1s2p BATTERY PACK FOR FAST CHARGE APPLICATION - LAYERED STRUCTURE WITH PCM POUCHES AND COMPRESSIBLE FOAM FOR SWELLING ABSORPTION

What is claimed is: 1 . A battery pack, comprising: a housing; at least one rechargeable battery cell disposed within the housing; at least one phase change material (PCM) pouch in contact with the at least one rechargeable battery cell disposed within the housing; and electrical conductors electrically connected to the at least one rechargeable battery cell to enable electrical power to be conducted to and from the at least one rechargeable battery cell. 2 . The battery pack of claim 1 , wherein: the at least one rechargeable battery cell includes two rechargeable battery cells; and the at least one PCM pouch includes: a first PCM pouch disposed between and in contact with the two rechargeable battery cells, one rechargeable battery cell on each side of the first PCM pouch; and a second PCM pouch disposed on an opposite side of the first PCM pouch and in contact with a first one of the rechargeable battery cells. 3 . The battery pack according to claim 2 , further comprising: a first printed circuit board (PCB); and a second PCB in electrical communication with the first PCB via a flexible circuit board including electrical conductors disposed as trace lines, the first, second, and flexible circuit boards forming a rigid-flex printed circuit board, and wherein: the first PCB is positioned on an opposite side of a second of the rechargeable battery cells from the first PCM pouch; and a second PCB of the rigid-flex PCB extending toward and centrally aligned between the rechargeable battery cells. 4 . The battery pack according to claim 3 , wherein the battery pack further includes a foam element positioned on an opposite side of the first PCM pouch from the rechargeable battery cell with which the first PCM pouch is in contact. 5 . The battery pack according to claim 4 , further comprising: a frame configured to support the first PCB, and wherein the rigid-flex PCB includes a flexible cable electrically connecting the first PCB with the second PCB; a flexible cable electrically connecting the first PCB with the second PCB; second and third flexible cables connecting the second PCB with each of the rechargeable battery cells to supply the electrical power to and from the rechargeable battery cells; and wherein the housing includes a first housing part and a second housing part configured to connect with and secure to the first housing part, the housing formed by the first and second housing parts being connected with one another, and configured to enclose: (i) the frame, (ii) first PCB, (iii) one rechargeable battery cell, (iv) first PCM pouch, (v) another battery cell, (vi) second PCB pouch, and (vii) foam element. 6 . The battery pack according to claim 1 , further comprising end-foam pieces configured to be positioned at each end of the at least one rechargeable battery cell within the housing. 7 . The battery pack according to claim 1 , wherein the housing is configured to be enclosed within a housing of a barcode scanner. 8 . A method of manufacturing battery pack, said method comprising: placing at least one rechargeable battery cell in a first housing part of a housing; placing at least one phase change material (PCM) pouch in contact with the at least one rechargeable battery cell within the first housing part; electrically connecting electrical conductors with the at least one rechargeable battery cell to enable electrical power to be conducted to and from the at least one rechargeable battery cell; and connecting a second housing part of the housing to the first housing part, thereby enclosing the at least one rechargeable battery cell and the at least one PCM pouch in the housing formed by the first and second housing parts. 9 . The method according to claim 8 , wherein placing the at least one rechargeable battery cell in the first housing part includes placing two rechargeable battery cells in the first housing part; wherein placing the at least one PCM pouch includes: placing a first PCM pouch between and in contact with the two rechargeable battery cells, one on each side of the first PCM pouch; and placing a second PCM pouch in contact with one of the rechargeable battery cells and on an opposite side of the first PCM pouch. 10 . The method according to claim 9 , further comprising: positioning a first printed circuit board (PCB) and a rigid-flex PCB in electrical communication therewith in the first housing part, the PCB and rigid-flex PCB including the electrical conductors disposed as trace lines; positioning the first PCB on an opposite side of a second of the rechargeable battery cells from the first PCM pouch; and positioning a second PCB of the rigid-flex PCB extending toward and centrally aligned between the rechargeable battery cells. 11 . The method according to claim 8 , further comprising placing foam on an opposite side of the first PCM pouch from the rechargeable battery cell with which the first PCM pouch is in contact. 12 . The method according to claim 8 , further comprising placing end-foam pieces at each end of the at least one rechargeable battery cell within the housing. 13 . The method according to claim 8 , further comprising forming the first and second housing parts to be installed within a housing of a barcode scanner. 14 . A mobile device, comprising: electronics including: a processor configured to control the mobile device; and electrical power electronics configured to output electrical power; and a battery pack electronically coupled to the electronics to supply electrical power thereto, and configured with: a housing; at least one rechargeable battery cell; at least one phase change material (PCM) pouch in contact with the at least one rechargeable battery cell to absorb heat produced thereby, the at least one rechargeable battery cell and at least one PCM pouch being enclosed within the housing; and electrical conductors in electrical communication with the power electronics and the at least one rechargeable battery cell, and configured to conduct electrical power to and from the at least one rechargeable battery cell. 15 . The mobile device according to claim 14 , wherein the battery pack includes: two rechargeable battery cells; a first PCM pouch disposed between and in contact with the two rechargeable battery cells, one on each side of the first PCM pouch; and a second PCM pouch disposed in contact with one of the rechargeable battery cells and on an opposite side of the first PCM pouch. 16 . The mobile device according to claim 15 , further comprising a first printed circuit board (PCB) and a rigid-flex PCB in electrical communication therewith, the PCB and rigid-flex PCB including the electrical conductors disposed as trace lines, and wherein: the first PCB positioned on an opposite side of a second of the rechargeable battery cells from the first PCM pouch; and a second PCB of the rigid-flex PCB extending toward and centrally aligned between opposing walls of the rechargeable battery cells. 17 . The mobile device according to claim 16 , wherein the battery pack further includes a foam element positioned on an opposite side of the first PCM pouch from the rechargeable battery cell with which the first PCM pouch is in contact. 18 . The mobile device according to claim 17 , further comprising: a frame configured to secure the first PCB, and wherein the rigid-flex PCB includes a flexible cable electrically connecting the first PCB with the second PCB; second and third flexible cables connecting the second P