Patent ID: 11889987
Assignee: LAZURITE HOLDINGS LLC
Field: Audio-visual technology (Electrical engineering)
Classification: CPC A  H | IPC A  H

Claim 19:
20. A wireless imaging system comprising:
a head unit comprising:
a head unit case having a first end, a second end opposite the first end, an external surface defining an external cavity open at the second end and configured to receive a removable battery, an internal surface defining an internal cavity, a planar front face disposed on the external surface at the first end and opposite the external cavity, and a first aperture and a second aperture each extending through the front face such that the second aperture is co-planar with the first aperture and the first aperture does not overlap with the second aperture;
a head unit electrical connector coupled to the first aperture;
an image sensor disposed within the internal cavity and configured to detect an image transmitted into the head unit through the second aperture;
a wireless transceiver disposed within the internal cavity of the head unit, the wireless transceiver being proximate the first aperture and the first end compared to the second end;
a user-input component disposed on the external surface; and

a connector having a first end coupled to the first aperture and a second end coupled to an imaging scope, the connector comprising:
an electrical coupler disposed at the first end of the connector, the electrical coupler operatively coupled to the head unit electrical connector through the first aperture;
a power cable coupled to the electrical coupler, the power cable being longitudinally disposed within the connector between the first end and the second end; and
an integrated light source disposed at the second end of the connector,
wherein the electrical coupler, the power cable, and the integrated light source are operatively connected in series and the integrated light source comprises:
an emissive radiation source having a first spectrum;
an optical element located to direct emissions from the emissive radiation source;
a volumetric spectrum converter located to convert emissions directed from the emissive radiation source to emissions having a second spectrum different from the first spectrum;
an output filter; and
an optical reflector, located to reflect the volumetric spectrum converter emissions towards the output filter, the integrated light source being configured to transmit light through the output filter,
wherein the first aperture is configured to receive the connector and the second aperture is configured to receive the imaging scope such that the imaging scope extends from the second aperture.