CDRH6D26HPNP-100MC

Sumida America Components Inc.

INDUCTOR

3177 Pcs New Original In Stock

10 µH Shielded Drum Core, Wirewound Inductor 1.8 A 90mOhm Max Nonstandard

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5.0 / 5.0 - (495 Ratings)

CDRH6D26HPNP-100MC

Name: Sumida America Components Inc. CDRH6D26HPNP-100MC
Brand: Sumida America Components Inc.
SKU: CDRH6D26HPNP100MC
Price: 0.6995 USD
Availability: InStock
Rating: 5.0 (495 reviews)

Product Overview

2717599

DiGi Electronics Part Number

CDRH6D26HPNP-100MC-DG

Manufacturer

Sumida America Components Inc.

Manufacturer Product Number CDRH6D26HPNP-100MC

Description

INDUCTOR

Inventory

3177 Pcs New Original In Stock

Detailed Description 10 µH Shielded Drum Core, Wirewound Inductor 1.8 A 90mOhm Max Nonstandard

See all Fixed Inductors

Datasheet CDRH6D26HPNP-100MC Datasheet

Quantity
Minimum 1

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Freight

Basic cost: USD 70.00

Actual cost may vary depending on weight and destination

Shipping method

Shipped from Hong Kong via FedEx/DHL/UPS/TNT

Delivery Time

In-stock items: Ready to ship in 1-2 days

Transit time: 3-5 business days (FedEx/DHL/UPS)

Special requests? Contact us: [email protected]

In Stock (All prices are in USD)

QTY Target Price Total Price
1 0.6995 0.6995
10 0.5686 5.6860
30 0.5023 15.0690
100 0.4375 43.7500
500 0.3992 199.6000
1500 0.3786 567.9000

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CDRH6D26HPNP-100MC Technical Specifications

Datasheet & Documents

Datasheets

Download CDRH6D26HPNP-100MC Product Specification (PDF)

HTML Datasheet

CDRH6D26HPNP-100MC-DG

Additional Information

Other Names

308-CDRH6D26HPNP-100MCTR

Standard Package

1,500

Reviews

5.0/5.0-(Show up to 5 Ratings)

星***者

грудня 02, 2025

5.0

售後服務真的很棒，即使遇到複雜問題，他們也能提供快速的解決方案。

Mot***agie

грудня 02, 2025

5.0

Le support après-vente m'a aidé à résoudre un problème technique en moins d'une heure, très professionnel.

Kie***meer

грудня 02, 2025

5.0

DiGi Electronics bietet eine super Auswahl und faire, transparente Preise. Sehr zufrieden.

な***ら

грудня 02, 2025

5.0

親身になって相談にのってくださるスタッフの方々が魅力です。

Everg***nEcho

грудня 02, 2025

5.0

The after-sales support from DiGi Electronics is outstanding, always quick to respond and incredibly helpful.

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Frequently Asked Questions (FAQ)

What are the key design-in risks when using the CDRH6D26HPNP-100MC in a high-current DC-DC converter operating near 1.8 A continuous load?

When using the CDRH6D26HPNP-100MC near its rated 1.8 A DC current, engineers must account for thermal rise and inductance roll-off due to saturation. While the saturation current (Isat = 2.5 A) provides margin, operating close to the rated current can cause core heating, especially in enclosed or poorly ventilated layouts. To mitigate risk, de-rate current by 20–30% in ambient temperatures above 85°C and ensure PCB copper acts as a heatsink with adequate thermal vias under the ground pad. Monitor inductor temperature during load transients to avoid unexpected saturation and output ripple increase.

How does the CDRH6D26HPNP-100MC compare to the TDK VLS6045ET-100M in terms of shielding effectiveness and DCR for space-constrained power designs?

The CDRH6D26HPNP-100MC and TDK VLS6045ET-100M both offer shielded drum core designs and 10 µH inductance, but the Sumida part has a lower DCR (90mOhm max vs. 105mOhm max), improving efficiency in high-current applications. The CDRH6D26HPNP-100MC also has a higher saturation current (2.5 A vs. 2.07 A) and slightly better thermal performance due to its ferrite core construction. However, the TDK part uses a standard 6.0mm x 6.0mm footprint, making PCB layout interchangeability challenging. When replacing VLS6045ET-100M with CDRH6D26HPNP-100MC, verify footprint compatibility and routing clearance for the larger 6.7mm body.

Can the CDRH6D26HPNP-100MC be used reliably in automotive power supplies with frequent thermal cycling between -40°C and 105°C?

Yes, the CDRH6D26HPNP-100MC is rated for -40°C to 105°C operating temperature, making it suitable for under-hood or engine-proximate automotive applications. Its ferrite core and fully shielded construction maintain inductance stability across temperature swings. However, ensure solder joints are designed for thermal cycling reliability—use rounded pad geometries and avoid via-in-pad to prevent crack formation. Consider the 20% inductance tolerance at temperature extremes when setting control loop compensation in buck regulators.

What are the implications of the nonstandard package size of the CDRH6D26HPNP-100MC for high-volume manufacturing and automated pick-and-place assembly?

The CDRH6D26HPNP-100MC’s nonstandard 6.70mm x 6.70mm footprint requires custom stencil and pick-and-place programming, increasing setup time for SMT lines. Verify that the feeder compatibility and vision recognition settings support this dimension to avoid placement misalignment. Also, confirm the supplier provides consistent tape-and-reel packaging (8 mm or wider) to prevent feeding errors. For high-volume production, assess long-term availability and second-source alternatives to mitigate supply chain risk.

What design trade-offs should be considered when selecting the CDRH6D26HPNP-100MC over a multilayer chip inductor like the Murata LQH3NPN100MGR in a noise-sensitive application?

The CDRH6D26HPNP-100MC offers superior current handling (1.8 A vs. ~1.1 A) and lower DCR (90mOhm vs. ~180mOhm) compared to the Murata LQH3NPN100MGR, making it better suited for power stages needing efficiency and thermal headroom. However, while both are shielded, the drum core construction of the CDRH6D26HPNP-100MC provides tighter magnetic containment, reducing EMI in adjacent signal lines. The trade-off is size—Sumida’s 6.7mm body may not fit ultra-compact layouts. Use the CDRH6D26HPNP-100MC when low noise, high current, and EMI control are critical; consider the Murata part only if space is extremely constrained and current demand is under 1.2 A.

Quality Assurance (QC)

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