141 |
The method of manufacturing a semiconductor gas rate sensor |
JP1292494 |
1994-02-04 |
JP3247533B2 |
2002-01-15 |
斉昭 栗山; 敦 稲葉; 信宏 笛木 |
|
142 |
Active magnetic fluid velocity sensor |
JP50440698 |
1997-07-02 |
JP2000514185A |
2000-10-24 |
ダレン・アール・ラフリン |
(57)【要約】 導電性液体保証質量を包含する環状検出流路(11、12)を有する磁気流体センサー。 環状流路(14)に半径方向の流れが導入され、この装置の回転に対応してコリオリの力が発生する結果、流体の円周方向の速度が生じる。 電磁巻き線は環状流路に対して垂直方向の交番電磁場を形成させる。 第一及び第二電極(17、18)は環状流路の中央部と環状流路の円周部との間に誘導される時間により変化する電位を検出する。 時間により変化する電位は、時間により変化する電場の強さ、及び、上記保証質量に対する流路の回転速度に比例する。 上記2つの電極に接続された変圧器(23)は、保証質量に対する流路の回転速度を表すシグナルを増幅させる。 |
143 |
Deciding method for retreat of vehicle and control apparatus for vehicle |
JP33789798 |
1998-11-27 |
JP2000162230A |
2000-06-16 |
SUGITANI NOBUYOSHI; KAWAGUCHI YUTAKA |
PROBLEM TO BE SOLVED: To obtain a deciding method, in which the retreat running operation of a vehicle is surely decided by a method, wherein transverse acceleration and yaw rate which act on the vehicle are detected, and the retreat running operation of the vehicle is decided on the basis of their respective directions.
SOLUTION: A yaw rate sensor 2 and a transverse accelerometer 3 are mounted on a vehicle 1. When the vehicle 1 is advanced in a state that a steering wheel 4 is steered to the right direction from the central position of a steering angle, a transverse acceleration in the direction of an arrow (a) is detected by the transverse accelerometer 3, and the yaw rate in the direction of an arrow (b) is detected by the yaw rate sensor 2. When the vehicle 1 is retreated in a state in which the steering wheel 4 is kept as is, a transverse acceleration in the direction of the arrow (a) is detected, and a yaw rate in the direction of an arrow (d) is detected. When the steering wheel 4 is set in the left direction, a transverse acceleration and a yaw rate in opposite directions are detected. On a map, if a '+' sign is put in the direction of the arrow (a) for the transverse acceleration, a '-' sign is put in the opposite direction, a '+' sign is put in the direction of the arrow (b) for the yaw rate, and a '-'sign is put in the direction of the arrow (d), then the advance and the retreat of the vehicle can be decided surely, on the basis of the relationship between the signs for yaw rate and those for the acceleration from the map.
COPYRIGHT: (C)2000,JPO |
144 |
Surface jet of the angular velocity sensor |
JP52938996 |
1996-02-26 |
JPH11503228A |
1999-03-23 |
イー. サウンダーズ,スチーブン |
(57)【要約】 運動における角速度を検出する装置が開示される。 本体(10)は、隆起部(20)を有する面(12)を形成しており、また隆起部(20)の近くで面(12)を通過するオリフィス(14)を形成されており、このオリフィスを通してジェット流が初期軸線(16)に沿って方向決めされる。 隆起部(20)はコアンダ効果によってジェット流を面(12)に沿う流路(24)に向ける。 第一気流センサー(26)流が本体(10)の面(12)に沿うジェット流の流路(24)の近くで本体(10)に固定される。 第一気流センサー(26)はその近くのジェット流の第一部分の気流を表す第一表示を発生する。 第二気流センサー(30)流が本体(10)の面(12)に沿うジェット流の流路(24)の近くで本体(10)に固定される。 第二気流センサー(30)はその近くのジェット流の第二部分の気流を表す第二表示を発生する。 本体(10)の運動における角速度は第一表示および第二表示に基づいて検出される。 |
145 |
The method of changing the curvature of the anodic bonded 2-dimensional composite of glass and metal or semiconductor material |
JP51288196 |
1995-09-27 |
JPH10507415A |
1998-07-21 |
エンゲルケ,ハインリッヒ; ハルツ,ミカエル |
(57)【要約】 ガラスと、金属あるいは半導体材料との陽極ボンディングされた2次元合成物の湾曲を制御する方法が説明され、それは、ボンディング後、250℃からTg−10Kの間の温度で200時間までの間合成物を加熱することを含んでいる。 この加熱の結果、ガラス体の緻密化の制御が行えるので、上記合成物の湾曲が達成される。 それによって、ボンディングの間に起こった歪みを逆にすることができる。 |
146 |
Gas angular velocity detector |
JP16576289 |
1989-06-28 |
JP2721840B2 |
1998-03-04 |
TAKAHASHI TSUNEO; IKEGAMI MASAYUKI; NISHIO TOMOYUKI; GUNJI TAKAHIRO |
|
147 |
Gas rate sensor |
JP1354694 |
1994-02-07 |
JPH07218528A |
1995-08-18 |
SHINOZUKA NORIYUKI; HOSOI TAKASHI; YAMAKAWA HIROSHI |
PURPOSE: To provide a gas rate sensor of high sensitivity which is not sensitive for the acceleration in compliance with the inclination in the roll direction nor the acceleration in the yaw (horizontal) direction but is sensitive solely for the angular velocity.
CONSTITUTION: A gas rate sensor includes a sensing means 7, which senses change in the resistance value associated with heat radiation of a pair of heat- emissive thermal sensitive resistance sensors resulting from the deflection of a gas flow and senses an angular velocity signal ωo complying with the angular velocity in the yaw direction, and a pump control means 8 which adjusts the pump voltage Vp of a piezo pump 5 so that heat radiations of the two resistance sensors become equal in sensing the acceleration and an acceleration signal Go given by the sensing means 7 nullifies through a deflection of the gas flow generated by setting the gas flow to a certain level.
COPYRIGHT: (C)1995,JPO |
148 |
JPH06503172A - |
JP50154492 |
1991-11-22 |
JPH06503172A |
1994-04-07 |
|
|
149 |
JPH0478948B2 - |
JP13601687 |
1987-05-29 |
JPH0478948B2 |
1992-12-14 |
TAKAHASHI FUMITAKA; OKAZAKI KUNIO; SHIRAISHI MASARU; TAKAHASHI MASAYUKI |
|
150 |
Angular velocity detector |
JP5755390 |
1990-03-08 |
JPH03257373A |
1991-11-15 |
IKEGAMI MASAYUKI; TAKAHASHI FUMITAKA; IIBOSHI AKIRA; NISHIO TOMOYUKI; TOMIYAMA SHINICHI; TSUCHIDA HIROTATSU; TSUCHIYA RYOICHI |
PURPOSE: To detect an angular velocity with high precision by making offset correction of an angular velocity detection signal be conducted by reading out an offset value in accordance with the internal temperature of a table for which the offset value is set beforehand in accordance with the temperature.
CONSTITUTION: The main body of a detector is put in a thermostat 24 and heated forcedly by heater wires 25 wound round helically on a casing 8 and a support tube 23 respectively. While the internal temperature of the main body of the detector is detected by a temperature sensor 26, a heating control is executed by the heater wires 25 so that the detected temperature be always a temperature set beforehand. Every time when a moving body stops in the state wherein the inside of the main body of the detector is kept at the set temperature, an output of the angular velocity detector 2 at that time is stored as an offset value with a nonvolatile memory 5 updated, and according to the offset value stored in this memory, offset correction of an angular velocity detection signal at the time of movement of the moving body is executed.
COPYRIGHT: (C)1991,JPO&Japio |
151 |
Gasureetosensa |
JP87884 |
1984-01-09 |
JPH0246905B2 |
1990-10-17 |
KATSUNO YASUATSU |
|
152 |
Gasureetosensa |
JP9862181 |
1981-06-25 |
JPH0230472B2 |
1990-07-06 |
OKADA YASUSHI; TAKAHASHI FUMITAKA; TAGAMI KATSUTOSHI |
|
153 |
JPH0157304B2 - |
JP5047981 |
1981-04-03 |
JPH0157304B2 |
1989-12-05 |
RICHAADO II SUWAATSU |
|
154 |
JPH0157303B2 - |
JP5047881 |
1981-04-03 |
JPH0157303B2 |
1989-12-05 |
II MAASUTON MOFUATSUTO |
|
155 |
JPH0155420B2 - |
JP9862081 |
1981-06-25 |
JPH0155420B2 |
1989-11-24 |
OKADA YASUSHI; TAKAHASHI FUMITAKA; TAGAMI KATSUTOSHI |
|
156 |
JPS6322547B2 - |
JP13224081 |
1981-08-24 |
JPS6322547B2 |
1988-05-12 |
TAKAHASHI FUMITAKA; TAGAMI KATSUTOSHI; OKADA YASUSHI; OBARA HIFUMI |
|
157 |
Rotary motion sensor |
JP9931886 |
1986-04-28 |
JPS6296863A |
1987-05-06 |
DEIBITSUDO JIYOZEFU MAKUDONARU; POORU EDOWAADO JIYOOJI KOUPU |
|
158 |
Angular velocity detector |
JP9655585 |
1985-05-07 |
JPS61180147A |
1986-08-12 |
II MAASUTON MOFUATSUTO; RICHIYAADO II SUWAATSU |
|
159 |
Gas rate gyroscope |
JP24269283 |
1983-12-22 |
JPS60133369A |
1985-07-16 |
HIRUMA YOSHIMASA; ITABASHI SATORU |
PURPOSE:To elevate the reliability while simplifying the construction of a gas rate gyroscope by having a working gas ionized and flying with an electric field to generate a gas flow in a purely electric manner. CONSTITUTION:An a gas is fed from an inflow port 12 into a closed container 2 of a gas rate gyroscope body 1 causing it to exhaust until the average free travel of ion becomes larger than the distance between an ion acceleration electrode 7 and a collector electrode 10 therein 2, the gas is ionized by discharge, accelerated with the electrode 7 to be focused like a beam with a convergence electrode 8 and released to a detection area 3. Then, the gas flies to the collector electrode 10 to reach a detection electrode 11 eccentrically from the center line according to an angular velocity applied on the free axis vertical to the center axis of the container 2 and a gyroscope output proportional to the eccentricity thereof is detected. With such an arrangement of generating the gas flow in a purely electric manner, mechanically mobile parts are eliminated thereby simplifying the construction of the gas rate gyroscope while elevating the reliability. |
160 |
Temperature controlling apparatus of gas rate sensor |
JP14876183 |
1983-08-16 |
JPS6040961A |
1985-03-04 |
KATSUNO YASUATSU |
PURPOSE:To improve and stabilize angular velocity detecting accuracy of a gas rate sensor, by setting a gas pump generating a gas flow in a closely tight casing and 2 temperature sensitive elements in the gas flow. CONSTITUTION:An electrostrictive vibrating pump 3 is installed in a hermetrically sealed casing 1 by a pump holder 2 and further, holder 5 and nozzle 4 are incorporated by a hollow circular cylinder 13. Electrodes 6a, 6b, 6c, 6d and temperature sensitive elements 7a, 7b are held by the holder 5 and the nozzle 4 is supported to face them. In this case, a constant current independent on the ambient temperature is applied to the two elements 7a, 7b, and a temperature control is conducted with reference to the both-end voltage values of the temperature sensitive elements. Thus, the angular velocity inspection accuracy of the gas rate sensor is improved and stabilized. |