Communication system and transmitter

The invention claimed is: 1. A communication system comprising: a transmitting electrode; a first transmission line comprising one end connected to the transmitting electrode; a transmission circuit connected to an other end of the first transmission line and configured to transmit a transmission signal; a receiving electrode capacitively coupled to the transmitting electrode; a second transmission line comprising one end connected to the receiving electrode; and a reception circuit connected to an other end of the second transmission line and configured to receive a reception signal via the receiving electrode and the second transmission line, wherein characteristic impedances of the first transmission line and the second transmission line are greater than an output impedance of the transmission circuit. 2. The communication system according to claim 1 , wherein a coupling capacitance between the transmitting electrode and the receiving electrode is 10 pF or less. 3. The communication system according to claim 1 , wherein the output impedance of the transmission circuit is 40Ω or more and 60Ω or less. 4. The communication system according to claim 1 , wherein the characteristic impedances of the first transmission line and the second transmission line are 90Ω or less. 5. The communication system according to claim 1 , wherein the reception circuit comprises a hysteresis circuit having a hysteresis in input and output characteristics, the hysteresis circuit configured to compare the reception signal with the first threshold voltage and a second threshold voltage, the second threshold voltage being lower than the first threshold voltage, and configured to output output data according to the comparison result, the reception signal comprises a transmitted signal and a reflected signal, the transmitted signal being the transmission signal reached to the reception circuit without being reflected, the reflected signal being the transmission signal reached to the reception circuit after being reflected, and a delay time Td 1 of the first transmission line and a delay time Td 2 of the second transmission line are set so that a timing when the transmitted signal becomes the first threshold voltage or more, or the second threshold voltage or less is different from a timing when an absolute value of an amplitude of the reflected signal becomes maximum. 6. The communication system according to claim 1 , comprising a termination resistance connected between the other end of the second transmission line and a ground. 7. The communication system according to claim 6 , wherein a value of the termination resistance is 40Ω or more and 60Ω or less. 8. The communication system according to claim 6 , wherein a value of the termination resistance is equivalent to the output impedance of the transmission circuit. 9. The communication system according to claim 1 , wherein the transmission signal is a square wave. 10. A communication system comprising: a transmitting AC coupling element; a first transmission line comprising one end connected to the transmitting AC coupling element; a transmission circuit connected to an other end of the first transmission line and configured to transmit a transmission signal; a receiving AC coupling element coupled to the transmitting AC coupling element using AC coupling; a second transmission line comprising one end connected to the receiving AC coupling element; and a reception circuit connected to an other end of the second transmission line and configured to receive a reception signal via the receiving AC coupling element and the second transmission line, wherein the reception circuit comprises a hysteresis circuit having a hysteresis in input and output characteristics, the hysteresis circuit configured to compare the reception signal with a first threshold voltage and a second threshold voltage, the second threshold voltage being lower than the first threshold voltage, and configured to output output data according to the comparison result, the reception signal comprises a transmitted signal and a reflected signal, the transmitted signal being the transmission signal reached to the reception circuit without being reflected, the reflected signal being the transmission signal reached to the reception circuit after being reflected, and a delay time Td 1 of the first transmission line and a delay time Td 2 of the second transmission line are set so that, in an input of the reception circuit, a timing when the transmitted signal becomes the first threshold voltage or more, or the second threshold voltage or less is different from a timing when an absolute value of an amplitude of the reflected signal becomes maximum. 11. The communication system according to claim 10 , wherein the first threshold voltage is set as Vhyst[V], a slew rate of the transmitted signal is set as SR[V/s], a unit interval of the transmission signal is set as UI[s], an absolute value of amplitude of the transmitted signal is set as Vamp[V], N_UI is set as an integer multiple of UI, the integer being zero or more, and the delay time Td 1 and the delay time Td 2 are set so that at least one of “2×Td 1 ,” “2×Td 2 ,” and “2(Td 1 +Td 2 )” is within a range from “N_UI+0.95×Vhyst/SR+0.5 UI−Vamp/SR” to “N_UI+1.05×Vhyst/SR+0.5 UI−Vamp/SR”. 12. The communication system according to claim 11 , wherein the delay time Td 1 and the delay time Td 2 are set so that at least one of “2×Td 1 ,” “2×Td 2 ,” and “2(Td 1 +Td 2 )” becomes equivalent to “N_UI+Vhyst/SR+0.5 UI−Vamp/SR”. 13. The communication system according to claim 10 , wherein the first threshold voltage is set as Vhyst[V], a slew rate of the transmitted signal is set as SR[V/s], a unit interval of the transmission signal is set as UI[s], an absolute value of amplitude of the transmitted signal is set as Vamp[V], N_UI is set as an integer multiple of UI, the integer being zero or more, and the delay time Td 1 and the delay time Td 2 are set so that at least one of “2×Td 1 ,” “2×Td 2 ,” and “2(Td 1 +Td 2 )” becomes different from “N_UI+Vhyst/SR−Vamp/SR”. 14. The communication system according to claim 10 , wherein the delay time Td 1 and the delay time Td 2 are set so that, in the input of the reception circuit, the absolute value of the amplitude of the reflected signal becomes minimum at a timing when the transmitted signal becomes the first threshold voltage or more, or the second threshold voltage or less. 15. The communication system according to claim 10 , wherein the transmitting AC coupling element is a transmitting electrode, the receiving AC coupling element is a receiving electrode, the AC coupling is capacitive coupling, characteristic impedances of the first transmission line and the second transmission line are greater than an output impedance of the transmission circuit, and a coupling capacitance between the transmitting electrode and the receiving electrode is 10 pF or less. 16. The communication system according to claim 10 , wherein the transmitting AC coupling element is a transmitting electrode, the receiving AC coupling element is a receiving electrode, the AC coupling is capacitive coupling, characteristic impedances of the first transmission line and the second transmission line are greater than an output impedance of the transmission circuit, and the output impedance of the transmission circuit is 40Ω or more and 60Ω or less. 17. The communication system according to claim 10 , wherein the transmitting AC coupling element is a transmitting electro