A New Method on Response Speed of Uni-traveling-carrier Double
Heterojunction Phototransistor: Bilateral Incidence from the Base
Region
Liang Chen
1, a
1
School of Physics and Electronic Engineeing ,Taishan University, Taian, 271000 China
Keywords: Uni-traveling-carrier, high-responsivity, high-speed.
Abstract: In this paper, a new method to improve the response speed of an SiGe-based uni-traveling-carrier double
heterojunction phototransistor (UTC-DHPT) are illustrated. The detailed analysis show that bilateral
incidence from the base region has better performances than one incidence from the base region.
1 INTRODUCTION
The heterojunction phototransistor (HPT) can be
used in the front end of the optical receiver for opto-
electronic integrated circuits (OEICs). Now, most
photode-tectors (PDs) are based on III-V materials
due to the weak lightabsorption of Si. However, the
III-V-based PDs (Y. L. Liu et al, 2015; G. zang, et al,
2014; T. Ishibashi, et al, 1997) are hard to integrate on
Si and increase the cost of the hybrid circuits. In
order to overcome the drawback of the weak
photoabsorption process in Si material and the
problems in system integration of III-V-based PDs,
the Si–SiGe HPT with 850-nm absorption has been
demonstrated (W. J. Huo, et al, 2014; Z. Y. Jiang, et al,
2015). With the rapid development of modern
optoelectronic technology, photodetectors are
required to have high responsivity and speed as a
key component in optoelectronic systems. HPT
dectertor has become a research focus in the
photoelectric field in recent years. In 1997, Ishibashi
proposed a uni-traveling-carrier photodiode (UTC-
PD) detector in Japan to increase its responsivity and
speed. Recent Papers reported show that application
of uni-traveling-carrier into HPT detector will also
improve the HPT performance. (J. L. Polleux, et al,
2004) In this paper, the optical responsivity and high
frequency characteristics of uni-traveling-carrier
double heterojunction phototransistor (UTC-DHPT)
through bilateral incidence from the base region are
illustrated in detail and compared with traditional
UTC-DHPT through one incident from the base
region. The UTC-DHPT through bilateral incidence
from the base region obtained higher saturation
current, higher responsivity and higher response
speed.
2 DEVICE CHARACTERISTICS
AND DISCUSSION
The two-dimensional structure of SiGe UTC-DHPT
are shown in Fig. 1.
Figure 1. Two-dimensional device structure of UTC-
DHPT.
Chen, L.
A New Method on Response Speed of Uni-traveling-carrier Double Heterojunction Phototransistor: Bilateral Incidence from the Base Region.
DOI: 10.5220/0008868604130415
In Proceedings of 5th International Conference on Vehicle, Mechanical and Electrical Engineering (ICVMEE 2019), pages 413-415
ISBN: 978-989-758-412-1
Copyright
c
2020 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
413
(a) Bilateral incidence
(b) One incident
Figure 2. Two-dimensional device structure of UTC-
DHPT based on ATLAS.
Fig 2 shows the the incident way of the optical
beam, bilateral incidence area has the same as one
incident. The optical beam of 1.55μm across the
optical window is injected into the exposed base
with the collector biased at Vce = 2 V. The collect
current(IC) of bilateral incidence is higher than one
incident when light power increasing from 0.1 mW
to 0.25 mW as show in Fig 3 and Fig 4. Thus,
bilateral incidence obtained higher maximum
responsivity as light power increasing from 0.1 mW
to 0.25 mW.
0.00 0.05 0.10 0.15 0.20 0.25 0.30 0.35 0.40
0
1
2
3
4
collect currentI(mA)
Light power(mW)
bilateral incidence
one incident
Figure 3. collector current of the bilateral incidence and
one incident as a function of with incident light power.
0.05 0.10 0.15 0.20 0.25 0.30 0.35 0.40
0
1
2
3
4
5
6
7
8
9
10
11
12
optical responsivity(A/W)
Light power (mW)
bilateral incidence
one incident
Figure 4. The optical responsivity of the bilateral
incidence and one incident as a function of light power.
ICVMEE 2019 - 5th International Conference on Vehicle, Mechanical and Electrical Engineering
414
0.0 0.5 1.0 1.5 2.0
0.00E+000
5.00E+009
1.00E+010
1.50E+010
2.00E+010
2.50E+010
f
T
(Hz)
Collector Current (mA)
bilateral incidence
one incident
Figure 5. Dependences of 𝑓𝑇 on 𝐼𝐶 of bilateral incidence
and one incident.
The 𝑓𝑇−𝐼c curves of the bilateral incidence and
one incident were extracted with V ce = 2𝑉, as the
Fig.5 shows. The maximum 𝑓𝑇 of bilateral
incidence reaches 2.5*1010Hz as collector current of
1mA, and the maximum 𝑓𝑇 of one incident is
1.1*1010Hz as collector current of 1.1mA. It is
apparent that 𝑓𝑇 of bilateral incidence is higher than
one incident.
3 CONCLUSIONS
In this paper, the saturation current, optical
responsivity and high frequency characteristics of
the UTC-DHPT with bilateral incidence from the
base region have been studied in detail. The results
show that UTC-DHPT with bilateral incidence from
the base region has a higher saturation current and
maximum optical response than one incident. The
collect current(IC) and maximum responsivity of
bilateral incidence is higher than one incident when
light power increasing from 0.1 mW to 0.25 mW.
Meantime, 𝑓𝑇 of bilateral incidence is higher than
one incident.
ACKNOWLEDGMENTS
This research was supported in part by the National
Nature Science Foundation of China (61604106) and
Shandong Provincial Natural Science Foundation
(ZR2014FL025).
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A New Method on Response Speed of Uni-traveling-carrier Double Heterojunction Phototransistor: Bilateral Incidence from the Base
Region
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