Method and apparatus for a vehicle control unit (VCU), using current and historical instantaneous power usage data, to determine optimum power settings for a hybrid electric drive system
First Claim
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1. A Vehicle Control Unit (VCU) apparatus comprising:
- a. elements of a Hybrid Electric Drive Powered Vehicle comprising a hydrocarbon fuel powered engine, an electric battery system, a generator motor and one or more drive motors;
b. one or more central processing units (CPU) and memory devices within the VCU for use in collecting and storing records of data comprising date and time data, vehicle start location Global Positioning System (GPS) data, destination location GPS data, present location GPS data, vehicle speed, battery State of Charge (SOC) data, and power used by the elements, these data referred to generally as Route Data;
c. one or more Central Processing Unit (CPU) based processor systems contained within the VCU to monitor and record in memory the Route Data, to calculate expected power needed (Pdo) by the elements for continued operation, to compare this expected power needed (Pdo) by the elements to an optimum engine power control value (Po), to select power settings for control of the elements and to provide the selected power settings to the elements for a next driving interval; and
d. the VCU controlling the power used by each of the elements to minimize an amount of hydrocarbon fuel used while the vehicle is being driven, while also maintaining a battery state of charge and providing vehicle drive power to the generator motor and the one or more drive motors as needed.
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Abstract
A Vehicle Control Unit (VCU) apparatus and method for controlling the elements of a Hybrid Electric Drive Powered Vehicle are disclosed, wherein the VCU uses Current and Historical Route Data to determine Instantaneous Power required by each of the elements, and wherein the VCU controls the Instantaneous Power used by each of the elements to minimize an amount of hydrocarbon fuel used while the vehicle is being driven, while also maintaining an acceptable battery state of charge and providing vehicle drive power as needed.
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Citations
12 Claims
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1. A Vehicle Control Unit (VCU) apparatus comprising:
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a. elements of a Hybrid Electric Drive Powered Vehicle comprising a hydrocarbon fuel powered engine, an electric battery system, a generator motor and one or more drive motors; b. one or more central processing units (CPU) and memory devices within the VCU for use in collecting and storing records of data comprising date and time data, vehicle start location Global Positioning System (GPS) data, destination location GPS data, present location GPS data, vehicle speed, battery State of Charge (SOC) data, and power used by the elements, these data referred to generally as Route Data; c. one or more Central Processing Unit (CPU) based processor systems contained within the VCU to monitor and record in memory the Route Data, to calculate expected power needed (Pdo) by the elements for continued operation, to compare this expected power needed (Pdo) by the elements to an optimum engine power control value (Po), to select power settings for control of the elements and to provide the selected power settings to the elements for a next driving interval; and d. the VCU controlling the power used by each of the elements to minimize an amount of hydrocarbon fuel used while the vehicle is being driven, while also maintaining a battery state of charge and providing vehicle drive power to the generator motor and the one or more drive motors as needed. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A computer controlled method for controlling elements of a Hybrid Electric Drive Powered Vehicle (the vehicle), wherein the elements comprise a hydrocarbon fuel powered engine, an electric battery system, a two electric motor tandem configuration for use as both generator and drive power motors, the method comprising the steps of:
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a. providing a Vehicle Control Unit (VCU) having a central processing unit (CPU), a memory, and electronic couplings to a remote server system, to a Global Positioning System (GPS) and to the elements of the Hybrid Electric Drive Powered Vehicle; b. recording a first set of Route Data into a Current Route Data Record in the VCU memory, the first set of Route Data comprising a start location obtained from the GPS, a destination location entered by a driver of the vehicle, the Vehicle type and current date and time; c. searching historical Route Data records in the VCU memory for historical records which match the start location, destination location and vehicle type from the Current Route Data Record and transferring matching historical Route Data Records, if any, to a first temporary local storage in the VCU; d. averaging power values and speed values for fields in the matching historical Route Data Records held in the first temporary storage, and recording these average power and speed values in respective fields in an Operational Current Route Data Record; e. searching historical Route Data records in the remote server for historical records which match the start location, destination location and vehicle type from the Current Route Data Record and transferring any matching historical Route Data Records in the server to a Composite server Route Data Record; f. comparing vehicle speed values from the Composite server Route Data Record to the corresponding speed values in the Current Operational Route Data Record at each GPS position along the Route traveled; and g. inserting power values and speed values from fields in the composite server Route Data Record into the respective Current Operational Route Data Record fields in each GPS location where the Composite server Route Data Record is newer in time than the Current Operational Route Data Record and where the speed value in the Composite server Route Data Record field deviates by greater than Route Deviation (Rd) percent from the corresponding speed value in the Current Operational Route Data Record for that GPS location. - View Dependent Claims (9, 10, 11, 12)
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Specification