V175LT5CP Datasheet, PDF(7/10 Page) Littelfuse – Radial Lead Varistors

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V175LT5CP Datasheet, PDF (7/10 Pages) Littelfuse – Radial Lead Varistors > C-III series

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Varistor Products

Radial Lead Varistors > C-III series

AC Bias Reliability

The C-III Series MOVs were designed for use on the AC

line. The varistor is connected across the AC line and is

biased with a constant amplitude sinusoidal voltage. It

should be noted that the deï¬nition of failure is a shift in the

nominal varistor voltage (VN) exceeding +/-10%. Although

this type of varistor is still functioning normally after this

magnitude of shift, devices at the lower extremities of VN

tolerance will begin to dissipate more power.

Because of this possibility, an extensive series of

statistically designed tests were performed to determine

the reliability of the C-III type of varistor under AC bias

combined with high levels of temperature stress. To

date, this test has generated over 50,000 device hours of

operation at a temperature of 125ÂºC, although only rated at

85ÂºC. Changes in the nominal varistor voltage, measured at

1mA, of less than 2% have been recorded, as displayed in

the diagram at right.

Transient Surge Current/Energy Transient Capability

The transient surge rating serves as an excellent ï¬gure

of merit for the C-III varistor. This inherent surge handling

capability is one of the C-III varistorâs best features.

The enhanced surge absorption capability results from

improved process uniformity and enhanced construction.

The homogeneity of the raw material powder and

improved control over the sintering and assembly

processes are contributing factors to this improvement.

In the low power AC mains environment, industry

standards (UL, IEC, NEMA and IEEE) all suggest that the

worst case surge occurrence will be 3kA. Such a transient

event may occur up to ï¬ve times over the equipment life

time (approximately 10 years). While the occurences of

ï¬ve 3kA transients is the required capability, the rated,

repetitive surge current for the C-III Series is 20 pulses

for the 20mm units and 10 pulses for the 14mm Series.

As a measure of the inherent device capability, samples

of the 20mm V130LA20C devices were subjected to

a worst case repetitive transient surges test. After 20

pulses, each of 3kA, there was negligible change in

the device characteristics. Changes in the clamping

voltage, measured at 100A, of less than 3% were

recorded, as shown in the upper diagram at right.

Samples of the 20mm Series V175LA20C were subjected

to repetitive surge occurrences of 750A. Again, there was

negligible changes in any of the device characteristics

after 120 pulses, as shown in the lower diagram at right.

In both cases the inherent device capability is far

in excess of the expected worst case scenario.

High Temperature Operating Life 125ÂºC for 1000 Hours

at Rated Bias

300

V130LA20C

250

200

150

100

0 100 200 300 400 500 600 700 800 900 1000 1100

Figure 12

TIME (HOURS)

Typical Repetitive Surge Current Capability of

C-III Series MOVs

500

V130LA20C

3kA (8/20Î¼s)

450

400

350

(RATED FOR 20 PULSES)

300

Figure 13

NUMBER OF SURGES

600

V175LA20C

550

750A (8/20Î¼s)

500

450

400

350

(RATED FOR 120 PULSES)

300

100

150

200

250

300

NUMBER OF SURGES

Figure 14

Speciï¬cations are subject to change without notice.

Please refer to www.littelfuse.com/series/c-iii.html for current information.

119

Revised: June 5, 2013

C-III Varistor Series

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