Speed optimized large area avalanche photodetector in standard CMOS technology for visible light communication

Ray, Sagar; Hella, Mona M.; Hossain, Md. Mottaleb; Zarkesh-Ha, Payman; Hayat, Majeed M.

doi:10.1109/icsens.2014.6985463

Cited by 14 publications

(4 citation statements)

References 13 publications

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“…This led to the hypothesis that it is better to build the APD out of a 10×10 array of 20 µm×20 µm structures, whose outputs can be summed together by connecting the structures in parallel, in order to meet the bandwidth requirements. This method was also used in the paper recently published by Ray et al [31]. The dominant source of noise will come from the TIA connected to the APD.…”

Section: Receivermentioning

confidence: 99%

High-Speed Integrated Visible Light Communication System: Device Constraints and Design Considerations

Rajbhandari

Chun

Faulkner

et al. 2015

IEEE J. Select. Areas Commun.

116

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Abstract-Visible light communications (VLC) has the potential to play a major part in future smart home and next generation communication networks. There is significant ongoing work to increase the achievable data rates using VLC, to standardize it and integrate it within existing network infrastructures.The future of VLC systems depends on the ability to fabricate low cost transceiver components and to realize the promise of high data rates. This paper reports the design and fabrication of integrated transmitter and receiver components. The transmitter uses a two dimensional individually addressable array of micro light emitting diodes (µLEDs) and the receiver uses an integrated photodiode array fabricated in a CMOS technology. A preliminary result of a MIMO system implementation operating at a data rate of ~1Gbps is demonstrated. This paper also highlights the challenges in achieving highly parallel data communication along with the possible bottlenecks in integrated approaches. IndexTerms-Visible light communications, Optical communication system design, multiple input multiple output, optical wireless communications, link budget analysis, integrated optical system design.

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Section: Receivermentioning

confidence: 99%

High-Speed Integrated Visible Light Communication System: Device Constraints and Design Considerations

Rajbhandari

Chun

Faulkner

et al. 2015

IEEE J. Select. Areas Commun.

116

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show abstract

“…Via pin-photodiode APDs, with diameters of 200, 400 and 600 µm, we ended up with an 800 µm-diameter APD integrated in a 0.35 µm BiCMOS receiver [30]. A segmentation of the large-area APDs for high data rates as it was used in [32] was not necessary.…”

Section: Integrated Apd Receiversmentioning

confidence: 99%

Bit Error Performance of APD and SPAD Receivers in Optical Wireless Communication

Mahmoudi

Zimmermann

2021

Electronics

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This review concentrates on the state-of-the-art hardware-oriented receiver aspects for optical wireless communication (OWC), and points to the importance of BER performance analysis and modeling in presence of non-perpendicular light incidence. Receivers in OWC networks for 6G applications have to work for strongly different light incidence angles, to allow the formation of connections to locally separated transceivers without the need for rotation units and accurate adjustment. In turn, and in combination with fully integrated optical receivers, reduction of cost and increased comfort can be achieved. Fully integrated [bipolar] complementary metal-oxide-semiconductor ([Bi]CMOS) receivers with on-chip avalanche photodiodes (APDs) and single-photon avalanche diodes (SPADs) are presented and their performance in optical wireless communication is summarized. Impressive data rates up to 2 Gbit/s and free-space transmission distances up to 27 m at bit error ratios (BER) below 10−9 are reached with linear-mode APD receivers. The importance of optical interference in the isolation and passivation stack on top of the integrated photodiodes is illuminated. To be able to predict the dependence of the BER of single-photon avalanche diode (SPAD) receivers on the light incidence angle, a model, which includes a model for the photon detection probability and a standing-wave model for the isolation and passivation stack, is extended. The dependence of the BER on the light incidence angle onto the photodiodes is investigated by electromagnetic simulation for optical transmission of the layers on top of the photodiode, device simulation for the avalanche triggering probability and BER modeling with MATLAB. It is found that incidence angles up to 30° have moderate influence on the BER and that the BER degrades significantly for incidence angles larger than 50°.

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“…In order to obtain an exact analytical formula for F(x), we solve the recursive integral equations from the DSMT model [10] with zero dead space to obtain the second moments of electrons and holes, z2(x) and y2(x), respectively, under mixed injection. The recursive integral equations for the second moments of Z(x) and Y(x) are equations (22) and (23) in [10], and they are expressed below: The exponent r turns out to satisfy the same characteristic equation as in (9). Upon substituting the proposed forms from (19a) and (19b) into (18a) and (18b) and applying boundary conditions 2 ( ) = 2 (0) = 1, we obtain a system of twelve linear equations with ten unknown coefficients p1, p2, p3, p4, p5, q1, q2, q3, q4, and q5.…”

Section: B Formula For Mixed-injection Excess-noise Factormentioning

confidence: 99%

Exact Analytical Formula for the Excess Noise Factor for Mixed Carrier Injection Avalanche Photodiodes

Hossain

David

Hayat

2019

J. Lightwave Technol.

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Speed optimized large area avalanche photodetector in standard CMOS technology for visible light communication

Cited by 14 publications

References 13 publications

High-Speed Integrated Visible Light Communication System: Device Constraints and Design Considerations

High-Speed Integrated Visible Light Communication System: Device Constraints and Design Considerations

Bit Error Performance of APD and SPAD Receivers in Optical Wireless Communication

Exact Analytical Formula for the Excess Noise Factor for Mixed Carrier Injection Avalanche Photodiodes

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