Patent Application
20120029729
The present invention relates to remote activation devices for vehicles, and more particularly, to remote activation devices for hybrid vehicles.
A remote starter is typically used so that an operator can start a vehicle by a transmitter, such as a key fob, without actually being inside the vehicle. For a typical remote starter, an operator can simply push a button on the transmitter to start the vehicle.
Current remote starters for vehicles are configured to remotely start an internal combustion engine.
A remote control system for a hybrid vehicle includes an input device for selection of one or more features of the hybrid vehicle. The one or more features include control of an electric motor within the vehicle. The system also includes a remote device. The system also includes a configurable remote control module for control of the one or more features based on the selection. The remote control module promotes control of the one or more features in response to a signal from the remote device.
In other features, the remote device includes a selection area for actuating a remote start of the electric motor. The one or more features include climate control features. The one or more features include air conditioning control, window control and seat control. The one or more features include controlling a vehicle battery condition. The one or more features include at least one of opening and closing windows based on a preselected temperature. The one or more features include at least one of activating the control of heating and cooling functions for vehicle seats based on a preselected temperature.
In other features, the system includes a feature selection module that selects a plurality of features based on the one or more features that were selected using the input device. The system also includes a feature activation module that activates control of the plurality of features. The system also includes an engine control module that promotes control of the electric motor. The input device is positioned at a dashboard of the vehicle.
In other features, the one or more features include promoting control of an internal combustion engine. The remote control module promotes control of an internal combustion engine. The system also includes promoting control of A/C, seats, mirrors, audio presets, battery condition, electric motor condition engine/transmission condition, and combinations thereof. The remote control module activates the control of the one or more features including actuating a stop or a start condition of the feature.
Further areas of applicability of the present invention will become apparent from the detailed description provided hereinafter. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.
The present invention will become more fully understood from the detailed description and the accompanying drawings, wherein:
As used herein, the term module refers to components, devices and systems that are electric and/or mechanical that provides signals, instructions, and/or activates other vehicle components and systems. Modules can include all those functions listed above. Further, a module may be an Application Specific Integrated Circuit (ASIC), an electronic circuit, a processor (shared, dedicated, or group) and memory that execute one or more software or firmware programs, a combinational logic circuit, and/or other suitable components that provide the described functionality.
The present disclosure is directed to embodiments of a configurable remote control system for a hybrid vehicle. The remote control system includes a remote device, such as a key fob, that sends a remote signal to a configurable remote control module of a hybrid vehicle. The remote control module is configured based on user inputs to activate various vehicle functions in response to signals from the remote device. The remote control system may include memory to store selections that are specific to different users. Examples of vehicle functions include but are not limited to starting an electric motor, an internal combustion engine, activating air conditioning (AC), activating heated or cooled seats, adjusting seat position, turning on a radio, pre-conditioning a battery, pre-conditioning a transmission for optimal driving performance, and activating various other vehicle functions for occupant comfort or enhanced drivability.
Referring now to
The configurable remote control module 12 is configurable based on user inputs to an input device 18. A vehicle operator selects using input device 18 one or more selection options to configure the configurable remote control module 12. In one embodiment, the input device 18 is positioned at a dashboard (not shown) of the vehicle. In one embodiment, the input device 18 includes touch-screen menu options, a plurality of buttons, and/or other selection devices. In an exemplary embodiment, selection options include internal combustion engine, electric motor, air conditioning, window control, and seat control. In alternative embodiments, various other vehicle systems and devices may also be selected via the input device 18.
The configurable remote control module 12 sends signals to various vehicle control modules 20 based on the user input and signals from the remote device 16. In one embodiment, the remote device 16 includes various selection areas (e.g., buttons 24) that indicate different functions, for example, remote start, vehicle locks, trunk operation, seat position, windows, a security feature such as a panic alarm, etc. Various other functions may also be represented by the areas. In one embodiment, the start button is depressed to send a signal to the receiver 14 to initiate a remote start of the vehicle engine or electric motor.
Referring now to
Examples of vehicle subsystems include control modules and control devices, such as an ignition control module 30 that controls a vehicle ignition 32, a HVAC control module 34 that controls HVAC system 36, and an engine control module 38 that controls an internal combustion engine 40. In an exemplary embodiment, the configurable remote control module 12 also can activate the engine control module 38 to send a signal to a hybrid control module 49 to control an electric motor 42. Other control modules that can be activated by the configurable remote control module 12 include a window control module 44 that controls windows 46 on the vehicle, a seat control module 48 that controls heating, cooling and positioning of seats, a battery control module (not shown), a transmission control module (not shown), etc.
Further, the input device 18 may be used to select various features that configure the configurable remote control module 12 to send signals to the remote device 16. For example, the configurable remote control module 12 can be configured to send information (e.g., during a test operation initiated by the remote device 16) to the remote device 16 that indicates conditions of vehicle components/subsystems. Examples of the information that indicates conditions of vehicle subsystems can include cabin temperature, seat temperature, engine on/off modes, battery conditions (state of charge (SOC), temperature, etc.), an overall drivability indication based on transmission temperature, engine temperature, SOC, battery temperature, etc., battery charge status, and vehicle warnings or notifications, such as plug-in status of the vehicle, etc.
In one embodiment, the configurable remote control module 12 instructs the engine control module 38 to activate the internal combustion engine 40 and/or the electric motor 42 via the hybrid control module 49. A vehicle operator may choose to select activation of only the electric motor 42 via the input device 18 and not the internal combustion engine 40. The vehicle operator may also choose to select activation of only the internal combustion engine 40 via the input device 18 and not the electric motor 42. The vehicle operator may also select various other functions, such as heated and/or cooled seats 50, seat position, automatic opening windows 46, radio presets, and automatic A/C temperature control via the HVAC system 36. Selecting the functions may include starting, stopping, adjusting and/or modifying the selected functions corresponding to vehicle components and vehicle systems.
In an exemplary embodiment, the HVAC control module 34, the seat control module 48 and/or the window control module 44 receive signals from a temperature sensor 52, and the window control module 44 also receives signals from a rain sensor 54. In the embodiment, the window control module 44 does not open the windows 46 even when the window function is selected via the input device 18 if the rain sensor 54 indicates that it is raining.
Further, the HVAC control module 34 and the seat control module 48 may activate heating or cooling functions based on signals from the temperature sensor 52. For example, if the temperature sensor 52 indicates that the temperature inside the vehicle is above a preselected threshold, the HVAC system 36 may be controlled to cool the vehicle, and the seats 50 may also be cooled. Further, if the temperature sensor 52 indicates that the vehicle temperature is below a preselected threshold, the HVAC system 36 may be controlled to heat the vehicle; and the seats 50 may also be heated. The preselected thresholds may be set via HVAC controls within the vehicle. For example, air conditioning controls of the HVAC system 36 may be set to a desired temperature by a vehicle operator.
Referring now to
The feature selection module 72 selects the features after receiving signals from the activation module 70 indicating that preselected features are to be controlled, such as activated, deactivated or otherwise modified. The preselected features are to be controlled when a signal from the remote device 16 is received by the receiver 14. The feature activation module 74 sends signals to various vehicle control modules to activate the features that were selected by the feature selection module 72. The various control modules then control respective components or devices of the vehicle.
Referring now to
In block 104, signals from the input device 18 are received in the vehicle selection module 72 in order to configure the configurable remote control module 12. In block 106, a vehicle operator selects remote start on the remote device 16. In block 110, the particular type of engine activation that was configured via the input device 18 is selected. For example, the vehicle operator may have only selected activation of the electric motor 42, and therefore only the electric motor 42 will activate. Alternatively, the vehicle operator may have only selected activation of the internal combustion engine 40, and therefore only the internal combustion engine 40 will activate.
In block 112, various other vehicle components/systems are controlled based on the configuration that was selected via the input device 18. For example, activating air conditioning (AC), activating heated or cooled seats, adjusting seat position, turning on a radio, pre-conditioning a battery, pre-conditioning a transmission for optimal driving performance, and activating various other vehicle functions for occupant comfort or enhanced drivability may be selected as various configuration options.
The description of the invention is merely exemplary in nature and, thus, variations that do not depart from the gist of the invention are intended to be within the scope of the invention. Such variations are not to be regarded as a departure from the spirit and scope of the invention.
