ONESEINE TECHNOLOGY CO.,LTD
| Packaging Details | Vacuun bag |
| Delivery Time | 5-8 working days |
| Payment Terms | T/T,Western Union |
| Supply Ability | 1000000000pcs/mon |
| Product | COB Immersion Gold Aluminum PCB Board |
| Attributes | Aluminum,COB,Immersion Gold,Ultra High |
| Pcb Surface Finishing | ENIG |
| Cu Thickness | 2/0oz |
| Legend | PSR-4000 |
| Board Color | green solder mask, white silk screen |
| Pcb Thickness | 0.2mm-4mm |
| Thermal conductivity | 1.0-8.0 W/mK |
| Place of Origin | Shenzhen,China |
| Brand Name | ONESEINE |
| Certification | ISO9001,ISO14001 |
| Model Number | ONE-102 |
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Product Specification
| Packaging Details | Vacuun bag | Delivery Time | 5-8 working days |
| Payment Terms | T/T,Western Union | Supply Ability | 1000000000pcs/mon |
| Product | COB Immersion Gold Aluminum PCB Board | Attributes | Aluminum,COB,Immersion Gold,Ultra High |
| Pcb Surface Finishing | ENIG | Cu Thickness | 2/0oz |
| Legend | PSR-4000 | Board Color | green solder mask, white silk screen |
| Pcb Thickness | 0.2mm-4mm | Thermal conductivity | 1.0-8.0 W/mK |
| Place of Origin | Shenzhen,China | Brand Name | ONESEINE |
| Certification | ISO9001,ISO14001 | Model Number | ONE-102 |
| High Light | COB led mcpcb board ,ODM led mcpcb board ,ODM blank mcpcb | ||
COB Immersion Gold Aluminum PCB Board For Ultra High Thermal Conductivity Product
PCB parameter:
Material:high thermal conductivity aluminum pcb substrate
Brand:Oneseine
Thickness:2mm
Copper:2OZ
Certificate:ULE354470/ISO/SGS/IATF16949
Soldermask:White
Thermal conductivity coefficient:2.0w/m.k
Surface finish:Immersion gold
E-Test:100%
Next-Generation Metal Core PCB Technology: Pushing Thermal and Electrical Boundaries
Material Innovations Redefining Performance
Beyond conventional metals, engineered composites now dominate high-stress applications:
Carbon-Nanotube Reinforced Aluminum boosts thermal conductivity to 350 W/mK while reducing CTE to 8 ppm/°C (NASA JPL 2023)
Vapor-Chamber Embedded Cores utilize phase-change fluids to achieve effective thermal conductivities >800 W/mK in 5G mmWave arrays
Anisotropic Graphite Foils laminated between copper layers provide in-plane σ=1700 W/mK for EV battery management systems
Additive-Manufactured Microchannel Cores enable active liquid cooling with 0.05°C/W thermal resistance at 2kW dissipation
Revolutionized Manufacturing Paradigms
Industry 4.0 technologies transform production:
AI-Driven Thermal Simulation
Neural networks optimize core thickness within ±0.02mm tolerance using real-time CFD feedback
Predictive void detection during lamination reduces scrap rates to <0.3%
Atomic Layer Deposition (ALD)
50nm Al₂O₃ dielectric coatings withstand 300V/μm fields
Conformal nanocoatings enable 0.1mm bend radii in flexible hybrids
Magnetic Field-Assisted Bonding
Aligns ceramic fillers in dielectric layers, boosting thermal conductivity 40%
Eliminates traditional adhesives reducing thermal impedance
Thermal-Electrical Co-Design Breakthroughs
Advanced modeling reveals counterintuitive relationships:
Negative CTE Alloys (e.g., ZrW₂O₈) enable zero-thermal-warp designs for space-grade PCBs
Fractal Via Arrays improve heat spreading efficiency by 65% versus grid patterns
Gradient Core Architectures transition from 3mm copper (power section) to 0.8mm aluminum (periphery) in single boards
Topological Insulator Interfaces reduce electron-phonon scattering losses at semiconductor junctions
Extreme Environment Validation
New testing protocols address emerging challenges:
Hypersonic Thermal Shock: 10s cycles between -196°C (LN₂) and 650°C (MIL-STD-810H Method 520.6)
Orbital Particle Radiation: 100kGy gamma exposure testing per ESCC 22900
Multi-Physics Corrosion: Combined thermal cycling (85°C↔125°C) with 95% RH salt fog (ASTM G85 Annex A5)
Electrodynamic Vibration: 100Grms random profiles simulating rocket launch (NASA GEVS-7000)
Quantum Leap Applications
Fusion Reactor Diagnostics: Tungsten-copper cores withstand 1000°C plasma-facing loads
Cryogenic Qubit Control: Ultra-low CTE molybdenum boards (0.3 ppm/K @ 4K)
Hypersonic Radomes: Transparent aluminum oxynitride RF windows with embedded thermal pipes
Neural Implants: Biocompatible niobium cores with PEEK dielectric coatings
Economic and Sustainability Impact
Additive Manufacturing reduces material waste from 40% to <3%
Digital Twins cut prototype iterations by 80%
Recyclable Metal Matrix cores achieve 98% reusability rate
AI-Optimized Thickness saves 15,000 tons copper/year industry-wide
Company Details
Business Type:
Manufacturer
Year Established:
2013
Total Annual:
1000000-5000000
Employee Number:
100~200
Ecer Certification:
Verified Supplier
ONESEINE TECHNOLOGY CO., LTD., a prominent manufacturer of printed circuit boards (PCBs) established in 2013 , specializes in the production of High-Frequency PCBs, Multilayer PCBs (1-24 layers), FR-4 PCBs, and Rigid-Flexible PCBs. Our comprehensive services encompass quick-turn prototyping, Rogers+... ONESEINE TECHNOLOGY CO., LTD., a prominent manufacturer of printed circuit boards (PCBs) established in 2013 , specializes in the production of High-Frequency PCBs, Multilayer PCBs (1-24 layers), FR-4 PCBs, and Rigid-Flexible PCBs. Our comprehensive services encompass quick-turn prototyping, Rogers+...
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