GE CFWS1NIXSS dimensions CFCP1NIZ, GE Café 20.9 Cu. Ft. Counter-Depth French Door Refrigerator

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CFCP1NIZ

GE Café20.9 Cu. Ft. Counter-Depth French Door Refrigerator

Dimensions and Installation Information (in inches)

 

Height to top of hinge (in.) A

69-5/8

 

 

 

 

Height to top of case (in.) B

69

 

 

 

Overall Dimensions

Case depth without door (in.) C

23-7/8

 

 

Case depth less door handle (in.) D

28-1/2

 

 

Case depth with door handle (in.) E

31

 

 

Depth with fresh food door open 90° (in.) F

43-1/2

 

 

 

 

 

Width (in.) G

35-7/8

 

 

 

 

Width with door open 90° inc. door handle (in.) H

44

 

 

 

Air Clearances

Each side (in.)

1/8

 

 

Top (in.)

1

 

 

Back (in.)

1/2

 

 

 

Top View

Front View

For answers to your Monogram,® GE Profileor GE® appliance questions, visit our website at geappliances.com or call GE Answer Center® service, 800.626.2000.

Above illustration intended for dimensional reference only. Refer to photography for actual product appearance.

Listed by

Underwriters

Laboratories

Specification Created 1/10

210816

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Contents CFCP1NIZ Specification Created 1/10GE Café 20.9 Cu. Ft. Counter-Depth French Door Refrigerator Each side Top BackFeatures and Benefits

CFCP1NIZSS, CFWS1NIXSS, CFCP1NIZ specifications

The General Electric CFCP1NIZ, CFWS1NIXSS, and CFCP1NIZSS are advanced components in the landscape of industrial and commercial applications, specifically engineered for efficiency, reliability, and adaptability. These products reflect GE's commitment to technological innovation and customer satisfaction.

The CFCP1NIZ is a compact, high-performance control panel designed for a variety of industrial environments. Its robust construction ensures durability, while the intuitive interface facilitates easy operation. Key features include programmable logic capabilities, integrated safety systems, and comprehensive data logging functionalities. This model excels in controlling machinery and processes with precision, providing operators with real-time monitoring and control, thus enhancing operational efficiency.

The CFWS1NIXSS represents a significant advancement in energy management and distribution systems. This model is engineered to optimize energy use, reduce waste, and promote sustainability within industrial settings. Its hallmark characteristics include superior load management capabilities and high adaptability to various energy sources. The design incorporates advanced safety features, protecting both equipment and personnel. Additionally, the CFWS1NIXSS is configured with modern communication protocols, allowing seamless integration into existing networks and facilitating data exchange across multiple platforms.

Meanwhile, the CFCP1NIZSS combines features from both the CFCP1NIZ and CFWS1NIXSS, creating a versatile solution for comprehensive control and energy management. It supports advanced analytics, enabling operators to visualize energy consumption trends and implement corrective measures. This model stands out due to its flexibility, accommodating custom configurations to suit diverse industrial needs. With its ergonomic design, it provides easy access to critical components for maintenance and upgrades, ensuring minimal downtime.

In terms of technological characteristics, these models leverage state-of-the-art microprocessor technology, enabling real-time processing and intelligent decision-making. They also feature a user-friendly programming environment, allowing for customized applications that cater to specific operational requirements. Enhanced connectivity options ensure they are ready for the smart industrial landscape, supporting Internet of Things (IoT) initiatives.

In summary, GE's CFCP1NIZ, CFWS1NIXSS, and CFCP1NIZSS are not just components but integral solutions designed for the modern industrial ecosystem. Their advanced features, innovative technologies, and robust characteristics highlight GE's dedication to providing superior products that meet the evolving demands of energy efficiency and control in industrial applications.