Ericsson LBI-39128 manual Interconnection Diagram

Page 37

INTERCONNECTION DIAGRAM

LBI-39128

Connect

Individual

Cables to

Power Sensors

As Needed

Use:

19D903880 P35

(97 in. long)

19D903880 P33

(76 in. long)

19D903880 P32

(60 in. long)

Xmtr #11

Xmtr #12

Xmtr #13

Xmtr #14

Xmtr #15

Xmtr #16

Xmtr #17

Xmtr #18

Xmtr #19

Xmtr #20

EDACS

Interface Panel

in Second Row

of Cabinets

"POWER SENSOR"

19C852204G1

J1

 

J14 / J15

RJ-11-6 (F)

 

25 PR (F)

 

 

 

 

 

21

326

J2

RJ-11-6 (F)

23

328

J3

RJ-11-6 (F)

25

330

J4

RJ-11-6 (F)

27

332

J5

RJ-11-6 (F)

29

334

J6

RJ-11-6 (F)

211

336

J7

RJ-11-6 (F)

213

338

J8

RJ-11-6 (F)

215

340

J9

RJ-11-6 (F)

217

342

J10

RJ-11-6 (F)

219

344

J11

RJ-11-6 (F)

221

346

J12

RJ-11-6 (F)

223

348

Connect

Individual

Cables to

Power Sensors

As Needed

Use:

19D903880 P35

(97 in. long)

19D903880 P33

(76 in. long)

19D903880 P32

(60 in. long)

25-Pair Cable to Second Row of Cabinets.

Use:

19D903880 P120

(5 ft. long)

19D903880 P121

(15 ft. long)

Xmtr #1

Xmtr #2

Xmtr #3

Xmtr #4

Xmtr #5

Xmtr #6

Xmtr #7

Xmtr #8

Xmtr #9

Xmtr #10

Xmtr #11

Xmtr #12

EDACS

Interface Panel

in First Row

of Cabinets

"POWER SENSOR"

19C852204G1

J1

 

J14 / J15

RJ-11-6 (F)

 

25 PR (F)

 

 

 

 

 

21

326

J2

RJ-11-6 (F)

23

328

J3

RJ-11-6 (F)

25

330

J4

RJ-11-6 (F)

27

332

J5

RJ-11-6 (F)

29

334

J6

RJ-11-6 (F)

211

336

J7

RJ-11-6 (F)

213

338

J8

RJ-11-6 (F)

215

340

J9

RJ-11-6 (F)

217

342

J10

RJ-11-6 (F)

219

344

J11

RJ-11-6 (F)

221

346

J12

RJ-11-6 (F)

223

348

25-Pair Cable

to First Row

of Cabinets.

Use:

19D903880 P120

(5 ft. long)

19D903880 P121

(15 ft. long)

PMU Interconnection Diagram EDACS Repeater Cabinet

37

Image 37
Contents Installation & Operation Contents Table of Contents List of Figures and Tables Figures and TablesSpecifications SpecificationsLBI-39128 Application Software Proms VAX Site Controller ComputerPersonality Proms Site Controller Software Site Controller HardwareApplication Software PROMs PMU HardwarePersonality PROMs Addition from No PMUParts Required ProcedureDB-9 M DB-9 F Trunking Card Upgrade from Old PMUAdaptation from Old PMU Initial POWER-UP PMU Programming Terminal SetupSoftware Initialization Sentry PMU REV 8.6 12/07/94 Time/Date/Password Antenna Mapping Unidirectional Power Sensors Power Sensor CalibrationBi-directional Power Sensors Final Check Monitor StartupPower Measurements AlarmsSWR Calculations Transmitter Alarms Alarm ReportingAntenna Alarms Excessive AlarmsSite PMU Enable Channel PMU EnableParameters PMU ModelOperation Transmitter Upper Alarm Limit Transmitter Lower Alarm LimitAntenna Lower Alarm Limit Antenna Upper Alarm LimitTransmitter Power Alarm Limits Alarm Limit RE-CONFIGURATIONAlarm Limits As Installed Antenna Power Alarm LimitsAntenna SWR Alarm Limit Diagnostic Screens Time and Date AdjustmentAlarm History Report Screen Channel Monitor ScreenAlarm History Report Site not Programmed Time Erase ALL Programming Software UpdatesAlarm Delay Adjustment Symptom Possible Causes Corrective Action TroubleshootingMaintenance Glossary GlossaryInterconnection Diagram PMU Interconnection Diagram Edacs Site Controller Cabinet

LBI-39128 specifications

Ericsson LBI-39128 is a comprehensive communication solution designed to meet the ever-evolving demands of modern telecommunications. It is renowned for its ability to enhance network performance while providing a robust framework for various communication technologies. This product primarily targets service providers, enabling them to maximize their operational efficiency and improve service delivery.

One of the key features of the LBI-39128 is its versatility in supporting multiple generation technologies, including 2G, 3G, LTE, and even 5G. This ensures that service providers can seamlessly integrate their existing infrastructure and gradually evolve towards more advanced network capabilities without the need for a complete overhaul. The product caters to a wide array of deployment scenarios, from urban environments with high user density to rural areas requiring expansive coverage.

In terms of network performance, the LBI-39128 excels with its advanced radio technologies. It employs Massive MIMO (Multiple Input Multiple Output) and beamforming techniques, which significantly enhance spectral efficiency and improve user experience. With multiple antennas transmitting and receiving signals simultaneously, users benefit from increased throughput and reduced latency, essential for applications such as video streaming and real-time communications.

Another critical characteristic of the Ericsson LBI-39128 is its focus on energy efficiency. The product integrates intelligent power management systems that optimize energy consumption, thereby reducing operational costs for service providers. This aligns with the growing emphasis on sustainable practices within the telecommunications industry.

Moreover, the LBI-39128 features advanced management and automation capabilities. Its network function virtualization (NFV) support enables operators to deploy virtualized network functions efficiently, allowing for dynamic scaling and resource allocation based on real-time demand. This agility is crucial for handling varying loads and enhancing the overall resilience of the network.

Security is also a primary consideration in the design of the LBI-39128. It incorporates robust encryption methods and secure access protocols to protect sensitive data and ensure the integrity of communication channels. This is particularly important in an age where cyber threats are becoming increasingly prevalent.

In summary, the Ericsson LBI-39128 is a state-of-the-art telecommunications solution that stands out due to its support for multiple technologies, advanced radio capabilities, energy efficiency, automated management, and robust security features. Its design reflects the needs of contemporary service providers, allowing them to build and sustain high-performance networks that meet the demands of future communications.