Devices and methods prevent injection of a substrate current into the substrate Sub of a CMOS circuit. The devices detect the potential of a contact of the integrated CMOS circuit, compare the value of the potential detected with a reference value and connect the contact to a leakage circuit node for discharging the current such that same does not flow to ground via the parasitic bipolar lateral structure. The leakage circuit node can be connected to the reference potential line or to another line that has a higher potential than the reference potential line. This electrical connection is activated when the value of the potential of the contact is lower than or equal to a reference value.

The present disclosure relates to a steady-state microwave conductivity method that includes modulating a light beam to form an amplitude modulated light having a modulation frequency ω.sub.1, producing a microwave waveform, exposing a sample to the amplitude modulated light and a first portion of the microwave waveform to produce an amplitude modulation signal on the first portion of the microwave waveform, and mixing a second portion of the microwave waveform and the amplitude modulation signal to produce a first signal and a second signal.

A method of characterizing a field-effect transistor, including: a step of application, to the transistor gate, of a single voltage ramp; and a step of interpretation both of gate capacitance variations and of drain current variations of the transistor.

An electrostatic encoder (40) detects the rotation angle of a rotor (42) with great accuracy based on the change in the capacitance between electrodes arranged on a stator (41) and the rotor (42). Detection electrodes (44a to 44d) and transmission electrodes (45a to 45d) are arranged circumferentially and alternately on the stator (41). Detection signals (phase A, phase B) amplitude-modulated based on the rotation of the rotor (42) and having a mutual phase difference of 90 degrees are output from adjacent ones of the detection electrodes. Modulated signals (V1, V2) are generated by demodulating the detection signals having a mutual phase difference of 90 degrees. Applying resolver-digital (RD) conversion processing to the modulated signals allows obtaining the rotation angle of the rotor.

A substrate processing apparatus includes: a chamber configured to perform a wet process and having an internal space, a chuck in the internal spaced and being configured for loading a semiconductor substrate thereon, a probe having an end above the chuck and including an electro-optical crystal and a reflective mirror on one surface of the electro-optical crystal, a measuring unit connected to the probe and configured to provide reference light to the probe, and to detect a polarization component of reflected light reflected from the one end of the probe by the reference light, and a controller configured to calculate an amount of electrostatic charge on a surface of the semiconductor substrate from the polarization component.

A method of analyzing defects in a semiconductor device includes: collecting current data by applying a test voltage to the semiconductor device; extracting data within a decrease range from the current data; dividing the current data into a first component value and a second component value using the current data and the data extracted from within the decrease range; calculating a first quality index from the first component value satisfying a first function; and calculating a second quality index from the second component value satisfying a second function that is different from the first function.

Methods and apparatus for providing measurements in p-n junctions and taking into account the lateral current for improved accuracy are disclosed. The lateral current may be controlled, allowing the spreading of the current to be reduced or substantially eliminated. Alternatively or additionally, the lateral current may be measured, allowing a more accurate normal current to be calculated by compensating for the measured spreading. In addition, the techniques utilized for controlling the lateral current and the techniques utilized for measuring the lateral current may also be implemented jointly.

A method of preparing an iron-implanted semiconductor wafer for use in surface photovoltage iron mapping and other evaluation techniques. A semiconductor wafer is implanted with iron through the at least two different regions of the front surface of the semiconductor at different iron implantation densities, and the iron-implanted semiconductor wafer is annealed at a temperature and duration sufficient to diffuse implanted iron into the bulk region of the semiconductor wafer.

A method for emission testing of a semiconductor device (DUT), by mounting the DUT onto an test bench of an emission tester, the emission tester having an optical detector; electrically connecting the DUT to an electrical tester; applying electrical test signals to the DUT while keeping test parameters constant; serially inserting one of a plurality of shortpass filters into an optical path of the emission tester and collecting emission test signal from the optical detector until all available shortpass filters have been inserted into the optical path; determining appropriate shortpass filter providing highest signal to noise ratio of the emission signal; inserting the appropriate shortpass filter into the optical path; and, performing emission testing on the DUT.

A method for testing a lifetime of a surface state carrier of a semiconductor, including the following steps, 1) a narrow pulse light source is used to emit a light pulse, and coupled to an interior of a near-field optical probe, and the near-field optical probe produces a photon-generated carrier on a surface of a semiconductor material under test through excitation. 2) The excited photon-generated carrier is concentrated on the surface of the semiconductor material, and recombination is conducted continuously with a surface state as a recombination center. 3) A change in a lattice constant is produced due to an electronic volume effect, a stress wave is produced, and a signal of the stress wave is detected in a high-frequency broadband ultrasonic testing mode. 4) Fitting calculation is conducted on the signal of the stress wave to obtain the lifetime of the surface state carrier τ.sub.c.