Title :
Fully integrated 64 Kb MRAM with novel reference cell scheme
Author :
Jeong, H.S. ; Jeong, G.T. ; Koh, G.H. ; Song, I.H. ; Park, W.J. ; Kim, T.W. ; Jeong, S.J. ; Hwang, Y.N. ; Ahn, S.J. ; Kim, H.-J. ; Hong, J.S. ; Jeong, W.C. ; Lee, S.H. ; Park, J.H. ; Cho, W.Y. ; Kim, J.S. ; Song, S.H. ; Kim, H.J. ; Park, S.O. ; Jeong, U.I
Author_Institution :
Adv. Technol. Dev., Samsung Electron. Co. Ltd., Kyunggi-Do, South Korea
Abstract :
We have fully integrated a 64 Kb MRAM with 0.24 /spl mu/m-CMOS technology. A new sensing scheme employing a separated half-current source is adopted for the reference bit line to increase the sensing signal. To reduce cell resistance, a Co salicidation process is applied to transistor formation. In key fabrication processes, the roughness of the buffer layer, on which the MTJs are stacked, is reduced by using Ru on the TiN bottom electrode, and magnetic disturbance is avoided by depositing TiN hard masks on the MTJ under low-power and low-temperature conditions. The tunneling barrier micro-bridge due to the attachment of by-products during etching is completely eliminated by adopting a 2-step MTJ etch with an introduced capping oxide layer. Consequently, MR values of >30% are found in more than 90% of chips.
Keywords :
CMOS memory circuits; integrated circuit metallisation; magnetic storage; magnetic tunnelling; magnetoelectronics; random-access storage; sputter etching; surface topography; 0.24 /spl mu/m-CMOS technology; 0.24 micron; 64 Kbit; CMOS fully integrated 64 Kb MRAM; Co salicidation process; CoSi/sub 2/; Ru-TiN; TiN bottom electrode; TiN hard mask; buffer layer roughness; capping oxide layer; cell resistance; low-power low-temperature conditions; magnetic disturbance avoidance; magnetic tunnel junctions; reference bit line; reference cell scheme; sensing scheme; separated half-current source; transistor formation; tunneling barrier micro-bridge elimination; two-step etch; CMOS process; CMOS technology; Circuits; Clamps; Etching; Magnetic separation; Magnetic tunneling; Research and development; Tin; Voltage;
Conference_Titel :
Electron Devices Meeting, 2002. IEDM '02. International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-7803-7462-2
DOI :
10.1109/IEDM.2002.1175901
