ALC10C331ED450 BHC COMPONENTS, ALC10C331ED450 Datasheet - Page 14

ALC10C331ED450

Manufacturer Part Number

ALC10C331ED450

Description

CAPACITOR, 330UF 450V CAPACITOR, 330UF 450V

Manufacturer

BHC COMPONENTS

Series

ALC10r

Datasheet

1.ALC10C331ED450.pdf (60 pages)

Specifications of ALC10C331ED450

Capacitance

330UF

Voltage Rating, Dc

450V

Capacitor Dielectric Type

ALUMINIUM ELECTROLYTIC

Temp, Op. Max

85(DEGREE C)

Temp, Op. Min

-40(DEGREE C)

Tolerance,

20%

Rohs Compliant

YES

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Mounting continued....

Board mounting types are designed to be mounted by their

terminals alone. Larger types may have dummy pins for

extra rigidity. Screw terminal and tag ended types may be

fixed with a base stud or suitable mounting clamp.

Adequate space should be allowed between components

for cooling air to circulate, particularly when high ripple

currents are being applied.

Altitude and Low Air Pressure

All capacitors manufactured by BHC are hermetically

sealed and should therefore suffer no electrolyte seepage

even under vacuum conditions. Additionally the electrical

parameters of capacitance, esr, impedance and leakage

current will be unaffected.

If a capacitor is operated at altitude, however, the life

will be affected slightly for two reasons. Convected heat

loss will be reduced as the air density falls resulting in the

capacitor running hotter with a consequent reduction in life.

As the air pressure drops the differential between the

internal case pressure and external pressure increases.

A complete vacuum would cause the internal pressure to

rise by 15 psi (approx.). If maintained this would lead to

increased electrolyte vapour loss and give a slight reduction

in life expectancy.

LIFE EXPECTANCY

The life expectancy represents the typical period of

time until the end of life is reached, which in this case is

characterised as follows:

CATASTROPHIC FAILURE

MECHANICAL FAILURE

PARAMETRIC FAILURE

Some circuits may be able to tolerate larger parametric

variations than shown above, in which case the life of the

component will be extended beyond the figures quoted.

The life expectancy data is statistically derived from

extensive endurance testing of standard production

components and data gathered from components in the

field. It does not guarantee the performance and BHC

Components cannot assume responsibility for it’s use.

Reducing the stress level on the capacitor (i.e. lower

voltage/current/temperature) will increase the life

expectancy, as will improved cooling.

open or short circuit

operation of safety vent, split sleeving, etc

capacitance change > ± 10%

esr > 2 x initial value

impedance > 3 x initial value

leakage current > specified limit

Alcohols

Component cleaning using solvents such as isopropanol,

methanol, ethanol, and propanol would not normally have

any detrimental effects and therefore do not require any

special precautions.

Aqueous cleaning methods

Aqueous cleaning methods in conjunction with saponification

may be used. However, it is recommended that immediate

drying of the component in hot air at approximately 85°C for

at least 5 minutes is carried out.

Water can become entrapped beneath the sleeve and unlike

the solvents used above may not be adequately dispelled

by evaporation at room temperature. Trapped water can

cause the hydration and discolouration of the surface of the

aluminium can, however this is in no way detrimental to the

functioning of the capacitor.

Halogenated Hydrocarbons

Halogenated Hydrocarbons contain CFC’s and as such are

ozone depleting chemicals (ODC’s). It is not recommended

that they are used as cleaning solvents. In addition these

solvents can be injurious to electrolytic capacitors by

absorption into the rubber seals followed by subsequent

diffusion into the case, and attack of the winding, leading to

premature failure.

BHC will calculate the life expectancy of a capacitor under

other sets of conditions provided as much as possible of

the following data is supplied:

Operating voltage - this should be taken as the sum of the

nominal d.c. voltage and the peak of the a.c. ripple voltage.

Ripple current - the rms values should be given at each

frequency.

Air temperature - the temperature of the air surrounding or

flowing over the capacitors

Thermal aspects - type of cooling, i.e. natural convection or

rate of forced air flow (m/s). Thermal resistance of heat sink

or chassis.

End of life criteria - any special end of life conditions if

different from those stated above.

Life Expectancy and Thermal Characteristics

A key aspect of the life expectancy calculation is the core

temperature of the capacitor. It is essential to determine

this operating core temperature either by calculation or by

measurement.

Heat is generated inside the capacitor by the effect of

ripple current which raises the core or hot-spot temperature

above that of the ambient air. Heat is also generated by the

leakage current, however this is normally small enough to be

ignored.

Other circuit components in close proximity will also

contribute to the heating of the capacitor. As will any

mechanical connections to the capacitor, such as the

Application & Operation

continued on next page....

Life Expectancy

ALC10C331ED450 BHC COMPONENTS, ALC10C331ED450 Datasheet - Page 14

ALC10C331ED450

Specifications of ALC10C331ED450

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