GE SCB 1001, ZSC 1001, ZSC 1000, SCB 1000 manual Noise Filter, Capacitor and Diode

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Noise Filter

The noise filter is located behind the blower assembly on the right side of the oven. The noise filter is held in place by a single Phillips-head screw. The filter ground wire is attached to the oven chassis near the noise filter by a single Phillips-head screw. The outer cover must be removed to access the noise filter. (See Oven Removal / Partial Removal.)

Note: When installing the noise filter, ensure all filter wiring is connected to the correct terminals.

Top View of Noise Filter

Ground Wire Screw

Screw

Noise Filter

Check to make sure the fuse is good. Check the noise filter for approximate resistance value at the following locations:

White (neutral input) to white (neutral output) - 0

Black (line input) to black/brown (line output) - 0

White (neutral input) to black (line input) - 23

Front View of Noise Filter

Input

Wire

Harness

Output-NOutput-L

Capacitor and Diode

WARNING: Always be certain the capacitor is discharged before servicing. 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, capacitor should fully discharge within 30 seconds.

The oven must be

partially removed toDiode access the capacitor. (See

Oven Removal / Partial

Removal.) The capacitorScrew is located behind the top

access cover and is held in place by 2 Phillips-head screws. A single Phillips- head screw attaches the capacitor and diode to the oven chassis.

Note: When disconnecting the wires and diode from the capacitor, note wire and diode locations.

The capacitor wires have locking tabs. Remove the capacitor, capacitor bracket, and diode as one assembly.

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Contents Technical Service Guide Important Safety Notice Page Table of Contents Model Number NomenclatureB 1 0 0 0 D B B Serial NumberFeatures and Benefits IntroductionUpper Halogen Lamp/Ceramic Heater Control Features SPEEDCOOK/Repeat LastCooking Times Rear Convection Heat Element Speed Cook SystemHalogen Lamp and Ceramic Heaters MicrowaveLower Heater Speedcook Power LevelsUpper Heaters Microwave EnergyThermal Protection Voltage Compensation ChartThermal Compensation Chart Initial Cavity Thermal CompensationSpeedcook Power Level Chart Upper HeaterAdvance Planning InstallationSingle Advantium 120 Installation Electrical RequirementsComponent Locator Views Front ViewMain Component Locator View Top View Bottom ViewLeft Side View Right Side ViewControl Panel Assembly Shown separated Power Board Control Boards and Panel ConnectionsRelay Board Control BoardDisplay Board Selector BoardControl Panel Component Access Chart ComponentsAccess Cover Oven Removal / Partial RemovalOuter Cover Door Removal Door AssemblyDoor-Removal Position To disassemble the doorControl Panel Assembly To remove the control panel assemblyTo remove the power board To remove the relay boardTo remove the control panel bracket To remove the control boardTo remove the display board To remove the control panel Low Voltage TransformerTo remove the selector board Resistance CheckCavity Light Fuse Noise Filter Capacitor and DiodeMagnetron and Magnetron TCO High Voltage TransformerMagnetron TCO Damper Assembly Blower AssemblyUpper Heater and Oven Cavity TCOs Upper Heater Assembly To remove the upper heater assemblyTo remove the lower heater assembly Lower Heater AssemblyConvection Heater Assembly and Thermistor ThermistorConvection Heater Element Convection Fan MotorHumidity Sensor Turntable Motor Humidity Sensor TestHow to Test the Monitor Switch Left and Right Door Switch AssembliesHow to Test Primary Interlock and Door Sensing Switches How to Test Interlock SystemRotate Switch How to Adjust the InterlocksTo replace the door switches To replace the latch boards Diagnostics and Service Information Standard Test Load Demo ModeFault Codes Display Failure DetectedProof Feature Microwave Leak TestSchematics and Wiring Diagrams PCB Warranty For The Period GE Will Replace

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.