A method for detecting particle filter cleanliness includes receiving calibration data for a particle filter. The calibration data represents an acoustic spectrum. The method further includes receiving operational acoustic data from a sensor located in a system comprising a fan and the particle filter, deriving a second acoustic spectrum from the operational acoustic data, comparing at least part of the acoustic spectrum with a corresponding part of the second acoustic spectrum, determining a frequency shift between the acoustic spectrum and the second acoustic spectrum based on the comparing step, and providing an output based on the frequency shift.

A filter assembly for use in an electronics enclosure is disclosed herein. The filter assembly has an inner assembly having a filter material comprising fibrous media and a containment assembly having a first containment layer and a second containment layer. The containment assembly defines an outer perimeter and the first containment layer and a second containment layer are bonded along the outer perimeter in an outer weld area to encapsulate the inner assembly. The outer weld area extends between the outer perimeter and an interior perimeter. The inner assembly defines an inner assembly perimeter that is within the outer perimeter of the containment assembly.

A medical electronic apparatus includes: a casing including a lid portion provided with: a first inlet duct; a second inlet duct; and an outlet duct, the lid portion being configured to open the second inlet duct when the first inlet duct is blocked; a detection unit configured to detect an open/close state of the lid portion; and an output unit configured to output information regarding blockage of the first inlet duct based on a detection result of the detection unit.

A vent filter and a Radio Remote Unit having the vent filter. The vent filter includes a first member including a first body having a ventilation path extending through the first body, an inner wall constituting a ventilation hole which is communicated with the ventilation path, and an outer wall constituting a gap between the inner wall and the outer wall. The vent filter also includes a second member including a second body and at least one enclosure wall protruding out from the second body, wherein at least one of the at least one enclosure wall is located outside the outer wall and surrounding the outer wall. Both the inner and outer walls have at least one first groove at an end and each of the at least one enclosure wall has at least one second groove at an end.

A thin-film filter includes thin-film part having a film surface and a rear film surface arranged at the rear side of the film surface, a plurality of through holes, being formed to penetrate the thin-film part from the film surface to the rear film surface, the through holes are formed along by a slanting direction being made an acute angle or an obtuse angle with the film surface, and stripes-formed inner wall surfaces. The stripes-formed inner wall surfaces include stripe-like parts formed along by the slanting direction. The stripes-formed inner wall surfaces are formed inside the respective through holes.

The electronic cabinet for enclosing electronic components generally has a housing having a base and a cover being connected to one another a plurality of lateral walls, one of the plurality of lateral walls having a first opening; a lateral perforated plate being mounted to the housing and extending over the first opening, the lateral perforated plate having a plurality of perforations; and a protector plate being mounted to the housing and extending over the lateral perforated plate to cover the plurality of perforations of the lateral perforated plate, the protector plate defining at least one air inlet between the protector plate and the lateral perforated plate.

A cover assembly and a power conversion device comprising the same are disclosed. The cover assembly according to an embodiment of the present disclosure is detachably coupled to an inverter device. The cover assembly communicates with the inside of the inverter device, and is coupled to the inverter device while covering a blower fan. Therefore, the blower fan is not exposed to the outside, and thus the blower fan can be prevented from being arbitrarily damaged, and introduction of dust and the like residing outside the inverter device into the inverter device can be prevented.

The electronic cabinet for enclosing electronic components generally has a housing having a base and a cover being connected to one another a plurality of lateral walls, one of the plurality of lateral walls having a first opening; a lateral perforated plate being mounted to the housing and extending over the first opening, the lateral perforated plate having a plurality of perforations; and a protector plate being mounted to the housing and extending over the lateral perforated plate to cover the plurality of perforations of the lateral perforated plate, the protector plate defining at least one air inlet between the protector plate and the lateral perforated plate.

An enclosure air intake structure includes louver-shaped air intake ports provided on an enclosure, a filter that is disposed in a vicinity of the air intake ports inside the enclosure and absorbs a liquid that has entered the enclosure through the air intake ports while preventing dust from entering the enclosure through the air intake ports, a filter holder that retains the filter inside the enclosure, discharge ports through which the liquid absorbed by the filter is discharged to the exterior, a separation mechanism that separates the liquid and the dust, and a retaining mechanism that retains the dust that has been separated by the separation mechanism.

A modular fan chassis air filtering system includes a base that defines a fan device housing that houses a fan device. At least one system chassis coupling feature is included on the base and couples to a system chassis via a modular fan chassis housing defined by the system chassis. An air inlet is defined by the base and allows air to enter the fan device housing in response to operation of the fan device. An air outlet is defined by the base and allows air to exit the fan device housing in response to operation of the fan device. An air filter housing is defined by the base, located between the air inlet and the air outlet, and houses an air filter that filters the air that enters the fan device housing through the air inlet before that air exits the fan device housing through the air outlet.