Single-layer tri-state switching as an economical method to address linear light-emitting diode arrays

IF 2.3 4区计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Iet Optoelectronics Pub Date : 2021-12-22 DOI:10.1049/ote2.12061

Eric Klein, Patrick Ruther, Oliver Paul

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引用次数: 1

Abstract

This paper reports on new schemes based on the concept of tri-state switching for routing linear arrays of light-emitting diodes (LEDs) on slim substrates. The schemes use a minimal number of wires in single-metal planar technologies, where wires are not allowed to cross. They have in common that the number of LEDs, N_L, addressable by N_W wires is given by N_L = 4N_W − 6. The designs are built on a family of hierarchically interconnected structures with (2ⁿ⁺¹ − 2) LEDs and (2ⁿ⁻¹ + 1) wires, for positive integers n. A process termed linear expansion straightforwardly extends them to arbitrary values of N_W and adds 4 LEDs with each additional wire. Expressions for series resistances and the average wire length normalized to the array length are derived. In hierarchical designs, the average normalized wire length asymptotically approaches 7/12 for large n. A matrix formulation graphically elucidates the new interconnection schemes.

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单层三态开关是解决线性发光二极管阵列的一种经济方法

本文报道了基于三态开关的新方案，用于在薄衬底上布线发光二极管(led)的线性阵列。该方案在单金属平面技术中使用最少数量的导线，其中导线不允许交叉。它们的共同点是，NW导线可寻址的led数量NL由NL = 4NW−6给出。对于正整数n，该设计建立在一系列具有(2n+1−2)led和(2n−1 +1)导线的分层互连结构上。称为线性扩展的过程直接将它们扩展到NW的任意值，并为每条额外的导线增加4个led。推导了串联电阻和平均导线长度归一化为阵列长度的表达式。在分层设计中，对于较大的n，平均归一化导线长度渐近于7/12。一个矩阵公式图解地阐明了新的互连方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Iet Optoelectronics 工程技术-电信学

CiteScore

4.50

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： IET Optoelectronics publishes state of the art research papers in the field of optoelectronics and photonics. The topics that are covered by the journal include optical and optoelectronic materials, nanophotonics, metamaterials and photonic crystals, light sources (e.g. LEDs, lasers and devices for lighting), optical modulation and multiplexing, optical fibres, cables and connectors, optical amplifiers, photodetectors and optical receivers, photonic integrated circuits, photonic systems, optical signal processing and holography and displays. Most of the papers published describe original research from universities and industrial and government laboratories. However correspondence suggesting review papers and tutorials is welcomed, as are suggestions for special issues. IET Optoelectronics covers but is not limited to the following topics: Optical and optoelectronic materials Light sources, including LEDs, lasers and devices for lighting Optical modulation and multiplexing Optical fibres, cables and connectors Optical amplifiers Photodetectors and optical receivers Photonic integrated circuits Nanophotonics and photonic crystals Optical signal processing Holography Displays