The present invention relates to a plurality AC_LED disposed and coupled in a single chip to form an AC_LED system. Especially, the present invention discloses an AC_LED system in a single chip with three metal contacts to be driven by three-phase voltage power source.
In accordance with the foregoing drawbacks in the prior art, a primary objective of the present invention is to produce an AC_LED system in a single chip with three metal contacts that can be driven by a three-phase voltage power source.
A plurality of AC_LED units are integrated and disposed on a same semiconductor chip to form a single chip AC_LED lighting system with three metal contacts to couple to a three-phase voltage power source for controlling the light timing of the AC_LED lighting system. The circuitry of one of the embodiment is equivalent to a triangle connection with three series of AC_LED units. Alternatively, a single chip design equivalent to Y-shape circuitry is also disclosed for coupling to a four-phase voltage power source.
Referring to
A first metal contact 211 is disposed on the upper left corner of the AC_LED unit for coupling the positive electrode of the first DC_LED 201 and the negative electrode of the second DC_LED 202. The metal contact 211 allows the AC_LED unit to couple to a top AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow T, allows the AC_LED unit to couple to a left AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow L, and allows the AC_LED unit to couple to a upper left AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow LT.
A second metal contact 212 is disposed on the lower right corner of the AC_LED unit for coupling the negative electrode of the first DC_LED 201 and the positive electrode of the second DC_LED 202. The second metal contact allows the AC_LED unit to couple to a right AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow R, and allows to couple the AC_LED unit to a bottom AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow B, and allows to couple the AC_LED unit to a lower right AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow RB.
Referring to
A first metal contact 211 is disposed on the upper right corner of the AC_LED unit for coupling the negative electrode of the first DC_LED 201 and the negative positive electrode of the second DC_LED 202. The metal contact 211 allows the AC_LED unit to couple to a top AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow T, allows the AC_LED unit to couple to a right AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow R, and allows the AC_LED unit to couple to a upper right AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow RT.
A second metal contact 212 is disposed on the lower left corner of the AC_LED unit for coupling the positive electrode of the first DC_LED 201 and the positive negative electrode of the second DC_LED 202. The second metal contact allows the AC_LED unit to be coupled to a left AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow L, allows the AC_LED unit to be coupled to a bottom AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow B, and allows the AC_LED unit to be coupled to a lower left AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow LB.
Referring to
Referring to
A first metal contact 411 is disposed on the top end of the AC_LED unit for coupling the positive electrode of the first DC_LED 401 and the negative electrode of the second DC_LED 402. The metal contact 411 allows the AC_LED unit to be coupled to a top AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow T, allows the AC_LED unit to be coupled to a right AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow R1, and allows the AC_LED unit to be coupled to a left AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow L1.
A second metal contact 412 is disposed on the bottom end of the AC_LED unit for coupling the negative electrode of the first DC_LED 401 and the positive electrode of the second DC_LED 402. The second metal contact 412 allows the AC_LED unit to be coupled to a right AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow R2, allows the AC_LED unit to be coupled to a left AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow L2, and allows the AC_LED unit to be coupled to a bottom AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow B.
Referring to
A first metal contact 411 is disposed on the left end of the AC_LED unit for coupling the negative electrode of the first DC_LED 401 and the positive electrode of the second DC_LED 402. The metal contact 411 allows the AC_LED unit to couple to a top AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow T1, and allows the AC_LED unit to couple to a left AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow L, and allows the AC_LED unit to couple to a bottom AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow B1.
A second metal contact 412 is disposed on the right end of the AC_LED unit for coupling the positive electrode of the first DC_LED 401 and the negative electrode of the second DC_LED 402. The second metal contact 412 allows to couple the AC_LED unit to a top AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow T2, and allows the AC_LED unit to couple to a right AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow R, and allows to couple the AC_LED unit to a bottom AC_LED unit (not shown) with a shortest electrical coupling as indicated by arrow B2.
Referring to
A first series of AC_LED units has a first end coupled to the metal contact P1 and a second end coupled to the metal contact P2, metal line M is used to couple the circuit in between two neighboring AC_LED units. AC_LED C12, C13 are series connection in between metal contact P1 and metal contact P2.
A second series of AC_LED units has a first end coupled to the metal contact P1 and a second end coupled to the metal contact P3, metal line M is used to couple the circuit in between two neighboring AC_LED units. AC_LED C11, C21 are series connection in between metal contact P1 and metal contact P3.
A third series of AC_LED units has a first end coupled to the metal contact P2 and a second end coupled to the metal contact P3, metal line M is used to couple the circuit in between two neighboring AC_LED units. AC_LED C33, C32 are series connection in between metal contact P2 and metal contact P3.
Referring to
As shown in
Referring to
A first series of AC_LED units has a first end coupled to the metal contact P0 and a second end coupled to the metal contact P4, metal line M is used to couple the circuit in between two neighboring AC_LED units. AC_LED D22, D12, D11, D21 are series connection in between metal contact P0 and metal contact P4.
A second series of AC_LED units has a first end coupled to the metal contact P0 and a second end coupled to the metal contact P5, metal line M is used to couple the circuit in between two neighboring AC_LED units. AC_LED D13, D14, D24, D34 are series connection in between metal contact P0 and metal contact P5.
A third series of AC_LED units has a first end coupled to the metal contact P0 and a second end coupled to the metal contact P6, metal line M is used to couple the circuit in between two neighboring AC_LED units. AC_LED D32, D33, D43, D42 are series connection in between metal contact P0 and metal contact P6. The four metal contacts P0, P4˜P6 are then coupled to a four-phase voltage power source.
Referring to
Referring to
Referring to
Referring to
Similarly, the detailed description for the AC_LED units C33 and C32 in between metal contacts P2 and P3, and the detailed description for the AC_LED units C21 and C11 in between metal contacts P3 and P1 are omitted here.
Referring to
Referring to
(1) seven metal contacts N21, N22, N23, N24, N25, N26, N27, each coupling neighboring electrodes of neighboring DC_LED units;
(2) the positive electrode of a first DC_LED unit H21, the negative electrode of an eighth DC_LED unit H28, and the positive electrode of a second DC_LED unit H22, being coupled to a second metal contact N22;
(3) the negative electrode of the second DC_LED unit H22, the positive electrode of an ninth DC_LED unit H29, and the negative electrode of a third DC_LED unit H23, being coupled to a third metal contact N23;
(4) the positive electrode of the third DC_LED unit H23, the negative electrode of a tenth DC_LED unit H30, and the positive electrode of a fourth DC_LED unit H24, being coupled to a fourth metal contact N24;
(5) the negative electrode of the fourth DC_LED unit H24, the positive electrode of an eleventh DC_LED unit H31, and the negative electrode of a fifth DC_LED unit H25, being coupled to a fifth metal contact N25;
(6) the positive electrode of the fifth DC_LED unit H25, the negative electrode of a twelfth DC_LED unit H32, and the positive electrode of a sixth DC_LED unit H26, being coupled to a sixth metal contact N26;
(7) the negative electrode of the sixth DC_LED unit H26, the positive electrode of a seventh DC_LED unit H27, and the negative electrode of the first DC_LED unit H21, being coupled to a first metal contact N21; and
(8) the negative electrode of the seventh DC_LED unit H27, the positive electrode of the eighth DC_LED unit H28, and the negative electrode of the ninth DC_LED unit H29, the positive electrode of the tenth DC_LED unit H30, and the negative electrode of the eleventh DC_LED unit H31, the positive electrode of the twelfth DC_LED unit H32, being coupled to a seven metal contact N27. The three metal contacts N21, N23, and N25 are then coupled to a three-phase voltage power source through power lines P82, P81 and P83 respectively.
Referring to
(1) a first metal contact N21, a second metal contact N22, a third metal contact N23, a fourth metal contact N24, a fifth metal contact N25, a sixth metal contact N26, and a seventh metal contact N27;
(2) a first DC_LED H21, electrically coupling from metal contact N21 in backward direction to metal contact N22;
(3) a second DC_LED H22, electrically coupling from metal contact N22 in forward direction to metal contact N23;
(4) a third DC_LED H23, electrically coupling from metal contact N23 in backward direction to metal contact N24;
(5) a fourth DC_LED H24, electrically coupling from metal contact N24 in forward direction to metal contact N25;
(6) a fifth DC_LED H25, electrically coupling from metal contact N25 in backward direction to metal contact N26;
(7) a sixth DC_LED H26, electrically coupling from metal contact N26 in forward direction to metal contact N21;
(8) a seventh DC_LED H27, electrically coupling from metal contact N27 in backward direction to metal contact N21;
(9) an eighth diode D28, electrically coupling from metal contact N27 in forward direction to metal contact N22;
(10) a ninth DC_LED H29, electrically coupling from metal contact N27 in backward direction to metal contact N23;
(11) a tenth DC_LED H30, electrically coupling from metal contact N27 in forward direction to metal contact N24;
(12) an eleventh DC_LED [[H23]] H31, electrically coupling from metal contact N27 in backward direction to metal contact N25;
(13) a twelfth DC_LED 1132, electrically coupling from metal contact N27 in forward direction to metal contact N26; and
(14) metal contacts N21, N23 and N25 couples to a three-phase voltage power source through metal line P82, P81 and P83 respectively.
The current paths from metal contact N21 to metal contact N23 are H27-H30-H23 and H27-H28-H22.
The current paths from metal contact N21 to metal contact N25 are H27-H30-H24 and H27-H32-H25.
The current paths from metal contact N23 to metal contact N21 are H29-H32-H26 and H29-H28-H21.
The current paths from metal contact N23 to metal contact N25 are H29-H32-H25 and H29-H30-H24.
The current paths from metal contact N25 to metal contact N21 are H31-H32-H26 and H31-H28-H21.
The current paths from metal contact N25 to metal contact N23 are H31-H28-H22 and H31-H30-H23.
The current paths from node N25 to node N23 are H31-H28-H22 and H31-H30-H23.
The embodiments shown in the present invention disclosure disclose a shortest electrical coupling between diodes on the same surface, alternatively conventional three dimension interconnection with an additional insulation layer and deposited metal lines can be use to replace the shortest surface coupling circuitry.
While the preferred embodiments have been described by way of example, it will be apparent to those skilled in the art that various modification may be made in the embodiments without departing from the spirit of the present invention. Such modifications are all within the scope of the present invention, as defined by the appended claims.
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