View our Video: Actual video footage of a Solidstate Controls' Inverter undergoing a seismic test on a tria-axial "shake table" at Wyle Laboratories.

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United States Class 1E:

"The safety classification of the electrical equipment and systems that are essential to emergency reactor shutdown.

Containment isolation, reactor core cooling and containment, and reactor core heat removal are essential in preventing significant release of radioactive material into the environment."

MOTHER STANDARDS:

IEEE 344:

Recommended practice for seismic qualification of Class 1E equipment for Nuclear Power Generating Stations.

IEEE 323-1974 and IEEE 323-1983:

Standards for qualifying Class 1E equipment for Nuclear Power Generating Stations for:

• Aging
  • Radiation
  • Thermal
• Mechanical Vibration
  • Seismic IEEE 344-1971
    

MILD ENVIRONMENT:

Defined by IEEE 323 as:

"An environment of normal service conditions where seismic is the only design basic event of consequence."

However, IEEE 323-83, Section 6.2 states the following:

• Aging analysis done on all devices/ components including material make up
• Radiation and higher than normal ambient temperature is factored into aging criteria (Station Black-Out conditions)
• Determine qualified life and replacement/ maintenance schedule to achieve 40 year design life
  

IEEE 344-1971

"Recommended practice for seismic qualification of Class 1E equipment for
Nuclear Power Generating Stations"

• IEEE 344-1975
• IEEE 344-1987
  

Simulates earthquakes:

Equipment must operate during and after at least five (5) Operating Basic Earthquake (OBE) events, and at least one (1) Safe Shutdown Earthquake (SSE) event.

DAUGHTER STANDARDS:

IEEE 650-1979 & 1990

"Standard for qualification of Class 1E battery Chargers and Inverters for Nuclear Generating Stations"

• Specific procedures to meet aging requirements of IEEE323
• Failure Modes and Effects Analysis (FMEA)
• Electrical stress analysis
• Pre and Post seismic environment stress test

IEEE 944-1986

• Design criteria for Inverters and Rectifier/ Battery Chargers, Bypass transformers, and Voltage Regulators
• Electrical testing criteria

NEMA PE-5:

• Utility type Battery Chargers
  
• Design criteria for Rectifier/ Chargers
  
• Electrical test criteria
  

IEEE 996-1985


"IEEE recommended practice for design of safety related DC auxiliary power systems for Nuclear Power Generating Stations"

• Battery Charger sizing criteria
• Distribution systems and equipment
• Spare/swing Battery Chargers
  

IEEE 383-1980

"Standard for the type testing of Class 1E electric cables, field splices, and connections for Nuclear Power Generating Stations"

• Cable must utilize certified insulation system, and must pass vertical and horizontal flame test per IEEE383
  
  

IEEE 384-1981

"Standard criteria for independence of Class 1E rated equipment and circuits"

• Physical and electrical separation criteria
• Non-Class 1E circuits from Class 1E circuits (critical vs. non-critical)
• May require additional "isolation" devices

IEEE 519-1992

"Recommended practices and requirements for harmonic control in electrical power systems"

• Newly re-written to include reflected current harmonics from rectifiers and battery chargers
• Does not recommend the use of 3 SCRs (3-pulse designs) for Rectifiers
  
  

OTHER STANDARDS

NEMA ABI-1986

"Standard for the testing of molded case switches"

• Certified testing results that breakers meet specified trip ratings and electrical criteria
• Note: Solidstate Controls buys directly from the O.E.M.
  • Breakers are serialized for traceability
  • Certified Test reports are issued for:
    • Complete functional tests
    • Tripping time(s)
    • Dielectric tests
      

EPRI 102323, Revision I

"Guidelines for Electromagnetic Interference Testing in Power Generating Plants"

• EMI/RFI
  • Conducted
  • Radiated
• Equipment susceptibility

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