Part No.
Copyright © 2006 Nortel Networks. All Rights Reserved. The information in this document is subject to change without notice. The statements, configurations, technical data, and recommendations in this document are believed to be accurate and reliable, but are presented without express or implied warranty. Users must take full responsibility for their applications of any products specified in this document. The information in this document is proprietary to Nortel.
Règlement sur le brouillage radioélectrique du ministère des Communications Cet appareil numérique (8000 Series chassis) respecte les limites de bruits radioélectriques visant les appareils numériques de classe A prescrites dans le Règlement sur le brouillage radioélectrique du ministère des Communications du Canada.
Denan statement (Japan/Nippon only) National safety statements of compliance CE marking statement (Europe only) EN 60 950 statement This is to certify that the Nortel 8000 Series chassis and components installed within the chassis are in compliance with the requirements of EN 60 950 in accordance with the Low Voltage Directive. Additional national differences for all European Union countries have been evaluated for compliance.
reverse engineer or otherwise translate the Software; c) create derivative works or modifications unless expressly authorized; or d) sublicense, rent or lease the Software. Licensors of intellectual property to Nortel are beneficiaries of this provision. Upon termination or breach of the license by Customer or in the event designated hardware or CFE is no longer in use, Customer will promptly return the Software to Nortel or certify its destruction.
312755-G Rev 00
Contents Preface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Before you begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Text conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 How to get Help . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents Mounting hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 DC input electrical requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 Installing the breaker interface panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 Installing the hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents 9 Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents 312755-G Rev 00
Figures Figure 1 Breaker interface panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 Figure 2 Front panel components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Figure 3 Shelf circuit breakers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Figure 4 Alarm module display panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 Figure 5 Back panel components . . . . . .
Figures Figure 30 Labeling cables for the BIP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 Figure 31 Rack grounding strip example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48 Figure 32 Attaching power supply cable leads to the BIP . . . . . . . . . . . . . . . . . . . . . 49 Figure 33 Upper and lower shelf power cables connected to the BIP . . . . . . . . . . . 50 Figure 34 Attaching the BIP ground cable . . . . . . . . . . . . . . . . . . .
Tables Table 1 Alarm module display LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 Table 2 DC power requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 Table 3 Single chassis and dual chassis input options . . . . . . . . . . . . . . . . . . . . . 53 Table 4 BIP LEDs and indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68 Table 5 Corrective actions . . . . . . . . . . . . . . . . . . . . .
Tables 312755-G Rev 00
Preface The breaker interface panel (BIP) provides power distribution and alarm status indications for one or two 8010co chassis in an equipment rack. The status indications can be linked to other BIPs to provide total system status to the central office (CO). This guide describes how to install the breaker interface panel in an equipment rack, connect cables, and interpret LEDs. It also includes technical specifications for the breaker interface panel.
Preface Text conventions This guide uses the following text conventions: bold Courier text Indicates command names and options and text that you need to enter. Example: Use the dinfo command. Example: Enter show ip {alerts|routes}. italic text Indicates new terms, book titles, and variables in command syntax descriptions. Where a variable is two or more words, the words are connected by an underscore.
Preface • • 17 sign up for automatic notification of new software and documentation for Nortel equipment open and manage technical support cases Getting Help over the phone from a Nortel Solutions Center If you don’t find the information you require on the Nortel Technical Support Web site, and have a Nortel support contract, you can also get help over the phone from a Nortel Solutions Center. In North America, call 1-800-4NORTEL (1-800-466-7835).
Preface 312755-G Rev 00
Chapter 1 Overview This chapter provides an overview of the BIP and covers the following topics: • • • Physical description “Accessing the alarm module” on page 30 “Configuration example” on page 32 Physical description The BIP provides a central rack location where redundant input DC power feeds are connected and routed to one or two 8010co chassis.
Chapter 1 Overview Front panel Figure 2 shows the BIP front panel components.
Chapter 1 Overview 21 Figure 3 Shelf circuit breakers = On = Off Upper Shelf 1 2 3 Lower Shelf 1 2 3 1 2 PS 1 PS 2 + DC – DC PS 3 + DC – DC + DC – DC Upper shelf power supplies PS 1 PS 2 + DC – DC PS 3 + DC – DC + DC – DC Lower shelf power supplies Front of rack 1 = Upper shelf LEDs 2 = Lower shelf LEDs 10372EA Installing the Breaker Interface Panel for the Ethernet Routing Switch 8010co Chassis
Chapter 1 Overview Alarm module display panel The alarm module display panel (Figure 4), located on the BIP front panel, provides visual status indications for one or two 8010co chassis in a single rack.
Chapter 1 Overview 23 Table 1 Alarm module display LEDs (continued) Item Label/Icon Type Color/State Description 5 MAJOR Indicator Red/On steady Major fault indicator—Indicates that the system hardware or software has identified a serious disruption of service or that an important circuit failure has occurred.
Chapter 1 Overview Front panel locking screws The front panel locking screws allow you to open the front panel to access the alarm module. The alarm module contains jumpers that you use to configure your system alarm parameters. For information about configuring your system alarm parameters, see “Accessing the alarm module” on page 30. Back panel Figure 5 shows the BIP back panel configuration (plastic back cover not shown). Descriptions of the back panel components follow the figure.
Chapter 1 Overview 25 Figure 6 shows the location of the shelf alarm connectors on the BIP and on two 8010co chassis (upper and lower shelves).
Chapter 1 Overview Central office alarms The central office alarm connectors allow you to aggregate alarms from multiple BIPs and route them to an aisle alarm and to the central office. Figure 7 shows three BIPs configured to aggregate alarms from three racks. You can configure up to ten BIPs in a series configuration to aggregate alarms. Central office alarm cables are not provided as part of your BIP shipment.
Chapter 1 Overview 27 This type of configuration allows you to independently monitor and control the external audible and visual alarm status indications of the BIP at the central office.
Chapter 1 Overview Figure 9 Power terminal block 7 2 3 4 5 6 8 9 1 10 3 2 1 3 2 1 PS (+) Lower Shelf 3 2 1 3 2 1 A1 A2 B1 B2 PS (+) A/B Input Feed PS (-) Upper Shelf Returns Lower Shelf 1 = To frame (rack) ground 2 = To lower shelf power supplies (+DC terminals) 3 = To upper shelf power supplies (+DC terminals) 4 = Returns (A/B input feeds) 5 = To lower shelf power supplies (-DC terminals) PS (-) – 48 VDC Upper Shelf A/B Input Feeds 6 = To upper shelf power supplies (-DC terminals) 7 = -48
Chapter 1 Overview 29 Figure 10 Power and grounding example Return Secondary B Return Primary B Return Secondary A Return Primary A -DC PS3 Lower -DC PS2 Lower -DC PS1 Lower -DC PS3 Upper -DC PS2 Upper -DC PS1 Upper +DC PS1 Upper +DC PS2 Upper +DC PS3 Upper +DC PS1 Lower +DC PS2 Lower +DC PS3 Lower Equipment rack -48 VDC Primary A -48 VDC Secondary A -48 VDC Primary B -48 VDC Secondary B 3 2 1 3 2 1 A1 A2 B1 B2 3 2 1 3 2 1 PS (+) PS (+) A/B Input Feed PS (-) PS (-) – 48 VDC Lower Shelf Upper Shelf
Chapter 1 Overview Accessing the alarm module Danger: Ensure that the DC power source is off or disconnected at the remote end before you perform any of the steps in this section. Be sure that the DC input source power is locked out and tagged. The alarm module contains jumpers that you can configure to allow the BIP to monitor the shelf alarm cables for a single or dual chassis installation.
Chapter 1 Overview 2 31 Gently lower the front panel to expose the alarm module (Figure 12). Figure 12 Accessing the alarm module 1 1 = Alarm module 10365FB Figure 13 shows a close-up view of the alarm module with jumpers J8 and J9 configured to monitor the shelf alarm cable for a single chassis in the lower shelf only (default setting). Monitoring of the upper shelf alarm cable is disabled with jumper J8, by default.
Chapter 1 Overview Configuration example Figure 14 shows a typical configuration using the optional breaker interface panel.
Chapter 2 Installation This chapter describes how to install the breaker interface panel and covers the following topics: • • • “Preparing to install the breaker interface panel” next “Installing the breaker interface panel” on page 36 “Verifying the installation” on page 62 Preparing to install the breaker interface panel Before begin the installation, verify that: • • • Your shipment is complete and undamaged. You have the cables, tools, and other equipment that you need.
Chapter 2 Installation Shipment contents Inspect all items for shipping damage. If you detect any damage, do not install the BIP. Call the Nortel Technical Solutions Center in your area (see “How to get Help” on page 16).
Chapter 2 Installation 35 Additional equipment To install the BIP, you might need items that are not part of the BIP installation kit. Before installing the BIP hardware, ensure that you obtain all the cables, tools, and other equipment that you need. For information about office alarm cable pin assignments, see Appendix B, “BIP external cable pin assignments,” on page 75. Mounting hardware You must install the BIP in an equipment rack.
Chapter 2 Installation Installing the breaker interface panel Warning: Ensure that the DC power source is off or disconnected at the remote end before you perform any of the steps in this section. You may need to switch a circuit breaker off or turn off power at the DC input source. Be sure that the DC input source power is locked out and tagged. Note: The 8004DC power supply operates with the BIP. The BIP does not support the 8005DC power supply.
Chapter 2 Installation 37 To install the BIP: 1 Remove the plastic back cover from the BIP terminal block (Figure 16). Figure 16 Removing the plastic back cover from the BIP 2 1 2 3 2 1 3 2 1 PS (+) Lower Shelf 3 2 1 3 2 1 A1 A2 B1 B2 PS (+) A/B Input Feed PS (-) Upper Shelf Returns Lower Shelf PS (-) – 48 VDC Upper Shelf A/B Input Feeds 1 = Back cover (plastic) 2 = Cover screws (x 4) 10421EA Caution: The BIP weighs 33.9 lbs (15.4 kg).
Chapter 2 Installation Connecting cables to the chassis power supplies This section describes how to connect the BIP power cables to the 8010co chassis 8004DC power supplies. These procedures assume that all required power supplies were previously installed during the 8010co chassis installation. Note: This guide does not describe how to remove or replace power supplies in the 8010co chassis.
Chapter 2 Installation 39 To connect cables to the chassis power supplies: 1 Remove the 8010co chassis bottom bezels (if required). a Using a Phillips screwdriver, loosen the 2 captive screws securing the bezel to the chassis (Figure 18). b Pull the top of the bezel forward and then lift the 312096-A bezel from the two tabs on the bottom of the chassis. c Repeat steps a and b for the second chassis, if installed.
Chapter 2 Installation 2 Locate the power supplies (Figure 19). With the bezel removed, you can see the power supplies. The chassis can contain up to three power supplies. (Power supplies reside in bay 1, bay 2, and bay 3, viewed left to right from the front of the chassis.
Chapter 2 Installation 3 41 Loosen the 2 retaining screws on the power supply located in bay 1 in the lower chassis (Figure 20). Figure 20 Loosening the power supply retaining screws +DC -DC +DC -DC +DC -DC 10424FA 4 Lift the extractor lever to disconnect the power supply from the backplane connector, and then pull the power supply partially out of the chassis (Figure 21).
Chapter 2 Installation 5 Remove the Phillips screw securing the plastic safety cover to the power supply, and then remove the cover (Figure 22). Save the Phillips screw and the cover for replacement later. Figure 22 Removing the plastic safety cover from the power supply +DC -DC 10426FA 6 Note the position of the ground stud and of the positive and negative power supply inputs (Figure 23).
Chapter 2 Installation 7 43 Locate the following items in the shipping container (Figure 24).
Chapter 2 Installation 9 Attach the lug end of a 125-inch power supply cable to the positive terminal on the power supply (Figure 26). Use a 7/16-inch hex wrench to fasten the hardware in the correct order.
Chapter 2 Installation 45 10 Attach the lug end of a 125-inch power supply cable to the negative terminal on the power supply (Figure 27). Use a 7/16-inch hex wrench to fasten the hardware in the correct order. Figure 27 Attaching the negative lead 1 2 +DC 3 -DC 1 = Two-hole crimp lug 2 = Lock washer (x 2) 3 = Hex nut (x 2) 4 = Negative lead wire 4 10430FA 11 Replace the plastic safety cover on the power supply (Figure 28).
Chapter 2 Installation 12 Secure the power supply in bay 1 of the lower chassis (Figure 29). a Use the power supply handle to push the power supply firmly into bay 1. b Push the extractor lever down to lock the power supply in place. c Tighten the two power supply retaining screws. Figure 29 Replacing the power supply +DC -DC +DC -DC +DC -DC 10432FB 13 Perform steps 3 through 12 for each power supply in the system configuration, including the upper shelf chassis, if installed.
Chapter 2 Installation 47 Routing power supply cables to the BIP After you connect all cables to the chassis power supplies, you must route the power supply cable leads from each chassis to the BIP. If you installed an upper and lower shelf chassis, and each chassis has three power supplies, you have 18 separate cables to route to the BIP. For this reason, Nortel recommends that you label the cables and loosely bundle and fasten them with tie-wraps along the path.
Chapter 2 Installation 5 Route the remaining (black) power supply cables from the back of the lower and upper shelf chassis to the back panel of the BIP, loosely fastening them with tie-wraps along the path. 6 Loosely support the power supply cables with tie-wraps above the BIP power terminal block. 7 Proceed to, “Connecting the ground cables to the rack grounding strip.
Chapter 2 Installation 49 Connecting the power supply cables to the BIP To connect the power supply cables to the BIP: 1 Locate one of the power supply cables. 2 Match the labeled tag on the power supply cable with the correct location on the power terminal block (Figure 32). The power terminal block label indicates a location for the positive and negative power supply leads for both the upper shelf and lower shelf power supplies.
Chapter 2 Installation 4 Repeat steps 1 through 3 for each remaining power supply in your configuration (Figure 33).
Chapter 2 Installation 6 51 Attach one end of the BIP ground cable to the power terminal block (Figure 34). a Loosen the power terminal block screw just enough to insert the ground cable lead (item 1 in Figure 34). b Insert the lead and tighten the screw securely.
Chapter 2 Installation Connecting DC input power feeds to the BIP Danger: Due to high-energy hazards, only qualified service personnel are permitted to connect the BIP to the DC power source. Warning: Ensure that the DC power source is off or disconnected on the remote end before you perform any of the steps in this section. You may need to switch a circuit breaker off or turn off power at the DC input source.
Chapter 2 Installation 53 Figure 35 A and B feed example Upper shelf chassis BIP 60 A A2 30 A 30 A B2 60 A 60 A 60 A 30 A 30 A 30 A PS1 PS2 A1 PS3 Lower shelf chassis 30 A B1 30 A 30 A 30 A 30 A PS1 PS2 = A feeds PS3 = Redundant power supply = B feeds = Redundant feed 10400EC Table 3 lists input power options for single and dual chassis installations.
Chapter 2 Installation To connect the DC input feeds to the BIP: 1 Locate the DC power source for the DC input feed. Warning: Ensure that the DC power source is off or disconnected on the remote end before you perform any of the steps in this section. You may need to switch a circuit breaker off or turn off power at the DC input source. 2 Determine the power requirements for your configuration (see Figure 35 on page 53). 3 Locate the A and B -48 VDC input feeds (Figure 36).
Chapter 2 Installation 4 55 Connect the -48 VDC input feeds according to your configuration requirements. a Match the tagged -48 VDC input feed cable lead with the correct power terminal block on the back of the BIP (Figure 37). a Loosen the power terminal block screw just enough to insert the cable lead (item 1 in Figure 37). b Insert the lead and tighten the screw securely.
Chapter 2 Installation 5 Connect the remaining -48 VDC input feeds and returns as required (Figure 38). Note: Figure 38 shows the attachment of two “A” feeds and two “B” feeds to the BIP. Note that there is a primary and a secondary A feed, as well as a primary and secondary B feed (see Figure 35 on page 53 for configuration details).
Chapter 2 Installation 6 57 Connect the A/B input feed returns. Note: The total number (quantity) of Input feed return cable leads must match the total number of Input feeds used for your installation. a Locate the A/B Input Feed Returns section of the power terminal block. b Loosen one of the four available A/B input feed return connection screws just enough to insert the cable lead (item 1 in Figure 39). You can use any of the four available input feed return connections.
Chapter 2 Installation 7 Connect the remaining -48 VDC input returns as required (Figure 40). Figure 40 shows the BIP with all power cables and returns installed. Note: Be sure to properly support the cables with cable ties to avoid undue stress to the power terminal block.
Chapter 2 Installation 59 Replacing covers After you complete all of the cabling requirements as described in the previous sections, you must replace the plastic back cover on the BIP and the 8010co chassis bezel(s) that were removed earlier in these procedures. Before you replace the covers and bezels, be sure that all cables are routed properly from under the chassis bays, through the rack, and up to the BIP power terminal block.
Chapter 2 Installation 2 Replace the 8010co chassis bezel. a Set the notch (on both ends of the 312096-A bezel) into the tabs on the chassis (Figure 42). b Lift the top of the bezel up, and then align the captive screws with the holes in the chassis. c Using a Phillips screwdriver, tighten the 2 captive screws to secure the bezel to the chassis. d Replace the bezel on the second chassis, if installed.
Chapter 2 Installation 61 Installing shelf alarm cables Note: The BIP ships from the factory with default alarm configurations set for a single chassis in the lower shelf of the rack. If you install a second chassis, you must configure the jumpers on the alarm module to support that configuration. See “Accessing the alarm module” on page 30 if you need to modify the shelf alarm jumpers.
Chapter 2 Installation 2 To install the shelf alarm cable for a second chassis in the upper shelf: a Configure the jumpers on the alarm module to support a second chassis in the upper shelf as described in “Accessing the alarm module” on page 30. b Connect one end of the shelf alarm cable to the J1 connector on the back of the BIP (Figure 43). c Connect the other end of the shelf alarm cable to the upper shelf chassis alarm connector, on the upper shelf chassis.
Chapter 2 Installation 63 Initial power-up Danger: Due to high-energy hazards, only qualified service personnel are permitted to connect the BIP to the DC power source. To power up the 8010co chassis: 1 Set the six circuit breakers on the BIP front panel to the off position (O = Off). 2 Set the switches for all power supplies in the upper and lower chassis to the off position (O = Off). You can access the power supply switches with the bezels installed.
Chapter 2 Installation 4 Verify the following LEDs on the 8010co chassis: — The (green) power supply LEDs for each power supply in both the upper and lower chassis are on. (If any of the power supply LEDs are not on, replace the power supply.) — The chassis fans are powering up. If any of the previous steps indicate a problem with the installation, do the following: 1 Set the switches for all power supplies in the upper and lower chassis to the off position (O = Off).
Chapter 2 Installation 65 Note: When you power off the 8010co chassis, wait at least 30 seconds before turning the power supplies back on. 4 Continue with the installation of the 8010co chassis as described in the appropriate product chassis installation manual.
Chapter 2 Installation 312755-G Rev 00
Chapter 3 Problem solving This chapter describes how to isolate and diagnose problems with your breaker interface panel and associated 8010co chassis. This chapter covers the following topics: • “Interpreting the LEDs” (next) • “Diagnosing and correcting the problem” on page 70 • “Corrective actions” on page 71 The topics lead you through a logical process for troubleshooting the BIP and the associated 8010co chassis components.
Chapter 3 Problem solving Interpreting the LEDs All BIP LEDs and indicators are located on the front panel (Figure 44).
Chapter 3 Problem solving 69 Table 4 BIP LEDs and indicators (continued) Item Label/Icon Type Color/State Description 4 POWER Indicator White/On steady Power indicator—The external DC power is available to the BIP. 5 CRITICAL Indicator Red/On steady Critical fault indicator—Indicates that a severe service-affecting condition has occurred that requires immediate corrective action.
Chapter 3 Problem solving Diagnosing and correcting the problem Before you perform the problem-solving steps in this section, complete the following steps: 1 Set the switches for all power supplies in the upper and lower chassis to the off position (O = Off). 2 Set the six circuit breakers on the BIP front panel to the off position (O = Off). 3 Check that all cables are installed properly, and that all power supplies are firmly seated in their bays.
Chapter 3 Problem solving 71 Corrective actions To resolve problems with the BIP or the 8010co chassis and components, follow the corrective actions suggested in Table 5. Table 5 Corrective actions Symptom Probable cause The (red) shelf alarm cable fault LED on the BIP front panel is on, and the (yellow) MINOR indicator is on steady.
Chapter 3 Problem solving Table 5 Corrective actions (continued) Symptom Probable cause Failover from Master CPU The (red) CRITICAL indicator to the second (redundant) CPU. This action is is on steady. preceded by the CRITICAL indicator blinking two times and then turning off after the redundant CPU becomes operational. A circuit breaker LED on the BIP front panel is on (red). The associated circuit breaker is tripped (off), and the (red) MAJOR indicator is on steady.
Appendix A Technical specifications This appendix lists the technical specifications for the breaker interface panel.
Appendix A Technical specifications Electrical Parameter Specifications Input Voltage (Nominal) -48 VDC Input Current Feed Rating 60 A per DC input feed Output Current Feed Rating 30 A per DC output feed Physical dimensions Parameter Specifications Height 12.6 cm (4.92 in.) Width 50 cm (19.5 in.) Depth 39.0 cm (15.2 in.) Weight 15.4 kg (33.
Appendix B BIP external cable pin assignments This appendix describes the breaker interface panel connectors. This appendix covers the following topics: • • • “Shelf alarm connectors (J1 and J2),” next “Office alarm connectors (J3 and J4)” on page 77 “Standalone office alarm connector (J5)” on page 79 Shelf alarm connectors (J1 and J2) The BIP shelf alarm connectors (J1 and J2) use standard 9-pin D-sub connectors (Figure 45).
Appendix B BIP external cable pin assignments Figure 46 J1 and J2 shelf alarm connector pinouts Table 6 lists the pin assignments for the J1 and J2 shelf alarm connectors. Table 6 J1 and J2 shelf alarm connector pin assignments Pin Signal Description 1 L+ABS Alarm battery supply return. 2 VCRIT Visual critical alarm. 3 ACRIT Audible critical alarm. 4 DISCOUT Indicates presence of shelf alarm cable. 5 DISCIN Indicates presence of shelf alarm cable. 6 VMAJ Visual major alarm.
Appendix B BIP external cable pin assignments 77 Office alarm connectors (J3 and J4) The BIP office alarm connectors (J3 and J4) use high-density, 26-pin D-sub connectors (Figure 47). Figure 47 J3 and J4 high-density 26-pin D-sub connector 19 26 1 9 10438EA Figure 48 shows the pinouts for the J3 and J4 office alarm connectors.
Appendix B BIP external cable pin assignments Table 7 lists the pin assignments for the J3 and J4 office alarm connectors. Table 7 J3 and J4 office alarm connector pin assignments Pin Signal Description 1 TTA Voice communications from telephone jacks. 2 TRB Voice communications from telephone jacks. 3 D2A Data communications from Data jacks. 4 SPARE1B Signal provided for office alarm connectivity. 5 SPARE3A Signal provided for office alarm connectivity.
Appendix B BIP external cable pin assignments 79 Standalone office alarm connector (J5) The standalone office alarm connectors (J5) uses a high-density, 26-pin D-sub connector (Figure 49). Figure 49 J5 high-density 26-pin D-sub connector 19 26 1 9 10438EA Figure 50 shows the pinouts for the J5 standalone office alarm connector.
Appendix B BIP external cable pin assignments Table 8 lists the pin assignments for the J5 standalone office alarm connector.
Index Numbers 8691omSF central processing unit (CPU) 23 8691SF central processing unit (CPU) 23 pin assignments 75 power supply cables, routing 47 central office alarm connectors 26 circuit breakers 20, 72 A conventions, text 16 alarm module alarm conditions 23 configuring jumpers 30 display panel 22 LEDs 22 D alarms aisle 26 central office 26 DC electrical requirements 35 E electrical requirements, DC 35 external cable pin assignments 75 B F back panel 24 front panel description 20 LEDs 68
Index alarm module 22 BIP front panel 68 description 68 location 68 P pin assignments, cables 75 power DC input requirements 35 initial power-up 63 powering off the system 64 power supplies cable routing 47 connecting cables 38, 49 power terminal block 28 problem solving corrective actions 71 interpreting LEDs 67 R requirements 8691omSF CPU 19, 23 8691SF CPU 19, 23 cooling 36 DC 35 grounding 36 physical 33, 35 S shelf alarm cables installing 61 jumper default configurations 30 shelf alarm connectors
