Zener diode protection network in submount for LEDs connected in series
First Claim
1. A light emitting device comprising:
- N light emitting diodes (LEDs) connected in series, the LEDs having electrodes and semiconductor light emitting surfaces, where N is three or more, wherein there is a node at each connection between LEDs, and wherein the LEDs comprise a first end LED having an anode connected to a first power terminal and a second end LED having a cathode connected to a second power terminal;
a transient voltage suppression circuit connected to the N LEDs comprising a first end zener diode connected to the anode of the first end LED, a second end zener diode connected to the cathode of the second end LED, and only one intermediate zener diode per node connected to its associated node at each connection between adjacent LEDs; and
a silicon submount on which the N LEDs are mounted, the silicon submount having formed in its surface the first end zener diode connected to the anode of the first end LED, the second end zener diode connected to the cathode of the second end LED, and the intermediate zener diode per node connected to its associated node, wherein the silicon submount is a p+ type and each zener diode is formed by a n+ region in a surface of the silicon submount,wherein N is greater than three and there are a plurality of intermediate zener diodes, wherein the n+ regions for adjacent intermediate zener diodes, connected to terminals of adjacent LEDs with no other LEDs in-between, are spaced by a distance d1, and wherein the n+ regions for the first end zener diode and the second end zener diode are spaced by a distance d2, wherein d2 is larger than d1.
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Accused Products
Abstract
A transient voltage suppressor circuit is disclosed for a plurality (N) of LEDs connected in series. Only one zener diode is created for connection to each node between LEDs, and a pair of zener diodes (the “end” zener diodes) are connected to the two pins (anode and cathode pads) of the series string. Therefore, only N+1 zener diodes are used. The end zener diodes (Q1 and Qn+1) effectively create back-to-back zener diodes across the two pins since the zener diodes share a common p+ substrate. The n+ regions of the end zener diodes Q1 and Qn+1 have the highest breakdown voltage requirement and must be placed relatively far apart. Adjacent n+ regions of the intermediate zener diodes have a much lower breakdown voltage requirement so may be located close together. The zener diodes may be placed within a very small footprint or can be larger for better suppressor performance.
20 Citations
14 Claims
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1. A light emitting device comprising:
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N light emitting diodes (LEDs) connected in series, the LEDs having electrodes and semiconductor light emitting surfaces, where N is three or more, wherein there is a node at each connection between LEDs, and wherein the LEDs comprise a first end LED having an anode connected to a first power terminal and a second end LED having a cathode connected to a second power terminal; a transient voltage suppression circuit connected to the N LEDs comprising a first end zener diode connected to the anode of the first end LED, a second end zener diode connected to the cathode of the second end LED, and only one intermediate zener diode per node connected to its associated node at each connection between adjacent LEDs; and a silicon submount on which the N LEDs are mounted, the silicon submount having formed in its surface the first end zener diode connected to the anode of the first end LED, the second end zener diode connected to the cathode of the second end LED, and the intermediate zener diode per node connected to its associated node, wherein the silicon submount is a p+ type and each zener diode is formed by a n+ region in a surface of the silicon submount, wherein N is greater than three and there are a plurality of intermediate zener diodes, wherein the n+ regions for adjacent intermediate zener diodes, connected to terminals of adjacent LEDs with no other LEDs in-between, are spaced by a distance d1, and wherein the n+ regions for the first end zener diode and the second end zener diode are spaced by a distance d2, wherein d2 is larger than d1. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A light emitting device comprising:
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N light emitting diodes (LEDs) connected in series, the LEDs having electrodes and semiconductor light emitting surfaces, where N is three or more, wherein there is a node at each connection between LEDs, and wherein the LEDs comprise a first end LED having an anode connected to a first power terminal and a second end LED having a cathode connected to a second power terminal; a transient voltage suppression circuit connected to the N LEDs comprising a first end zener diode connected to the anode of the first end LED, a second end zener diode connected to the cathode of the second end LED, and only one intermediate zener diode per node connected to its associated node at each connection between adjacent LEDs; and a silicon submount on which the N LEDs are mounted, the silicon submount having formed in its surface the first end zener diode connected to the anode of the first end LED, the second end zener diode connected to the cathode of the second end LED, and the intermediate zener diode per node connected to its associated node, wherein the silicon submount is a p+ type and each zener diode is formed by a n+ region in a surface of the silicon submount, wherein the n+ regions of the first end zener diode and the second end zener diode are wider than the n+ region of each intermediate zener diode.
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11. A light emitting device comprising:
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N light emitting diodes (LEDs) connected in series, the LEDs having electrodes and semiconductor light emitting surfaces, where N is three or more, wherein there is a node at each connection between LEDs, and wherein the LEDs comprise a first end LED having an anode connected to a first power terminal and a second end LED having a cathode connected to a second power terminal; a transient voltage suppression circuit connected to the N LEDs comprising a first end zener diode connected to the anode of the first end LED, a second end zener diode connected to the cathode of the second end LED, and only one intermediate zener diode per node connected to its associated node at each connection between adjacent LEDs; and a silicon submount on which the N LEDs are mounted, the silicon submount having formed in its surface the first end zener diode connected to the anode of the first end LED, the second end zener diode connected to the cathode of the second end LED, and the intermediate zener diode per node connected to its associated node, wherein the silicon submount is a p+ type and each zener diode is formed by a n+ region in a surface of the silicon submount, wherein the first end zener diode and the second end zener diode pair have a breakdown voltage above a normal operating voltage of the string of N LEDs connected in series, and at least some of the intermediate zener diodes have a breakdown voltage below the normal operating voltage of the string of N LEDs connected in series.
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12. A light emitting device comprising:
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N light emitting diodes (LEDs) connected in series, the LEDs having electrodes and semiconductor light emitting surfaces, where N is three or more, wherein there is a node at each connection between LEDs, and wherein the LEDs comprise a first end LED having an anode connected to a first power terminal and a second end LED having a cathode connected to a second power terminal; a transient voltage suppression circuit connected to the N LEDs comprising a first end zener diode connected to the anode of the first end LED, a second end zener diode connected to the cathode of the second end LED, and only one intermediate zener diode per node connected to its associated node at each connection between adjacent LEDs; and a silicon submount on which the N LEDs are mounted, the silicon submount having formed in its surface the first end zener diode connected to the anode of the first end LED, the second end zener diode connected to the cathode of the second end LED, and the intermediate zener diode per node connected to its associated node, wherein the silicon submount is a p+ type and each zener diode is formed by a n+ region in a surface of the silicon submount, wherein the n+ regions of the intermediate zener diodes are formed underneath the N LEDs, and a majority of the n+ region of the first end zener diode and the second end zener diode are not formed underneath the N LEDs.
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13. A light emitting device comprising:
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N light emitting diodes (LEDs) connected in series, the LEDs having electrodes and semiconductor light emitting surfaces, where N is three or more, wherein there is a node at each connection between LEDs, and wherein the LEDs comprise a first end LED having an anode connected to a first power terminal and a second end LED having a cathode connected to a second power terminal; a transient voltage suppression circuit connected to the N LEDs comprising a first end zener diode connected to the anode of the first end LED, a second end zener diode connected to the cathode of the second end LED, and only one intermediate zener diode per node connected to its associated node at each connection between adjacent LEDs; and a silicon submount on which the N LEDs are mounted, the silicon submount having formed in its surface the first end zener diode connected to the anode of the first end LED, the second end zener diode connected to the cathode of the second end LED, and the intermediate zener diode per node connected to its associated node, wherein the silicon submount is a p+ type and each zener diode is formed by a n+ region in a surface of the silicon submount, wherein the N LEDs are formed in a single die, and all intermediate zener diodes are formed underneath the die with the distance between adjacent intermediate zener diodes being smaller than that required to withstand a first voltage across the adjacent intermediate zener diodes without breaking down, wherein the first voltage is equal to a maximum operating voltage connected across the N LEDs connected in series, wherein at least portions of the first end zener diode and second end zener diode extend beyond a border of the die.
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14. A method comprising:
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providing on a silicon submount N light emitting diodes (LEDs) connected in series, the LEDs having electrodes and semiconductor light emitting surfaces, where N is three or more, wherein there is a node at each connection between LEDs, and wherein the LEDs comprise a first end LED having an anode connected to a first power terminal and a second end LED having a cathode connected to a second power terminal, the silicon submount having formed in and on it a transient voltage suppression circuit connected to the N LEDs comprising a first end zener diode connected to the anode of the first end LED, a second end zener diode connected to the cathode of the second end LED, and only one intermediate zener diode per node connected to its associated node at each connection between adjacent LEDs, wherein the silicon submount is a p+ type and each zener diode is formed by a n+ region in a surface of the silicon submount, wherein N is greater than three and there are a plurality of intermediate zener diodes, wherein the n+ regions for adjacent intermediate zener diodes, connected to terminals of adjacent LEDs with no other LEDs in-between, are spaced by a distance d1, and wherein the n+ regions for the first end zener diode and the second end zener diode are spaced by a distance d2, wherein d2 is larger than d1, a patterned metal layer being formed over a top surface of the silicon submount, the metal layer interconnecting all LEDs in series and connecting the zener diodes to the electrodes of the LEDs; connecting a bias voltage to the p+ type material in the silicon submount to electrically bias the semiconductor light emitting surfaces of the N LEDs via the p+ material and the zener diodes; immersing the semiconductor light emitting surfaces in an electrolyte solution; and performing photo-electrochemical etching (PEC) of the semiconductor light emitting surfaces.
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Specification