Communication apparatus being selectively powered by a main power supply or a back-up power supply depending on the operating mode of the communication apparatus

What is claimed is: 1. A communication apparatus comprising: a network connector connectable to a telephone network; a communication circuit electrically connected to the network connector, the communication circuit configured to perform transmission and reception of signals with the telephone network through the network connector; a main power supply configured to supply a supply target including the communication circuit with power for allowing the supply target to operate, the communication circuit being configured to operate by using power supplied from the main power supply; a network-event detector electrically connected to the network connector, the network-event detector configured to detect an electrical change in the telephone network as a network event; a backup power supply provided separately from the main power supply and configured to be charged with power supplied from the main power supply during operation of the main power supply, the backup power supply having a backup voltage; a backup-voltage detector configured to operate by using power supplied from the backup power supply in a state where an operational mode of the communication apparatus is set to a stopped mode, and to detect occurrence of a voltage reduction state in the backup voltage; a power-supply controller configured to operate by using power supplied from the backup power supply in the stopped mode, and to output a signal for starting operation of the main power supply and to set the operational mode to a normal mode in response to an occurrence of the voltage reduction state detected by the backup-voltage detector, the stopped mode being a mode in which the main power supply stops supply of power to the communication circuit and to the backup power supply, the normal mode being a mode in which the main power supply supplies the supply target with power; a discharging path connected to the backup power supply; and a main switch configured to: cut off the discharging path in response to no occurrence of the network event in the stopped mode; and allow conduction through the discharging path in response to occurrence of the network event in the stopped mode, thereby discharging charged power of the backup power supply causing the voltage reduction state in the backup voltage and the setting of the operational mode to the normal mode. 2. The communication apparatus according to claim 1 , wherein the voltage reduction state is a state in which the backup voltage is lower than or equal to a voltage threshold. 3. The communication apparatus according to claim 2 , further comprising a power-supply controller configured to operate by receiving power supply from the backup power supply and to output a stop-start signal for stopping or starting the main power supply, wherein the voltage threshold is higher, by a particular value, than a minimum voltage required for a minimum basic function that is maintained in the stopped mode, the particular value being a voltage value that drops in a period from when the power-supply controller output the stop-start signal to the main power supply until when the main power supply starts charging of the backup power supply. 4. The communication apparatus according to claim 1 , wherein the network-event detector comprises a light emitter and the main switch comprises a a light receiver, the light emitter and the light receiver constituting a photo relay; wherein the light emitter is configured to, in response to occurrence of an electrical change in the telephone network, generate light from the electrical change; and wherein the light receiver comprises a MOSFET provided in the discharging path and configured to, in response to receiving light generated by the light emitter, turn on and allow conduction through the discharging path. 5. The communication apparatus according to claim 4 , further comprising a breaker provided in the discharging path, the breaker being configured to cut off the discharging path in the normal mode, regardless of whether the light emitter generates light. 6. The communication apparatus according to claim 5 , wherein the breaker comprises: a latching relay provided in the discharging path; and a relay controller configured to turn off the latching relay to cut off the discharging path in response to the operational mode switching from the stopped mode to the normal mode, and to turn on the latching relay to allow conduction through the discharging path in response to the operational mode switching from the normal mode to the stopped mode. 7. The communication apparatus according to claim 5 , wherein the breaker comprises: a relay having a normally-closed contact and a relay coil, the relay being configured to keep an open state in response to energization to the relay coil; and a relay controller configured to put the relay in the open state in response to the operational mode switching from the stopped mode to the normal mode. 8. The communication apparatus according to claim 7 , further comprising a pull-up resistor provided between the main power supply and the relay controller, wherein, in response to returning from the stopped mode to the normal mode and outputting of a particular voltage from the main power supply, the particular voltage is applied to the relay controller via the pull-up resistor. 9. The communication apparatus according to claim 4 , further comprising a diode bridge configured to rectify an electrical change in the telephone network and to output the electrical change to the photo relay, the diode bridge having a pair of input terminals and a pair of output terminals, wherein the pair of input terminals of the diode bridge is connected to respective ones of a pair of network connection lines for connecting to the telephone network, one of the pair of input terminals of the diode bridge being connected to one of the pair of network connection lines via a capacitor; and wherein the pair of output terminals of the diode bridge is connected to the photo relay. 10. The communication apparatus according to claim 1 , wherein the network-event detector comprises a light emitter and the main switch comprises a light receiving element, the light emitter and the light receiving element constituting a photo coupler; wherein the light emitter is configured to, in response to occurrence of an electrical change in the telephone network, generate light from the electrical change; and wherein the light receiving element is provided in the discharging path and is configured to, in response to receiving light generated by the light emitter, turn on and allow conduction through the discharging path. 11. The communication apparatus according to claim 10 , further comprising a subsidiary switch connected in parallel with the main switch, the subsidiary switch being configured to cooperate with the main switch to cut off the discharging path when the light receiving element is off, and configured to cooperate with the main switch to allow conduction through the discharging path when the light receiving element is on. 12. The communication apparatus according to claim 10 , wherein the light emitter comprises two diodes connected in parallel such that respective polarities are opposite to each other; and wherein both connected ends of the two diodes are connected directly or indirectly to respective ones of a pair of lines constituting the telephone network. 13. The communication apparatus according to claim 1 , wherein the backup power supply comprises a capacitor. 14. The communication apparatus according to claim 1 , wherein the voltage reduction state is a state in which