In one embodiment, a programming circuit is configured to form a programming current for a silicide fuse element by using a non-silicide programming element.

In one embodiment, a programming circuit is configured to form a programming current for a silicide fuse element by using a non-silicide programming element.

Apparatus and methods for soft post package repair are disclosed. One such apparatus can include memory cells in a package, volatile memory configured to store defective address data responsive to entering a soft post-package repair mode, a match logic circuit and a decoder. The match logic circuit can generate a match signal indicating whether address data corresponding to an address to be accessed matches the defective address data stored in the volatile memory. The decoder can select a first group of the memory cells to be accessed instead of a second group of the memory cells responsive to the match signal indicating that the address data corresponding to the address to be accessed matches the defective address data stored in the volatile memory. The second group of the memory cells can correspond to a replacement address associated with other defective address data stored in non-volatile memory of the apparatus.

Apparatus and methods for soft post package repair are disclosed. One such apparatus can include memory cells in a package, volatile memory configured to store defective address data responsive to entering a soft post-package repair mode, a match logic circuit and a decoder. The match logic circuit can generate a match signal indicating whether address data corresponding to an address to be accessed matches the defective address data stored in the volatile memory. The decoder can select a first group of the memory cells to be accessed instead of a second group of the memory cells responsive to the match signal indicating that the address data corresponding to the address to be accessed matches the defective address data stored in the volatile memory. The second group of the memory cells can correspond to a replacement address associated with other defective address data stored in non-volatile memory of the apparatus.

A semiconductor memory device with a three-dimensional (3D) structure may include: a cell region arranged over a substrate, including a cell structure; a peripheral circuit region arranged between the substrate and the cell region; an upper wiring structure arranged over the cell region; main channel films and dummy channel films formed through the cell structure. The dummy channel films are suitable for electrically coupling the upper wiring structure.

A semiconductor memory device with a three-dimensional (3D) structure may include: a cell region arranged over a substrate, including a cell structure; a peripheral circuit region arranged between the substrate and the cell region; an upper wiring structure arranged over the cell region; main channel films and dummy channel films formed through the cell structure. The dummy channel films are suitable for electrically coupling the upper wiring structure.

A circuit includes an operational amplifier including an inverting input terminal capacitively coupled to each of an OTP cell array and an NVM cell array and first and second output terminals, an ADC coupled to the first and second output terminals, thereby configured to receive a differential output voltage from the operational amplifier, and a comparator coupled to the ADC and configured to output a data bit responsive to a digital output signal received from the ADC. The circuit is configured to cause the operational amplifier to generate the differential output voltage based on each of a current received from an OTP cell of the OTP cell array and a voltage received from an NVM cell of the NVM cell array.

A circuit includes an operational amplifier including an inverting input terminal capacitively coupled to each of an OTP cell array and an NVM cell array and first and second output terminals, an ADC coupled to the first and second output terminals, thereby configured to receive a differential output voltage from the operational amplifier, and a comparator coupled to the ADC and configured to output a data bit responsive to a digital output signal received from the ADC. The circuit is configured to cause the operational amplifier to generate the differential output voltage based on each of a current received from an OTP cell of the OTP cell array and a voltage received from an NVM cell of the NVM cell array.

A semiconductor device includes a storage element write unit including a storage element configured to be electrically written only once and store two values, a write controller connected to the storage element through a first node signal and configured to perform a write to the storage element based on a write control signal instructing a write to the storage element, and a write state detection circuit configured to detect that the storage element is in a write state based on a measurement signal obtained by measuring the first node signal. In a case where the write controller receives a detection signal indicating that the storage element is in the write state from the write state detection circuit after start of a write to the storage element, the write controller stops write operation after a lapse of a predetermined time from detection of the write state of the storage element.

A semiconductor device includes a storage element write unit including a storage element configured to be electrically written only once and store two values, a write controller connected to the storage element through a first node signal and configured to perform a write to the storage element based on a write control signal instructing a write to the storage element, and a write state detection circuit configured to detect that the storage element is in a write state based on a measurement signal obtained by measuring the first node signal. In a case where the write controller receives a detection signal indicating that the storage element is in the write state from the write state detection circuit after start of a write to the storage element, the write controller stops write operation after a lapse of a predetermined time from detection of the write state of the storage element.