Cutting-edge Technology
Base on customer’s needs to achieve high peak power supply (200~1,200%) with abundant design experience.

Better OCP Design
Optimize the over current protection (OCP) withstand high peak power.

Better E-cap Design
Select high performance capacitors to stabilize input voltage and output voltage.

Better Bmax Design
Our abundant layout design experience improves the flux density (Bmax).
For Industrial Equipment

Collaborative Robot
The speed of motors is controlled by PWM cycle.

Power Demands
High peak current occurs, when motor starts.

Power Solutions
The inrush current level depends on the number of motors and watts.
For Banking Device

Money Counter
Bills are dispensed through a slot into banknote stackers.

Power Demands
Money counter sorts different banknotes into different banknote stackers (Each banknote stacker has its own high peak power).

Power Solutions
Money counter’s inrush current occurs when it starts, and then current drops in stages.
For Medical Testing Device

Thermal Cycler (PCR)
PCR device has to boost and reduce temperature for DNA replication.

Power Demands
Different PCR devices have different temperature ratios.

Power Solutions
It is very important to stabilize voltage when temperature changes abruptly.
For Printing Machine

Label Printers
Printing labels by heated thermal print head.

Power Solutions (Thermal)
High peak power level depends on label width and printing time.

Power Solutions (Dot Matrix)
High peak power level depends on dot matrix head hitting and moving speed.
For Sewing Machine

Industrial sewing machines
Utilizes a DC servomotor.

Power Demands
Sewing machines normally utilize DC servomotors (180~900W).

Power Solutions
The inrush current happens when a motor starts, and then current drops quickly.
For Automatic Doors

Automatic Sliding Doors
The door is opened or closed with a low noise DC motor.

Power Demands
Automatic sliding doors normally utilize a DC motor (75~280W).
