Product Introduction

The 10A 150V dual-pulse rectifier is a specialized research power supply. It delivers high-voltage bipolar pulses. Consequently, it supports advanced surface engineering studies. Therefore, it is essential for labs exploring anodizing, plasma processes, and high-potential electrochemistry.

Technical Specifications

Key Features & Benefits

• High-Voltage Dual-Channel Output: This system provides two independent 150V channels. Moreover, each channel delivers symmetrical bipolar pulses. Thus, it enables complex high-voltage process simulation and development.
• Fast Voltage Switching: The rectifier features a high slew rate. Consequently, it can generate sharp, well-defined pulses at high voltages. This is critical for processes like plasma electrolytic oxidation (PEO).
• Comprehensive Process Control: Researchers can program complex pulse sequences. Additionally, channels can be synchronized or phase-shifted. Therefore, it allows precise replication of industrial conditions or exploration of novel effects.
• Built for Research Safety: The unit includes arc detection and insulation monitoring. Hence, it ensures safe operation during high-voltage experiments with reactive or variable loads.

Application Advantages

This high-voltage dual-pulse rectifier is pivotal for advanced research.

In Plasma Electrolytic Oxidation (PEO) studies, the dual pulses can independently control the initial breakdown and the subsequent micro-arc sustaining phases. As a result, ceramic coating morphology and properties can be finely tuned.

For advanced anodizing process development, one channel can provide a base voltage while the other superimposes pulses. This strategy can modify oxide layer porosity, hardness, and growth kinetics. Therefore, it leads to optimized functional coatings.

In high-voltage electrolysis research, such as for hydrogen generation or organic synthesis, pulsed operation can improve efficiency. The independent channels allow study of complex electrode reactions and bubble dynamics.

Ultimately, this instrument bridges the gap between benchtop experiments and industrial high-voltage processes. It provides the necessary power, control, and safety to de-risk and innovate in the realm of advanced electrochemical surface treatment.