A method of analyzing an electrical circuit applied for an electrical system is disclosed. The method includes steps of obtaining a loss parameter and an eye diagram of a circuit channel of the electrical system; comparing the eye diagram with a standard eye diagram to generate a comparison result; generating an analytic result of the loss parameter according to the comparison result in order to adjust the eye diagram; and adjusting the loss parameter according to the analytic result.

A method of analyzing an electrical circuit applied for an electrical system is disclosed. The method includes steps of obtaining a loss parameter and an eye diagram of a circuit channel of the electrical system; comparing the eye diagram with a standard eye diagram to generate a comparison result; generating an analytic result of the loss parameter according to the comparison result in order to adjust the eye diagram; and adjusting the loss parameter according to the analytic result.

A failure determination circuit includes a first A/D conversion circuit that continuously A/D converts a first analog signal based on a first physical quantity measurement signal, a switching circuit that receives a plurality of signals including a second analog signal based on the first physical quantity measurement signal and a first reference voltage and outputs the plurality of signals in a time division manner, a second A/D conversion circuit that A/D converts the output of the switching circuit, and a determination circuit, and the determination circuit determines a failure of the first A/D conversion circuit using a signal based on a first digital signal obtained by A/D converting the first analog signal by the first A/D conversion circuit and a signal based on a second digital signal obtained by A/D converting the second analog signal by the second A/D conversion circuit.

A failure determination circuit includes a first A/D conversion circuit that continuously A/D converts a first analog signal based on a first physical quantity measurement signal, a switching circuit that receives a plurality of signals including a second analog signal based on the first physical quantity measurement signal and a first reference voltage and outputs the plurality of signals in a time division manner, a second A/D conversion circuit that A/D converts the output of the switching circuit, and a determination circuit, and the determination circuit determines a failure of the first A/D conversion circuit using a signal based on a first digital signal obtained by A/D converting the first analog signal by the first A/D conversion circuit and a signal based on a second digital signal obtained by A/D converting the second analog signal by the second A/D conversion circuit.

To provide a semiconductor device capable of easily testing a built-in self-test control circuit itself, the semiconductor device has: a test pattern generator; an output response analyzer configured to compare an expected value to a test result of a circuit; a plurality of test control circuits each configured to control the test pattern generator and the output response analyzer; and a circuit under test. The semiconductor device has: a first test mode in which a first test control circuit controls the test pattern generator and the output response analyzer to cause the test pattern, to thereby perform a test; and a second test mode in which the test control circuit other than the first test control circuit controls the test pattern generator and the output response analyzer to cause the test pattern, to thereby perform a test.

To provide a semiconductor device capable of easily testing a built-in self-test control circuit itself, the semiconductor device has: a test pattern generator; an output response analyzer configured to compare an expected value to a test result of a circuit; a plurality of test control circuits each configured to control the test pattern generator and the output response analyzer; and a circuit under test. The semiconductor device has: a first test mode in which a first test control circuit controls the test pattern generator and the output response analyzer to cause the test pattern, to thereby perform a test; and a second test mode in which the test control circuit other than the first test control circuit controls the test pattern generator and the output response analyzer to cause the test pattern, to thereby perform a test.

Provided herein may be a test circuit of an electronic device, the electronic device including the test circuit, and an operating method thereof. The electronic device may include analog circuits, a control circuit configured to connect, to an output terminal, each of a plurality of nodes respectively included in the analog circuits to an output terminal, a control signal generator configured to generate a control signal for controlling the control circuit based on an input signal received from an external device, and a switching circuit disposed on an electrical path for connecting the plurality of nodes and the control circuit to each other and configured to be electrically open during a preset time amount from a time point at which a voltage from an external power source starts to be applied to the control circuit.

Provided herein may be a test circuit of an electronic device, the electronic device including the test circuit, and an operating method thereof. The electronic device may include analog circuits, a control circuit configured to connect, to an output terminal, each of a plurality of nodes respectively included in the analog circuits to an output terminal, a control signal generator configured to generate a control signal for controlling the control circuit based on an input signal received from an external device, and a switching circuit disposed on an electrical path for connecting the plurality of nodes and the control circuit to each other and configured to be electrically open during a preset time amount from a time point at which a voltage from an external power source starts to be applied to the control circuit.

An integrated circuit (IC) includes: a first functional analog pin or pad; a first analog test bus coupled to the first functional analog pin or pad; first and second analog circuits coupled to the first analog test bus; and a test controller configured to: when the IC is in a functional operating mode, connect an input or output of the first analog circuit to the first analog test bus so that the input or output of the first analog circuit is accessible by the first functional analog pin or pad, and keep disconnected an input or output of the second analog circuit from the first analog test bus, and when the IC is in a test mode, selectively connect the input or output of the first and second analog circuits to the first analog test bus to test the first and second analog circuits using the first analog test bus.

An integrated circuit (IC) includes: a first functional analog pin or pad; a first analog test bus coupled to the first functional analog pin or pad; first and second analog circuits coupled to the first analog test bus; and a test controller configured to: when the IC is in a functional operating mode, connect an input or output of the first analog circuit to the first analog test bus so that the input or output of the first analog circuit is accessible by the first functional analog pin or pad, and keep disconnected an input or output of the second analog circuit from the first analog test bus, and when the IC is in a test mode, selectively connect the input or output of the first and second analog circuits to the first analog test bus to test the first and second analog circuits using the first analog test bus.