A negative impedance circuit including: a first and a second bipolar transistors having a common collector, a base of the first transistor being connected to an emitter of the second transistor; a third and a fourth bipolar transistors having a common collector, a base of the third transistor being connected with an emitter of the fourth transistor; and at least one first impedance formed of one or of a plurality of passive components coupling the common collector of the first and second transistors to the common collector of the third and fourth transistors, a base of the second transistor being coupled to the collector of the third and fourth transistors and a base of the fourth transistor being coupled to the collector of the first and second transistors.

A negative impedance circuit including: a first and a second bipolar transistors having a common collector, a base of the first transistor being connected to an emitter of the second transistor; a third and a fourth bipolar transistors having a common collector, a base of the third transistor being connected with an emitter of the fourth transistor, and at least one first impedance formed of one or of a plurality of passive components coupling the common collector of the first and second transistors to the common collector of the third and fourth transistors, a base of the second transistor being coupled to the collector of the third and fourth transistors and a base of the fourth transistor being coupled to the collector of the first and second transistors.

An integrated circuit includes a buffer circuit, a receiving circuit, and a programmable repeater circuit. The programmable repeater circuit includes a routing input and an enable input. The programmable repeater circuit buffers an input signal received at the routing input from the buffer circuit through a first conductor to generate an output signal that is provided to an input of the receiving circuit through a second conductor only in response to an enable signal at the enable input enabling the programmable repeater circuit.

An integrated circuit includes a buffer circuit, a receiving circuit, and a programmable repeater circuit. The programmable repeater circuit includes a routing input and an enable input. The programmable repeater circuit buffers an input signal received at the routing input from the buffer circuit through a first conductor to generate an output signal that is provided to an input of the receiving circuit through a second conductor only in response to an enable signal at the enable input enabling the programmable repeater circuit.

The present invention provides a semiconductor device realizing suppression of increase in consumption power. A semiconductor device has a signal line, a reception buffer circuit which is coupled to an end of the signal line and to which a signal is supplied from the signal line, and a delay element which is wired-OR coupled to an end of the signal line and shapes waveform of a signal at the end of the signal line.

The present invention provides a semiconductor device realizing suppression of increase in consumption power. A semiconductor device has a signal line, a reception buffer circuit which is coupled to an end of the signal line and to which a signal is supplied from the signal line, and a delay element which is wired-OR coupled to an end of the signal line and shapes waveform of a signal at the end of the signal line.

An apparatus configured to apply equalization to an input data signal and detect data based on the equalized data signal. The apparatus includes a passive equalizer comprising a first signal path configured to generate a first signal based on an input signal, and a second signal path configured to generate a second signal by filtering the input signal. The apparatus further includes a sense amplifier having an input circuit configured to generate a third signal related to a combination of the first and second signals, and a data detection circuit configured to generate data based on the third signal. The data detection circuit may be configured as a strong-arm latch. The third signal may be a differential current signal including positive and negative current components. The strong-arm latch generating data based on whether the positive current component is greater than the negative current component.

An apparatus configured to apply equalization to an input data signal and detect data based on the equalized data signal. The apparatus includes a passive equalizer comprising a first signal path configured to generate a first signal based on an input signal, and a second signal path configured to generate a second signal by filtering the input signal. The apparatus further includes a sense amplifier having an input circuit configured to generate a third signal related to a combination of the first and second signals, and a data detection circuit configured to generate data based on the third signal. The data detection circuit may be configured as a strong-arm latch. The third signal may be a differential current signal including positive and negative current components. The strong-arm latch generating data based on whether the positive current component is greater than the negative current component.