Embodiments of the present invention relate to integrated modular display panels. In one embodiment, modular display panel includes a a shell with a first thermally conductive material, a printed circuit board disposed in the shell, and a plurality of LEDs attached to a first side of the printed cir
Embodiments of the present invention relate to integrated modular display panels. In one embodiment, modular display panel includes a a shell with a first thermally conductive material, a printed circuit board disposed in the shell, and a plurality of LEDs attached to a first side of the printed circuit board. A driver circuit is disposed in the shell and coupled to the plurality of LEDs from a second side of the printed circuit board. The panel further includes a power supply unit for powering the LEDs. The printed circuit board are disposed between the power supply unit and the plurality of LEDs. A second thermally conductive material is disposed between the power supply unit and an outer back side of the panel. A protective structure is disposed over the first side of the printed circuit board, where a display side of the panel, opposite the outer back side, is waterproof.
대표청구항▼
1. A modular display panel comprising: a first side and a second side opposite to the first side, wherein the first side of the modular display panel comprises a display surface of the modular display panel;attachment points for use in attachment as part of a multi-panel modular display;a plastic ca
1. A modular display panel comprising: a first side and a second side opposite to the first side, wherein the first side of the modular display panel comprises a display surface of the modular display panel;attachment points for use in attachment as part of a multi-panel modular display;a plastic casing comprising an outer surface of the modular display panel, the outer surface being part of the second side of the modular display panel;a recess disposed in the plastic casing;a printed circuit board disposed in the recess;a plurality of LEDs arranged as pixels attached to a front side of the printed circuit board, wherein the pixels are arranged in a rectangular array comprising at least fifty pixels;a framework of louvers disposed over the front side of the printed circuit board between rows of the plurality of LEDs;a circuit for controlling the plurality of LEDs, the circuit being attached to the printed circuit board;a power supply for powering the plurality of LEDs;wherein the front side of the printed circuit board is sealed to be waterproof and the plastic casing is sealed to be waterproof so that the modular display panel is sealed to be waterproof; andwherein the modular display panel is configured to be exposed to an external environment without a protective waterproof enclosure. 2. The modular display panel of claim 1, further comprising a sealing compound disposed over the front side of the printed circuit board, wherein the front side of the printed circuit board is sealed to be waterproof by the sealing compound. 3. The modular display panel of claim 1, wherein the modular display panel is configured to be operational when submerged in water up to a depth of one meter. 4. The modular display panel of claim 3, wherein the modular display panel is further configured to be operational when submerged in water to a depth greater than one meter. 5. The modular display panel of claim 1, wherein the power supply is mounted over the outer surface of the plastic casing. 6. The modular display panel of claim 1, wherein the power supply is disposed within the plastic casing. 7. The modular display panel of claim 1, wherein the power supply comprises an alternating current/direct current (AC/DC) converter, and wherein the power supply is configured to receive AC power and output DC power to the plurality of LEDs. 8. The modular display panel of claim 1, wherein the power supply comprises a down converter that down converts a direct current (DC) voltage at a first level to a DC voltage at a second level, the second level being lower than the first level. 9. The modular display panel of claim 1, wherein a surface of each of the plurality of LEDs is exposed to the external environment. 10. The modular display panel of claim 1, further comprising a flexible cable, wherein the flexible cable comprises: a first end configured to receive direct current (DC) power and media packets, the DC power being output by the power supply; anda second end directly coupled to the modular display panel. 11. The modular display panel of claim 1, further comprising an integrated data and power connector comprising: data connectors surrounded by an end enclosure, each of the data connectors configured to fit into an opposite type of data connectors of another integrated data and power connector, wherein the data connectors are configured to carry data to the circuit for controlling the plurality of LEDs;power connectors surrounded by the end enclosure, each of the power connectors configured to fit into an opposite type of power connectors of the another integrated data and power connector, wherein the power connectors are configured to carry power to the plurality of LEDs; anda sealing cover configured to prevent moisture from reaching inside the integrated data and power connector. 12. The modular display panel of claim 1, further comprising a receiver card configured to receive external data and provide the external data to the circuit for controlling the plurality of LEDs, the receiver card comprising a unique network address. 13. A modular display panel comprising: a first side and a second side opposite to the first side, wherein the first side of the modular display panel comprises a display surface of the modular display panel;a plastic casing comprising an outer surface of the modular display panel, the outer surface being part of the second side of the modular display panel;a recess disposed in the plastic casing;a printed circuit board disposed in the recess, the printed circuit board comprising a front side and an opposite back side, wherein the recess surrounds the opposite back side of the printed circuit board;a plurality of LEDs arranged as pixels attached to the front side of the printed circuit board, wherein the pixels are arranged in a rectangular array comprising at least fifty pixels;a sealing compound disposed over the front side of the printed circuit board;a circuit for controlling the plurality of LEDs;a power supply for powering the plurality of LEDs;wherein the front side of the printed circuit board is sealed to be waterproof by the sealing compound and the plastic casing is sealed to be waterproof so that the modular display panel is sealed to be waterproof; andwherein the modular display panel is configured to be exposed to an external environment without a protective waterproof enclosure. 14. The modular display panel of claim 13, further comprising: a network of support structures extending into the recess from the plastic casing towards the printed circuit board, wherein the printed circuit board is attached to the plastic casing by the network of support structures. 15. The modular display panel of claim 13, wherein the modular display panel is configured to be operational when submerged in water up to a depth of one meter. 16. The modular display panel of claim 15, wherein the modular display panel is further configured to be operational when submerged in water to a depth greater than one meter. 17. The modular display panel of claim 13, wherein the power supply is mounted over the outer surface of the plastic casing. 18. The modular display panel of claim 13, wherein the power supply comprises an alternating current/direct current (AC/DC) converter, and wherein the power supply is configured to receive AC power and output DC power to the plurality of LEDs. 19. The modular display panel of claim 13, wherein the power supply comprises a down converter that down converts a direct current (DC) voltage at a first level to a DC voltage at a second level, the second level being lower than the first level. 20. The modular display panel of claim 13, wherein a surface of each of the plurality of LEDs is exposed to the external environment. 21. The modular display panel of claim 13, further comprising an integrated data and power connector comprising: data connectors surrounded by an end enclosure, each of the data connectors configured to fit into an opposite type of data connectors of another integrated data and power connector, wherein the data connectors are configured to carry data to the circuit for controlling the plurality of LEDs;power connectors surrounded by the end enclosure, each of the power connectors configured to fit into an opposite type of power connectors of the another integrated data and power connector, wherein the power connectors are configured to carry power to the plurality of LEDs; anda sealing cover configured to prevent moisture from reaching inside the integrated data and power connector. 22. A modular display panel comprising: a first side and a second side opposite to the first side, wherein the first side of the modular display panel comprises a display surface of the modular display panel;attachment points for use in attachment as part of a multi-panel modular display;a plastic casing comprising an outer surface of the modular display panel, the outer surface being part of the second side of the modular display panel;a recess disposed in the plastic casing;a printed circuit board disposed in the recess, the printed circuit board comprising a front side and an opposite back side, wherein the recess surrounds the opposite back side of the printed circuit board;a plurality of LEDs arranged as pixels attached to the front side of the printed circuit board, wherein the pixels are arranged in a rectangular array comprising at least fifty pixels;a sealing compound disposed over the front side of the printed circuit board;a framework of louvers disposed over the front side of the printed circuit board between rows of the plurality of LEDs,a circuit for controlling the plurality of LEDs, the circuit being attached to the opposite back side of the printed circuit board;a power supply for powering the plurality of LEDs, the power supply mounted over the outer surface of the modular display panel, wherein the power supply comprises an alternating current/direct current (AC/DC) converter, and wherein the power supply is configured to receive AC power and output DC power to the plurality of LEDs;wherein the front side of the printed circuit board is sealed to be waterproof by the sealing compound and the plastic casing is sealed to be waterproof so that the modular display panel is sealed to be waterproof;wherein the modular display panel is configured to be exposed to an external environment without a protective waterproof enclosure; andwherein the modular display panel is configured to be cooled passively without fans. 23. The modular display panel of claim 22, further comprising: a network of support structures extending into the recess from the plastic casing towards the printed circuit board, wherein the printed circuit board is attached to the plastic casing by the network of support structures. 24. The modular display panel of claim 22, wherein the modular display panel is configured to be operational when submerged in water up to a depth of one meter. 25. The modular display panel of claim 24, wherein the modular display panel is further configured to be operational when submerged in water to a depth greater than one meter. 26. The modular display panel of claim 24, wherein the power supply comprises an alternating current/direct current (AC/DC) converter, and wherein the power supply is configured to receive AC power and output DC power to the plurality of LEDs. 27. The modular display panel of claim 24, wherein the power supply comprises a down converter that down converts a direct current (DC) voltage at a first level to a DC voltage at a second level, the second level being lower than the first level. 28. The modular display panel of claim 22, wherein a surface of each of the plurality of LEDs is exposed to the external environment. 29. The modular display panel of claim 22, further comprising an integrated data and power connector comprising: data connectors surrounded by an end enclosure, each of the data connectors configured to fit into an opposite type of data connectors of another integrated data and power connector, wherein the data connectors are configured to carry data to the circuit for controlling the plurality of LEDs;power connectors surrounded by the end enclosure, each of the power connectors configured to fit into an opposite type of power connectors of the another integrated data and power connector, wherein the power connectors are configured to carry power to the plurality of LEDs; anda sealing cover configured to prevent moisture from reaching inside the integrated data and power connector. 30. The modular display panel of claim 22, further comprising a receiver card configured to receive external data and provide the external data to the circuit for controlling the plurality of LEDs, the receiver card comprising a unique network address.
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