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Discover The Technology Behind The Apple Watch’s Digital Crown

Yesterday the U.S. Patent & Trademark Office published a patent application from Apple that reveals some of the details behind the new Apple Watch’s Digital Crown. It is not warm fuzzy patent applications but rather one that is more about the mechanics of the Digital Crown. Apple notes that one aspect of the Digital Crown is made of a conductive material with one or more metals or metal alloys – which may indicate that Apple has employed liquid metal in this design.
In fact another patent application surfaced today regarding the manufacture of “thin walled enclosures” which uses a metal that goes from a liquid phase to that of a solid phase which would be a direct reference to a liquid metal process. The patent drawings in that second patent filing point to an iPhone-like device using the new thin walled technique though could be applied to Apple Watch as well.

Apple’s Patent Background

Many types of electronic devices, such as smartphones, gaming devices, computers, watches, and the like, use input devices, such as buttons or switches, to receive user input. However, many input devices, such as buttons or switches, may allow only a single type of input. For example, a button may only transmit one type of signal, which is a compression of a button that completes a circuit. As electronic devices reduce in size, it may be desirable to have fewer input buttons or devices, without reducing functionality or the number of input types that can be used by a user to provide information to a device.
Further, in instances where the button or switch may be movable or rotatable, the button may not be able to include a sensor or other electronic element that requires data and/or power to be transferred between the button and one or more components of the electronic device, as the movement may make an electrical connection difficult.

Apple Invents the Apple Watch Digital Crown

One example of Apple’s invention takes the form of an input module. The input module includes a switch, a rotatable and translatable input member operably connected to the switch and configured to actuate the switch, and an electrical contact operably connected to the switch and in electrical communication with the input member.
The input module referred to and described in this patent filing relates to the Apple Watch’s “Digital Crown.” Apple notes that “the tactile switch assembly may include a button that forms a crown for the watch and is connected to a sidewall of an enclosure for the device.”
Apple notes that during operation, the electrical connection between the input member and the electrical contact is maintained during translation and rotation of the input member. The input module may be used with a variety of electronic devices and can be used by a user to provide input to those devices.

apple watch prototype at the hand of a man with dark background

Another example of the disclosure takes the form of a switch assembly. The switch assembly includes a rotatable and translatable input member, a coupling operable connected to the input member and moveable therewith, a tactile switch operably connected to the coupling, and an electrical contact operably connected to the tactile switch and in electrical communication with the coupling. The input member is configured to actuate the electrical component when the input member translates, and the coupling rotates as the input member rotates. Additionally, the electrical connection between the coupling and the electrical contact is maintained during translation and rotation of the input member.
Yet another example of the disclosure includes a wearable electronic device. The wearable electronic device includes an enclosure defining a cavity and a button aperture defined through the enclosure. The wearable electronic device also includes one or more processing elements received within the cavity, and a switch module operably connected to the enclosure.
The switch module includes a tactile switch in communication with the processing element, a rotatable and translatable input member operably connected to the tactile switch, and a contact operably connected to the tactile switch and electrically coupled to the input member. During operation, the electrical coupling between the input member and the contact is maintained during translation and rotation of the input member.
Apple notes in their patent filing conclusion that “although the input button may be discussed with respect to a crown for a watch, the devices and techniques disclosed herein are equally applicable to other types of input button structures.”
Apple’s patent FIG. 1 noted below is a top plan view of a wearable electronic device including a multi-input device; FIG. 2 is a simplified block diagram of the wearable electronic device, which we know now as Apple Watch.

apple digital crown patent revealed

A top plan view of a wearable electronic device including a multi-input device

The Apple Watch’s Digital Crown

In Apple’s patent FIG. 3 we are able to see that a button (#148) forms a user interface for the tactile switch assembly (#110) and extends outwardly from the enclosure (#114).
For example, the button may be an input member, such as a button or switch that is translatable and/or rotatable relative to the housing. The ability of the button to translate and rotate relative to the enclosure allows a user to provide a rotational force and/or translating force to the tactile switch assembly. In some embodiments, the button may form a crown for the wearable electronic device and in other embodiments the button may form an input button or switch for the electronic device.

patently apple watch, digital crown

A simplified block diagram of the wearable electronic device, which we know now as Apple Watch

Apple states that the stem (#150 above) may be hollow or partially hollow. In some embodiments, the button and/or stem may be made of an electrically conductive material and/or may be laced or doped with an electrically conductive material.
Apple further states that the coupling (#218) may be made of a conductive material, such as one or more metals or metal alloys. The coupling may also include a low-friction material, such as graphite, on its bottom surface, which allows the coupling to more easily rotate, even as it is operably associated with the shear plate.
1. The Dome
The tactile switch (#214 above) may include a nub (#216) and a collapsible dome (#252). The nub interacts with a contact element on an interior of the dome (#252) to indicate when the switch sensor (#160) has been activated. The dome is a resilient and flexible material that collapses or flexes upon a predetermined force level and returns to its original shape when a force is removed. The dome may be a thin metal dome, a plastic dome, or other may be constructed from other materials. The dome may produce an audible sound, as well as an opposing force, in response to a collapsing force exerted by a user. The audible sound and opposing force provide feedback to a user when a user compresses the dome. The nub is connected to the dome and when a force is applied to the nub, the nub collapses the dome.
2. A Trackable Element
Apple notes that he wearable electronic device may include a trackable element (#146) and a sensing element (#142). The sensing element is configured to detect the trackable element in order to detect inputs to the button. In one example, the trackable element may be a magnetic element and the sensing element that may include a magnetic field sensor, such as one or more Hall-effect sensors, that may be used to track rotation of the trackable element.
3. Physiological Sensor:
Apple notes here that in some embodiments, the tactile switch assembly optionally may be used as a physiological sensor, although this functionality may be omitted from certain embodiments.
For example, in one embodiment, the enclosure may be electrically conductive and when worn by a user may be in communication with the user’s skin. With reference to FIG. 3, in this embodiment the sleeve #220 may be an insulating material, such as rubber, plastic, or the like, and isolates the button #148, stem #150, and coupling #218 from the conductive housing.
To measure one or more characteristics of the user’s heart, such as by an electrocardiograph (ECG), the user may press his or her finger on the button. In this example, the wearable device may be worn around a user wrist and the finger placed on the button may be from the opposite arm as the arm wearing the device. The connection between the user’s finger and the head (#148) may act as a first lead for the ECG and the connection between the user’s wrist (or other portion of the arm) may act as the second lead for the ECG.
Apple notes that as the user places their finger on the button, an electrical connection via the coupling and electrical contact (#158) allows for a second reference point. In this manner, voltage signals detected at the first location can be compared with voltage signals detected at the second location and subtracted to detect rise and falls between the two signals. These rise and falls can be correlated to the rhythm of a user’s heart. Additionally, in some embodiments, the device may use one of the connections to the user’s skin to send a pulse or signal through the user in order to measure the ECG characteristics of the user’s heart.
Apple credits Colin Ely as the sole inventor of patent application 20150041289 which was originally filed in Q3 2014.