Method for remote engine start
First Claim
1. A method of managing operation of a passenger vehicle engine and passenger compartment electrical devices upon engine start-up when the vehicle operator is not ready to drive the vehicle, said method using an in-vehicle electronic control module including a micro-processor and database;
- said vehicle comprising at least one fuel injector for injecting fuel into combustion cylinders of said engine and exhaust gas system comprising an underfloor catalytic converter and an exhaust gas composition sensor;
said passenger compartment electrical load devices comprising, at least some of, a fan for circulation of passenger compartment air, a rear window defogger, a front window defroster, an air conditioner for cooling passenger compartment air, a seat heater, and passenger compartment lights;
said method comprisingmonitoring time, t, from engine start, a providing the engine has been started from a remote signal or the vehicle transmission ha not been engaged;
turning off passenger compartment electrical loads;
continually measuring engine coolant temperature and engine intake air temperature;
estimating the time elapsed, TCL, before aid catalytic converter and exhaust gas sensor are suitably active for closed loop fuel control by said control module;
determining the priorities of operation of the respective said electric load devices; and
turning on said devices sequentially in order of said determined increasing priority after t>
TCL.
13 Assignments
0 Petitions
Accused Products
Abstract
A method for remote start of a vehicle engine is disclosed. Immediately upon engine start the volatility characteristics of the fuel are determined and this information used to adjust the quantity of fuel injected into the cylinders of the engine during open-loop fuel injection control. Passenger compartment electrical loads are turned off until the catalytic exhaust system is heated to permit closed-loop fuel control. Thereafter, pending operator intervention, the fan, A/C, defroster, and the like, are sequentially turned on and operated for a limited time to prepare the passenger compartment for the absent driver. The method results in minimum emissions, and reduces fuel consumption during extended idle operation while maintaining smooth engine start operation.
26 Citations
16 Claims
-
1. A method of managing operation of a passenger vehicle engine and passenger compartment electrical devices upon engine start-up when the vehicle operator is not ready to drive the vehicle, said method using an in-vehicle electronic control module including a micro-processor and database;
- said vehicle comprising at least one fuel injector for injecting fuel into combustion cylinders of said engine and exhaust gas system comprising an underfloor catalytic converter and an exhaust gas composition sensor;
said passenger compartment electrical load devices comprising, at least some of, a fan for circulation of passenger compartment air, a rear window defogger, a front window defroster, an air conditioner for cooling passenger compartment air, a seat heater, and passenger compartment lights;
said method comprisingmonitoring time, t, from engine start, a providing the engine has been started from a remote signal or the vehicle transmission ha not been engaged;
turning off passenger compartment electrical loads;
continually measuring engine coolant temperature and engine intake air temperature;
estimating the time elapsed, TCL, before aid catalytic converter and exhaust gas sensor are suitably active for closed loop fuel control by said control module;
determining the priorities of operation of the respective said electric load devices; and
turning on said devices sequentially in order of said determined increasing priority after t>
TCL. - View Dependent Claims (2, 3, 4, 5, 6)
- said vehicle comprising at least one fuel injector for injecting fuel into combustion cylinders of said engine and exhaust gas system comprising an underfloor catalytic converter and an exhaust gas composition sensor;
-
7. A method of starting a passenger vehicle engine and passenger compartment electrical devices upon operator command when the vehicle operator is not ready to drive the vehicle, said method using an in vehicle electronic control module including a micro-processor and database;
- said vehicle comprising at least one fuel injector for injecting fuel into combustion cylinders of said engine and a exhaust gas system comprising an underfloor catalytic converter and an exhaust gas composition sensor;
said vehicle further comprising means for measuring engine speed;
said passenger compartment electrical load devices comprising, at least some of, a fan for circulation of passenger compartment air, a rear window defogger, a front window defroster, an air conditioner for cooling passenger compartment air, a seat heater, and passenger compartment lights;
said method comprisingstarting said engine using a predetermined first rate of injection of fuel in to said cylinders;
monitoring time, t, from engine start, and providing the engine has been started from a remote signal or the vehicle transmission has not been engaged;
turning off passenger compartment electrical loads;
measuring engine speed immediately following engine start to detect a drop in speed and using the magnitude of said drop in speed to estimate a second rate of fuel injection into said cylinders;
continually measuring engine coolant temperature and engine intake air temperature;
estimating the time elapsed, TCL, before said catalytic converter and exhaust gas sensor are suitably active for closed loop fuel control by said control module;
injecting said second amount of fuel into said cylinders during a period until TCL;
determining the priorities of operation o the respective said electric load devices; and
turning on said devices sequentially in order of said determined increasing priority after t>
TCL. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16)
- said vehicle comprising at least one fuel injector for injecting fuel into combustion cylinders of said engine and a exhaust gas system comprising an underfloor catalytic converter and an exhaust gas composition sensor;
Specification