Abstract: This application relates to a portable electronic device that includes an integrated pressure sensor. The portable electronic device includes a housing that defines a cavity with a number of components disposed therein. The cavity is sealed to form a volume of air within the cavity that is vented to the external environment through a barometric vent fluidly coupled to a first opening in the housing. A sensor measures a characteristic of a second volume of air within an isolated chamber that is vented to the external environment through a second opening in the housing. The second volume of air is isolated from the first volume of air within the housing of the portable electronic device. In some embodiments, the portable electronic device is a mobile phone and the sensor is a pressure transducer.

Abstract: An electronic device may be provided with first, second, and third antennas and a dock flex. A first feed terminal for the first antenna may be coupled to a second feed terminal for the second antenna over a first path. The first path may be coupled to ground over a second path. Tuning components may be interposed on the first and second paths. The third antenna may be patterned on a first portion of the dock flex. Front end components for the first antenna may be mounted to a second portion of the dock flex. The first and second portions may extend from a tail of the dock flex. The tail may be wrapped around a plastic support block to hold the second portion over the first portion. The plastic support block may have a snap hook clip that holds the second portion in place.

Abstract: This application relates to a portable electronic device that includes an integrated pressure sensor. The portable electronic device includes a housing that defines a cavity with a number of components disposed therein. The cavity is sealed to form a volume of air within the cavity that is vented to the external environment through a barometric vent fluidly coupled to a first opening in the housing. A sensor measures a characteristic of a second volume of air within an isolated chamber that is vented to the external environment through a second opening in the housing. The second volume of air is isolated from the first volume of air within the housing of the portable electronic device. In some embodiments, the portable electronic device is a mobile phone and the sensor is a pressure transducer.

Abstract: An electronic device that provides thermal feedback to a user is described. In particular, when the user provides a setting via tactile interaction with a surface of a user-interface device in the electronic device, a thermal mechanism in the electronic device establishes a temperature gradient on the surface based on the setting. For example, the thermal mechanism may include a heat source that increases a temperature of the portion of the user-interface device and/or a heat sink that decreases a temperature of another portion of the user-interface device. Moreover, the thermal mechanism may dynamically modify the temperature gradient based on the tactile interaction and an environmental condition (such as the temperature) in an external environment that includes the electronic device. Note that the tactile interaction with the user may occur with a physical control object (such as a knob) and/or with a virtual icon displayed on a multi-touch display.

Abstract: An electronic device that provides thermal feedback to a user is described. In particular, when the user provides a setting via tactile interaction with a surface of a user-interface device in the electronic device, a thermal mechanism in the electronic device establishes a temperature gradient on the surface based on the setting. For example, the thermal mechanism may include a heat source that increases a temperature of the portion of the user-interface device and/or a heat sink that decreases a temperature of another portion of the user-interface device. Moreover, the thermal mechanism may dynamically modify the temperature gradient based on the tactile interaction and an environmental condition (such as the temperature) in an external environment that includes the electronic device. Note that the tactile interaction with the user may occur with a physical control object (such as a knob) and/or with a virtual icon displayed on a multi-touch display.

Abstract: An electronic device that provides thermal feedback to a user is described. In particular, when the user provides a setting via tactile interaction with a surface of a user-interface device in the electronic device, a thermal mechanism in the electronic device establishes a temperature gradient on the surface based on the setting. For example, the thermal mechanism may include a heat source that increases a temperature of the portion of the user-interface device and/or a heat sink that decreases a temperature of another portion of the user-interface device. Moreover, the thermal mechanism may dynamically modify the temperature gradient based on the tactile interaction and an environmental condition (such as the temperature) in an external environment that includes the electronic device. Note that the tactile interaction with the user may occur with a physical control object (such as a knob) and/or with a virtual icon displayed on a multi-touch display.

Abstract: An electronic device that determines an external temperature is described. During operation, the electronic device uses a sensor mechanism (such as an integrated temperature sensor) to determine an internal temperature of the electronic device. Then, a thermoelectric device (which may be based on the Peltier effect and/or the Seeback effect) determines the relative temperature difference between the internal temperature and the external temperature. Next, the external temperature may be determined based on the internal temperature and the temperature difference. For example, the external temperature may be determined relative to a threshold value. Furthermore, an electrical signal (such as a voltage or a current) output by the thermoelectric device may be used to recharge a battery and, more generally, a power source in the electronic device.