Battery pack device with casings for multiple cells

What is claimed is: 1. A high-energy-density battery pack device, the device comprising: a circuit board including a first face and a second face, wherein the first face of the circuit board is an opposing face to the second face of the circuit board; at least four casing structures mounted on the circuit board; and at least four cells electrically connected in series or in parallel through the circuit board, wherein the at least four cells include a first cell, a second cell, a third cell, and a fourth cell, wherein the first cell and the third cell are electrically connected in series as a first string of at least two cells, the device further comprises a second string of at least two cells electrically connected in series through the circuit board, the second string including the second cell and the fourth cell, and wherein the first string of at least two cells is electrically connected in parallel with the second string of at least two cells through the circuit board, wherein a first casing structure of the at least four casing structures is mounted on the first face of the circuit board, at least partially surrounds the first cell, and includes an opening towards a first corner of the circuit board, wherein a second casing structure of the at least four casing structures is mounted on the second face of the circuit board, at least partially surrounds the second cell, and includes an opening towards a second corner of the circuit board that is different than the first corner of the circuit board, wherein a third casing structure of the at least four casing at least partially surrounds the third cell and includes an opening towards a third corner of the circuit board, wherein a fourth casing structure of the at least four casing structures at least partially surrounds the fourth cell and includes an opening towards a fourth corner of the circuit board, wherein the fourth corner of the circuit board is different than the first corner of the circuit board, the second corner of the circuit board, and the third corner of the circuit board. 2. The device of claim 1 , wherein the first casing structure and the third casing structure are mounted on the first face of the circuit board, and wherein the second casing structure and the fourth casing structure are mounted on the second face of the circuit board. 3. The device of claim 2 , wherein the first casing structure and the third casing structure are at least thirty degrees away from parallel with the second casing structure and the fourth casing structure, wherein the first casing structure and the third casing structure are configured to orient the first cell and the third cell at a first angle relative to a baseline, wherein the second casing structure and the fourth casing structure are configured to orient the second cell and the fourth cell at a second angle relative to the baseline, and wherein the first angle is offset from the second angle by at least thirty degrees. 4. The device of claim 1 , further comprising a bypass diode electrically connected in series with a cell of the at least four cells through the circuit board, wherein the bypass diode causes a voltage drop across the bypass diode of less than two hundred millivolts. 5. The device of claim 1 , wherein each casing structure of the at least four casing structures includes a metal casing structure or a ceramic casing structure. 6. The device of claim 1 , wherein each cell of the at least four cells has a cylindrical shape with a curved surface, a first flat surface, and a second flat surface, and wherein each respective casing structure covers the first flat surface and at least eighty percent of the curved surface of the respective cell. 7. A device comprising: a high-energy-density battery pack including: a circuit board including a first face and a second face, wherein the first face of the circuit board is opposite the second face of the circuit board; at least four cells electrically connected in series or in parallel through the circuit board, wherein the at least four cells include a first cell, a second cell, a third cell, and a fourth cell, wherein the first cell and the third cell are electrically connected in series as a first string of at least two cells, the device further comprises a second string of at least two cells electrically connected in series through the circuit board, the second string of at least two cells including the second cell and the fourth cell, and wherein the first string of at least two cells is electrically connected in parallel with the second string of at least two cells through the circuit board; and at least four casing structures, wherein the at least four casing structures include: a first casing structure that at least partially surrounds the first cell, is mounted on the first face of the circuit board, and includes an opening towards a first corner of the circuit board, a second casing structure that at least partially surrounds the second cell, is mounted on the second face of the circuit board, and includes an opening towards a second corner of the circuit board, wherein the first corner is different than the second corner, a third casing structure that at least partially surrounds the third cell, and includes an opening towards a third corner of the circuit board, and a fourth casing structure that at least partially surrounds the fourth cell and includes an opening towards a fourth corner of the circuit board, wherein the fourth corner of the circuit board is different than the first corner of the circuit board, the second corner of the circuit board, and the third corner of the circuit board; and a transmitter configured to: receive electrical power from the at least four cells through the circuit board; and transmit electromagnetic signals based on the electrical power. 8. The device of claim 7 , wherein the first casing structure and the third casing structure are at least thirty degrees away from parallel with the second casing structure and the fourth casing structure, wherein the first casing structure and the third casing structure are configured to orient the first cell and the third cell at a first angle relative to a baseline, wherein the second casing structure and the fourth casing structure are configured to orient the second cell and the fourth cell at a second angle relative to the baseline, and wherein the first angle is offset from the second angle by at least thirty degrees. 9. The device of claim 7 , further comprising a bypass diode electrically connected in series with a cell of the at least four cells through the circuit board, wherein the bypass diode is configured to allow the electrical power to flow from a string of at least two cells of the at least four cells to the transmitter, and wherein the bypass diode causes a voltage drop across the bypass diode of less than two hundred millivolts. 10. The device of claim 9 , further comprising a fuse electrically connected in series with the cell of the at least two cells through the circuit board, wherein the fuse is configured to break if an electrical current through the string of at least two cells exceeds a first threshold amplitude. 11. The device of claim 7 , wherein the opening of the first casing structure and the opening of the third casing structure are parallel and oriented in opposite directions. 12. The device of claim 7 , wherein the transmitter includes an emergency position-indicating transmitter.