1. An LED light source comprising:
a housing having a base;
a hollow core projecting from said base, said hollow core being arrayed about a longitudinal axis;
a printed circuit board positioned in said base at one end of said hollow core and having a plurality of LEDs operatively fixed thereto about the center thereof;
a light guide formed as a hollow tube having a given wall thickness, said light guide being positioned in said hollow core and having a first end with an input window located close to and formed to bridge said plurality of LEDs and a second end projecting beyond said hollow core;
a heat sink positioned in a heat-transferring relationship with said printed circuit board; and
a first reflector attached to said second end of said light guide.
2. An LED light source comprising:
a housing having a base;
a hollow core projecting from said base, said hollow core being arrayed about a longitudinal axis;
a printed circuit board positioned in said base at one end of said hollow core and having a plurality of LEDs operatively fixed thereto about the center thereof;
a light guide with a body having a given wall thickness positioned in said hollow core and having a first end in operative relationship with said plurality of LEDs and a second end projecting beyond said hollow core;
a heat sink positioned in a heat-transferring relationship with said printed circuit board; and
a first reflector attached to said second end of said light guide, and
wherein said light guide is cup-shaped and said second end has a diameter less than the diameter of said body.
3. The LED light source of claim 2 wherein said first reflector has a central depression that encompasses diameter of said second end.
4. An LED light source comprising:
a housing having a base;
a hollow core projecting from said base, said hollow core being arrayed about a longitudinal axis;
a printed circuit board positioned in said base at one end of said hollow core and having a plurality of LEDs operatively fixed thereto about the center thereof;
a light guide with a body having a given wall thickness positioned in said hollow core and having a first end in operative relationship with said plurality of LEDs and a second end projecting beyond said hollow core;
a heat sink positioned in a heat-transferring relationship with said printed circuit board; and
a first reflector attached to said second end of said light guide, and
wherein said light guide is tubular, and
wherein said first reflector has a projection that fits inside said tubular light guide.
5. The LED light source of claim 1 wherein a second reflector is positioned about said base having its reflective surface facing the reflective surface of said first reflector.
6. The LED light source in claim 1, wherein the first end of the light guide is optically formed to capture the emitted light from the LEDs.
7. The LED light source in claim 1, wherein the second end of the light guide is formed with a recess to couple with the reflector in a compression fit.
8. The LED light source in claim 1, wherein the second end of the light guide is formed with a protrusion to couple with the reflector in a compression fit.
9. The LED light source in claim 1, wherein the LEDs are arrayed in a circle and the first end of the light guide is similarly sized and shaped to span the array of LEDs.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A system for a vehicle comprising:
a slave controller adapted to be disposed in the vehicle and configured to transmit a panel control signal to a motor disposed in the vehicle to move a movable panel of the vehicle along a path between opened and closed positions while the motor receives power from the power source, wherein the motor receives power from the power source upon receiving the panel control signal;
a capacitive sensor adapted to be disposed on the vehicle and configured to detect an object in the path of the panel without monitoring the motor, wherein the sensor is further configured to generate an object signal indicative of an object detected in the path of the panel;
a switch adapted to be disposed on the vehicle and configured to transmit a command signal upon being activated by an operator;
a master controller independent of the slave controller and adapted to be disposed in the vehicle and configured to communicate with the slave controller to command the slave controller to transmit the panel control signal;
wherein the slave controller is further configured to transmit a panel control signal to the motor to move the panel along the path in an opening direction towards the opened position in order to prevent the panel from entrapping an object upon receipt of the object signal;
a wireless radio frequency local area network (LAN) adapted to be disposed in the vehicle and communicate with the master controller, slave controller, the sensor, and the switch to allow information to be shared therebetween and to allow placement of the sensor and the switch anywhere on the vehicle;
wherein the slave controller and the switch are connected to the LAN as respective nodes of the LAN such that the slave controller and the switch are further configured to communicate over the LAN with one another and with any vehicle module connected to the LAN as an additional node of the LAN;
wherein the slave controller is further configured to receive a command signal from the switch over the LAN upon the switch being activated by an operator, wherein the slave controller is further configured to transmit a panel control signal to the motor to move the panel along the path in accordance with the command signal;
wherein the slave controller is further configured to transmit a panel control signal to the motor to move the panel along the path to the closed position upon receiving an express close panel command signal from the switch over the LAN;
wherein the slave controller is further configured to transmit a panel control signal to the motor to move the panel along the path to the opened position upon receiving an express open panel command signal from the switch over the LAN;
wherein the slave controller is further configured to transmit a panel control signal to the motor to move the panel along the path in a closing direction while receiving a manual close panel command signal from the switch over the LAN;
wherein the slave controller is further configured to transmit a panel control signal to the motor to move the panel along the path in an opening direction while receiving a manual open panel command signal from the switch over the LAN.
2. The system of claim 1 wherein:
the controller is further configured to abort an express panel command upon receiving a manual panel command;
the controller is further configured to abort an express panel command for one of the opening and closing directions upon receiving an express panel command for the opposite direction.
3. A system for a vehicle comprising:
a slave controller adapted to be disposed in the vehicle and configured to transmit a panel control signal to a motor disposed in the vehicle to move a movable panel of the vehicle along a path between opened and closed positions while the motor receives power from the power source, wherein the motor receives power from the power source upon receiving the panel control signal;
a capacitive sensor adapted to be disposed on the vehicle and configured to detect an object in the path of the panel without monitoring the motor, wherein the sensor is further configured to generate an object signal indicative of an object detected in the path of the panel;
a switch adapted to be disposed on the vehicle and configured to transmit a command signal upon being activated by an operator;
a master controller independent of the slave controller and adapted to be disposed in the vehicle and configured to communicate with the slave controller to command the slave controller to transmit the panel control signal;
wherein the slave controller is further configured to transmit a panel control signal to the motor to move the panel along the path in an opening direction towards the opened position in order to prevent the panel from entrapping an object upon receipt of the object signal;
a wireless radio frequency local area network (LAN) adapted to be disposed in the vehicle and communicate with the master controller, slave controller, the sensor, and the switch to allow information to be shared therebetween and to allow placement of the sensor and the switch anywhere on the vehicle;
wherein the slave controller and the switch are connected to the LAN as respective nodes of the LAN such that the controller and the switch are further configured to communicate over the LAN with one another and with an interior temperature sensor and an exterior temperature sensor connected to the LAN as additional nodes of the LAN;
wherein the slave controller is further configured to receive a command signal from the switch over the LAN upon the switch being activated by an operator, wherein the controller is further configured to transmit a panel control signal to the motor to move the panel along the path in accordance with the command signal;
wherein the slave controller is further configured to receive an internal temperature signal indicative of the temperature of the vehicle interior from the interior temperature sensor over the LAN and to receive an external temperature signal indicative of the temperature outside of the vehicle from the external temperature sensor over the LAN;
wherein the slave controller is further configured to determine whether vehicle venting is desired based on a comparison of the temperature signals, and is further configured to transmit a panel control signal to the motor to move the panel in the opening direction in order to vent the vehicle if vehicle venting is desired.
4. The system of claim 3 wherein:
the slave controller is further configured to transmit a panel control signal to move the panel in the opening direction in order to vent the vehicle if vehicle venting is desired when the vehicle is in operation.
5. The system of claim 3 wherein the at least one vehicle module further includes a venting component, wherein:
the slave controller is further configured to transmit a vent control signal to the venting component via the LAN in order for the venting component to vent the vehicle if vehicle venting is desired.
6. The system of claim 5 wherein:
the venting component is one of a vehicle sunroof and a vehicle HVAC system.
7. The system of claim 5 wherein:
the slave controller is further configured to transmit a vent control signal to the venting component in order to vent the vehicle when the internal temperature exceeds the external temperature and the vehicle is unoccupied.
8. The system of claim 5 wherein:
the slave controller is further configured to transmit a vent control signal to the venting component in order to vent the vehicle when the internal temperature exceeds the external temperature by a predetermined amount and the vehicle is in operation.
9. A system for a vehicle comprising:
a slave controller adapted to be disposed in the vehicle and configured to transmit a panel control signal to a motor disposed in the vehicle to move a movable panel of the vehicle along a path between opened and closed positions while the motor receives power from the power source, wherein the motor receives power from the power source upon receiving the panel control signal;
a capacitive sensor adapted to be disposed on the vehicle and configured to detect an object in the path of the panel without monitoring the motor, wherein the sensor is further configured to generate an object signal indicative of an object detected in the path of the panel;
a switch adapted to be disposed on the vehicle and configured to transmit a command signal upon being activated by an operator;
a master controller independent of the slave controller and adapted to be disposed in the vehicle and configured to communicate with the slave controller to command the slave controller to transmit the panel control signal;
wherein the slave controller is further configured to transmit a panel control signal to the motor to move the panel along the path in an opening direction towards the opened position in order to prevent the panel from entrapping an object upon receipt of the object signal;
a wireless radio frequency local area network (LAN) adapted to be disposed in the vehicle and communicate with the master controller, slave controller, the sensor, and the switch to allow information to be shared therebetween and to allow placement of the sensor and the switch anywhere on the vehicle;
wherein the slave controller and the switch are connected to the LAN as respective nodes of the LAN such that the controller and the switch are further configured to communicate over the LAN with one another and with any vehicle module connected to the LAN as an additional node of the LAN;
wherein the slave controller is further configured to receive a command signal from the switch over the LAN upon the switch being activated by an operator, wherein the controller is further configured to transmit a panel control signal to the motor to move the panel along the path in accordance with the command signal;
wherein the slave controller is further configured to store the position of the panel along the path prior to the vehicle being turned off, wherein the controller is further configured to transmit a panel control signal to move the panel from the closed position to a stored opened position stored upon receiving a preset panel open command.
10. The system of claim 9 wherein:
the slave controller is further configured to receive the panel open command from a remote keyless entry component.
11. A system for a vehicle comprising:
a slave controller adapted to be disposed in the vehicle and configured to transmit a panel control signal to a motor disposed in the vehicle to move a movable panel of the vehicle along a path between opened and closed positions while the motor receives power from the power source, wherein the motor receives power from the power source upon receiving the panel control signal;
a capacitive sensor adapted to be disposed on the vehicle and configured to detect an object in the path of the panel without monitoring the motor, wherein the sensor is further configured to generate an object signal indicative of an object detected in the path of the panel;
a switch adapted to be disposed on the vehicle and configured to transmit a command signal upon being activated by an operator;
a master controller independent of the slave controller and adapted to be disposed in the vehicle and configured to communicate with the slave controller to command the slave controller to transmit the panel control signal;
wherein the slave controller is further configured to transmit a panel control signal to the motor to move the panel along the path in an opening direction towards the opened position in order to prevent the panel from entrapping an object upon receipt of the object signal;
a wireless radio frequency local area network (LAN) adapted to be disposed in the vehicle and communicate with the master controller, slave controller, the sensor, and the switch to allow information to be shared therebetween and to allow placement of the sensor and the switch anywhere on the vehicle;
wherein the slave controller and the switch are connected to the LAN as respective nodes of the LAN such that the controller and the switch are further configured to communicate over the LAN with one another and with any vehicle module connected to the LAN as an additional node of the LAN;
wherein the slave controller is further configured to receive a command signal from the switch over the LAN upon the switch being activated by an operator, wherein the controller is further configured to transmit a panel control signal to the motor to move the panel along the path in accordance with the command signal;
wherein the slave controller is further configured to transmit a panel control signal to move the panel after the vehicle has been turned off.
12. A system for a vehicle comprising:
a plurality of control systems adapted to be disposed in the vehicle, each of the control systems including a motor adapted to be disposed in the vehicle and operable to receive power from a power source to move a movable panel of the vehicle along a path between opened and closed positions while the motor receives power from the power source;
a master switch console adapted to be disposed in the vehicle and being independent of the control systems and configured to transmit a signal to activate each of the control systems;
a master controller independent of the control systems and the master switch console and adapted to be disposed in the vehicle and configured to transmit a panel control signal to the motor of each of the control systems, wherein the motor receives power from the power source upon receiving the panel control signal;
each of the control systems including a capacitive sensor adapted to be disposed on the vehicle and configured to detect an object in the path of the panel without monitoring the motor, wherein the sensor is further configured to generate an object signal indicative of an object detected in the path of the panel;
each of the control systems including a switch adapted to be disposed on the vehicle and configured to transmit a command signal upon being activated by an operator;
a wireless radio frequency local area network (LAN) adapted to be disposed in the vehicle and communicating with the master controller the master switch console to allow communication and sharing of information therebetween and to allow placement of the sensor and the switch anywhere on the vehicle; and
wherein the master controller is further configured to transmit the panel control signal to the motor to move the panel along the path in an opening direction towards the opened position in order to prevent the panel from entrapping an object upon receipt of the object signal.
13. A system as set forth in claim 12 including a control system having a slave controller adapted to be disposed in the vehicle near the motor and communicating over the LAN with the master controller.