Optical receiver, optical terminal, and optical communication system

The invention claimed is: 1. An optical receiver comprising: a pre-amplifier to convert a current signal, into which an input optical signal is converted, into a voltage signal; a limiting amplifier to amplify and limit an amplitude of the voltage signal; a transmission line connecting the pre-amplifier with the limiting amplifier; an alternating current coupling capacitor inserted in a middle of the transmission line or at an end of the transmission line; a termination circuit connected with the transmission line, to switch to a first resistance or to a second resistance higher than the first resistance in response to a switching signal; and an alternating current load connected with the transmission line, the alternating current load being open in a first-frequency range of the voltage signal and having a resistance enabling impedance matching with the pre-amplifier and the transmission line in a second-frequency range of the voltage signal, wherein the termination circuit and the alternating current load are electrically connected in parallel, and the second-frequency range of the voltage signal is higher than the first-frequency range of the voltage signal. 2. The optical receiver according to claim 1 , wherein the termination circuit includes: a switch to switch between on and off in response to the switching signal; a first termination resistor connected in series with the switch between an input terminal of the limiting amplifier and a power supply terminal or a ground terminal; and a second termination resistor connected in parallel with the switch and the first termination resistor and having a resistance higher than that of the first termination resistor, and the termination circuit switches to the first resistance after reception of the input optical signal is started until a burst reception time when influence of variation in direct current voltage of the voltage signal on reproduction of the voltage signal at the limiting amplifier is eliminated, and switches to the second resistance after the burst reception time. 3. The optical receiver according to claim 2 , wherein the switching signal is generated in an outside or inside of the optical receiver, and the switch is switched on in response to the switching signal at a timing after completion of reception of a payload section of a previous input optical signal or when reception of a preamble section of the current input optical signal is started, and the switch is switched off, after being switched on, in response to the switching signal from the burst reception time until reception of a payload section of the current input optical signal is started. 4. The optical receiver according to claim 1 , wherein the alternating current load includes: one or more resistors capable of impedance matching with an output impedance of the pre-amplifier; and one or more capacitors being open or having an impedance in the first frequency range of the voltage signal, wherein the resistors and the capacitors are connected in series, and respective ends are connected with respective input terminals of the limiting amplifier. 5. An optical terminal comprising the optical receiver according to claim 1 . 6. An optical communication system comprising the optical terminal according to claim 5 . 7. The optical receiver according to claim 2 , wherein the alternating current load includes: one or more resistors capable of impedance matching with an output impedance of the pre-amplifier; and one or more capacitors being open or having an impedance in the first-frequency range of the voltage signal, wherein the resistors and the capacitors are connected in series; and respective ends are connected with respective input terminals of the limiting amplifier. 8. The optical receiver according to claim 3 , wherein the alternating current load includes: one or more resistors capable of impedance matching with an output impedance of the pre-amplifier; and one or more capacitors being open or having an impedance in the first-frequency range of the voltage signal, wherein the resistors and the capacitors are connected in series; and respective ends are connected with respective input terminals of the limiting amplifier. 9. An optical terminal comprising the optical receiver according to claim 2 . 10. An optical terminal comprising the optical receiver according to claim 3 . 11. An optical terminal comprising the optical receiver according to claim 4 . 12. An optical terminal comprising the optical receiver according to claim 7 . 13. An optical terminal comprising the optical receiver according to claim 8 . 14. An optical communication system comprising the optical terminal according to claim 9 . 15. An optical communication system comprising the optical terminal according to claim 10 . 16. An optical communication system comprising the optical terminal according to claim 11 . 17. An optical communication system comprising the optical terminal according to claim 12 . 18. An optical communication system comprising the optical terminal according to claim 13 .