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IHD1EB100L Equivalent & Substitute Parts
Part Overview
The IHD1EB100L is a 10 µH unshielded drum core wirewound inductor manufactured by Vishay Dale, rated for 2.8 A continuous current with a maximum DC resistance of 33 mOhm. This through-hole axial component operates across the temperature range of -55°C to 125°C and is ROHS3 compliant. The part is currently active in production with 641 pieces available in stock. Substitute parts are identified when equivalent electrical and mechanical specifications can support the same circuit function while maintaining compliance and performance requirements.
Substiute Parts
Key Parameters
| Parameter | Value |
|---|---|
| Inductance | 10 µH |
| Current Rating | 2.8 A |
| DC Resistance (DCR) | 33 mOhm Max |
| Tolerance | ±15% |
| Core Material | Ferrite |
| Shielding | Unshielded |
| Mounting Type | Through Hole |
| Package Type | Axial |
| Operating Temperature | -55°C to 125°C |
| RoHS Status | ROHS3 Compliant |
Substitute Part Grouping Explanation
Substitution eligibility for the IHD1EB100L is determined by the following critical parameters:
- Inductance Value: Must be 10 µH to maintain circuit resonance and filtering characteristics
- Current Rating: Substitute must support minimum 2.1 A continuous current; the IHD1EB100L operates at 2.8 A, establishing the baseline requirement
- DC Resistance: Must not exceed 33 mOhm to ensure acceptable power dissipation and thermal performance
- Core Material: Ferrite drum core construction required for electromagnetic performance consistency
- Shielding Configuration: Unshielded topology must be maintained
- Mounting and Package: Through-hole axial configuration required for mechanical compatibility
- Compliance: ROHS3 compliance mandatory for regulatory alignment
The Bourns 5800-100-RC meets these substitution criteria with equivalent inductance, ferrite core construction, unshielded design, and through-hole axial mounting. Physical dimensions remain within acceptable tolerance for standard PCB layouts.
Parameter Comparison
| Parameter | IHD1EB100L (Vishay Dale) | 5800-100-RC (Bourns Inc.) |
|---|---|---|
| Inductance | 10 µH | 10 µH |
| Inductance Tolerance | ±15% | ±10% |
| Current Rating (Amps) | 2.8 A | 2.1 A |
| Current - Saturation (Isat) | 2.3 A | 3.6 A |
| DC Resistance (DCR) | 33 mOhm Max | 32 mOhm Max |
| Core Material | Ferrite | Ferrite |
| Shielding | Unshielded | Unshielded |
| Mounting Type | Through Hole | Through Hole |
| Package / Case | Axial | Axial |
| Operating Temperature Range | -55°C to 125°C | -55°C to 105°C |
| Size / Dimension | 0.270" Dia x 0.700" L (6.86mm x 17.78mm) | 0.275" Dia x 0.700" L (6.99mm x 17.78mm) |
| RoHS Status | ROHS3 Compliant | ROHS3 Compliant |
| REACH Status | REACH Unaffected | REACH Unaffected |
| Product Status | Active | Active |
Engineering Selection Recommendations
Both the IHD1EB100L and 5800-100-RC are active production components with ROHS3 compliance and REACH unaffected status, ensuring regulatory alignment for current and future applications. The Bourns 5800-100-RC provides tighter inductance tolerance (±10% versus ±15%) and lower DC resistance (32 mOhm versus 33 mOhm), resulting in improved performance characteristics. However, the IHD1EB100L supports a higher continuous current rating of 2.8 A compared to 2.1 A for the substitute, and maintains a higher maximum operating temperature of 125°C versus 105°C. Selection should be based on circuit current requirements and thermal operating conditions. Both components are mechanically compatible with standard through-hole PCB layouts, with physical dimensions within acceptable tolerance for direct substitution.
Frequently Asked Questions (FAQ)
Q: Can the Bourns 5800-100-RC directly replace the Vishay Dale IHD1EB100L?
A: Direct substitution is possible when circuit current requirements do not exceed 2.1 A continuous operation and maximum ambient temperature remains below 105°C. Both components share identical 10 µH inductance, ferrite core construction, unshielded topology, and through-hole axial mounting. Verify circuit specifications against the lower current rating and reduced temperature range of the substitute.
Q: What are the key differences between these two inductors?
A: The primary differences are current rating (2.8 A versus 2.1 A), inductance tolerance (±15% versus ±10%), DC resistance (33 mOhm versus 32 mOhm), and operating temperature range (-55°C to 125°C versus -55°C to 105°C). The Bourns part offers tighter tolerance and lower resistance, while the Vishay part supports higher current and temperature extremes.
Q: Are there packaging differences between these parts?
A: The IHD1EB100L is supplied in bulk packaging, while the 5800-100-RC is supplied in tray packaging. Both use identical through-hole axial package configuration with negligible physical dimension variation (0.270" versus 0.275" diameter, both 0.700" length).
Q: Do both parts meet current compliance requirements?
A: Yes. Both the IHD1EB100L and 5800-100-RC are ROHS3 compliant and REACH unaffected, meeting current regulatory standards for electronic component manufacturing and use.
Q: What is the saturation current difference, and does it matter for substitution?
A: The IHD1EB100L has a saturation current (Isat) of 2.3 A, while the 5800-100-RC has 3.6 A. Saturation current defines the point at which inductance begins to degrade under high current stress. The higher saturation rating of the Bourns part provides additional margin in this parameter, though circuit design should operate well below saturation limits for both components.
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