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參數資料

型號：	MPSW51RLRE
廠商：	ON SEMICONDUCTOR
元件分類：	小信號晶體管
英文描述：	1000 mA, 30 V, PNP, Si, SMALL SIGNAL TRANSISTOR, TO-92
封裝：	PLASTIC, TO-226AE, 3 PIN
文件頁數：	18/34頁
文件大小：	320K
代理商：	MPSW51RLRE

9–13

Reliability and Quality Assurance

Motorola Small–Signal Transistors, FETs and Diodes Device Data

Table 1–2 – Time Dependent Failure Mechanisms in Semiconductor Devices

(Applicable to Discrete and Integrated Circuits)

Device

Association

Process

Relevant

Factors

Accelerating

Factors

Typical

Activation

Energy in eV

Model

Reference

Silicon Oxide

Silicon–Silicon

Oxide Interface

Metallization

Bond and Other

Mechanical Interfaces

Various Water Fab,

Assembly, and

Silicon Defects

Surface Charges

Inversion, Accumulation

Oxide Pinholes

Dielectric Breakdown

(TDDB)

Charge Loss

Electromigration

Corrosion

Chemical

Galvanic

Electrolytic

Intermetallic

Growth

Metal Scratches

Mask Defects, etc.

Silicon Defects

Mobile Ions

E/V, T

E, T

T, J

Grain Size

Doping

Contamination

T, Impurities

Bond Strength

T, V

E, T

J, T

H, E/V, T

T, V

1.0

0.7–1.0 (Bipolar)

1.0 (Bipolar)

0.3–0.4 (MOS)

0.3 (MOS)

0.8 (MOS)

EPROM

1.0 Large grain Al

(glassivated)

0.5

Small grain Al

0.7 Cu–Al/Cu–Si–Al

(sputtered)

0.6–0.7

(for electrolysis)

E/V may have

thresholds

1.0 (Au/Al)

0.5–0.7 eV

0.5 eV

Fitch, et al.

Peck

1984 WRS

Hokari, et al.

Domangue, et al.

Crook, D.L.

Gear, G.

Nanda, et al.

Black, J.R.

Lycoudes, N.E.

Fitch, W.T

Howes, et al.

MMPD

V = voltage; E = electric field; T = temperature; J = current density; H = humidity

NO. REFERENCE

1.0 eV activation for leakage type failures.

Fitch, W.T.; Greer, P.; Lycoudes, N.; ‘‘Data to Support 0.001%/1000

Hours for Plastic I/C’s.’’ Case study on linear product shows 0.914 eV

activation energy which is within experimental error of 0.9 to 1.3 eV

activation energies for reversible leakage (inversion) failures reported

in the literature.

0.7 To 1.0 eV for oxide defect failures for bipolar structures. This is

under investigation subsequent to information obtained from 1984

Wafer Reliability Symposium, especially for bipolar capacitors with

silicon nitride as dielectric.

1.0 eV activation for leakage type failures.

Peck, D.S.; ‘‘New Concerns About Integrated Circuit Reliability’’ 1978

Reliability Physics Symposium.

0.36 eV for dielectric breakdown for MOS gate structures.

Domangue, E.; Rivera, R.; Shedard, C.; ‘‘Reliability Prediction Using

Large MOS Capacitors’’, 1984 Reliability Physics Symposium.

0.3 eV for dielectric breakdown.

Crook, D.L.; ‘‘Method of Determining Reliability Screens for Time

Dependent Dielectric Breakdown’’, 1979 Reliability Physics

Symposium.

1.0 eV for dielectric breakdown.

Hokari, Y.; et al.; IEDM Technical Digest, 1982.

1.0 eV for large grain Al–Si (compared to line width).

Nanda, Vangard, Gj–P; Black, J.R.; ‘‘Electromigration of Al–Si Alloy

Films’’, 1978 Reliability Physics Symposium.

0.5 eV Al, 0.7 eV Cu–Al small grain (compared to line width).

Black, J.R.; ‘‘Current Limitation of Thin Film Conductor’’ 1982 Reli-

ability Physics Symposium.

0.65 eV for corrosion mechanism.

Lycoudes, N.E.; ‘‘The Reliability of Plastic Microcircuits in Moist

Environments’’, 1978 Solid State Technology.

1.0 eV for open wires or high resistance bonds at the pad bond

due to Au–Al intermetallics.

Fitch, W.T.; ‘‘Operating Life vs Junction Temperatures for Plastic

Encapsulated I/C (1.5 mil Au wire)’’, unpublished report.

0.7 eV for assembly related defects.

Howes, M.G.; Morgan, D.V.; ‘‘Reliability and Degradation, Semi-

conductor Devices and CIrcuits’’ John Wiley and Sons, 1981.

Gear, G.; ‘‘FAMOUS PROM Reliability Studies’’, 1976 Reliability

Physics Symposium.

Black, J.R.: unpublished report.

Motorola Memory Products Division; unpublished report.

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