Title :
Characteristics of SONOS-Type Flash Memory With In Situ Embedded Silicon Nanocrystals
Author :
Chiang, Tsung-Yu ; Wu, Yi-Hong ; Ma, William Cheng-Yu ; Kuo, Po-Yi ; Wang, Kuan-Ti ; Liao, Chia-Chun ; Yeh, Chi-Ruei ; Yang, Wen-Luh ; Chao, Tien-Sheng
Author_Institution :
Dept. of Electrophys., Nat. Chiao Tung Univ., Hsinchu, Taiwan
Abstract :
In this paper, silicon-oxide-nitride-oxide-semiconductor (SONOS) devices with embedded silicon nanocrystals (Si-NCs) in silicon nitride using in situ method with multilevel and 2-b/cell operation have been successfully demonstrated. The proposed in situ Si-NC deposition method exhibits the advantages of low cost, simplicity, and compatibility with modern IC processes. SONOS memories with embedded Si-NCs exhibit a significantly improved performance with a large memory window (> 5.5 V), low operating voltage (P/E voltage: Vg = 6 V, Vd = 7 V and Vg = -7 V, Vd = 10 V, respectively), greater tolerable gate and drain disturbance (Vt shift <; 0.2 V), negligible second-bit effect, high P/E speed (after programming time = 10 μs with a 2-V shift of Vt under Vg = Vd = 6 V operation), good retention time (> 108 s for 13% charge loss), and excellent endurance performance (after 104 P/E cycles with a memory window of 3 V).
Keywords :
elemental semiconductors; flash memories; nanostructured materials; silicon; silicon compounds; SONOS-type flash memory; Si; drain disturbance; embedded silicon nanocrystals; in situ embedded silicon nanocrystals; silicon nitride; silicon-oxide-nitride-oxide-semiconductor; voltage 10 V; voltage 3 V; voltage 6 V; voltage 7 V; Chaos; Costs; Flash memory; Leakage current; Nanocrystals; Nonvolatile memory; Performance loss; SONOS devices; Silicon; Tunneling; In situ; memory window; nonvolatile memory; retention time; silicon nanocrystal (Si-NC);
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2010.2051489
