Patent ID: 8159273

Claim:
A transmission circuit, comprising: a first circuit outputting a first differential signal and at least one first control signal based on an input data, wherein the first circuit includes a first buffer and a second buffer coupled in parallel, wherein the first buffer includes at least two transistors; a second circuit outputting a second differential signal and at least one second control signal based on the input data, wherein the second circuit includes a third buffer and a fourth buffer coupled in parallel, wherein the third buffer includes at least two transistors; a first correction circuit outputting, based on at least one second control signal, a correction signal to the fourth buffer of the second circuit for reducing variation in current drive capabilities of one of the two transistors of the third buffer of the second circuit; and a second correction circuit outputting, based on at least one first control signal, a correction signal to the second buffer of the first circuit for reducing variation in current drive capabilities of one of the two transistors of the first buffer of the first circuit, wherein each of the first buffer and the third buffer comprises, as the two transistors provided between a power supply on a high potential side and a power supply on a low potential side, a P-channel MOS transistor and an N-channel MOS transistor coupled to the P-channel MOS transistor, and allows either of the transistors to turn on and outputs the first or second signal from a node located at a coupling point of the P-channel MOS transistor and the N-channel MOS transistor, and wherein each of the second buffer and the fourth buffer comprises, between the power supply on the high potential side and the power supply on the low potential side, another P-channel MOS transistor and another N-channel MOS transistor coupled to the another P-channel MOS transistor, and couples a coupling point of the another P-channel MOS transistor and the another N-channel MOS transistor to the node and allows the correction signal to be input to each gate of the another P-channel MOS transistor and the another N-channel MOS transistor, wherein, in each of the first and second correction circuits, a correction P-channel MOS transistor and a diode-coupled correction N-channel MOS transistor are coupled in series between the power supply on the high potential side and the power supply on the low potential side, and a drive signal for driving the P-channel MOS transistor of the first buffer and the third buffer is input to a gate of the correction P-channel MOS transistor as a control signal, and the correction signal for driving the N-channel MOS transistor of the second buffer and the fourth buffer is output from a drain of the diode-coupled correction N-channel MOS transistor.