HP6-0158SB [COILCRAFT]
General Purpose Inductor, 5.69uH, 15%, 1 Element, Ferrite-Core, SMD;型号: | HP6-0158SB |
厂家: | Coilcraft lnc. |
描述: | General Purpose Inductor, 5.69uH, 15%, 1 Element, Ferrite-Core, SMD |
文件: | 总10页 (文件大小:444K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Document 613-1
Hexa-Path Magnetics
HP1, HPH1
HP2, HPH2
HP3, HPH3
HP4, HPH4
HP5, HPH5
HP6, HPH6
• Six 1:1 isolated windings that can be
Winding Layouts
connected in series or parallel
HP1, HP2, HPH1, HPH2
HP3, HP4, HP5, HP6
HPH3, HPH4, HPH5, HPH6
• Tightly coupled windings
• 500 Vrms, one minute isolation
between each winding
• Power range: 5 – 50 Watts as inductor
and flyback transformer; up to
150 Watts as forward transformer
• Frequency range up to 1 MHz
Outer
Outer
6
5
7
8
6
5
4
7
8
9
12
11
10
6
9
8
7
3
2
1
Middle
Inner
4
3
9
10
Inner
• UL1446 Class F (155°C) Insulation
System (UL File E83628)
3
2
1
10
11
12
5
2
1
11
12
4
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 compo-
nents can be configured as inductors,
coupled inductors and transformers for
use in virtually any application:flyback,
buck/boost, push-pull, forward, full and
half bridge, Cuk, and SEPIC.
One 6-filar winding
Two trifilar windings
Three bifilar windings
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.
Document 613-1 Revised 02/12/18
© Coilcraft Inc. 2018
US +1-847-639-6400 sales@coilcraft.com
UK +44-1236-730595 sales@coilcraft-europe.com
This product may not be used in medical or high
risk applications without prior Coilcraft approval.
Specification subject to change without notice.
Please check web site for latest information.
Taiwan +886-2-2264 3646 sales@coilcraft.com.tw
China +86-21-6218 8074 sales@coilcraft.com.cn
Singapore + 65-6484 8412 sales@coilcraft.com.sg
Document 613-2
Hexa-Path Magnetics
DCR
max3
Volt-time Peak energy
1. Please specify termination and packaging codes:
HPH1-1400LD
Part
Inductance2
(µH)
product4
storage5
(µJ)
Isat6 Irms7
(A) (A)
number1
(Ohms) (V-µsec)
Termination: L = RoHS compliant tin-silver over
tin over nickel over phos bronze.
Special order:
HP1-1400L_
HP1-0190L_
HP1-0102L_
HP1-0076L_
HP1-0059L_
89.6 25ꢀ
12.2 20ꢀ
6.5 15ꢀ
4.9 10ꢀ
3.8 5ꢀ
0.145
0.145
0.145
0.145
0.145
23.4
23.4
23.4
23.4
23.4
Note 8
29.8
55.1
74.7
93.8
Note 8 0.74
0.440 0.74
0.820 0.74
T = RoHS tin-silver-copper
(95.5/4/0.5) or
S = non-RoHS tin-lead (63/37).
1.10
1.40
0.74
0.74
Packaging: All but HP6 and HPH6:
HP2-1600L_
HP2-0216L_
HP2-0116L_
HP2-0083L_
HP2-0066L_
HP3-0950L_
HP3-0138L_
HP3-0084L_
HP3-0055L_
HP3-0047L_
78.4 25ꢀ
10.6 20ꢀ
5.7 15ꢀ
4.1 10ꢀ
3.2 5ꢀ
77.0 25ꢀ
11.2 20ꢀ
6.8 15ꢀ
4.5 10ꢀ
3.8 5ꢀ
0.085
0.085
0.085
0.085
0.085
0.055
0.055
0.055
0.055
0.055
30.8
30.8
30.8
30.8
30.8
30.4
30.4
30.4
30.4
30.4
Note 8
79.2
184
228
252
Note 8
59.6
111
156
173
Note 8 1.13
0.770 1.13
D = 13″ machine-ready reel.
EIA-481 embossed plastic tape
1.60
2.10
2.50
1.13
1.13
1.13
B = Less than full reel. In tape, but
not machine ready. To have
a leader and trailer added
($25 charge), use code letter D
instead.
Note 8 1.73
0.650 1.73
1.14
1.66
1.90
1.73
1.73
1.73
HP6 and HPH6: 24 per tray (no code)
2. Inductance is per winding, measured at 100 kHz,
0.1 Vrms, 0 Adc.
3. DCR is per winding, measured on Cambridge
Technology micro-ohmmeter or equivalent.
4. Volt-time product is for a single winding or multiple
windings connected in parallel.To calculate volt-
time product for windings connected in series, mul-
tiply the value specified in the table by the number
of windings connected in series.
5. Peak energy storage is for any combination of wind-
ings, assuming saturation current applied. See note
6 for definition of saturation current.
HP4-1150L_
HP4-0140L_
HP4-0075L_
HP4-0060L_
HP4-0047L_
HP5-1200L_
HP5-0155L_
HP5-0083L_
HP5-0067L_
HP5-0053L_
HP6-2400L
HP6-0325L
HP6-0158L
HP6-0121L
HP6-0090L
93.2 25ꢀ
11.3 20ꢀ
6.1 15ꢀ
4.9 10ꢀ
3.8 5ꢀ
76.8 25ꢀ
9.9 20ꢀ
5.3 15ꢀ
4.3 10ꢀ
3.4 5ꢀ
86.4 25ꢀ
11.7 20ꢀ
5.69 15ꢀ
4.36 10ꢀ
3.24 5ꢀ
0.055
0.055
0.055
0.055
0.055
0.045
0.045
0.045
0.045
0.045
0.020
0.020
0.020
0.020
0.020
47.3
47.3
47.3
47.3
47.3
62.8
62.8
62.8
62.8
62.8
87.9
87.9
87.9
87.9
87.9
Note 8
142
307
386
490
Note 8
281
562
626
946
Note 8
332
981
1485
1833
Note 8 1.88
1.00
2.00
2.50
3.20
1.88
1.88
1.88
1.88
Note 8 2.25
1.50
2.90
3.40
4.70
2.25
2.25
2.25
2.25
6. DC current at which the inductance drops 30ꢀ 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:
Note 8 3.50
1.50
3.70
5.20
6.70
3.50
3.50
3.50
3.50
Isat = Isattable × 6 ÷ number of windings in series.
7. Current that causes a 40°C rise from 25°C ambient
due to self heating, tested with continuous current
flow through all windings connected in series.
Application temperature rise will depend on the op-
erating current, duty cycle, and winding connection.
8. Part is designed exclusively for use as a forward
converter transformer and was not tested for energy
storage and saturation current.
HPH1-1400L_ 202
25ꢀ
0.340
0.340
0.340
0.340
0.340
0.155
0.155
0.155
0.155
0.155
35.1
35.1
35.1
35.1
35.1
44.0
44.0
44.0
44.0
44.0
Note 8
31.1
60.2
99.2
107
Note 8
82.3
177
Note 8 0.62
0.300 0.62
0.570 0.62
0.850 0.62
HPH1-0190L_ 27.4 20ꢀ
HPH1-0102L_ 14.7 15ꢀ
HPH1-0076L_ 10.9 10ꢀ
HPH1-0059L_
8.5 5ꢀ
1.00
0.62
HPH2-1600L_ 160
HPH2-0216L_ 21.6 20ꢀ
HPH2-0116L_ 11.6 15ꢀ
25ꢀ
Note 8 0.83
0.550 0.83
1.10
1.70
2.00
0.83
0.83
0.83
9. Electrical specifications at 25°C.
Refer to Doc 362 “Soldering Surface Mount Components”
before soldering
HPH2-0083L_
HPH2-0066L_
8.3 10ꢀ
6.6 5ꢀ
302
333
HPH3-0950L_ 160
HPH3-0138L_ 23.6 20ꢀ
HPH3-0084L_ 14.2 15ꢀ
25ꢀ
0.125
0.125
0.125
0.125
0.125
0.078
0.078
0.078
0.078
0.078
0.070
0.070
0.070
0.070
0.070
0.030
0.030
0.030
0.030
0.030
43.9
43.9
43.9
43.9
43.9
68.3
68.3
68.3
68.3
68.3
94.2
94.2
94.2
94.2
94.2
131.9
131.9
131.9
131.9
131.9
Note 8
52.5
98.0
169
196
Note 8
138
314
368
529
Note 8
248
546
700
809
Note 8
477
1176
1783
1944
Note 8 1.13
0.420 1.13
0.740 1.13
Core material Ferrite
Terminations RoHS tin-silver over tin over nickel
over phos bronze. Other terminations available at
additional cost.
Ambient temperature –40°C to +85°C with Irms
current.
Maximum part temperature +125°C
Storage temperature Component: –40°C to +125°C.
Packaging: –40°C to +80°C
Resistance to soldering heat Max three
40 second reflows at +260°C, parts cooled to room
temperature between cycles
Moisture Sensitivity Level (MSL) 1 (unlimited
floor life at <30°C / 85ꢀ relative humidity)
Failures in Time (FIT) 38 per billion hours
Mean Time Between Failures (MTBF)
26,315,789 hours, calculated per Telcordia SR-332
HPH3-0055L_
HPH3-0047L_
9.3 10ꢀ
7.94 5ꢀ
1.20
1.40
1.13
1.13
HPH4-1150L_ 194
25ꢀ
Note 8 1.65
0.680 1.65
HPH4-0140L_ 23.7 20ꢀ
HPH4-0075L_ 12.7 15ꢀ
HPH4-0060L_ 10.1 10ꢀ
1.40
1.70
2.30
1.65
1.65
1.65
HPH4-0047L_
7.94 5ꢀ
HPH5-1200L_ 173
HPH5-0155L_ 22.3 20ꢀ
HPH5-0083L_ 12.0 15ꢀ
25ꢀ
Note 8 1.95
0.940 1.95
1.90
2.40
2.90
1.95
1.95
1.95
HPH5-0067L_
HPH5-0053L_
9.65 10ꢀ
7.63 5ꢀ
HPH6-2400L 194
25ꢀ
Note 8 2.90
HPH6-0325L
HPH6-0158L
HPH6-0121L
HPH6-0090L
26.3 20ꢀ
12.8 15ꢀ
9.8 10ꢀ
7.29 5ꢀ
1.20
2.70
3.80
4.60
2.90
2.90
2.90
2.90
PCB washing Tested to MIL-STD-202 Method 215
plus an additional aqueous wash. See Doc787_
PCB_Washing.pdf.
Document 613-2 Revised 02/12/18
© Coilcraft Inc. 2018
US +1-847-639-6400 sales@coilcraft.com
UK +44-1236-730595 sales@coilcraft-europe.com
This product may not be used in medical or high
risk applications without prior Coilcraft approval.
Specification subject to change without notice.
Please check web site for latest information.
Taiwan +886-2-2264 3646 sales@coilcraft.com.tw
China +86-21-6218 8074 sales@coilcraft.com.cn
Singapore + 65-6484 8412 sales@coilcraft.com.sg
Document 613-3
Hexa-Path Magnetics
HP1, HPH1
Dot indicates pin 1
Internal code
0.063
1,60
0.394
10,00
1
12
1
12
0.028
0,70
0.079
2,00
0.512
13,0
max
0.079
2,00
0.055
1,40
0.362
9,20
Recommended
Land Pattern
Parts manufactured prior to
February 2018 may be marked
differently.
0.244
max
6,20
0.004 / 0,10
0.433
11,00
0.512
13,0
max
Weight: 1.4 g
Packaging 500 per 13″ reel Plastic tape: 24 mm wide,
0.5 mm thick, 20 mm pocket spacing, 6.6 mm pocket depth
inches
mm
Dimensions are in
HP2, HPH2
Dot indicates pin 1
Internal code
0.098
2,50
0.512
13,00
1
12
1
12
0.098
2,50
0.028
0,70
Recommended
Land Pattern
0.642
16,30
max
0.098
2,50
0.069
1,75
0.508
12,90
Parts manufactured prior to
February 2018 may be marked
differently.
0.291
max
7,40
0.004 / 0,10
0.575
14,60
0.661
16,80
max
Weight: 2.7 – 2.8 g
Packaging 400 per 13″ reel Plastic tape: 32 mm wide,
0.4 mm thick, 20 mm pocket spacing, 7.6 mm pocket depth
inches
mm
Dimensions are in
Document 613-3 Revised 02/12/18
© Coilcraft Inc. 2018
US +1-847-639-6400 sales@coilcraft.com
UK +44-1236-730595 sales@coilcraft-europe.com
This product may not be used in medical or high
risk applications without prior Coilcraft approval.
Specification subject to change without notice.
Please check web site for latest information.
Taiwan +886-2-2264 3646 sales@coilcraft.com.tw
China +86-21-6218 8074 sales@coilcraft.com.cn
Singapore + 65-6484 8412 sales@coilcraft.com.sg
Document 613-4
Hexa-Path Magnetics
HP3, HPH3
Dot indicates pin 1
Internal code
0.135
3,43
0.665
16,88
1
12
1
12
0.098
0.028
0,70
2,50
0.677
17,20
max
Recommended
Land Pattern
0.098
2,50
0.069
1,75
Current production parts have a
metal cover. Previous production
had a non-metal cover. Footprint
and land pattern are the same.
0.335
max
Parts manufactured prior to
February 2018 may be marked
differently.
8,51
0.004 / 0,10
0.693
17,60
0.865
22,00
Weight: 4.2 – 4.6 g
Packaging 200 per 13″ reel Plastic tape: 44 mm wide,
0.4 mm thick, 28 mm pocket spacing, 9.6 mm pocket depth
max
inches
mm
Dimensions are in
HP4, HPH4
Dot indicates pin 1
Internal code
0.130
3,30
0.748
19,0
1
1
12
12
0.100
0.028
2,54
0,70
Recommended
Land Pattern
0.720
max
18,30
0.100
2,54
0.069
1,75
Current production parts have a
metal cover. Previous production
had a non-metal cover. Footprint
and land pattern are the same.
0.382
9,70
max
Parts manufactured prior to
February 2018 may be marked
differently.
0.004 / 0,10
0.799
20.30
0.950
Weight: 6.8 – 7.5 g
max
24,13
Packaging 200 per 13″ reel Plastic tape: 44 mm wide,
0.4 mm thick, 24 mm pocket spacing, 10.56 mm pocket depth
inches
mm
Dimensions are in
Document 613-4 Revised 02/12/18
© Coilcraft Inc. 2018
US +1-847-639-6400 sales@coilcraft.com
UK +44-1236-730595 sales@coilcraft-europe.com
This product may not be used in medical or high
risk applications without prior Coilcraft approval.
Specification subject to change without notice.
Please check web site for latest information.
Taiwan +886-2-2264 3646 sales@coilcraft.com.tw
China +86-21-6218 8074 sales@coilcraft.com.cn
Singapore + 65-6484 8412 sales@coilcraft.com.sg
Document 613-5
Hexa-Path Magnetics
HP5, HPH5
Dot indicates pin 1
Internal code
0.130
3,3
0.930
23,62
1
12
1
12
0.118
3,00
0.028
0,70
0.810
20,57
Recommended
Land Pattern
max
0.118
3,00
0.069
1,75
Current production parts have a
metal cover. Previous production
had a non-metal cover. Footprint
and land pattern are the same.
0.425
10,80
max
Parts manufactured prior to
February 2018 may be marked
differently.
0.004 / 0,10
0.969
24,6
1.148
29,15
max
Weight: 10.6 – 11.5 g
Packaging 175 per 13″ reel Plastic tape: 44 mm wide,
0.4 mm thick, 28 mm pocket spacing, 12.0 mm pocket depth
inches
mm
Dimensions are in
HP6, HPH6
Dot indicates pin 1
Internal code
0.108
2,75
1.10
28,2
1
12
1
12
0.039
1,00
0.148
3,75
Recommended
Land Pattern
1.053
max
26,75
0.148
3,75
0.079
2,00
Current production parts have a
metal cover. Previous production
had a non-metal cover. Footprint
and land pattern are the same.
0.535
max
Parts manufactured prior to
February 2018 may be marked
differently.
13,6
0.004 / 0,10
1.173
29,80
Weight: 22.4 – 24.3 g
Packaging 24 per tray
1.285
32,65
max
inches
mm
Dimensions are in
Document 613-5 Revised 02/12/18
© Coilcraft Inc. 2018
US +1-847-639-6400 sales@coilcraft.com
UK +44-1236-730595 sales@coilcraft-europe.com
This product may not be used in medical or high
risk applications without prior Coilcraft approval.
Specification subject to change without notice.
Please check web site for latest information.
Taiwan +886-2-2264 3646 sales@coilcraft.com.tw
China +86-21-6218 8074 sales@coilcraft.com.cn
Singapore + 65-6484 8412 sales@coilcraft.com.sg
Document 613-6
Hexa-Path Magnetics
Formulas used to calculate electrical characteristics
Connecting windings in series
Inductance = Inductancetable × (number of windings)2
DCR = DCRtable × number of windings
Isat = (Isattable × 6) ÷ number of windings connected in series
Irms = Irmstable
Connecting windings in parallel
Inductance = Inductancetable
DCR = 1 ÷ [number of windings × (1 ÷ DCRtable)]
Isat = (Isattable × 6) ÷ number of windings connected in series
Irms = Irmstable × number of windings
Inductors – using multiple windings
DCR
max
Volt-time Peak energy
Part
Inductance
(µH)
product
storage
(µJ)
Isat
(A)
Irms
(A)
number
(Ohms) (V-µsec)
1
4
HP3-0138L_
11.2 20ꢀ
0.055
30.4
1.656 0.650 1.73
Connecting windings in series
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.
12
9
5
2
11
3
8
Example: Calculate new electricals for HP3-0138L with four windings (Wn)
connected in series:
2
Inductance = Inductancetable × Wn
10
6
= 11.2 × 42 = 179.2 µH
DCR = DCRtable × Wn
= 0.055 × 4 = 0.22 Ohms
7
Isat = (Isattable) × 6 ÷ Wn
= (0.65 × 6) ÷ 4 = 0.975 A
L = 179.2 µH
DCR = 0.22⏲
Isat = 0.975 A
Irms = 1.73 A
Irms = Irmstable = 1.73 A
4
Connecting windings in parallel
To increase current ratings, the windings (Wn) can be connected in parallel. DCR
decreases, current ratings increase, and inductance remains the same.
1
2
3
9
5
Example: Calculate new electricals for HP5-0083L, with three (Wn) windings
connected in parallel (equivalent to one winding in series):
Inductance = Inductancetable
= 11.2 µH
10
11
12
8
6
DCR = 1 ÷ [Wn × (1 ÷ DCRtable)]
= 1 ÷ [3 × (1 ÷ 0.045)] = 0.015 Ohms
7
Isat = (Isattable × 6) ÷ Wn
= (0.65 × 6) ÷ 1 = 3.9 A
L = 11.2 µH
DCR = 0.015⏲
Isat = 3.9 A
Irms = 5.19 A
Irms = Irmstable × Wn
= 1.73 × 3 = 5.19 A
Document 613-6 Revised 02/12/18
© Coilcraft Inc. 2018
US +1-847-639-6400 sales@coilcraft.com
UK +44-1236-730595 sales@coilcraft-europe.com
This product may not be used in medical or high
risk applications without prior Coilcraft approval.
Specification subject to change without notice.
Please check web site for latest information.
Taiwan +886-2-2264 3646 sales@coilcraft.com.tw
China +86-21-6218 8074 sales@coilcraft.com.cn
Singapore + 65-6484 8412 sales@coilcraft.com.sg
Document 613-7
Hexa-Path Magnetics
Formulas used to calculate electrical characteristics
Connecting windings in series
Inductance = Inductancetable × (number of windings)2
DCR = DCRtable × number of windings
Isat = (Isattable × 6) ÷ number of windings connected in series
Irms = Irmstable
Connecting windings in parallel
Inductance = Inductancetable
DCR = 1 ÷ [number of windings × (1 ÷ DCRtable)]
Isat = (Isattable × 6) ÷ number of windings connected in series
Irms = Irmstable × number of windings
Create a 13 Watt 2 : 1 : 1 flyback transformer with a bias winding
Choose HPH3-0138L
Vin = 36 – 57 Vdc; Vout = 12 V, 1.1 A
DCR
max
Volt-time Peak energy
Part
number
Inductance
(µH)
product
storage
(µJ)
Isat
(A)
Irms
(A)
(Ohms) (V-µsec)
HPH3-0138L
23.6 20ꢀ
0.125
43.9
1.457 0.420 1.13
Connecting primary windings in series
When primary windings (Wpri) are connected in series, inductance
increases, energy storage and Irms remain the same, but DCR increases
and Isat decreases.
1
4
9
Example: For HPH3-0138L, connect two primary windings in series:
2
12
Inductance = Inductancetable × Wpri
Pri
5
6
= 23.6 × 22 = 94.4 µH
2
DCR = DCRtable × Wpri
Sec
= 0.125 × 2 = 0.25 Ohms
11
3
7
8
Isat = (Isattable × 6) ÷ Wpri
= (0.42 × 6) ÷ 2 = 1.26 A
Bias
10
Irms = Irmstable = 1.13 A
Primary:
Secondary:
DCR = 0.0625⏲
Irms = 2.26 A
Connecting secondary windings in parallel
When secondary windings (Wsec) are connected in parallel, DCR decreases
and Irms increases.
L = 94.4 µH
DCR = 0.25⏲
Isat = 1.26 A
Irms = 1.13 A
Example: For HPH3-0083L, connect two secondary windings in parallel:
DCR = 1 ÷ [Wsec × (1 ÷ DCRtable)]
= 1 ÷ [(2 × (1 ÷ 0.125)] = 0.0625 Ohms
Irms = Irmstable × Wsec = 1.13 × 2 = 2.26 A
Document 613-7 Revised 02/12/18
© Coilcraft Inc. 2018
US +1-847-639-6400 sales@coilcraft.com
UK +44-1236-730595 sales@coilcraft-europe.com
This product may not be used in medical or high
risk applications without prior Coilcraft approval.
Specification subject to change without notice.
Please check web site for latest information.
Taiwan +886-2-2264 3646 sales@coilcraft.com.tw
China +86-21-6218 8074 sales@coilcraft.com.cn
Singapore + 65-6484 8412 sales@coilcraft.com.sg
Document 613-8
Hexa-Path Magnetics
Formulas used to calculate electrical characteristics
Connecting windings in series
Inductance = Inductancetable × (number of windings)2
DCR = DCRtable × number of windings
Isat = (Isattable × 6) ÷ number of windings connected in series
Irms = Irmstable
Connecting windings in parallel
Inductance = Inductancetable
DCR = 1 ÷ [number of windings × (1 ÷ DCRtable)]
Isat = (Isattable × 6) ÷ number of windings connected in series
Irms = Irmstable × number of windings
Create a 130 Watt, 1 : 1, two switch forward converter transformer
Choose HPH6-2400L
Vin = 36 – 57 Vdc; Vout = 12 V, 10.8 A
DCR
max
Volt-time Peak energy
Part
number
Inductance
(µH)
product
storage
(µJ)
Isat
(A)
Irms
(A)
(Ohms) (V-µsec)
HPH6-2400L
194 25ꢀ
0.030
131.9
N/A
N/A
2.90
1
2
3
4
5
6
Connecting primary windings in parallel
When primary windings (Wpri) are connected in parallel, DCR decreases,
Irms increases, and inductance and volt-time product remain the same.
Pri
Sec
Example: For HPH6-2400L, connect three primary windings in parallel:
10
11
12
7
8
9
Inductance = Inductancetable
= 194 µH
DCR = 1 ÷ [Wpri × (1 ÷ DCRtable)]
Primary:
L = 194 µH
Secondary:
DCR = 0.01⏲
Irms = 8.7 A
= 1 ÷ [(3 × (1 ÷ 0.030]) = 0.010 Ohms
DCR = 0.01⏲
Irms = 8.7 A
VT = 131.9 V-µsec
VT = VTtable
= 131.9 V-µsec
Irms = Irmstable × Wpri
= 2.90 × 3 = 8.70 A
Connecting secondary windings in parallel
When secondary windings (Wsec) are connected in parallel, DCR de-
creases and Irms increases.
Example: For HPH6-2400L, connect three secondary windings in paral-
lel:
DCR = 1 ÷ [Wsec × (1 ÷ DCRtable)]
= 1 ÷ [(3 × (1 ÷ 0.030)] = 0.010 Ohms
Irms = Irmstable × Wsec
= 2.90 × 3 = 8.70 A
Document 613-8 Revised 02/12/18
© Coilcraft Inc. 2018
US +1-847-639-6400 sales@coilcraft.com
UK +44-1236-730595 sales@coilcraft-europe.com
This product may not be used in medical or high
risk applications without prior Coilcraft approval.
Specification subject to change without notice.
Please check web site for latest information.
Taiwan +886-2-2264 3646 sales@coilcraft.com.tw
China +86-21-6218 8074 sales@coilcraft.com.cn
Singapore + 65-6484 8412 sales@coilcraft.com.sg
Document 613-9
Hexa-Path Magnetics
Formulas used to calculate electrical characteristics
Connecting windings in series
Inductance = Inductancetable × (number of windings)2
DCR = DCRtable × number of windings
Isat = (Isattable × 6) ÷ number of windings connected in series
Irms = Irmstable
Connecting windings in parallel
Inductance = Inductancetable
DCR = 1 ÷ [number of windings × (1 ÷ DCRtable)]
Isat = (Isattable × 6) ÷ number of windings connected in series
Irms = Irmstable × number of windings
Create a 100 Watt, 1 : 2, half bridge forward converter transformer with center tapped secondary
Choose HP6-2400L
Vin = 36 – 57 Vdc; Vout = 24 V, 4.2 A
DCR
max
Volt-time Peak energy
Part
number
Inductance
(µH)
product
storage
(µJ)
Isat
(A)
Irms
(A)
(Ohms) (V-µsec)
HPH6-2400L
194 25ꢀ
0.030
131.9
N/A
N/A
2.90
3
Connecting primary windings in parallel
When primary windings (Wpri) are connected in parallel, DCR decreases,
current ratings increase, and inductance and volt-time product remain the
same.
10
4
Sec A
Sec B
1
2
Example: For HPH-2400L, connect two primary windings in parallel:
Inductance = Inductancetable
= 194 µH
9
5
Pri
11
12
DCR = 1 ÷ [Wpri × (1 ÷ DCRtable)]
= 1 ÷ [(2 × (1 ÷ 0.030)] = 0.015 Ohms
8
6
VT = VTtable
= 131.9 V-µsec
Irms = Irmstable × Wpri
7
= 2.90 × 2 = 5.8 A
Primary:
L = 194 µH
Each half secondary;
Sec A (3-9), Sec B (5-7):
DCR = 0.06⏲
Connecting secondary windings in series
When secondary windings (Wsec) are connected in series, Irms remains
the same, but DCR increases.
DCR = 0.015⏲
Irms = 5.8 A
VT = 131.9 V-µsec
Irms = 2.9 A
Example: For HP6-2400L, connect four secondary windings in series,
creating a center tap at pins 9 and 5. For each half of the secondary:
DCR = DCRtable × Wsec
= 0.030 × 2 = 0.060 Ohms
Irms = Irmstable
= 2.9 A
Document 613-9 Revised 02/12/18
© Coilcraft Inc. 2018
US +1-847-639-6400 sales@coilcraft.com
UK +44-1236-730595 sales@coilcraft-europe.com
This product may not be used in medical or high
risk applications without prior Coilcraft approval.
Specification subject to change without notice.
Please check web site for latest information.
Taiwan +886-2-2264 3646 sales@coilcraft.com.tw
China +86-21-6218 8074 sales@coilcraft.com.cn
Singapore + 65-6484 8412 sales@coilcraft.com.sg
Document 613-10
Hexa-Path Magnetics
Formulas used to calculate electrical characteristics
Connecting windings in series
Inductance = Inductancetable × (number of windings)2
DCR = DCRtable × number of windings
Isat = (Isattable × 6) ÷ number of windings connected in series
Irms = Irmstable
Connecting windings in parallel
Inductance = Inductancetable
DCR = 1 ÷ [number of windings × (1 ÷ DCRtable)]
Isat = (Isattable × 6) ÷ number of windings connected in series
Irms = Irmstable × number of windings
Create a 1 : 1 gate drive transformer
Choose HP1-1400L
DCR
max
Volt-time Peak energy
Part
number
Inductance
(µH)
product
storage
(µJ)
Isat
(A)
Irms
(A)
(Ohms) (V-µsec)
HP1-1400L
89.6 25ꢀ
0.130
23.4
N/A
N/A
0.74
4
10
Connecting primary windings in series
When primary windings (Wpri) are connected in series, inductance and
volt-time product increase, energy storage and Irms remain the same,
but DCR increases.
7
11
1
5
Example: For HPH1-1400L, connect three primary windings in series:
Pri
Sec
2
Inductance = Inductancetable × Wpri
8
12
2
6
= 89.6 × 32 = 806.4 µH
DCR = DCRtable × Wpri
= 0.130 × 3 = 0.39 Ohms
3
9
VT = VTtable × Wpri
= 70.2 V-µsec
Primary:
Secondary:
DCR = 0.39⏲
Irms = 0.74 A
L = 806.4 µH
DCR = 0.39⏲
Irms = 0.74 A
Irms = Irmstable
= 0.74
VT = 70.2 V-µsec
Connecting secondary windings in series
When secondary windings (Wsec) are connected in series, Irms remains
the same, but DCR increases.
Example: For HP1-1400L, connect three secondary windings in series:
DCR = DCRtable × Wsec
= 0.130 × 3 = 0.39 Ohms
Irms = Irmstable
= 0.74
Document 613-10 Revised 02/12/18
© Coilcraft Inc. 2018
US +1-847-639-6400 sales@coilcraft.com
UK +44-1236-730595 sales@coilcraft-europe.com
This product may not be used in medical or high
risk applications without prior Coilcraft approval.
Specification subject to change without notice.
Please check web site for latest information.
Taiwan +886-2-2264 3646 sales@coilcraft.com.tw
China +86-21-6218 8074 sales@coilcraft.com.cn
Singapore + 65-6484 8412 sales@coilcraft.com.sg
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