5.Tilt the top of the control panel out, and mark and disconnect all the wiring harnesses connected to the smart board.

6.Remove the Phillips-head screw that attaches the ground wire to the control panel assembly.

Note: Model JVM1540 does not have this ground wire.

Duct Assembly

To access the cavity TCO, the duct assembly must be removed.

To remove the duct assembly:

1.Remove the outer cover. (See Outer Cover.)

2.Remove the 3 Phillips-head screws that attach the duct assembly to the oven.

3.Lift the duct assembly up at the rear and pull towards the back to release the tabs securing it to the front frame.

Cavity Thermal Cutout

The cavity thermal cutout is located on the top side of the oven cavity beside the exhaust duct. The cutout has a temperature rating of 212˚F.

The cavity TCO is not resettable.

To remove the oven thermal cutout:

1.Remove the outer cover. (See Outer Cover.)

2.Remove the duct assembly. (See Duct Assembly.)

3.Disconnect wiring to the oven thermal cutout.

4.Slide the oven thermal cutout to the left to remove it from the spring clip attaching it to the oven cavity.

Disconnect

Disconnect

Spring Clip

Smart Board

To remove the smart board:

1.Remove the control panel assembly. (See Control Panel Assembly.)

2.Disconnect the touch panel ribbon from the smart board.

3.Remove the 3 Phillips-head screws that attach the smart board to the control board frame then lift the smart board off the frame.

Disconnect

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GE JVM1750 manual Duct Assembly, Cavity Thermal Cutout, Smart Board

JVM1750 specifications

The GE LVM1750, EVM1750, HVM1750, and JVM1750 are advanced energy management solutions designed to optimize the performance and reliability of industrial and commercial electrical systems. These products by General Electric (GE) are integral to modern power distribution networks, providing unprecedented efficiency and control.

The GE LVM1750 is a versatile low voltage motor control center that emphasizes compact design and high performance. One of its main features is the ability to accommodate a wide variety of motor and control configurations, making it suitable for diverse applications. It incorporates state-of-the-art technology to ensure quick troubleshooting and reduces downtime through its integrated diagnostic tools.

On the other hand, the EVM1750 is engineered for enhanced energy efficiency. This variant utilizes GE’s proprietary EcoStruxure technology, which facilitates real-time monitoring and control of energy consumption. The EVM1750 features advanced algorithms that optimize energy usage while maintaining operational integrity. This optimizes electricity demands during peak times, which can significantly reduce operational costs.

The HVM1750 is noteworthy for its robust construction and ability to handle high-voltage applications. Its main characteristics include superior thermal performance and advanced safety features designed to mitigate risks in high-demand environments. The HVM1750 is ideal for large industrial operations requiring reliable and efficient power management solutions.

Last but not least, the JVM1750 is tailored for renewable energy integrations. It provides crucial capabilities for managing distributed energy resources (DERs) and optimizing energy flows from renewable sources. The JVM1750 is equipped with smart grid capabilities, allowing seamless integration with other energy management systems. Its adaptability makes it an essential component in today’s shift toward sustainable energy practices.

All four models share characteristics such as scalability, reliability, and ease of maintenance. They are designed with user-friendly interfaces that simplify the monitoring and control processes. Furthermore, their modular designs allow for flexible configurations tailored to specific operational needs.

In summary, the GE LVM1750, EVM1750, HVM1750, and JVM1750 are leading-edge solutions that cater to the evolving demands of modern power distribution, emphasizing energy efficiency, safety, and adaptability. Through these innovations, GE continues to play a pivotal role in advancing electrical management technologies across industries.