Signal transmission circuit, field device, and plant control system

What is claimed is: 1. A signal transmission circuit comprising: a first photocoupler to which a transmission signal is input; an edge detection circuit which is disposed in a primary side of the first photocoupler, the edge detection circuit being configured to detect a rising edge and a falling edge of the transmission signal; an edge demodulation circuit which is disposed in a secondary side of the first photocoupler, the edge demodulation circuit being configured to demodulate the transmission signal by using only one of the rising edge and the falling edge of an edge detection signal output from the edge detection circuit via the first photocoupler; a second photocoupler to which an enable signal is input; and an output control circuit configured to control an output of the signal demodulated by the edge demodulation circuit based on the enable signal transmitted via the second photocoupler. 2. The signal transmission circuit according to claim 1 , wherein the edge detection circuit comprises: a delay circuit configured to delay the transmission signal by a predetermined time; and an exclusive OR circuit configured to calculate an exclusive OR of the transmission signal and a signal delayed by the delay circuit. 3. The signal transmission circuit according to claim 1 , further comprising: an initial value setting circuit configured to set an initial value of the signal demodulated by the edge demodulation circuit based on the enable signal transmitted via the second photocoupler. 4. The signal transmission circuit according to claim 3 , further comprising: a first light emitting circuit which is disposed in the primary side of the first photocoupler; a second light emitting circuit which is disposed in the primary side of the second photocoupler; a first light receiving circuit which is disposed in the secondary side of the first photocoupler; and a second light receiving circuit which is disposed in the secondary side of the second photocoupler. 5. The signal transmission circuit according to claim 4 , wherein the edge detection circuit is configured to generate the edge detection signal based on the rising edge and the falling edge, and configured to output the edge detection signal to the first light emitting circuit. 6. The signal transmission circuit according to claim 5 , wherein the first light emitting circuit is configured to output, to the first light receiving circuit via the first photocoupler, the edge detection signal output from the edge detection circuit, and wherein the first light receiving circuit is configured to output, to the edge demodulation circuit, the edge detection signal output from the first light emitting circuit via the first photocoupler. 7. The signal transmission circuit according to claim 4 , wherein the second light emitting circuit is configured to output the enable signal to the second light receiving circuit via the second photocoupler, and wherein the second light receiving circuit is configured to output, to the output control circuit and the initial value setting circuit, the enable signal output from the second light emitting circuit via the second photocoupler. 8. The signal transmission circuit according to claim 7 , wherein the initial value setting circuit is configured to output, to the edge demodulation circuit, a reset signal which is synchronized with the enable signal output from the second light receiving circuit, and wherein the edge demodulation circuit is configured to be reset based on the reset signal output from the initial value setting circuit. 9. A field device comprising: a calculation circuit configured to calculate a process value indicating a state quantity of a measurement target; and a signal transmission circuit configured to transmit a transmission signal indicating the process value calculated by the calculation circuit, wherein the signal transmission circuit comprises: a first photocoupler to which the transmission signal is input from the calculation circuit; an edge detection circuit which is disposed in a primary side of the first photocoupler, the edge detection circuit being configured to detect a rising edge and a falling edge of a signal to be transmitted; an edge demodulation circuit which is disposed in a secondary side of the first photocoupler, the edge demodulation circuit being configured to demodulate the signal to be transmitted by using only one of the rising edge and the falling edge of an edge detection signal output from the edge detection circuit via the first photocoupler; a second photocoupler to which an enable signal is input; and an output control circuit configured to control an output of the signal demodulated by the edge demodulation circuit based on the enable signal transmitted via the second photocoupler. 10. The field device according to claim 9 , wherein the edge detection circuit comprises: a delay circuit configured to delay the signal to be transmitted by a predetermined time; and an exclusive OR circuit configured to calculate an exclusive OR of the signal to be transmitted and a signal delayed by the delay circuit. 11. The field device according to claim 9 , wherein the field device is one of a flowmeter, a sensor device, a valve device, an actuator device, an imaging device, an audio device, and a position detecting device for outputting position information of each device, or other devices. 12. The field device according to claim 9 , further comprising: an initial value setting circuit configured to set an initial value of the signal demodulated by the edge demodulation circuit based on the enable signal transmitted via the second photocoupler. 13. The field device according to claim 12 , further comprising: a first light emitting circuit which is disposed in the primary side of the first photocoupler; a second light emitting circuit which is disposed in the primary side of the second photocoupler; a first light receiving circuit which is disposed in the secondary side of the first photocoupler; and a second light receiving circuit which is disposed in the secondary side of the second photocoupler. 14. The field device according to claim 13 , wherein the edge detection circuit is configured to generate the edge detection signal based on the rising edge and the falling edge, and configured to output the edge detection signal to the first light emitting circuit. 15. The field device according to claim 14 , wherein the first light emitting circuit is configured to output, to the first light receiving circuit via the first photocoupler, the edge detection signal output from the edge detection circuit, and wherein the first light receiving circuit is configured to output, to the edge demodulation circuit, the edge detection signal output from the first light emitting circuit via the first photocoupler. 16. The field device according to claim 13 , wherein the second light emitting circuit is configured to output the enable signal to the second light receiving circuit via the second photocoupler, and wherein the second light receiving circuit is configured to output, to the output control circuit and the initial value setting circuit, the enable signal output from the second light emitting circuit via the second photocoupler. 17. The field device according to claim 16 , wherein the initial value setting circuit is configured to output, to the edge demodulation circuit, a reset signal which is synchronized with the enable signal output from the second light receiving circuit, and wherein the edge