Output ±12V DC 0-1500A Adjustable
Power 18kW
Application Alkaline Copper Plating with Commutation
Best For PCB Manufacturing High-Frequency Circuits Industrial Components
This 1500A ±12V commutating rectifier is engineered for advanced alkaline copper plating. It features automatic polarity reversal technology to optimize plating quality. Consequently, deposition uniformity improves significantly.
Parameter Specification
Input Power 380VAC Three-Phase
DC Output ±12V DC 0-1500A Bidirectional
Polarity Switching Automatic Commutation
Switching Frequency 1-50 Hz Adjustable
Voltage Stability ≤ 0.5% Both Polarities
Current Stability ≤ 1% During Switching
Control Interface Touchscreen with Commutation Programming
Special Features Pulse Reverse Mode Plating Profile Storage Anode Cleaning Cycle
Cooling System Air Cooling
Protections OCP OVP Polarity Fault Detection Phase Protection
Advanced Commutation Technology
This commutating rectifier provides automatic polarity switching. Therefore, anode passivation is effectively prevented. Moreover, deposition quality improves consistently.
Bidirectional Current Capability
The ±12V output supports forward and reverse plating. Specifically, it enables pulse reverse processes. Thus, plating distribution optimizes.
Intelligent Process Control
Programmable commutation sequences are stored. Furthermore, automatic anode cleaning cycles run. Consequently, process consistency maintains.
High-Current Performance
1500A capacity handles large production loads. Additionally, stable operation during commutation ensures. Hence, throughput increases significantly.
This commutating rectifier serves precision copper plating applications.
In PCB Manufacturing
The system plates high-density interconnect boards. Importantly, commutation improves through-hole filling. Additionally, signal integrity enhances.
For High-Frequency Circuits
It processes RF and microwave components. Similarly, uniform deposition reduces signal loss. Consequently, electrical performance optimizes.
In Industrial Component Plating
The rectifier finishes connectors and contacts. Ultimately, commutation prevents edge buildup. Therefore, contact reliability improves.
For Advanced Research Applications
It supports plating process development. Specifically, variable commutation parameters allow experimentation. Thus, new techniques can be developed.
Production quality improves through commutation. Moreover, anode maintenance requirements decrease. Consequently, operational costs reduce.
Process efficiency increases with automation. Furthermore, manual intervention minimizes. Therefore, labor requirements optimize.
Material utilization improves with uniform deposition. Additionally, waste generation decreases. Thus, sustainability metrics enhance.
System reliability maintains with robust design. Specifically, commutation components are durable. Hence, service intervals extend.
In summary, this commutating rectifier represents advanced plating technology. For this reason, it serves applications where deposition quality, process control, and production efficiency are critical requirements.
