Fahrenheit or Celsius temperature selection

Auto Recipeconversion

Special Features

Wall Oven

Your oven control is set to use the Fahrenheit temperature selections, but you may change this to use the Celsius selections.

1 Press the BAKE and BROIL HIGH/LOW pads (on double oven models, use the upper oven controls) at the same time for 3 seconds until the display shows “SF.”

2Press the BROIL HIGH/LOW and COOK TIME pads at the same time. The display will show “F” (Fahrenheit).

Press the BROIL HIGH/LOW and COOK TIME pads again at the same time. This will show “C” (Celsius).

3Press the START pad. The new setting will be displayed for both ovens.

NOTE: On double oven models, the new setting will be displayed for both ovens.

When using convection bake, the Auto RecipeConversion feature will automatically convert entered regular baking temperatures to convection baking temperatures.

Once the feature is activated, the display will show the actual converted (reduced) temperature. For example, if you enter a regular recipe temperature of 350°F and press the START pad, the display will show “CON” and the converted temperature of “325°F.”

NOTE: This feature does not convert convection bake cooking times, only regular baking temperatures.

To Activate the Feature:

1Press the BAKE and BROIL HIGH/LOW pads (on double oven models, use the upper oven controls) at the same time for 3 seconds, until the display shows “SF.”

2Press the CONV BAKE/1 RACK pad. The display will show “CON OFF.” Press the CONV BAKE/1 RACK pad again. The display will show “CON ON.”

3Press the START pad.

To deactivate the feature, repeat steps 1–3 above but press the START pad when “CON OFF” is in the display.

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GE ZEK958, ZEK938 owner manual Special Features

ZEK938, ZEK958 specifications

The GE ZEK958 and ZEK938 are advanced digital relays designed for protecting and monitoring electrical power systems. These devices are part of GE's broader line of protective relays, which harness cutting-edge technology to ensure reliable performance and robust protection for critical electrical assets.

One of the main features of the GE ZEK958 and ZEK938 is their comprehensive protection capabilities. Both models offer multifunctional protection, including overcurrent, earth fault, and distance protection. They are adept at detecting and isolating potential faults, which can prevent equipment damage and enhance system reliability.

The ZEK958 model is particularly noted for its advanced communication protocols. It supports multiple communication standards, including IEC 61850, DNP3, and Modbus, allowing for seamless integration into modern substation automation systems. This connectivity capability ensures that real-time data can be shared across various systems, facilitating enhanced monitoring and control.

Conversely, the GE ZEK938 is designed for applications that require high-speed tripping and resilience in harsh environments. It caters to the needs of utilities and industries where rapid fault detection is crucial. The ZEK938 features robust housing and is rated for demanding conditions, ensuring consistent performance even in challenging environments.

Both models feature intuitive user interfaces that simplify setup and operation. They come equipped with large displays and user-friendly navigation, allowing operators to configure settings easily and access critical information without extensive training. Additionally, advanced diagnostic capabilities provide detailed fault records and event logs, enabling effective troubleshooting and maintenance.

In terms of technology, both the ZEK958 and ZEK938 utilize digital signal processing to offer superior precision and reliability. This technology helps to eliminate noise and enhance the accuracy of measurement, a critical aspect in power system protection. Furthermore, they incorporate sophisticated algorithms to differentiate between various types of faults, ensuring that the right corrective action is taken swiftly.

In summary, the GE ZEK958 and ZEK938 digital relays stand out for their robust protection features, versatile communication capabilities, and resilience in challenging conditions. They are engineered for modern electrical systems, combining advanced technology with user-friendly design to meet the demands of utility and industrial applications. With these relays, operators can achieve enhanced reliability, improved efficiency, and greater control over their electrical assets.