GE ZEK958, ZEK938 owner manual Proper placement of the probe

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Proper placement of the probe

Using the Probe

Wall Oven

After preparing the meat and placing it on

a trivet or on the broiler pan grid, follow these directions for proper probe placement.

1 Lay the probe on the outside of the meat along the top or side and mark with your finger where the edge of the meat comes to on the probe. The point should rest in the center of the thickest meaty part of the roast.

2 Insert the probe completely into the meat, up to the handle. It should not touch the bone, fat or gristle.

For roasts with no bone, insert the probe into the meatiest part of the roast. For bone-in ham or lamb, insert the probe into the center of the lowest large muscle or joint.

Insert the probe into the center of dishes such as meat loaf or casseroles. When cooking fish, insert the probe from just above the gill into the meatiest area, parallel to the backbone.

Insert the probe into the meatiest part of the inner thigh from below and parallel to the leg of a whole turkey.

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Contents 27″ and 30″ Convection Wall Oven Contents IntroductionBefore using your wall oven If you need serviceWrite down the model & serial numbers If you received a damaged wall oven Save time & moneyImportant Safety Notice SELF-CLEANING Oven Design information Baking or Roasting and Broiling sectionsFeatures of your oven control, clock and timer TonesOven Light ON/OFF. Press to turn the oven lights on or off Clock To set the clock Power failure TimerStart pad Using the timer To reset the timerTo cancel the timer Control lockoutSpecial features of your oven control Tones at the end of a timed cycle Tone volumeHour Hour or clock blackout Hour shut off Special Features Using the Sabbath Feature Sabbath Feature How to set for regular baking or roastingUsing the Sabbath Feature How to exit the Sabbath feature How to set the oven for baking or roasting Before you begin…Preheating and pan placement Aluminum foilHow to set the oven for broiling HI BroilBroiling guide for 27 ″ ovens on some models CommentsBroiling guide for 30 ″ ovens on some models Using the timed baking and roasting features How to set an immediate start and automatic stopHow to set Delayed start and automatic stop Temperature probe Cable Plug Probe HandlesProper placement of the probe How to set the oven for roasting when using the probe Convection FanRack BakingCookware for convection cooking Convection roastingPaper and Plastic Metal and GlassHow to set the oven for convection baking or roasting Convection roasting guidePage Using the timed features for convection cooking How to set Delayed start and automatic stop How to set the oven for warming To Crisp Stale ItemsHow to set the oven for proofing To adjust the oven thermostat Do it yourselfType of margarine will affect baking performance Before a clean cycle How to set the oven for cleaningHow to delay the start of cleaning After a clean cycleOven racks and convection roasting rack Stainless steelMetal parts Broiler pan and gridLift-off oven door- removal To remove the doorTo replace the door Oven door Removable oven floorOven heating elements Control panelOven light bulbs ProbeTo remove To replaceBefore You Call For Service… Do not WorkTrouble- shooting tips Before You Call For Service… After a CleanWall Oven Wall Oven We’ll Cover Any Appliance. Anywhere. Anytime Consumer Product Ownership Registration Consumer Services Your Monogram Wall Oven Warranty From the Date Original Purchase

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.