Bidirectional battery charge-discharge control

The invention claimed is: 1. An apparatus comprising: a bidirectional power converter; an energy storage resource; a capacitor; and a controller operative to: i) monitor a magnitude of an input voltage supplied to a load from an input voltage source, and ii) based on a magnitude of the input voltage, switch between a first mode of operating the bidirectional power converter to charge the energy storage resource using the input voltage and a second mode of operating the bidirectional power converter to produce a backup voltage from the energy storage resource to power the load; the apparatus further comprising: a first circuit path including the capacitor disposed in series with the energy storage resource between a first node and a second node, a third node of the first circuit path directly coupling the capacitor to the energy storage resource, wherein the first node of the capacitor is operative to receive the input voltage while the bidirectional power converter is operated in the first mode; wherein the bidirectional power converter, while in the first mode, is operative to convert the input voltage received from the first node into a charging voltage supplied to the third node to charge the energy storage resource; wherein the bidirectional power converter, while in the second mode, is operative to: i) from the third node, receive a supply voltage from the energy storage resource; ii) convert the supply voltage into the backup voltage; and iii) output the backup voltage to the first node; and wherein the first circuit path is disposed in parallel with the load in which: i) a first terminal of the load is directly coupled to the first node, and ii) a second terminal of the load is directly coupled to the second node. 2. The apparatus as in claim 1 , wherein the energy storage resource is disposed in series with the bidirectional power converter to produce the backup voltage during the second mode; and wherein a magnitude of the backup voltage in the second mode is equal to an auxiliary voltage generated by the bidirectional power converter plus the supply voltage supplied by the energy storage resource. 3. The apparatus as in claim 1 , wherein a magnitude of power conveyed from the input voltage to charge the energy storage resource while in the first mode is less than a magnitude of power supplied by the energy storage resource to produce the backup voltage in the second mode. 4. The apparatus as in claim 1 , wherein the energy storage resource is operative to output the supply voltage to the bidirectional power converter in the second mode, a magnitude of the supply voltage varying in a particular voltage range; and wherein a magnitude of the backup voltage falls within the particular voltage range during operation of the bidirectional power converter in the second mode. 5. The apparatus as in claim 1 , wherein the bidirectional power converter is operative to, during the second mode: i) convert the supply voltage received from the energy storage resource into an auxiliary voltage; and ii) produce the backup voltage to power the load using the auxiliary voltage. 6. The apparatus as in claim 5 , wherein a polarity of the auxiliary voltage depends on a magnitude of the supply voltage. 7. The apparatus as in claim 1 , wherein the input voltage is a DC voltage; and wherein the backup voltage is a DC voltage. 8. The apparatus as in claim 1 , wherein an efficiency of the bidirectional power converter producing the backup voltage during the second mode increases over time subsequent to initial activation of the bidirectional power converter in the second mode. 9. The apparatus as in claim 1 , wherein the bidirectional power converter includes a first terminal; wherein the first terminal of the bidirectional power converter is operative to receive the input voltage during the first mode; and wherein the first terminal of the bidirectional power converter is operative to output the backup voltage from the bidirectional power converter to the load during the second mode. 10. The apparatus as in claim 1 , wherein the bidirectional power converter includes a first terminal and a second terminal; wherein the first terminal is operative to receive the input voltage during the first mode; and wherein the bidirectional power converter is operative to output the backup voltage from the bidirectional power converter through the first terminal to the load during the second mode. 11. The apparatus as in claim 10 , wherein the bidirectional power converter, in the first mode, is operative to: convert the input voltage received at the first terminal of the bidirectional power converter into the charging voltage; and output the charging voltage from the second terminal of the bidirectional power converter to the energy storage resource, the charging voltage operative to charge the energy storage resource. 12. The apparatus as in claim 11 , wherein the bidirectional power converter, in the second mode, is operative to: receive the supply voltage from the energy storage resource through the second terminal; convert the received supply voltage into the backup voltage; and output the backup voltage from the first terminal to the load. 13. The apparatus as in claim 12 , wherein the load and the energy storage resource are connected to a common ground reference associated with the input voltage source; and wherein a magnitude of the backup voltage outputted from the second terminal to the load during the second mode is a summation of a magnitude of the supply voltage plus a magnitude of an auxiliary voltage generated by the bidirectional power converter.