Detection circuit and communication system

What is claimed is: 1. A detection circuit comprising: a first insulating element; a second insulating element; a first transmission test circuit connected to the first insulating element; a second transmission test circuit connected to the second insulating element; and a reception test circuit connected to each of the first insulating element and the second insulating element to output a detection signal corresponding to a difference between a voltage of the first insulating element and a voltage of the second insulating element. 2. The detection circuit according to claim 1 , wherein the first transmission test circuit, the second transmission test circuit, and the reception test circuit are connected to primary sides of the first insulating element and the second insulating element. 3. The detection circuit according to claim 1 , wherein the first transmission test circuit, the second transmission test circuit, and the reception test circuit are connected to secondary sides of the first insulating element and the second insulating element. 4. The detection circuit according to claim 1 , wherein the first transmission test circuit and the second transmission test circuit are connected to primary sides of the first insulating element and the second insulating element, and the reception test circuit is connected to secondary sides of the first insulating element and the second insulating element. 5. The detection circuit according to claim 1 , wherein the first transmission test circuit includes an output node connected to a primary side of the first insulating element, the second transmission test circuit includes an output node connected to a primary side of the second insulating element, and the reception test circuit includes a first input node connected to the primary side of the first insulating element and a second input node connected to the primary side of the second insulating element. 6. The detection circuit according to claim 1 , wherein the first transmission test circuit includes an output node connected to a secondary side of the first insulating element, the second transmission test circuit includes an output node connected to a secondary side of the second insulating element, and the reception test circuit includes a first input node connected to the secondary side of the first insulating element and a second input node connected to the secondary side of the second insulating element. 7. The detection circuit according to claim 1 , wherein the first transmission test circuit includes an output node connected to a primary side of the first insulating element, the second transmission test circuit includes an output node connected to a primary side of the second insulating element, and the reception test circuit includes a first input node connected to a secondary side of the first insulating element and a second input node connected to a secondary side of the second insulating element. 8. The detection circuit according to claim 2 , wherein the first transmission test circuit transmits a first test signal to the first insulating element, and the second transmission test circuit transmits a second test signal corresponding to the first test signal to the second insulating element. 9. The detection circuit according to claim 8 , wherein the reception test circuit outputs the detection signal at a first level when the difference between the voltage of the first insulating element and the voltage of the second insulating element is equal to or smaller than a threshold, and outputs the detection signal at a second level when the difference between the voltage of the first insulating element and the voltage of the second insulating element is larger than the threshold. 10. The detection circuit according to claim 9 , further comprising a control circuit that controls a frequency of the first test signal to a first frequency, wherein the first transmission test circuit transmits the first test signal having the first frequency to the first insulating element, and the second transmission test circuit transmits the second test signal having the first frequency to the second insulating element. 11. The detection circuit according to claim 9 , wherein the first transmission test circuit reads a second frequency from a storage circuit that stores the second frequency that the first test signal is trimmed to have, and transmits the first test signal having the second frequency to the first insulating element, and the second transmission test circuit reads the second frequency from the storage circuit, and transmits the second test signal having the second frequency to the second insulating element. 12. A communication system comprising: the detection circuit according to claim 1 , the detection circuit including a first input node disposed on a primary side of the first insulating element, a second input node disposed on a primary side of the second insulating element, a first output node disposed on a secondary side of the first insulating element, and a second output node disposed on a secondary side of the second insulating element; a transmission circuit connected to each of the first input node and the second input node of the detection circuit; and a reception circuit connected to each of the first output node and the second output node of the detection circuit. 13. The communication system according to claim 12 , wherein the transmission circuit is deactivated during a first period, and operable during a second period, and both the first transmission test circuit and the second transmission test circuit operate during the first period, and are deactivated during the second period. 14. The communication system according to claim 13 , wherein, during the first period, the reception test circuit outputs the detection signal at a first level when the difference between the voltage of the first insulating element and the voltage of the second insulating element is equal to or smaller than a threshold, and outputs the detection signal at a second level when the difference between the voltage of the first insulating element and the voltage of the second insulating element is larger than the threshold, and the transmission circuit performs a signal transmission operation during the second period when receiving the detection signal at the first level, and stops the signal transmission operation during the second period when receiving the detection signal at the second level. 15. The communication system according to claim 13 , further comprising a generation circuit that generates a disable signal, wherein the transmission circuit is deactivated during the first period in which the disable signal is at an active level, and operable during the second period in which the disable signal is at a non-active level, and both the first transmission test circuit and the second transmission test circuit operate during the first period in which the disable signal is at an active level, and are deactivated during the second period in which the disable signal is at a non-active level. 16. The communication system according to claim 15 , wherein the generation circuit includes a power on reset (POR) circuit that is capable of resetting a predetermined circuit when the communication system is started, and transits the disable signal from the non-active level to the active level when the resetting of the predetermined circuit is canceled. 17. The communication system according to claim 15 , wherein the generation circuit includes