GE PT920, PT960 manual Wall ovens

Page 1

ge.com

wall ovens

New product introductions May/June 2007 GE Profileand GE® wall ovens

Image 1
Contents Wall ovens What’s new GE Profile wall ovens Easy CleanabilityNew Distinguished Appearance Remarkable Versatility Superior PerformanceGE Profile model PT960 All-new control panel Feature gallery GE Profile wall ovens LCD touch screen Glass touch controls Certified Sabbath modeWindow 3Beveled edgesInside story GE Profile wall ovens True Hidden Bake Broil element and reflectorFaster preheat Improved air flowFeature gallery GE wall ovens Bigger hearth window Gloss handlesImproved fit/finish Heavy-duty racksGE Profile Double oven PT960 PT956 GE Profile wall ovensGE Profile Single oven PT920 GE Profile Double oven PK956GE Profile Single oven PK916 GE Profile Single oven PT916GE Profile Combination double oven PT970 Double oven JTP75 GE wall ovensDouble oven JKP75 Single oven JKP70 Single oven JTP70Single oven JTP30 Single oven JKP30Electric wall oven quick pitch Remarkable cleanabilitySuperb performance Exceptional versatilityWeights & Dimensions FeaturesPower/Ratings AppearanceCabinet JTP55, JTP35Oven GE Profile Convection single ovens Single ovens Built-in single ovensTrivection technology Except wall ovens withGE Profile Convection Double ovens Microwave Oven support Built-in microwave double oven dimensions in inchesFor 27 models Model JKP90GE Profile Convection Single ovens Installation dimensions in inches 27/24 built-in single oven dimensions in inchesModels PK916, JKP70, JKP30, JKS10 Sealed burner gas cooktop

PT920, PT960 specifications

The GE PT960 and PT920 are advanced power transformers that exemplify General Electric's commitment to innovation and performance in electrical engineering. Designed for versatility and efficiency, these transformers are pivotal in various industrial applications, including energy generation, transmission, and distribution.

The PT960 is known for its high power rating and robust construction, making it ideal for demanding tasks in heavy industry. With a power rating of up to 960 MVA (megavolt-amperes), it ensures reliable voltage transformation in large-scale power systems. Meanwhile, the PT920 is slightly smaller, yet it retains exceptional capability with a power rating of up to 920 MVA, suitable for a different range of applications without compromising performance.

Both models incorporate GE's advanced insulation technology, which significantly enhances durability and reliability. The insulation systems are designed to withstand harsh environmental conditions, reducing the risk of failure and extending the lifespan of the transformer. Additionally, these transformers feature efficient cooling systems that optimize heat dissipation, ensuring stable operation despite the load variations.

One of the key characteristics of the GE PT960 and PT920 is their modular design. This modularity allows for easier transportation and installation, reducing construction time on site. The transformers are equipped with digital monitoring systems that provide real-time data and diagnostics. This technology aids in predictive maintenance, enabling operators to identify potential issues before they escalate.

The transformers also utilize GE's advanced electromagnetic modeling techniques, ensuring minimized losses during operation. This efficiency translates into reduced operational costs and a smaller carbon footprint, aligning with global trends towards sustainability.

Moreover, both models support a variety of configuration options to meet specific client needs, including different voltage levels and winding arrangements. This flexibility makes them suitable for integration into various power networks worldwide.

In summary, the GE PT960 and PT920 transformers stand out for their high power ratings, durable insulation, efficient cooling, modular construction, digital monitoring capabilities, and operational efficiency. These attributes make them a preferred choice for power utilities and industries seeking reliable and innovative solutions for their electrical infrastructure needs.