SCHURTER Inc Datasheets for Inductors, Coils, and Chokes
Inductors coils and chokes are passive components that are designed to resist changes in current and store energy in the form of a magnetic field.
Inductors, Coils, and Chokes: Learn more
Product Name | Notes |
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Description Current compensated 1-phase choke Nanocrystalline cores THT-terminals Flange for mounting onto printed circuit board Unique Selling Proposition Very high inductance Compact design with a small footprint Open design optimizes... | |
Description Current compensated choke 1- or 3-phase choke THT terminals or wire leads Flange for mounting onto printed circuit board Fully potted resign Applications Attenuation of common mode interferences May... | |
Description Current compensated choke 1-phase choke Flexible wire Flange for mounting onto printed circuit board Fully potted resign Applications Placed in front of frequency converter Stepper motor drives UPS-systems Inverter... | |
Description Current compensated choke 1-phase choke THT-terminals Flange for mounting onto printed circuit board Unique Selling Proposition Compact size and light weight Open design optimizes heat dissipation Nanocrystalline (NK) or... | |
Description Current compensated choke 1-phase choke THT-terminals Flange for mounting onto printed circuit board Unique Selling Proposition Compact size and light weight Small footprint on PCB Open design optimizes heat... | |
Description Current compensated choke 1-phase choke THT-terminals Flange for mounting onto printed circuit board Unique Selling Proposition Ultrahigh current High DC voltage Open design optimizes heat dissipation Optional customized versions... | |
Description Current compensated choke 1-phase choke THT-terminals Inductor horizontally positioned in housing SMD version on request Applications Attenuation of common mode interferences Designed for 230/400 VAC applications Chopper amplifiers DC... | |
Description Current compensated choke 1-phase choke THT-terminals Inductor vertically positioned in housing Applications Attenuation of common mode interferences Designed for 230/400 VAC applications Chopper amplifiers DC drives and stepper motor... | |
Description Current compensated choke 3-phase and neutral line THT-terminals Flange for mounting onto printed circuit board Unique Selling Proposition Compact size and light weight Open design optimizes heat dissipation Nanocrystalline... | |
Description Current compensated choke 3-phase choke Flexible wire Flange for mounting onto printed circuit board Fully potted resign Applications Placed in front of frequency converter Stepper motor drives UPS-systems Inverter... | |
Description Current compensated choke 3-phase choke THT-terminals Flange for mounting onto printed circuit board Other versions on request: | -4 wire versions | -Customer specific pin outs Unique Selling Proposition... | |
Description Current compensated choke SMD-terminals Vertical and horizontal version Applications Attenuation of common mode interferences Designed for 230/400 VAC applications Chopper amplifiers DC drives and stepper motor controls Switching power... | |
Description Current compensated choke THT-terminals Multiple PCB-mounting options High inductance and compact dimensions Multiple pin configurations Applications Attenuation of common mode interferences Designed for 230/400 VAC applications Chopper amplifiers DC... | |
Description Ground wire chokes (ground line chokes) THT-terminals Applications Separating the main earth line to periphery devices This type of chokes permits the building of a system free of ground... | |
Description Ground wire chokes (ground line chokes) Wire leads Applications Separating the main earth line to periphery devices This type of chokes permits the building of a system free of... | |
Description Ground wire chokes (ground line chokes) Wire leads Fully potted resign Applications Separating the main earth line to periphery devices This type of chokes permits the building of a... | |
Description Linear choke THT-terminals Inductor horizontally positioned in housing SMD version on request Applications Smoothing RFI suppression choke RFI suppression choke Chopper amplifiers DC drives and stepper motor controls Switching... | |
Description Linear choke THT-terminals Inductor vertically positioned in housing Applications Smoothing RFI suppression choke RFI suppression choke Chopper amplifiers DC drives and stepper motor controls Switching power supplies | |
Description Linear/saturating choke Flexible wire Low noise development by using iron powder toroids instead of conventional iron lamination cores Fully potted resign Applications Phase angle control circuits with thyristors, triacs... | |
Description Linear/saturating choke THT-terminals Low noise development by using iron powder toroids instead of conventional iron lamination cores Flange for mounting onto printed circuit board Fully potted resign Applications Phase... | |
Description Saturating choke THT-terminals Based on laminated iron core Fully potted resign Applications Phase angle control circuits with thyristors, triacs or transistors The choke acts at its optimum when it... | |
Description Storage choke THT-terminals Inductor horizontally positioned in housing Constant inductance at high alternating field modulation and large DC magnetization Reduced magnetic reversal SMD version on request Applications Storage of... | |
Description Storage choke THT-terminals Inductor vertically positioned in housing Constant inductance at high alternating field modulation and large DC magnetization Reduced magnetic reversal Applications Storage of energy in switched power... | |
Description Storage choke THT-terminals Reduced magnetic reversal Constant inductance at high alternating field modulation and large DC magnetization Constant inductance at high alternating field modulation and large DC magnetization Fully... | |
Description Storage choke Wire leads Reduced magnetic reversal Constant inductance at high alternating field modulation and large DC magnetization Open version without socket and chassis Applications Storage of energy in... |