Communication system

The invention claimed is: 1. A communication system comprising: a transmission path that has a pair of communication lines, one of the communication lines being positive and a remaining one of the communication lines being negative, and the pair of communication lines being capable of performing a differential communication; and a plurality of nodes connected to the transmission path via a bus connection, and each of the plurality of nodes having a first communication portion that performs the differential communication via the transmission path, wherein at least one of the plurality of nodes further includes: a second communication portion that performs the differential communication at a higher speed than the first communication portion; and a control portion that communicates with another one of the plurality of nodes using either the first communication portion or the second communication portion, when the control portion performs a high speed communication with another one of the plurality of nodes via the second communication portion, the control portion: shifts the first communication portion included in each of the remaining plurality of nodes to a sleep mode by transmitting a sleep command from the first communication portion, wherein, in the sleep mode, the first communication portion included in each of the remaining plurality of nodes suspends an operation until a potential difference between the pair of communication lines becomes greater than a recessive threshold value; and then starts the high speed communication by the second communication portion, when the control portion completes the high speed communication, the control portion shifts the first communication portion included in each of the remaining plurality of nodes from the sleep mode to a normal mode by transmitting a wake-up command from the first communication portion, in the normal mode, the first communication portion included in each of the remaining plurality of nodes is capable of performing the differential communication, the second communication portion performs the high speed communication using a differential signal, and in the differential signal, a maximum of the potential difference between the pair of communication lines is equal to or less than the recessive threshold value, and a minimum of the potential difference between the pair of communication lines is a negative voltage value that has a polarity opposite to the recessive threshold value of the first communication portion. 2. The communication system according to claim 1 , wherein the second communication portion includes a high speed transceiver, the first communication portion includes a low speed transceiver, and a transmission terminal and a reception terminal of the high speed transceiver are connected to the pair of communication lines of the transmission path with polarities opposite to polarities of a transmission terminal and a reception terminal of the low speed transceiver. 3. The communication system according to claim 1 , wherein at least one of the plurality of nodes that includes the first communication portion, the second communication portion, and the control portion further includes a bias circuit that applies a bias voltage to the pair of communication lines, and a polarity of the bias voltage is opposite to a polarity of the recessive threshold value of the first communication portion, the second communication portion includes a high speed transceiver, the high speed transceiver includes a transmission terminal and a reception terminal each of which is connected to the pair of communication lines via a filter element, the filter element blocks a direct current signal and allows a high frequency communication signal, and the control portion applies the bias voltage between the pair of communication lines with the bias circuit when the control portion performs the high speed communication with another one of the plurality of nodes via the second communication portion. 4. The communication system according to claim 3 , wherein the bias circuit includes a driver that has a same configuration as a low speed transceiver included in the first communication portion, and the driver is connected to the pair of communication lines with a polarity opposite to a polarity of the first communication portion. 5. The communication system according to claim 3 , further comprising voltage adjustment elements that adjust the bias voltage and disposed between a driver included in the bias circuit and the pair of communication lines. 6. The communication system according to claim 1 , wherein the second communication portion includes a high speed transceiver, the first communication portion includes a low speed transceiver, a transmission terminal of the high speed transceiver is connected to the pair of communication lines of the transmission path with a polarity opposite to a polarity of a transmission terminal of the low speed transceiver, and a reception terminal of the high speed transceiver is connected to the pair of communication lines of the transmission path with a polarity opposite to a polarity of a reception terminal of the low speed transceiver.