A processor-based personal electronic device (such as a smartphone) is programmed to automatically respond to data sent by various sensors from which the user's activity may be inferred. One or more alarms on the device may be temporarily disabled when sensor data indicates that the user is asleep. One or more of the sensors may be worn by the user and remote from the device. A wireless communication link may be used by the device to obtain remote sensor data. Data from on-board sensors in the device—such as motion sensors, location sensors, ambient light sensors, and the like—may also be used to deduce the user's current activity. User data (such as calendar entries) may also be used to determine likely user activity and set alarms accordingly. Biometric data from a second, nearby person may also be used to automatically select certain alarm modes on a first person's device.

An organic light-emitting diode comprising an organic layer sequence, a radiation exit area and an encapsulation. The organic layer sequence comprises at least one radiation-emitting region which generates electromagnetic radiation in the spectral range from infrared radiation to UV radiation during operation. The radiation exit area is structured, so that the electromagnetic radiation has a directional emission profile. The encapsulation forms a seal of the organic layer sequence against environmental influences.

Past and future time visualization enables a user to visualize the amount of time that has passed or when a future time will be reached. By triggering past time visualization, a device displays an arced line from a previously selected time to the present time. By triggering future time visualization, a device displays an arced line from the present time to a selected future time. In some embodiments, when the future time is reached, an alarm is triggered.

Past and future time visualization enables a user to visualize the amount of time that has passed or when a future time will be reached. By triggering past time visualization, a device displays an arced line from a previously selected time to the present time. By triggering future time visualization, a device displays an arced line from the present time to a selected future time. In some embodiments, when the future time is reached, an alarm is triggered.

The present disclosure relates to techniques for accessing modes of operation and techniques for providing an alarm interface for electronic devices. In some embodiments, a device detects that a battery is being charged and that the device is oriented in a predefined orientation. In accordance with the detection that the battery is being charged and that the device is oriented in the predefined orientation, the device activates a predefined mode of operation. In some embodiments, a device displays a first user interface object in a first color, and, at a predetermined time, the device displays the first user interface object in a second color and displays an option for dismissing an alarm, wherein the option for dismissing is displayed as a second user interface object located at a portion of a display of the device proximate to a hardware button of the device.

The present disclosure relates to techniques for accessing modes of operation and techniques for providing an alarm interface for electronic devices. In some embodiments, a device detects that a battery is being charged and that the device is oriented in a predefined orientation. In accordance with the detection that the battery is being charged and that the device is oriented in the predefined orientation, the device activates a predefined mode of operation. In some embodiments, a device displays a first user interface object in a first color, and, at a predetermined time, the device displays the first user interface object in a second color and displays an option for dismissing an alarm, wherein the option for dismissing is displayed as a second user interface object located at a portion of a display of the device proximate to a hardware button of the device.

An alarm clock includes a microcontroller, a display unit, an audio output unit, ten numeric keys and a functional key. Upon determining that a long-press operation is performed on one of the numeric keys that corresponds to a weekly alarm setting, the microcontroller performs a weekly alarm setting procedure for the corresponding weekly alarm setting. In the weekly alarm setting procedure, the microcontroller sets an alarm time based on some numeric keys that are pressed in a time-setting stage, and sets an alarm day based on at least one numeric key and the functional key that are pressed in a day-setting stage. Then, the microcontroller displays the alarm, time and the alarm day on the display unit.

An alarm clock includes a microcontroller, a display unit, an audio output unit, ten numeric keys and a functional key. Upon determining that a long-press operation is performed on one of the numeric keys that corresponds to a weekly alarm setting, the microcontroller performs a weekly alarm setting procedure for the corresponding weekly alarm setting. In the weekly alarm setting procedure, the microcontroller sets an alarm time based on some numeric keys that are pressed in a time-setting stage, and sets an alarm day based on at least one numeric key and the functional key that are pressed in a day-setting stage. Then, the microcontroller displays the alarm, time and the alarm day on the display unit.

A sleep training device is disclosed comprising certain electronic components, audio components, light-emitting diodes (LEDs), physical switches, a capacitive touch component, or a combination thereof. The sleep training device can have a housing configured to house the electronic components, the audio components, the LEDs, the capacitive touch component, and at least part of the physical switches. The sleep training device can receive an instruction to schedule a sleep program based on a set parameter from another device in wireless communication with the sleep training device, initiate the sleep program once the set parameter is met, and disable at least one of the physical switches and the capacitive touch component when the sleep program is initiated.

A device comprising an organic light-emitting diode comprising an organic layer sequence, a radiation exit area and an encapsulation, wherein the organic layer sequence comprises at least one radiation-emitting region which generates electromagnetic radiation in the spectral range from infrared radiation to UV radiation during operation, and wherein the encapsulation forms a seal of the organic layer sequence against environmental influences, at least one touch-sensitive operating element, wherein the at least one touch-sensitive operating element comprises at least one touch sensor, wherein the device is flexible.