Mitsubishi Electronics FR-D740-012 Marine Battery User Manual


 
10
Installation of the inverter and enclosure design
1.4.2 Cooling system types for inverter enclosure
From the enclosure that contains the inverter, the heat of the inverter and other equipment (transformers, lamps, resistors,
etc.) and the incoming heat such as direct sunlight must be dissipated to keep the in-enclosure temperature lower than the
permissible temperatures of the in-panel equipment including the inverter.
The cooling systems are classified as follows in terms of the cooling calculation method.
1) Cooling by natural heat dissipation from the enclosure surface (totally enclosed type)
2) Cooling by heat sink (aluminum fin, etc.)
3) Cooling by ventilation (forced ventilation type, pipe ventilation type)
4) Cooling by heat exchanger or cooler (heat pipe, cooler, etc.)
Cooling System Enclosure Structure Comment
Natural
cooling
Natural ventilation
(enclosed, open type)
Low in cost and generally used, but the enclosure size
increases as the inverter capacity increases. For relatively
small capacities.
Natural ventilation
(totally enclosed type)
Being a totally enclosed type, the most appropriate for hostile
environment having dust, dirt, oil mist, etc. The enclosure size
increases depending on the inverter capacity.
Forced
cooling
Heatsink cooling
Having restrictions on the heatsink mounting position and
area, and designed for relative small capacities.
Forced ventilation
For general indoor installation. Appropriate for enclosure
downsizing and cost reduction, and often used.
Heat pipe Totally enclosed type for enclosure downsizing.
INV
INV
INV
Heatsink
INV
INV
Heat pipe