Abstract: The cells of a memory cell array are programmed in a pair wise manner. The pairs are separated by at least one memory cell, reducing the possibility of interference between the pairs during programming. The memory cells are programmed individually by applying a relatively high voltage to one of the bit lines of each cell regardless whether the cells are to be programmed or not, while applying a lower voltage to the second bit lines, depending on whether the cells are to be programmed or not. This programming voltage assignment enhances the speed of programming. Furthermore, the pair wise programming scheme applies the necessary high voltages only half as often as in previous schemes to program all the cells of the array, increasing the lifetime of the memory system.
Abstract: A non-volatile flash memory system counts the occurrences of an event, such as the number of times that individual blocks have been erased and rewritten, by updating a compressed count only once for the occurrence of a large number of such events. A random or pseudo-random number generator outputs a new number in response to individual occurrences of the event, and updates the compressed count when an output of the random number generator matches a predetermined number. The probability of the predetermined number being generated by the random number generator in response to a single event may be varied as the function of some other factor, such as the value of the compressed count, when that provides more useful tracking of the number of events. These techniques also have application to monitoring other types of recurring events in flash memory systems or in other types of electronic systems.
Abstract: A sample and hold circuit uses an auto-zero feedback technique to cancel the DC level of the input signal and reference this signal to a new baseline. The circuit is based on an op-amp with two separate feedback loops. The first feedback loop is connected to the same op-amp input as the incoming signal and contains a capacitor to store charge from this signal during sample mode and set the output voltage during hold mode. The second feedback loop uses an auto-zero feedback technique and contains an integrator having a predetermined reference voltage, thereby allowing the DC level of the input signal to removed without the need for capacitors in the gain path of the circuit. This allows the sample and hold circuit to extract an embedded time varying signal from the input voltage. It can be configured for a high gain, high pass function, without the need for large electrolytic capacitors in the gain path, removing the problems associated with such capacitors.
Abstract: A method for manufacturing a semiconductor device in which ROM programming ion implantation is performed by utilizing the same mask as used for implanting dopant in MOS transistors. The ROM programming ion implantation is conducted under the same conditions as the MOS transistor forming step. Only a single mask needs to be modified for the programming, thus reducing cost and complexity of manufacturing the device.
Abstract: A technique for simulating various signals, such as from radar emitters, in a broad frequency spectrum by generating at any given instant only those of the signals that affect a receiver which is tuned to a particular bandwidth. As the receiver is tuned to a new bandwidth, the simulating system responds by quickly generating any signal or signals that exist in the new bandwidth.