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FBMJ1608HM230NTW
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Product Detailed Parameters
- Description:FERRITE BEAD 23 OHM 0603 1LN
- Series:FB
- Mfr:Taiyo Yuden
- Package:Tape & Reel (TR),Cut Tape (CT)
- Filter Type:Power Line
- Number of Lines:1
- Impedance @ Frequency:23 Ohms @ 100 MHz
- Current Rating (Max):6A
- DC Resistance (DCR) (Max):6mOhm
- Ratings:AEC-Q200
- Operating Temperature:-40°C ~ 125°C
- Package / Case:0603 (1608 Metric)
- Mounting Type:Surface Mount
- Height (Max):0.039" (1.00mm)
- Size / Dimension:0.063" L x 0.032" W (1.60mm x 0.80mm)
- Features:-
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Buying Guide
Taiyo Yuden FBMJ1608HM230NTW is a component in Ferrite Beads and Chips category typically evaluated for fit, operating limits, and supportability in production. Key specs include Description (FERRITE BEAD 23 OHM 0603 1LN), Series (FB), Packaging (Tape & Reel (TR), Cut Tape (CT)), Temperature (-40°C ~ 125°C), and Package/case (0603 (1608 Metric)).
Selection Notes
- For FBMJ1608HM230NTW, make sure the mounting type (Surface Mount) matches how the part will be installed and inspected.
- Confirm the characteristic impedance (23 Ohms @ 100 MHz) matches your transmission line and matching network.
- Check that the operating frequency (23 Ohms @ 100 MHz) aligns with your system clocking plan.
- Confirm the operating temperature range (-40°C ~ 125°C) meets your deployment conditions.
Alternates & Substitutions
- For FBMJ1608HM230NTW in Ferrite Beads and Chips, the closest second source usually preserves the same board-level role and product constraints without creating hidden follow-on changes.
- For FBMJ1608HM230NTW in Ferrite Beads and Chips, compare alternates by the same filtering or energy-storage role they play in the power or signal path (key constraints: package 0603 (1608 Metric), frequency 23 Ohms @ 100 MHz).
- When two parts look similar, the one that already matches package/case 0603 (1608 Metric), mounting Surface Mount, packaging Tape & Reel (TR), Cut Tape (CT) usually stays closer to the original assembly path.
- When the operating envelope remains temperature -40°C ~ 125°C, the substitute is more likely to behave like the original part in service.
FAQ
What Filter Type is listed for FBMJ1608HM230NTW?
Power Line
Which Number of Lines is specified for FBMJ1608HM230NTW?
1
Which supply current is specified for FBMJ1608HM230NTW?
6A
What package/case does FBMJ1608HM230NTW use?
0603 (1608 Metric)
Application Scenarios
Selecting Taiyo Yuden FBMJ1608HM230NTW for Ferrite Beads and Chips usually comes down to meeting the system constraints that matter most: limits, interfaces, and testability in the real build. They shape current and suppress EMI by providing inductance, impedance, or filtering across defined frequency bands. Engineers generally evaluate saturation current, DCR, frequency response, and thermal rise to avoid hidden performance collapse under load. The scenarios below focus on the enclosure, wiring, contact wear, contamination, thermal loading, and service conditions that usually decide whether bench results survive deployment. Those are usually the checks that reveal whether the margin is real or only visible under a best-case bench setup. In consumer devices, inductive elements balance size, efficiency, and EMI in compact enclosures. In RF designs, filtering controls out-of-band energy and improves coexistence with nearby radios and high-speed digital noise.
Compatibility Advice
- With Taiyo Yuden FBMJ1608HM230NTW, verify impedance or ESR behavior across frequency so the real dynamics match your stability and noise expectations during bring-up and production test.
- During bring-up, confirm that substitutions preserve dielectric or core material behavior because that often changes drift and loss more than the nominal value before freezing the BOM.
- Before committing to volume builds, confirm tolerance, drift, and temperature coefficients match the accuracy and stability the circuit actually needs. Record the exact load, wiring, and limits so the same evidence can be regenerated during ECO or second-source review.
Project Fit
- Avoid relying on Taiyo Yuden FBMJ1608HM230NTW in Ferrite Beads and Chips designs when derating and self-heating cannot be verified, so performance drift may appear after deployment because the key behaviors cannot be confirmed on the assembled system.
- Taiyo Yuden FBMJ1608HM230NTW makes sense in Ferrite Beads and Chips work when the design needs predictable impedance versus frequency and can validate it on the assembled system.
