The present invention provides an elongated active thermo-regulated neonatal transportable incubator (ANTI), having a main longitudinal axis with a proximal end and an opposite distal end comprising adjacent to at least one of the ends a temperature regulating vent (TRV). The TRV is configured to stream air from one end towards the opposite end substantially along the axis, and the ANTI is configured, by means of size and shape, to accommodate the neonate in parallel to the axis. Further the ANTI can be configured by means of size shape and material to at least partially inserted into an MRD having an open bore in its longitudinal axis, further accommodating the neonate parallel to the MRD bore. An incubator with a temperature regulating vent located outside the incubator and its base.

The present invention provides an elongated active thermo-regulated neonatal transportable incubator (ANTI), having a main longitudinal axis with a proximal end and an opposite distal end comprising adjacent to at least one of the ends a temperature regulating vent (TRV). The TRV is configured to stream air from one end towards the opposite end substantially along the axis, and the ANTI is configured, by means of size and shape, to accommodate the neonate in parallel to the axis. Further the ANTI can be configured by means of size shape and material to at least partially inserted into an MRD having an open bore in its longitudinal axis, further accommodating the neonate parallel to the MRD bore. An incubator with a temperature regulating vent located outside the incubator and its base.

A diffuser which forms a first acoustic passage that sound waves propagate and which radiates the sound waves to an outer diameter direction between a diaphragm and an annular conical surface of a first reflection member, and forms a second acoustic passage the sound waves which pass the opening of the first reflection member propagate and which radiates the sound waves to an outer diameter direction between the annular concave surface of the first reflection member and a conical surface of a second reflection member.

A diffuser which forms a first acoustic passage that sound waves propagate and which radiates the sound waves to an outer diameter direction between a diaphragm and an annular conical surface of a first reflection member, and forms a second acoustic passage the sound waves which pass the opening of the first reflection member propagate and which radiates the sound waves to an outer diameter direction between the annular concave surface of the first reflection member and a conical surface of a second reflection member.

A housing for a smart speaker device, is formed, at least in part, from a sound absorbing material, a sound reflecting material, or both. The housing includes one or more doors which can be selectively opened or closed by an authorized person to permit the transmission of an externally generated voice signal to be received by the smart speaker device when the door is opened, and to prevent the receipt of any voice signal by the smart speaker device when the door is closed. The door can be controlled manually, or remotely by an external signal from a remote actuating device. The housing includes an internal electrical receptacle for electrically actuating the smart speaker device enclosed within the housing, and the internal electrical receptacle is coupled to a source of external electrical energy for powering the smart speaker device.

A housing for a smart speaker device, is formed, at least in part, from a sound absorbing material, a sound reflecting material, or both. The housing includes one or more doors which can be selectively opened or closed by an authorized person to permit the transmission of an externally generated voice signal to be received by the smart speaker device when the door is opened, and to prevent the receipt of any voice signal by the smart speaker device when the door is closed. The door can be controlled manually, or remotely by an external signal from a remote actuating device. The housing includes an internal electrical receptacle for electrically actuating the smart speaker device enclosed within the housing, and the internal electrical receptacle is coupled to a source of external electrical energy for powering the smart speaker device.

The present disclosure relates to reflector for non-contact radar-based fill level measurement in containers with floating roofs. The reflector is designed to be mounted on top of the floating roof, wherein the reflector comprises at least a surface, which is formed by an array of cavities. According to the present disclosure, the cavities have a tapered cross-section. By the tapered cavities the radar signals emitted by the fill level measuring device are reflected and focused towards the fill level measuring device, so that the receipt of the reflected radar signal by the fill level measuring device is ensured. Through this, the fill level measuring device can determine the fill level reliably based on the reflected radar signals.

A transducer is provided for emitting and receiving acoustic waves, a method for operating and a method for producing the same. The transducer comprises a casing that forms a cavity. The casing comprises an excitation surface and an emitting surface, which is arranged opposite to the excitation surface. A transducer element is provided at the excitation surface, and an acoustic diffuser is provided at the emitting surface of the casing, wherein a diffusing structure of the acoustic diffuser faces the cavity, and wherein the diffusing structure is provided by an array of columns.

A transducer is provided for emitting and receiving acoustic waves, a method for operating and a method for producing the same. The transducer comprises a casing that forms a cavity. The casing comprises an excitation surface and an emitting surface, which is arranged opposite to the excitation surface. A transducer element is provided at the excitation surface, and an acoustic diffuser is provided at the emitting surface of the casing, wherein a diffusing structure of the acoustic diffuser faces the cavity, and wherein the diffusing structure is provided by an array of columns.

An ultra-thin Schroeder diffuser comprises a backing-plate, wherein the backing-plate is provided with 7×p rows and 7×q columns of unit cells, p and q are integers greater than or equal to 1, a side length of the unit cell is 0.48λ, a depth of the square unit cell is 0.04λ, the unit cell is provided with a square neck, a side length of the square neck is less than the side length of the unit cell, a depth of the neck is 0.01λ, λ is a wavelength of the diffuser corresponding to the design at a center frequency center f.sub.0, the neck widths w of different unit cells are different, and a distribution of the widths satisfies a certain sequence.