3-GHz Silicon Photodiodes Integrated in a 0.18- m CMOS Technology
نویسندگان
چکیده
A new PIN photodiode (PD) structure with deep n-well (DNW) fabricated in an epitaxial substrate complementary metal–oxide–semiconductor (epi-CMOS) process is presented. The DNW buried inside the epitaxial layer intensifies the electric field deep inside the epi-layer significantly, and helps the electrons generated inside the epi-layer to drift faster to the cathode. Therefore, this new structure reduces the carrier transit time and enhances the PD bandwidth. A PD with an area of m fabricated in a 0.18m epi-CMOS achieves 3-dB bandwidth of 3.1 GHz in the small signal and 2.6 GHz in the large signal, both with a 15-V bias voltage and 850-nm optical illumination. The responsivity is measured 0.14 A/W, corresponding to a quantum efficiency of 20%, at low bias. The responsivity increases to 0.4 A/W or 58% quantum efficiency at 16.2-V bias in the avalanche mode.
منابع مشابه
High-speed photodiodes in 40 nm standard CMOS technology
This work investigates two silicon (Si) photodiodes (PDs) fabricated in 40 nm standard CMOS technology. The basic structure of the proposed Si PD is formed by N+/P-substrate and N-well/P-substrate diodes. The N+/P-substrate PD demonstrates a responsivity of 0.09 A/W and an electrical bandwidth of 3 GHz for 8 V reverse bias at 520 nm. The N-well/P-substrate PD demonstrates a responsivity of 0.24...
متن کاملOptimum bias of power transistor in 0.18 lm CMOS technology for Bluetooth application
Based on the proposed silicon integrated power transistor adopting a 0.18 lm technology, its performance shows this novel device can be operated at 2.4 GHz for Bluetooth and lithium battery applications [Hsu H-M, Su J-G, Chen C-W, Tang DD, Chen CH, Sun JY-C. Integrated power transistor in 0.18 lm CMOS technology for RF system-on-chip applications. IEEE Trans Microwave Theory Tech 2002;50(Decemb...
متن کامل200-GHz CMOS amplifier with 9-dB noise figure for atmospheric remote sensing
Introduction: The recent development of millimetre-wave CMOS and SiGe circuits have made silicon technologies attractive also for noncommercial low-volume applications such as the atmospheric remote sensing where III–V compound semiconductors have been traditionally used for the millimetre-wave receiver technology. The possibility to integrate more functions on the same silicon chip would enabl...
متن کاملA 2.5Gb/s O.38mm2 Optical Receiver with Integrated Photodiodes in O.18f.lm CMOS SOl
In this work, we report an optical receiver with integrated photodiodes operating at 850nm wavelength. The receiver achieves a data-rate of 2.5Gb/s without using any equalizer. To minimize the area, no inductors are used in the design. The entire receiver occupies an area of O.38mm2• This represents the smallest optical receiver operating at the Gb/s regime. The chip is fabricated in O.18J.lm C...
متن کاملA 11 mW 2.4 GHz 0.18 µm CMOS Transceivers for Wireless Sensor Networks
In this paper, a low power transceiver for wireless sensor networks (WSN) is proposed. The system is designed with fully functional blocks including a receiver, a fractional-N frequency synthesizer, and a class-E transmitter, and it is optimized with a good balance among output power, sensitivity, power consumption, and silicon area. A transmitter and receiver (TX-RX) shared input-output matchi...
متن کاملذخیره در منابع من
با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید
عنوان ژورنال:
دوره شماره
صفحات -
تاریخ انتشار 2009