Temperature Regulations of Pseudo Noise Generator Based Optical Transmitter Using Airflow and Heat Sink Profile

Das, F.; Abdullah, Shahrir; Shahida, T. C. Mohd Shah Nor; Sharina, F. D. M. Y. Siti Nurul; Bakhsh, F. E. Qadir; Pandey, Shashank

doi:10.18178/ijmmm.2017.5.1.291

Cited by 2 publications

(1 citation statement)

References 14 publications

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“…by compensating CD in frequcny domain [3][4], optimizing optical modulation amplitude [5], green routing [5], IP forwarding [5], energy efficient network access [5], high-speed current controllers [5], sleep mode techniques and others [5]. Through these techniques power reduction can be achieved for only few GHz operating frequency and at Gb/s data rate [6]. Nevertheless, more than this frequency range, some other techniques need to be developed for reducing optical transmitter power.…”

Section: Introductionmentioning

confidence: 99%

High Performance and High Range Design of 100Gb/s Optical Differential Phase Shift keying Transmitter

Abdullah¹,

Das²,

Shahida³

et al. 2016

IJCA

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The need of high performance and high range devices is increasing drastically as rapid growth is accumulating in Information and communication technology (ICT using proposed technique by integrating the two IO Standards one is Pseudo Open Drain (POD) and other is Point-to-Point Differential Signaling (PPDS). The POD IO standards is consuming less power feature, while PPDS IO Standard provides the faster response time. It is determined that using proposed technique the 95% power consumption is recorded with 85% improved efficiency in response time

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Section: Introductionmentioning

confidence: 99%

High Performance and High Range Design of 100Gb/s Optical Differential Phase Shift keying Transmitter

Abdullah¹,

Das²,

Shahida³

et al. 2016

IJCA

View full text Add to dashboard Cite

show abstract

Temperature Control of Pseudo Noise Generator Based Optical Transmitter using Airflow and Heat Sink Profile at High Speed Transceiver Logic IO Standard

Das¹,

Abdullah²,

Shah³

et al. 2015

JOACE

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Junction temperature is the final temperature of any device, after that device became dead. In this paper, junction temperature of target device i.e. Pseudo Noise sequence random generator based optical transmitter is controlled using heat sink profile and airflow. Heat sink and airflow are the cooling techniques for thermal efficient design on FPGA. We operated target device at high speed transceiver logic (HSTL) on FPGA at 1, 10,100 and 1000 (GHz) operating frequency. Each IO standard is examined with two airflow values (250 MFL and 500MFL) and Heat sink values (Low profile, Medium profile and high profile). For HSTL_I the reduction in junction temperature is (4%, 5%, 16% and 20%), HSTL_III (2%, 4%, 40%, and 67%), HSTL_I_18 (2%, 15%, 59%, and 68%), HSTL_III_18 (2.4%, 19%, 62%, and 74%) is recorded at respective frequencies. Significant reduction of 74% in junction temperature is observed at 1000GHz using HSTL_III_18. We conclude that for frequencies above 10GHz the heat sink profile and air flow significantly reduces the junction temperature using HSTL_III_18. This design makes the target device, energy efficient, system will be integrated with other optical components to make optical communication system green. Xilinx ISE14.7.1.2 design tool is used to perform the experiment. 

show abstract

Temperature Regulations of Pseudo Noise Generator Based Optical Transmitter Using Airflow and Heat Sink Profile

Cited by 2 publications

References 14 publications

High Performance and High Range Design of 100Gb/s Optical Differential Phase Shift keying Transmitter

High Performance and High Range Design of 100Gb/s Optical Differential Phase Shift keying Transmitter

Temperature Control of Pseudo Noise Generator Based Optical Transmitter using Airflow and Heat Sink Profile at High Speed Transceiver Logic IO Standard

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