BC 35,6 HS 90 AL
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Heatsink
1754330
Heatsink for housing series: BC, type: Heatsink, material: Aluminum, anodized, product range: BC 35,6.., width: 28.9 mm, height: 28.7 mm, Only use the screws listed in the accessories to screw the components.
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Acessórios necessários
Detalhes dos produtos
Vantagens
Heatsink solutions enable devices to be used in thermally demanding applications
Optimal thermal path for reliable heat dissipation
Custom-tailored to various hot spots
Heatsink solutions can be used in a variety of housing sizes
Tailored system solution comprised of a housing, connection technology, heatsink, and additional accessories
Perguntas mais frequentes
What support does Phoenix Contact provide in the area of thermal management?
Phoenix Contact supports you with catalog values, online simulations, personal consultation including simulation services, and (individually adapted) heatsinks.
How are components of different heights and sizes ideally connected to the heatsink?
The optimum thermal connection is implemented by individual adjustments of the heatsink. This is usually done by a milling operation on the heatsink.... Ver mais
The optimum thermal connection is implemented by individual adjustments of the heatsink. This is usually done by a milling operation on the heatsink.
Ver menosWhat influence does heating have on the reliability of a device?
The maximum temperature has the greatest impact on the reliability and service life of your device. With a temperature increase of 10°C the failure rate is doubled.... Ver mais
The maximum temperature has the greatest impact on the reliability and service life of your device. With a temperature increase of 10°C the failure rate is doubled.
Ver menosWhich factors influence the temperature in the housing?
Small and powerful components, high data rates, dust, and insufficient ventilation of the housing are reasons for a high temperature difference compared to the environment.... Ver mais
Small and powerful components, high data rates, dust, and insufficient ventilation of the housing are reasons for a high temperature difference compared to the environment.
Ver menosWhat information do the power dissipation diagrams provide?
The graphs of the diagrams provide information on which power the components may supply in the respective housing in order not to exceed a temperature difference to the environment. The slope of the straight line describes the thermal conductance of ... Ver mais
The graphs of the diagrams provide information on which power the components may supply in the respective housing in order not to exceed a temperature difference to the environment. The slope of the straight line describes the thermal conductance of the system. The cases shown differ, on the one hand, in that one features full-surface heating while the other features heating of a hotspot of 20 x 20 mm and, on the other hand, in that one has a printed circuit board installed in the housing and one does not have a housing.
Ver menosHow do heatsinks help dissipate developing heat?
The integrated heatsinks from Phoenix Contact dissipate heat from the hotspot by means of heat conduction via thermally conductive material (TIM). The heatsink releases this heat in the form of radiant energy and via convection between the slats to t... Ver mais
The integrated heatsinks from Phoenix Contact dissipate heat from the hotspot by means of heat conduction via thermally conductive material (TIM). The heatsink releases this heat in the form of radiant energy and via convection between the slats to the environment. The stack effect is utilized, during which the heated air rises and is displaced by cold air.
Ver menosWhat other options are there for thermal optimization?
In many cases, rearranging the hotspots or installing vents is sufficient. A simulation of the thermal conditions provides information on which option is best suited.... Ver mais
In many cases, rearranging the hotspots or installing vents is sufficient. A simulation of the thermal conditions provides information on which option is best suited.
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