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SiC Module
Image | Part Number | Type | Package | Circuit Diagram | Blocking Voltage (V) | Current (A) | RDS(on) (mΩ) | Specifications |
|---|---|---|---|---|---|---|---|---|
 | SiC MOSFET | Easy 2B | 2300 | |||||
 | SiC | Easy 1B | Half Bridge | 1200 | 150 | 6.2 | ||
 | SiC | Easy 2B | Half Bridge | 1200 | 200 | 6 | ||
| SiC | Easy 2B | Half Bridge | 1200 | 160 | 7.5 | ||
| SiC | Easy 1B | FT: Three phase | 1200 | 150 | 9 | ||
 | SiC | 62mm | Half Bridge | 1200 | 200 | 8.48 | ||
| SiC | 62mm | Half Bridge | 1700 | 300 | 6.7 | ||
| SiC | 62mm | Half Bridge | 1200 | 360 | 4.25 | ||
| SiC | 62mm | Half Bridge | 1700 | 400 | 5.2 | ||
 | SiC | Econo Dual 3A | Half Bridge | 1200 | 600 | 3.2 | ||
 | SiC | Econo Dual 3C | Half Bridge | 1200 | 600 | 2.2 | ||
| SiC | Econo Dual 3A | Half Bridge | 1700 | 600 | 3.4 | ||
| SiC | Econo Dual 3C | Half Bridge | 1200 | 800 | 1.7 | ||
| SiC | Econo Dual 3A | Half Bridge | 1700 | 800 | 2.8 | ||
| SiC | Econo Dual 3A | Half Bridge | 1200 | 900 | 2 |
HIITIO Silicon Carbide (SiC) Power Modules
HIITIO provides a comprehensive portfolio of SiC MOSFET power modules designed for demanding applications in electric mobility, renewable energy, industrial power conversion, and fast-charging infrastructure.
Silicon Carbide is a wide bandgap semiconductor material that fundamentally outperforms traditional silicon in high-power and high-frequency environments. By integrating SiC MOSFETs and diodes into compact module packages, system designers can significantly improve electrical and thermal performance while reducing overall system size and complexity.
- Higher switching frequencies with lower losses
- Higher operating junction temperatures
- Reduced cooling requirements
- Increased power density and system reliability
SiC Power Module Portfolio Overview
HIITIO offers a scalable and flexible SiC module portfolio to meet different system architectures and power requirements.
| Blocking Voltage | Typical System Use |
|---|---|
| 1200 V | EV traction inverters, on-board chargers, DC/DC converters, industrial drives |
| 1700 V | Solar inverters, energy storage systems, medium-voltage industrial converters |
| 2200 V | High-power renewable energy, grid-connected converters, MV drives |
| 2300 V | High-voltage industrial power systems and specialized energy applications |
HIITIO SiC modules are available in multiple voltage classes to support low-, medium-, and high-power applications. Each voltage class is optimized for high switching performance, reduced losses, and long-term operational reliability.
ANPC
·Three-level topology, reduced switching loss
·Improved efficiency and lower voltage stress
·For high-power renewable energy systems
Boost
·DC/DC step-up conversion
·Optimized for PFC and front-end power stages
·High efficiency at high switching frequency
Chopper
·DC voltage control and power regulation
·Used for braking, DC link, and auxiliary circuits
FT: Three-Phase
·Three-phase inverter configuration
·Designed for traction systems
·Balanced phase current and stable output
H-Bridge
·Bidirectional power conversion
·Supports DC/AC and DC/DC operation
·Common in energy storage systems
Half-Bridge
·Compact and modular topology
·Enables scalable converter design
·Widely used in modular power architectures
62mm
Compact footprint
Suitable for medium-power applications
Optimized for high power density designs
Easy 1B
Single-switch or half-bridge configuration
Cost-effective and compact solution
Common in auxiliary converters and compact inverters
Easy 2B
Dual-switch or half-bridge layout
Enhanced current capability
Suitable for industrial and energy systems
Econo Dual 3A
Standardized industrial package
Optimized thermal path
Suitable for medium-to-high power conversion
Econo Dual 3B
Higher current capability than 3A
Robust mechanical structure
Ideal for demanding industrial environments
Econo Dual 3C
Enhanced thermal and electrical performance
Designed for higher power density applications
Suitable for renewable energy and ESS inverters
HPD (High Power Density)
Designed for high-current and high-power systems
Low parasitic inductance
Optimized for advanced SiC switching performance
Core Advantages of HIITIO SiC Modules
Designed for demanding power electronics applications, HIITIO SiC modules enable higher efficiency, greater power density, and long-term system reliability.
Ultra-High Power Conversion Efficiency
HIITIO SiC modules deliver ultra-low switching and conduction losses, particularly at high switching frequencies, reduced energy dissipation, and stable performance under both partial and full load conditions.
High-Temperature Operation
Leveraging the inherent thermal properties of silicon carbide, HIITIO modules support elevated junction temperatures. This improves thermal robustness, increases design margin, and reduces reliance on oversized cooling solutions.
Compact Design with High Power Density
High switching capability enables the use of smaller passive components such as inductors and capacitors. As a result, system size and weight are reduced while maintaining high power output and electrical performance.
Wide Voltage Coverage for Diverse Applications
HIITIO SiC modules are available across multiple blocking voltage classes. This broad voltage coverage supports a wide range of medium- and high-voltage power conversion applications.
Low Parasitic Inductance
Optimized internal layouts minimize stray inductance and support fast switching behavior. This improves dynamic performance, reduces voltage overshoot, and simplifies EMI management in high-speed systems.
Long-Term Reliability
Advanced packaging design and controlled manufacturing processes ensure stable operation under electrical, thermal, and mechanical stress. This delivers long service life and consistent reliability in demanding environments.
Common Applications
HIITIO SiC modules are widely used in electric mobility, renewable energy, industrial drives, and high-efficiency power conversion systems.
Electric Vehicles
Renewable Energy Inverters
Energy Storage Systems (ESS) and UPS
Industrial Drives and Motor Controllers
Why Choose HIITIO
HIITIO delivers reliable SiC power modules with broad voltage coverage, robust packaging, and engineering-driven technical support.
Broad Voltage & Current Portfolio
From low to high power, covering mainstream industrial and EV power ranges.
Scalable Quality Assurance
ISO/IATF standards, thorough testing, and robust manufacturing throughput.
Responsive Support & Customization
Dedicated engineering support for optimized designs.
Designed for High-Performance Systems
Modules that support high switching frequencies, improved efficiency, and better thermal performance.
Build with Confidence Using HIITIO SiC Modules!
From electric mobility to renewable energy systems, HIITIO SiC modules provide scalable power solutions that support higher efficiency and compact system design.
HIITIO is a global supplier of advanced lithium battery and integrated power system solutions for light electric mobility markets. Focusing on lithium battery packs for two-wheel, three-wheel, and four-wheel platforms, HIITIO provides flexible energy solutions engineered for safety, durability, and consistent system performance.
Backed by strong application engineering capabilities, standardized production workflows, and comprehensive quality management systems, HIITIO delivers reliable battery solutions for electric scooters, electric motorcycles, and light commercial vehicles, supporting both urban transportation and commercial mobility applications.
1200V–2300V voltage option
Rated current options up to 600 A
Advanced Circuit Topologies
Industry-Standard Packages
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