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SNAPSIC 105 4P

Capacitors
|
Aluminum Electrolytic Capacitors
|
Snap-in
Filtering
product.thumbnail.alt SNAPSIC 105 4P - Capacitors > Aluminum Electrolytic Capacitors > Snap-in
  • Standard
  • 4 pins
  • Capacitance
330µF ~ 150000µF
  • Operating Temp
-55°C ~ 105°C
  • Tolerance
±20%
  • Voltage Rated DC
16V ~ 500V
  • Lifetime
8000 @ 105°C
  • RoHS
ROHS
Download Datasheet (02-2026)
CONTACT

The **SNAPSIC 105 4P** series is an aluminum electrolytic capacitor manufactured to international standards integrating high altitude, dc-dc converters, line-operated dc power supplies and energy storage. It offers optimal performance for applications requiring reliability and energy efficiency.
 

Typical applications :

  • Filtering
PN
Capacitance
Voltage Rated AC
Operating Temp
Tolerance
Voltage Rated DC
Mounting
RoHS
A715020 47000µF - - ±20% 16V - -
A715030 47000µF - - ±20% 16V - -
A715021 68000µF - - ±20% 16V - -
A715023 100000µF - - ±20% 16V - -
A715035 100000µF - - ±20% 16V - -
A715034 150000µF - - ±20% 16V - -
A715040 33000µF - - ±20% 25V - -
A715050 33000µF - - ±20% 25V - -
A715043 47000µF - - ±20% 25V - -
A715051 47000µF - - ±20% 25V - -
A715053 68000µF - - ±20% 25V - -
A715054 100000µF - - ±20% 25V - -
A715060 22000µF - - ±20% 35V - -
Compliance and certifications
certification
DIN
certification
IEC
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Frequently Asked Questions

Find answers to the most frequently asked questions about our products and services.
Why are Electrolyte Capacitors Forward Biased?

For safety purposes, these types of capacitors need to be forward biased in their configuration. This is mainly due to the characteristics of the electrolyte that has been used in their construction. The positive terminal always needs to have a larger amount of voltage than that of the negative terminal. If the situation were reversed and the negative terminal suddenly had a higher voltage than the positive terminal (which is also referred to as reversing the voltage polarity), the aluminum material that is used as the dielectric could short circuit and become damaged. It could also overheat, which could cause a substantial leak. 

The capacitor could also vaporize, which could cause the entire enclosure to burst under the right circumstances. It is important to note, however, that this phenomenon is very rare.

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