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Kohro TAKAHASHI Sakae NAKAJIMA Satoshi TAKEUCHI
A light emitting diode (LED) array unit for use as a light source in isolated power transmission and a display panel was fabricated using LED chips mounted on a silicon microreflector. The reflector was formed on a (100) silicon wafer by anisotropic chemical etching. An isolated power supply consisting of an infrared LED array unit and single silicon crystal solar cells had a maximum transmission efficiency of 2.3%. The silicon microreflector absorbs the heat generated by the LED chips and improves their light directive characteristics. A small, high-resolution, full color LED display panel can also be constructed using LED array units fabricated on silicon microreflectors. The LEDs in a unit are arrayed with a matrix structure and the electric contacts between the LED chips, the reflector and the upper cover glass are formed using conducting silver resin.
Kohro TAKAHASHI Satoshi TAKEUCHI Norihito OHSAWA
An electrocardiogram (ECG) data compression algorithm using a polygonal approximation and the template beat variation method (TBV) has been evaluated by reconstruction error and automatic interpretation. The algorithm combining SAPA3 with TBV (SAPA3/TBV) has superior compression performance in PRD and compression ratio. The reconstruction errors, defined as the difference of the amplitude and the time duration between the original ECG and the reconstructed one, are large at waves with small amplitude and/or gradual slopes such as the P wave. Tracing rebuilt from the compressed ECG has been analysed using the automatic interpretative program, and the diagnostic answers with the realated measurements have been compared with the results obtained on the original ECG. The data compression algorithms (SAPA3 and SAPA3/TBV) have been tested on 100 cases in the data base produced by CSE. The reconstruction errors are related to the diagnostic errors. The TBV method suppresses these errors and more than 90% of diagnostic agreements at the error limit of 15µV can be obtained.
Kohro TAKAHASHI Satoshi TAKEUCHI
A high-gain, low-noise amplifier for microelectrode probe, which integrated multimicroelectrode array for extracellular recording of neural activities and solid state circuits for the amplification of induced signals from the electrodes onto one substrate, was fabricated. In the amplifier, low-noise MOSFETs are used in the first stage, an interstage high-pass filter is incorporated to avoid saturation of the amplifier due to the polarization voltage of the electrode. In the second stage, an operational amplifier incorporating Bi-MOSFETs for the realization of high input impedance and large gain-bandwidth product is used. The gain of the fabricated amplifier is 56 dB for the frequency range between 2 Hz to 10 kHz, the noise voltage is 20µVpp; these satisfied design specifications.