Your search keyword '"Power flash"' showing total 5 results

1. Toward Low-Power Flash Memory: Prospect of Adopting Crystalline Oxide as Charge Trapping Layer

Author

Yung-Hsien Wu, Kuen-Yi Chen, Shih-Chieh Teng, and Hui-Hsin Chang

Subjects

Materials science, Power flash, 02 engineering and technology, 01 natural sciences, Flash memory, 0103 physical sciences, Charge trap flash, low voltage, Electrical and Electronic Engineering, environmental sustainability, high-k dielectric, green devices, 010302 applied physics, Hardware_MEMORYSTRUCTURES, business.industry, Electrical engineering, crystalline oxide, 021001 nanoscience & nanotechnology, Electronic, Optical and Magnetic Materials, Power (physics), Green flash, Semiconductor, Ferroelectric RAM, lcsh:Electrical engineering. Electronics. Nuclear engineering, 0210 nano-technology, business, lcsh:TK1-9971, Biotechnology, Voltage

Abstract

The rapid growth of data center, ubiquitous cloud computing, and mobile gadgets has made flash memory one of the major semiconductor markets. The booming request of flash memory has not only brought substantial economic and societal benefit but led to growing power consumption. The operation voltage of existent flash memory is in the range of 15–17 V which still has much room to be reduced to save power while ensuring environmental sustainability. To enable flash memory at lower voltage, developing innovative materials and structures is a prerequisite. Recently, crystalline oxide is extensively developed as a novel charge trapping layer (CTL) and holds the prospect of becoming a promising candidate for memory applications by demonstrating operation voltage lower than 10 V. In this paper, how crystalline oxide in the form of high-k dielectric and semiconductor material can be employed in flash memory as the CTL to reduce the operation voltage and the mechanism to achieve this goal are reviewed. From the good memory performance in terms of a large memory window of 1.5 V by programming/erasing at voltage lower than 10 V for 1 ms, endurance more than $10^{5}$ operation cycles, desirable retention at 85 °C, employing crystalline oxide as the CTL has ushered in a new field to implement green flash memory devices.

Published

2016

2. FDSOI molecular flash cell with reduced variability for low power flash applications

Author

Salvatore Maria Amoroso, Vihar P. Georgiev, Laia Vilà-Nadal, Asen Asenov, Cristoph Busche, Leroy Cronin, Bez, R., Pavan, P., and Meneghesso, G.

Subjects

010302 applied physics, Hardware_MEMORYSTRUCTURES, Materials science, Dopant, business.industry, Power flash, Gate dielectric, Silicon on insulator, Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Threshold voltage, Power (physics), Flash (photography), Memory cell, 0103 physical sciences, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Optoelectronics, 0210 nano-technology, business

Abstract

In this work we present a modeling study of a conceptual low power non-volatile memory cell based on inorganic molecular metal oxide clusters (polyoxometalates (POM)) as a storage media embedded in the gate dielectric of a Fully Depleted SOI (FD SOI) with reduced statistical variability. The simulations were carried out using a multi-physics simulation framework, which allows us to evaluate the variability in the programming window of the molecular based flash cell with an 18 nm gate length. We have focused our study on the threshold voltage variability influenced by random dopant fluctuations and random special fluctuations of the molecules in the floating gate of the flash-cell. Our simulation framework and conclusions can be applied not only to POM-based flash cell but also to flash cells based on alternative molecules used as a storage media.

Published

2014

3. 30Kw peak power flash-lamp pumped novel Nd:YAG solid-state laser

Author

Xuesheng Liu, Yinghua Cao, Zhiyong Wang, and Sun Yao

Subjects

Materials science, Power flash, business.industry, Laser, Beam parameter product, Power (physics), law.invention, Resonator, Optics, Solid-state laser, law, business, Energy (signal processing), Pulse-width modulation

Abstract

A high energy high peak power flash-lamp pumped pulsed Nd:YAG solid-state laser is reported in this paper. The symmetrical resonator laser is developed and rated at single pulse energy 60 J, peak power 30 Kw with beam parameter product 2 mm·mrad. The total system electro-optics efficiency of the lamp-pumped YAG laser is as high as 3.1 % with pulse width tunable between 0.05 ∼ 2 ms. The results are consistent with the theoretical analysis and simulation.A high energy high peak power flash-lamp pumped pulsed Nd:YAG solid-state laser is reported in this paper. The symmetrical resonator laser is developed and rated at single pulse energy 60 J, peak power 30 Kw with beam parameter product 2 mm·mrad. The total system electro-optics efficiency of the lamp-pumped YAG laser is as high as 3.1 % with pulse width tunable between 0.05 ∼ 2 ms. The results are consistent with the theoretical analysis and simulation.

Published

2009

4. New erase scheme suitable for low power flash memory application

Author

Mark S Ramsbey, Vei-Han Chan, Jih Lien, Hao Fang, A. Wang, Chi Chang, Yuan Tang, Sameer Haddad, and Yu Sun

Subjects

Flash (photography), Reliability (semiconductor), Materials science, business.industry, Power flash, Electrical engineering, Temperature cycling, EPROM, business, Flash memory, Avalanche breakdown, Voltage

Abstract

A novel erasing method utilizing avalanche hot-electron injection for low power flash memory applications is proposed and investigated. In this new bias scheme, a single internally pumped voltage (

Published

2002

5. Evaluation of CaLaSOAP: Nd for high‐power flash‐pumpedQ‐switched lasers

Author

G. D. Baldwin and K. B. Steinbruegge

Subjects

Materials science, Physics and Astronomy (miscellaneous), law, Power flash, Impurity, business.industry, Optoelectronics, Thermal lensing, Laser, business, Q-switching, Power (physics), law.invention

Abstract

Pump‐induced thermal lensing and bifocusing have been measured for flash‐pumped CaLaSOAP:Nd, together with long‐pulse and Q‐switched laser efficiencies. The results show that CaLaSOAP:Nd maintains its high efficiency in the Q‐switched mode, that it is capable of average power operation exceeding 1 J at 30 pps, and that bifocusing is less severe in CaLaSOAP:Nd than in YAG:Nd.

Published

1974