Document - HP, HPH HP, HPH HP, HPH HP, HPH HP, HPH HP, HPH Six : isolated windings that can be connected in series or parallel Tightly coupled windings Power range: 0 Watts as inductor and flyback transformer; up to 0 Watts as forward transformer Frequency range up to MHz 00 Vrms Interwinding isolation These off-the shelf parts can be used to create thousands of configurations, providing a convenient method for designers to create custom magnetics. By connecting the windings in series or parallel, the Hexa-Path components can be configured as inductors, coupled inductors and transformers for use in virtually any application: flyback, buck/boost, pushpull, forward, full and half bridge, Cuk, and SEPIC. There are six different sizes available with five HP parts and five HPH parts in each size. The HP offers lower DCR and higher Irms ratings. The HPH offers higher inductance and greater energy storage capabilities. HP, HP, HPH, HPH Winding Layout HP, HP, HP, HP HPH, HPH, HPH, HPH Outer Outer Middle 0 Inner 0 0 Inner One -filar winding Two trifilar windings Three bifilar windings Document - Revised 0//0
Document - Part Inductance product storage Isat Irms number (µh) (Ohms) (V-µsec) (µj) (A) (A) HP-00L_. ±% 0.0. Note Note 0. HP-00L_. ±0% 0.0.. 0.0 0. HP-00L_. ±% 0.0.. 0.0 0. HP-00L_. ±0% 0.0...0 0. HP-00L_. ±% 0.0...0 0. HP-00L_. ±% 0.0.0 Note Note. HP-0L_ 0. ±0% 0.0.0. 0.0. HP-0L_. ±% 0.0.0.0. HP-00L_. ±0% 0.0.0.0. HP-00L_. ±% 0.0.0.0. HP-00L_.0 ±% 0.0 0. Note Note. HP-0L_. ±0% 0.0 0.. 0.0. HP-00L_. ±% 0.0 0... HP-00L_. ±0% 0.0 0... HP-00L_. ±% 0.0 0..0. HP-0L_. ±% 0.0. Note Note. HP-00L_. ±0% 0.0..00. HP-00L_. ±% 0.0. 0.00. HP-000L_. ±0% 0.0..0. HP-00L_. ±% 0.0. 0.0. HP-00L_. ±% 0.0. Note Note. HP-0L_. ±0% 0.0..0. HP-00L_. ±% 0.0..0. HP-00L_. ±0% 0.0..0. HP-00L_. ±% 0.0..0. HP-00L_. ±% 0.00. Note Note.0 HP-0L_. ±0% 0.00..0.0 HP-0L_. ±% 0.00..0.0 HP-0L_. ±0% 0.00..0.0 HP-000L_. ±% 0.00..0.0 HPH-00L_ 0 ±% 0.0. Note Note 0. HPH-00L_. ±0% 0.0.. 0.00 0. HPH-00L_. ±% 0.0. 0. 0.0 0. HPH-00L_ 0. ±0% 0.0.. 0.0 0. HPH-00L_. ±% 0.0. 0.00 0. HPH-00L_ 0 ±% 0. 0. Note Note 0. HPH-0L_. ±0% 0. 0.. 0.0 0. HPH-0L_. ±% 0. 0..0 0. HPH-00L_. ±0% 0. 0. 0.0 0. HPH-00L_. ±% 0. 0..00 0. HPH-00L_ 0 ±% 0.. Note Note. HPH-0L_. ±0% 0... 0.0. HPH-00L_. ±% 0...0 0.0. HPH-00L_. ±0% 0...0. HPH-00L_. ±% 0...0. HPH-0L_ ±% 0.0. Note Note. HPH-00L_. ±0% 0.0. 0.0. HPH-00L_. ±% 0.0..0. HPH-000L_ 0. ±0% 0.0..0. HPH-00L_. ±% 0.0..0. HPH-00L_ ±% 0.00. Note Note. HPH-0L_. ±0% 0.00. 0.0. HPH-00L_.0 ±% 0.00..0. HPH-00L_. ±0% 0.00. 00.0. HPH-00L_. ±% 0.00. 0.0. HPH-00L_ ±% 0.00. Note Note.0 HPH-0L_. ±0% 0.00..0.0 HPH-0L_. ±% 0.00..0.0 HPH-0L_. ±0% 0.00..0.0 HPH-000L_. ±% 0.00..0.0. Please specify termination and packaging codes: HPH-00LD Termination: L = RoHS compliant tin-silver over tin over nickel over phos bronze. Special order: T = RoHS tin-silver-copper (.//0.) or S = non-rohs tin-lead (/). Packaging: D = machine-ready reel. EIA- embossed plastic tape B = Less than full reel. In tape, but not machine ready. To have a leader and trailer added ($ charge), use code letter D instead.. Inductance is per winding, measured at 00 khz, 0. Vrms, 0 Adc.. DCR is per winding, measured on Cambridge Technology micro-oheter or equivalent.. Volt-time product is for a single winding or multiple windings connected in parallel. To calculate volttime product for windings connected in series, multiply the value specified in the table by the number of windings connected in series.. Peak energy storage is for any combination of windings, assuming saturation current applied. See note for definition of saturation current.. DC current at which the inductance drops 0% typ from its value without current, based on current applied to all six windings connected in series. For applications where all windings are not connected in series, use the following equation to calculate Isat: Isat = Isat table number of windings in series.. Current that causes a 0 C rise from C ambient due to self heating, tested with continuous current flow through all windings connected in series. Application temperature rise will depend on the operating current, duty cycle, and winding connection.. Part is designed exclusively for use as a forward converter transformer and was not tested for energy storage and saturation current.. Electrical specifications at C. Core material Ferrite Terminations RoHS tin-silver over tin over nickel over phos bronze. Other terminations available at additional cost. Ambient temperature 0 C to + C with Irms current, + C to + C with derated current Storage temperature Component: 0 C to + C. Packaging: C to +0 C Resistance to soldering heat Max three 0 second reflows at +0 C, parts cooled to room temperature between cycles Moisture Sensitivity Level (MSL) (unlimited floor life at <0 C / % relative humidity) Mean Time Between Failures (MTBF),, hours PCB washing Only pure water or alcohol recoended Document - Revised 0//0
HP-L HP-L Document - HP, HPH 0.0 0,0 0.0,00 Dot indicates pin 0.,0 0.0,0 0.0,00 0. 0,00 0.,0 0.0,0 0.,0 0.,00 0.,0 0.00 / 0,0 Weight:. g Packaging 00 per reel Plastic tape: wide, 0. thick, pocket spacing,. pocket depth HP, HPH 0.0 0,0 0.0,0 Dot indicates pin 0.0,0 0.,0 0.0,0 0.0,0 0.0, 0.,00 0.,0 0.,0 0.,0 0.00 / 0,0 Weight:.. g Packaging 00 per reel Plastic tape: wide, 0. thick, 0 pocket spacing,. pocket depth Document - Revised 0//0
HP-L HP-L Document - HP, HPH 0.0 0,0 Dot indicates pin 0., 0.0,0 0., 0.0,0 0.,0 0.0, 0.,00 0.,0 0.,0 0.,00 0.00 / 0,0 Weight:.. g Packaging 00 per reel Plastic tape: wide, 0. thick, pocket spacing,. pocket depth HP, HPH 0.0 0,0 0.00, Dot indicates pin 0.,0 0.0,0 0.00, 0.,0 0.,00 0.0, 0.,0 0. 0.0 0.0, 0.00 / 0,0 Weight:.. g Packaging 00 per reel Plastic tape: wide, 0. thick, pocket spacing,. pocket depth Document - Revised 0//0
HP-L HP-L Document - HP, HPH 0.0 0,0 Dot indicates pin 0.0, 0.,00 0.0, 0.,00 0.0 0, 0.0, 0.,0 0. 0,0 0., 0.00 / 0,0., Weight: 0.. g Packaging per reel Plastic tape: wide, 0. thick, pocket spacing,.0 pocket depth HP, HPH Dot indicates pin 0.0,00.0, 0.0, 0.,.0, 0., 0.0,00.0,0 0.,.,0 0.00 / 0,0., Weight:.. g Packaging 0 per reel Plastic tape: wide, 0. thick, pocket spacing,. pocket depth Document - Revised 0//0
Document - Formulas used to calculate electrical characteristics (number of windings) DCR = DCR table number of windings DCR = [number of windings ( DCR table)] number of windings Inductors using multiple windings Part Inductance product storage Isat Irms number (µh) (Ohms) (V-µsec) (µj) (A) (A) HP-0L_. ±0% 0.0 0.. 0.0. For higher inductance, the windings can be connected in series. As inductance increases, energy storage and Irms remain the same, but DCR increases and Isat decreases. Example: Calculate new electricals for HP-0L with four windings (W n) connected in series: W n =. =. µh DCR = DCR table W n = 0.0 = 0. Ohms Isat = (Isat table) W n = (0. ) = 0. A =. A 0 L =. µh DCR = 0. Isat = 0. A Irms =. A To increase current ratings, the windings (W n ) can be connected in parallel. DCR decreases, current ratings increase, and inductance remains the same. Example: Calculate new electricals for HP-00L, with three (W n) windings connected in parallel (equivalent to one winding in series): =. µh DCR = [W n ( DCR table )] = [ ( 0.0)] = 0.0 Ohms Isat = (Isat table ) W n = (0. ) =. A W n =. =. A 0 L =. µh DCR = 0.0 Isat =. A Irms =. A Document - Revised 0//0
Document - Formulas used to calculate electrical characteristics (number of windings) DCR = DCR table number of windings DCR = [number of windings ( DCR table)] number of windings Create a Watt : : flyback transformer with a bias winding Choose HPH-0L Vin = Vdc; Vout = V,. A Part Inductance product storage Isat Irms number (µh) (Ohms) (V-µsec) (µj) (A) (A) HPH-0L. ±0% 0... 0.0. Connecting primary windings in series When primary windings (W pri ) are connected in series, inductance increases, energy storage and Irms remain the same, but DCR increases and Isat decreases. Example: For HPH-0L, connect two primary windings in series: W pri =. =. µh DCR = DCR table W pri = 0. = 0. Ohms Isat = (Isat table ) W pri = (0. ) =. A =. A Connecting secondary windings in parallel When secondary windings (W sec) are connected in parallel, DCR decreases and Irms increases. Example: For HPH-00L, connect two secondary windings in parallel: DCR = [W sec ( DCR table)] = [( ( 0.)] = 0.0 Ohms W sec =. =. A Pri Bias 0 Primary: L =. µh DCR = 0. Isat =. A Irms =. A Sec Secondary: DCR = 0.0 Irms =. A Document - Revised 0//0
Document - Formulas used to calculate electrical characteristics (number of windings) DCR = DCR table number of windings DCR = [number of windings ( DCR table)] number of windings Create a 0 Watt, :, two switch forward converter transformer Choose HPH-00L Vin = Vdc; Vout = V, 0. A Part Inductance product storage Isat Irms number (µh) (Ohms) (V-µsec) (µj) (A) (A) HPH-00L ±% 0.00. N/A N/A.0 Connecting primary windings in parallel When primary windings (W pri) are connected in parallel, DCR decreases, Irms increases, and inductance and volt-time product remain the same. Example: For HPH-00L, connect three primary windings in parallel: Pri Sec 0 = µh DCR = [W pri ( DCR table)] = [( ( 0.00]) = 0.00 Ohms VT = VT table =. V-µsec W pri =.0 =.0 A Connecting secondary windings in parallel When secondary windings (W sec) are connected in parallel, DCR decreases and Irms increases. Example: For HPH-00L, connect three secondary windings in parallel: DCR = [W sec ( DCR table)] = [( ( 0.00)] = 0.00 Ohms W sec =.0 =.0 A Primary: L = µh DCR = 0.0 Irms =. A VT =. V-µsec Secondary: DCR = 0.0 Irms =. A Document - Revised 0//0
Document - Formulas used to calculate electrical characteristics (number of windings) DCR = DCR table number of windings DCR = [number of windings ( DCR table)] number of windings Create a 00 Watt, :, half bridge forward converter transformer with center tapped secondary Choose HP-00L Vin = Vdc; Vout = V,. A Part Inductance product storage Isat Irms number (µh) (Ohms) (V-µsec) (µj) (A) (A) HPH-00L ±% 0.00. N/A N/A.0 Connecting primary windings in parallel When primary windings (W pri) are connected in parallel, DCR decreases, current ratings increase, and inductance and volt-time product remain the same. Example: For HPH-00L, connect two primary windings in parallel: = µh DCR = [W pri ( DCR table)] = [( ( 0.00)] = 0.0 Ohms VT = VT table =. V-µsec W pri =.0 =. A Connecting secondary windings in series When secondary windings (W sec) are connected in series, Irms remains the same, but DCR increases. Example: For HP-00L, connect four secondary windings in series, creating a center tap at pins and. For each half of the secondary: DCR = DCR table W sec = 0.00 = 0.00 Ohms =. A Pri Primary: L = µh DCR = 0.0 Irms =. A VT =. V-µsec Each half secondary; Sec A (-), Sec B-): DCR = 0.0 Irms =. A 0 Sec A Sec B Document - Revised 0//0
Document -0 Formulas used to calculate electrical characteristics (number of windings) DCR = DCR table number of windings DCR = [number of windings ( DCR table)] number of windings Create a : gate drive transformer Choose HP-00L Part Inductance product storage Isat Irms number (µh) (Ohms) (V-µsec) (µj) (A) (A) HP-00L. ±% 0.0. N/A N/A 0. Connecting primary windings in series When primary windings (W pri) are connected in series, inductance and volt-time product increase, energy storage and Irms remain the same, but DCR increases. Example: For HPH-00L, connect three primary windings in series: W pri =. = 0. µh Pri 0 Sec DCR = DCR table W pri = 0.0 = 0. Ohms VT = VT table W pri = 0. V-µsec = 0. Connecting secondary windings in series When secondary windings (W sec) are connected in series, Irms remains the same, but DCR increases. Example: For HP-00L, connect three secondary windings in series: DCR = DCR table W sec = 0.0 = 0. Ohms = 0. Primary: L = 0. µh DCR = 0. Irms = 0. A VT = 0. V-µsec Secondary: DCR = 0. Irms = 0. A Document -0 Revised 0//0