ICE Components develops magnetics for advanced power applications. ICE Components works closely with IC manufacturers to understand the complexities and problems faced by customers so it can design and develop innovative components such as power inductors, output power chokes, off-line transformers, gate drive transformers, current sense transformers, SMT power inductors, common mode chokes, differential mode chokes, and line filters.
ICE Components GT05 Series Gate Drive Transformer, based on the highly regarded GT03 series, uses a new innovative header design to increase creepage and simplify assembly. Features of the GT05 Gate Drive Transformer series include low leakage inductance, multiple winding configurations, excellent E-T ratings, Hi-Pot ratings up to 3,750vac and high creepage distances suitable for most applications. GT05 Series Gate Drive Transformers are optimized for frequencies from 40kHz to 350kHz and are suitable for pick and place applications.
NEW! ICE Components' GT04 Series Gate Drive Transformer now available for frequencies from 20 kHz to 300 kHz.
ICE Components' GT02 Series Gate Drive Transformer has a low 3mm profile and is designed for frequencies from 75 kHz to over 1 MHz. The GT02 Series is ideal for Pick and Place applications. ICE's GT03 Series
meets medical VDE creepage/clearance and is optimized for frequencies
from 100 kHz to 350 kHz. Both of these series are suitable for AC/DC and
DC/DC converter applications.
ICE Components I04 Series Output Power Chokes have been designed in collaboration with On Semiconductor to work with the NCP1207 controller as a second stage output filter. With multiple inductance values at popular output current levels, the I04 Series Output Power Chokes provide solutions for a range of output filtering needs. The low DCR values minimize the voltage drop across the inductor and minimize losses due to temperature rise. Low cost designs utilize powdered iron cores from micrometals to eliminate the risk of long term instability.
ICE Components I02 / I03 Series High Current Power Inductors feature high energy storage in a compact package with high saturation current to 60A, DCR as low as 0.60mΩ, and lower DCR than similar Toroid designs. Applications for I02 / I03 Series High Current Power Inductors include desktop CPUs, servers, VRMs, and DC /DC converters.
ICE Components CT07 / CT08 Series Current Sense Transformers feature high current density, encapsulated construction, and a frequency range of 40 Hz to 200 kHz. CT07 / CT08 Series Current Sense Transformers are PCB mount and have a rating range up to 200A. Applications include switching power supplies and motor controls.
ICE Components CT06 Series Current Sense Transformers feature a small footprint, current ratings to 18A, and is hi-pot tested at 1500 VAC. CT06 Series Current Sense Transformers are ideal for DC/DC converters, AC/DC converters, and POL converters.
ICE Components' Class D Inductors offer a small footprint, shielded design for low EMI, and ferrite material designed for audio applications. The primary application for ICE's Class D inductors is Class D audio amplifiers.
ICE Components' CT02 Series Current Sense Transformers offer the smallest footprint, current ratings to 18A, and are hi-pot tested at 1,500 VAC. ICE's patent-pending current sense transformers are ideal for DC/DC, AC/DC, and POL converter applications.
ICE Components' XT Series X-Coil Gate and Signal Transformers feature a small footprint, low profile, flat top surface suitable for Pick-and-Place applications, and RoHS compliance. ICE's XT Series transformers are ideal for gate driver transformer, isolated pulse and signal transformers, and DC/DC and AC/DC converter applications.
ICE Components' GT02 Series Gate Drive Transformer has a low 3mm profile and is designed for frequencies from 75 kHz to over 1 MHz. The GT02 Series is ideal for Pick and Place applications. ICE's GT03 Series meets medical VDE creepage/clearance and is optimized for frequencies from 100 kHz to 350 kHz. Both of these series are suitable for AC/DC and DC/DC converter applications.