Abstract: An auto-nulled bandgap reference system employing a substrate bandgap reference circuit with primary and auxiliary amplifiers and a switching circuit which in a first mode develops a voltage to null the offset and noise errors of the auxiliary amplifier and then in the second mode uses the nulled auxiliary amplifier to develop a voltage to null the offset and noise errors of the primary amplifier; and a strobe circuit including an output storage device and a strobe control circuit for periodically powering up a bandgap reference circuit to charge the output storage device and powering down the bandgap reference circuit to conserve power.

Abstract: Real-time clock calibration is accomplished by generating a fast clock signal and a slow clock signal from an uncompensated clock signal; selectively, momentarily, replacing the uncompensated clock signal with the fast and slow clock signal to generate a compensated clock signal; generating from the compensated clock signal a calibration strobe and window trigger; responding to the window trigger to detect any uncompensated clock signal frequency error and responding to the calibration strobe to selectively, momentarily, replace the uncompensated clock signal with the fast or slow clock signal to reduce the clock signal frequency error.

Abstract: An auto-nulled bandgap reference system employing a substrate bandgap reference circuit with primary and auxiliary amplifiers and a switching circuit which in a first mode develops a voltage to null the offset and noise errors of the auxiliary amplifier and then in the second mode uses the nulled auxiliary amplifier to develop a voltage to null the offset and noise errors of the primary amplifier; and a strobe circuit including an output storage device and a strobe control circuit for periodically powering up a bandgap reference circuit to charge the output storage device and powering down the bandgap reference circuit to conserve power.

Abstract: An auto-nulled bandgap reference system employing a substrate bandgap reference circuit with primary and auxiliary amplifiers and a switching circuit which in a first mode develops a voltage to null the offset and noise errors of the auxiliary amplifier and then in the second mode uses the nulled auxiliary amplifier to develop a voltage to null the offset and noise errors of the primary amplifier; and a strobe circuit including an output storage device and a strobe control circuit for periodically powering up a bandgap reference circuit to charge the output storage device and powering down the bandgap reference circuit to conserve power.

Abstract: An auto-nulled bandgap reference system employing a substrate bandgap reference circuit with primary and auxiliary amplifiers and a switching circuit which in a first mode develops a voltage to null the offset and noise errors of the auxiliary amplifier and then in the second mode uses the nulled auxiliary amplifier to develop a voltage to null the offset and noise errors of the primary amplifier; and a strobe circuit including an output storage device and a strobe control circuit for periodically powering up a bandgap reference circuit to charge the output storage device and powering down the bandgap reference circuit to conserve power.

Abstract: Real-time clock calibration is accomplished by generating a fast clock signal and a slow clock signal from an uncompensated clock signal; selectively, momentarily, replacing the uncompensated clock signal with the fast and slow clock signal to generate a compensated clock signal; generating from the compensated clock signal a calibration strobe and window trigger; responding to the window trigger to detect any uncompensated clock signal frequency error and responding to the calibration strobe to selectively, momentarily, replace the uncompensated clock signal with the fast or slow clock signal to reduce the clock signal frequency error.

Abstract: A random access memory (RAM) having an array of memory cells the signal lines to which are activatable by corresponding current sources. The memory is divided into "pages", and control pulses are produced to turn on the current sources involved in activating the signal lines to any page of memory cells being accessed and to turn off the remainder. The control pulses are directed through a pipelined pair of registers, and a look-ahead logic circuit examines the two pipelined control pulses identified as the "present" and "next" pulses. This logic circuitry serves to turn on the current sources for the page of memory to be accessed during the next clock time, and to maintain in an on state the current sources for the page of memory presently being accessed.

Abstract: A random access memory (RAM) having an array of memory cells the signal lines to which are activatable by corresponding current sources. The memory is divided into "pages", and control pulses are produced to turn on the current sources involved in activating the signal lines to any page of memory cells being accessed and to turn off the remainder. The control pulses are directed through a pipelined pair of registers, and a look-ahead logic circuit examines the two pipelined control pulses identified as the "present" and "next" pulses. This logic circuitry serves to turn on the current sources for the page of memory to be accessed during the next clock time, and to maintain in an on state the current sources for the page of memory presently being accessed.

Abstract: A D-to-A converter of the type having a number of current sources each connected to a pair of switches operable by binary control pulses for directing the source current either to the output line or to ground. Power to operate the DAC is reduced by special control circuitry which opens both switches of any given switch pair whenever two successive control pulses call for the output-line switch to be open.

Abstract: An interpolator circuit is formed from a chain of multiplexer/adder circuits. Each multiplexer/adder circuit selects one of the two multi-bit binary values which are to be interpolated in accordance with one bit of a multi-bit ratio value. The selected value is shifted and added to the output of a previous stage in the chain. When one of the two values is injected into the first stage, the final sum generated by the circuit chain is the interpolated value.