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107DCN2R7Q

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107DCN2R7Q

107DCN2R7Q

$13.07
  • Description:CAP 100F -10%, +30% 2.7V T/H
  • Series:DCN
  • Mfr:Cornell Dubilier Knowles
  • Package:Bulk

SKU:8f1d5e108c2a Category: Brand:

  
  • Quantity
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Product Detailed Parameters

  • Description:CAP 100F -10%, +30% 2.7V T/H
  • Series:DCN
  • Mfr:Cornell Dubilier Knowles
  • Package:Bulk
  • Capacitance:100 F
  • Tolerance:-10%, +30%
  • Voltage - Rated:2.7 V
  • ESR (Equivalent Series Resistance):18mOhm
  • Lifetime @ Temp.:1000 Hrs @ 60°C
  • Grade:-
  • Qualification:-
  • Termination:PC Pins
  • Mounting Type:Through Hole
  • Package / Case:Radial, Can - Snap-In
  • Lead Spacing:0.394" (10.00mm)
  • Size / Dimension:0.866" Dia (22.00mm)
  • Height - Seated (Max):1.850" (47.00mm)
  • Operating Temperature:-40°C ~ 60°C

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107DCN2R7Q

How to buy
Online and offline orders are supported. If the item is available for online purchase, you can place it in the cart; for wholesale pricing, please contact our product manager for a quote.
Payment Method
Payment methods: T/T, WeChat Pay, credit cards, Google Pay, Apple Pay . Buyer covers shipping, fees, duties, and taxes; contact our product manager if you need a contract/procurement process.
Delivery time
In-stock items usually ship within 24 hours. Otherwise, shipment is arranged 1 to 2 days after the items arrive at our warehouse. Timing depends on destination and shipping method.
Freight calculation
Freight cost depends on destination, package size, and weight . We offer shipping options via DHL, FedEx, UPS, and TNT , and can ship using your freight account upon request.
Mode of Transportation
We ship via DHL, FedEx, UPS, and TNT. If you prefer a specific logistics provider, we can ship using your designated carrier.
Return and Refund
Returns are accepted within 60 days of invoice with RMA approval. Items must be resalable; original invoice and test report are required. No returns for customer errors.

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Buying Guide
Summary

Cornell Dubilier Knowles 107DCN2R7Q is used in Electric Double Layer Capacitors (EDLC), Supercapacitors category where derating, temperature behavior, and mechanical fit affect long-term stability. Key specs include Description (CAP 100F -10%, +30% 2.7V T/H), Capacitance (100 F), Rated voltage (2.7 V), Tolerance (-10%, +30%), and Temperature (-40°C ~ 60°C).

Selection Notes
  • For 107DCN2R7Q, validate the operating temperature range (-40°C ~ 60°C) for your environment and margin.
  • Confirm Size / Dimension (0.866" Dia (22.00mm)) is suitable for your use case and operating conditions.
  • Verify the package/case (Radial, Can - Snap-In) fits your mechanical constraints and assembly process.
Alternates & Substitutions
  • Check that temperature -40°C ~ 60°C matches your system, then validate at corners instead of relying on typical values.
  • Start by confirming the physical match (package/case Radial, Can - Snap-In, mounting Through Hole, packaging Bulk) so the swap does not create a footprint risk.
  • For capacitors, keep capacitance 100 F, rated voltage 2.7 V, tolerance -10%, +30% aligned and validate ripple/ESR and lifetime under your real operating conditions.
  • If you want us to shortlist alternates, share your non-negotiables (package Radial, Can - Snap-In) plus quantity and target delivery date.
FAQ

How do I avoid common capacitor selection mistakes with 107DCN2R7Q?
Check DC bias/temperature effects, ripple heating, and mechanical constraints, then validate under worst-case load and temperature.

Can you confirm the Termination for 107DCN2R7Q?
PC Pins

What package/case does 107DCN2R7Q use?
Radial, Can - Snap-In

Which operating temperature range is specified for 107DCN2R7Q?
-40°C ~ 60°C

Application Scenarios

Cornell Dubilier Knowles 107DCN2R7Q is a common choice in Electric Double Layer Capacitors (EDLC), Supercapacitors applications where the goal is to keep validation repeatable and avoid edge-case surprises during bring-up. Correct capacitor choices improve stability, reduce noise, and increase product lifetime. They provide energy storage and decoupling, shaping impedance versus frequency to stabilize rails and signal paths. In consumer products, compact passives balance cost, lifetime, and thermal rise in sealed housings. In real deployments, across compute and networking boards, low-ESR decoupling maintains rail stability during fast load steps on CPUs and PHYs. In motor drives, capacitor selection reduces ripple and extends lifetime under repetitive current stress. In real deployments, with a clear test plan, it becomes easier to manage sourcing changes without re-introducing hidden corner cases. Designing for margin usually keeps behavior consistent when temperature, load, and supply quality drift away from typical conditions.

Compatibility Advice
  • Confirm EMC/EMI constraints are addressed in layout and wiring so compliance does not require late redesign before freezing the BOM.
Project Fit
  • A strong fit when you can qualify Cornell Dubilier Knowles 107DCN2R7Q for Electric Double Layer Capacitors (EDLC), Supercapacitors integration with production-like fixtures, especially if you need a design that remains robust across temperature, supply variation, and assembly tolerance.
  • A weaker fit when integrating Cornell Dubilier Knowles 107DCN2R7Q for Electric Double Layer Capacitors (EDLC), Supercapacitors, the goal is only quick proof-of-concept without validation coverage, because the remaining risk is system-level and cannot be bounded by datasheet checks alone.
107DCN2R7Q107DCN2R7Q
$13.07
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