Overmold protection for vibration motor

What is claimed is: 1. An electronic assembly comprising: a structural body comprising a frame member and an overmolded polymer material connected to the frame member; and a vibration motor assembly embedded within the overmolded polymer material, the vibration motor assembly comprising: a capsule having a cavity; a vibration motor having a shaft and configured to rotate the shaft; an eccentric mass connected to the shaft, wherein the eccentric mass is rotatable with the shaft; and an end cap having a first connecting structure connecting the end cap to the vibration motor and having and a second connecting structure connecting the capsule to the end cap, wherein the vibration motor and eccentric mass are disposed in the cavity and are enclosed by the end cap and capsule. 2. The electronic assembly of claim 1 , further comprising a computer processor and a memory mounted on the structural body. 3. The electronic assembly of claim 1 , further comprising a power source mounted on the structural body and connected to the vibration motor assembly to power the vibration motor. 4. The electronic assembly of claim 1 , wherein the electronic assembly is a wearable device, and wherein the structural body is structured to enable the wearable device to be worn on a user's body. 5. The electronic assembly of claim 1 , wherein the vibration motor and eccentric mass being enclosed by the end cap and the capsule enables the vibration motor assembly to withstand fabrication conditions of an overmolding process to form the overmolded polymer material. 6. The electronic assembly of claim 1 , wherein the capsule has a first end connected to the end cap and a second end having a domed configuration, and wherein the eccentric mass has a rounded distal end positioned at the second end of the capsule. 7. The electronic assembly of claim 1 , wherein the vibration motor comprises a motor casing, wherein a distal portion of the shaft protrudes from the motor casing and the eccentric mass is connected to the distal portion of the shaft. 8. The electronic assembly of claim 7 , wherein the first connecting structure comprises a first section of a body of the end cap, the first section having a first outer periphery received within the motor casing to connect the end cap to the vibration motor, and wherein the second connecting structure comprises a second section of the body of the end cap, the second section having a second outer periphery that is larger than the first outer periphery, wherein the second section is received within an open end of the capsule to connect the capsule to the end cap. 9. The electronic assembly of claim 8 , wherein a first shoulder is defined between the first section and the second section as a result of the second outer periphery being larger than the first outer periphery, and wherein the body of the end cap further comprises a third section connected to the second section and having a third outer periphery that is larger than the second outer periphery such that a second shoulder is defined between the second section and the third section, wherein a proximal end of the motor casing abuts the first shoulder, and wherein a proximal end of the capsule abuts the second shoulder. 10. An electronic assembly comprising: a structural body comprising a frame member and an overmolded polymer material connected to the frame member; and a vibration motor assembly embedded within the overmolded polymer material, the vibration motor assembly comprising: a vibration motor comprising a motor casing, a magnet positioned inside the motor casing, a shaft extending through the motor casing and having a proximal portion extending from a first end of the motor casing, a distal portion extending from a second end of the motor casing, and a middle portion positioned within the motor casing, and a wire winding mounted on the middle portion of the shaft, the vibration motor being configured to use electrical power to rotate the shaft about an axis to create a vibration effect; an eccentric mass connected to the distal portion of the shaft, such that the eccentric mass is rotatable with the shaft; an end cap having a body engaged with the vibration motor and electrical contacts engaging the proximal portion of the shaft and configured for supplying electrical power to the vibration motor, the body of the end cap having a first section having a first outer periphery received within the first end of the motor casing and engaging the motor casing to connect the end cap to the vibration motor; and a capsule connected to the end cap to define a cavity, wherein the body of the end cap has a second section having a second outer periphery that is larger than the first outer periphery, such that the second section is received within an open end of the capsule and engages the capsule to connect the capsule to the end cap, and wherein the vibration motor and eccentric mass are disposed in the cavity and are enclosed by the end cap and capsule, so as to enable the vibration motor assembly to withstand fabrication conditions. 11. The electronic assembly of claim 10 , further comprising a computer processor and a memory mounted on the structural body. 12. The electronic assembly of claim 10 , further comprising a power source mounted on the structural body and connected to the vibration motor assembly to power the vibration motor. 13. The electronic assembly of claim 10 , wherein the electronic assembly is a wearable device, and wherein the structural body is structured to enable the wearable device to be worn on a user's body. 14. The electronic assembly of claim 10 , wherein the vibration motor and eccentric mass being enclosed by the end cap and the capsule enables the vibration motor assembly to withstand fabrication conditions of an overmolding process to form the overmolded polymer material. 15. The electronic assembly of claim 10 , wherein the capsule has closed end opposite the open end, the closed end having a rounded dome configuration, wherein the eccentric mass has a rounded end positioned at the closed end of the capsule. 16. The electronic assembly of claim 10 , wherein a first shoulder is defined between the first section and the second section as a result of the second outer periphery being larger than the first outer periphery, and wherein the body of the end cap further comprises a third section connected to the second section and having a third outer periphery that is larger than the second outer periphery such that a second shoulder is defined between the second section and the third section, wherein the first end of the motor casing abuts the first shoulder, and wherein the open end of the capsule abuts the second shoulder. 17. An electronic assembly comprising: a structural body comprising a frame member and an overmolded polymer material connected to the frame member; and a vibration motor assembly embedded within the overmolded polymer material, the vibration motor assembly comprising: a vibration motor comprising a motor casing and a shaft, wherein the vibration motor is configured to rotate the shaft to create a vibration effect; a capsule having a cavity; an end cap comprising an end cap body engaged with the vibration motor, the end cap body having a first section having a first outer periphery received within the motor casing of the vibration motor to connect the end cap to the vibration motor, a second section having a second outer periphery that is larger than the first outer periphery such that a first shoulder is defined between the first section and the second section, whe