MHQ0603P2N2ST000
- Description
- Inductor High Frequency Chip Unshielded Multi-Layer 2.2nH 0.3nH 500MHz 16Q-Factor Ceramic 700mA 150mOhm DCR 0201 T/R
- Mount
- Surface Mount
- Current Rating
- 700mA
- DC Resistance (DCR)
- 150mO
- Inductance
- 2.2nH
- Q Factor
- 16
- Self Resonant Frequency
- 10GHz
- Datasheet
Quantity
Need this part?
Let us do the sourcing. Even if it's not available now, our team can track it down and tailor a solution just for you.
Let us do the sourcing. Even if it's not available now, our team can track it down and tailor a solution just for you.
Fusion-Tested. Quality Guaranteed.
- Inductance: 2.2nH
- Current Rating: 700mA
- Unshielded Design for Enhanced Performance
- Low DC Resistance: 150mO
- High Q Factor: 16
- Test Frequency: 500MHz
- Self Resonant Frequency: 10GHz
- Operating Temperature Range: -55°C to 125°C
- Surface Mount Technology (SMD/SMT)
- RoHS Compliant
The TDK High Frequency Chip Inductor is a cutting-edge RF inductor designed for high-performance applications requiring minimal inductance and exceptional efficiency. With an inductance value of 2.2nH and a current rating of 700mA, this unshielded multi-layer inductor is ideal for high-frequency circuits operating up to 500MHz. Its compact 0201 case size ensures easy integration into space-constrained designs, while the ceramic core material provides non-magnetic properties, making it suitable for a variety of RF applications.
Fusion’s in-house quality hubs and Prosemi testing facility are fully certified to meet critical industry standards for electronic component inspection and testing.
AS6081
AS9120B
ISO 9001
QMS STD 9090
Quantity
Need this part?
Let us do the sourcing. Even if it's not available now, our team can track it down and tailor a solution just for you.
Let us do the sourcing. Even if it's not available now, our team can track it down and tailor a solution just for you.
Fusion-Tested. Quality Guaranteed.
See something worth saving? Create an account to track this part and get alerts on price and availability updates.
The Latest Insights