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  • High current inductors ideal for use in PV Inverter, String Inverter, Bidirectional Inverter applications
  • Inductance range from 26 microhenries to 244 microhenries and current rating over 100 Amps
  • Flat wire coil minimizes losses 
  • Superior thermal management and significantly reduced size and weight compared with conventional toroid designs
  • Custom Design Available up to 500 A current for inverter systems 20kW and up
HWI5252 Series High Current Fixed Inductors for Inverter Systems
Items HWI5252 Series High Current Fixed Inductors for Inverter Systems
HWI5252-101A-260V
26.0 Microhenry (µH) Inductance (±15%) H1300 Series High Current Fixed Inductor for Inverter Systems
HWI5252 Series High Current Fixed Inductors for Inverter Systems
HWI5252-081A-400V
40.0 Microhenry (µH) Inductance (±15%) H1300 Series High Current Fixed Inductor for Inverter Systems
HWI5252 Series High Current Fixed Inductors for Inverter Systems
HWI5252-059A-780V
78.0 Microhenry (µH) Inductance (±15%) HWI5252 Series High Current Fixed Inductor for Inverter Systems
HWI5252 Series High Current Fixed Inductors for Inverter Systems
HWI5252-054A-940V
94.0 Microhenry (µH) Inductance (±15%) HWI5252 Series High Current Fixed Inductor for Inverter Systems
HWI5252 Series High Current Fixed Inductors for Inverter Systems
HWI5252-041A-151V
150.0 Microhenry (µH) Inductance (±15%) HWI5252 Series High Current Fixed Inductor for Inverter Systems
Inductance (±15%) N/A 26.0 µH N/A 40.0 µH N/A 78.0 µH N/A 94.0 µH N/A 150.0 µH
Maximum Direct Current (DC) Resistance N/A 1.5 mOhm N/A 2.3 mOhm N/A 4.2 mOhm N/A 5.2 mOhm N/A 8.7 mOhm
SRF (Typ) N/A 11.5 MHz N/A 9.0 MHz N/A 6.2 MHz N/A 6.5 MHz N/A 4.4 MHz
Isat (Typ) 10% drop N/A 55.0 A N/A 44.0 A N/A 31.0 A N/A 28.0 A N/A 23.0 A
Isat (Typ) 20% drop N/A 83.0 A N/A 65.0 A N/A 47.0 A N/A 43.0 A N/A 34.0 A
Isat (Typ) 30% drop N/A 107 A N/A 85.0 A N/A 61.0 A N/A 56.0 A N/A 44.0 A
Irms (Typ) 20ºC rise N/A 67.0 A N/A 53.0 A N/A 39.0 A N/A 35.0 A N/A 27.0 A
Irms (Typ) 40ºC rise N/A 101 A N/A 81.0 A N/A 59.0 A N/A 54.0 A N/A 41.0 A
Standard Operating Temperature Range N/A -40 to +180 ºC
Note N/A
  • Inductance measured @ 100 KHz, 1 Vrms
  • Isat is the DC current where the inductance drops the specified amount from its original value without bias.
  • Irms is the DC current that causes the specified temperature rise of the winding from 25 ºC ambient for the inductor without housing or potting. Aluminum case, thermal conductive epoxy, or thermal pads can be added to improve cooling.
N/A
  • Inductance measured @ 100 KHz, 1 Vrms
  • Isat is the DC current where the inductance drops the specified amount from its original value without bias.
  • Irms is the DC current that causes the specified temperature rise of the winding from 25 ºC ambient for the inductor without housing or potting. Aluminum case, thermal conductive epoxy, or thermal pads can be added to improve cooling.
N/A
  • Inductance measured @ 100 KHz, 1 Vrms
  • Isat is the DC current where the inductance drops the specified amount from its original value without bias.
  • Irms is the DC current that causes the specified temperature rise of the winding from 25 ºC ambient for the inductor without housing or potting. Aluminum case, thermal conductive epoxy, or thermal pads can be added to improve cooling.
N/A
  • Inductance measured @ 100 KHz, 1 Vrms
  • Isat is the DC current where the inductance drops the specified amount from its original value without bias.
  • Irms is the DC current that causes the specified temperature rise of the winding from 25 ºC ambient for the inductor without housing or potting. Aluminum case, thermal conductive epoxy, or thermal pads can be added to improve cooling.



N/A
  • Inductance measured @ 100 KHz, 1 Vrms
  • Isat is the DC current where the inductance drops the specified amount from its original value without bias.
  • Irms is the DC current that causes the specified temperature rise of the winding from 25 ºC ambient for the inductor without housing or potting. Aluminum case, thermal conductive epoxy, or thermal pads can be added to improve cooling.