Abstract: An exemplary vehicle climate control operating method includes in a cooling mode, moving a valve to a first position and initializing the valve without moving the valve to a second position. In a heating mode, the method moves the valve to a second position and initializing the valve without moving the valve to the first position. The first position permits more flow than the second position.

Abstract: A vehicle computer is programmed to determine an expected thermal load for an autonomous driving compute cluster and a target temperature for the compute cluster under the expected thermal load. Based on a comparison of a current temperature of the compute cluster to an ambient temperature, the vehicle computer is further programmed to operate a switching valve in a first coolant path to open the path to one of a radiator portion and a condenser portion and operate, with the path open to the condenser portion, a pump in the first coolant path and a condenser in a second coolant path at speeds respectively based on at least one of the expected thermal load and the target temperature.

Abstract: An insulated electric conductor and method for making such a conductor are disclosed. The conductor comprises a copper core, a layer of aluminum formed over the copper core, an aluminum oxide dielectric layer formed over the layer of aluminum, and a thin polymeric layer formed over the aluminum oxide dielectric layer. The thin polymeric layer is preferably between about 30 microns (0.001?) and about 500 microns (0.02?) and is more preferably between about 45 microns (0.0015?) and about 250 microns (0.01?). The polymeric layer may be any polymeric material selected from the group consisting of acrylic resins, epoxy resins, polyurethane resins, and silicone resins. Other polymeric materials may be used. The polymeric layer may be formed by a variety of methods including, but not limited to, spraying, brushing, dipping, and powder coating.

Abstract: A system and method of controlling ventilation of a passenger compartment of a vehicle. An intake vent may be opened to allow ambient air to enter the passenger compartment and an exhaust vent may be opened to allow cabin air to exit the passenger compartment when the cabin air temperature is greater than the adjusted ambient air temperature value and a precipitation condition is not present.

Abstract: A vehicle includes a climate control system having a heat pump subsystem. The heat pump subsystem has a cabin loop with interior and exterior heat exchangers, and a battery loop with a battery chiller. A valve selectively connects the cabin loop and battery chiller in fluid communication. The vehicle also includes a controller programed to, in response to the heat pump subsystem being in dehumidification mode, command the valve to close to inhibit refrigerant flow to the battery chiller.

Abstract: Vehicle climate control systems include heating, ventilating and air conditioning (HVAC) systems for adjusting the vehicle cabin temperature. The HVAC system can deliver heated or cooled air to the vehicle interior to achieve a desired temperature inside the vehicle cabin. Some vehicles are equipped with secondary comfort features, such as heated or cooled seats, for additionally addressing occupant comfort. These features are typically stand-alone devices that function separately from the HVAC system.

Abstract: Methods and systems for providing controlling environmental conditions in a passenger compartment of a vehicle are presented. In one example, various low cost expansion valves are included in a system that has a receiver positioned downstream of an exterior heat exchanger to provide a climate control system with heating, cooling, dehumidification, and de-icing modes.

Abstract: A vehicle seating assembly includes a seat structure. A carrier is disposed on the seat structure and includes a matrix of fluid transfer lines. A spacer material is positioned over the carrier. A trim cover is disposed over the spacer material. A desiccant is made from a volcanic ash and is supported by the seat structure. The matrix of fluid transfer lines thermodynamically influences a relative temperature of the trim cover through both the carrier and the desiccant.

Abstract: A ventilation system for use in a vehicle that provides individual control of micro-zones in the vehicle and the system includes a blower for pushing air through the ventilation system, an evaporator for conditioning the air being pushed by the blower, a first duct for supplying air to a first micro-zone and a second duct for supplying air to a second micro-zone, the second duct partitioned form the first duct, the first and second ducts receiving air once it has been blown through the evaporator and a flow diverter for selectively opening the partition wall and connecting the first duct and second duct so that air continues to flow through the evaporator even when one microzone is completely closed and no air flows through the related duct.

Abstract: A steering wheel includes a central portion connected to the steering column for rotation about an axis, and a rim extending around the central portion. A steering wheel includes a passageway extending through portions of the steering wheel. A plurality of spaced apart rings are disposed on the rim, and a plurality of N-type and P-type thermoelectric (“TE”) elements are disposed on the rings. The thermoelectric elements may comprise Peltier devices in the form of relatively thin plate-like units having generally planar opposite surfaces, and rectangular perimeters. An electrical conductor interconnects the P-type and N-type elements in series. The steering wheel includes first and second thermal conductors thermally connected to inner and outer surfaces of the thermoelectric elements. An air circulation device moves air through the passageway to cool the rim of the steering wheel.

Abstract: A climate control system having a coolant subsystem, a heat pump subsystem, and an intermediate heat exchanger. The intermediate heat exchanger may transfer thermal energy from the heat pump subsystem to the coolant to increase the temperature of the coolant when the climate control system is in a heating mode.

Abstract: A battery module according to an exemplary aspect of the present disclosure includes, among other things, a battery cell, a plate adjacent to the battery cell and a heat pipe attached to the plate and containing a first heat transfer medium. A manifold is connected to the heat pipe and configured to receive a second heat transfer medium that exchanges heat with the first heat transfer medium.

Abstract: A system may include a multi-position airflow floor control. The system may further include a climate controller device configured to identify an airflow biasing promoting vehicle occupant comfort by performing operations including: determining by a climate controller of a vehicle, to perform cooling based on cabin temperature exceeding a temperature set-point; identifying an airflow biasing between at least a panel vent and a multi-position airflow floor control based on the cabin temperature and a plurality of set-point offsets; and providing an output to adjust cooling flow between at least the panel vent and the multi-position airflow floor control based on the identified biasing.

Abstract: A blower assembly including a housing for a first scroll fan and a second scroll fan that are connected by a shaft to a motor that rotates the fans. The first and second scroll fans are coaxially mounted on the shaft. Fresh air ports and recirculated air ports are provided for the circulation of fresh air and recirculated air, respectively. The fresh air ports and recirculated air ports may be selectively opened and closed by doors to control the flow of air from the outside and from the passenger compartment as controlled by the HVAC system.

Abstract: A method, comprising during a vehicle off condition comprising when a vehicle engine is off, and the vehicle is parked, measuring a humidity of a vehicle cabin, and determining a presence of a passenger in the vehicle based on the humidity of the vehicle cabin. In some examples, cabin air may be circulated for a duration prior to the determination. The method may further include adjusting operation of an HVAC system of the vehicle responsive to a determination of a presence of a passenger in the vehicle.

Abstract: A vehicle seating assembly includes a seat structure. A carrier is disposed on the seat structure and includes a matrix of fluid transfer lines. A spacer material is positioned over the carrier. A trim cover is disposed over the spacer material. A desiccant is made from a volcanic ash and is supported by the seat structure. The matrix of fluid transfer lines thermodynamically influences a relative temperature of the trim cover through both the carrier and the desiccant.

Abstract: An insulated electric conductor having a copper core, a layer of aluminum formed on the copper core, and a second layer of aluminum in the form of a high-purity aluminum is disclosed. The copper core may be a solid core or may be formed from a plurality of copper strands. The layer of aluminum formed over the copper core is at least partially anodized to form an aluminum oxide dielectric layer. The layer of high-purity aluminum may be formed by evaporation deposition, sputter deposition, or co-extrusion. Once the layer of high-purity aluminum is formed, it is anodized. More than two layers of aluminum may be formed over the copper core.

Abstract: A method of anodizing a coil comprised of wire having a copper core and a layer of a metal formed on the core is disclosed. The metal has electrically insulating characteristics when anodized. Two variations of the method are provided. In the first variation the metal-clad wire is partially anodized prior to being wound on a spool to form a coil. Once the partially anodized wire is wound onto a spool the coiled wire is anodized to complete anodization. The anodized coiled wire may be rinsed to remove residual electrolytic material. In the second variation the metal-clad wire is wound on a spool to form a coil. The coiled wire is then anodized. The method of the disclosed invention reduces or entirely eliminates the presence of micro cracks in the oxide layer. The resulting coil may be used in motors, electromagnets, generators, alternators and subsystems for the same.

Abstract: An insulated electric conductor and method for making such a conductor are disclosed. The conductor comprises a copper core, a layer of aluminum formed over the copper core, an aluminum oxide dielectric layer formed over the layer of aluminum, and a thin polymeric layer formed over said aluminum oxide dielectric layer. The thin polymeric layer is preferably between about 30 microns (0.001?) and about 500 microns (0.02?) and is more preferably between about 45 microns (0.0015?) and about 250 microns (0.01?). The polymeric layer may be any polymeric material selected from the group consisting of acrylic resins, epoxy resins, polyurethane resins, and silicone resins. Other polymeric materials may be used. The polymeric layer may be formed by a variety of methods including, but not limited to, spraying, brushing, dipping, and powder coating.

Abstract: A system and method of controlling ventilation of a passenger compartment of a vehicle. An intake vent may be opened to allow ambient air to enter the passenger compartment and an exhaust vent may be opened to allow cabin air to exit the passenger compartment when the cabin air temperature is greater than the adjusted ambient air temperature value and a precipitation condition is not present.