Pod assembly, dispensing body, and E-vapor apparatus including the same

The invention claimed is: 1. An e-vapor apparatus comprising: a pod assembly including a pre-vapor formulation compartment, a device compartment, and a vapor channel traversing the pre-vapor formulation compartment, the pre-vapor formulation compartment configured to hold a pre-vapor formulation therein; a dispensing body including a proximal portion and an opposing distal portion, the proximal portion including a vapor passage and a through-hole, the through-hole being between the vapor passage and the distal portion of the dispensing body, the through-hole configured to receive the pod assembly; and a vaporizer disposed in at least one of the pod assembly and the dispensing body, the pre-vapor formulation compartment of the pod assembly configured to be in fluidic communication with the vaporizer during an operation of the e-vapor apparatus, the vaporizer configured to heat the pre-vapor formulation to produce a vapor that passes through the pod assembly via the vapor channel. 2. The e-vapor apparatus of claim 1 , wherein the pre-vapor formulation compartment of the pod assembly surrounds the vapor channel. 3. The e-vapor apparatus of claim 1 , wherein the vapor channel passes through a center of the pre-vapor formulation compartment. 4. The e-vapor apparatus of claim 1 , wherein the vapor channel is in a form of a pathway that is arranged along at least one sidewall of the pre-vapor formulation compartment. 5. The e-vapor apparatus of claim 1 , wherein the vapor channel is in a form of a conduit that is arranged in at least one corner of the pre-vapor formulation compartment. 6. The e-vapor apparatus of claim 5 , wherein the conduit is arranged in at least two corners of the pre-vapor formulation compartment and configured to converge at a position that is aligned with the vapor passage of the dispensing body when the pod assembly is received in the through-hole. 7. The e-vapor apparatus of claim 1 , wherein the pre-vapor formulation compartment and the device compartment are at opposite ends of the pod assembly. 8. The e-vapor apparatus of claim 1 , wherein the device compartment of the pod assembly includes a memory device. 9. The e-vapor apparatus of claim 8 , wherein the memory device is coded with an electronic identity to permit at least one of an authentication of the pod assembly and a pairing of operating parameters specific to a type of the pod assembly when the pod assembly is inserted into the through-hole of the dispensing body, the memory device configured to receive and store information from the dispensing body during the operation of the e-vapor apparatus. 10. The e-vapor apparatus of claim 1 , wherein the pod assembly includes a side surface having at least one electrical contact. 11. The e-vapor apparatus of claim 10 , wherein the dispensing body is configured to perform at least one of supply power to and communicate with the pod assembly via the at least one electrical contact. 12. The e-vapor apparatus of claim 10 , wherein the at least one electrical contact is at an end of the pod assembly corresponding to the device compartment. 13. The e-vapor apparatus of claim 1 , wherein dimensions of the through-hole correspond to dimensions of the pod assembly. 14. The e-vapor apparatus of claim 1 , wherein the proximal portion of the dispensing body includes a mouthpiece that includes the vapor passage. 15. The e-vapor apparatus of claim 14 , wherein the vapor channel is between the mouthpiece and the device compartment when the pod assembly is inserted into the through-hole of the dispensing body. 16. The e-vapor apparatus of claim 1 , further comprising: an attachment structure on at least one of a side wall of the through-hole and a side surface of the pod assembly, the attachment structure configured to engage and hold the pod assembly upon insertion into the through-hole of the dispensing body. 17. A pod assembly for an e-vapor apparatus, comprising: a pre-vapor formulation compartment configured to hold a pre-vapor formulation therein, the pre-vapor formulation compartment including a front face and a rear face opposite the front face, the front face and the rear face being transparent; a device compartment configured to be in fluidic communication with the pre-vapor formulation compartment; and a vapor channel extending through the pre-vapor formulation compartment, the vapor channel being visible through the pre-vapor formulation, the front face, and the rear face. 18. The pod assembly of claim 17 , wherein the device compartment includes a vaporizer. 19. The pod assembly of claim 17 , wherein the device compartment includes a memory device, and a side surface of the pod assembly includes at least one electrical contact. 20. A pod assembly for an e-vapor apparatus, comprising: a pre-vapor formulation compartment configured to hold a pre-vapor formulation therein, the pre-vapor formulation compartment including a front face and a rear face opposite the front face, the front face and the rear face being transparent; a vaporizer configured to be in fluidic communication with the pre-vapor formulation compartment; and a vapor channel extending from the vaporizer and through the pre-vapor formulation compartment, the vapor channel being visible through the pre-vapor formulation, the front face, and the rear face.