Samsung SCLSeries manual Reliability Prediction, Reliability Nomograph

Page 20

RELIABILITY PREDICTION

Solid tantalum capacitors exhibit no degration failure mode during shelf storage and show a constantly decreasing failure rate(i.e. , absence of wearout mechanism) during life tests. this failure rate is dependent upon three important application conditions:DCvoltage, temperature, and circuit impedance.

Estimates of these respective effects are provided by the reliability nomograph.(Figure 8.)

The nomograph relates failure rate to voltage and temperature while the table relates failure rate to impedance. These estimates apply to steady-state DC condition, and they assume usage within all other rated conditions.

Standard conditions, which produce a unity failure rate factor, are rated voltage, +85, and 0.1 ohm- per-volt impedance.

While voltage and temperature are straight-forward, there is sometimes difficulty in determining impedance. What is required is the circuit impedance seen by the capacitor. If several capacitors are connected in parallel, the impedance seen by each is lowered by the source of energy stored in the other capacitors. Energy is similarly stored in series inductors.

Voltage "de-rating" is a common and useful approach to improved reliability. It can be persued too far, however , when it leads to installation of higher voltage capacitors of much larger size.

It is possible to lose more via higher inherent failure rate than is gained by voltage derating. SAMSUNG typically recommends 50% derating, especially in low impedance circuits.

Failure rate is conventionally expressed in units of percent per thousand hours. As a sample calculation, suppose a particular batch of capacitors has a failure rate of 0.5% / Khr under standard conditions.

What would be the predicted failure rate at 0.7times rated voltage, 60and 0.6/V?

The nomgraph gives a factor of 7 × 10-2and the table gives a factor of 0.4.

The failure rate estimate is then :

0.5× 7 × 10-2 × 0.4

=1.4 × 10-2 or 0.014%/Khr

120

110

100

90

80

70

60

50

40

30

20

T

 

102

 

101

 

100

Connect the temperature

 

and applied voltage ratio

10-1

of interest with a straight

edge. The multiplier of

 

failure rate is given at the

 

inersection of this

10-2

line with the model scale.

Given T1&v1 Read Failure

 

Rate Multiplier F1

10-3

Given T, & F2

Read Reguired Voltage V2

 

Given F3 & V3

 

Read Allowable Temp T3

10-4

 

 

10-5

F

1.0

0.9

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

V

SCL Series

Fig.8 Reliability Nomograph

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Contents Tantalum Capacitor SCL Series Abbriviation of Tantalum Capacitor Type of Series Rated VoltageCapacitance Capacitance ToleranceSymbol Packing Code Inch PackingPacking Polarity Taping100 150Reliability Test Condition Items Test Condition Performance +85Pressure BoardScratch tool R0.5Chip Pressure R0.5Solder Alumina Board Series 35V MarkingCapacitance Range Small LetterCap Capital Letter SmallEmbossed Plastic Tape Cover Tape 15˚ Removal speed 50mm/secCase Size 180mm7 reel 330mm13 reel Reference Reel DimensionTape Min ±0.5 ±051 +0.5 Width ±0.079 ±0.020 100 125 Power Supply CircuitOperating Voltage Temperature RippleRipple Current AmbientRipple Voltage Table.2 Hz VS K Frequency 120 400 10k 20k 40k 100k 10K 100KCorrection CoefficientK Reverse Voltage FrequencyHz▷ Failure rate calculation formula Reliability of Tantalum CapacitorsFailure Rate Calculation Formula Reliability Prediction Reliability NomographMounting Precautions Limit Pressure on Capacitor Installation with MounterRecommended Soldering Pattern Dimensions FluxRecommended soldering pattern dimensionsmm 260 MaxCleaning after Mounting Other
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