TDD Series

Evans Capacitor Company TDD Series Capacitors

Product Overview 

Lowest ESR & highest power density option

TDD series Hybrid Capacitors utilize a sintered tantalum anode and ruthenium oxide coated cathode operating in aqueous with additive electrolyte. The components are hermetically sealed in a welded tantalum case with a glass-to-metal anode terminal seal.

TDD series Hybrid Capacitor combine high capacitance and low ESR in a fully hermetic tantalum package for High reliability Defense and Aerospace applications where weight and volume are at a premium. Especially suited for high power pulse applications, with excellent heat transfer and low inductance.

  • 1.4 x 1.4 square base
  • Heights range from 0.312 – 0.75″
  • Voltages range from 6V-125V
  • Cap values range from 1,100uF – 250,000uF
  • Temperature range of -55°C to 125°C
  • Standard tolerance ±20% (±10% available upon request)
  • Stud mount options available

Electrical Specifications

Electrical Specifications

Rated Voltage Range10VDC to 125VDC
Capacitance Range1,500uF to 240,000uF

Mechanical Specifications

Mechanical Specifications

ShockMIL-STD-202 METHOD 213GTested for 11ms at 50g
VibrationMIL-STD-202 METHOD 204
II, Letter E
12 sweeps/axis, 20g peak
1.5 hours/axis, 19.64g peak
Moisture ResistanceMIL-STD-202 METHOD 1066V Polarity
Solderability To ANSI J-STD-002
Operating Temperature Range -55ºC to +85ºC or 125ºC with voltage derating
Storage Temperature Range -62ºC to +130ºC

Capacitor Life

Capacitor Life

  • TDD Series capacitors are rated for >2,000 hours at 85°C and rated voltage or 125°C at de-rated voltage. The effective life of a capacitor in a given application is based on the specific operating voltage and average temperature. The rule of thumb says for every 10°C decrease in operating temperature yields approximately 2x the life. Additionally, each 10% de-rate in voltage will yield approximately 2x the life.
  • TDD Series Capacitors have an unlimited Shelf life.


Handling Guidelines

Handling Guidelines

Attachment / Mounting by leads only is discouraged in applications exposed to mechanical shock or
vibration. Always ensure capacitor is firmly secured to PWB, by either mounting studs, epoxy staking or
both (preferred for vibration environments)

  • Provide adequate care to protect the glass to metal seal
  • Avoid forces on the positive terminal, lateral, axial or torque.
  • Avoid mechanical shock to the positive terminal.
  • Secure the part to PWB before soldering

Mounting with studs

  • #2-56 CDA-752 studs are available as a standard option.
  • Use spacers (provided) to fill the gap between PWB and leaded surface of capacitor
  • Tighten Studs to 30-40 in-oz
  • Secure nuts (provided) with red Loctite. Do not use lock washers.

Potting / Epoxy Staking

  • We advise epoxy staking capacitor to PWB even when using studs, for maximum vibration tolerance.
  • In some applications it may be advisable to pot the cavity between the PWB and leaded surface.
  • Highest shock/vibration applications may require the capacitor to be fully potted.


  • Rim of Capacitor is intended to mate directly to PWB. Advise using no-clean flux.
  • Utilize J-STD 001 Standard Through Soldering methods

Lead Trimming

  • Provide adequate care if leads must be trimmed.
  • Trimming the positive terminal is not recommended.
  • Lead lengths available in 1/32″ increments from 0.125″ when measured from the rim of the capacitor.

CAD Files

For CAD file information, email

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