USER
MANUAL
MODEL IM1/I4
Ethernet Bridge with
Integral 4-Port Hub
QuikConnect™ Module
Part# 07MIM1/I4-C
Doc# 090141UC
Revised 07/19/00
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(301) 975-1000
TECHNICAL SUPPORT
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2.0 GENERAL INFORMATION
2.3 TYPICAL APPLICATION
Thank you for your purchase of this Patton Electronics product.
This product has been thoroughly inspected and tested and is warrant-
ed for One Year parts and labor. If any questions or problems arise
during installation or use of this product, please do not hesitate to con-
ton.com.
The Model IM1/I4 QuickConnect™ is designed to plug directly
into the rear of a Patton Electronics baseband modem (e.g. Model
1092A or 1095). The Model IM1/I4 is designed to be used as one of a
pair of units. Figure 1 (below) illustrates a typical Model IM1/I4 instal-
lation.
Rack Mounted
1095RC with
IM2RC Bridge Module
2.1 FEATURES
1095 with
IM1/I4 Hub
Module
• Standard interface module for use in QuikConnect platform
• Integral 4-Port HUB
• Industry standard RJ-45 10Base-T connections (four)
• Transparent LAN bridging
10Base-T
Workstations
• PPP (Point to Point Protocol RFC 1661) with Bridging Control
Protocol (RFC 1638)
10Base-T
Ethernet
• 4096 MAC address table
LAN
• 1 MB RAM; 128 KB FLASH
• Throughput latency of 1 frame
Figure 1. Typical Model IM1/I4 application
• Automatic LAN MAC address aging
2.2 DESCRIPTION
The Patton Model IM1/I4 QuikConnect™ is an Ethernet Bridge
with built-in four (4) port hub. The IM1/I4 interface module provides
LAN extension when used in conjunction with either the IM1/I,
IM2RC/IA, or IM1/I4 modules. The module performs transparent
Ethernet bridging and functions at the MAC level. As such, the mod-
ule, and its communications infrastructure, is transparent to higher
level protocols such as TCP/IP, DECnet, NETBIOS and IPX network
protocols. Only broadcasts, multicasts, or frames destined for peered
LAN are forwarded. The Model IM1/I4 is 802.3 compliant and supports
PPP (RFC 1661) with Bridging Control Protocol (RFC 1638).
Once installed in the local Patton base unit, the Patton IM1/I4
works in a “plug and play” manner to forward LAN broadcasts, multi-
casts and frames destined for the peered Ethernet LAN at the remote
end (the Patton base unit at the remote end must be equipped with an
IM/I, IM1/I4 or IM2RC/I module). Using the Patton IM1/I4, Ethernet
LANs can be linked over leased 2-wire/4-wire, DDS, PCM and campus
fiber circuits.
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Patton
IM1/I4
Bridge
Router
3.0 PPP OPERATIONAL BACKGROUND
PPP is a protocol used for multi-plexed transport over a point-
to-point link. PPP operates on all full duplex media, and is a sym-
metric peer-to-peer protocol, which can be broken into three main
components:1. A standard method to encapsulate datagrams over
serial links; 2. A Link Control Protocol (LCP) to establish, configure,
and test the data-link connection; 3. A family of Network Control
Protocols (NCPs) to establish and configure different network layer
protocols.
In order to establish communications over a point-to-point link,
each end of the PPP link must first announce its capabilities and
agree on the parameters of the link’s operation. This exchange is
facilitated through LCP Configure-Request packets.
Ethernet LAN
PEC Device w/ Serial I/F
Figure 2. Cisco router with serial interface, configured as PPP Half Bridge.
For example, the customer site is assigned the addresses
192.168.1.0/24 through 192.168.1.1/24. The address
192.168.1.1/24 is also the default gateway for the remote net-
work. The above settings remove any routing/forwarding intel-
ligence from the CPE. The associated Cisco configuration will
set serial interface (s0) to accommodate half bridging for the
above example.
Authentication is optional under PPP. In a point-to-point
leased-line link, incoming customer facilities are usually fixed
in nature, therefore authentication is generally not required. If
the foreign device requires authentication via PAP or CHAP,
the PPP software will respond with default Peer-ID consisting
of the units Ethernet MAC address and a password which
consists of the unit’s Ethernet MAC address.
Some networking systems do not define network numbers
in packets sent out over a network. If a packet does not have
a specific destination network number, a router will assume
that the packet is set up for the local segment and will not for-
ward it to any other sub-network. However, in cases where
two devices need to communicate over the wide-area, bridg-
ing can be used to transport non-routable protocols.
Figure 3 illustrates transparent bridging between two
routers over a serial interface (s0). Bridging will occur
between the two Ethernet Interfaces on Router A (e0 and e1)
and the two Ethernet Interfaces on Router B (e0 and e1).
Once the link has been established and optional facilities have
been negotiated, PPP will attempt to establish a network protocol.
PPP will use Network Control Protocol (NCP) to choose and con-
figure one or more network layer protocols. Once each of the net-
work layer protocols have been configured, datagrams from the
established network layer protocol can be sent over the link. The
link will remain configured for these communications until explicit
LCP or NCP packets close the link down, or until some external
event occurs.
The PPP Bridging Control Protocol (BCP), defined in RFC
1638, configures and enables/disables the bridge protocol on
both ends of the point-to-point link. BCP uses the same
packet exchange mechanism as the Link Control Protocol
(LCP). BCP is a Network Control Protocol of PPP, bridge
packets may not be exchanged until PPP has reached the
network layer protocol phase.
3.1 Applications
In situations where a routed network requires connectivity
to a remote Ethernet network, the interface on a router can
be configured as a PPP IP Half Bridge. The serial line to the
remote bridge functions as a Virtual Ethernet interface, effec-
tively extending the routers serial port connection to the
remote network. The bridge device sends bridge packets
(BPDU's) to the router's serial interface. The router will
receive the layer three address information and will forward
these packets based on its IP address.
!
Serial Interface
no ip routing
!
interface Ethernet0
ip address 1.1.1.1 255.255.255.0
bridge-group 1
!
interface Serial0
ip address 1.1.1.1 255.255.255.0
Patton DSL Modem
with Ethernet Interface
Router A
S0
e0
LAN
S1
LAN
Using Bridge-Groups, multi-
ple remote LANs can be
bridged over the wide-area.
Router B
encapsulation PPP
bridge-group 1
!
S1
S0
Figure 2 shows a typical Cisco router with a serial interface
configured as a PPP Half Bridge. The router serial interface uses
a remote device that supports PPP bridging to function as a
node on the remote Ethernet network. The serial interface on the
Cisco will have an IP address on the same Ethernet subnet as
the bridge.
interface Serial1
ip address 2.2.2.2 255.255.255.0
bridge-group 1
!
bridge 1 protocol ieee
!
e0
e1
LAN
LAN
LAN
Serial Interface
Figure 3. Transparent bridging between two routers over a serial link.
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3.0 CONFIGURATION
4.0 INSTALLATION
The Model IM1/14 module plugs into Patton’s fiber and copper
baseband modems to provide Ethernet LAN extension. The IM1/14
has no switches or jumpers and does not need to be configured.
However, factors such as type of medium, throughput across the link
and clocking mode must be determined by the settings of the base-
band modems. Please refer to your baseband modem (i.e. 1092A,
1095, etc) to make the following settings.
The Model IM1/I4 is completely plug and play. This section tells
you how to make the connections.
4.1 INSTALLING THE QUICKCONNECT™ MODULE
Each Quick Connect Module™ has a 50-pin card edge connector
on one side and an ethernet interface on the other. The instructions
below describe how to remove the existing QuickConnect™ Module
and how to install the new IM1/I4 module. If your base unit does not
have an existing QuickConnect™ already installed, please skip to sec-
tion 4.1.2.
1) Bit Rate: The DTE rate setting of your base unit corresponds
to the throughput of your IM1/14 bridge module. Use higher
speeds to allow maximum throughput to your extended LAN.
NOTE: The IM1/14 only supports synchronous speeds.
4.1.1 Removing the Existing QuickConnect™ Module
2) Clocking Mode: Set the clocking modes on the base units
so that one unit is configured for Internal clocking mode and
the other unit is set for Receive Recover clocking mode.
1) Turn the power switch off. Leave the power cord plugged into
a grounded outlet to keep the unit grounded.
2) Loosen the two thumbscrews on the module by turning them
counterclockwise.
BASE UNIT CLOCK MODES
Unit “A”
Unit “B”
3) Grasp the two thumbscrews and gently pull the module from
the unit. Apply equal force to the thumbscrews to keep the
module straight during the removal process
Internal Clock Setting
Receive Recover Clock Setting
NOTE: Unit “A” and Unit “B” are arbitrarily chosen. It does not matter which
unit is “A”, and which is “B”.
3) All other base unit settings depend upon your application and
on the application medium (twisted pair or coaxial cable)
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4.2 CONNECTING TO THE 10BASE-T ETHERNET PORT
4.1.2 Installing the New QuickConnect™ Module
The RJ-45 Ethernet port on Model IM1/I4 is designed to connect
directly to a 10BaseT network. Figure 5, below, shows the 10BaseT
RJ-45 port pin description. You may make connections up to 330 feet
using Type 4 or 5 cable.
1) Make sure the power switch on the base unit is off. Leave the
power cord plugged into a grounded outlet to keep the unit
grounded.
2) Hold the module with the faceplate toward you and align the
module with the guide slots in the rear panel of the base unit.
1 RD+ (data input to IM1/I4)
2 RD- (data input to IM1/I4)
3 TD+ (data output from IM1/I4)
4 (no connection)
5 (no connection)
6 TD- (data output from IM1/I4)
7 (no connection)
1
2
3
4
5
6
7
8
3) While keeping the module’s faceplate parallel with the base unit
rear panel, slide the module straight in–so that the card edge
contacts line up with the socket inside the chassis. Figure 4
(below) shows how a Quick Connect Module plugs into the rear
of the base unit.
8 (no connection)
Figure 5. 10BaseT RJ-45 Port Pin Description
4.2.1 Connecting the Hub Ports to Workstations
The Model IM1/I4 10Base-T hub interfaces are configured as DCE
(Data Circuit Terminating Equipment). Therefore, it “expects” to con-
nect to a 10Base-T workstation using a straight-through RJ-45 cable.
Use the diagram below to construct a cable to connect the IM1/I4 to a
workstation.
IM1/I4
RJ-45 Pin No.
1 (RD+)
10BaseT Workstation
RJ-45 Pin No.
1 (TD+)
Figure 4. Installation of Model IM1/I4 Plug-in Serial Interface Module
2 (RD-)
2 (TD-)
3 (TD+)
6 (TD-)
3 (RD+)
6 (RD-)
NOTE: The card edge connector should meet the socket when
it is almost all the way into the chassis. If you encounter a lot
of resistance, remove the module and repeat steps 2 & 3.
4.2.2 Connecting the Hub Ports to a Hub (DCE)
The Model IM1/I4 10Base-T interface is configured as DCE (Data
Circuit Terminating Equipment). If you wish to connect the IM1/I4
10Base-T ports to another hub (or a 10Base-T port that “looks like” a
hub), refer to the diagram below to construct a 10Base-T “crossover”
cable.
4) With the card edge contacts aligned with the socket, firmly seat
the module by using your thumbs to apply pressure directly to
the right and left edges of the module faceplate. Applying mod-
erate and even pressure should be sufficient to seat the mod-
ule. You should hear it “click” into place.
IM1/I4
Hub
RJ-45 Pin No.
1 (RD+)
2 (RD-)
RJ-45 Pin No.
1 (RD+)
2 (RD-)
5) To secure the module in place, push the thumbscrews into the
chassis and turn the screws clockwise to tighten.
3 (TD+)
6 (TD-)
3 (TD+)
6 (TD-)
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4.3 CONNECTION TO THE LINE INTERFACE MEDIA
5.0 OPERATIO
N
Instructions for connecting the line interface media (twisted pair, or
fiber optic cable) are contained within the base unit user manual.
Please refer to the base unit manual for connection details.
Once the Model IM1/14 is installed, it should operate transparent-
ly. This sections describes power-up, general operating instructions,
and the LED status monitors.
5.1 OPERATING INSTRUCTIONS
4.4 CONNECTING TO AC OR DC POWER
Instructions for connecting the power supply Universal Interface
AC Power Supply and DC Power Supply option) are contained within
the base unit user manual. Please refer to the base unit manual for
connection details.
In order to operate, the Model IM1/I4 must be installed in the base
unit. It also requires a 10Base-T connection. After power is applied,
the IM1/I4 automatically starts performing the bridging function without
further user intervention. MAC addresses discovered are automatically
loaded into the MAC address table. They are automatically deleted
from the MAC address table if they experience an inactivity of 8 min-
utes.
WARNING! The Model IM1/I4 interface card has been
specifically designed to work with UI and DC versions of
Patton Electronics base units. Use with 120/230VAC ver-
sions could result in damage to the unit. If you are unsure
of your base unit power supply, please contact Patton
Electronics technical support at (301) 975-1007 or at sup-
5.2 POWER-UP
Before applying power to the IM1/I4, please be sure it is properly
installed in the base unit. Then make sure that unit is connected to
the appropriate power source (Universal Interface AC Power Supply
or DC Power Supply). Then power-up the base unit using the rear
power switch .
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5.3 LED STATUS MONITORS
COL [Yellow] - On pulse indicates that collisions are detected in
the LAN.
The Model IM1/I4 features two LEDs that monitor general operat-
ing status and the 10Base-T twisted pair link integrity. Figure 6 (below)
shows the LEDs located directly beneath the RJ-45 jack. Following
Figure 6 is a description of each LEDs function.
TP2 [Green] - On indicates that port 2 is receiving link integrity or
a packet.
WANF [Yellow] - On indicates that a WAN failure has occurred. A
WAN failure is defined to be any of the following:
Quick-Connect Interface Module
• No WAN CTS or DCD Signal
• WAN Receive Frame(s) Too Large
• WAN Receive Frame(s) Not Octet Aligned
• WAN Receive Frame(s) Aborted
• WAN Receive Frame(s) With Bad CRC
WANF
BSAT TP4
TP3
SYS
TP1 COL
TP2
Figure 6. Model IM1/I4 Panel Showing RJ45 Jacks and LEDs
The WANF LED is on while the condition(s) persist. After all con-
ditions are removed the WANF LED continues to be on for 60
seconds after the failure condition(s) are represented on the SYS
LED.
SYS [Yellow] - Pulses on to indicate one of eleven conditions.
They are as follows:
TP3 [Green] - On indicates that port 3 is receiving link integrity or
a packet.
1 Pulse = Status OK
2 Pulses = Detected No LAN Source MAC Addresses
3 Pulses = Detected No WAN CTS or DCD Signal
4 Pulses = Detected Buffer Saturation
5 Pulses = Detected WAN Receive Frame(s) Too Large
6 Pulses = Detected WAN Receive Frame(s) Not Octet
Aligned
7 Pulses = Detected WAN Receive Frame(s) Aborted
8 Pulses = Detected WAN Receive Frame(s) With Bad CRC
9 Pulses = Detected LAN Receive Frame(s) Too Large
10 Pulses = Detected LAN Receive Frame(s) Not Octet
Aligned
BSAT [Yellow] - On indicates that all buffer memory reserved for
user data has been saturated (used up). This condition may exist
for only a brief moment and is completely recoverable. After the
buffer saturation condition is removed the BSAT LED continues to
be on for 60 seconds after the buffer saturation condition is repre-
sented on the SYS LED.
TP4 [Green] - On indicates that port 4 is receiving link integrity or
a packet.
11 Pulses = Detected LAN Receive Frame(s) With Bad CRC
A given status code will be displayed 8 times until another status
code will be displayed. The unit will check all status conditions
attempting to indicate as many status codes as possible in
sequential order. After a status code is displayed 8 times and the
associated condition is removed the status code will no longer
appear.
TP1 [Green] - On indicates that port 1 is receiving link integrity or
a packet.
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APPENDIX B
APPENDIX A
IM1/I4 INTERFACE PIN ASSIGNMENT
PATTON MODEL IM1/I4 SPECIFICATIONS
10BASE-T Interface Pin Description
(RJ-45 Female Connector)
(Hub Configuration)
LAN Connection:
RJ-45, 10Base-T, 802.3 Ethernet
Protocol:
PPP (RFC 1661) with Bridging Control
Protocol (RFC 1638)
Pin #
Signal
MAC Address Table Size:
MAC Address Aging:
4096 entries
1
2
3
4
5
6
7
8
RD + (data input to IM1/I4)
RD - (data input to IM1/I4)
TD + (data output from IM1/I4)
no connection
no connection
TD - (data output from IM1/I4)
no connection
MAC addresses deleted after 8 min-
utes inactivity
On-board Memory:
Frame Latency:
Interface:
1 MB RAM; 128 KB FLASH
1 frame
no connection
card-edge connection to
QuikConnect™ port on Patton base
unit
Base Unit Compatibility:
LED Indicators:
1092, 1092A, 1093, 1094, 1094A,
1095, 1184, and 1185
SYS, TP1, COL, TP2, WANF, TP3,
BSAT, and TP4
Power Supply:
+5 Volts @ 510 mA supplied to module
by connection to Patton QuikConnect
interface
Temperature Range:
Dimensions:
Weight:
32 to 122ºF (0 to 50º C)
2.9" x 3.2" (7.4 cm x 8.1 cm)
0.25 lb (0.11 kg)
© Copyright 2000
Patton Electronics Company
All Rights Reserved
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