Title :
Charge-transferred presensing, negatively precharged word-line, and temperature-insensitive power-up schemes for low-voltage DRAMs
Author :
Sim, Jae-Yoon ; Kwon, Kee-Won ; Chun, Ki-Chul
Author_Institution :
Memory Div., Samsung Electron. Co. Ltd., Kyunggi-Do, South Korea
fDate :
4/1/2004 12:00:00 AM
Abstract :
A 256-Mb SDRAM is implemented with a 0.12-μm technology to verify three circuit schemes suitable for low-voltage operation. First, a new charge-transferred presensing achieves fast stable low-voltage sensing performance without additional bias levels required in conventional charge-transferred presensing schemes. Second, a negative word-line scheme is proposed to bypass the majority of discharging current to VSS. Without switching signals, main discharging paths are automatically switched from VSS to VBB2 in response to the voltage of each discharging node itself. Finally, to initialize internal nodes during power-up, a temperature-insensitive power-up pulse generator is also proposed. The temperature coefficient of the setup voltage is adjustable through optimization of circuit parameters.
Keywords :
CMOS memory circuits; DRAM chips; circuit optimisation; 0.12 micron; 256 Mbit; CMOS technology; Nanotechnology; SDRAM; VSS; charge-transferred presensing; circuit parameter optimization; circuit verification; discharging current; discharging paths; low-voltage DRAM; low-voltage operation; negatively precharged word-line; setup voltage; switching signals; temperature coefficient; temperature-insensitive power-up pulse generator; temperature-insensitive power-up schemes; Circuit stability; Low voltage; Mass production; Pulse generation; Random access memory; Robust stability; SDRAM; Temperature; Threshold voltage; Variable structure systems;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2004.825224
