Abstract: An apparatus and method is provided for adjusting a reference voltage at an output terminal of a floating gate reference voltage generator circuit in order to improve the accuracy of the reference voltage at an input terminal of a load circuit. The apparatus and method compensates for the voltage drop produced between the output terminal of the reference voltage generator circuit and the input terminal of the load circuit, and includes a capacitor for capacitively coupling the voltage at the input terminal of said load circuit to a floating gate, and a differential amplifier operatively coupled to the floating gate which acts in response to the capacitively coupled load circuit input voltage to adjust the voltage at the output terminal such that the voltage at the input terminal of the load circuit becomes equal to the reference voltage.

Abstract: A floating gate circuit in a read mode that includes at least one floating gate and an analog feedback circuit is disclosed. The feedback circuit causes the floating gate circuit to reach a steady state condition in the read mode such that a reference voltage is generated that is a predetermined function of an input set voltage used to set the at least one floating gate. In a preferred embodiment, the reference voltage generated is approximately equal to the input set voltage.

Abstract: A method and apparatus for setting a floating gate in a floating gate circuit using dual conduction of Fowler-Nordheim tunnel devices is disclosed. In one embodiment, the present invention comprises a floating gate circuit having a single floating gate. During a set mode, the charge level on the floating gate is modified until it is set to a predetermined charge level that is a function of an input set voltage. In another embodiment, the floating gate circuit comprises two floating gates. During a set mode the charge level on each of the floating gates is modified until the difference in charge level between the two floating gates is a predetermined function of an input set voltage that is capacitively coupled to one of the floating gates during the set mode.

Abstract: An apparatus for using feedback to set a floating gate to a desired voltage during a set mode is disclosed. The apparatus includes a floating gate, a first and second tunnel device formed respectively between the floating gate and a first and second electrode, a first circuit coupled to the floating gate for comparing the voltage on the floating gate to a third voltage and for generating an output voltage at an output terminal, and a feedback circuit coupled between the output terminal and the floating gate. The feedback circuit includes the first tunnel device and a third tunnel device for causing the floating gate voltage to be modified as a function the output voltage until the floating gate voltage, the third voltage and the output voltage are approximately equal.

Abstract: A method and circuit for programming a floating gate in a differential floating gate circuit to an input set voltage. The circuit includes a differential amplifier circuit for comparing the voltage on a floating gate with an input set voltage, and a gain stage for amplifying any voltage differential between those two voltages. During a set mode, an erase and a program tunnel device operate in a dual conduction mode for modifying the voltage on the floating gate. The output at the gain stage is used to modify the voltage across the erase tunnel device via a feedback loop until the differential floating gate circuit settles to a steady state condition such that the floating gate voltage is approximately equal to the input set voltage. Thereafter, during a read mode, the differential floating gate circuit may be reconfigured to preferably function as a voltage comparator with a built-in voltage reference.

Abstract: A method for sensing the voltage on a floating gate in a floating gate circuit during a set mode is disclosed.

Abstract: A method and circuit for programming a floating gate in a differential floating gate circuit to an input set voltage. The circuit includes a differential amplifier circuit for comparing the voltage on a floating gate with an input set voltage, and a gain stage for amplifying any voltage differential between those two voltages. During a set mode, an erase and a program tunnel device operate in a dual conduction mode for modifying the voltage on the floating gate. The output at the gain stage is used to modify the voltage across the erase tunnel device via a feedback loop until the differential floating gate circuit settles to a steady state condition such that the floating gate voltage is approximately equal to the input set voltage. Thereafter, during a read mode, the differential floating gate circuit may be reconfigured to preferably function as a voltage comparator with a built-in voltage reference.

Abstract: An apparatus for using feedback to set a floating gate to a desired voltage during a set mode is disclosed. The apparatus includes a floating gate, a first and second tunnel device formed respectively between the floating gate and a first and second electrode, a first circuit coupled to the floating gate for comparing the voltage on the floating gate to a third voltage and for generating an output voltage at an output terminal, and a feedback circuit coupled between the output terminal and the floating gate. The feedback circuit includes the first tunnel device and a third tunnel device for causing the floating gate voltage to be modified as a function the output voltage until the floating gate voltage, the third voltage and the output voltage are approximately equal.

Abstract: A method for sensing the voltage on a floating gate in a floating gate circuit during a set mode is disclosed.

Abstract: An apparatus and method is provided for adjusting a reference voltage at an output terminal of a floating gate reference voltage generator circuit in order to improve the accuracy of the reference voltage at an input terminal of a load circuit. The apparatus and method compensates for the voltage drop produced between the output terminal of the reference voltage generator circuit and the input terminal of the load circuit, and includes a capacitor for capacitively coupling the voltage at the input terminal of said load circuit to a floating gate, and a differential amplifier operatively coupled to the floating gate which acts in response to the capacitively coupled load circuit input voltage to adjust the voltage at the output terminal such that the voltage at the input terminal of the load circuit becomes equal to the reference voltage.

Abstract: A floating gate circuit having a level shift circuit is disclosed. The floating gate circuit includes: a floating gate; a first and second tunnel device formed respectively between a first and second tunnel electrode; a first circuit coupled to the floating gate for generating an output voltage at an output terminal; a level shift circuit having a third tunnel device coupled between the output terminal and the first tunnel electrode; and a second circuit for causing a first current to flow through the first and second tunnel devices and for causing a second current to flow through the third tunnel device. The floating gate circuit then settles to a steady state condition during the set mode such that the first and second currents are approximately equal and the floating gate voltage and the output voltage are approximately equal.

Abstract: A floating gate circuit in a read mode that includes at least one floating gate and an analog feedback circuit is disclosed. The feedback circuit causes the floating gate circuit to reach a steady state condition in the read mode such that a reference voltage is generated that is a predetermined function of an input set voltage used to set the at least one floating gate. In a preferred embodiment, the reference voltage generated is approximately equal to the input set voltage.

Abstract: A method and circuit for setting a reference voltage in a dual floating gate circuit is disclosed. During a set mode, a first and second floating gate are programmed to different charge levels that are a function of an input set voltage capacitively coupled to the first floating gate during the set mode. During a read mode, this difference in charge level is is used by the dual floating gate circuit to generate a reference voltage that is a function of the input set voltage, and is preferably equal to the input set voltage.

Abstract: A method and apparatus for setting a floating gate in a floating gate circuit using dual conduction of Fowler-Nordheim tunnel devices is disclosed. In one embodiment, the present invention comprises a floating gate circuit having a single floating gate. During a set mode, the charge level on the floating gate is modified until it is set to a predetermined charge level that is a function of an input set voltage. In another embodiment, the floating gate circuit comprises two floating gates. During a set mode the charge level on each of the floating gates is modified until the difference in charge level between the two floating gates is a predetermined function of an input set voltage that is capacitively coupled to one of the floating gates during the set mode.

Abstract: A wireless communication system for communicating between a host system and a stand-alone device through an electromagnetic coupling medium is disclosed. The communication system has the capabilities of bi-directional data communications between the host and the stand-alone device and of powering the stand-alone device with energy pulses coupled through the electromagnetic coupling medium from the host. The electromagnetic medium is capable of supporting the bi-directional flow of energy pulses and energy transitions thereof between the host and stand-alone device. In one embodiment, bi-directional communication is provided by transmitting and detecting predetermined numbers of consecutive energy transitions coupled through the medium. Resting durations immediately precede and follow each predetermined number of consecutive energy transitions.

Abstract: A wireless communication system for communicating between a host system and a stand-alone device through an electromagnetic coupling medium is disclosed. The communication system has the capabilities of bi-directional data communications between the host and the stand-alone device and of powering the stand-alone device with energy pulses coupled through the electromagnetic coupling medium from the host. The electromagnetic medium is capable of supporting the bi-directional flow of energy pulses and energy transitions thereof between the host and stand-alone device. In one embodiment, bi-directional communication is provided by transmitting and detecting predetermined numbers of consecutive energy transitions coupled through the medium. Resting durations immediately precede and follow each predetermined number of consecutive energy transitions.

Abstract: A wireless communication system for communicating between a host system and a stand-alone device through an electromagnetic coupling medium is disclosed. The communication system has the capabilities of bi-directional data communications between the host and the stand-alone device and of powering the stand-alone device with energy pulses coupled through the electromagnetic coupling medium from the host. The electromagnetic medium is capable of supporting the bi-directional flow of energy pulses and energy transitions thereof between the host and stand-alone device. In one embodiment, bi-directional communication is provided by transmitting and detecting predetermined numbers of consecutive energy transitions coupled through the medium. Resting durations immediately precede and follow each predetermined number of consecutive energy transitions.

Abstract: A field-programmable redundancy apparatus for integrated circuit semiconductor memory arrays is disclosed. The present invention allows the user to replace a defective memory cell with a redundant memory cell while the integrated circuit memory array is in the field. The user communicates with the redundancy apparatus over standard signal paths of the integrated circuit semiconductor memory array and with standard voltage levels. The redundancy apparatus detects a predetermined code sequence on one or more of the address and data lines of the memory array to enter a special redundancy-reconfiguration mode. In the reconfiguration mode, the redundancy apparatus provides information on the availability and functionality of the redundant memory cells and enables the user to replace a defective memory cell with a selected redundant memory cell.

Abstract: A field-programmable redundancy apparatus for integrated circuit semiconductor memory arrays is disclosed. The present invention allows the user to replace a defective memory cell with a redundant memory cell while the integrated circuit memory array is in the field. The user communicates with the redundancy apparatus over the standard signal paths with standard voltage levels of the integrated circuit semiconductor memory array. The redundancy apparatus detects a predetermined code sequence on one or more of the address and data lines of the memory array to enter a special redundancy-reconfiguration mode. In the reconfiguration mode, the redundancy apparatus provides information on the availability and functionality of the redundant memory cells and enables the user to replace a defective memory cell with a selected redundant memory cell.

Abstract: A variable impedance circuit for use in an external circuit is disclosed. The impedance value is selected by an external circuit. The variable impedance is generated between two terminals which are accessible for connection to external circuitry. The impedance provided between these terminals is determined by a control circuit responsive to electrical signals coupled to the control circuit. An internal register in the control circuit stores a value which specifies the impedance between the two terminals. The stored value is copied into a programmable nonvolatile read-only memory in response to a first predetermined electrical signal. Similarly, the value stored in the read-only memory is selectively copied into the internal control circuit register in response to a second predetermined electrical signal.