• Title/Summary/Keyword: PSG passivation

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Dielectric and Passivation-Related Properties of Pecvd PSG (PECVD PSG의 유전 및 보호막특성에 관한 연구)

  • 유현규;강영일
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.22 no.2
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    • pp.90-96
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    • 1985
  • The properties of plasma-enhanced CVD phosphorous silicate glass (PECVD PSG) for passivation layer are studied . Phosphorous contentration was analyzed with X-ray fluores-cence. As a result, PECVD PSG has a limiting phosphors concentration of about 8 mole%. Curves relating to etcll rate, infrared absorption ratio, and sheet resistivity were adapted to monitor phosphorous concentration indirectly Dielectric properties, step coverage, crack resistance, and gettering effect are discussed in both of atmospheric pressure CVD (APCVO) and PECVD oxide. PECVD SiO2 film have density of about 2.4 g/㎤ at deposition rate of 450$\AA$/min, refractive index of about 1.53, and breakdown at fields of II-13 MV/cm. Crack resistance of PECVD oxide is greater than APCVD oxide. PECVD PSG films contained with 2 mole % phosphorous show good step coverage and gettering ability. The obtained results show more advantages in PECVD PSG than in APCVD PSG for device passivation.

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Analysis of the K Gettering in SiO2/PSG/SiO2/Al-1%Si Multilevel Thin Films using SIMS (SIMS를 이용한 SiO2/PSG/SiO2/Al-1%Si 적층 박막내의 K 게터링 분석)

  • Kim, Jin Young
    • Journal of the Korean institute of surface engineering
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    • v.50 no.3
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    • pp.219-224
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    • 2017
  • The K gettering in $SiO_2/PSG/SiO_2/Al-1%Si$ multilevel thin films was investigated using SIMS(secondary ion mass spectrometry) and XPS(X-ray Photoelectron Spectroscopy) analysis. DC magnetron sputter techniques and APCVD(atmosphere pressure chemical vapor deposition) were utilized for the deposition of Al-1%Si thin films and $SiO_2/PSG/SiO_2$ passivations, respectively. Heat treatment was carried out at $400^{\circ}C$ for 5 h in air. SIMS depth profiling was used to determine the distribution of K, Al, Si, P and other elements throughout the $SiO_2/PSG/SiO_2/Al-1%Si$ multilevel thin films. XPS was used to analyze binding energies of Si and P elements in PSG passivation layers. K peaks were observed throughout the $PSG/SiO_2$ passivation layers on the Al-1%Si thin films and especially at the $PSG/SiO_2$ interfaces. K gettering in $SiO_2/PSG/SiO_2/Al-1%Si$ multilevel thin films is considered to be caused by a segregation type of gettering. The chemical state of Si and P elements in PSG passivation appears to be $SiO_2$ and $P_2O_5$, respectively

Dielectric Passivation and Geometry Effects on the Electromigration Characteristics in Al-1%Si Thin Film Interconnections

  • Kim, Jin-Young
    • Journal of Korean Vacuum Science & Technology
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    • v.5 no.1
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    • pp.11-18
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    • 2001
  • Dielectric passivation effects on the EM(electromigration) have been a great interest with recent ULSI and multilevel structure tends in thin film interconnections of a microelectronic device. SiO$_2$, PSG(phosphosilicate glass), and Si$_3$N$_4$ passivation materials effects on the EM resistance were investigated by utilizing widely used Al-1%Si thin film interconnections. A standard photolithography process was applied for the fabrication of 0.7㎛ thick 3㎛ wide, and 200㎛ ~1600㎛ long Al-1%Si EM test patterns. SiO$_2$, PSG, and Si$_3$N$_4$ dielectric passivation with the thickness of 300 nm were singly deposited onto the Al-1%Si thin film interconnections by using an APCVD(atmospheric pressure chemical vapor deposition) and a PECVD(plasma enhanced chemical vapor deposition) in order to investigate the passivation materials effects on the EM characteristics. EM tests were performed at the direct current densities of 3.2 $\times$ 10$\^$6/∼4.5 $\times$ 10$\^$6/ A/cm$^2$ and at the temperatures of 180 $\^{C}$, 210$\^{C}$, 240$\^{C}$, and 270$\^{C}$ for measuring the activation energies(Q) and for accelerated test conditions. Activation energies were calculated from the measured MTF(mean-time-to-failure) values. The calculated activation energies for the electromigration were 0.44 eV, 0.45 eV, and 0.50 eV, and 0.66 eV for the case of nonpassivated-, Si$_3$N$_4$passivated-, PSG passivated-, and SiO$_2$ passivated Al-1%Si thin film interconnections, respectively. Thus SiO$_2$ passivation showed the best characteristics on the EM resistance followed by the order of PSG, Si$_3$N$_4$ and nonpassivation. It is believed that the passivation sequences as well as the passivation materials also influence on the EM characteristics in multilevel passivation structures.

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Passivation Layer Structures with a Silicon Nitride film (질화실리콘막을 사용한 표면보호층 구조에 관한 연구)

  • 이종무
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.22 no.6
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    • pp.53-57
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    • 1985
  • Comparisons and analyses were made of the properties of double or triple passivation layer structures composed of APCVD SiOt or PSG and PECVD SiN films with various layer combinations and layer thicknesses. As a result of the analyses of the pro.peHics such as threshold-voltage shift, crack resistance, pinhole density, and moisture reslstancei a con-clusion was reached that the proper passivation layer structure is the double layer consisting of a 4,00$\AA$ or thicker PSG film and a 6,000$\AA$ SiN film.

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Dielectric Passivation Effects on the Electromigration Phenomena for the Improvement of Microelectronic Thin Film interconnection Materials (극미세 전자소자 박막배선 재료 개선을 위한 엘렉트로마이그레이션 현상에 미치는 절연보호막 효과)

  • 박영식;김진영
    • Journal of the Korean Vacuum Society
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    • v.5 no.2
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    • pp.161-168
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    • 1996
  • For the improvement of microelectronic thin film interconnection materials, dielectric passivation effects on the electromigration phenomena were studied. Using Al-1%Si, various shaped patterns were fabricated and dielectric passivation layers of several structures were deposited on the $SiO_2$ layer. Lifetime of straight pattern showed 2~5 times longer than the other patterns that had various line width and area. It is believed that the flux divergence due to the structural inhomogeneity and so the current crowding effects shorten the lifetime of thin film interconnections. The lifetime of thin film interconnections seems to depend on both the passivation materials and the passivation thickness. PSG/$SiO_2$ dielectric passivation layers showed longer lifetime than $Si_3N_4$ dielectric passivation layers. This results from the PSG on $SiO_2$ layer reduces stress and from the improvement of resistance to the moisture and to the mobile ion such as sodium. This is also believed that the lifetime of thin film interconnections seems to depend on the passivation thickness in case of the same deposition materials.

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Analysis of the Na Gettering in SiO2/PSG/SiO2/Al-1%Si and SiO2/TEOS/SiO2/Al-1%Si Multilevel Thin Films using SIMS (SIMS를 이용한 SiO2/PSG/SiO2/Al-1%Si 및 SiO2/TEOS/SiO2/Al-1%Si 적층 박막내의 Na 게터링 분석)

  • Kim, Jin Young
    • Journal of the Korean institute of surface engineering
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    • v.51 no.2
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    • pp.110-115
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    • 2018
  • The Na low temperature gettering in $SiO_2/PSG/SiO_2/Al-1%Si$ and $SiO_2/TEOS/SiO_2/Al-1%Si$ multilevel thin films was investigated using dynamic SIMS(secondary ion mass spectrometry) analysis. DC magnetron sputter, APCVD and PECVD techniques were utilized for the deposition of Al-1%Si thin films, $SiO_2/PSG/SiO_2$ and $SiO_2/TEOS/SiO_2$ passivations, respectively. Heat treatment was carried out at $300^{\circ}C$ for 5 h in air. SIMS depth profiling was used to determine the distribution of Na, Al, Si and other elements throughout the $SiO_2/PSG/SiO_2/Al-1%Si$ and $SiO_2/TEOS/SiO_2/Al-1%Si$ multilevel thin films. XPS was used to analyze chemical states of Si and O elements in $SiO_2$ passivation layers. Na peaks were observed throughout the $PSG/SiO_2$ and $TEOS/SiO_2$ passivation layers on the Al-1%Si thin films and especially at the interfaces. Na low temperature gettering in $SiO_2/PSG/SiO_2/Al-1%Si$ and $SiO_2/TEOS/SiO_2/Al-1%Si$ multilevel thin films is considered to be caused by a segregation type of gettering.

A Study on the Sodium and Moisture Gettering in PSG/SiO2 Passivated Al-1%Si Thin Film Interconnections (PSG/SiO2 보호막 처리된 Al-1%Si 박막배선에서의 Sodium과 수분 게터링에 관한 연구)

  • Kim, Jin Young
    • Journal of the Korean Vacuum Society
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    • v.22 no.3
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    • pp.126-130
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    • 2013
  • The sodium (Na) and moisture ($H_2O$) gettering phenomena were measured and analyzed in PSG/$SiO_2$ passivated Al-1%Si thin film interconnections. PSG/$SiO_2$ passivation and Al-1%Si thin films were deposited by using APCVD (atmosphere pressure chemical vapor deposition) and DC magnetron sputter techniques, respectively. SIMS (secondary ion mass spectrometry) depth profiling analysis was used to determine the distribution of sodium and moisture throughout the PSG/$SiO_2$ passivated Al-1%Si thin film interconnections. Both sodium and moisture peaks were observed strongly at the interfaces between layers rather than within the Al-1%Si thin film interconnections. Sodium peaks were observed at the interface between PSG and $SiO_2$ passivations, while moisture peaks were not observed.

Dielectric passivation effects on the electromigration phenomena in Al-1%Si thin film interconnections (A1-1%Si 박막배선에서 엘렉트로마이그레이션 현상에 미치는 절연보호막 효과)

  • 김경수;김진영
    • Journal of the Korean Vacuum Society
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    • v.10 no.1
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    • pp.27-30
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    • 2001
  • Electromigration Phenomena in Al-1%Si thin film interconnections under DC and PDC conditions were investigated. Thin film interconnections with $SiO_2$ and PSG/$SiO_2$ dielectric passivation layer were formed by a standard photolithography process method and test line lengths were 100, 400, 800, 1200, and 1600 $\mu\textrm{m}$. The current density of $1.19\times10^7\textrm{A/cm}^2$ was stressed in Al-1%Si thin film interconnections under DC condition. The current density of $1.19\times10^7\textrm{A/cm}^2$ was also applied under PDC condition at the frequency of 1 Hz with the duty factor of 0.5. The electromigration resistance of PSG/SiO2 dielectric passivation test line was stronger than $SiO_2$ dielectric passivation test line. The lifetime under PDC was 2-4 times longer than DC condition. As the thin film interconnection line increased, the lifetime decreased and saturated over the critical length. Failure patterns by an electromigration were dominated by void-induced electrical open and hillock-induced electrical short.

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Stress Behavior of PSG/SiN Film for Passivation in Semiconductor Memory Device (반도체 소자의 표면보호용 PSG/SiN 절연막의 스트레스 거동)

  • Kim, Yeong-Uk;Sin, Hong-Jae;Ha, Jeong-Min;Choe, Su-Han;Lee, Jong-Gil
    • Korean Journal of Materials Research
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    • v.1 no.1
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    • pp.46-53
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    • 1991
  • The stress of PSG (Phosphosilicate glass), USG (Undoped-silicate grass) and SiN films, which are mainly used as passivation layers in semiconductor memory devices, deposited by CVD methods has been studied as a function of film thickness and holding time in air. The stress of the PSG film or the USG film is increased in tensile state with increasing film thickness. On the other hand the stress level of the SiN film in compressive stress does not change as film thickness changes. The stress of PSG film shows the drastic change from the tensile stress to the compressive stress after the film is left 2 days in air. FTIR spectra indicated that the stress variation was due to the penetration of water molecule. It looks possible to recover the stress of about $2.5{\times}{10^9}dyne/cm^2$ by annealing treatment at $300^{\circ}C$ for 20min. The total stress of multi-layered films having the PSG film is determined mainly by the stress variation of PSG layer with holding time. The total stress of multi-layered film appears to have a functional relationship with the stress in the thickness of each film. The resistance against stress-migration of sputtered Al line increases with increasing the tensile stress for the PSG film or the USG film.

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Development of Diamond-like Carbon Film as Passivation Layers for Power Transistors

  • Chang, Hoon;Lee, Hae-Wang;Chung, Suk-Koo;Shin, Jong-Han;Lim, Dae-Soon;Park, Jung-Ho
    • The Korean Journal of Ceramics
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    • v.3 no.2
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    • pp.92-95
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    • 1997
  • Because of the novel characteristics such as chemical stability, hardness, electrical resistivity and thermal conductivity, diamond-like carbon (DLC) film is a suitable material for the passivation layers. For this purpose, using the PECVD, DLC films were synthesized at room temperature. The adhesion and the hardness of the DLC films deposited on Si an SiO2 substrate were measured. The resistivity of 5.3$\times$$10^8$$\Omega$.cm was measured by automatic spreading resistance probe analysis method. The thermal conductivities of different DLC films were measured and compared with that of phospho silicate glass (PSG) film which is commonly used as passivation layers. The thermal conductivity of DLC film was improved by increasing hydrogen flow rate up to 90 sccm and was better than that of PSG film. The patterning techniques of the DLC film developed using the RIE and the lift-off method to form 5$\mu\textrm{m}$ line. Finally, the thermal characteristics of the power transistor with the DLC film as passiviation layer was analyzed.

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