Ericsson LBI-39101A POWER-UP Procedure, PagingGInputs, RelayGOutputs, CallGDirector, GCompletion

Page 25

POWER-UP PROCEDURE

LBI-39101

G￿Existing (old) speakers and the Volume Controller Box were disconnected in step 1. Install and cable the new Speakers Assemblies (desktop or rack- mount) to the Enhanced Audio Enclosure in accordance with the subsection entitled "Speakers (if used)" in this manual (page 19).

11. RecorderG￿Outputs

If recorder outputs were utilized in the Audio Tower installation, rewire these connections to the Enhanced Audio Enclosure in accordance with the subsection entitled "Recorder Outputs (if used)" in this manual (page 20). Audio Tower recorder connections utilized a large removable terminal block; Enhanced Audio Enclosure recorder connections utilize a smaller removable terminal block - the terminal block must be changed. However, note the pin-out sequence is identical. Audio Tower I/O Board J1 terminal 1 (top terminal of "UNSELECT RECORDER" and "SELECT RECORDER" terminal block) corresponds to Enhanced Audio Enclosure "RECORDER" terminal 1. Likewise, Audio Tower I/O Board J1 terminal 4 (bottom terminal) corresponds to Enhanced Audio Enclosure "RECORDER" terminal 4.

12. PagingG￿Inputs

If a pager was utilized with the Audio Tower installation, rewire these connections to the Enhanced Audio Enclosure in accordance with the subsection entitled "Paging Input (if used)" in this manual (page 20). Audio Tower pager connections utilized a large removable terminal block; Enhanced Audio Enclosure pager connections utilize a smaller removable terminal block - the terminal block must be changed. However, note the pin-out sequence is identical. Audio Tower I/O Board J2 terminal 1 (top terminal of "PAGE INPUT" and "PAGE PTT" terminal block) corresponds to Enhanced Audio Enclosure "PAGER" terminal 1. Likewise, Audio Tower I/O Board J2 terminal 4 (bottom terminal) corresponds to Enhanced Audio Enclosure "PAGER" terminal 4.

13. RelayG￿Outputs

If any relay outputs were utilized in the Audio Tower installation, rewire these connections to the Enhanced Audio Enclosure in accordance with the subsection entitled "Relay Outputs (if used)" in this manual (page 21).

14. CallG￿Director

If the Audio Tower was connected to a Call Director, connect the male DB-9 connector on the cable from the Call Director (disconnected in step 1 from Audio Tower's I/O Board "CALL DIRECTOR" DB-9) to the Enhanced Audio Enclosure's female DB-9 "CALL DIR" connector. See the subsection entitled "Call Director (if equipped)" in this manual (page 21) for additional details. Line coupling transformers utilized between an earlier ("Phase 1") Audio Tower and the Call Director are not required and they should be removed in Enhanced Audio Enclosure applications.

15. G￿Completion

Continue with the following power-up procedure.

G￿POWER-UP PROCEDURE

The following C3 Maestro power-up procedure is recommended:

1.If the Personal Computer and/or monitor are equipped with a voltage selector switch, verify the switches are positioned correctly. The power supply within the Enhanced Audio Enclosure will operate from any ac voltage from approximately 100 Vac to 240 Vac; no voltage selection switch exits on it.

2.On the three (3) units, verify each power switch is in the off position.

3.Connect the PC, video display monitor and the Enhanced Audio Enclosure to a 115 or 230 Vac source. Normally, 1½ duplex ac receptacles are required for the three (3) power cords. Refer to the PC and monitor documentation as necessary. Extension cords should not be used with the C3 Maestro console system.

4.Verify all equipment is properly grounded.

5.Power-up the Enhanced Audio Enclosure. The on/off power switch lights when ac power is applied and the switch is in the on position.

6.Verify the LED on the Enhanced Audio Enclosure's front panel is illuminated. This signifies the power supply within the unit is operating.

7.Power-up the PC and monitor in accordance with the manufacture's instructions.

8.Continue with the software installation and set-up procedures that follow.

25

Page 24 Page 26
Image 25
Page 24 Page 26
Contents LBI-39101A Table of ContentsEditor Program File Directories and ContentsAudio Cable 100-FOOT 19B804083P2 TablesFigures This Page Intentionally Blank General GeneralBoard SET-UP Board SET-UPPersonal Computers Enhanced Audio EnclosureDigital Pots Settings Speaker AssemblyMinimum Volume Level DIP Switch SW1 Position Speaker Amp BoardDigital Pots Board SET-UP FigureG3 − Speaker Amp Board SW1 Factory Setting Maximum Volume Level DIP Switch SW1 PositionInterconnecting the Equipment Interconnecting EquipmentRS-422 Board CEC/IMC InterconnectionsOverview Control Data LinkRS-422 Interfacing Co-Located Hook-Ups Signal Identifi PIN no Cation Wire TypicalConsole CEC/IMC Color Port Connection∙ MNP Options Audio Links∙ DTE Options Console Input or Output 2-Wire CEC/IMC Identification 4-WireCEC/IMC Input or Output 2-Wire − CEC/IMC-To-C3 Maestro Interconnections Co-Located Interconnecting the Equipment Standard PC Keyboard Personal ComputerDispatch Keyboard DeskGMic if used− Boom/Gooseneck Mic Wiring Footswitches if usedWire Color DB-9 PIN Number Boom/Gooseneck Mic if usedPaging Input if used Recorder Outputs if usedCall Director if equipped Relay Outputs if usedConsole-to-CEC/IMC Audio Interconnections Console-to-Call Director InterconnectionsName Input USE Output Type Input USE OutputAudio Tower Replacement Audio Tower ReplacementAC Power and UPS Equipment Equipment Room GroundingMale Cable DB-9 PIN Wire USE Number Color Application Software InstallationDispatch Keyboard Cable Color Coding SpeakersPagingGInputs POWER-UP ProcedureRelayGOutputs CallGDirectorLBI-39101 Software Installation and SET-UP Procedure Software Installation SET-UP ProcedureFile Directories and Contents PC Cmos SET-UP ProgramEditor Program Software Installation and SET-UP ProcedureRunning the C3 Maestro Application Program Console User Profile ConfigurationDatabase Initialization Console Privilege Lists System Manager Database UploadsSaving Database Information CEC/IMC Auxiliary I/OLBI-39101 Enhanced Audio Enclosure Connector PIN-OUTS Enhanced Audio Enclosure Connector PIN-OUTSSoftware Installation and Upgrades CEC/IMC Audio Lines female DB-25 labeled LinesEnhanced Audio Enclosure Rear Panel Connectors Enhanced Audio Enclosure Connector PIN-OUTSBoom/Gooseneck Microphone female DB-9 labeled B/G MIC Call Director female DB-9 labeled Call DIRDesk Microphone female DB-9 labeled Desk MIC Operator Headset Female DB-9 labeled Oper H/SSelect Speaker Supervisor Headset female DB-9 labeled Super H/SPIN Name Optional RS-422 Input/Output female DB-9 labeled I/O Supervisor Footswitch female DB-9 labeled Super FT. SWDispatch Keyboard Serial Input/Output Female DB-9 labeled KBDTerminal Name Terminal Name Activation MethodRecorder Outputs 4-position terminal block labeled Recorder Terminal Name USEControl Data Cable 100-FOOT 19B804083P3 Cable Assembly DiagramAudio 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.
Top Page Image Contents