november 2010 doc.: ieee 802.15-15-10-0845-00-0thz · doc.: ieee 802.15-15-10-0845-00-0thz...
TRANSCRIPT
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 1
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 2
Feasibility Test of Terahertz Wireless Communications at 300 GHz
H.-J. Song1, K. Ajito1, T. Nagatsuma2 and N. Kukutsu1
1NTT Microsystem Integration Laboratories. 2Osaka University
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 3
Terahertz Waves
Unique interaction pattern with molecules Capable of penetrating many non-metallic materials Short wavelength (compared to microwaves) Sensing, imaging, security
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 4
Imaging for Security or Sensing
India ink Conventional ink
Paper clip
Nagoya Univ. Japan
NTT, Japan
NTT, Japan
Jefferson Labs., USA
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 5
THz Waves for Communications • Large bandwidth
For 300 GHz, BW is approximately 150 times larger than for 3G/4G cellular system (1.9~2.1GHz)
150 times larger data capacity (more than 10 Gbps) Or much simpler system
• No one uses these frequencies !!
3kHz 300kHz
3GHz 30GHz
300MHz 3GHz
30GHz 300GHz
30MHz 300MHz
3MHz 30MHz
300kHz 3MHz
U.S. Frequency Allocation Table
275
GH
z
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 6
Natural Gift: Bandwidth or Height
• Giant player is always attractive to NBA. – Height can’t be earned by practice.
• So do THz-wave and its’ bandwidth for communications.
Shaquille O'neal 2m 13 cm
Yao Ming 2m 28 cm
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 7
Shannon Limit
Maximum capacity relies on signal Power and Bandwidth.
Large BW can compensate for lack of power.
From ‘Digital Communications 2/e’ Bernard Sklar, Prentice Hall, 2001
€
R ≤W log2(1+S
N0W)
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 8
Is It Possible ?
• 1-mW output power and 25-dBi antenna gain promise us 10-Gbps data capacity even with ASK.
• In terahertz wave bands, 25-dBi antenna is small enough.
Frequency (GHz) 300
Distance (m) 5
Spectral efficiency (bit/Hz) 1
Radiated power (dBm) 0
Noise level (dBm/Hz) -174
Noise figure (dB) 25
Loss in Air (dB/Km) 10
Ptx=0dBm
Ptx = -10 dBm
Laser pointer
300 GHz 25-dBi Horn
USB
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 9
But,
NBA is NBA, and
Theory is just theory.
Show me some experimental results !
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 10
Feasibility Test We need
– Transmitter • THz signal generator • Data modulation
– Receiver • THz Signal detector • Demodulator
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 11
10 Years Ago in NTT
Source: IEEE 802.15-15-10-0149-01-0thz
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 12
Source: IEEE 802.15-15-10-0149-01-0thz
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 13
Source: IEEE 802.15-15-10-0149-01-0thz
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 14
Source: IEEE 802.15-15-10-0149-01-0thz
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 15
Source: IEEE 802.15-15-10-0149-01-0thz
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 16
Source: IEEE 802.15-15-10-0149-01-0thz
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 17
Same Approach at THz Waves
But,
Short range applications
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 18
Possible Application
In Cabin link
KIOSK data download Via fiber-network
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 19
Transmitter: Photonics tech. J-band, Idark < 0.2 uA TLS1
TLS2
EOM PC
PPG
UTCPD
DL
250 GHz
Optical frequency Optical frequency
Easy to handle large data rates up to 40 Gbps
Easy to generate THz wave signal
Possible to integrate with optical network ROF ?
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 20
THz Operation of UTC-PD
Max. output : -2.7 dBm (350 GHz) Waveguide packaging
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 21
Receiver: Schottky Barrier Diode Detector
• Schottky barrier diode detectors as envelop detector for ASK signal.
• Commercial device showed better sensitivity and responsivity. • But, both devices exhibited much worse noise performance
assumed in the calculation.
NTT developed Commercial device
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 22
First Trial at 250 GHz
• Photonic transmitter + SBD detector receiver • ASK modulation over 50-cm long distance • No amplifier, but dielectric lens for both Tx/Rx • Why 250 GHz? limited performance of SBD
J-band, Idark < 0.2 uA TLS1
TLS2
EOM PC
PPG
UTCPD
DL
Bias-Tee
limiting
LNA
NTT-SBD
Vbias~0.3V
To ED
DL
250 GHz
Optical frequency
1 0 1 1 0 0 1
50 cm
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 23
First Trial at 250 GHz
• We had enough power margin – UTC-PD can be driven up to 20 mA – Error free transmission up to 3-m distance
• NTT device provided higher data rate
2 Gbps with commercial detector (PTX < 10 uW)
8 Gbps with NTT’s detector (PTX ~ 10 uW)
Electronics Letters 45(22) pp. 1121-1122, 2009
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 24
Problem Was Bandwidth
• Video bandwidth (baseband output bandwidth) of detectors limit data capacity
Commercial detector
NTT’s detector
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 25
NEW Schottky Barrier Diode Detector
• New device provides much wider video bandwidth of around 17 GHz (cf. old ~ 4.5 GHz)
• Designed for 300 GHz operation with advanced SBD devices
Video-bandwidth (baseband)
NEW
Old
Ring slot antenna
SBD
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 26
NEW Schottky Barrier Diode Detector
InP substrate
i-InGaAsP Barrier layer
SBD UTC-PD
antenna
~180 um
εr=12
SBD
(0.5mm x 1.2 mm)
Hemispherical silicon lens
Coaxial connector for data output Metal housing
CPW MSL Coax
Directivity ~19 dBi
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 27
New Result with New Receiver
• We still have some power margin from UTC-PD
• 12.5 Gbps was limited by measurement setup (BERT)
12.5Gbps PRBS=2-21-1
Microwave Photonics 2010, WE3-2
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 28
Possible Application TLS1
TLS2
EOM PC
PPG
UTCPD
In Cabin link
fiber
KIOSK data download Via fiber-network
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 29
Why Not ?!
IEEE 802.15-15-10-0150-00-0thz, Dr. Britz, AT&T
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 30
Issues in THz communications
• Frequency allocation: We need a lot
• High performance devices, especially for mobile unit.
• Packaging materials for practical application • Channel characterization / modeling • Beamforming, due to Line-of-sight (LOS)
operation
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doc.: IEEE 802.15-15-10-0845-00-0thz
Submission
November 2010
Ho-Jin Song, NTT Slide 31
Summary • We demonstrated terahertz-wave wireless link at 300
GHz for feasibility test – Photonic transmitter + Schottky barrier diode detector
receiver
– 12.5 Gbps error free transmission over 0.5-m distance
• Note that all the results were due to the utilization of huge bandwidth at terahertz frequencies. – We didn’t use so much high power (< 60 uW) – Noise performance of receiver was much worse than
calculation. – But, we had BANDWIDTH.