Cabletron Systems Switch 9C300 1 User Manual

MMAC-Plus™  
9C300-1 Environmental Module  
User’s Guide  
 
Notice  
Notice  
Cabletron Systems reserves the right to make changes in specifications and other information  
contained in this document without prior notice. The reader should in all cases consult Cabletron  
Systems to determine whether any such changes have been made.  
The hardware, firmware, or software described in this manual is subject to change without notice.  
IN NO EVENT SHALL CABLETRON SYSTEMS BE LIABLE FOR ANY INCIDENTAL, INDIRECT,  
SPECIAL, OR CONSEQUENTIAL DAMAGES WHATSOEVER (INCLUDING BUT NOT LIMITED  
TO LOST PROFITS) ARISING OUT OF OR RELATED TO THIS MANUAL OR THE INFORMATION  
CONTAINED IN IT, EVEN IF CABLETRON SYSTEMS HAS BEEN ADVISED OF, KNOWN, OR  
SHOULD HAVE KNOWN, THE POSSIBILITY OF SUCH DAMAGES.  
© Copyright November 1994 by:  
Cabletron Systems, Inc.  
35 Industrial Way  
Rochester, NH 03867-0505  
All Rights Reserved  
Printed in the United States of America  
Order Number: 9031155 November 1994  
LANVIEW is a registered trademark and MMAC-Plus is a trademark of Cabletron Systems, Inc.  
VT100 is a registered trademark of Digital Equipment Corporation.  
Ethernet is a trademark of Xerox Corporation.  
CompuServe is a registered trademark of CompuServe, Incorporated.  
i
 
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  
 
Contents  
Chapter 1  
Introduction  
Using This Manual........................................................................................................ 1-1  
The 9C300-1 Environmental Module ......................................................................... 1-1  
Features ................................................................................................................... 1-2  
Related Manuals............................................................................................................ 1-3  
Getting Help .................................................................................................................. 1-4  
Chapter 2  
Chapter 3  
Installing the 9C300-1 Environmental Module  
Installing the 9C300-1 Environmental Module......................................................... 2-1  
9C300-1 Environmental Module Operation  
Monitoring Functions................................................................................................... 3-1  
External Ambient Temperature............................................................................ 3-2  
Fan Speed................................................................................................................ 3-3  
System Humidity................................................................................................... 3-4  
System Voltages...................................................................................................... 3-4  
Internal Operating Temperature.......................................................................... 3-4  
LANVIEW LEDs.................................................................................................... 3-5  
Out-of-Band Management........................................................................................... 3-6  
COM1 and COM2 Ports........................................................................................ 3-7  
The Ethernet™ Port Interface Module (EPIM).................................................. 3-8  
LCD and Keypad ................................................................................................... 3-8  
Non-Interactive Mode .................................................................................................. 3-9  
Non-Interactive Mode Screens............................................................................. 3-9  
The System Screen.......................................................................................... 3-9  
The Utilization Screen.................................................................................. 3-10  
The Environment Screen.............................................................................. 3-10  
The Power Screen ......................................................................................... 3-11  
The System Banner Screen........................................................................... 3-11  
Interactive Mode ......................................................................................................... 3-12  
Interactive Mode Screens.................................................................................... 3-12  
The Main Screen............................................................................................ 3-13  
The Alarm Screen.......................................................................................... 3-13  
The System Screen........................................................................................ 3-14  
The Power Screen ......................................................................................... 3-15  
The Power Supply Specific Screen ............................................................. 3-15  
The Environment Screen.............................................................................. 3-16  
The Communications Screen ...................................................................... 3-16  
iii  
 
Contents  
The Diagnostic Module Selection Screen ..................................................3-17  
The Diagnostic Results Screen ....................................................................3-17  
The BBU Screen.............................................................................................3-18  
The Module Selection Screen ......................................................................3-18  
The Module Specific Screen.........................................................................3-19  
The Module Environment Screen...............................................................3-20  
The Module Memory Screen.......................................................................3-20  
The Module Backplane Screen....................................................................3-21  
The Environmental Module Specific Screen .............................................3-21  
The Environmental Module Environment Screen ...................................3-22  
The LCD Contrast Adjustment Screen.......................................................3-23  
Chapter 4  
Specifications  
Safety...............................................................................................................................4-1  
Service.............................................................................................................................4-1  
Physical...........................................................................................................................4-2  
Environmental ...............................................................................................................4-2  
Appendix A EPIM Specifications  
Introduction ..................................................................................................................A-1  
EPIM-T...........................................................................................................................A-1  
EPIM-F1 and EPIM-F2.................................................................................................A-2  
EPIM-F3 .........................................................................................................................A-4  
EPIM-C...........................................................................................................................A-6  
Connector Type .....................................................................................................A-6  
Grounding..............................................................................................................A-6  
EPIM-A and EPIM-X (AUI Port)................................................................................A-7  
Appendix B Uninterruptible Power Supply (UPS)  
Introduction ...................................................................................................................B-1  
Connecting a UPS to an EM.........................................................................................B-1  
Configuring COM Port for UPS..................................................................................B-2  
Verifying Configuration ...............................................................................................B-3  
Monitoring UPS.............................................................................................................B-3  
iv  
 
Chapter 1  
Introduction  
Using This Manual  
Read through this manual to become familiar with its contents and to gain an  
understanding of the features and capabilities of the Environmental Module prior  
to installing and operating it.  
Chapter 1 Introduction, provides product descriptions and features, gives a brief  
description of the 9C300-1 Environmental Module and ends with a list of related  
manuals.  
Chapter 2 Installing the 9C300-1 Environmental Module, contains detailed  
information for unpacking and installing the Environmental Module.  
Chapter 3 9C300-1 Environmental Module Operation, contains detailed  
information about the Environmental Module operation.  
Chapter 4 Specifications, provides detailed specifications for the 9C300-1  
Environmental Module.  
Appendix A EPIM Specifications, contains detailed information about the  
various that can be used with the 9C300-1 Environmental Module.  
Appendix B Uninterruptible Power Supply (UPS), contains detailed information  
about connecting, configuring, and monitoring a UPS.  
The 9C300-1 Environmental Module  
The 9C300-1 Environmental Module, shown in Figure 1-1, provides system  
cooling, out-of band management capabilities, and environmental/power  
monitoring for the MMAC-Plus System. The Environmental Module is inserted in  
the slot above the module card cage in the front of the MMAC-Plus chassis.  
1-1  
 
Introduction  
MMAC  
EPIM  
STATUS  
ALARM  
ENTER  
9C300-1  
COM 1  
COM 2  
1
2
3
4
5
6
7
8
9
10 11 12 13 14  
Figure 1-1. The 9C300-1 Environmental Module  
Features  
System Cooling  
The 9C300-1 Environmental Module houses the cooling fan subsystem. There are  
four, high-air flow fans in the assembly to provide necessary chassis cooling. Any  
one of these can fail without adversely affecting system operation. The fans’  
operation and speed are continuously monitored, allowing network technicians  
to be quickly notified if repairs are needed. Control of the fans’ operating speed is  
also provided for maximum cooling efficiency and fan life. The fans are protected  
from controller failure by a fail-safe circuit. In the event of a controller  
malfunction, this circuit forces the fan subsystem to maximum speed and notifies  
Network Management.  
Out-of-Band Management  
Out-of-band management refers to managing the MMAC-Plus via a Local  
Management (LM) connection or an SNMP-based management application which  
does not use the same network connection to the chassis as “user data.”  
Four Out-of-band management interfaces are built into the 9C300-1  
Environmental Module. One channel is the 4x40 character backlit LCD and  
associated five button keypad. This interface provides a network manager or  
technician with the capability to review system status, performance and  
configuration information. Two interfaces are serial RS-232 ports. These ports  
support local management via a VT100 session, SLIP, or PPP, or monitor an  
American Power Conversion Smart UPS.  
The remaining out-of-band management interface supports any standard  
Cabletron Ethernet Port Interface Module (EPIM). This interface provides a direct  
connection to the internal System Management Bus-10 (SMB-10).  
1-2  
 
 
Related Manuals  
Environmental/Power Monitoring  
The 9C300-1 Environmental Module monitors and reports chassis power  
parameters, ambient chassis temperature, chassis humidity, temperature of the  
Environmental Module itself, as well as the status and speed of the chassis  
cooling fans.  
Flash EEPROM  
The capability of downloading future firmware upgrades has been built into the  
9C300-1 Environmental Module.  
Hot Swapping  
The 9C300-1 Environmental Module can be removed from the chassis while the  
MMAC-Plus is running without interrupting network performance.  
®
LANVIEW LEDs  
Two LEDs, STATUS and ALARM, are built into the front of the 9C300-1  
Environmental Module. These LEDs indicate the status of the Environmental  
Module and the presence or absence of system alarms.  
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 9C214-AC Power Supply User’s Guide  
In addition, each Interface Module has a user’s guide.  
1-3  
 
Introduction  
Getting Help  
If you need additional support related to the Environmental Module, 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 Fax:  
(603) 337-3075  
By BBS:  
(603) 335-3358  
By mail:  
Cabletron Systems, Inc.  
P.O. Box 5005  
Rochester, NH 03866-5005  
1-4  
 
Chapter 2  
Installing the 9C300-1  
Environmental Module  
Installing the 9C300-1 Environmental Module  
The 9C300-1 Environmental Module is installed in the slot above the module card  
Install an Environmental Module by following the steps below:  
1. Unpack the Environmental Module by removing it from the shipping box and  
sliding the two foam end caps off the unit. (Save the shipping box and  
packing materials in the event the Environmental Module must be  
reshipped.)  
2. Remove it from the protective plastic bag. Observe all precautions to prevent  
damage from Electrostatic Discharge (ESD). (Save the bag in the event the  
Environmental Module must be reshipped.)  
3. Remove the plastic protective cap that covers the connector on the rear of the  
Environmental Module.  
4. Examine it carefully, checking for damage. If any damage exists, DO NOT  
install it. Immediately contact Cabletron Systems Technical Support.  
5. Hold the left and right sides.  
6. Line up the rails on the left and right sides with the tracks on the left and right  
inside panels of the chassis.  
7. Slide the Environmental Module into the chassis until it is completely seated.  
If the MMAC-Plus chassis has been powered up, the 9C300-1 Environmental  
Module illuminates the STATUS and ALARM LEDs and displays the name  
Cabletron on the LCD.  
If the LEDs are any color other than green, refer to LANVIEW LEDs in Chapter 3.  
If no keypad entries are made within 60 seconds, the LCD scrolls through various  
non-interactive mode screens.  
2-1  
 
Installing the 9C300-1 Environmental Module  
If the MMAC-Plus chassis has not been powered up, make sure that all modules  
have been properly installed; then power up the MMAC-Plus chassis by  
following the steps in the MMAC-Plus Installation Guide.  
MMAC  
EPIM  
STATUS  
ALARM  
ENTER  
COM  
1
COM  
2
9C3001  
1
2
3
4
5
6
7
8
9
1 0 1 1 1 2 1 3 1 4  
Figure 2-1. Installing the Environmental Module  
2-2  
 
 
Chapter 3  
9C300-1 Environmental Module Operation  
functions. It monitors several chassis environmental parameters, provides  
multiple out-of-band management interfaces, as well as system cooling. The  
®
Environmental Module also includes LANVIEW LEDs for at-a-glance  
diagnostics.  
MMAC  
EPIM  
STATUS  
ALARM  
ENT ER  
9C300-1  
COM 1 COM 2  
1
2
3
4
5
6
7
8
9
10 11 12 13 14  
Figure 3-1. The 9C300-1 Environmental Module  
Monitoring Functions  
The 9C300-1 Environmental Module monitors the following MMAC-Plus  
functions:  
External ambient temperature  
Fan speed  
System humidity  
System voltages  
Internal operating temperature  
3-1  
 
 
9C300-1 Environmental Module Operation  
External Ambient Temperature  
The 9C300-1 Environmental Module includes an external ambient temperature  
sensor. This sensor is located on the front of the Environmental Module, as shown  
in Figure 3-2. The ambient temperature is monitored and the results of the  
monitoring are available to the network manager via the LCD, as well as local and  
remote management.  
MMAC  
EPIM  
STATUS  
ALARM  
ENTER  
9C300-1  
COM 1  
COM 2  
1
2
3
4
5
6
7
8
9
10 11 12 13 14  
External ambient temperature sensor  
Figure 3-2. External Ambient Temperature Sensor  
Table 3-1 lists the ambient temperature information available to the network  
manager.  
Table 3-1. External Ambient Temperature  
Temperature Range  
LCD Display  
COLD  
6°C/43°F and below  
7–12°C/44–54°F  
COOL  
13–32°C/55–90°F  
33–38°C/91–101°F  
39°C/102°F and above  
NORM (normal)  
WARM  
HOT  
3-2  
 
   
Monitoring Functions  
Fan Speed  
The 9C300-1 Environmental Module adjusts the speed of the system cooling fans  
ambient temperature rises to ensure adequate cooling for the system. Conversely,  
fan speed decreases as ambient temperature decreases. In the event the ambient  
temperature sensor, or the Environmental Module itself, fails, fan speed defaults  
to maximum speed to ensure adequate cooling.  
The ability to control fan speed is useful for two reasons:  
To increase the cooling level of the MMAC-Plus system to accommodate  
changing operating environments.  
To prolong fan life and limit audible noise when full fan speed is not necessary  
for cooling.  
Fan Tray Side View  
Front panel  
Fan Tray Top View  
System Cooling Fans  
Figure 3-3. The 9C300-1 Environmental Module and Fan Tray  
3-3  
 
 
9C300-1 Environmental Module Operation  
System Humidity  
The 9C300-1 Environmental Module monitors the non-condensing humidity level  
of the MMAC-Plus. The results of the monitoring are available to the network  
manager via LCD, as well as local and remote management. The humidity levels  
Table 3-2. System Humidity  
Humidity  
0–45%  
LCD Display  
STATIC RISK  
NORM (normal)  
MOIST  
46–94%  
95% and above  
System Voltages  
The 9C300-1 Environmental Module monitors specific system power parameters  
to ensure that they are within acceptable limits. The power parameters monitored  
from the backplane are the 48 volt DC System Power Bus and the INB  
Termination Power Bus. The power parameter monitored within the  
Environmental Module is the 12 volt internal line. The results of the monitoring  
are available to the network manager via LCD, as well as local and remote  
management. Voltages above or below the acceptable voltage limits cause an  
alarm to be sent to the network manager. Table 3-3 summarizes these acceptable  
voltage limits.  
Table 3-3. Acceptable Voltage Limits  
Description  
48 volt DC System Power Bus  
INB Termination Power Bus  
12 volt internal line  
Acceptable Voltage Limits  
From 40 volts to 59 volts  
From 3.1 volts to 5 volts  
From 11 volts to 13 volts  
Internal Operating Temperature  
The 9C300-1 Environmental Module monitors its own internal operating  
temperature by comparing its current temperature to the ambient temperature  
and programmed rise temperatures to determine current temperature status. If  
the temperature of the Environmental Module exceeds normal operating limits,  
an alarm is sent to the network manager. In addition, if the ambient temperature  
sensor fails, pre-established temperature ranges have been programmed to ensure  
proper internal temperature monitoring.  
3-4  
 
   
Monitoring Functions  
LANVIEW LEDs  
The LANVIEW LEDs on the front of the 9C300-1 Environmental Module may be  
used as an aid in troubleshooting.  
ALARM LED.  
STATUS LED  
MMAC  
EPIM  
STA TUS  
ALARM  
ENT ER  
9C300-1  
COM 1  
COM 2  
1
2
3
4
5
6
7
8
9
10 11 12 13 14  
ALARM LED  
Figure 3-4. 9C300-1 Environmental Module LANVIEW LEDs  
The STATUS LED indicates the current status of the Environmental Module  
processor and peripherals. The possible states and descriptions of the STATUS  
Table 3-4. STATUS LED  
LED Color  
Green  
State  
Description  
Fully operational.  
Functional  
Booting  
Testing  
Yellow/Green  
Yellow  
Flashes green and yellow while booting.  
Testing system.  
Yellow (Flashing) Crippled  
Not fully operational.  
Red  
Reset  
Normal power-up reset.  
Fatal error has occurred.  
Red (Flashing)  
Off  
Failed  
Power off  
Lack of 5 volt input to the Environmental  
Module.  
3-5  
 
   
9C300-1 Environmental Module Operation  
The ALARM LED indicates the presence, or absence, of an unread system  
alarm(s). Unread system alarms can be read using the LCD and five-function  
keypad. The possible states and descriptions of the ALARM LED are listed in  
Table 3-5. ALARM LED  
LED Color  
Green  
State  
Description  
No unread alarms.  
Functional  
Functional  
Functional  
Yellow  
Red  
Pending unread system alarms, warning.  
Pending unread system alarms, critical.  
Out-of-Band Management  
Out-of-band management refers to managing the system via a Local Management  
(LM) connection or an SNMP-based management application which does not use  
the same network connection to the chassis as “user data.”  
The 9C300-1 Environmental Module provides four out-of-band management  
interfaces for managing the MMAC-Plus system. These interfaces are listed  
below:  
Two serial communication ports, COM1 and COM2  
One standard Cabletron EPIM interface  
Liquid Crystal Display (4 lines by 40 characters) and an associated five button  
keypad  
3-6  
 
 
Out-of-Band Management  
COM1 and COM2 Ports  
The 9C300-1 Environmental Module front panel has two RJ-45 communication  
ports for RS-232 serial communication to and from the MMAC-Plus. Figure 3-5  
illustrates a single RJ-45 communication port connector. COM1 and COM2 can be  
configured to run the Serial Line Internet Protocol (SLIP), Point-to-Point Protocol  
(PPP), Local Management via a terminal or modem connection, or monitor an  
American Power Conversion Smart UPS. Refer to the Local Management Manual  
for detailed information on configuring the COM1 or COM2 port.  
Pin 1  
Figure 3-5. RJ-45 Communication Port Connector  
connector.  
Table 3-6. Pinout Connections RJ-45 Communication Port Connector  
Pin  
Description  
TRANSMIT  
1
2
3
4
5
6
7
8
DATA CARRIER DETECT  
DATASET READY  
RECEIVE  
SIGNAL GROUND  
DATA TERMINAL READY  
REQUEST TO SEND  
CLEAR TO SEND  
3-7  
 
 
9C300-1 Environmental Module Operation  
The Ethernet™ Port Interface Module (EPIM)  
The 9C300-1 Environmental Module provides a port for Cabletron Systems  
EPIMs. The EPIM provides a direct connection to the internal SMB-10 bus. This  
connection can be used for out-of-band graphical SNMP management of the  
MMAC-Plus system or a Telnet session into local management. Any standard  
Cabletron EPIM can be installed. Refer to Appendix A for detailed information on  
the EPIM.  
LCD and Keypad  
The LCD functions as a “window” into the MMAC-Plus System, allowing users  
to navigate through various screens via the five-function keypad.  
The LCD is a 4 line by 40 character, backlit liquid crystal visual display.  
The five-function keypad is used to scroll through MMAC-Plus information  
screens, and to select option fields within each menu and submenu. The keypad  
consists of five buttons, four of which are directional to move the cursor; the fifth  
a System Banner Screen and the five-function keypad on the MMAC-Plus  
Environmental Module front panel.  
CABLETRON SYSTEMS, INC.  
MMAC-PLUS  
<ALARMS>  
<SYSTEM> <MODULES> <SCREEN CONTRAST>  
ENTER  
Figure 3-6. The LCD and Five-Function Keypad  
3-8  
 
 
Non-Interactive Mode  
Non-Interactive Mode  
The LCD defaults to this mode if there is no user input within 60 seconds of  
installation of the Environmental Module or system start-up.  
Non-Interactive Mode Screens  
This section describes the LCD screens that display in the non-interactive mode.  
The LCD scrolls through different status screens (depending on MMAC-Plus  
configuration), displaying each screen for a period of 7 seconds; or, until user  
input is sensed on the keypad.  
Line 4 of each screen displays any active alarm conditions that exist within the  
system. If no alarm conditions exist, the line displays “SYSTEM STATUS  
NORMAL.”  
If an alarm condition exists, line 4 displays a message describing the alarm for 5  
seconds. The screen then displays a message stating how many alarms are present  
in the alarm queue, “XX ALARMS PENDING” and the ALARM LED on the front  
of the Environmental Module turns yellow or red indicating unread alarms in the  
queue.  
The System Screen  
non-interactive mode.  
Lines 1 and 2 display the MMAC-Plus chassis Internet Protocol (IP) address and  
Media Access Control (MAC) address.  
Line 3 displays the current chassis hardware revision and serial number.  
Line 4 displays the system status.  
CHASSIS IP ADDRESS xxx.xxx.xxx.xxx  
CHASSIS MAC ADDRESS xx-xx-xx-xx-xx-xx  
CHASSIS HW REV xxx SN xxxxxxxxxxxx  
SYSTEM STATUS NORMAL  
Figure 3-7. The System Screen  
3-9  
 
 
9C300-1 Environmental Module Operation  
The Utilization Screen  
The Utilization Screen, as shown in Figure 3-8, is the second screen of the  
non-interactive mode.  
Line 1 displays the screen heading.  
Line 2 displays the FDDI 1 and FDDI 2 bus utilization.  
Line 3 displays the INB A and INB B bus utilization.  
Line 4 displays the system status.  
SYSTEM UTILIZATION  
FDDI 1_ _ _ _ _ 100% FDDI 2 _ _ _ _ _100%  
INB A _ _ _ _ _100% INB B _ _ _ _ _ 100%  
SYSTEM STATUS NORMAL  
Figure 3-8. The Utilization Screen  
The Environment Screen  
The Environment Screen, as shown in Figure 3-9, is the third screen of the  
non-interactive mode.  
Line 1 displays the screen heading.  
Line 2 displays the external temperature of the chassis in both Fahrenheit and  
Celsius and qualifies the temperature as COLD, COOL, NORM (normal), WARM  
or HOT based on system parameters.  
Line 3 displays the non-condensing humidity level of the chassis and qualifies it  
as STATIC RISK, NORM (normal) or MOIST based on system parameters.  
Line 4 displays the system status.  
CHASSIS ENVIRONMENT  
EXTERNAL TEMP xxx˚F xx˚C NORM  
HUMIDITY xxx% NORM  
SYSTEM STATUS NORMAL  
Figure 3-9. The Environment Screen  
3-10  
 
   
Non-Interactive Mode  
The Power Screen  
non-interactive mode.  
Line 1 displays the screen heading.  
Line 2 displays the percentage of power being used.  
Line 3 displays the availability of power redundancy.  
Line 4 displays the system status.  
CHASSIS POWER  
POWER LOAD_ _ _ _ _ _ _ _ _ _ 100%  
POWER REDUNDANCY AVAILABLE  
SYSTEM STATUS NORMAL  
Figure 3-10. The Power Screen  
The System Banner Screen  
The System Banner Screen, as shown in Figure 3-11, is the fifth screen of the  
non-interactive mode. The information that displays is the default information  
built into the system.  
Lines 1 and 2 display the Cabletron name and the system name.  
Line 3 displays the system uptime.  
Line 4 displays the system status.  
CABLETRON SYSTEMS INC.  
MMAC-PLUS  
SYSTEM UPTIME hh:mm:ss  
SYSTEM STATUS NORMAL  
Figure 3-11. The System Banner Screen  
3-11  
 
   
9C300-1 Environmental Module Operation  
Interactive Mode  
The LCD enters this mode upon installation. This mode allows user input  
through the five-function keypad to navigate through MMAC-Plus status screens,  
and to make menu selections.  
Press any button on the keypad to enter this mode from the non-interactive mode.  
Once past the Main screen, the Interactive Mode is maintained for three minutes  
without a keypad entry before returning to the non-interactive mode.  
Interactive Mode Screens  
This section describes the LCD screens that display in the Interactive Mode. The  
Interactive Mode screen flow, as shown in Figure 3-12, provides a representation  
of the Interactive Mode screen structure hierarchy.  
Main Screen  
Screen Contrast  
Screen Adjust  
Modules Selection Screen  
System  
Alarms  
Modules  
Environment  
Diag  
Results  
Pwr  
Com  
BBU  
Pwr  
Supply  
Specific  
Modules/Environmental Module Specific Screen  
Environment  
Memory  
Backplane  
Figure 3-12. Interactive Mode Screen Flow  
3-12  
 
 
Interactive Mode  
The Main Screen  
The Main Screen, as shown in Figure 3-13, is the initial screen of the Interactive  
Mode. It allows access to all of the Interactive Mode screens. Interactive Mode  
screens are distinguished by the display of option fields. Option fields are  
designated with brackets (< >). To select an option, highlight the option field by  
using the arrow function keys to place the cursor on the option; then press the  
ENTER key.  
Lines 1 and 2 display the screen heading.  
Line 3 displays the <ALARMS> option field. Access information about any  
current alarms by selecting this item.  
Line 4 displays the <SYSTEM>, <MODULES> and <SCREEN CONTRAST>  
options. Select the appropriate option to access information on the desired  
category.  
CABLETRON SYSTEMS INC  
MMAC-PLUS  
<ALARMS>  
<SYSTEM> <MODULES> <SCREEN CONTRAST>  
Figure 3-13. The Main Screen  
The Alarm Screen  
Select the <ALARMS> option field in line 3 of the Main Screen, as shown in  
message queue when the ALARM LED is red.  
Line 1 of the Alarm Screen, as shown in Figure 3-14, displays the current alarm in  
the queue as well as the date and time the alarm occurred.  
Lines 2 and 3 show the description of the current alarm including the module and  
parameter(s) causing the alarm.  
If other alarms are in the queue (indicated by x > 1 on line 1), select <MORE> to  
see the information screens for them.  
ALARM y of x 11/05/94, 11:23  
Alarm Description Field  
Alarm Description Field  
<MORE> <ACKNOWLEDGE> <EXIT>  
Figure 3-14. The Alarm Screen  
3-13  
 
   
9C300-1 Environmental Module Operation  
Select <ACKNOWLEDGE> after reading all alarms to reset the front panel  
ALARM LED (red to green). Selecting <ACKNOWLEDGE> deletes all alarms  
and resets the alarm pending banner on line 4 of the non-interactive screens.  
Select <EXIT> to return to the Main Screen.  
The System Screen  
Select the <SYSTEM> option field in line 4 of the Main Screen, as shown in  
displays information specific to the MMAC-Plus chassis. Lines 1 and 2 display the  
MMAC-Plus chassis Internet Protocol (IP) address and Media Access Control  
(MAC) address.  
Line 3 displays the current chassis hardware revision and serial number.  
Line 4 lists the following five submenus. Access a specific submenu by selecting it  
on the screen.  
<PWR>  
Displays general power supply configuration information,  
with the option to view statistics on specific power supply  
modules.  
<ENV>  
<COM>  
Displays environmental information about the chassis.  
Displays statistics and information about the front panel  
COM ports and EPIM on the Environmental Module.  
<DIAGS>  
<BBU>  
Displays the results of power-up or restart diagnostic tests.  
Displays status of BBUs, if they are installed.  
CHASSIS IP ADDRESS xxx.xxx.xxx.xxx  
CHASSIS MAC ADDRESS xx-xx-xx-xx-xx-xx  
CHASSIS HW REV xxx SN xxxxxxxxxxxx  
<PWR> <ENV> <COM> <DIAGS> <BBU> <EXIT>  
Figure 3-15. The System Screen  
Select <EXIT> to return to the Main Screen.  
3-14  
 
 
Interactive Mode  
The Power Screen  
Select <PWR> from the System Screen, as shown in Figure 3-15, to access  
information about the chassis power supply configuration.  
power supplies currently configured and the availability of power redundancy.  
Lines 2 and 3 display the power supply status as either ON, OFF DUE TO  
MANAGEMENT, or FAULT.  
Line 4 is used to access information about a specific power supply module by  
selecting a power supply number.  
SUPPLIES INSTALLED 2 PWR REDUNDANCY  
STATUS 1 ON 2 ON  
<1> <2>  
<EXIT>  
Figure 3-16. The Power Screen  
Select <EXIT> to return to the System Screen.  
The Power Supply Specific Screen  
Select a power supply number from line 4 of the Power Screen, as shown in  
There is an LCD screen available for each installed power supply, as shown in  
Line 1 identifies the power supply selected and its serial number.  
Line 2 identifies the power supply’s hardware revision, firmware revision of the  
diagnostic controller and power loading factor as a percentage of its capacity.  
Line 3 provides the input and output voltages of the power supply.  
PWR SUPPLY 1 SN xxxxxxxxxxxx  
HW REV xxx FW REV x.xx.xx LOAD xxx%  
PWR IN 110V PWR OUT 57.1V 5.1V 3.3V  
<EXIT>  
Figure 3-17. The Power Supply Specific Screen  
Select <EXIT> to return to the Power Screen.  
3-15  
 
   
9C300-1 Environmental Module Operation  
The Environment Screen  
Select <ENV> from the System Screen, as shown in Figure 3-15, to view  
environmental parameters of the MMAC-Plus.  
the current chassis in both Fahrenheit and Celsius, and qualifies the temperature  
as COLD, COOL, NORM (normal), WARM, or HOT, based on system parameters.  
Line 2 displays the current system non-condensing humidity level, qualified as  
STATIC RISK, NORM (normal), or MOIST, based on system parameters.  
Line 3 displays the current fan speed of the Environmental Module cooling  
system as a percentage of maximum rotational velocity.  
CHASSIS EXTERNAL TEMP xxx°F xx°C NORM  
CHASSIS HUMIDITY xxx% NORM  
FAN SPEED 1 xxx% 2 xxx% 3 xxx% 4 xxx%  
<EXIT>  
Figure 3-18. The Environment Screen  
Select <EXIT> to return to the System Screen.  
The Communications Screen  
Select <COM> from the System Screen, as shown in Figure 3-15, to access  
MMAC-Plus chassis communication port status information.  
Module (EPIM) as either ENABLED, DISABLED or N/A if not installed.  
Line 2 displays the Port Administration status of COM port 1 (enabled or  
disabled), the application in use (such as Local Management (LM), SLIP, PPP or  
UPS), the baud rate of the attached device (a VT100 type terminal or modem) and  
the port operational status (active or inactive).  
Line 3 displays the Port Administration status of COM port 2 in the same manner  
as described for line 2.  
COMMUNICATIONS PORTS  
EPIM ENABLED  
COM 1 ENABLED SLIP 9600 ACTIVE  
COM 2 ENABLED  
<EXIT>  
Figure 3-19. The Communications Screen  
Select <EXIT> to return to the System Screen.  
3-16  
 
   
Interactive Mode  
The Diagnostic Module Selection Screen  
Select <DIAGS> from the System Screen, as shown in Figure 3-15, to view the  
Diagnostic Module Selection screen.  
Lines 2 and 3 show the chassis slot locations in which modules have been  
installed in the MMAC-Plus.  
Line 4 displays Power Supply Units and BBUs configured in the MMAC-Plus.  
Diagnostic test results for these units can be viewed individually. The Diagnostic  
Results Screen displays the diagnostic test results for the selected modules. It  
provides an itemized list of failed tests only.  
VIEW DIAG RESULTS ON  
<EM> <1> <2> <3> <4> <5> <6> <7>  
<8><9> <10> <11> <12> <13> <14>  
<PS1> <PS2> <BBU1> <EXIT>  
Figure 3-20. The Diagnostic Module Selection Screen  
Select <EXIT> to return to the System Screen.  
The Diagnostic Results Screen  
The Diagnostic Results Screen, as shown in Figure 3-21, displays the results of  
failed tests for the modules selected on the Diagnostic Screen.  
Line 1 displays the module(s) selected for diagnostics.  
Lines 2 and 3 display failed test results; or, if no failures occurred, the message  
ALL DIAGNOSTICS TESTS HAVE PASSED.  
MODULE xx  
Test Results (Left Blank if all pass)  
or ALL MODULE DIAGNOSTICS TESTS HAVE PASSED  
<MORE> <EXIT>  
Figure 3-21. The Diagnostic Results Screen  
Select <MORE> to view more failed tests for the current module.  
Select <EXIT> to return to the Diagnostic Module Selection Screen.  
3-17  
 
   
9C300-1 Environmental Module Operation  
The BBU Screen  
Line 1 displays the screen heading.  
Line 2 displays BBU status (CHARGING, STANDBY or DISCHARGING) if BBUs  
are installed; however, if no BBUs are installed, the message NO BBU  
INSTALLED displays.  
Line 3 displays the estimated amount of system run time stored in the BBUs if the  
system is running on a standard power source; or, if the system is running on  
BBUs, the amount of system run time remaining in the BBUs at the current power  
load.  
BATTERY STATUS  
BBU CHARGING  
SYSTEM RUN TIME AT PWR LOSS xxx MINUTES  
<EXIT>  
Figure 3-22. The BBU Screen  
Select <EXIT> to return to the System Screen.  
The Module Selection Screen  
Select <MODULES> from the Main Screen, as shown in Figure 3-13, to display  
the chassis slot locations in which modules have been installed.  
Lines 2 and 3 list all modules in the MMAC-Plus by slot number.  
MODULE SELECTION  
<EM> <1> <2> <3> <4> <5> <6> <7>  
<8> <9> <10> <11> <12> <13> <14>  
<EXIT>  
Figure 3-23. The Module Selection Screen  
Select <EXIT> to return to the main System Screen.  
3-18  
 
   
Interactive Mode  
The Module Specific Screen  
Select a module on the Module Selection Screen, as shown in Figure 3-23, to  
display configuration information on the Module Specific Screen, as shown in  
Line 1 identifies the selected module by chassis slot location, current status, and  
hardware revision. A module’s status can be one of the following:  
ON-LINE  
DOWN  
FAULT  
The host processor is operational.  
The host processor is not operational.  
The power-up diagnostic tests have failed.  
Lines 2 and 3 display a firmware revision and SMB-1 firmware revision, along  
with the BOOT PROM revision and the module serial number.  
Line 4 lists the following three submenus. Access a specific submenu by selecting  
it on the screen.  
<ENV>  
accesses the Module Environment Screen, showing  
environmental parameters for the selected module.  
<MEMORY>  
accesses the Module Memory Screen, showing the amount of  
various memory categories on the module.  
<BACKPLANE> accesses the Module Backplane Screen, showing backplane  
configuration parameters.  
MODULE xx STATUS ON-LINE HW REV xxx  
FW REV x.xx.xx SMB 1 FW REV x.xx.xx  
BOOT PROM REV x.xx.xx SN xxxxxxxxxxxx  
<ENV> <MEMORY> <BACKPLANE> <EXIT>  
Figure 3-24. The Module Specific Screen  
Select <EXIT> to return to the Module Selection Screen.  
3-19  
 
 
9C300-1 Environmental Module Operation  
The Module Environment Screen  
Select <ENV> at the Module Specific Screen, as shown in Figure 3-24, to display  
environmental parameters for the specific module.  
Line 1 of the Module Environment Screen, as shown in Figure 3-25, identifies the  
selected module by chassis slot location.  
Line 2 displays the measured input voltage from the 48 volt system power bus to  
the module’s DC-to-DC converter. The MMAC-Plus power supply provides  
voltage to the module via a chassis backplane. The converter’s 5 volt output line  
is also shown on line 2.  
Line 3 displays the module’s current temperature in Fahrenheit and Celsius. The  
temperature is qualified as either COLD, COOL, NORM (normal), WARM, or  
HOT based on system parameters.  
MODULE xx  
INPUT PWR: xx.xV, OUTPUT PWR x.xV  
TEMP: xxx°F, xx°C NORM  
<EXIT>  
Figure 3-25. The Module Environment Screen  
Select <EXIT> to return to the Module Specific Screen.  
The Module Memory Screen  
Select <MEMORY> at the Module Specific Screen, as shown in Figure 3-24, to  
view the memory configuration of a selected module.  
module, and its current CPU loading factor, expressed as a percent of capacity.  
Line 2 displays the amount of FLASH memory (in megabytes) installed on the  
module.  
Line 3 displays the amount of SHARED DRAM and LOCAL DRAM (in  
megabytes) installed on the module.  
MODULE xx, CPU LOAD xxx%  
FLASH xx MB  
SHARED DRAM xx MB LOCAL DRAM xx MB  
<EXIT>  
Figure 3-26. The Module Memory Screen  
Select <EXIT> to return to the Module Specific Screen.  
3-20  
 
   
Interactive Mode  
The Module Backplane Screen  
Select <BACKPLANE> on the Module Specific Screen, as shown in Figure 3-24, to  
access the Module Backplane Screen, as shown in Figure 3-27. The Module  
Backplane Screen displays the current MMAC-Plus backplane configuration for a  
selected module.  
Line 1 identifies the selected module by chassis slot location.  
Line 2 displays the module’s FNB connection (if applicable) and connection  
status. Refer to the MMAC-Plus Operation Guide for further information about  
FNB configuration.  
Line 3 displays the module’s INB connection (if applicable) and connection status.  
Refer to the MMAC-Plus Operation Guide for further information about the  
INB.  
MODULE xx  
FDDI 1 INS PRI FDDI 2 BYP  
INB A B/W ALLOC xxx MBPS  
<EXIT>  
Figure 3-27. The Module Backplane Screen  
Select <EXIT> to return to the Module Specific Screen.  
The Environmental Module Specific Screen  
Select <EM> on the Module Selection Screen, as shown in Figure 3-23, to access  
the Environmental Module Specific Screen, as shown in Figure 3-28.  
Line 1 displays the Environmental Module’s current status (on-line or fault) and  
the hardware revision.  
Line 2 displays the Environmental Module’s firmware and boot prom revision.  
Line 3 displays the Environmental Module serial number.  
EM STATUS ON-LINE HW REV xxx  
FW REV x.xx.xx BOOT PROM REV x.xx.xx  
SN xxxxxxxxxxxx  
<ENV> <EXIT>  
Figure 3-28. The Environmental Module Specific Screen  
Select <ENV> to access the Environmental Module Environment Screen (used to  
view Environmental Module electrical and environmental parameters).  
Select <EXIT> to return the display to the Module Selection Screen.  
3-21  
 
   
9C300-1 Environmental Module Operation  
The Environmental Module Environment Screen  
Select <ENV> on the Environmental Module Specific Screen, as shown in  
Figure 3-28, to access the Environmental Module Environment Screen, as shown  
in Figure 3-29. This screen displays voltage, temperature, and non-condensing  
humidity readings for the Environmental Module.  
Line 1 displays the measured values for the 48 volt DC power bus and the 3.3 volt  
bus for the Internal Network Bus (INB) terminator modules. The MMAC-Plus  
power supply system provides these voltages as input to the Environmental  
Module. The acceptable limits for the 48 volt line are between 40 and 59 volts. The  
acceptable limits for the 3.3 volt line are between 3.1 and 5 volts.  
Line 2 displays the temperature of the Environmental Module in Fahrenheit and  
Celsius. The temperature is qualified as either COLD, COOL, NORM (normal),  
WARM, or HOT based on system parameters.  
Line 3 displays the Environmental Module’s non-condensing humidity level as  
STATIC RISK, NORM (normal) or MOIST, based on system parameters.  
INPUT PWR 56.1V 3.3V  
TEMP: xxx°F, xx°C NORM  
HUMIDITY: xx% NORM  
<EXIT>  
Figure 3-29. The Environmental Module Environment Screen  
Select <EXIT> to return to the Environmental Module Specific Screen.  
3-22  
 
 
Interactive Mode  
The LCD Contrast Adjustment Screen  
Select <SCREEN CONTRAST> from the Main Screen, as shown in Figure 3-13, to  
access the LCD Contrast Adjustment Screen, as shown in Figure 3-30.  
Select <LIGHTER> and press ENTER (repeat as necessary) to make the displayed  
characters appear lighter on the screen.  
Select <DARKER> and press ENTER (repeat as necessary) to make the displayed  
characters appear darker on the screen.  
SCREEN CONTRAST ADJUSTMENT  
<LIGHTER> ___________ <DARKER>  
<EXIT>  
Figure 3-30. LCD Contrast Adjustment Screen  
Select <EXIT> to return to the Main Screen.  
The LCD contrast setting reverts to the darkest setting at power-up or restart of the  
Environmental Module.  
NOTE  
3-23  
 
 
9C300-1 Environmental Module Operation  
3-24  
 
Chapter 4  
Specifications  
Safety  
It is the responsibility of the person who sells the system to which the modules will be a  
part to ensure that the total system meets allowed limits of conducted and radiated  
emissions.  
!
CAUTION  
The 9C300-1 Environmental Module, when properly installed in the MMAC-Plus  
chassis, complies with the following safety specifications and standards.  
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  
EN 50082-1  
IEC 801-2 ESD  
IEC 801-3 Radiated Susceptibility  
IEC 8-1-4 EFT  
Service  
The 9C300-1 Environmental Module is designed with the following service  
capability:  
MTBF (MIL-STD-217): >200,000 hours projected  
MTTR:  
<.50 hour  
4-1  
 
Specifications  
Physical  
Dimensions  
12.7 H x 43.2 W x 44.5 D centimeters  
(5 H x 17 W x 17.5 D inches)  
Weight  
Unit:  
Shipping:  
6.5 kilograms (14 pounds)  
7.7 kilograms (17 pounds)  
Environmental  
Operating Temperature: 5–40°C, 43–100°F  
Operating Humidity:  
Cooling:  
5% to 95% non-condensing  
21.8 cubic meters of air per minute drawn through the  
chassis  
770 cubic feet of air per minute drawn through the  
chassis  
4-2  
 
Appendix A  
EPIM Specifications  
Introduction  
The 9C300-1 Environmental Module provides a port for Cabletron Systems  
EPIMs. EPIMs let you connect to the main network using different media types.  
Cabletron Systems offers a variety of EPIMs whose specifications are explained in  
the following sections.  
EPIM-T  
The EPIM-T is an RJ-45 connector supporting UTP cabling. It has an internal  
Cabletron Systems TPT-T™ 10BASE-T Twisted Pair Transceiver.  
The slide switch on the EPIM-T determines the crossover status of the cable pairs.  
If the switch is on the X side, the pairs are internally crossed over. If the switch is  
on the = side, the pairs are not internally crossed over. Figure A-1 shows the  
pinouts for the EPIM-T in both crossover positions.  
Position X  
(crossed over)  
1. RX+  
2. RX-  
3. TX+  
4. NC  
5. NC  
6. TX-  
7. NC  
8. NC  
Position =  
(not crossed over)  
1. TX+  
2. TX-  
3. RX+  
4. NC  
5. NC  
6. RX-  
7. NC  
8. NC  
Figure A-1. EPIM-T Pinouts  
A-1  
 
EPIM Specifications  
EPIM-F1 and EPIM-F2  
The EPIM-F1 and EPIM-F2 support Multimode Fiber Optic cabling. Each EPIM  
has an internal Cabletron Systems FOT-F™ Fiber Optic Transceiver. The EPIM-F1  
is equipped with SMA Connectors and the EPIM-F2 is equipped with ST  
in Table A-1.  
Figure A-2. EPIM-F1 and EPIM-F2  
Table A-1. EPIM-F1 & EPIM-F2 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  
Transmitter power parameters are listed Table A-2.  
A-2  
 
 
EPIM-F1 and EPIM-F2  
Table A-2. Transmitter Power  
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 transmitter power levels and receive sensitivity levels listed are Peak Power  
Levels after optical overshoot. A Peak Power Meter must be used to correctly  
compare the values given above to those measured on any particular port. If  
Power Levels are being measured with an Average Power Meter, then 3 dBm  
must be added to the measurement to correctly compare those measured values  
to the values listed (i.e., -30.5 dBm peak = -33.5 dBm average).  
NOTE  
A-3  
 
EPIM Specifications  
EPIM-F3  
The EPIM-F3 supports Single Mode Fiber Optic cabling. It has an internal  
Cabletron Systems FOT-F™ Fiber Optic Transceiver and is equipped with ST  
Figure A-3. EPIM-F3  
Maximum Sensitivity (-36.0)  
Receive  
Sensitivity  
Typical Sensitivity (-31.0)  
Minimum Sensitivity (-30.0)  
Minimum Receive Input (-9.72)  
Typical Receive Input (-7.5)  
Maximum  
Receive  
Input Power  
Maximum Receive Input (-6.99)  
Maximum Transmit Power (-12.0)  
Typical Transmit Power (-15.5)  
Transmitter Power*  
(At 25°C into  
8.3/125µm fiber)  
Minimum Transmit Power (-21.0)  
-40  
-35  
-30  
-25  
-20  
-15  
-10  
-5  
0
dBm  
Less Power  
More Power  
* Transmit Power  
Coefficient  
(See Note Below)  
Typical Power  
Minimum Power  
Maximum Power  
-0.18 dBm/°C  
-0.15dBm/°C  
-0.12 dBm/°C  
Figure A-4. EPIM-F3 Power and Sensitivity Specifications  
Transmitter Power decreases as temperatures rise and increases as  
temperatures fall. Use the Output Power Coefficient to calculate increased or  
decreased power output for your operating environment. For example, the  
typical power output at 25°C is -16.4 dBm. For a 4°C temperature increase,  
multiply the typical coefficient (-0.15 dBm) by four and add the result to typical  
output power (4 x -0.15 dBm + -16.4 = -17.0).  
NOTE  
A-4  
 
   
EPIM-F3  
Table A-3. EPIM-F3 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 transmitter power levels given above are Peak Power Levels after optical  
overshoot. You must use a Peak Power Meter to correctly compare the values  
given above to those measured on any particular port. If you are measuring  
power levels with an Average Power Meter, add 3 dBm to the average power  
measurement to correctly compare the average power values measured to the  
values listed above (i.e., -33.5 dBm average + 3 dB = -30.5 dBm peak).  
NOTE  
A-5  
 
EPIM Specifications  
EPIM-C  
The EPIM-C supports thin-net coaxial cabling and is equipped with an internal  
Cabletron Systems TMS-3™ Transceiver. You can use the TERM switch on the  
front of the EPIM-C to set the internal 50-ohm terminator. This eliminates the  
need to connect the port to a tee-connector and terminator. Figure A-5 shows the  
setting for the terminator switch.  
Internal Termination Switch  
= On (internally terminated)  
= Off (need external termination)  
Figure A-5. EPIM-C  
Connector Type  
This connector type is a BNC receptacle, with gold center contact, for use with  
BNC type tee-connectors and RG-58 thin-net cable.  
Grounding  
For safety reasons, only one end of a thin-net segment should be connected to  
earth ground. Connection to earth ground at more than one point on the segment  
may cause dangerous ground currents.  
The BNC port of the Coaxial Interface Modules is not connected to earth ground.  
A-6  
 
 
EPIM-A and EPIM-X (AUI Port)  
EPIM-A and EPIM-X (AUI Port)  
The EPIM-A is a DB-15 female connector used to attach segments to an external  
transceiver. The EPIM-X is equipped with dual internal transceivers. It has a  
DB-15 male connector used to attach segments to an AUI cable. Figure A-6 shows  
both modules.  
Figure A-6. The EPIM-A and EPIM-X  
Table A-4 lists the DB-15 pinouts.  
Table A-4. DB-15 Pinouts  
Pin Number  
Represents  
Logic Ref.  
Pin Number  
Represents  
Transmit -  
1
2
3
4
5
6
7
9
10  
Collision +  
Transmit  
11  
Logic Ref.  
12  
Receive -  
Logic Ref.  
Receive  
13  
Power (+12Vdc)  
Logic Ref.  
14  
15  
Power Return  
No Connection  
Collision -  
No Connection  
Positive Ground  
*
Connector Shell  
*
Connector Shell: Protective Ground  
A-7  
 
 
EPIM Specifications  
A-8  
 
Appendix B  
Uninterruptible Power Supply (UPS)  
Introduction  
The MMAC-Plus can be connected to a UPS to provide an uninterruptible source  
of AC power. Two UPS models are available, the Matrix 3000 and the Matrix 5000.  
Either can be monitored via remote SNMP Management after connecting the UPS  
to the Environmental Module (EM).  
Connecting a UPS to an EM  
To connect a UPS to an EM, use the RJ-45/DB-9 adapter labeled “UPS”, the  
RJ-45 cable included in the 9372089 kit shipped with the EM, and follow the steps  
below.  
1. Plug the RJ-45/DB-9 adapter labeled “UPS” into the receptacle on the rear of  
2. Plug one end of the cable with the RJ-45 connector into the RJ-45/DB-9  
adapter labeled “UPS” on the rear of the UPS (Figure B-1).  
3. Plug the other end of the cable with the RJ-45 connector into the COM2 port  
B-1  
 
Uninterruptible Power Supply (UPS)  
9 Pin D Connector Receptacle  
MMAC  
EPIM  
STATUS  
COM  
2
COM  
1
ALARM  
ENTER  
9C3001  
1
2
3
4
5
6
7
8
9
1 0 1 1 1 2 1 3 1 4  
Matrix UPS (Back View)  
COM Ports  
MMAC-Plus Chassis (Front View)  
Figure B-1. Connecting EM to UPS  
Configuring COM Port for UPS  
After the UPS has been connected to the COM2 port, the COM2 port must be  
configured for UPS Management. To configure the COM2 port for UPS  
Management, follow the steps below.  
1. Connect the terminal or PC used for local management to the COM1 port on  
the Environmental Module (EM) and press RETURN until the Slot Selection  
Screen displays.  
2. At the Slot Selection Screen, enter 0 (zero) to display the EM Configuration  
Screen.  
3. At the EM Configuration Screen, cursor to the Application Field for the  
COM2 port.  
4. Using the space bar, toggle to the UPS option.  
5. Using the tab key, tab to the SAVE option and press RETURN.  
If you need additional information about configuring the COM ports, refer to the  
Local Management User’s Guide.  
B-2  
 
 
Verifying Configuration  
Verifying Configuration  
After configuring the COM port for a UPS, verify the configuration was done  
correctly by checking the Communications Screen on the EM. Follow the steps  
below to verify the configuration.  
1. At the Main Screen select <SYSTEM> and press ENTER.  
2. At the System Screen select <COM> and press ENTER.  
3. At the Communications Screen, verify that the screen displays “ENABLED  
UPS 2400 ACTIVE FOR COM PORT 2”.  
Monitoring UPS  
Information about the operation of the UPS is obtained via Remote SNMP  
Management or locally by the LCD on the front of the UPS. Refer to the UPS  
User’s Guide, provided by the vendor, for detailed information on the UPS LCD.  
B-3  
 
Uninterruptible Power Supply (UPS)  
B-4  
 

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