Ericsson LBI-39101A manual Application Software Installation, Dispatch Keyboard Cable Color Coding

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LBI-39101

AUDIO TOWER REPLACEMENT

4.Application Software Installation

If necessary, obtain C3 Maestro application software V5.0 (or later).

Install this software on PC's hard disk drive in G￿accordance with the supplied instructions.

Optional: Delete the old C3 Maestro application software from the PC's hard disk drive.

5.ConsoleG￿-To-CIM Serial Control Data Link

Normally, no console-to-CIM serial link changes are necessary. However, if upgrading/replacing the plug-in RS-422 board installed in one of the PC's expansion slots (for improved static protection), the DB-25 connector which plugs to this board will, in most cases, require rewiring. Older RS-422 boards have different pin-outs from the newer boards. Refer to the plug-in boards' documentation and/or LBI-39055 for pin-out information. Also see the subsection in this manual entitled "Control Data Link" (begins on page 12) and Figure 6 in this manual.

6.ConsoleG￿-To-CIM Audio Link

If using existing modular cabling, cut the modular plugs off modular cables. Maintain connections to the CEC/IMC Audio Concentrator Card or punch blocks. Next, wire these audio lines to a male DB-25 connector (not supplied) and mate the connector to the Enhanced Audio Enclosure's "LINES 1-4" female DB-25 connector. See the subsection in this manual entitled "Audio Links"

G￿(begins on page 14) for additional information.

If using the pre-wired 100-foot audio cable, remove the existing modular cabling connections from the CEC/IMC Audio Concentrator Cards or punch blocks. Next, wire the 100-foot audio cable to the CEC/IMC Audio Concentrator Card/punch block in accordance with the subsection in this manual entitled "Audio Links" (begins on page 14).

7. DispatchG￿Keyboard

The existing (old) Dispatch Keyboard was disconnected in step 1. If a new Dispatch Keyboard (with male DB-9 connector) is not supplied and this keyboard must be utilized, replace its small round DIN connector with a DB-9 connector (not supplied) in accordance with the following table. Also see Table 24:

Table 9 – Dispatch Keyboard Cable

Color Coding

 

MALE

CABLE

 

 

DB-9 PIN

WIRE

USE

 

NUMBER

COLOR

 

 

 

 

 

 

 

 

 

 

1

red

dc power

 

 

 

 

 

2

white

keyboard data

 

 

 

 

 

4

green

ground

 

 

 

 

G￿

6

(bare)

shield

 

 

 

 

 

 

 

 

Connect the Dispatch Keyboard to the Enhanced Audio Enclosure in accordance with subsection entitled "Dispatch Keyboard" in this manual (page 18).

8. MicrophonesG￿ & Headsets

Connect existing mics and headset jack boxes to the Enhanced Audio Enclosure per section

"INTERCONNECTING THE EQUIPMENT",

subsection "ENHANCED AUDIO ENCLOSURE" in this manual (begins on page 18). No wiring changes are necessary.

9.FootswitchesG￿

Audio Tower "FOOTSWITCH 1" should now be used as an operator footswitch. Connect it to Enhanced Audio Enclosure's "OPER FT. SW." connector. This footswitch keys all non-supervisory mics. See the subsection entitled "Footswitches (if used)" in this manual (page 19) for additional

G￿details.

Audio Tower "FOOTSWITCH 2" should now be used as a supervisor footswitch. Connect it to Enhanced Audio Enclosure's "SUPER FT. SW." connector. This footswitch keys only the supervisor's headset.

10. Speakers

Speakers used with the Audio Tower are un-amplified units; therefore, they cannot be used with the Enhanced Audio Enclosure. Speakers used with the Enhanced Audio Enclosure are amplified units and each includes a volume control. The Volume Controller Box is not employed in Enhanced Audio Enclosure applications.

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Contents Table of Contents LBI-39101AFile Directories and Contents Editor ProgramAudio Cable 100-FOOT 19B804083P2 TablesFigures This Page Intentionally Blank General GeneralBoard SET-UP Board SET-UPPersonal Computers Enhanced Audio EnclosureSpeaker Assembly Digital Pots SettingsMinimum Volume Level DIP Switch SW1 Position Speaker Amp BoardDigital Pots Board SET-UP Maximum Volume Level DIP Switch SW1 Position FigureG3 − Speaker Amp Board SW1 Factory SettingInterconnecting Equipment Interconnecting the EquipmentRS-422 Board CEC/IMC InterconnectionsControl Data Link OverviewRS-422 Interfacing Co-Located Hook-Ups Wire Typical Signal Identifi PIN no CationConsole CEC/IMC Color Port ConnectionAudio Links ∙ MNP Options∙ DTE Options CEC/IMC Identification 4-Wire Console Input or Output 2-WireCEC/IMC Input or Output 2-Wire − CEC/IMC-To-C3 Maestro Interconnections Co-Located Interconnecting the Equipment Personal Computer Standard PC KeyboardDispatch Keyboard DeskGMic if usedFootswitches if used − Boom/Gooseneck Mic WiringWire Color DB-9 PIN Number Boom/Gooseneck Mic if usedRecorder Outputs if used Paging Input if usedRelay Outputs if used Call Director if equippedConsole-to-CEC/IMC Audio Interconnections Console-to-Call Director InterconnectionsType Input USE Output Name Input USE OutputAudio Tower Replacement Audio Tower ReplacementAC Power and UPS Equipment Equipment Room GroundingApplication Software Installation Male Cable DB-9 PIN Wire USE Number ColorDispatch Keyboard Cable Color Coding SpeakersPOWER-UP Procedure PagingGInputsRelayGOutputs CallGDirectorSoftware Installation SET-UP Procedure LBI-39101 Software Installation and SET-UP ProcedureFile Directories and Contents PC Cmos SET-UP ProgramSoftware Installation and SET-UP Procedure Editor ProgramConsole User Profile Configuration Running the C3 Maestro Application ProgramDatabase Initialization System Manager Database Uploads Console Privilege ListsSaving Database Information CEC/IMC Auxiliary I/OEnhanced Audio Enclosure Connector PIN-OUTS LBI-39101 Enhanced Audio Enclosure Connector PIN-OUTSSoftware Installation and Upgrades CEC/IMC Audio Lines female DB-25 labeled LinesEnhanced Audio Enclosure Connector PIN-OUTS Enhanced Audio Enclosure Rear Panel ConnectorsCall Director female DB-9 labeled Call DIR Boom/Gooseneck Microphone female DB-9 labeled B/G MICDesk Microphone female DB-9 labeled Desk MIC Operator Headset Female DB-9 labeled Oper H/SSupervisor Headset female DB-9 labeled Super H/S Select SpeakerPIN Name Supervisor Footswitch female DB-9 labeled Super FT. SW Optional RS-422 Input/Output female DB-9 labeled I/ODispatch Keyboard Serial Input/Output Female DB-9 labeled KBDTerminal Name Activation Method Terminal NameRecorder Outputs 4-position terminal block labeled Recorder Terminal Name USECable Assembly Diagram Control Data Cable 100-FOOT 19B804083P3Audio Cable 100-FOOT 19B804083P2 Ericsson Inc

LBI-39101A specifications

The Ericsson LBI-39101A is a robust and versatile base station designed to facilitate efficient communication networks. Known for its reliable performance, the LBI-39101A plays a crucial role in enhancing the connectivity landscape for mobile operators. This equipment supports a range of technologies, making it an ideal choice for operators aiming to deliver high-quality services in both urban and rural environments.

One of the key features of the LBI-39101A is its support for multiple frequency bands, allowing it to operate across various spectrum allocations. This flexibility enables mobile operators to effectively manage their frequency resources and optimize network performance. Additionally, the base station is designed to support both 2G and 3G technologies, making it a valuable asset for operators transitioning to newer standards while still catering to older devices in their network.

The LBI-39101A also incorporates advanced receiver and transmitter technology, which enhances its ability to handle high traffic loads and support a larger number of simultaneous users. This capability is crucial in densely populated areas where network demand is high. The base station's design also emphasizes energy efficiency, reducing both operational costs and environmental impact, which is becoming increasingly important in today's eco-conscious world.

Another notable characteristic of the LBI-39101A is its modular architecture. This design allows for easy upgrades and scalability, enabling operators to expand their network capabilities without the need for extensive infrastructure overhauls. The base station can accommodate future enhancements seamlessly, ensuring that it remains competitive as technology evolves.

Moreover, the LBI-39101A includes built-in support for advanced features such as MIMO (Multiple Input Multiple Output) technology, which improves data throughput and reliability. This is particularly significant as mobile data consumption continues to rise, placing immense pressure on existing networks. The MIMO capability allows for enhanced spectral efficiency, which is crucial for maximizing the available bandwidth.

In summary, the Ericsson LBI-39101A stands out as a powerful base station with a host of features designed for modern mobile communication. Its support for multiple technologies, energy efficiency, modular design, and advanced MIMO capabilities make it an excellent choice for operators looking to enhance their networks and provide superior connectivity for users. As the mobile landscape evolves, the LBI-39101A is poised to remain a key player in facilitating seamless communication.
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