shift and Tab, to select a field for editing. F2 displays Help.  
Note the six configuration fields at the left side of the menu. You should configure  
these fields first, before setting up the MB+ and TCP mapping fields. Refer to  
Sections 3.4.3 and 3.4.4 for details.  
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Configuring the Bridge  
3.4.3  
3.4.4  
Required Configuration Fields  
The following two fields require your entries for the bridge to function properly.  
Contact your Ethernet network administrator to obtain this information:  
H
H
IP Address  
Net Mask  
Additional Configuration Fields  
These four fields may be optional or required, according to your application.  
Contact your Ethernet network administrator to obtain this information:  
H
H
H
H
Name Server  
Gateway  
Domain  
Idle Timeout  
Idle Timeout: The bridge provides a default value of 300 seconds (5 minutes).  
This value specifies the amount of time the bridge will maintain Data Master and  
Data Slave paths open without active data transfers. If this time elapses, all Data  
paths will be closed. You can retain the default value or enter a new one.  
3.4.5  
3.4.6  
Address Mapping Table Fields  
Note the MB+ and TCP mapping fields at the center and right side of the menu.  
The bridge will use these mappings to forward messages between the networks.  
Refer to Sections 3.5 and 3.7 for details on setting the mapping fields.  
Saving the Configuration  
When you finish configuring the bridge for your application, press Escape. You will  
be prompted:  
Wr i t e f i l e s t o di s k?  
Enter Y to save the configuration. Two files will written into the bridge’s root  
directory. The TCP/IP configuration will be written to the file C:\WATTCP.CFG.  
The MB+ and TCP address mapping tables will both be written to C:\RTE.CFG.  
You can now use the bridge in your application.  
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Configuring the Bridge  
3.5  
How Mapping Works: TCP/IP to Modbus Plus  
Each Modbus Plus message destination is defined by a five--byte Modbus Plus  
routing path. The use of the path is specific to each type of Modbus Plus device.  
Refer to the guidebooks supplied with your Modbus Plus devices for details, or  
refer to the Modbus Plus Network Planning and Installation Guide, part number  
890 USE 100 00, for a general description of Modbus Plus routing paths.  
Messages received by the bridge from Ethernet host nodes contain an embedded  
Destination Index byte in the range 1 ... 255 decimal. This byte corresponds to the  
de s t _i dx field in messages constructed by Modicon panel software such as  
Modsoft and Concept.  
The bridge uses the Destination Index byte to determine the type of routing to be  
made.  
3.5.1  
Destination Indexes 1 ... 249: Mapped Routing  
The bridge uses Destination Indexes 1 ... 249 to map messages from a TCP/IP  
node to a Modbus Plus destination node.  
The bridge maps Destination Indexes in this range to one of 249 possible Modbus  
Plus routing paths. Each Destination Index value maps to a location in a Modbus  
Plus mapping table, which contains a five--byte Modbus Plus routing path to the  
destination node.  
Your configuration of the bridge must include entries into the bridge’s mapping  
table to correlate the Destination Indexes to your routing paths for Modbus Plus  
nodes in your application.  
Section 3.6 describes how to set up the TCP/IP to Modbus Plus mapping table.  
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Configuring the Bridge  
3.5.2  
Destination Indexes 0 and 254: Dynamic Message Routing  
The bridge provides a means for dynamic routing of messages at runtime.  
Dynamic routing applies only to messages initiated from TCP/IP hosts, and  
requires the host to configure the bridge at runtime (to Destination Index 255).  
You should be aware of your options for using dynamic routing in your application,  
as you setup your mapped routings. Two Destination Indexes are reserved for  
routing messages dynamically: 0 and 254 decimal. Your options are:  
H
Destination Index 0: Host--based routing A Modbus Plus routing path is  
available in the bridge at index location 0 for runtime use by TCP/IP hosts.  
When the host configures a path in the bridge, any message from that host  
addressed to index 0 will be routed to that Modbus Plus path. The bridge  
maintains a cache of up to 10 associations between TCP/IP hosts and  
Modbus Plus paths.  
This routing option allows the bridge to be configured for simple addressing  
to Modbus Plus from TCP/IP nodes which do not support gateway routing.  
H
Destination Index 254: Socket--based routing A Modbus Plus routing  
path is available in the bridge at index location 254 for the current TCP/IP  
host connection only. The bridge maintains one socket connection at that  
index location for each of its eight Program and eight Data paths.  
This routing option allows the bridge to handle concurrent sessions from one  
TCP/IP host, or from multiple hosts, using independent routing assignments.  
It provides flexibility for your application to manage routing dynamically, in  
addition to the bridge’s fixed mapping table.  
Section 3.9 provides examples of dynamic routing.  
3.5.3  
Destination Index 255: Bridge Internal Command  
Messages received by the bridge addressed to Destination Index 255 cause the  
bridge to execute an internal operation. This index is used to configure the bridge  
for dynamic routing, or to invoke an upload or download operation between the  
host and bridge.  
Section 3.9 provides examples of dynamic routing. Sections 5.2 and 5.3 provide  
examples of uploading and downloading.  
3.5.4  
Reserved Destination Indexes  
Destination Indexes 250 ... 253 are reserved and are not available for use.  
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Configuring the Bridge  
3.6  
Setting the Mapping: TCP/IP to Modbus Plus  
As you design your application you should define a Destination Index value  
(1 ... 249) for each Modbus Plus node to which your Ethernet host will originate  
messages. Edit the bridge’s mapping table to correlate each Destination Index  
value to the five--byte routing path for the intended Modbus Plus node.  
3.6.1  
MB+ Mapping Table Layout and Default Entries  
The MB+ Mapping table contains 249 fields, labeled MBP_1 through MBP_249.  
These fields define Modbus Plus routing paths for messages from TCP/IP hosts  
which contain Destination Indexes 1 through 249 decimal.  
The bridge is shipped with default Modbus Plus routing paths for Destination  
Indexes as shown in Table 17.  
Table 17 TCP/IP to Modbus Plus Default Mapping  
Destination Index ( de s t _i dx)  
... 64  
65 ... 128  
129 ... 192  
193 ... 249  
Modbus Plus Routing Path  
1.0.0.0.0 ... 64.0.0.0.0  
2.1.0.0.0 ... 2.64.0.0.0  
3.1.0.0.0 ... 3.64.0.0.0  
3.2.1.0.0 ... 3.2.57.0.0  
1
For example, the default entry in field MBP_1 specifies that TCP/IP messages  
intended for de s t _i dx value 1 will be routed to Modbus Plus node 1 on the local  
Modbus Plus network (the same network that contains the bridge).  
Figure 15 shows an example of the bridge’s default mapping, with one custom  
entry made by the user.  
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Configuring the Bridge  
Figure 15 Example: TCP/IP to Modbus Plus Mapping  
Use your Tab key to select the MB+ Mapping table. Use your cursor ‘arrow’ keys,  
Page Up, and Page Down to scroll through the table. F2 displays Help.  
3.6.2  
3.6.3  
Entry Example: MB+ Mapping Table  
In Figure 15, entry MBP_3 shows an example of custom routing to the Modbus  
Plus path 35.10.0.0.0. In this example, incoming TCP.IP messages containing  
de s t _i dx value 3 will cause the bridge to index into table location 3, and to use  
these contents for routing the message to Modbus Plus. Messages will be routed  
through a Bridge Plus node at address 35 on the local Modbus Plus network, and  
forwarded to a destination node at address 10 on a second network.  
Saving the Mapping  
When you finish setting up the mapping fields for your application, press Escape.  
You will be prompted:  
Wr i t e f i l e s t o di s k?  
Enter Y to save the configuration. Two files will written into the bridge’s root  
directory. The TCP/IP configuration will be written to the file C:\WATTCP.CFG.  
The MB+ and TCP address mapping tables will both be written to C:\RTE.CFG.  
You can now use the bridge in your application.  
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Configuring the Bridge  
3.7  
How Mapping Works: Modbus Plus to TCP/IP  
The bridge contains an internal Modbus Plus to TCP mapping table with 255 entry  
fields, each containing an IP address. Each message received by the bridge from  
a Modbus Plus node contains a five--byte routing path field as shown in Figure 16.  
Figure 16 Format of the Modbus Plus Routing Path Field  
Byte:  
1
2
3
4
5
Bridge  
Node  
Address  
Bridge  
Path  
First IP  
Routing  
Byte  
MB+ Table  
Routing  
Byte  
Last  
Routing  
Byte  
1 ... 8  
1 ... 64  
1 ... 255  
1 ... 249  
(Not Used)  
REQUIRED  
OPTIONAL  
Defines index into this bridge’s  
TCP Mapping table, and routes  
message to the IP destination  
stored in that table location.  
If IP destination is another  
TCP/IP--MB+ bridge, this byte  
routes message to the MB+  
node address in that bridge’s  
MB+ Mapping table.  
Bytes 1 and 2. Bridge Node Address and Path  
The first byte in a message initiated from a Modbus Plus node to the bridge  
addresses the bridge. The second byte opens a path within the bridge.  
Byte 3. First Bridge’s IP Routing  
The third byte corresponds to the de s t _i dx field in Modbus commands. This  
byte indexes the bridge’s TCP Mapping table. The bridge extracts the IP address  
at that table location and forwards the message to the IP destination.  
Byte 4. Second Bridge’s Modbus Plus Routing  
Byte 4 allows the Ethernet network to operate as a link between two or more  
bridges and their respective Modbus Plus networks. If the IP destination (from the  
byte 3 table index) is not another bridge, the fourth byte is not used.  
If the IP destination is another bridge, that bridge uses the fourth byte to index into  
its MB+ Mapping table. It will extract a Modbus Plus routing path from the table  
and forward the message to a destination node on its own Modbus Plus network.  
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Configuring the Bridge  
Figure 17 shows an example of the mapping of a message between two  
Modbus Plus nodes through a pair of Ethernet bridges.  
Figure 17 Example: Linking Modbus Plus Networks Through Ethernet Bridges  
Ethernet  
IP: 205.167.8.10  
B
C
Bridge  
1
Bridge  
2
TCP  
Modbus Plus  
Map Entry:  
Map Entry:  
Node 25  
TCP_17: 205.167.8.10  
MBP_33: 12.0.0.0.0  
Modbus  
Plus  
Modbus  
Plus  
A
D
Routiing: 25.8.17.33.0  
Node 12  
Originating  
Destination  
Node  
Node  
A. The Message is Originated  
A Modbus Plus node originates a message with the five--byte Modbus Plus path  
25.8.17.33.0. The message is addressed to the bridge at node address 25,  
specified in the first routing byte.  
Bridge 1 (node 25) receives the message and opens its internal path 8. This path  
is specified in the second routing byte.  
B. Bridge 1 Maps the Message to TCP/IP  
Bridge 1 indexes into its TCP Mapping table at location TCP_17, specified by the  
third routing byte. Location 17 contains the IP address 205.167.8.10. The bridge  
forwards the message to this IP address, a second bridge.  
C. Bridge 2 Maps the Message to Modbus Plus  
Bridge 2 receives the message and indexes into its Modbus Plus Mapping table at  
location MBP_33, specified by the fourth byte of routing in the original message.  
Location 33 contains the Modbus Plus routing path 12.0.0.0.0 to a node on the  
Modbus Plus network at Bridge 2.  
D. The Message is Delivered  
The message is delivered to the destination node 12 on the Modbus Plus network.  
The node acts upon the Modbus command embedded in the message.  
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Configuring the Bridge  
3.8  
Setting the Mapping: Modbus Plus to TCP/IP  
Each message from a Modbus Plus node contains a five--byte routing path field  
(See Section 3.7). The bridge uses the third byte to index into its TCP Mapping  
table, extracting an IP address from that entry.  
You can edit the table to map the Modbus Plus routing path’s third byte to specific  
IP addresses in your application.  
3.8.1  
TCP Mapping Table Layout and Default Entries  
The TCP Mapping table contains 255 fields, labeled TCP_1 through TCP_255.  
These fields define IP addresses for messages (from Modbus Plus nodes) which  
contain 1 through 255 decimal in byte 3 of the Modbus Plus message routing path.  
By default the bridge automatically sets the first three bytes of each IP address to  
match the first three bytes of the bridge’s IP address. (See Figure 14 and Section  
3.4.3 for an example of configuring the bridge’s IP address.) The bridge sets the  
fourth byte of the IP address mapping to the range 1 ... 255.  
For example, if you configure the bridge’s IP address as:  
205.167.7.65  
the TCP Mapping table’s 255 locations will automatically default to:  
TCP_1:  
TCP_2:  
. . .  
205.167.7.1  
205.167.7.2  
. . .  
TCP_255:  
205.167.7.255  
Figure 18 shows an example of typical default TCP mapping, with one custom  
routing entry made by the user.  
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Configuring the Bridge  
Figure 18 Example: Modbus Plus to TCP/IP Mapping  
Use your Tab key to select the TCP Mapping table. Use your cursor ‘arrow’ keys,  
Page Up, and Page Down to scroll through the table. F2 displays Help.  
3.8.2  
Entry Example: TCP Mapping Table  
In Figure 18, location TCP_10 shows an example of an entry for custom routing.  
Note that location TCP_10 is indexed by the bridge when it receives a message  
from a Modbus Plus node with contents 10 in the Modbus Plus routing path byte 3.  
The bridge extracts the IP address 205.167.99.99 at the table location, and routes  
the message to that IP address.  
3.8.3  
Saving the Mapping  
When you finish setting up the mapping fields for your application, press Escape.  
You will be prompted:  
Wr i t e f i l e s t o di s k?  
Enter Y to save the configuration. Two files will written into the bridge’s root  
directory. The TCP/IP configuration will be written to the file C:\WATTCP.CFG.  
The MB+ and TCP address mapping tables will both be written to C:\RTE.CFG.  
You can now use the bridge in your application.  
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Configuring the Bridge  
3.9  
Dynamic Routing of Messages  
In addition to the mapped routing of messages from TCP/IP to Modbus Plus,  
messages can be dynamically routed in this direction at runtime. Dynamic routing  
is available only to connections initiated fromTCP/IP.  
The bridge reserves three Destination Indexes for dynamic routing. A TCP/IP host  
node uses index 255 to set the bridge for two kinds of dynamic routing from that  
host. Then the host uses indexes 0 (zero) or 254 to dynamically route messages.  
Index 0 provides Host--based routing for up to 10 TCP/IP hosts concurrently.  
Index 254 provides Socket--based routing for the duration of the host connection.  
3.9.1  
Setting Up the Bridge for Dynamic Routing  
You must setup the bridge for dynamic routing before you can use it. Note that  
dynamic routing is implemented at runtime and is not part of the bridge’s internal  
configuration.  
To setup the bridge for dynamic routing, address the bridge using its Destination  
Index for an internal bridge command (255). Write the Modbus Plus destination  
node’s five--byte routing path as data into one of these registers:  
H
H
Register 1 for Host--based routing  
Register 255 for Socket--based routing.  
The data portion of the write command must contain three words in the form:  
<byt e _c ount ><5- byt e _Modbus _Pl us _pa t h>  
Example  
The following example sets up a Host--based routing to a Modbus Plus node  
destination on the routing path 30.18.9.37.2:  
Word  
Contents (Hex)  
Contents (Decimal)  
1
2
3
05 1E  
12 09  
25 02  
05 30  
18 09  
37 02  
Note that the five--byte routing path must be preceded with a byte (always  
containing 05) to show the length in bytes of the routing path.  
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Configuring the Bridge  
3.9.2  
Using Dynamic Routing  
First setup the bridge for Host--based or Socket--based routing.  
The bridge will now associate messages from the host’s IP address with the  
Modbus Plus path you established, when you address those messages to the  
Destination Index defined for the Host--based or Socket--based routing.  
H
Destination Index 0: Host--based routing After you setup the bridge for  
Host--based routing from a TCP/IP host to a Modbus Plus path, any  
messages from that host addressed to index 0 will be routed to that path.  
The bridge maintains a cache of 10 associations between TCP/IP hosts and  
Modbus Plus paths using Destination Index 0. Thus up to 10 hosts may set  
associations and use them concurrently for transactions with Modbus Plus  
nodes. If all 10 cache locations are in use and another host establishes an  
association to index 0, the new association will overwrite the oldest one in  
the cache.  
This routing option allows the bridge to be configured for simple addressing  
from TCP/IP nodes which do not support routing through gateways, such as  
programming panels.  
H
Destination Index 254: Socket--based routing After you setup the bridge  
for Socket--based routing from a TCP/IP host to a Modbus Plus path, any  
messages from that host addressed to index 254 will be routed to that path.  
The TCP/IP host can initiate messages to the Modbus Plus destination for  
the duration of the host’s connection to the bridge. When the connection  
terminates, the Modbus Plus path no longer exists for that TCP/IP host.  
The bridge maintains up to 16 available socket connections, corresponding  
to its eight Program and eight Data paths. For example, Modsoft panel  
software uses both a Program and a Data path during its connection with the  
bridge. The bridge will establish a socket for both paths during dynamic  
routing, and will close the sockets when the connection is terminated.  
This routing option allows the bridge to handle concurrent sessions from  
multiple TCP/IP hosts using independent routing assignments. It provides a  
means for your application to manage routing dynamically in addition to the  
fixed routings you configure in the bridge’s TCP/IP to Modbus Plus mapping  
table.  
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Configuring the Bridge  
3.10  
Clearing the Bridge’s Configuration  
You may want to clear the bridge’s current setup: its IP configuration and mapping  
tables. For example, if you intend to reinstall the bridge into a different application  
you may wish to assign a new configuration to the bridge for that application.  
You will be using the CFGUTIL utility to clear the bridge’s configuration. Here are  
the steps.  
Setup  
If a keyboard and monitor are already connected to the bridge, stop the bridge by  
pressing Q and confirming that you want to quit the bridge application.  
If a keyboard and monitor are not connected, remove power to the bridge and  
connect them to the bridge’s connector panel. Restore power to the bridge. If the  
bridge does not display its CFGUTIL menu, stop the bridge application by pressing  
Q and confirming that you want to quit the bridge application.  
Clearing the Configuration  
At the C:\ prompt, enter: CFGUTIL to start the configuration utility.  
The CFGUTIL menu should now be displayed. An example is shown in Figure 14.  
Your menu should display your current configuration for the bridge.  
Edit the CFGUTIL menu fields as follows:  
H
H
H
H
H
IP Address: Enter bootp into this field.  
Net Mask: Clear this field.  
Name Server: Clear this field.  
Gateway: Clear this field.  
Domain: Clear this field.  
When you finish editing the fields, press Escape. You will be prompted:  
Wr i t e f i l e s t o di s k?  
Enter Y to save the configuration. This will return you to the C:\ prompt.  
Delete the file C:\RTE.CFG.  
The bridge will now be cleared to its original configuration.  
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Using the Bridge Software  
4
H
H
Bridge Software Contents: SW--MBPE--000  
Using the Software in Custom Configurations  
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Using the Bridge Software  
4.1  
Bridge Software Contents: SW--MBPE--000  
The bridge software is available as Schneider part number SW--MBPE--000 for  
custom bridge hardware configurations. It is on two 3.5--inch (1.44 MB) disks.  
4.1.1  
Bridge Software Disk (31000020)  
The Bridge Software disk provides files to enable a PC with Ethernet and Modbus  
Plus network interfaces to function as a bridge.  
This software provides the bridge’s application program and diagnostics, and is  
also used to configure the bridge locally. The disk contains these files:  
Table 18 SW--MBPE--000 Files (Disk 31000020)  
File  
Purpose  
AUTOEXEC.BAT  
CONFIG.SYS  
GATELOOP.BAT  
SGATE.EXE  
BDRESET.EXE  
MBPHOST.SYS  
CFGUTIL.EXE  
CFGUTIL.HLP  
MBPSTAT.EXE  
PING.EXE  
Startup at bridge initialization  
Startup at bridge initialization  
Runs the bridge application  
Bridge application program  
Initializes the Modbus Plus card  
Driver for the Modbus Plus card  
Configures the bridge IP setup, MB+ and TCP mapping  
Help screen for CFGUTIL.EXE  
Diagnostic tool for the Modbus Plus network connection  
Diagnostic tool for the Ethernet network connection  
Diagnostic tool for BOOTP server communication  
Contains the bridge’s IP setup and network parameters  
Text file with current release information and application notes  
TCPINFO.EXE  
WATTCP.CFG  
README  
4.1.2  
Host Software Disk (31000017)  
The Host Software disk provides files for configuring the bridge at a host PC and  
downloading the configuration to the bridge. The disk contains these files:  
Table 19 SW--MBPE--000 Files (Disk 31000017)  
File  
Purpose  
CFGUTIL.EXE  
CFGUTIL.HLP  
DWNLD.EXE  
README  
Configures the bridge IP setup, MB+ and TCP mapping  
Help screen for CFGUTIL.EXE  
Download program for host  
Text file with current release information and application notes  
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Using the Bridge Software  
4.2  
Using the Software in Custom Configurations  
The bridge software can be used in custom configurations in which you supply  
your own PC and network interface hardware.  
4.2.1  
Minimum Requirements for Custom Bridge Configurations  
Minimum requirements for custom bridge configurations are:  
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386 or faster PC  
Minimum 1 MB RAM.  
DOS 5.0 or higher  
Ethernet card with packet driver and configuration software  
Modicon SA85 Modbus Plus card.  
4.2.2  
Setting Up a Custom Bridge Configuration  
The general procedure you should follow for installing the bridge software in a  
custom configuration is:  
H
If your Modbus Plus network application is currently active, ensure that it will  
not be disrupted by the addition of the new bridge node.  
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Install your Modicon SA85 Modbus Plus card using the guidebook supplied  
with the card. See section 2.2 in this bridge manual for information about  
setting up the card’s Modbus Plus node address.  
H
H
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Install your Ethernet card using the guidebook for that card.  
Connect the Ethernet and Modbus Plus network cables to your cards.  
Install your Ethernet packet driver according to the instructions supplied with  
that program.  
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Copy the Bridge Software (31000020) disk files to the root directory of your  
bridge PC, except for AUTOEXEC.BAT and CONFIG.SYS. (You will be  
using your existing AUTOEXEC.BAT and CONFIG.SYS files.)  
H
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Note that your root directory now contains a GATELOOP.BAT file. This is  
the file which will start the bridge application.  
Edit the GATELOOP.BAT file to remove the call to the bridge’s Ethernet  
driver PNPPD.COM. (You will be using your own driver.)  
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Using the Bridge Software  
H
Make sure your Ethernet packet driver program will be called as it was setup  
by the driver installation. Refer to your driver guidebook to ensure that it will  
be called properly.  
The driver may be called from your AUTOEXEC.BAT or CONFIG.SYS file.  
Note that you can also call the driver from your new GATELOOP.BAT file.  
If necessary, edit GATELOOP.BAT to call the driver. Typical calls to drivers  
pass a command line parameter 0x60 (hexadecimal 60) to define the driver  
interrupt.  
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Edit your CONFIG.SYS file to call the Modbus Plus driver MBPHOST.SYS.  
The entry must be:  
DEVI CE=MBPHOST. SYS / md000 / s 5d / n0 / r 2  
If you intend to start your bridge application at bootup of your PC, edit your  
AUTOEXEC.BAT file to call GATELOOP.BAT. There are no parameters.  
Reboot your PC to start the bridge application.  
If you intend to start your bridge application from your PC’s command line  
prompt, reboot your PC to set the changes in AUTOEXEC.BAT and  
CONFIG.SYS. Then start GATELOOP.BAT from the command line.  
There are no parameters.  
H
Setup your bridge’s internal configuration as described in section 3.2.  
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Uploading and Downloading Files  
5
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Configuring an HTTP server  
Uploading Files to a Host  
Downloading Files from a Host  
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Uploading and Downloading Files  
5.1  
Configuring an HTTP Server  
To upload and download files between your host computer and the bridge, you will  
need an HTTP server application running in the host. The server must have a  
cgi--bin directory immediately below the root directory. Here is a path example:  
<dr i ve : >\ <ht t p. r oot _di r e c t or y>\ c gi - bi n  
The cgi--bin directory must be configured for read--execute privileges.  
5.1.1  
Configuration Example  
Here are guidelines for configuring the Microsoft Personal Web Server software in  
Windows NT for bridge uploading and downloading. Refer to your server software  
guidebook for details.  
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Install the HTTP server application program in your host.  
Select the Windows Control Panel. Click the HTTP Server icon, and select  
Properties. This will open the ‘Personal Web Server Properties’ dialog.  
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Click the Administration tab, and click the ‘Administration’ button.  
Under ‘Select the PWS Service to View’, select ‘WWW Administrator’.  
Click the Service tab.  
Under the box ‘Password Authentication’ check ‘Allow anonymous’ and  
‘Basic’. Uncheck ‘Windows NT Challenge/Response’. Click OK.  
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Under ‘Select the PWS Service to View’, select ‘WWW Administrator’ again.  
Click the Directories tab.  
Click the Add button. In the ‘Directory’ box, enter:  
<dr i ve : >\ <ht t p. r oot _di r e c t or y>\ c gi - bi n  
where: <dr i ve : > and <ht t p. r oot _di r e c t or y> are the drive letter  
and root directory for your HTTP server.  
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Uploading and Downloading Files  
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Under the ‘Virtual Directory’ box there is a ‘Directory Alias’ box. Enter:  
/ c gi - bi n  
in the ‘Directory Alias’ box.  
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Under the ‘Access’ box check ‘Read’ and ‘Execute’. Click OK.  
Close the window with File --> Close. Click OK.  
Copy the program DWNLD.EXE from the host software diskette to the HTTP  
cgi--bin directory you have configured on the host machine:  
<dr i ve : >\ <ht t p_r oot _di r e c t or y>\ c gi - bi n  
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Uploading and Downloading Files  
5.2  
Uploading Files to a Host  
Before initiating your first upload:  
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Install an HTTP server on the host machine and configure it as described in  
Section 5.1.  
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Copy the program DWNLD.EXE from the host software diskette to the HTTP  
cgi--bin directory you have configured on the host machine:  
<dr i ve : >\ <ht t p_r oot _di r e c t or y>\ c gi - bi n  
5.2.1  
5.2.2  
Upload Overview  
The bridge configuration is stored in two files, WATTCP.CFG and RTE.CFG, each  
of which can be uploaded to a host. To upload a file, write the host URL and  
filename as data to register 11 in the bridge. After the upload, the status of the  
upload will be stored in the file MODICON.LOG in the host cgi--bin directory.  
Initiating an Upload  
You can initiate the host upload from a TCP/IP node or Modbus Plus node.  
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From a TCP/IP node, address the bridge at its IP address and use a  
destination ID (Modbus device address) of 255. The bridge reserves  
address 255 to invoke an upload operation between the host and bridge.  
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From a Modbus Plus node, address the bridge at its Modbus Plus address  
and use an address of 0 (zero) in the third routing byte. This specifies that  
the bridge is to perform an upload to a host machine.  
Figure 19 Example: Addressing from Modbus Plus for Host Uploading  
12  
8
0
0
0
Bridge  
Modbus Plus  
Address  
Bridge  
Path  
Specifies  
host  
upload  
operaton  
Not  
Used  
Not  
Used  
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Uploading and Downloading Files  
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In the Modbus command to the bridge, perform a register write to register 11  
in the bridge. Write the host URL as data into that register.  
The URL can be in the absolute IP address form:  
205. 167. 7. 0/ c gi - bi n/ <f i l e na me >  
or it can be in the form:  
/ / <hos t _na me / doma i n/ c gi - bi n/ <f i l e na me >  
where <f i l e na me > is the name of the file to be uploaded (WATTCP. CFG or  
RTE. CFG).  
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When the upload is complete, examine the MODICON.LOG file to see the  
contents of the uploaded file:  
/ / <hos t _ma c hi ne >/ <ht t p_r oot _di r e c t or y>/ c gi - bi n/ modi c on. l og  
The new contents will be appended to an existing MODICON.LOG file.  
Note that the MODICON.LOG file can grow large as new data is appended.  
It is the user’s responsibility to delete or edit the file as required.  
5.2.3  
Upload Example  
Here is an example of the contents of a message to upload the file RTE.CFG to  
the host path: //username.modicon.com/WebShare/wwwroot//cgi--bin.  
The following contents would be written into register 11 in the bridge:  
/ / us e r na me . modi c on. c om/ We bSha r e / wwwr oot / c gi - bi n/ r t e . c f g  
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Uploading and Downloading Files  
5.3  
Downloading Files to the Bridge  
Before initiating your first download:  
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Install an HTTP server on the host machine and configure it as described in  
Section 5.1.  
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Copy the program DWNLD.EXE from the host software diskette to the HTTP  
cgi--bin directory you have configured on the host machine:  
<dr i ve : >\ <ht t p_r oot _di r e c t or y>\ c gi - bi n  
5.3.1  
Download Overview  
You can download a new version of the bridge’s application SGATE.BIN file or  
mapping RTE.TXT file to the bridge. To download a file, write the host URL and  
filename as data to register 8 in the bridge. After the download, the status of the  
download will be stored in the file MODICON.LOG in the host cgi--bin directory.  
SGATE.BIN  
When the download is complete and the bridge is restarted, the bridge will copy  
SGATE.BIN to its application program SGATE.EXE. It will begin running this as its  
new application.  
RTE.TXT  
The bridge’s mapping tables are stored within the bridge in the file RTE.CFG.  
Before downloading new mapping, you must place it in a file named RTE.TXT.  
If you have previously uploaded RTE.CFG, the file’s contents are appended into  
the MODICON.LOG file in your cgi--bin directory. You can copy those RTE.CFG  
contents from MODICON.LOG and paste them into an RTE.TXT file. Then you  
can download the RTE.TXT.  
The RTE.TXT download will write a new RTE.CFG file in the bridge. When the  
download is complete and the bridge is restarted, the bridge will use this file’s  
contents as its new mapping tables between TCP and Modbus Plus.  
5.3.2  
Initiating a Download  
To initiate a download:  
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Put the file to be downloaded (SGATE. BI N or RTE. TXT) into the  
<ht t p_r oot _di r e c t or y> of the host machine.  
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Uploading and Downloading Files  
H
In the Modbus command to the bridge, perform a register write to register 8  
in the bridge. Write the host URL as data into that register.  
The URL can be in the absolute IP address form:  
205. 167. 7. 0/ <f i l e na me >  
or it can be in the form:  
/ / <hos t _na me / doma i n/ <f i l e na me >  
where <f i l e na me > is the name of the file to be downloaded (SGATE. BI N  
or RTE. CFG). Note that you specify RTE.CFG here, not RTE.TXT.  
H
When the download is complete, the download status will be contained in the  
MODICON.LOG file:  
/ / <hos t _ma c hi ne >/ <ht t p_r oot _di r e c t or y>/ c gi - bi n/ modi c on. l og  
The new contents will be appended to an existing MODICON.LOG file.  
Note that the MODICON.LOG file can grow large as new data is appended.  
It is the user’s responsibility to delete or edit the file as required.  
H
The bridge will automatically begin using the new downloaded configuration.  
5.3.3  
Download Example  
Here is an example of the contents of a message to download the file RTE.TXT  
from the host path: //username.modicon.com/WebShare/wwwroot.  
The following contents would be written into register 8 in the bridge:  
/ / us e r na me . modi c on. c om/ We bSha r e / wwwr oot / r t e . c f g  
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Diagnostic Tools  
6
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Diagnostics Overview  
Logging the Bridge’s Activity  
TCPINFO  
BDRESET  
PING  
MBPSTAT  
Your MBPSTAT Menu  
Your MBPSTAT Options  
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Diagnostic Tools  
6.1  
Diagnostics Overview  
The bridge contains software tools for diagnosing communication problems on  
both the Ethernet and Modbus Plus network. Here is how you can approach a  
suspected problem to localize it to one of the network interfaces.  
6.1.1  
6.1.2  
Logging the Bridge’s Activity  
Before running diagnostics you can log the communication activity in the bridge.  
This can help you to determine the kind of diagnostics you may want to run.  
Logging is detailed in Section 6.2.  
Ethernet Diagnostics  
First determine if the bridge can be recognized by your Ethernet host.  
TCPINFO  
If you have a BOOTP server and cannot access the bridge from it, run the  
diagnostic TCPINFO in the bridge and try to access the bridge again.  
You can start PING through a keyboard and monitor connected to the bridge.  
After about 30 seconds, TCPINFO should report whether the bridge can be  
configured by BOOTP.  
TCPINFO is detailed in Section 6.3.  
PING  
The bridge has the PING utility program which you can use to check Ethernet  
connections between the bridge and other IP addresses.  
You can start PING from your Ethernet host, or you can start it locally through a  
keyboard and monitor connected to the bridge.  
PING is detailed in Section 6.5.  
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Diagnostic Tools  
6.1.3  
Modbus Plus Diagnostics  
If you can communicate with the bridge from your Ethernet host, but cannot pass  
messages to Modbus Plus nodes, you can test the bridge’s communication on  
Modbus Plus.  
MBPSTAT  
Use the bridge’s MBPSTAT diagnostic to check Modbus Plus communication.  
MBPSTAT will show a list of active Modbus Plus nodes that are recognized by the  
bridge. It will also monitor network activity and record a node’s error statistics.  
MBPSTAT is detailed in Sections 6.6 through 6.17.  
BDRESET  
You can also initialize the bridge’s Modbus Plus card without having to cycle  
power, by using the BDRESET program.. It is detailed in Section 6.4.  
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Diagnostic Tools  
6.2  
Logging the Bridge’s Activity  
Before running diagnostics you can build a log of the communication activity  
performed by the bridge. This can help you to determine the kind of diagnostics  
you may want to run.  
You can set the bridge to log all traffic initiated on either its Ethernet network or  
Modbus Plus network. You can also set it to log errors only.  
How Logging Works  
Logging is turned on and off through a keyboard and monitor connected to the  
bridge. The bridge provides five logging modes. It writes the log results with  
date/time stamping to a file BRIDGE.LOG, as well as to the monitor.  
The BRIDGE.LOG file is self--wrapping and contains enough space for several  
hundred lines of logging.  
Note that logging will slow the throughput of any application running in the bridge.  
Particularly the use of Mode C (TCP/IP Tick Logging) will generate constant  
logging messages.  
Setup  
If a keyboard and monitor are not connected to the bridge, remove power to the  
bridge and connect them to the bridge’s panel. Restore power to the bridge.  
To invoke logging, the bridge application must be running. If the bridge displays its  
CFGUTIL menu on startup, press Escape to close the menu. This should display  
the bridge’s C:\ > prompt. Enter GATELOOP to start the bridge.  
Starting Logging  
With the bridge running, type a letter: A, B, C, D, or E (upper case letter) to select  
a logging mode.  
The logging modes are:  
A
B
C
D
E
Channel Logging.  
TCP/IP Error Logging.  
TCP/IP Tick Logging.  
Routine Logging.  
Routine Error Logging.  
Stopping Logging  
To stop logging type a letter: a, b, c, d, or e (lower case letter) to turn off the  
selected logging mode. Type the letter f to turn off all logging.  
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Diagnostic Tools  
6.2.1  
Notes for Logging  
Mode A: Channel Logging Menu  
When you invoke the Channel Logging mode A (On) or a (Off), you will be  
prompted with the message:  
Ent e r  
M
T
B
f or MBP i ni t i a t e d s e s s i ons  
f or TCP i ni t i a t e d s e s s i ons  
f or bot h  
Se s s i on i ni t i a t or ? _  
Enter: M to select sessions initiated from Modbus Plus, T for sessions initiated  
from TCP/IP, or B to select sessions initiated from either network.  
Next you will be prompted:  
Pl e a s e e nt e r t he s e s s i ons you wa nt t o ( un) l og ( a - p)  
Ent e r X whe n done ,  
Se s s i on? _  
T t o l og a l l s e s s i ons  
Channels are identified by 16 letters: a...p. The channels are made available to  
incoming transactions as they become open within the bridge, with p being the  
first available channel. Note that the letters a...p correspond to the sequence in  
which the channels are made available. They do not correspond to a specific  
Program path or Data path number.  
For example, if the bridge is inactive when it receives a transaction, the transaction  
will be processed on channel p. If the transaction is initiated from Modsoft and  
requires both a Program path and a Data path, then it will be processed on two  
channels, p and o.  
Channels are freed for new transactions in the order p ----> a as they become  
available.  
Saving the Logging Status and Log File  
The current logging mode is saved to the WATTCP.CFG file in the field:  
l og_l e ve l =<l e ve l >  
where <l e ve l > is the currently selected mode.  
defaults are:  
l og_e r r or s (all TCP/IP and routine errors)  
log_channels (all channels)  
l og_me s s a ge s (all routine messages)  
Both the WATTCP.CFG and the BRIDGE.LOG file can be uploaded to a host.  
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Diagnostic Tools  
6.3  
TCPINFO  
TCPINFO is provided to diagnose BOOTP server problems. If you have a BOOTP  
server and cannot access the bridge from it, run TCPINFO in the bridge and try to  
access the bridge again. The program is run from the bridge’s command line.  
Setup  
If a keyboard and monitor are already connected to the bridge, stop the bridge by  
pressing Q and confirming that you want to quit the bridge application.  
If a keyboard and monitor are not connected, remove power to the bridge and  
connect them to the bridge’s connector panel. Restore power to the bridge.  
If the bridge displays its CFGUTIL menu, press Escape to close the menu. This  
should display the bridge’s C:\ > prompt.  
Starting  
To start the TCPINFO program, enter: TCPINFO  
After a maximum of 30 seconds, TCPINFO should report whether the bridge can  
be configured by BOOTP. If it cannot be configured by BOOTP, you will need to  
run the CFGUTIL configuration program.  
6.4  
BDRESET  
BDRESET initializes the bridge’s Modbus Plus card, as in power--up of the bridge.  
The program is run from the bridge’s command line.  
Setup  
Setup the bridge with a keyboard and monitor as described for TCPINFO. Note  
that removing power to connect the keyboard and monitor will also initialize the  
bridge (without the need to run BDRESET). However you might want to have the  
keyboard and montior connected to run further diagnostics.  
Starting  
To start the BDRESET program, enter: BDRESET /s5d  
You should see the bridge now attempting to join the Modbus Plus network, as  
indicated in its Modbus Plus LEDs. Section 2.7 describes the LED patterns.  
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Diagnostic Tools  
6.5  
PING  
PING is a utility program you can use to check Ethernet connections between the  
bridge and other IP addresses.  
6.5.1  
Starting PING at the Bridge  
PING can be run from the bridge’s command line. You can get the command line  
prompt by initializing the bridge without a connection to a BOOTP server.  
Setup  
If a keyboard and monitor are already connected to the bridge, stop the bridge by  
pressing Q and confirming that you want to quit the bridge application.  
If a keyboard and monitor are not connected, remove power to the bridge and  
connect them to the bridge’s connector panel. Restore power to the bridge.  
If the bridge displays its CFGUTIL menu, press Escape to close the menu. This  
should display the bridge’s C:\ > prompt.  
Starting  
To start the PING program, enter: PING <NOE_ip_address>  
You should see a message indicating that the <NOE_ip_address> is reachable.  
6.5.2  
Starting PING at the Host  
PING can be run from the Ethernet host to determine if the bridge is reachable on  
the network.  
Setup  
The bridge must be running in order for it to respond. If it is not already running,  
connect a keyboard and monitor and initialize it as described above. Display the  
bridge’s C:\ > prompt.  
To start the bridge enter: GATELOOP  
Starting  
PING the bridge from the host: PING <bridge_ip_address>  
You should see a message indicating that the <bridge_ip_address> is reachable.  
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Diagnostic Tools  
6.6  
MBPSTAT  
MBPSTAT is the Modbus Plus network diagnostic utility. You can use it to view a  
list of active nodes, monitor network activity, and record a node’s error statistics.  
6.6.1  
Starting MBPSTAT  
MBPSTAT is run from the bridge’s command line. You can get the command line  
prompt by initializing the bridge without a connection to a BOOTP server.  
Setup  
If a keyboard and monitor are already connected to the bridge, stop the bridge by  
pressing Q and confirming that you want to quit the bridge application.  
If a keyboard and monitor are not connected, remove power to the bridge and  
connect them to the bridge’s connector panel. Restore power to the bridge.  
If the bridge displays its CFGUTIL menu, press Escape to close the menu. This  
should display the bridge’s C:\ > prompt.  
Starting  
To start the program, enter: MBPSTAT /s5d  
6.6.2  
Selecting the Network to be Analyzed  
The program will next prompt you for a routing path to the Modbus Plus network  
you want to analyze. For example, you can examine the local network, or you can  
examine a remote network that is accessed through a series of BP85 Bridge Plus  
devices.  
Note that you are selecting a target network only ---- the address of any specific  
node on that network will be entered later as you run the program.  
You can enter up to four network routing bytes. The last non--zero entry defines  
the target network. The first zero entry terminates the routing. Routing examples  
are shown in Figure 20. Your entry screen is shown in Figure 22.  
6.6.3  
Network Selection Examples  
If you enter a routing path of all zeros, you are disabling routing to other networks.  
You are instructing the program to analyze the local Modbus Plus network (the one  
to which your local host based device is directly connected).  
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Diagnostic Tools  
If you enter a routing path of 22.00.00.00, you are instructing the program to  
analyze a second network that is connected to the remote side of a Bridge Plus  
device, whose address is 22 on the local network.  
If you enter 22.24.00.00, you are instructing the program to analyze a third  
network that is connected through two Bridge Plus devices ---- through address 22  
on the local network, and then through address 24 on the second network.  
While running MBPSTAT, you can change the routing path to select another  
network through an option on your program menu.  
Figure 20 Typical MBPSTAT Routing  
Bridge  
Running  
MBPSTAT  
Node  
Node  
MBPSTAT  
Routing  
00 00 00 00  
Local Network  
22  
BP85  
Second Network  
24  
22 00 00 00  
BP85  
Third Network  
22 24 00 00  
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Diagnostic Tools  
6.7  
Your MBPSTAT Menu  
When MBPSTAT starts, your Options menu appears. The bridge’s node address  
is at the top of the menu, together with the network routing path being analyzed.  
Figure 21 MBPSTAT Menu  
MODBUS PLUS NETWORK STATUS ve r s i on 2. 10  
Node : 30  
Ada pt e r :  
0
Rout i ng: 22 24 00. 00. 00  
SELECT OPTI ON  
Us e  
or t ype f i r s t c ha r , t he n ENTER  
1
2
3
4
5
6
7
8
9
Se t Rout i ng Pa r a me t e r s  
Moni t or Ne t wor k Ac t i vi t y  
Re a d Gl oba l Da t a  
Gl oba l Da t a Pr e s e nt Ta bl e  
Node Ac t i ve St a t i on Ta bl e  
Node Er r or St a t i s t i c s  
Toke n St a t i on Ta bl e  
Toke n Owne r Wor k Ta bl e  
Cur r e nt I nt e r na l Pa t h Tr a ns a c t i ons  
10 Show Node Pe r s ona l i t y  
Q
Qui t  
Copyr i ght ( c ) SCHNEI DER AUTOMATI ON I nc .  
Al l Ri ght s Re s e r ve d.  
To select an option, use the cursor keys to move to the option, then press Enter.  
You can also type in the option (1--10 or Q) and press Enter. To terminate any test  
and return to your options menu, press Escape.  
Entering Node Addresses  
Some options analyze an overall network, and do not require selection of a node.  
Other options analyze the activity of a single node. For those options, the program  
will prompt you for a node address. When prompted, enter the address of the node  
you wish to examine. Note that any node being analyzed will always be located on  
the network you previously specified as the network routing path.  
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Diagnostic Tools  
6.8  
Option 1: Set Routing Parameters  
Figure 22 Set Routing Parameters  
MODBUS PLUS NETWORK STATUS ve r s i on 2. 10  
Rout i ng I nf or ma t i on  
MODBUS PLUS Ada pt e r 1 i de nt i f i e d a s node 30.  
Ent e r ROUTI NG pa t h f i r s t byt e  
:
This option lets you specify a new routing path without having to restart MBPSTAT.  
The program will prompt you for each byte of routing.  
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Diagnostic Tools  
6.9  
Option 2: Monitor Network Activity  
Figure 23 Monitor Network Activity  
MODBUS PLUS NETWORK STATUS ve r s i on 2. 10  
Ada pt e r :  
Suc c e s s :  
Fa i l ur e :  
1
Gl oba l Da t a Ac t i vi t y, s t r i ke a ny ke y t o e xi t .  
60  
0
C
0
2
0
0
C
0
3
0
0
C
0
5
3
2
C
1
6
0
B
P
2
2
0
0
B
P
2
4
0
0
H
0
C
1
7
0
0
3
0
0
0
B
M
6
4
0
0
Node t ype s l i s t e d a bove node numbe r s :  
U=Unknown C=Cont r ol l e r BM=Br i dge Mux  
H=Hos t  
P=Pe e r I / O  
BP+Br i dge Pl us  
This option lists the nodes that exist on the network specified by the routing path.  
The program attempts to communicate with every node from address 1 to 64, and  
checks whether a response has been received from each node.  
The program also attempts to read global data from each active node and displays  
the number of words of global data read. The global data word count is displayed  
beneath each node’s address. Zeros will be displayed if no global data was read.  
If you are accessing a remote network through a Bridge Plus, the program will  
inform you that global data is not accessible through the bridge.  
The option runs continuously and displays a pass count until you terminate it by  
pressing Escape.  
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Diagnostic Tools  
6.10  
Option 3: Read Global Data  
Figure 24 Read Global Data  
MODBUS PLUS NETWORK STATUS ve r s i on 2. 10  
Gl oba l Da t a  
Ada pt e r :  
1
Suc c e s s : 3319  
Fa i l ur e :  
0
I nf or ma t i on f r om node  
5
( 05. 00. 00. 00. 00)  
1C1B 1E1D 201F 2221 2423 2625 2827 2A29  
2C2B 2D2C 2F2E 3130 3332  
This option continuously reads and displays global data from the selected node. If  
global data is present but is zero words in length, a ‘null data’ message is  
displayed.  
The option runs continuously and displays a pass count until you terminate it by  
pressing Escape.  
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Diagnostic Tools  
6.11  
Option 4: Global Data Present Table  
Figure 25 Global Data Present Table  
MODBUS PLUS NETWORK STATUS ve r s i on 2. 10  
Gl oba l Da t a Pr e s e nt Bi t Ma p  
Ada pt e r :  
Suc c e s s : 16421  
Fa i l ur e :  
1
0
I nf or ma t i on f r om node  
5
( 05. 00. 00. 00. 00)  
0
2
1
6
3
0
1
7
This option displays a map table of the nodes that have global data present, as  
seen by the specified node. Node addresses appearing in the table are those  
from which the specified node has received global data since the test was started.  
The nodes in the table are not necessarily the only ones active on the network.  
The option runs continuously and displays a pass count until you terminate it by  
pressing Escape.  
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Diagnostic Tools  
6.12  
Option 5: Node Active Station Table  
Figure 26 Node Active Station Table  
MODBUS PLUS NETWORK STATUS ve r s i on 2. 10  
Node Ac t i vi t y Bi t Ma p  
Ada pt e r :  
1
Suc c e s s : 115  
Fa i l ur e :  
0
I nf or ma t i on f r om node  
5
( 05. 00. 00. 00. 00)  
0
2
3
1
6
2
2
2
4
0
1
7
6
4
This option continuously queries the specified node for its list of active nodes and  
displays that list. Node addresses shown in normal video are those seen by the  
node as remaining active during the test. Node addresses in reverse video are  
those which were active at least once during the test, but which have  
subsequently gone inactive.  
The option runs continuously and displays a pass count until you terminate it by  
pressing Escape.  
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Diagnostic Tools  
6.13  
Option 6: Node Error Statistics  
Figure 27 Node Error Statistics  
MODBUS PLUS NETWORK STATUS ve r s i on 2. 10  
Node Er r or Count e r s , Pr e s s SPACE t o c l e a r .  
Ada pt e r :  
Suc c e s s : 182  
Fa i l ur e :  
1
0
I nf or ma t i on f r om node  
5
( 05. 00. 00. 00. 00)  
0
0
0
0
0
0
0
0
0
0
0
0
Pr e - t r a ns mi t de f e r r a l e r r or c ount e r  
Re c e i ve buf f e r DMA ove r r un e r r or c ount e r  
Re pe a t e d Comma nd r e c e i ve d e r r or c ount e r  
No Tr y ( none xi s t e nt s t a t i on) e r r or c ount e r  
Ca bl e A f r a mi ng e r r or  
Ca bl e B f r a mi ng e r r or  
Re c e i ve r CRC e r r or c ount e r  
Ba d pa c ke t l e ngt h e r r or c ount e r  
Tr a ns mi t buf f e r DMA unde r r un e r r or c ount e r  
Ba d i nt e r na l pa c ke t - l e ngt h e r r or c ount e r  
Ba d MAC- f unc t i on- c ode e r r or c ount e r  
Communi c a t i on f a i l e d e r r or c ount e r  
244 Good r e c e i ve pa c ke t s uc c e s s c ount e r  
0
0
0
0
0
No r e s pons e r e c e i ve d e r r or c ount e r  
Exc e pt i on r e s pons e r e c e i ve d e r r or c ount e r  
Une xpe c t e d pa t h e r r or c ount e r  
Une xpe c t e d r e s pons e e r r or c ount e r  
For got t e n t r a ns a c t i on e r r or c ount e r  
This option continuously queries the specified node for a list of its error statistics  
and displays the list. As the test runs, the counts in the display can be reset to  
zeros by pressing the Space bar.  
If you are running the utility on a single-cable network, one of the ‘framing error’  
counters will be incrementing continuously due to the open connection on the  
monitoring device’s other cable connector. For example, if your single cable is  
connected to the Cable A connector, the ‘Cable B framing error’ counter will  
increment continuously. In such cases you can disregard the counter.  
The option runs continuously and displays a pass count until you terminate it by  
pressing Escape.  
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Diagnostic Tools  
6.14  
Option 7: Token Station Table  
Figure 28 Token Station Table  
MODBUS PLUS NETWORK STATUS ve r s i on 2. 10  
Toke n St a t i on Ta bl e Bi t Ma p  
Ada pt e r :  
1
Suc c e s s :  
Fa i l ur e :  
165  
0
I nf or ma t i on f r om node  
5
( 05. 00. 00. 00. 00)  
0
2
0
3
1
6
2
2
2
4
3
0
1
7
6
4
This option displays a map table of the nodes that are passing the network token,  
as seen by the specified node.  
The option runs continuously and displays a pass count until you terminate it by  
pressing Escape.  
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Diagnostic Tools  
6.15  
Option 8: Token Owner Work Table  
Figure 29 Token Owner Work Table  
MODBUS PLUS NETWORK STATUS ve r s i on 2. 10  
Node Toke n Owne r Bi t Ma p  
Ada pt e r :  
Suc c e s s : 208  
Fa i l ur e :  
1
0
I nf or ma t i on f r om node 30  
1 2 3 4 5 6 7 8  
( 30. 00. 00. 00. 00)  
1
1
1
Da t a - ma s t e r t oke n owne r  
Da t a - ma s t e r ge t - ma s t e r - r e s pons e t r a ns f e r r e que s t  
Da t a - s l a ve t oke n owne r  
Da t a - s l a ve ge t - s l a ve - c omma nd t r a ns f e r r e que s t  
Pr ogr a m- ma s t e r t oke n owne r  
Pr ogr a m- ma s t e r ge t - ma s t e r - r e s pons e t r a ns r e que s t  
Pr ogr a m- s l a ve t oke n owne r  
Pr ogr a m- s l a ve ge t - s l a ve - c omma nd t r a ns f e r r e que s t  
Pr ogr a m- ma s t e r c onne c t - s t a t us  
Pr ogr a m- s l a ve a ut oma t i c l ogout r e que s t  
This option continuously queries the specified node for its list of internal paths that  
are active. The paths listed are the node’s internal data and program paths.  
As a path goes active its number is listed in the columns to the left. Paths shown  
in normal video are those remaining active during the test. Paths in reverse video  
are those which were active at least once during the test, but which have  
subsequently gone inactive.  
The option runs continuously and displays a pass count until you terminate it by  
pressing Escape.  
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Diagnostic Tools  
6.16  
Option 9: Current Internal Path Transactions  
Figure 30 Current Internal Path Transactions  
MODBUS PLUS NETWORK STATUS ve r s i on 2. 10  
Ada pt e r :  
1
Node Tr a ns a c t i on Count e r s , Pr e s s SPACE t o c l e a r . Suc c e s s :  
62  
0
Fa i l ur e :  
I nf or ma t i on f r om node 30  
( 30. 00. 00. 00. 00)  
PATH  
1
2
3
4
5
6
7
8
DM Ac t ua l  
DM Tot a l  
69  
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
DS Ac t ua l  
DS Tot a l  
6
0
0
0
0
0
3
0
3
0
3
0
0
0
3
0
PM Ac t ua l  
PM Tot a l  
210  
76  
0
0
0
0
0
0
0
0
0
0
0
0
0
0
PS Ac t ua l  
PS Tot a l  
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
St a t i on Ma na ge me nt I nput Comma nds Ac t ua l :  
St a t i on Ma na ge me nt I nput Comma nds Tot a l :  
194  
61  
Tot a l I nbound Comma nds :  
Tot a l Out bound Comma nds :  
0
74  
This option displays the count of transactions processed by each of the specified  
node’s internal paths. As the test runs, the counts in the display can be reset to  
zeros by pressing the Space bar.  
The option runs continuously and displays a pass count until you terminate it by  
pressing Escape.  
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Diagnostic Tools  
6.17  
Option 10: Node Personality  
Figure 31 Node Personality  
MODBUS PLUS NETWORK STATUS ve r s i on 2. 10  
Node Pe r s ona l i t y  
Ada pt e r :  
Suc c e s s : 108  
Fa i l ur e :  
1
0
I nf or ma t i on f r om node 30  
( 30. 00. 00. 00. 00)  
Node Numbe r = 30  
Node Type = Hos t  
Sof t wa r e ve r s i on = 2. 00  
Ne t wor k a ddr e s s = 30  
MAC s t a t e va r i a bl e = i dl e  
Pe e r St a t us = nor ma l l i nk ope r a t i on  
Toke n pa s s c ount e r = 33256  
Toke n r ot a t i on t i me = 11 mi l l i s e c onds  
This option displays information about the specified node, such as its node type  
and software version. It also shows information about the node’s current activity  
on the network.  
The option runs continuously and displays a pass count until you terminate it by  
pressing Escape.  
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Message Examples  
7
H
H
MSTR Example: TCP/IP Node  
MSTR Example: Modbus Plus Node  
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Message Examples  
7.1  
MSTR Example: TCP/IP Node  
This example shows a Modicon Modsoft screen for an MSTR function in a TCP/IP  
node. It writes one register of data to a destination node on Modbus Plus.  
H
H
H
H
H
The MSTR Function Code specifies a Write operation.  
One register of data is to be transferred.  
The destination register is 40000 (addressed as register 1).  
The bridge’s IP address is 205.167.7.66.  
The destination index is 1. The bridge will forward the message to the  
Modbus Plus node whose routing path is in this location in the bridge’s MB+  
Mapping table.  
Figure 32 MSTR in TCP/IP Node  
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Message Examples  
7.2  
MSTR Example: Modbus Plus Node  
This example shows a Modicon Modsoft screen for an MSTR function in a Modbus  
Plus node. It writes one register of data to a destination node on TCP/IP.  
H
H
H
H
The MSTR Function Code specifies a Write operation.  
One register of data is to be transferred.  
The destination register is 40000 (addressed as register 1).  
The bridge’s node address is 1. Note that the decimal value 1025 equals  
0401 hexadecimal, addressing a Modbus Plus Network Option Module  
(NOM) in backplane slot 04 and a node at address 01.  
H
The destination index is 28. The bridge will forward the message to the TCP  
node whose IP address is in this location in the bridge’s TCP Mapping table.  
Figure 33 MSTR in Modbus Plus Node  
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NCB Return Codes  
8
H
Network Control Block (NCB) Return Codes  
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NCB Return Codes  
8.1  
Network Control Block (NCB) Return Codes  
The bridge returns the following codes into the NCB_RETCODE field. Note that  
some application programs such as Modsoft may not map these codes to the  
correct error message.  
ERR_s uc c e s s  
0
/ * NCB c omma nd c ompl e t e d nor ma l l y */  
/ * Ba d s e nd or s t a t us buf f e r s i z e */  
/ * i nva l i d Ne t BI OS c omma nd */  
ERR_ba d_buf f e r _l e ngt h 1  
ERR_i nva l i d 3  
ERR_t i me out  
5
/ * Comma nd t i me - out ha s e xpi r e d */  
/ * Re c e i ve buf f e r not bi g e nough */  
/ * Ba d va l ue i n NCB_LSN */  
ERR_buf f e r _t oo_s ma l l  
ERR_ba d_s e s s i on_num 8  
ERR_no_RAM 9  
6
/ * LAN c a r d doe s n’ t ha ve e nough me mor y*/  
/ * Thi s s e s s i on i s c l os e d */  
ERR_s e s s i on_c l os e d 0xa  
ERR_c a nc e l 0xb  
/ * Comma nd ha s be e n c l os e d */  
ERR_dup_l oc a l _na me 0xd  
ERR_na me _t a bl e _f ul l 0xe  
ERR_a c t i ve _s e s s i on 0xf  
/ * Na me a l r e a dy e xi s t s f or t hi s PC */  
/ * Loc a l na me t a bl e i s f ul l */  
/ * Ca n’ t de l e t e na me  
-
us e d i n s e s s i on*/  
ERR_s e s s _t a bl e _f ul l 0x11 / * Loc a l s e s s i on t a bl e i s f ul l */  
ERR_no_l i s t e n 0x12  
ERR_ba d_na me _num 0x13  
ERR_no_a ns we r 0x14  
ERR_no_l oc a l _na me 0x15  
ERR_dupl i c a t e _na me 0x16  
ERR_ba d_de l e t e 0x17  
ERR_a bnor ma l _e nd 0x18  
ERR_na me _e r r or 0x19  
ERR_ba d_pa c ke t 0x1a  
ERR_c a r d_bus y 0x21  
ERR_t oo_ma ny_c mds 0x22  
ERR_ba d_c a r d_num 0x23  
ERR_c a nc e l _done 0x24  
ERR_no_c a nc e l 0x26  
ERR_bus y 0xf f  
/ * Re mot e PC not l i s t e ni ng f or c a l l */  
/ * Ba d va l ue i n NCB_NUM f i e l d */  
/ * No a ns we r t o CALL or no s uc h r e mot e */  
/ * No s uc h na me i n l oc a l na me t a bl e */  
/ * Na me i s i n us e e l s e whe r e on ne t */  
/ * Na me i nc or r e c t l y de l e t e d */  
/ * Se s s i on a bor t e d a bnor ma l l y */  
/ * 2 or mor e i de nt i c a l na me s i n us e ! */  
/ * Ba d Ne t BI OS pa c ke t on ne t wor k */  
/ * ne t wor k c a r d i s bus y */  
/ * Too ma ny NCB c omma nds que ue d */  
/ * ba d NCB_LANA_NUM - mus t be 0 */  
/ * c omma nd f i ni s he d whi l e c a nc e l l i ng */  
/ * Comma nd c a n’ t be c a nc e l l e d */  
/ * St i l l pr oc e s s i ng c omma nd */  
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Glossary  
9
address  
On a network, the identification of a station. In a frame, a grouping of bits that  
identifies the frame’s source or destination.  
API  
Application Program Interface. The specification of functions and data used by one  
program module to access another; the programming interface that corresponds to  
the boundary between protocol layers.  
ARP  
Address Resolution Protocol. A network layer protocol used to determine the  
physical address which corresponds to the IP address for a host on the network.  
ARP is a sub--protocol which operates under TCP/IP.  
BOOTP  
Bootstrap Protocol. A UDP/IP--based protocol that allows a host to configure itself  
dynamically. Provides a means to assign a host its IP address, typically without  
user intervention.  
bps  
Bits per second.  
bridge  
A device that connects two or more physical networks which use the same  
protocol. Bridges read frames and decide whether to transmit or block them based  
on their destination address.  
client  
A computer process requesting service from other computer processes.  
dest_idx  
The destination field in a Modbus message. Corresponds to the Modbus device  
addressed in the message.  
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Glossary  
default gateway  
The IP address of the network or host to which all packets addressed to an  
unknown network or host are sent. The default gateway is typically a router or  
other device.  
DNS  
Domain Name System. A protocol within TCP/IP used to find IP addresses based  
on host names.  
field  
A logical grouping of contiguous bits that convey one kind of information, such as  
the start or end of a message, an address, data or an error check.  
frame  
A group of bits which form a discrete block of information. Frames contain network  
control information or data. The size and composition of a frame is determined by  
the network technology being used.  
framing types  
Two common framing types are Ethernet II and IEEE 802.3.  
FTP  
File Transfer Protocol. A networking protocol used to exchange files between  
stations on a network or over the Internet.  
gateway  
A device which connects networks with dissimilar network architectures and which  
operates at the Application Layer. This term may refer to a router.  
host  
A node on a network.  
hostname  
A domain name given to a specific computer on a network and used to address  
that computer.  
HTTP  
HyperText Transport Protocol. A protocol used to deliver hypertext documents.  
hub  
A device which connects a series of flexible and centralized modules to create a  
network.  
ICMP  
Internet Control Message Protocol. A protocol within TCP/IP used to report errors  
in datagram transmission.  
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Glossary  
Internet  
The global interconnection of TCP/IP based computer communication networks.  
IP  
Internet Protocol. A common network layer protocol. IP is most often used with  
TCP.  
IP Address  
Internet Protocol Address. A 32--bit address assigned to hosts using TCP/IP.  
layer  
In the OSI model, a portion of the structure of a device which provides defined  
services for the transfer of information.  
MAC Address  
Media Access Control address. The hardware address of a device. A MAC  
address is assigned to an Ethernet TCP/IP module in the factory.  
network  
Interconnected devices sharing a common data path and protocol for  
communication.  
node  
An addressable device on a communications network.  
OSI model  
Open System Interconnection model. A reference standard describing the  
required performance of devices for data communication. Produced by the  
International Standards Organization.  
packet  
The unit of data sent across a network.  
PING  
Packet Internet Groper. A program used to test whether a destination on a network  
can be reached.  
port  
An access point for data entry or exit within a host using TCP services.  
protocol  
Describes message formats and a set of rules used by two or more devices to  
communicate using those formats.  
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Glossary  
repeater  
A device that connects two sections of a network and conveys signals between  
them without making routing decisions or filtering packets.  
router  
A device that connects two or more sections of a network and allows information  
to flow between them. A router examines every packet it receives and decides  
whether to block the packet from the rest of the network or transmit it. The router  
will attempt to send the packet through the network by the most efficient path.  
server  
Provides services to clients. This term may also refer to the computer on which  
the service is based.  
socket  
The association of a port with an IP address, serving as an identification of sender  
or recipient.  
stack  
The software code which implements the protocol being used. In the case of the  
NOE modules it is TCP/IP.  
STP  
Shielded Twisted Pair. A type of cabling consisting of several strands of wire  
surrounded by foil shielding, twisted together.  
subnet  
A physical or logical network within an IP network, which shares a network  
address with other portions of the network.  
subnet mask  
Used to indicate which bits in an IP address identify a subnet.  
switch  
A network device which connects two or more separate network segments and  
allows traffic to be passed between them. A switch determines whether a frame  
should be blocked or transmitted based on its destination address.  
TCP  
Transmission Control Protocol.  
TCP/IP  
A protocol suite consisting of the Transmission Control Protocol and the Internet  
Protocol; the suite of communications protocols on which the Internet is based.  
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Glossary  
UDP  
User Datagram Protocol. A protocol which transmits data over IP.  
URL  
Uniform Resource Locator. The network address of a file.  
UTP  
Unshielded Twisted Pair. A type of cabling consisting of insulated cable strands  
which are twisted together in pairs.  
Winsock  
The Microsoft implementation of the Windows Sockets networking API based on  
the Berkeley UNIX Sockets interface for supporting TCP/IP.  
WWW  
World Wide Web. A hypertext--based, distributed information system in which  
clients and servers are freely available.  
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