Battery pack with cell fixing apparatus

That which is claimed: 1. A battery pack comprising: a plurality of cells arranged substantially adjacent to each other such that longitudinal centerlines of each of the cells are aligned substantially in parallel with each other in a first direction; a physical cell connection assembly that includes a cell-retaining portion disposed to contact each of the cells to hold the cells in a housing; an electrical cell connection assembly that includes a plurality of cell connectors disposed to contact at least selected ones of the cells in groups to facilitate electrical connection of the cells associated with each of the groups, a contact portion of each of the cell connectors being disposed to electrically connect electrodes of at least two of the cells; a printed circuit board (PCB) comprising sensing circuitry and configured to monitor electrical parameters associated with the cells based on electrical communication between the PCB and the electrical cell connection assembly; and an output connector including two soldering tabs, each of the two soldering tabs being configured to pass through a preformed aperture in the PCB, wherein the sensing circuitry is configured to monitor a common output of the battery pack via electrical connection between the two soldering tabs, wherein at least one cell connector of the plurality of cell connectors includes a holding portion that engages the physical cell connection assembly and a fixing portion that extends substantially perpendicular to a plane of the PCB to engage the PCB to facilitate holding of the PCB relative to the physical cell connection assembly, wherein the fixing portion further includes a retaining clip that secures the at least one cell connector to the PCB, and wherein the retaining clip includes a retention tab, the retention tab being configured to be compressed by insertion of the retaining clip through the PCB and to expand responsive to the retention tab penetrating through to an opposite side of the PCB relative to a side of the PCB through which the retention tab is inserted, the retention tab in an expanded state preventing withdrawal of the retaining clip from the PCB. 2. The battery pack of claim 1 , wherein each of the two soldering tabs are soldered, welded, or otherwise fastened to the PCB after being secured with the retaining clip. 3. The battery pack of claim 1 wherein the output connector includes an additional soldering tab for three point mechanical support relative to fixing the PCB prior to connecting the output connector to the PCB. 4. The battery pack of claim 1 , wherein the two soldering tabs penetrate through the PCB in an opposite direction than the fixing portion penetrates though the PCB. 5. The battery pack of claim 1 , wherein the two soldering tabs are soldered, welded, or otherwise fastened to the PCB after being provided through corresponding apertures in the PCB. 6. The battery pack of claim 1 , wherein the fixing portion of at least some cell connectors of the plurality of cell connectors engage the PCB proximate to a first end of the PCB and the fixing portion of at least some other cell connectors of the plurality of cell connectors engage the PCB proximate to a second end of the PCB that is opposite of the first end of the PCB. 7. The battery pack of claim 1 , wherein the two soldering tabs penetrate through the PCB in a direction away from the cells, and wherein the fixing portion penetrates through the PCB in a direction toward the cells. 8. The battery pack of claim 7 , wherein at least one of the two soldering tabs penetrates the PCB at a portion of the PCB that is spaced apart from edges of the PCB that are penetrated by the fixing portion. 9. The battery pack of claim 1 , wherein the battery pack is a backpack battery pack that is wearable by an operator of power outdoor power equipment. 10. Outdoor power equipment comprising: an electric motor; a working assembly powered by the electric motor; and a battery pack configured to power the electric motor, the battery pack comprising: a plurality of cells arranged substantially adjacent to each other such that longitudinal centerlines of each of the cells are aligned substantially in parallel with each other in a first direction; a physical cell connection assembly that includes a cell-retaining portion disposed to contact each of the cells to hold the cells in a housing; an electrical cell connection assembly that includes a plurality of cell connectors disposed to contact at least selected ones of the cells in groups to facilitate electrical connection of the cells associated with each of the groups, a contact portion of each of the cell connectors being disposed to electrically connect electrodes of at least two of the cells; and a printed circuit board (PCB) comprising sensing circuitry and configured to monitor electrical parameters associated with the cells based on electrical communication between the PCB and the electrical cell connection assembly; and an output connector including two soldering tabs, each of the two soldering tabs configured to pass through a preformed aperture in the PCB, wherein the sensing circuitry is configured to monitor a common output of the battery pack via electrical connection between the two soldering tabs, wherein at least one cell connector of the plurality of cell connectors includes a holding portion that engages the physical cell connection assembly and a fixing portion that extends substantially perpendicular to a plane of the PCB to engage the PCB to facilitate holding of the PCB relative to the physical cell connection assembly, wherein the fixing portion further includes a retaining clip that secures the at least one cell connector to the PCB, and wherein the retaining clip includes a retention tab, the retention tab being configured to be compressed by insertion of the retaining clip through the PCB and to expand responsive to the retention tab penetrating through to an opposite side of the PCB relative to a side of the PCB through which the retention tab is inserted, the retention tab in an expanded state preventing withdrawal of the retaining clip from the PCB. 11. The outdoor power equipment of claim 10 , wherein each of the two soldering tabs are soldered, welded, or otherwise fastened to the PCB after being secured with the retainer clip. 12. The outdoor power equipment of claim 10 , wherein the two soldering tabs penetrate through the PCB in a direction away from the cells, and wherein the fixing portion penetrates through the PCB in a direction toward the cells. 13. The outdoor power equipment of claim 10 , wherein the output connector includes an additional soldering tab for three point mechanical support relative to fixing the PCB prior to connecting the output connector to the PCB. 14. The outdoor power equipment of claim 10 , wherein the two soldering tabs penetrate through the PCB in an opposite direction than the fixing portion penetrates though the PCB. 15. The outdoor power equipment of claim 10 , wherein the fixing portion of at least some cell connectors of the plurality of cell connectors engage the PCB proximate to a first end of the PCB and the fixing portion of at least some other cell connectors of the plurality of cell connectors engage the PCB proximate to a second end of the PCB that is opposite of the first end of the PCB. 16. A battery pack comprising: a plurality of cells arranged substantially adjacent to each other such that longitudinal centerlines of each of the cells are aligned substantially in parallel with each other in a first direction; a physical c