Output Range 2: 0-250V DC / 0-15A
Maximum Power: 22.5kW (750V Mode), 3.75kW (250V Mode)
Technology: Dual-Range Micro-Arc Oxidation (PEO)
Best For: Versatile PEO Research, Multi-Material Coating Development, Industrial-Scale R&D
The 30A 750V - 15A 250V dual-range MAO system offers versatile output capabilities for Plasma Electrolytic Oxidation research. Specifically, this advanced micro-arc oxidation power supply provides both high-voltage and high-current options in a single unit. Consequently, researchers can optimize PEO processes across different material systems and coating requirements. Furthermore, it eliminates the need for multiple specialized power supplies.
For industry standards, refer to the ASTM B275-15 Standard Practice for coating specifications. Additionally, technical resources from the Society of Vacuum Coaters provide valuable insights on advanced surface treatment processes.
| Parameter | Specification |
|---|---|
| Input Power | 3-Phase 400VAC, 50/60Hz |
| High-Range Output | 0-750V / 0-30A |
| Low-Range Output | 0-250V / 0-15A |
| Mode Switching | Automatic with Software Selection |
| Pulse Frequency | 1-5000 Hz (Both Ranges) |
| Duty Cycle | 1-95% Adjustable |
| Control Interface | Industrial Touchscreen with Dual-Range Profiles |
| Process Recipes | 50+ Programmable with Range-Specific Parameters |
| Data Logging | Comprehensive V, I, t, Power Recording |
| Cooling | Air Cooling |
| Protections | Dual-Range OVP/OCP, Arc Detection, Thermal Management, Phase Monitoring |
This dual-range MAO system provides unprecedented flexibility for advanced surface engineering research. These applications include, for example:
In Multi-Material PEO Research, scientists utilize the high-voltage range for magnesium and specialty alloys. Meanwhile, they employ the lower range for standard aluminum and titanium processing. Therefore, this dual-range MAO system enables comparative studies across material systems within a single experimental platform.
For Coating Thickness Optimization, researchers can use the 750V mode to develop thick, dense coatings for extreme environments. Subsequently, they can switch to the 250V mode for finer control. Thus, they can create thin, precisely engineered functional layers.
In Industrial Process Development, engineers benefit from being able to simulate both laboratory-scale and near-production conditions. Specifically, the dual ranges allow parameter optimization. Consequently, results can be directly translated to different scales of operation.
For Educational and Training Purposes, the system demonstrates how voltage and current parameters interact in PEO processes. Additionally, students gain practical understanding. Thus, they learn how to select appropriate electrical conditions for different coating objectives.
Ultimately, this 30A 750V - 15A 250V dual-range MAO system represents a comprehensive PEO research solution. Specifically, it combines the versatility needed for exploratory research. Additionally, it provides the precision required for process optimization. Therefore, it is an invaluable tool for advancing ceramic coating technology across multiple industries and applications.
Two Systems in One: Firstly, the dual-range capability eliminates the need for multiple power supplies. Therefore, it saves laboratory space. Additionally, it reduces equipment costs significantly.
Intelligent Mode Switching: Secondly, automatic software selection ensures seamless transitions between ranges. Specifically, protection parameters adjust accordingly. Thus, operator error is minimized.
Comprehensive Process Control: Moreover, 50+ programmable recipes with range-specific parameters enable sophisticated experimentation. Additionally, comprehensive data logging supports thorough analysis. Consequently, researchers can replicate results reliably.
Versatile Application Support: Finally, this dual-range MAO system supports a wide spectrum of materials. For instance, it handles magnesium, aluminum, titanium, and specialty alloys. Thus, it serves as a single platform for diverse PEO research initiatives.
