Serial Transceiver Achieving Completely Connectorless HDMI Wireless Transmission with Millimeter-Wave Communication and Wireless Power Supply
2024.12.05
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with which many individuals are familiar through manually connecting them to link a PC to a display
Such repetitive tasks not only demand labor but also increase the risk of connector damage
where HDMI interfaces may also require repeated connections and disconnections
Such repetitive tasks not only demand labor but also increase the risk of connector damage
where HDMI interfaces may also require repeated connections and disconnections
Transmitting HDMI Signals via Millimeter Waves
This wireless transmission is achieved using 60 GHz millimeter-wave communication
The developed device consists of a transmission unit (Tx unit) and a receiving unit (Rx unit) (Figure 2)
aligning the two protrusions by stacking the units completes the positioning of the transmission and receiving units
the Contactless Display Adapter features Wireless Power Transfer (WPT) capability
it improves throughput by eliminating the need to plug and unplug connectors repeatedly
as wireless transmission inherently eliminates the need for physical connectors
it may be necessary to electrically isolate the transmitting and receiving sides of the video signal to ensure a high level of safety
Contactless Display Adapter for wireless transmission of video interfaces
The developed device consists of a transmission unit (Tx unit) and a receiving unit (Rx unit) (Figure 2)
Transmission unit and receiving unit of the Contactless Display Adapter
aligning the two protrusions by stacking the units completes the positioning of the transmission and receiving units
Easy positioning process
the Contactless Display Adapter features Wireless Power Transfer (WPT) capability
it improves throughput by eliminating the need to plug and unplug connectors repeatedly
as wireless transmission inherently eliminates the need for physical connectors
it may be necessary to electrically isolate the transmitting and receiving sides of the video signal to ensure a high level of safety
Adopting an Interface Optimized for Wireless Transmission
The Contactless Display Adapter adopts our proprietary video interface standard V-by-One HS II and utilizes the SerDes chipset THCV333-Q/THCV334-Q
which is then wirelessly transmitted to the receiving unit via the millimeter-wave communication module SAM3
which is further converted into a parallel signal by the THC63LVDF84C and finally back into an HDMI signal by a converter
The THCV333-Q and THCV334-Q allow either multiplexing these two signals for bidirectional transmission with fewer wires or separating them for unidirectional transmission with separate wires
adopting V-by-One HS II and the THCV333-Q/THCV334-Q has made 카지노 룰렛ission comparatively easier to achieve
Video signal flow between the transmission and receiving units
which is then wirelessly transmitted to the receiving unit via the millimeter-wave communication module SAM3
which is further converted into a parallel signal by the THC63LVDF84C and finally back into an HDMI signal by a converter
The THCV333-Q and THCV334-Q allow either multiplexing these two signals for bidirectional transmission with fewer wires or separating them for unidirectional transmission with separate wires
adopting V-by-One HS II and the THCV333-Q/THCV334-Q has made 카지노 룰렛ission comparatively easier to achieve
Effective Utilization of the Back Channel
incorporates the ST60A2 millimeter-wave transceiver IC from STMicroelectronics in conjunction with SENSORVIEW
The back channel is used for transmitting signals that confirm the establishment of power transfer between the wireless power transmission coil and the receiving coil
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The back channel is used for transmitting signals that confirm the establishment of power transfer between the wireless power transmission coil and the receiving coil
End