Manufacturer Part Number
IHLP2020CZER1R5M01
Manufacturer
Vishay Dale
Introduction
High-performance fixed inductor in the IHLP-2020CZ-01 series, designed for surface mounting in electronic circuits.
Product Features and Performance
Molded inductor with inductance value of 1.5 µH
High current rating of 7.2 A
Current saturation at 11 A indicating suitable for high-current applications
Shielded to prevent electromagnetic interference
Low DC resistance of 20.7mOhm maximizes efficiency
Suitable for operating temperatures ranging from -55°C to 125°C
Designed for a frequency test of 100 kHz
Surface mount with a compact nonstandard package size
Product Advantages
High current capacity and saturation
Low loss with minimal DC resistance
Shielding reduces noise and cross-talk
Capability to withstand harsh temperature environments
Key Technical Parameters
Inductance: 1.5 µH
Tolerance: ±20%
Current Rating: 7.2 A
Current - Saturation: 11A
DC Resistance (DCR): 20.7mOhm Max
Operating Temperature: -55°C ~ 125°C
Mounting Type: Surface Mount
Size / Dimension: 0.216" x 0.204"
Height - Seated (Max): 0.118"
Quality and Safety Features
Constructed in accordance with industry standards
Tested for operational stability within specified temperature ranges
Compatibility
Designed for use in circuits that require a surface mount inductor with the stated specifications
Application Areas
Power supply circuits
DC/DC converters
Consumer electronics
Telecommunication devices
Automotive systems
Industrial electronics
Product Lifecycle
Product Status: Active
Not indicated as nearing discontinuation
Replacements or upgrades should be identified through the manufacturer's product portfolio when needed
Several Key Reasons to Choose This Product
Optimal for high-current applications due to its high saturation current
Efficient power management within a circuit due to low DCR
Robust design capable of operating in extreme conditions, both hot and cold
Small form factor enables integration into compact electronic devices
Shielding provides a solution for designs sensitive to electromagnetic interference