Input parameters: Three phase, AC380V±10% ,50~60HZ
Output parameters: DC 0~4V 0~30A
Output mode: Ordinary direct current
Cooling method: Self-cooling
Power supply type: IGBT-based power source
Application Industry: Surface treatment industry, such as chrome, zinc, nickel, gold plating and etc.
Electroplating is the process of applying a thin layer of other metals or alloys on the surface of certain metals by electrolysis. It is a process of applying a metal film to the surface of metals or other materials to prevent metal oxidation (such as rust), improve wear resistance, electrical conductivity, reflectivity, corrosion resistance (copper sulfate, etc.) and enhance aesthetics.
Chrome plating (less commonly chromium plating) is a technique of electroplating a thin layer of chromium onto a metal object. The product of chrome plating is called chrome. The chromed layer can be decorative, provide corrosion resistance, ease of cleaning, or increase surface hardness. Sometimes, a less expensive imitator of chrome may be used for aesthetic purposes.
Zinc plating is the process of covering substrate metals (like steel and iron, etc.) with a layer or coating of zinc to protect the substrate from corrosion.
|Type of characteristics||Parameter items||Technical requirement|
|Input characteristics||Rated input voltage||Three-phase,AC380V±10% 50-60HZ|
|Rated input current||AC0.21A|
|Rated input power factor||COSΦ≥0.95|
|Output characteristics||Output voltage||DC 0～4V adjustable|
|Output current||DC 0～30A adjustable|
|Precision of steady current||≤1%|
|Precision of stable voltage||≤1%|
|Current ripple coefficient||≤1%（I≥50%Id）|
|Rated output power||≥91%
|Insulation characteristic||Insulation resistance||Input-output: ≥5MΩ|
|Input -Cabinet: ≥5MΩ|
|Output- Cabinet; ≥5MΩ|
|Protective characteristics||With self-protection function under non-normal cases such
as over-voltage, over-current, overload, short circuit and overheating
|Running state||Continuous full load run|
|Load level||Level Ⅱ|
|Insulation grade of the transformer||B Level|