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General| Brand | Lucent Technologies |
|---|---|
| Model | Lineage 2000 |
| Category | Power Supply |
| Language | English |
Overview of the Lineage 2000 family and its benefits.
Details about the manual's content and organization.
Information on training, service, and technical support contacts.
Procedure for returning products for repair.
Detailed technical specifications for the J85500G-2 battery plant.
Block diagram and functional description of a typical DC battery plant.
Definition and function of key subsystems like AC Distribution, Rectifiers, Controller, Batteries, and DC Distribution.
Detailed description of the physical design and components of the ECS battery plant.
Description of the initial bay's capacity and configurable components.
Details on supplementary bays for expanded capacity and distribution.
Description of Lineage 2000 SR Series rectifiers, their design, and certifications.
Information on VR Series and Round Cell batteries compatible with the ECS plant.
Description of the basic ECS controller and its optional expansion circuit packs.
Details on the Galaxy controller's basic and intelligent features.
Description of bus bars, shunts, and LVD/R contactor in the DC distribution.
Available breaker and fuse panels for the ECS DC distribution.
Description of the List 20 circuit breaker panel and its tripping mechanism.
Details on List 30 through 36 fuse panels and their specifications.
Procedure for using the capacitor charge feature for high inrush loads.
Description of the plant bus bars, including charge/discharge buses and ground connections.
Explanation of the current shunt's role in measuring plant current.
Description and operation of the optional LVD/R feature for battery protection.
Details on the 216A ECS Thermal Compensation Unit and its functionality.
Guidance on the four stages of engineering a battery plant.
Factors to consider for engineering calculations, including load voltage and battery voltage.
Steps to determine the required operating voltage for the load equipment.
Recommendations for battery voltage, float voltage, and cell configurations.
Evaluating load current drain and planning for future plant growth.
Typical reserve time practices for telecommunications applications.
Determining rectifier capacity for battery recharging requirements.
Minimizing and balancing voltage drops in parallel battery strings.
Balancing battery capacity and wire size considering voltage drop.
Formula and method for calculating voltage drop in conductors.
Criteria for selecting wire gauge based on ampacity and voltage drop.
Selection criteria for fuses and circuit breakers for circuit protection.
Guidelines for sizing fuses and circuit breakers based on load current.
Specifics for selecting Lineage 2000 ECS battery plant equipment.
Recommended procedure for determining the number of rectifiers needed.
Considerations for selecting battery size and vendor.
Description of how initial and supplementary bays house components.
Guidance on power cabling, wire gauges, and circuit breaker selection.
Steps to record wire and breaker/fuse sizes for load feeders.
Information on configuring the LVD/R feature's disconnect voltage levels.
Placeholder for emergency disconnect information.
Availability and requirement of the thermal compensation feature.
Details on ordering circuit packs, DIP switches, and jumper straps for controllers.
Description of controller connections for battery plant alarms.
Earthquake ratings for ECS battery plant bays.
Impact of battery plant equipment on building systems like AC and structure.
Relevant floor plan data including space, load, heat, and AC service.
Planning for routing and support of battery plant cabling.
Description of the ECS battery plant's grounding system compatibility.
Considerations for designing building systems to accommodate future plant growth.
Manuals and drawings for planning and ordering.
Categories and terminology used in the battery plant ordering process.
Description of the structure and content of J-drawings for component information.
Description of T-drawings for wiring details and routing.
Description of SD-drawings as the source for circuit information.
How to order the J85500G-2 battery plant using list numbers and equipped with items.
Summary of J85500G-2 ECS battery plant components and features by list number.
List of documents for engineering, ordering, and installation of the ECS Battery Plant.
References for ECS/Galaxy controllers, SR rectifiers, and VR batteries.
Overview of installation services and steps to minimize installer exposure to live circuits.
List of essential tools and test equipment for battery plant installation.
Recommended sequence for wiring and connecting battery plant components.
Reference to Table 4-C for the necessary documentation for installation tasks.
Procedures for inspecting, unpacking, handling, and anchoring the battery plant framework.
Instructions for assembling battery stands and performing initial battery charging.
Installing cable support systems and auxiliary ground bus bars.
Steps for configuring the controller and the Low Voltage Disconnect (LVD) feature.
Instructions for connecting load supply and return leads to the distribution panels.
Procedure for interconnecting battery strings and performing initial tests.
Steps for testing the ECS or Galaxy controller functionality.
Steps for turning on and adjusting rectifiers for normal operation and connecting loads.
Methods for adding controller features, rectifiers, and batteries to an operating plant.
Procedure for safely adding a new load circuit to an operating battery plant.
Instructions for installing the 216A ECS Thermal Compensation Unit in an existing plant.
Description of operating controls and indicators on the battery plant.
Explanation of the red 'LVD OPEN' and yellow 'LVD FAIL' LEDs on the CP5 Fuse Board.
How to interpret the ON/OFF status of DC circuit breakers and the function of fuses.
Table listing observable trouble conditions, causes, and corrective actions.
Specific reasons why a distribution breaker or fuse might be open.
Possible causes and actions when the red LVD OPEN LED is lit.
Possible causes and actions when the yellow LVD FAIL LED is lit.
Procedure for replacing a faulty load circuit breaker or fuse.
Steps for replacing the Low Voltage Disconnect/Reconnect contactor.
Procedure for replacing the LVD/Fuse Board (CP5).
List of available spare parts and how to order them.
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