Abstract: An internal combustion engine 1 at a standstill of a vehicle after cold starting can switch its combustion mode to a homogenous combustion mode or a stratified combustion mode. An operation range of the stratified combustion at the standstill of the vehicle after cold starting is expanded relative to an operation range of the homogenous combustion at the standstill of the vehicle after cold starting as an inclination of the vehicle decreases. With this technique, the operation range of the stratified combustion can be expanded while assuring an intake air negative pressure required for achieving the brake performance, so that HC reduction at the standstill of the vehicle after cold starting is obtained.

Abstract: An internal combustion engine 1 at a standstill of a vehicle after cold starting can switch its combustion mode to a homogenous combustion mode or a stratified combustion mode. An operation range of the stratified combustion at the standstill of the vehicle after cold starting is expanded relative to an operation range of the homogenous combustion at the standstill of the vehicle after cold starting as an inclination of the vehicle decreases. With this technique, the operation range of the stratified combustion can be expanded while assuring an intake air negative pressure required for achieving the brake performance, so that HC reduction at the standstill of the vehicle after cold starting is obtained.

Abstract: The object of the present invention is to provide an information color system in which a plurality of the computer systems can share color information therebetween and a picture having the nearly same color as color of a predetermined object or an original picture can be displayed and outputted and a printing method used in the information color system. The information color system using a color model M which code based on the RGB spectral wavelength of the light received by the eye is applied to each color comprises a reference printed matter 1 which the color model M is printed on a transparent or a white paper, a computer device 2 having a displaying means, and an output means 5, 6 or a communication means and the displaying means is adjusted such that a picture displayed on the displaying means becomes the nearly same coloring as that of the color model M of the reference printed matter 1 in the white surrounding light, and an outputting method, a painting means, and a painted medium are selected.

Abstract: An electromagnetic fuel injector is provided with a first coil having a large rate of change in time of magnetomotive force and a second coil having a smaller rate of change in time of magnetomotive force than the first coil. During a valve opening operation at the time of opening the valve, current is passed through at least the first coil, and then current of a smaller current value than in the opening operation is caused to flow so as to hold the valve open, using the first and second coils.

Abstract: The target peak current value, where a current value is reduced in conformity to a drop in the voltage of a battery 18 is stored in target peak current storage unit 68. ON-signals are sent from current control circuit 56 to power transistor 50 in response to the injection command pulse coming from engine controller 58 so that current is applied to coil 20. Then, the current flowing to coil 20 is detected by the current detecting resistor 52. Comparator 62 compares this detected current and the target peak current value read from the target peak current storage unit 68 conforming to the voltage of battery 18. If agreement is found between these two values, OFF-signals are sent to power transistor 50 from current control circuit 56 in response to the switching command coming from comparator 62. Then, On/Off signals to effect holding of the coil 20 are sent from current control circuit 56 to power transistor 50. The linearity of the injection volume despite changes in battery voltage can be maintained.

Abstract: Using a control coil having a high response characteristic suited to the valve opening and a hold coil suited to a hold to be held a large force by a small large current, during the valve opening time a high voltage is applied to the control coil suited to the valve opening and during a valve opening hold time a low and stabilized voltage is applied to the hold coil suite to the holding, and then a valve body driven. In a fuel injection apparatus, a drive manner during a valve opening time and a hold time is optimized.

Abstract: Using a control coil having a high response characteristic suited to the valve opening and a hold coil suited to a hold to be held a large force by a small large current, during the valve opening time a high voltage is applied to the control coil suited to the valve opening and during a valve opening hold time a low and stabilized voltage is applied to the hold coil suite to the holding, and then a valve body driven. In a fuel injection apparatus, a drive manner during a valve opening time and a hold time is optimized.

Abstract: The object of the present invention is to provide an information color system in which a plurality of the computer systems can share color information therebetween and a picture having the nearly same color as color of a predetermined object or an original picture can be displayed and outputted and a printing method used in the information color system.

Abstract: Using a control coil having a high response characteristic suited to valve opening and a hold coil suited to a hold to valve open during fuel injection using a small current, during the valve opening time, a high voltage is applied to the control coil suited to the valve opening operation and, during the time the valve is to be held open a low and stabilized voltage is applied to the hold coil. In a fuel injection apparatus, drive manner employed during a valve opening time and a valve hold time is optimized.

Abstract: A mechanism is provided for outputting reference signals in synchronism with the firing action of the cylinders of a multi cylinder engine. Correction coefficients are calculated for correcting deviations in the periods between the cylinders from the periods of the reference signals which are obtained during the fuel cut off state. The periods of the reference signals for each cylinder are corrected according to these correction coefficients, and the presence or absence of misfiring for each cylinder is determined from the corrected periods. On the one hand the determination of misfiring is prevented when input of external interference to the engine is present, and on the other hand the learning of the correction coefficients is prevented when instability has occurred in the reference signals during the fuel cut off state.

Abstract: A first passage provided with a first valve for guiding vaporized fuel from a fuel tank into a canister, and a second passage provided with a second valve connecting this canister with an intake pipe downstream or a throttle, are provided. A pressure detecting mechanism is provided between this first valve and second valve, and a third valve is provided for leading fresh air into the canister. When the engine running condition satisfies a predetermined positive pressure test condition, the second and third valves are closed and the first valve is opened. In this state, the presence or absence of a leak is determined from the pressure detected by the pressure detecting mechanism. In other words, it is determined for example that the fuel tank has no leak if the pressure rises above a predetermined value.

Abstract: A catalyst for exhaust gas purification has at least one monolith carrier, at least one first catalyst layer having a three-way catalytic activity, provided on the carrier, and a second catalyst layer having a hydrocarbon purification activity, provided on the first catalyst layer. In a gasoline engine automobile provided with the above catalyst for exhaust gas purification in the exhaust gas system, the hydrocarbons present in the exhaust gas can be converted at a high efficiency by introducing secondary air into the exhaust gas in front of the catalyst to make the exhaust gas lean, at the engine start when a large amount of unburnt hydrocarbons are present in the exhaust gas. Further, the engine warm-up property of the automobile can be improved by the heat generated by the catalytic reaction of the hydrocarbons. The catalyst further exhibits a three-way catalytic activity even during the steady state engine operation after warm-up.

Abstract: A trouble diagnosis device for an exhaust gas recirculation system in an automotive vehicle. The trouble diagnosis device which basically accomplishes a trouble diagnosis in accordance with a pressure difference between an intake pressure during execution of exhaust gas recirculation and an intake pressure during stopping of the exhaust gas recirculation. The trouble diagnosis device is comprised of a throttle valve opening degree sensor to produce an output representative of an opening degree of a throttle valve. The trouble diagnosis device is further comprised of a microcomputer which functions to sample the output of the throttle valve opening degree sensor at predetermined operation cycles of the microcomputer. Then moving averages of the sampled values are given, upon which a fluctuation amount of the moving averages is detected. The trouble diagnosis is stopped in response to the fluctuation amount larger than a predetermined value.

Abstract: A failure checking apparatus for use with an internal combustion engine associated with an evaporated fuel purging unit having a canister adapted to accumulate evaporated fuel from a fuel tank. Communication is provided between the canister and the engine to introduce the evaporated fuel from the canister to the engine. The communication is interrupted to permit the canister to accumulate evaporated fuel from the fuel tank when a parameter related to a rate of evaporated fuel produced in the fuel tank exceeds a predetermined value. The communication is introduced into the canister and resumed to permit evaporated fuel to be introduced from the canister to the engine a predetermined period of time after the communication is interrupted. An air/fuel ratio at which the engine is operating is sensed for detecting a first value representing the air/fuel ratio when the communication is held interrupted and a second value representing the air/fuel ratio after the communication is resumed.

Abstract: A system and a method for detecting an engine revolution speed, identifying engine cylinders, and controlling an engine operation according to the detected engine revolution speed and identified engine cylinders in which a crank angle sensor includes a rotor plate which rotates in synchronization with a rotation of an engine crankshaft, a plurality of first slits whose number corresponds to the number of cylinders and which are mutually arranged at equal intervals along the circumferential direction of the rotor plate, and second slit, both first and second slits being aligned on the same circumferential direction, the sensor outputting a pulse train signal including a first signal corresponding to a first crank angle position before a top dead center in a compression stroke and a second signal corresponding to a second crank angle position after the top dead center in the compression stroke of a first engine cylinder and a microcomputer executes a fuel injection quantity and/or ignition timing control on the

Abstract: The throttle valve position is sensed and the effective cross sectional area of the induction passage determined via table look up. The value thus derived is divided by the engine speed. A basic air induction quantity is then determined via table look up and subsequently modified using a correction coefficient to allow for the effect of engine speed on the amount of air inducted into each cylinder. The effect of injector position (viz., MPI/SPI) is taken into consideration and values suited for both generated in given embodiments. In the event that the maximum induction vacuum is limited by a BCD valve or the like, an embodiment anticipates the change in induction characteristics based on the engine speed.

Abstract: The throttle valve position of an engine is sensed and the effective cross sectional area of the induction passage is determined via table look-up. The table is recorded in terms of three parameters. The value thus derived is divided by the engine speed of alternatively a product of the engine speed and the engine displacement. A basic air induction quantity is then determined via table look-up and is subsequently modified using a correction coefficient to allow for the effect of engine speed on the same. The effect of injector position (viz., multi-point injection/single point injection) and/or the provision of a swirl control valve can be additionally taken into consideration via the use of suitable algorithms or additional two and three parameter system tables. If an idle control by-pass passage is provided, the effect of the opening degree is considered when determining the effective cross-section of the induction passage.