*

Problem

Possible Causes

What to Do

The air conditioner

The fuse is blown/circuit breaker is tripped

Power failure

Airflow isrestricted

The temp control may not be set high enough

Theairfilteris dirty

The room may have been hot

Cold air is escaping

Cooling coils have iced up

Ice blocks the air flow

and stops the air conditioner fkom cooling the room

Make sure the airconditioner plug is pushed completely into the outlet.

. Check tie house fuse/circuit breaker

box and replace fuse or reset the breaker.

s If power failure occurs, turn the mode control to OFF.When power is restored, wait 3 minutes to restart the air conditioner to prevent tripping of the compressor overload.

Make sure mere are no cur~ins, blinds

or furniture blocking the fi-ont of the -..

air conditioner.

Turn the knob to a higher number.

The highest setting provides maximum cooling.

s Clean the filter at least every 30 days. See the Care and Cleaning section.

When the airconditioner isfwst turned on you need to allow time for the room to cool down.

s Check for open furnace floor registers and cold airreturns.

Set the vent in the closed position.

See freezing up below.

. Set tie mode con~ol at ~AM O~LYor HIGH

COOLwith the temp at 1 or 2.

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GE ABN12 operating instructions Box and replace fuse or reset the breaker, Air conditioner Turn the knob to a higher number

ABN12 specifications

The GE ABN12 is an advanced air-insulated medium-voltage switchgear that showcases a robust and innovative design suited for a variety of industrial and utility applications. This switchgear is notable for its ability to meet the increasing demands of modern electrical infrastructure by offering reliability, safety, and performance.

One of the main features of the GE ABN12 is its modular design, which allows for flexibility in configuration and installation. This switchgear is built to accommodate varying system requirements and can be customized to fit specific applications. The compact design not only saves space but also simplifies the installation process, making it an ideal choice for facilities with limited room.

The GE ABN12 utilizes advanced vacuum circuit breaker technology, which enhances performance and reduces maintenance needs. Vacuum circuit breakers minimize the risk of electrical explosions and are known for their reliable operation even in harsh environments. This contributes to increased safety for personnel as well as reduced downtime for operations.

In terms of electrical characteristics, the GE ABN12 is designed to handle medium-voltage applications with voltage ratings typically up to 12 kV and current ratings that can go as high as 630 A. The switchgear is capable of operating under various load conditions, providing users with confidence in its ability to manage substantial electrical loads.

Another key technology embedded within the GE ABN12 is its intelligent protection system. This advanced feature enables real-time monitoring and diagnostics, allowing operators to swiftly identify and address operational issues. Such predictive maintenance capabilities enhance reliability and contribute to prolonged equipment lifespan.

The GE ABN12 also emphasizes safety through comprehensive features that include a tested and proven interlocking mechanism. This mechanism prevents unauthorized access to live parts, ensuring that maintenance personnel can work safely. Additionally, the switchgear incorporates grounding systems that further reduce the risk of electrical hazards.

Environmental considerations are a hallmark of the GE ABN12 as well. With a commitment to sustainability, the switchgear is designed to operate efficiently while minimizing its environmental footprint. The use of innovative materials and eco-friendly design criteria ensures that the GE ABN12 aligns with modern environmental standards.

In conclusion, the GE ABN12 is a cutting-edge solution in medium-voltage switchgear technology, characterized by its modularity, advanced protection features, and commitment to safety and sustainability. Ideal for a range of applications, it provides essential reliability and efficiency, making it a top choice for industries looking to enhance their electrical infrastructure.