Name
Title | ||
|---|---|---|
A 260GHz broadband source with 1.1mW continuous-wave radiated power and EIRP of 15.7dBm in 65nm CMOS |
Abstract | ||
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Terahertz spectroscopy using silicon technology is gaining attraction for future portable and affordable material identification equipment. To do this, a broadband THz radiation source is critical. Unfortunately, the bandwidth of the prior CMOS works is not sufficient. In [1], the 300GHz signal source achieves 4.5% tuning range by changing the coupling among multiple oscillators. In [2], the DAR array has 3% tuning range with radiation capability. Alternative to the continuous device-tuning method, THz time-domain spectroscopy utilizing the broadband spectrum of picosecond pulses is widely used in the optics community [3]. In this paper, a high-power pulse-based sub-millimeter-Wave radiation source using 65nm bulk CMOS technology is reported. The architecture of this transmitter is shown in Fig. 8.2.1, where four differential core oscillator pairs are mutually coupled through four quadrature oscillators. Each core oscillator pair generates 2nd-harmonic signals at 260GHz that are power-combined after radiating through eight on-chip antennas. Four shunt switches, controlled by narrow pulses (width≈45ps) modulate the radiation. The pulses are generated by local digital circuit blocks with programmable repetition rate up to 5GHz. This way, the broadband spectrum of the pulses is upconverted to the carrier frequency of 260GHz. Without modulation, the chip achieves a continuous-wave radiated power of 1.1mW. Under modulation, the measured bandwidth of the source is 24.7GHz, which makes it suitable for many FTIR-based THz spectrometers. In addition, if the switches are modulated by digital data, this chip can also be used as a transmitter for sub-millimeter/THz wireless communications. |
Year | DOI | Venue |
|---|---|---|
2013 | 10.1109/ISSCC.2013.6487671 | ISSCC |
Keywords | Field | DocType |
continuous-wave radiated power,switches,dar array,cmos integrated circuits,differential core oscillator pairs,frequency 300 ghz,on-chip antennas,bandwidth 24.7 ghz,radio transmitters,silicon technology,power 1.1 mw,quadrature oscillators,size 65 nm,transmitter,frequency 260 ghz,submillimeter-thz wireless communications,thz time-domain spectroscopy,millimetre wave oscillators,local digital circuit blocks,terahertz spectroscopy,picosecond pulses,multiple oscillators,high-power pulse-based submillimeter-wave radiation,broadband spectrum,material identification equipment,eirp,broadband thz radiation source,bulk cmos technology,continuous device-tuning method,field effect mimic,ftir-based thz spectrometers,shunt switches,broadband source | Transmitter,Computer science,Chip,Electronic engineering,Broadband,Modulation,Terahertz spectroscopy and technology,Bandwidth (signal processing),Terahertz radiation,Electrical engineering,Effective radiated power | Conference |
Volume | ISSN | ISBN |
56 | 0193-6530 | 978-1-4673-4515-6 |
Citations | PageRank | References |
8 | 1.42 | 3 |
Authors | ||
2 | ||
Name | Order | Citations | PageRank |
|---|---|---|---|
| Ruonan Han | 1 | 152 | 27.20 |
| Ehsan Afshari | 2 | 325 | 36.65 |