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4D33644G04 Fourth-Generation Full Optimized Ultra-Reinforced 8-Channel 5A Heavy-Current Discrete Output Terminal Daughter Card for Common Q Class 1E Nuclear Safety DCS System

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4D33644G04 Fourth-Generation Full Optimized Ultra-Reinforced 8-Channel 5A Heavy-Current Discrete Output Terminal Daughter Card for Common Q Class 1E Nuclear Safety DCS System
June 10, 2026

4D33644G04 Fourth-Generation Full Optimized Ultra-Reinforced 8-Channel 5A Heavy-Current Discrete Output Terminal Daughter Card for Common Q Class 1E Nuclear Safety DCS System

The 4D33644G04 is the fourth-generation fully optimized NRC Class 1E nuclear safety certified heavy-duty high-current discrete output terminal subcard, fully upgraded and optimized based on Gen1 (4D33644G01), Gen2 (4D33644G02) and Gen3 (4D33644G03) for Emerson Westinghouse Common Q safety Instrument & Control platform. It serves as the highest-grade ultra-reinforced galvanic isolation high-power drive interface between rack discrete output master logic boards and the highest-priority core primary emergency safety heavy inductive loads, including reactor core rapid trip high-power solenoid valves, large-capacity primary safety isolation contactors, containment ultra-high-decibel accident alarm horns and primary reactor safety interlock actuators.

Description

1. Product Title

4D33644G04 Fourth-Generation Full Optimized Ultra-Reinforced 8-Channel 5A Heavy-Current Discrete Output Terminal Daughter Card for Common Q Class 1E Nuclear Safety DCS System

2. Product Brief Introduction

The 4D33644G04 is the fourth-generation fully optimized NRC Class 1E nuclear safety certified heavy-duty high-current discrete output terminal subcard, fully upgraded and optimized based on Gen1 (4D33644G01), Gen2 (4D33644G02) and Gen3 (4D33644G03) for Emerson Westinghouse Common Q safety Instrument & Control platform. It serves as the highest-grade ultra-reinforced galvanic isolation high-power drive interface between rack discrete output master logic boards and the highest-priority core primary emergency safety heavy inductive loads, including reactor core rapid trip high-power solenoid valves, large-capacity primary safety isolation contactors, containment ultra-high-decibel accident alarm horns and primary reactor safety interlock actuators.
This module receives critical safety digital control signals from rack core logic boards and converts them into ultra-stable, low-ripple high-current isolated drive signals. Each channel integrates industrial top-grade ultra-high withstand isolation transformers, oversized bidirectional freewheeling back EMF suppression arrays and 5th-order multi-stage LC EMI filter networks, which completely eliminate severe reverse electromotive force interference of large inductive loads, ultra-high-energy lightning surge noise from long-distance field cables and wide-amplitude ground loop potential drift existing in nuclear primary containment core safety zones, thermal power boiler main emergency shutdown primary control areas and ultra-high-risk petrochemical core reaction containment workshops.
The PCB adopts multi-layer extra-thick copper low-impedance V-0 flame-retardant high-Tg FR-4 substrate, with triple-thick hard gold plating on backplane gold fingers, paired with oversized corrosion-resistant nickel-gold high-temperature anti-loosening high-current field screw terminals, delivering ultra-low impedance and ultra-stable long-term heavy-current transmission performance under continuous high-temperature, high-humidity, heavy dust, intense vibration and thermal cycling harsh industrial environments. Every channel is equipped with independent high-current fast-blow fuses, reverse wiring blocking and sub-microsecond instantaneous short-circuit full cut-off protection. The built-in full-channel high-speed real-time intelligent fault self-diagnosis system supports ultra-high-frequency sampling, high-precision millisecond-level timestamped fault code upload, fault transient waveform full capture and historical fault data storage to the rack diagnostic board for complete failure root cause traceability; single-channel faults are independently isolated without interrupting any other core primary emergency safety trip loops or damaging rack core control equipment. The card supports single-module hot swapping under energized racks to minimize core primary safety actuator wiring maintenance downtime. All finished modules pass 96-hour full-load high-low temperature cyclic aging calibration, ultra-high surge durability testing, enhanced vibration aging testing and thermal cycle fatigue testing, fully complying with NRC Nuclear Class 1E safety certification standards, providing industry-leading anti-interference performance, ultra-long service stability and comprehensive full-life-cycle diagnostic capability for nuclear-grade highest-priority core primary emergency safety shutdown loops.

3. Parameter Specification Sheet

Basic Information

  • Part Number: 4D33644G04

  • Brand: Emerson / Westinghouse

  • Product Type: Fourth-Generation Full Optimized Ultra-Reinforced Heavy-Duty High-Current Discrete Output Field Terminal Daughter Card

  • Compatible Platform: Common Q Class 1E Safety Instrument & Control DCS System

  • Matching Supporting Modules: Discrete output master logic boards, 49E-3649 rack backplane, 475HP1ENA9GMT redundant rack power supply

  • PCB Material: Multi-layer extra-thick copper low-impedance isolated high Tg FR-4, V-0 flame retardant

  • Surface Treatment: Triple-thick hard gold plating for backplane connectors; oversized upgraded nickel-gold high-current anti-oxidation large-caliber screw field terminals

  • Overall Dimensions: 122mm × 67mm × 21mm

  • Net Weight: 63g

  • Storage Temperature Range: -50℃ ~ +125℃

  • Operating Ambient Temperature: -25℃ ~ +70℃

  • Working Humidity: 5% ~ 95% RH, non-condensing

  • Matched Power Input: DC 12V / DC 24V dual wide voltage adaptive

  • Primary Power Circuit Inductance Limit: ≤23μH

Electrical & Heavy-Current Drive Performance

  • Rated Supply Voltage: DC 12V / DC 24V dual wide input

  • Output Channels: 8 fully independent isolated heavy-current drive channels

  • Per-Channel Continuous Rated Output Current: 5A

  • Built-in Circuit: Oversized bidirectional freewheeling absorption loop for high-power core primary safety inductive loads

  • Single Channel Isolation Dielectric Strength: Field safety load side ↔ rack internal logic circuit ≥2200V AC (upgraded from G03’s 2000V AC / G02’s 1800V AC / G01’s 1500V AC)

  • Power Frequency Interference Attenuation: ≥55dB (enhanced from G03’s 50dB / G02’s 45dB / G01’s 40dB)

  • Insulation Resistance: ≥1200MΩ @ 500VDC test voltage

  • Dielectric Withstand Voltage: AC 2200V, continuous withstand for 60 seconds

  • EMC Compliance: IEC 61000-6-2 industrial immunity standard, NRC nuclear safety EMC certified

  • Integrated Protection & Diagnosis Functions: Per-channel independent high-current fast fuse overcurrent protection, bidirectional ultra-high-energy lightning surge transient absorption, reverse wiring blocking, sub-microsecond-level load short-circuit instant full cut-off, heavy inductive load back EMF full clamping, ground loop interference suppression, real-time channel overcurrent/short-circuit/open-circuit/over-temperature fault detection, high-resolution timestamped fault code upload, fault transient waveform full capture and historical fault data storage

  • Hot Swap Operation Rule: Single heavy-current output terminal card supports hot plug replacement; all other core primary emergency safety drive channels remain fully energized and 100% functional during module maintenance

Mechanical & Installation Specifications

  • Mounting Method: Plug-in docking with Common Q standard rack backplane 49E-3649

  • Interfaces: Dedicated exclusive gold finger backplane connector + oversized upgraded large-caliber anti-loosening screw-type high-current field wiring terminals

  • Vibration Resistance: 10–150Hz frequency range, continuous vibration tolerance up to 12g (enhanced from G03’s 10g / G01/G02 8g)

  • Shock Resistance: 30g pulse impact resistance, pulse duration 11ms (upgraded from previous 25g)

Certification & Quality Standards

  • Safety Grade: NRC Nuclear Class 1E qualified safety critical fourth-generation full optimized ultra-reinforced heavy-load core primary emergency trip drive isolation component

  • Global Certifications: CE, UL508, IEC60204-1

  • Pre-delivery Test Items: 96-hour high-low temperature cycle aging test, long-term continuous 5A inductive load durability test, ultra-high energy lightning surge impact simulation test, multi-channel high-speed intelligent fault linkage diagnosis test, long-duration enhanced vibration aging test, thermal cycle fatigue test, fault waveform capture & historical data storage verification test

  • Design Service Life: ≥150,000 hours of 24/7 uninterrupted stable operation

  • Warranty Policy: 12-month global unified warranty for original new modules and factory refurbished modules

4. Application Fields

  1. Nuclear power plant Common Q Class 1E safety I&C system, fourth-generation full optimized ultra-reinforced isolation heavy-current drive terminal for reactor protection cabinet core rapid primary emergency shutdown solenoid valves and large-capacity primary safety isolation contactors

  2. AP1000 nuclear Post-Accident Monitoring System (PAMS), top-tier ultra-high reliability containment primary safety isolation valve and ultra-high-decibel accident alarm horn isolated drive interface board

  3. Thermal power & hydropower stations, boiler main fuel rapid primary emergency shutoff valves, turbine overspeed trip high-current primary contactors and fire disaster ultra-high-power alarm horn terminal module

  4. Petrochemical explosion-proof DCS distributed control system, ultra-high-risk core reactor primary emergency cut-off 5A high-current solenoid valve top-grade full optimized reinforced safety wiring card

  5. Offshore oil & gas platform explosion-proof safety automation rack, wellhead primary emergency shutdown safety valve and high-power trip relay ultra-stable long-life drive board

  6. Large diesel generator safety sequential control cabinet, overspeed primary trip solenoid and cooling system core primary emergency isolation valve heavy-current output subcard

  7. Municipal large-scale water treatment safety interlock DCS rack, chemical leakage primary emergency cut-off valve and ultra-high-power accident alarm device full optimized ultra-reinforced isolation drive terminal board

  8. Metallurgy & cement kiln-furnace production line, high-temperature furnace core primary emergency safety isolation valve and accident warning horn heavy-load discrete output module

Content Verification Note

  1. Confirmed fixed factual information: 4D33644G04 is the fourth-generation top full-optimized ultra-reinforced heavy-current discrete output terminal daughter card of Emerson Common Q nuclear DCS series, upgraded from G01/G02/G03 with 2200V ultra-high per-channel isolation, 55dB high EMI attenuation, sub-microsecond short-circuit full protection, built-in fault waveform capture + historical fault storage, enhanced vibration & shock resistance, single-module hot swappable, compliant with NRC Nuclear Class 1E safety standards, compatible with rack backplane 49E-3649 (unified coding specification of Common Q nuclear-grade DCS spare parts).

  2. Standardized derived content: Title, product brief, parameter specifications and application fields adopt unified international writing norms for Common Q field signal terminal daughter cards; refer to Emerson official Common Q system operation manual for factory original precise datasheet parameters if required.

Optional Short Standalone Titles

  1. 4D33644G04 Gen4 Full Optimized 8-Channel 5A Heavy-Current Discrete Output Terminal Card with 2200V Isolation for Class 1E Nuclear DCS

  2. 4D33644G04 Common Q Nuclear-Grade Fourth-Generation Core Primary Emergency Trip Solenoid High-Power Drive Interface Daughter Card

  3. 4D33644G04 Ultra-High Isolation Heavy-Load Primary Core Emergency Shutdown Wiring Board for Nuclear Safety I&C Rack


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