GE SCB 1000, ZSC 1001, ZSC 1000, SCB 1001 Magnetron and Magnetron TCO, High Voltage Transformer

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Magnetron and Magnetron TCO

WARNING: Always be certain the capacitor is discharged before servicing. (See Capacitor and Diode.) Mechanically discharge by placing an insulated handle screwdriver between the diode connection of the capacitor and the oven chassis ground.

Note: The capacitor has an internal discharge resistor that automatically discharges the capacitor when the oven turns OFF. Under normal operation, the capacitor should fully discharge within 30 seconds.

The oven must be removed to access the magnetron. (See Oven Removal / Partial Removal.) The magnetron is located behind the top access cover. The top access cover is held in place by 2 Phillips-head screws. The magnetron is held in place by 4 Phillips-head screws. The magnetron thermostat must be disconnected before removing the magnetron.

Magnetron

Magnetron TCO

Magnetron TCO

The magnetron TCO is attached to a bracket mounted to the magnetron. The magnetron bracket is held in place by a single Phillips-head screw.

This position of the magnetron TCO allows it to sense the temperature of the magnetron.

The magnetron TCO opens at 302°F and cannot be reset. If the magnetron TCO opens, it will disable all oven functions including the display.

High Voltage Transformer

WARNING: Always be certain the capacitor is discharged before servicing. (See Capacitor and Diode.) Mechanically discharge by placing an insulated handle screwdriver between the diode connection of the capacitor and the oven chassis ground.

Note: The capacitor has an internal discharge resistor that automatically discharges the capacitor when the oven turns OFF. Under normal operation, the capacitor should fully discharge within 30 seconds.

The oven must be removed to access the high voltage transformer. (See Oven Removal / Partial Removal.) The high voltage transformer is located behind the top access cover. The top access cover is held in place by 2 Phillips-head screws.

The transformer is held in place with 4 Phillips-head screws. Two of the screws are recessed from the top of the outer cover. Access holes are provided. A magnetic screwdriver is necessary to capture these screws.

Transformer

When disconnecting the primary and secondary wire connections, note the wire locations. The wire connectors use releasing locking tabs.

ELECTRICAL TERMINAL

RELEASE/LOCKING TAB

Check the high voltage transformer windings for approximate resistance value between:

Red to white (primary) - .5

Red/Black to chassis ground (secondary) - 87

Magnetron harness (filament high voltage) - .2

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Contents Technical Service Guide Important Safety Notice Page Table of Contents Serial Number NomenclatureB 1 0 0 0 D B B Model NumberIntroduction Features and BenefitsUpper Halogen Lamp/Ceramic Heater SPEEDCOOK/Repeat Last Control FeaturesCooking Times Microwave Speed Cook SystemHalogen Lamp and Ceramic Heaters Rear Convection Heat ElementMicrowave Energy Speedcook Power LevelsUpper Heaters Lower HeaterThermal Compensation Voltage Compensation ChartThermal Compensation Chart Initial Cavity Thermal ProtectionUpper Heater Speedcook Power Level ChartElectrical Requirements InstallationSingle Advantium 120 Installation Advance PlanningFront View Component Locator ViewsMain Component Locator View Bottom View Top ViewRight Side View Left Side ViewControl Panel Assembly Shown separated Control Boards and Panel Connections Power BoardControl Board Relay BoardSelector Board Display BoardControl Panel Components Component Access ChartOven Removal / Partial Removal Access CoverOuter Cover To disassemble the door Door AssemblyDoor-Removal Position Door RemovalTo remove the control panel assembly Control Panel AssemblyTo remove the relay board To remove the power boardTo remove the control board To remove the control panel bracketTo remove the display board Resistance Check Low Voltage TransformerTo remove the selector board To remove the control panelCavity Light Fuse Capacitor and Diode Noise FilterHigh Voltage Transformer Magnetron and Magnetron TCOMagnetron TCO Blower Assembly Damper AssemblyUpper Heater and Oven Cavity TCOs To remove the upper heater assembly Upper Heater AssemblyThermistor Lower Heater AssemblyConvection Heater Assembly and Thermistor To remove the lower heater assemblyConvection Fan Motor Convection Heater ElementHumidity Sensor Test Humidity Sensor Turntable MotorHow to Test Interlock System Left and Right Door Switch AssembliesHow to Test Primary Interlock and Door Sensing Switches How to Test the Monitor SwitchHow to Adjust the Interlocks Rotate SwitchTo replace the door switches To replace the latch boards Diagnostics and Service Information Display Failure Detected Demo ModeFault Codes Standard Test LoadMicrowave Leak Test Proof FeatureSchematics and Wiring Diagrams PCB For The Period GE Will Replace Warranty

SCB 1000, SCB 1001, ZSC 1000, ZSC 1001 specifications

The GE ZSC 1001, ZSC 1000, SCB 1001, and SCB 1000 are cutting-edge solutions in the realm of electrical substations, designed to enhance efficiency, reliability, and safety in power management systems. These devices are integral for utilities seeking to modernize their infrastructures while maintaining optimal performance.

The GE ZSC 1000 series includes both the ZSC 1000 and ZSC 1001 models. These digital relays are renowned for their sophisticated protection and control capabilities. One of the standout features of the ZSC 1001 is its enhanced communication technology, enabling seamless integration with various systems and allowing for real-time data exchange. This model offers advanced protection functions, including overcurrent, distance, and differential protection, which are essential for safeguarding electrical assets.

The ZSC 1000 series is built on a modular architecture, facilitating easy upgrades and customization to meet specific operational needs. It employs intelligent data analysis to help operators predict equipment failures before they happen, ultimately minimizing downtime and maintenance costs. Additionally, the devices boast user-friendly interfaces that simplify monitoring and control tasks.

The SCB 1000 and SCB 1001 are also key players in GE's portfolio, tailored for busbar protection and automation. These models feature high-accuracy current sensing technology and extensive programmable parameters to suit diverse applications. Their design allows for robust performance in harsh environments, making them ideal for substations.

Both SCB models utilize advanced digital signal processing (DSP) technologies, which enhance their performance and improve the reliability of measurements. The SCB 1001 takes a step further by incorporating security measures to protect against cyber threats, ensuring the integrity of data within the grid.

In terms of interoperability, all four models support various communication protocols, facilitating better connectivity and integration with existing infrastructure. They are designed to operate seamlessly in conjunction with SCADA systems, enabling comprehensive monitoring and control functions.

To summarize, the GE ZSC 1001, ZSC 1000, SCB 1001, and SCB 1000 exemplify modern innovations in electrical protection and control. They offer a blend of advanced technologies, modular designs, and robust performance characteristics, making them invaluable assets for any utility looking to enhance its power management systems. These devices not only meet the current demands of the energy sector but are also equipped to adapt to future challenges in the evolving landscape of electrical distribution and management.
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