SS26V-200076 Common Mode Choke Equivalent & Substitute Parts

Part Overview

The SS26V-200076 is a 7.6 mH common mode choke manufactured by KEMET, designed for power line filtering applications. This through-hole component operates at 2A maximum current with a DC resistance of 250 mOhm and is rated for 250V AC operation across a temperature range of -25°C to 120°C. The part is Active in product status and ROHS3 compliant.

Substitute parts are identified when equivalent electrical performance can be achieved within the specified parameter tolerances while maintaining compatibility with the through-hole mounting configuration and 2-line common mode choke topology.

Substiute Parts

SS26V-200076

KEMETIn Stock: 1014SS26V-200076 Datasheet

Current PartRFQ

SS28V-20075-CH

KEMETIn Stock: 1130SS28V-20075-CH Datasheet

Parametric EquivalentRFQ

SS28V-K20115-CH

KEMETIn Stock: 2602SS28V-K20115-CH Datasheet

Parametric EquivalentRFQ

SS30V-R200132

KEMETIn Stock: 1181SS30V-R200132 Datasheet

Parametric EquivalentRFQ

SS35H-20170

KEMETIn Stock: 1334SS35H-20170 Datasheet

Parametric EquivalentRFQ

Key Parameters

Substitute Part Grouping Explanation

Substitute parts for the SS26V-200076 are classified based on the following critical parameters that determine functional equivalence:

Primary Substitution Criteria:

• Number of Lines: 2 (all substitutes maintain 2-line configuration)
• Mounting Type: Through Hole (all substitutes use through-hole mounting)
• Filter Type: Power Line (all substitutes are power line filters)
• Current Rating: 2A (all substitutes rated for 2A maximum)
• Voltage Rating - AC: 250V (all substitutes rated for 250V AC)
• Operating Temperature Range: -25°C to 120°C (all substitutes operate within this range)
• Package / Case: Vertical, 4 PC Pin (all substitutes use identical package configuration)
• Series: SS (all substitutes belong to KEMET SS series)
• RoHS Status: ROHS3 Compliant (all substitutes maintain compliance)

Secondary Variation Parameters:

• Inductance @ 1 kHz: 7.5 mH to 17 mH (varies by substitute)
• DC Resistance (Max): 210 mOhm to 280 mOhm (varies by substitute)
• Physical Dimensions: Varies by inductance value

Substitutes are valid when the application circuit can tolerate the inductance and DC resistance variations within the specified ranges.

Parameter Comparison

Engineering Selection Recommendations

All substitute parts listed maintain Active product status and ROHS3 compliance, ensuring long-term availability and regulatory conformance equivalent to the SS26V-200076.

SS28V-20075-CH provides the closest inductance match at 7.5 mH with improved DC resistance performance at 220 mOhm. This substitute is suitable for applications where inductance tolerance is critical and lower resistive losses are beneficial.

SS28V-K20115-CH offers increased inductance at 11.5 mH with equivalent DC resistance of 220 mOhm. This substitute is applicable in circuits requiring higher common mode attenuation.

SS30V-R200132 provides the lowest DC resistance at 210 mOhm with inductance of 13.2 mH. This substitute is suitable for applications prioritizing minimal power dissipation.

SS35H-20170 delivers maximum inductance at 17 mH with DC resistance of 280 mOhm. This substitute is applicable in circuits requiring maximum common mode filtering with tolerance for increased resistive losses.

Selection between substitutes depends on circuit requirements for inductance value, DC resistance, and physical space constraints. All substitutes maintain identical electrical ratings for current, voltage, temperature range, and mounting configuration.

Frequently Asked Questions (FAQ)

Q: Can SS28V-20075-CH replace SS26V-200076 in all applications?

A: SS28V-20075-CH is suitable for applications where the inductance variation from 7.6 mH to 7.5 mH is acceptable and where the improved DC resistance of 220 mOhm (versus 250 mOhm) does not create circuit performance changes. The substitute maintains identical current rating, voltage rating, temperature range, and mounting configuration.

Q: What is the primary difference between the substitute parts?

A: The substitute parts vary in inductance value (7.5 mH to 17 mH) and DC resistance (210 mOhm to 280 mOhm). All other electrical and mechanical parameters remain constant across the series. Selection is determined by the specific inductance and resistance requirements of the application circuit.

Q: Are all substitute parts compatible with the same PCB footprint?

A: All substitute parts use identical through-hole mounting with Vertical, 4 PC Pin package configuration. However, physical dimensions vary by inductance value. Verify PCB layout space accommodates the substitute part dimensions before selection.

Q: Do all substitute parts meet the same compliance standards?

A: All substitute parts are ROHS3 compliant, REACH unaffected, and classified under ECCN EAR99. Compliance status is equivalent across all listed substitutes.

Q: Which substitute offers the lowest power dissipation?

A: SS30V-R200132 provides the lowest DC resistance at 210 mOhm, resulting in the lowest resistive power loss at rated current.

Q: Can SS35H-20170 be used where SS26V-200076 is specified?

A: SS35H-20170 is suitable only if the application circuit can tolerate the increased inductance of 17 mH (versus 7.6 mH) and the increased DC resistance of 280 mOhm (versus 250 mOhm). Physical dimensions are also larger and must be verified against PCB layout constraints.