A novel p-channel selected n-channel divided bit-line NOR(PNOR) flash memory,which features low programming current,low power,high access current,and slight bit-line disturbance,is proposed.By using the source induced band-to-band hot electron injection (SIBE) to perform programming and dividing the bit-line to the sub-bit-lines,the programming current and power can be reduced to 3.5μA and 16.5μW with the sub-bit-line width equaling to 128,and a read current of 60μA is obtained.Furthermore,the bit-line disturbance is also significantly alleviated.
A novel band to band hot electron programming flash memory device,which features programming with high speed,low voltage,low power consumption,large read current and short access time,is proposed.The new memory cell is programmed by band to band tunneling induced hot electron (BBHE) injection method at the drain,and erased by Fowler Nordheim tunneling through the source region.The work shows that the programming control gate voltage can be reduced to 8V,and the drain leakage current is only 3μA/μm.Under the proposed operating conditions,the program efficiency and the read current rise up to 4×10 -4 and 60μA/μm,respectively,and the program time can be as short as 16μs
A novel flash memory cell with stacked structure (Si substrate/SiGe quantum dots/tunneling oxide/polySi floating gate) is proposed and demonstrated to achieve enhanced F-N tunneling for both programming and erasing. Simulation results indicate the new structure provides high speed and reliability. Experimental results show that the operation voltage can be as much as 4V less than that of conventional full F-N tunneling NAND memory cells. Memory cells with the proposed structure can achieve higher speed, lower voltage, and higher reliability.
With modified necessary steps for SiGe implementation,multi-finger power SiGe H BT devices are fabricated in a CMOS process line with 125mm wafer.The devices s how quite high BV CBO 23V.The current gain is very stable over a wide I C.The f T is up to 7GHz at a DC bias of I C=40mA and V CE=8 V,which show high current handling capability.Under continuous conditions in B o peration,the 31dBm output power,10dB G p,and 33.3% of PAE are obtained at 3GHz .Based on extensive tests,it has been demonstrated that the yield on a wafer is up to 85%,which means that the research results are capable of commercialization .
