down to less than 1 %
uniform temperature in process zone
due to enlarged capacity of the flux collection unit
due to patented feeding system
Outstanding Performance for Void Ratios
Increase of Effectivity
Soldering with a relatively large amount of voids most probably results in defective electric contact and low heat conduction. EIGHTECH Systems can reduce voids significantly by in-line vacuum reduction: down to less than 1%.
Thanks to void-free solder and wettable soldering, ideal fillet geometry optimizes component placement.
Voids decreased substantially
The fillet after soldering (TR section)
Convection Heating System
Uniform Temperature in Process Zone
The EIGHTECH convection heating system combined with vacuum process garantees that heat goes through the upper and lower part in the process zone efficiently, thus void-free soldering of double-face PCBs or power modules can be soldered.
Due to the combination of convection heating system and vacuum, high-quality soldering can be realized also for only few zones and goes beyond the usual conditions of temperature profiles. Since the temperature deviation ⊿t is small, heating or warming is possible in short time, so productivity can be high.
Minimal Downtime thanks to Low Maintenance
Flux Collection Unit
Due to the enlarged capacity of the flux collection unit, flux cleanings are reduced to only a few times per year which boosts efficiency.
Exchange and cleaning of the radiator can be done very easily.
Compact Vacuum Chamber
Due to our Patented Feeding System
- Easy to make a high-vacuum state.
- Easy maintenance (the weight of the chamber unit is only "4kg").
- Eliminatation of unnecessary mechanical parts due to our patented feeding system with claws.
Low Power Consumption
Energy Saving to Boost your Profits
- Using low thermal conductivity material,
- combining double heat insulation material,
- using water chiller and lowering the power consumption substantially,
- saves energy consumption and maintains a clean environment.
RNV152M-612-WD Surface Temperature
All technical data are subject to change without prior notice.