A new reference voltage generator with ultralow standby current of less than 1 µA is proposed. The features are: 1) a merged scheme of threshold voltage difference generator and voltage-up converter with current mirror circuits, and 2) intermittent activation technique using self-refresh clock for the DRAM. This combination enables the average current to be reduced to 1/100 and the resistance of trimming resistor to be reduced to 1/10 compared to conventional reference voltage generators, while maintaining high accuracy and high stability. The proposed circuit was experimentally evaluated with a test device fabricated using 0.3-µm process. An initial error of less than 4% for 6 trimming steps of the trimming resistor, temperature dependence of less than 370 ppm/ from room temperature to 100, and output noise of less than 12 mV for 1 Vp-p Vcc bumping are achieved. These results are sufficient for achieving high-density battery operated DRAM's with low active and data-retention currents comparable to SRAM's.

To improve the stability and the power supply rejection ratio (PSRR) of the voltage limiter circuit used in high-density DRAM's we present a voltage limiter circuit with pole-zero compensation. Analytical expressions that describe the stability of the circuit are provided for comprehensive consideration of circuit design. Voltage limiters with pole-zero compensation are shown to have excellent performance with respect to the stability, PSRR, and circuit area occupation. The parasitic resistances in internal voltage supply lines, signal transmission lines, and transistors are important parameters determining the stability of pole-zero compensation. Evaluation of a 16-Mbit test device revealed internal voltage fluctuations of 6% during operation of a chip-internal circuit, a phase margin of 53, and a PSRR of 30 dB.