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    • 41. 发明授权
    • Electronic ignition timing control system for internal combustion engines
    • 用于内燃机的电子点火时序控制系统
    • US4162667A
    • 1979-07-31
    • US868314
    • 1978-01-10
    • Hisasi KawaiKazuo Iwase
    • Hisasi KawaiKazuo Iwase
    • F02P5/15F02P5/04
    • F02P5/15Y02T10/46
    • An electronic ignition timing control system for an internal combustion engine which comprises a rotational angle detector for detecting a rotational angle of the engine to produce output pulses, a reference angle detector for detecting a reference rotational angle of the engine to produce a reset pulse, an ignition angle computing circuit for converting by interpolation the advance angles corresponding to principal points of engine parameter address into the retard angles from the reference angle to produce a first output signal indicative of an angle corresponding to the rotational angle of the engine and a second output signal indicative of the delay time corresponding to an angle smaller than the first output signal value, a first comparator to digitally compare the first output value of the ignition angle computing circuit with the number of the output pulses of the rotational angle detector, and a second comparator to convert the second output value of the ignition angle computing circuit into a time period whereby the instant that the conversion is completed is selected as desired ignition timing.
    • 42. 发明授权
    • Intake air amount detecting system
    • 进气量检测系统
    • US4089214A
    • 1978-05-16
    • US809041
    • 1977-06-22
    • Tsuneyuki EgamiHisasi KawaiTokio KohamaHideki Obayashi
    • Tsuneyuki EgamiHisasi KawaiTokio KohamaHideki Obayashi
    • F02D41/34F02D41/18F02D41/24G01F1/68G01F1/684G01F1/698G01M15/00
    • F02D41/24F02D41/187G01F1/68G01F1/684G01F1/6986
    • An intake air amount detecting system includes a branch pipe disposed in the intake manifold of the engine and having two passages each provided therein with a temperature responsive resistor. One of the two passages is provided with an electric heater and a voltage is applied to the electric heater so that the temperature difference in the two passages measured by the two temperature responsive resistors is maintained at a predetermined value irrespective of the amount of air flow through the intake manifold. An A-D converter is further provided and includes a time constant circuit and a capacitor for producing across the capacitor a reference voltage which has a waveform representing a predetermined relationship between the voltage applied to the electric heater and the amount of intake air flow. The voltage actually applied to the heater is compared with the reference voltage at a voltage comparater in the A-D converter and the A-D converter produces a pulse signal having a time width corresponding to a period from the rise of the reference voltage until the reference voltage reaches the actual voltage, and hence corresponding to the amount of intake air flow.
    • 进气量检测系统包括设置在发动机的进气歧管中的分支管,并且具有两个通道,每个通道中设置有温度响应电阻器。 两个通道中的一个设置有电加热器,并且向电加热器施加电压,使得由两个温度响应电阻器测量的两个通道中的温差保持在预定值,而不管空气流通量 进气歧管。 进一步提供A-D转换器,并且包括时间常数电路和用于在电容器两端产生参考电压的电容器,该参考电压具有表示施加到电加热器的电压与进气量之间的预定关系的波形。 将实际施加到加热器的电压与AD转换器中的电压比较器处的参考电压进行比较,并且AD转换器产生具有对应于从参考电压的升高直到参考电压达到的时间段的时间宽度的脉冲信号 实际电压,因此对应于进气流量。
    • 43. 发明授权
    • Intake air amount measuring system for an internal combustion engine
    • 内燃机进气量测量系统
    • US4067233A
    • 1978-01-10
    • US776292
    • 1977-03-10
    • Hideki ObayashiTokio KohamaHisasi KawaiTsuneyuki Egami
    • Hideki ObayashiTokio KohamaHisasi KawaiTsuneyuki Egami
    • F02D41/34F02D41/18F02D41/24G01F1/68G01F1/684G01F1/698G01M15/00
    • F02D41/28F02D41/187G01F1/684G01F1/698
    • A thermally-sensitive resistor is positioned in each of two separate passages provided in the intake pipe of an internal combustion engine, and an electric heater is positioned upstream of one of the thermally-sensitive resistors with respect to the direction of flow of intake air. The thermally-sensitive resistors form, along with two reference resistors, a bridge circuit which converts the difference between the resistances of the thermally-sensitive resistors caused by the electric heater, i.e., the difference between the temperatures in the passages to a voltage difference. A control circuit controls the voltage across the electric heater in such a manner that the said voltage difference is maintained constant and thus the amount by weight of intake air can be directly obtained. The input voltages to the thermally-sensitive resistors are applied in the form of pulses through an oscillator circuit thereby reducing the problem of drift of the bridge circuit.
    • 热敏电阻器位于设置在内燃机的进气管中的两个分离通道的每一个中,并且电加热器相对于进气的流动方向位于热敏电阻器之一的上游。 热敏电阻与两个参考电阻器一起形成桥接电路,其将由电加热器引起的热敏电阻器的电阻之间的差异即通道中的温度之间的差转换成电压差。 控制电路以使得所述电压差保持恒定的方式控制电加热器两端的电压,从而可以直接获得进气量。 通过振荡电路以对脉冲的形式施加对感热电阻的输入电压,从而减小了桥接电路的漂移问题。
    • 44. 发明授权
    • Digital hyperbolic function generator
    • 数字双曲函数发生器
    • US3983369A
    • 1976-09-28
    • US579052
    • 1975-05-20
    • Ritsu KatsuokaHisasi Kawai
    • Ritsu KatsuokaHisasi Kawai
    • G05B19/02G06F7/68G06F17/17G06G7/24G06J1/00G06F15/34
    • G06F7/68G06J1/00
    • A digital hyperbolic function generator comprises a frequency dividing circuit for frequency dividing first clock signals of a fixed frequency to produce second clock signals for each fixed time interval, a setting circuit for changing the setting thereof in correspondence to the number n of said second clock signals, said setting being produced in a binary code, a modulating circuit for frequency modulating said first clock signals with said setting to produce third clock signals the period of which is proportional to ##EQU1## AND A CONVERTER CIRCUIT FOR PRODUCING A VOLTAGE CORRESPONDING TO THE NUMBER OF SAID THIRD CLOCK SIGNALS. The digital hyperbolic function generator thus constructed generates a hyperbolic function of polygonal line approximation the gradient of which changes for each fixed time interval with a high accuracy, and the operation thereof is stabilized against the change in ambient temperature because the circuits are constructed by digital elements.
    • 数字双曲函数发生器包括:分频电路,用于对固定频率的第一时钟信号进行分频,以产生每个固定时间间隔的第二时钟信号;一个设置电路,用于根据所述第二时钟信号的数目n改变其设置 ,所述设置是以二进制码产生的,调制电路用于以所述设置对所述第一时钟信号进行频率调制,以产生其周期与n 1 + n + SIGMA r,r = 1成比例的第三时钟信号和转换器电路 用于产生与确定的第三时钟信号数相关的电压。 如此构造的数字双曲函数发生器产生具有高精度的每个固定时间间隔变化的折线逼近的双曲线函数,并且其操作由于环境温度的变化而被稳定,因为电路由数字元件 。
    • 45. 发明授权
    • Road surface detecting device for vehicle
    • 车辆路面检测装置
    • US4837727A
    • 1989-06-06
    • US835883
    • 1986-03-03
    • Syuzaburou TashiroToshikazu InaHisasi Kawai
    • Syuzaburou TashiroToshikazu InaHisasi Kawai
    • B60G17/019B60T8/172G01B7/28
    • B60T8/172B60G17/019G01B7/28B60G2500/10B60G2600/02B60T2210/14F02D2200/702
    • A road surface detecting device has a rotary sensor for detecting the passage of teeth formed in an outer surface of a circular plate at regular intervals, which is connected to an axle of a vehicle and rotates thereabout, and generates an output signal pulsing every time when said teeth pass the rotary sensor. The output signal is inputted to a microcomputer. The microcomputer calculates period variations of the pulsing output signal and an average value of a predetermined number of the period variations. When the average value is not less than a predetermined value, the road surface is determined as being in a bad condition and when the average value is less than the predetermined value, the road surface is determined as being in a good condition; when the average value is less than the predetermined value and the most recently calculating period variation is not less than a predetermined period variation, the road surface is determined as being a rough area on a good road.
    • 路面检测装置具有旋转传感器,用于检测形成在圆板的外表面中的齿的规则间隔的通道,该齿轮连接到车辆的轴并在其周围旋转,并且每次当产生脉冲时产生输出信号 所述齿通过旋转传感器。 输出信号输入到微型计算机。 微计算机计算脉冲输出信号的周期变化和预定数量的周期变化的平均值。 当平均值不小于预定值时,将路面确定为不良状况,并且当平均值小于预定值时,将路面确定为良好状态; 当平均值小于预定值并且最近的计算周期变化不小于预定周期变化时,路面被确定为在良好道路上的粗糙区域。