Commission
E (Electromagnetic Noise and Interference)
Activity
Report (December 2004 to March 2005)
March 11, 2005
1.
Conferences
1.1 Domestic Conferences and Meetings
On December 9 - 10, 2004, and January 20 – 21,
2005, the technical committee meetings on EMC organized by IEICE in cooperation
with URSI-E were held at Nagoya Institute of Technology, and NICT Okinawa,
respectively. The numbers of presented papers were 15 and 30, respectively.
Moreover, at the meeting on December 9, 2004, four invited speakers in EMC area
from
1.2 International Conferences and
Meetings
1. 16th
International Zurich Symposium on Electromagnetic Compatibility has been held in
2. An International Workshop on Seismo Electromagnetics will be
held in The University of Electro-Communications from March 15 to 17, 2005.
Foreign participants are more than 50.
1.3
Future International Conferences and
Meetings
1. The 6th International Symposium on
Electromagnetic Compatibility and Electromagnetic Ecology will be held in
2.
The
2nd International Conference on Electromagnetic Compatibility will be
held in
3.
The 2005 IEEE International
Symposium on Electromagnetic Compatibility will be held in
4.
The 2005 International Symposium
on Microwave, Antenna, propagation and EMC Technologies for Wireless
Communications will be held in
5.
Progress in Electromagnetics Research Symposium (PIERS 2005) will be
held in
6.
EMC Europe Workshop on
Electromagnetic Compatibility of Wireless Systems will be held in
2. Technical
Trends
For EMI antenna calibration, the Antenna
Impedance Method developed by us has been investigated in the frequency range
from 30 MHz up to 10 GHz. It was found that this method could yield the
free-space antenna factor with an uncertainty of about 0.3 dB or
less.
A novel standard loop antenna using a
hybrid junction has been proposed and investigated for EMI antenna calibration
in the frequencies below 30 MHz. This antenna has a great advantage over the
traditional standard loops in the respect that it is used as a receive antenna
as well as a transmit antenna. (Prof. A. Sugiura)
A major source of the
electromagnetic interference in the frequency range below 1000 MHz is
disturbance currents flowing on the cables connected to an electronic
device. Hence, in order to reduce the
currents, ferrite cores
are
usually attached to enring the cables. However, there is no standard method for
measuring the EMI suppression characteristics of the core. Hence, a
measurement method has been studied and proposed for the insertion loss and the
reflection coefficients of a ferrite core. (Prof. A. Sugiura)
Leakage of EM waves from microwave ovens
may cause unwanted interference to wireless LAN systems using the 2.4-GHz band.
To investigate the impact of oven noises on the wireless systems, a useful
numerical model of the oven noise was developed. Performance degradation of
wireless systems (DS-SS WLAN and Bluetooth) cause by the oven noises was
evaluated theoretically and experimentally. The use of adaptive filters was
proposed for reducing the microwave oven interference in DS-SS WLAN systems.
(Prof. A. Sugiura)
Operating frequencies of the clock
signals of personal computers (PCs) currently reach several GHz. Such devices
radiate electromagnetic noise over a wide frequency range, which may cause
interference with wireless systems. Measurements were carried out to investigate
the characteristics of radiated PC noises in WLAN frequency bands (2.4 GHz and
5GHz). It was found that the harmonics of the base clock signal dominate the
radiated noises from PCs, and that the harmonics were frequency modulated due to
the intentional sweep (dithering) of the fundamental clock frequency. The impact
of PC noises on an OFDM-based WLAN system was evaluated with numerical
simulations. (Prof. A. Sugiura)
New design tool for
printed circuit boards
Problems to control irradiative electromagnetic noise from digital
electronic devices have been pursued. A concise equivalent circuit models have
been developed which is useful as a powerful tool in designing printed circuit
boards in terms of turn-around time and scale of computation. Practical speed
was enhanced by 400 times than traditional methods. Accuracy of the models has
been experimentally examined and objects of the models are extended to LSI
levels as well as PCB. Results will help designers of electronic devices who are
always expedited in developing their products.
Simulation of undesired noise form printed circuit board
Undesired electromagnetic radiation from microstrip line on PCB with
attached feed cable is studied by the experiment and FDTD simulation. It was
suggested that the differential mode current should be took into account for the
undesired electromagnetic radiation at higher frequency. (Prof. H.
Inoue)
Transmission characteristics on AC mains
line
High speed power line communication (PLC) system has been developed to use for indoor communication system. The transmission characteristics and the influences to the electromagnetic environment should be studied because PLC system uses the AC mains line system which has not been designed to use for a high speed signal transmission. AC mains line with ground plane was presented by four-port networks to calculate both differential and common mode impedances. The radiated magnetic field was calculated from the common-mode current distribution. The results indicate that the deviation between calculated and measured value was improved to calculate the capacitance between conductors and between conductor and ground by using numerical method. (Prof. N. Kuwabara)
Investigation of disturbance for LF
band
40kHz and 60 kHz are used to transmit the Japan Standard Time signal. The electric field strength of the 60 kHz transmitted signal and the disturbances in frequency range from 40kHz to 60 kHz were investigated. The results indicated that the field strength of the transmitted signal decreases in proportion with the increase of the distance, and there are many disturbance sources in this frequency range. (Prof. N. Kuwabara)
An immunity
testing method for electrostatic discharge (ESD) is being specified in IEC
61000-4-2, in which the contact discharge of an ESD-gun is being normally
specified. Air discharge testing is known to be a severe immunity test compared
to the contact discharge testing, while the discharge current injected is not
well reproduced. Grasping the behavior of the current injected by the air
discharge would be helpful in establishing the worst-case ESD immunity testing.
We thus previously measured the discharge currents for air discharge testing
onto the IEC recommended current transducer with a commercially available
ESD-gun, and showed that there exists a specific relationship of Ip・trx/Vc=constant
(x<1), between the rise time tr and current peak
Ip. The current transducer, however, has frequency
dependent transfer impedance, which should affect the measured current waveform.
In this study, we proposed a method for estimating the discharge current from
simultaneously measured magnetic fields with two magnetic probes. With this
method, we estimated the discharge currents for air discharge testing onto a
ground plane. As a result, we could confirm the existence of the above-mentioned
relationship. (Prof. O. Fujiwara)
The
electromagnetic noise caused by an electrostatic discharge (ESD) is a major
source of malfunction to high-tech equipment. The ESD testing, therefore, is
being specified in the IEC61000-4-2, which prescribes the current waveform from
an ESD gun through a IEC recommended current detector (Pellegrini calibration target) . This IEC current waveform,
however, does not always correspond to the one injected onto an actual device
for ESD testing. In this paper, we simulated a contact discharge to ground
plates using our previously developed FDTD model of an ESD gun. The induced
voltages through a magnetic field probe were simulated when the discharge
current was injected directly to the ground plate in contact with an ESD gun,
whose results were confirmed with respect to the ground plate sizes
experimentally. (Prof. O. Fujiwara)
TDR Analysis of EM
Radiation from a Bend of Micro-Strip Line
Discontinuity
such as a bend in a micro-strip line is known as one of major radiation sources.
The total radiation from the micro-strip line is, however, being generally
investigated because of the difficulties in identifying the radiation from some
specific location. In this paper, paying attention to the feature of TDR
(Time-Domain Reflectometry) measurement, we made an
attempt to extract the radiation only from the bend in a micro-strip line. Such
an approach is useful in understanding its radiation mechanism. As a result, we
found that the larger the bend angle is, the larger the radiation power becomes.
The radiation power achieved 3.5% at maximum when the bending angle was
90o at the frequencies below 1 GHz. We also examined the validity of
the TDR analysis in comparison with network analyzer measurement. We obtained
the radiation power versus frequency from the measured scattering parameters,
which exhibited a fair agreement with the TDR result. (Prof. O.
Fujiwara)