MMAC-Plus™ 9F206-02
FDDI Repeater MicroLAN™ Module
User’s Guide
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Notice
FCC Notice
This device complies with Part 15 of the FCC rules. Operation is subject to the following two
conditions: (1) this device may not cause harmful interference, and (2) this device must accept any
interference received, including interference that may cause undesired operation.
NOTE: This equipment has been tested and found to comply with the limits for a Class A digital
device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable
protection against harmful interference when the equipment is operated in a commercial environment.
This equipment uses, generates, and can radiate radio frequency energy and if not installed in
accordance with the operator’s manual, may cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to cause interference in which case the user
will be required to correct the interference at his own expense.
WARNING: Changes or modifications made to this device which are not expressly approved by the
party responsible for compliance could void the user’s authority to operate the equipment.
DOC Notice
This digital apparatus does not exceed the Class A limits for radio noise emissions from digital
apparatus set out in the Radio Interference Regulations of the Canadian Department of
Communications.
Le présent appareil numérique n’émet pas de bruits radioélectriques dépassant les limites applicables
aux appareils numériques de la class A prescrites dans le Règlement sur le brouillage radioélectrique
édicté par le ministère des Communications du Canada.
ii
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Notice
Safety Information
CLASS 1 LASER TRANSCEIVERS
The FPIM-05 and FPIM-07 are Class 1 Laser Products
CLASS 1
LASER PRODUCT
The FPIM-05 and FPIM-07 use Class 1 Laser transceivers. Read the
following safety information before installing or operating these
adapters.
The Class 1 laser transceivers use an optical feedback loop to maintain Class 1 operation
limits. This control loop eliminates the need for maintenance checks or adjustments. The
output is factory set, and does not allow any user adjustment. Class 1 Laser transceivers
comply with the following safety standards:
•
21 CFR 1040.10 and 1040.11 U.S. Department of Health and
Human Services (FDA).
•
•
IEC Publication 825 (International Electrotechnical Commission).
CENELEC EN 60825 (European Committee for Electrotechnical
Standardization).
When operating within their performance limitations, laser transceiver output meets the
Class 1 accessible emission limit of all three standards. Class 1 levels of laser radiation are not
considered hazardous.
iii
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Notice
Safety Information
CLASS 1 LASER TRANSCEIVERS
Laser Radiation and Connectors
When the connector is in place, all laser radiation remains within the fiber. The maximum
amount of radiant power exiting the fiber (under normal conditions) is -12.6 dBm or 55 x 10
watts.
-6
Removing the optical connector from the transceiver allows laser radiation to emit directly
from the optical port. The maximum radiance from the optical port (under worst case
-2
3
2
conditions) is 0.8 W cm or 8 x 10 W m sr-1.
Do not use optical instruments to view the laser output. The use of optical instruments to
view laser output increases eye hazard. When viewing the output optical port, power must
be removed from the network adapter.
iv
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Contents
Chapter 1
Chapter 2
Introduction
Features........................................................................................................................... 1-1
Related Manuals............................................................................................................ 1-4
Getting Help .................................................................................................................. 1-4
Installing the MicroLAN Module
Unpacking the Module................................................................................................. 2-1
Installing an FPIM......................................................................................................... 2-1
User-Accessible Components...................................................................................... 2-3
Setting the Module Card DIP Switch ......................................................................... 2-4
Installing the Module into the MMAC-Plus Chassis............................................... 2-6
The Reset Switch ........................................................................................................... 2-8
Chapter 3
Operation
Flexible Network Bus (FNB)........................................................................................ 3-1
System Management Bus............................................................................................. 3-2
System Diagnostic Controller...................................................................................... 3-2
DC/DC Converter ........................................................................................................ 3-2
FNB Interface................................................................................................................. 3-2
CPU ................................................................................................................................. 3-3
Chapter 4
Chapter 5
LANVIEW LEDs
General Specifications
Safety............................................................................................................................... 5-1
Service............................................................................................................................. 5-1
Physical........................................................................................................................... 5-2
Dimensions: ............................................................................................................ 5-2
Weight:..................................................................................................................... 5-2
Appendix A FPIM Specifications
FPIM-00 and FPIM-01.................................................................................................. A-1
FPIM-02 and FPIM-04.................................................................................................. A-2
FPIM-05 and FPIM-07.................................................................................................. A-3
v
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Chapter 1
Introduction
The 9F206-02 (as shown in Figure 1-1) is an FDDI repeater module for the
MMAC-Plus that provides external access to the Flexible Network Bus (FNB)
backplane via two sets of FDDI-compliant A/B ports. This allows the FNB to
traverse multiple MMAC-Plus systems, or connect to any ASNI FDDI-compliant
device in an FDDI network. The 9F206-02 module attaches to both FDDI networks
on the FNB backplane, FNB-1 and FNB-2, but can be controlled separately with
DIP switches or local management tools. The 9F206-02 can also be used to
Dual-Home an MMAC-Plus chassis to multiple points in the network. Using
standard FDDI chip-set technology, the 9F206-02 module completely re-times and
regenerates data signals for error free transmission and guaranteed
interoperability.
Features
System Management
The 9F206-02 requires minimal management. It can be completely managed and
controlled through the SMB-1. The management features include the following:
•
•
•
Front Panel Port Status
Insertion/bypass Control (FDDI-1 and FDDI-2) and Status
FPIM Identification (Front Panel)
Connectivity
The 9F206-02 uses FDDI Port Interface Modules (FPIMs) to provide several media
options for the front panel (FNB-1 and FNB-2) interfaces. These FPIMs are
available in various media types including the following:
•
•
•
•
•
•
Multimode Fiber Optic (FDDI MIC)
Single Mode Fiber Optic (FDDI MIC)
Unshielded Twisted Pair (RJ-45)
Shielded Twisted Pair (RJ-45)
Multimode Fiber Optic (SC)
Singlemode Fiber Optic (SC)
1-1
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Introduction
LANVIEW LEDs
The 9F206-02 uses LANVIEW: the Cabletron Systems built-in visual diagnostic
and status monitoring system for at-a-glance diagnosis of the network. With
LANVIEW LEDs, you can quickly identify the device, port, and physical layer
status.
Hot Swapping
The 9F206-02 can be installed or removed from the chassis while the MMAC-Plus
is powered up without affecting the operation of the rest of the system.
1-2
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Introduction
Related Manuals
The manuals listed below should be used to supplement the procedures and
technical data contained in this manual.
MMAC-Plus Installation Guide
MMAC-Plus Operations Guide
MMAC-Plus 9C300-1 Environmental Module User’s Guide
MMAC-Plus 9C214-AC Power Supply User’s Guide
MMAC-Plus Module Local Management User’s Guide
Getting Help
If you need additional support with the MMAC-Plus, or if you have any
questions, comments or suggestions concerning this manual, feel free to contact
Cabletron Systems Technical Support:
By phone:
(603) 332-9400
By CompuServe®: GO CTRON from any ! prompt
By Internet mail:
By mail:
Cabletron Systems, Inc.
P.O. Box 5005
Rochester, NH 03867-0505
1-4
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Chapter 2
Installing the MicroLAN Module
This module uses FPIMs for the front panel connections. They are not shipped
with the module and must be purchased separately. For more information on
FPIMs see Appendix A.
Unpacking the Module
1. Carefully remove the module from the shipping box. (Save the box and
packing materials in the event the module must be reshipped.)
2. Remove the module from the plastic bag. Observe all precautions to prevent
damage from Electrostatic Discharge (ESD).
3. Carefully examine the module, checking for damage. If any damage exists,
DO NOT install the module. Contact Cabletron Systems Technical Support
immediately.
Installing an FPIM
FPIMs are required for the 9F206-02 and are ordered and shipped separately. To
install an FPIM, follow the procedure below:
1. Remove the module if it is installed in the MMAC-Plus chassis.
2. Remove the blank front cover over the FPIM slot.
seated firmly before tightening the two mounting screws.
2-1
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User-Accessible Components
User-Accessible Components
Figure 2-2 shows the various components that are accessible to the user. These
consist of an eight position dip switch (explained in the next section) and sockets
for replaceable PROMs. These will be used for future upgrades. Instructions for
installing the components will be supplied with the upgrade kit.
SMB-1
PROM
Boot PROM
DIP Switch
Figure 2-2. User-Accessible Components
2-3
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Setting the Module Card DIP Switch
Table 2-1. Function of DIP Switch
Factory
Default
Switch Function
Description
Not Used.
On
Off
1
2
None
None
N/A
N/A
N/A
N/A
N/A
Not Used.
N/A
FNB-1
External
Ring
Specifies which ring is
externalized for FNB-1.
3
4
Primary
Primary
Secondary
Secondary
Primary
FNB-2
External
Ring
Specifies which ring is
externalized for FNB-2.
Primary
FNB-1
Status
5
6
7
The status of the FNB-1.
The status of the FNB-2.
Inserted
Inserted
Toggle
Bypassed
Bypassed
N/A
Inserted
Inserted
N/A
FNB-2
Status
Restore
Defaults
Restores module to the
original factory settings.
This switch determines
whether the module is
controlled by the DIP
switches or Local
Local
DIP
Local
Management
8
Control
Management Switches
Management.
2-5
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Installing the MicroLAN Module
Installing the Module into the MMAC-Plus Chassis
MMAC-Plus MicroLAN Modules can be installed in any of the 14 slots that are
available. To install, follow the steps below:
1. Switch off the power supplies and remove all power from the MMAC-Plus
chassis.
2. Remove the blank panels, covering the slots that the module is being
mounted in. All other slots must be covered, if modules are not being
installed, to ensure proper airflow and cooling.
3. Attach one end of the ESD wrist strap packaged with the MMAC-Plus chassis
to your wrist. Plug the other end into the ESD Wrist Strap Grounding
receptacle in the lower right corner of the MMAC-Plus Chassis shown in
4. The module is installed into the chassis by sliding it into slots and locking
that the module slides in straight and engages the backplane connectors
properly. When installing the module, ensure that both circuit cards are
between the card guides, as shown in Figure 2-4. Check both the upper and
lower tracks of both cards.
2-6
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Installing the Module into the MMAC-Plus Chassis
L
L
L
I
I
Jack for ESD
wrist strap
Metal Back-Panel
Circuit Card
Card Guides
Warning:
Ensure that the circuit card is between the card guides.
Lock down the top and bottom plastic tabs
at the same time, applying even pressure.
Figure 2-4. Installing the MicroLAN Module
2-7
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Installing the MicroLAN Module
The Reset Switch
The Reset switch is located on the front panel, under the top plastic tab as shown
•
•
Pressing the Reset switch twice within three seconds causes the main CPU to
reset.
Pressing and holding the switch on for three or more seconds causes the
module to shutdown. Pressing and holding again for three seconds restarts the
module.
Reset Switch
SMB
CPU
Figure 2-5. The Reset Switch
2-8
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Chapter 3
Operation
The 9F206-02 module, as shown in Figure 3-1, provides two repeater ports that
extend the FNB bus outside the MMAC-Plus chassis. No bridging or routing is
done in this module. Each port connects to both rings (Primary and Secondary) on
each FNB (FNB-1 and FNB-2).
SMB-1
DC/DC
Converter
System Diagnostic
Controller
A
FDDI-1
FDDI-2
Driver/Receiver
FNB Interface
B
FNB -1 and
FNB -2
Front Panel
Connections
A
Driver/Receiver
FNB Interface
B
Figure 3-1. 9F206-02 Block Diagram
Flexible Network Bus (FNB)
The FNB consists of two dual FDDI networks, FNB-1 and FNB-2, providing up to
400 Mbps of data bandwidth. These FDDI networks are 100% ANSI FDDI-
compliant supporting SMT (version 7.3), MAC, PHY, and PMD standards. This
allows the FNB to traverse multiple MMAC-Plus hubs, or connect to any ANSI
FDDI-compliant device, through standard A/B port connections.
3-1
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Operation
System Management Bus
There are two management channels within the MMAC-Plus system: the SMB-1
and the SMB-10. These buses provide out-of-band management and inter-module
management communication. The 9F206-02 uses only the SMB-1 bus.
The SMB-1 is a 1 Mbps management bus located within the MMAC-Plus. This bus
is utilized by all diagnostic controllers in the system including connectivity
modules, power supply modules and the environmental module. The SMB-1
transports inter-chassis information between system components, such as power
and environmental information, as well as diagnostic messages.
System Diagnostic Controller
This diagnostic controller is composed of a Z-80 microprocessor and its
supporting logic. The diagnostic controller is designed to control the power-up
sequencing of modules, monitor the 9F206-02 input and output parameters, as
well as monitor the temperature, and control the SMB LANVIEW LED. The
diagnostic controller on the 9F206-02 is also responsible for reporting the FNB and
front panel connectivity status to network management. The information
gathered by the diagnostic controller is available to the network manager via
local/remote management and the LCD located on the Environmental Module.
The 9F206-02 has been designed so that in the event of a diagnostic controller
fault, the 9F206-02 will continue to function.
DC/DC Converter
The DC/DC converter converts the 48 VDC on the system power bus to the
necessary operating voltages for its host network services module. The diagnostic
controller controls the operation of the DC/DC converter.
FNB Interface
MMAC-Plus modules are designed with one of two attachment policies. One
allows a module to dual attach to either FNB-1 or FNB-2; the second allows dual
attachment to both FNB-1 and FNB-2. The 9F206-02 has dual attachment to the
FNB backplane, connecting to both FNB-1 and FNB-2. These flexible
configuration options make the MMAC-Plus ideal for networks designed to
Bridge/Route multiple lower speed LANs to FDDI and/or networks designed
using an FDDI collapsed backbone.
3-2
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CPU
CPU
The CPU handles all low level SMT functions as well as module configuration
requests. The CPU is also responsible for all environmental, power and system
level communication between modules in the MMAC-Plus chassis.
3-3
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LANVIEW LEDs
The functions of the System Management Bus (SMB) and CPU LEDs are listed in
Table 4-1. SMB and CPU LEDs
LED Color
Green
State
Description
Fully operational.
Functional
Crippled
Booting
Reset
Yellow (Flashing)
Yellow/Green
Red
Not fully operational (i.e., one bad port).
Blinks yellow and green while booting.
Normal power-up reset.
Red (Flashing)
Off
Failed
Fatal error has occurred.
Power off
Module powered off.
There is one row of FDDI Port Status LEDs for each FDDI ring, FNB-1 and FNB-2.
FDDI-1
Port B Status
FDDI-1 Status
(Inserted/Bypassed)
FDDI-1
Port A Status
1
2
FDDI-2
Port B Status
FDDI-2 Status
(Inserted/Bypassed)
FDDI-2
Port A Status
Figure 4-2. FDDI LEDs
4-2
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LANVIEW LEDs
Table 4-2. FDDI Port Status LEDs
LED Color
Green
STATE
Link, Active, Port Enabled
Link, Not Active, Port Enabled
Not Link, Port Disabled
Yellow
Red
Red (Flashing)
Off
Link, Port Disabled
No Link, Not Active, Port Enabled
Table 4-3. FDDI Status LEDs
LED Color
Green
State
Inserted
Isolated
Red
Yellow
Off
Wrapped
Bypassed
4-3
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Chapter 5
General Specifications
Safety
It is the responsibility of the person who sells the system to which the module will
be a part to ensure that the total system meets allowed limits of conducted and
radiated emissions.
!
CAUTION
This equipment meets the following safety requirements:
•
•
•
•
•
•
•
•
UL 1950
CSA C22.2 No. 950
EN 60950
IEC 950
EMI Requirements of FCC Part 15 Class A
EN 55022 Class A
VCCI Class I
EMC requirements of the following:
EN 50082-1
IEC 801-2 ESD
IEC 801-3 Radiated susceptibility
IEC 801-4 EFT
Service
MTBF (MHBK-217E):
MTTR:
>200,000 hrs.
<0.5 hr.
5-1
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General Specifications
Physical
Dimensions:
35.0 D x 44.0 H x 3.0 W centimeters
(13.8 D x 17.4 H x 1.2 W inches)
Weight:
Unit:
1.36 kg. (3 lb)
1.81 kg. (4 lb)
Shipping:
5-2
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Appendix A
FPIM Specifications
This MMAC-Plus module uses Fiber Port Interface Modules (FPIM) to provide
front panel cable connections. The FPIMs are user-installable. See the section
titled Installing an FPIM on page 2-1.
FPIM-00 and FPIM-01
The FPIM-00 and FPIM-01 provide a multimode fiber connection. The FPIM-00
uses a MIC style connector and the FPIM-01 uses an SC type connector. The
Table A-1. FPIM-00 and FPIM-01 Specifications
Worst
Case
Worst Case
Budget
Typical
Budget
Parameter
Receive
Typical Value
-30.5 dBm
-28.0 dBm
-8.2 dBm
—
—
—
Sensitivity
Peak Input
Power
-7.6 dBm
—
A-1
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FPIM Specifications
Table A-2. Transmitter Power Parameters
Worst
Case
Worst Case
Budget
Typical
Budget
Parameter
Typical Value
50/125 µm
-13.0 dBm
-15.0 dBm 13.0 dB
-12.0 dBm 16.0 dB
17.5 dB
20.5 dB
23.5 dB
fiber
62.5/125 µm
fiber
-10.0 dBm
100/140 µm
fiber
-7.0 dBm
-9.0 dBm
19.0 dB
Error Rate
Better than 10-10
The link distance is up to 2 kilometers on the multimode fiber-optic cable as
specified by ANSI MMF-PMD.
FPIM-02 and FPIM-04
The FPIM-02 has an RJ-45 connector supporting an Unshielded Twisted Pair
(UTP) connection. The FPIM-04 has an RJ-45 connector supporting a Shielded
Table A-3. FPIM-04 Pinouts
Pin Number
Represents
Transmit+
Pin Number
Represents
NA
1
2
3
4
5
6
7
8
Transmit-
NA
NA
Receive+
Receive-
NA
The link distance is up to 100 meters on unshielded twisted pair cable as specified
by ANSI TP-PMD.
A-2
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FPIM-05 and FPIM-07
FPIM-05 and FPIM-07
The FPIM-05 and FPIM-07 provide a Single-mode fiber connection. The FPIM-05
uses a MIC style connector and the FPIM-07 uses an SC type connector. The
Table A-4. FPIM-05 and FPIM-07 Specifications
Parameter
Typical
1300 nm
Minimum
Maximum
Transmitter Peak Wave
Length
1270 nm
1330 nm
Spectral Width
Rise Time
60 nm
-
100 nm
5.0 nsec
5.0 nsec
50.7%
3.0 nsec
2.7 nsec
2.2 nsec
49.6%
Fall Time
2.5 nsec
Duty Cycle
Bit Error Rate
50.1%
Better than 10-10
The link distance is up to 40 kilometers (max) and 25 kilometers (typical) on
single mode fiber-optic cable as specified by ANSI SMF-PMD.
A-3
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