A solution for disinfecting electronic devices is provided. An ultraviolet radiation source is embedded within an ultraviolet absorbent case. While the electronic device is within the ultraviolet absorbent case, ultraviolent radiation is directed at the electronic device. A monitoring and control sy
A solution for disinfecting electronic devices is provided. An ultraviolet radiation source is embedded within an ultraviolet absorbent case. While the electronic device is within the ultraviolet absorbent case, ultraviolent radiation is directed at the electronic device. A monitoring and control system monitors a plurality of attributes for the electronic device, which can include: a frequency of usage for the device, a biological activity at a surface of the device, and a disinfection schedule history for the device. Furthermore, the monitoring and control system can detect whether the device is being used. Based on the monitoring, the monitoring and control system controls the ultraviolet radiation directed at the electronic device.
대표청구항▼
1. A system comprising: an ultraviolet absorbent enclosure for containing at least one part of an electronic device;at least one ultraviolet radiation source embedded within the ultraviolet absorbent enclosure, the at least one ultraviolet radiation source configured to generate ultraviolet radiatio
1. A system comprising: an ultraviolet absorbent enclosure for containing at least one part of an electronic device;at least one ultraviolet radiation source embedded within the ultraviolet absorbent enclosure, the at least one ultraviolet radiation source configured to generate ultraviolet radiation directed at the part of the electronic device;a plurality of layers located between the electronic device and the at least one ultraviolet radiation source, the plurality of layers including a first partially transmitting, partially reflective layer located to receive ultraviolet radiation from the at least one ultraviolet radiation source, a second partially transmitting, partially reflective layer located between the first partially transmitting, partially reflective layer and the electronic device, and a low refractive index layer located between the first and second partially transmitting, partially reflective layers; anda monitoring and control system for managing the ultraviolet radiation directed at the at least one part of the electronic device by performing a method comprising: monitoring the electronic device for at least one of: a frequency of usage of the electronic device, a presence of biological activity on the electronic device and a disinfection schedule history for the electronic device; andcontrolling, based on the monitoring, the ultraviolet radiation directed at the at least one part of the electronic device. 2. The system of claim 1, wherein, in response to the monitoring of a presence of biological activity at a surface area of the at least one part of the electronic device, the controlling comprises directing a higher dose of ultraviolet radiation to the surface area of the at least one part including the presence of biological activity, wherein the higher dose includes at least one of: an increased intensity level or an increased exposure time. 3. The system of claim 1, wherein the controlling comprises at least one of: turning on the at least one ultraviolet radiation source;turning off the at least one ultraviolet radiation source; anddetermining a time scheduling for the at least one ultraviolet radiation source. 4. The system of claim 1, wherein the ultraviolet absorbent enclosure includes a switch to turn off the ultraviolet radiation when the at least one part of the electronic device is not located within the ultraviolet absorbent enclosure. 5. The system of claim 1, wherein the ultraviolet absorbent enclosure further provides mechanical protection for the part of the electronic device for a one meter drop test. 6. The system of claim 1, wherein the ultraviolet absorbent enclosure further provides water protection for the part of the electronic device for a timed submersion test. 7. An apparatus, comprising: an electronic device;an ultraviolet absorbent enclosure for containing at least one part of the electronic device;at least one ultraviolet radiation source embedded within the ultraviolet absorbent enclosure, the at least one ultraviolet radiation source configured to generate ultraviolet radiation directed at the part of the electronic device;a plurality of layers located between the electronic device and the at least one ultraviolet radiation source, the plurality of layers including a first partially transmitting, partially reflective layer located to receive ultraviolet radiation from the at least one ultraviolet radiation source, a second partially transmitting, partially reflective layer located between the first partially transmitting, partially reflective layer and the electronic device, and a low refractive index layer located between the first and second partially transmitting, partially reflective layers; anda monitoring and control system for managing the ultraviolet radiation directed at the at least one part of the electronic device by performing a method comprising: monitoring the electronic device for at least one of: a frequency of usage of the electronic device, a presence of biological activity on the electronic device and a disinfection schedule history for the electronic device; andcontrolling, based on the monitoring, the ultraviolet radiation directed at the at least one part of the electronic device. 8. The apparatus of claim 7, wherein, in response to the monitoring of a presence of biological activity at a surface area of the at least one part of the electronic device, the controlling comprises directing a higher dose of ultraviolet radiation to the surface area of the at least one part including the presence of biological activity, wherein the higher dose includes at least one of: an increased intensity level or an increased exposure time. 9. The apparatus of claim 7, wherein the controlling comprises at least one of: turning on the at least one ultraviolet radiation source;turning off the at least one ultraviolet radiation source; anddetermining a time scheduling for the at least one ultraviolet radiation source. 10. The apparatus of claim 7, wherein the ultraviolet absorbent enclosure includes a switch to turn off the ultraviolet radiation when the at least one part of the electronic device is not located within the ultraviolet absorbent enclosure. 11. The apparatus of claim 7, wherein the ultraviolet absorbent enclosure further provides at least one of: mechanical protection for the part of the electronic device for a one meter drop test or water protection for the at least one part of the electronic device for a timed submersion test. 12. An apparatus, comprising: an electronic device;an ultraviolet absorbent enclosure for containing at least one part of the electronic device;at least one ultraviolet radiation source embedded within the ultraviolet absorbent enclosure, the at least one ultraviolet radiation source configured to generate ultraviolet radiation directed at the part of the electronic device;a plurality of layers located between the electronic device and the at least one ultraviolet radiation source, the plurality of layers including a first partially transmitting, partially reflective layer located to receive ultraviolet radiation from the at least one ultraviolet radiation source, a second partially transmitting, partially reflective layer located between the first partially transmitting, partially reflective layer and the electronic device, and a low refractive index layer located between the first and second partially transmitting, partially reflective layers;a switch on the ultraviolet absorbent enclosure to turn off the ultraviolet radiation when the at least one part of the electronic device is not located within the ultraviolet absorbent enclosure; anda monitoring and control system for managing the ultraviolet radiation directed at the at least one part of the electronic device by performing a method comprising: monitoring the electronic device for at least one of: a frequency of usage of the electronic device, a presence of biological activity on the electronic device and a disinfection schedule history for the electronic device; andcontrolling, based on the monitoring, the ultraviolet radiation directed at the at least one part of the electronic device. 13. The apparatus of claim 12, wherein, in response to the monitoring of a presence of biological activity at a surface area of the at least one part of the electronic device, the controlling comprises directing a higher dose of ultraviolet radiation to the surface area of the at least one part including the presence of biological activity, wherein the higher dose includes at least one of: an increased intensity level; or an increased exposure time. 14. The apparatus of claim 12, wherein the ultraviolet absorbent enclosure provides at least one of: mechanical protection for the part of the electronic device for a one meter drop test or water protection for the part of the electronic device for a timed submersion test. 15. The system of claim 1, further comprising a wave-guiding reflective layer located directly adjacent to the light guiding layer. 16. The system of claim 1, wherein the second partially transmitting, partially reflective layer includes a diffusing interface located adjacent to the electronic device. 17. The apparatus of claim 7, further comprising a wave-guiding reflective layer located directly adjacent to the light guiding layer. 18. The apparatus of claim 7, wherein the second partially transmitting, partially reflective layer includes a diffusing interface located adjacent to the electronic device. 19. The apparatus of claim 12, further comprising a wave-guiding reflective layer located directly adjacent to the light guiding layer. 20. The apparatus of claim 12, wherein the second partially transmitting, partially reflective layer includes a diffusing interface located adjacent to the electronic device.
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