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An electronic device may be provided with an ejectable component assembly having a connector that can receive and retain a removable module within a housing of the electronic device. The ejectable component assembly may also be provided with an ejector mechanism for at least partially ejecting the r

An electronic device may be provided with an ejectable component assembly having a connector that can receive and retain a removable module within a housing of the electronic device. The ejectable component assembly may also be provided with an ejector mechanism for at least partially ejecting the removable module from the connector. The ejector mechanism may receive a user input force at an ejector user interface, translate that user input force into an ejection force, and apply that ejection force onto the removable module for ejecting the module. The ejector user interface may be provided at any suitable position of the housing that may not interfere with other functions of the device. The path along which the ejector mechanism translates the user input force into the ejection force between the ejector user interface and the removable module may be provided in any suitable way throughout the device.

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1. An electronic device comprising: a housing;a connector positioned within the housing; andan ejector mechanism comprising: a guide; anda core comprising a first end and a second end,wherein:the second end of the core is configured to receive a user input force through an ejector user interface at

1. An electronic device comprising: a housing;a connector positioned within the housing; andan ejector mechanism comprising: a guide; anda core comprising a first end and a second end,wherein:the second end of the core is configured to receive a user input force through an ejector user interface at a first portion of the housing;the core is configured to move along and within at least a portion of the guide from a first core position to a second core position in response to the received user input force;the first end of the core is configured to apply an ejection force onto a removable entity for at least partially ejecting the removable entity from the connector and through an entity housing opening at a second portion of the housing in response to the movement of the core from the first core position to the second core position;the first portion of the housing is provided by a first wall of the housing;the second portion of the housing is provided by a second wall of the housing; andthe first wall is adjacent to the second wall. 2. The electronic device of claim 1, wherein at least a portion of the core comprises a liquid. 3. The electronic device of claim 2, further comprising a component that generates heat, wherein the liquid is configured to dissipate at least a portion of the heat. 4. The electronic device of claim 2, further comprising a component that generates heat, wherein: the liquid moves along at least a portion of the guide in response to the received user input force; andthe at least a portion of the guide is positioned adjacent the component that generates the heat. 5. The electronic device of claim 1, wherein at least a portion of the core is flexible. 6. The electronic device of claim 1, wherein the core is at least one of twisted ribbon and woven string. 7. The electronic device of claim 1, wherein: the guide comprises a first guide component extending between a first guide end and a second guide end;the core comprises a first core portion that is configured to move along the first guide component between the first guide end and the second guide end in response to the received user input force; andthe core comprises a second core portion that is sized with respect to the second guide end to prevent movement of the second core portion past the second guide end and along the first guide component toward the first guide end. 8. The electronic device of claim 7, wherein the second core portion is at the first end of the core. 9. The electronic device of claim 1, further comprising a return component, wherein: the return component is configured to apply a return force onto a portion of the core; andthe core is configured to move from the second core position to the first core position in response to the application of the return force and in response to the termination of the user input force. 10. The electronic device of claim 1, wherein the ejector user interface comprises: a first opening through the first portion of the housing; anda deformable cover that covers at least a portion of the first opening. 11. The electronic device of claim 10, wherein the deformable cover is configured to prevent debris from passing through the deformable cover. 12. The electronic device of claim 10, wherein the deformable cover is coupled to the second end of the core. 13. The electronic device of claim 12, wherein: the deformable cover is configured to apply a return force onto the second end of the core; andthe core is configured to move from the second core position to the first core position in response to the application of the return force and in response to the termination of the user input force. 14. The electronic device of claim 1, wherein: the ejector user interface comprises a first opening through the first portion of the housing; andthe electronic device comprises a device component positioned within the housing and adjacent to at least a portion of the first opening. 15. The electronic device of claim 14, wherein: the device component comprises a microphone; andthe at least a portion of the first opening is a port for passing audio data to the microphone from an entity external to the housing. 16. The electronic device of claim 14, wherein: the device component comprises a speaker; andthe at least a portion of the first opening is configured to pass audio data from the speaker to an entity external to the housing. 17. The electronic device of claim 1, wherein the guide is configured to regulate at least a portion of a path along which the core moves from the first core position to the second core position. 18. The electronic device of claim 1, wherein the direction of the user input force is the following with respect to the direction of the ejection force: skew. 19. The electronic device of claim 1, wherein the direction of the user input force is the following with respect to the direction of the election force: Angled within the same plane but neither co-linear nor parallel. 20. The electronic device of claim 1, wherein: the user input force forms an angle with the outer surface of the first wall that is less than 90°. 21. An electronic device comprising: a housing;a connector positioned within the housing; andan ejector mechanism comprising: a guide; anda core comprising a first end and a second end, wherein: the core is configured to receive a user input force at the second end of the core through an ejector user interface at a first portion of the housing;the core is further configured to translate the user input force into an ejection force at the first end of the core, wherein the first end of the core is configured to apply the ejection force directly onto a removable entity for at least partially ejecting the removable entity from the connector and through an entity housing opening at a second portion of the housing, and wherein the core is a unitary component;the guide is configured to regulate at least a portion of a path along which the core translates the user input force into the ejection force; andthe direction of the user input force is one of the following with respect to the direction of the ejection force:angled within the same plane but neither co-linear nor parallel; andskew. 22. The electronic device of claim 21, wherein: the first portion of the housing is provided by a first wall of the housing; andthe user input force forms an angle with an outer surface of the first wall that is less than 90°. 23. The electronic device of claim 21, wherein: the first portion of the housing is provided by a first wall of the housing;the second portion of the housing is provided by a second wall of the housing; andthe first wall is one of the following: the same wall as the second wall;adjacent to the second wall; andopposite to the second wall. 24. The electronic device of claim 21, wherein the at least a portion of the path is not linear. 25. An ejector mechanism for ejecting a removable entity from a connector comprising: a core comprising a first end and a second end, configured to: receive a user input force at the second end of the core; andtranslate the user input force into an ejection force at the first end of the core for direct application onto the removable entity, wherein the core is a unitary component; anda guide configured to regulate at least a portion of a path along which a portion of the core moves when the core translates the user input force into the ejection force, wherein the at least a portion of the path is not linear, and wherein the direction of the user input force is one of the following with respect to the direction of the ejection force:angled within the same plane but neither co-linear nor parallel; andskew. 26. The ejector mechanism of claim 25, wherein the direction of the user input force is the following with respect to the direction of the ejection force: skew. 27. The ejector mechanism of claim 25, wherein at least the portion of the core is flexible. 28. The ejector mechanism of claim 27, wherein the portion of the core is at least one of twisted ribbon and woven string.