Connector and electronic device using the connector

The invention claimed is: 1. A connector comprising: a transmission optical module having a plurality of signal electrodes each inputting an electric signal; and a transmission receptacle having a plurality of contacts to be electrically directly connected to the respective signal electrodes when fitted to the transmission optical module, wherein the transmission optical module is in a rectangular shape as viewed from the top and has a first side and a second side both extending in parallel in a direction orthogonal to an arrangement direction of the signal electrodes, and a cutout is formed in the first side, the transmission receptacle includes a projection fitted in the cutout when the transmission optical module is fitted to the transmission receptacle, the transmission optical module does not have a cutout in a portion of the second side, said portion corresponding to a portion of the cutout in which the projection is fitted, and the connector further comprises an erroneous fitting prevention arrangement preventing erroneous fitting of a reception optical module to the transmission receptacle when the projection is brought into contact with a portion other than a cutout of the reception optical module. 2. The connector according to claim 1 , wherein the cutout of the transmission optical module is formed adjacent the signal electrodes, and the projection is formed adjacent the contacts; and a height of the projection from a mounting face on which the projection is mounted is greater than a height of a contact point of the contacts from the mounting face. 3. An electronic device, wherein the electric device converts the electric signal into an optical signal and transmits this optical, signal using the connector according to claim 1 . 4. An electronic device, wherein the electric device converts the electric signal into an optical signal and transmits this optical signal using the connector according to claim 2 . 5. A connector comprising: a reception optical module having plurality of signal electrodes each outputting an electric signal; and a reception receptacle having a plurality of contacts to be electrically directly connected to the respective signal electrodes when fitted to the reception optical module, wherein the reception optical module is in a rectangular shape as viewed from the top and has a first side and a second side both extending in parallel in a direction orthogonal to an arrangement direction of the signal electrodes, and a cutout is formed in the second side, the reception receptacle includes a projection fitted in the cutout when the reception optical module is fitted to the reception receptacle, the reception optical module does not have a cutout in a portion of the first side, said portion corresponding to a portion of the cutout in which the projection is fitted, and the connector further comprises an erroneous fitting prevention arrangement preventing erroneous fitting of a transmission optical module to the reception receptacle when the projection is brought into contact with a portion other than a cutout of the transmission optical module. 6. The connector according to claim 5 , wherein the cutout is formed adjacent the signal electrodes, and the projection is formed adjacent the contacts, and a height of the projection from a mounting face on which the projection is mounted is greater than a height of a contact point of the contacts from the mounting face. 7. An electronic device, wherein the electric device converts an optical signal into the electric signal and receives this electric signal, using the connector according to claim 5 . 8. An electronic device, wherein the electric device converts an optical signal into the electric signal and receives this electric signal, using the connector according to claim 6 . 9. An active optical cable comprising: a transmission receptacle having a plurality of transmission contacts each outputting an electric signal for transmission input from outside; a transmission optical module which has a plurality of signal electrodes for transmission to be electrically directly connected to the respective transmission contacts when fitted to the transmission receptacle, and converts the electric signal for transmission input from the transmission receptacle into an optical signal, and transmits this optical signal; an optical cable which is connected to the transmission optical module and transmits the optical signal from the transmission optical module; a reception optical module which is connected to the optical cable and receives the optical signal transmitted through the optical cable and converts this optical signal into an electric signal for reception, and the reception optical module also has a plurality of signal electrodes for reception each outputting the electric signal for reception; and a reception receptacle having a plurality of reception contacts to be electrically directly connected to the respective signal electrodes for reception when fitted to the reception optical module, and outputting, from the reception contacts to outside, the electric signal for reception input from the reception optical module, wherein the transmission optical module is in a rectangular shape as viewed from the top and has a first side and a second side both extending in parallel in a direction orthogonal to an arrangement direction of the signal electrodes, and a first cutout is formed in the first side, the transmission receptacle includes a first projection fitted in the first cutout when the transmission optical module is fitted to the transmission receptacle, the transmission optical module does not have a cutout in a portion of the second side, said portion corresponding to a portion of the first cutout in which the first projection is fitted, the reception optical module is in a rectangular shape as viewed from the top and has a third side and a fourth side both extending in parallel in a direction orthogonal to an arrangement direction of the signal electrodes for reception, and a second cutout is formed in the fourth side, the reception receptacle includes a second projection fitted in the second cutout when the reception optical module is fitted to the reception receptacle, the reception optical module does not have a cutout in a portion of the third side, said portion corresponding to a portion of the second cutout in which the second projection is fitted, and the optical cable further comprises an erroneous fitting prevention arrangement preventing erroneous fitting of the transmission optical module to the reception receptacle when the second projection is brought into contact with a portion of the second side other than the cutout of the transmission optical module, and preventing erroneous fitting of the reception optical module to the transmission receptacle when the first projection is brought into contact with a portion of the third side other than the cutout of the reception optical module. 10. The active optical cable according to claim 9 , wherein the transmission optical module and the reception optical module have the same outer appearances, except for the first cutout and the second cutout; and the transmission receptacle and the reception receptacle have the same outer appearances, except for the first projection and the second projection. 11. An electronic device, wherein the electric device converts the electric signal for transmission into the optical signal and transmits this optical signal, and the electric device also converts the optical signal into the electric signal for reception and receives this electric signal, using the active optical cable according to claim 9 .