COILCRAFT ST526PND223MLZ

7342 COUPLED INDUCTORS
Coupled Inductors for Critical Applications
Tight coupling (k ≥ 0.97) and 200 V isolation make the
ST526PND series of coupled inductors ideal for use in
a variety of circuits including flyback, multi-output buck
and SEPIC.
These inductors provide high inductance, high efficiency
and excellent current handling in a rugged, low cost part.
They can also be used as two single inductors connected
in series or parallel, as a common mode choke or as a
1 : 1 transformer.
+
+
D
L1
VIN
C
L2
C
VOUT
–
SW
–
0.295
max
7,5
0.295
max
7,5
Typical Flyback Converter
L2
+
1
2
L1
L2
3
4
VIN
SW
L1
D
Recommended
Suggested
Land Pattern
0.110
2,8
0.091
2,3
2
1
0.083
2,1
2
1
3
4
0.130
3,3
0.043
1,10
0.063
1,6
Dimensions are in
inches
mm
®
VOUT
–
D
–
+
C1
L2
Q
C
Typical SEPIC schematic
VOUT
–
Core material Ferrite
Terminations RoHS compliant matte tin over nickel over phos
bronze. Other terminations available at additional cost.
Weight 0.76 – 0.87g
Ambient temperature –40°C to +85°C with Irms current, +85°C to
+125°C with derated current
Storage temperature Component: –55°C to +125°C.
Tape and reel packaging: –55°C to +80°C
Winding to winding isolation 200 Vrms
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 /
85% relative humidity)
Packaging 250/7″ reel; 1000/13″ reel Plastic tape: 16 mm wide,
0.4 mm thick, 12 mm pocket spacing, 4.9 mm pocket depth
Specifications subject to change without notice.
Please check our website for latest information.
1102 Silver Lake Road
Cary IL 60013
© Coilcraft, Inc. 2012
AUX
Typical Buck Converter with auxiliary output
VIN
0.028
0,7
C
–
L1
0.181
max
4,6
4
VOUT
+
+
3
+
C
–
Dot indicates
pin 1
123
0.150
3,8
D
Document ST621-1 Revised 02/15/12
Phone 800-981-0363
Fax 847-639-1508
E-mail [email protected]
Web www.coilcraft-cps.com
7342 COUPLED INDUCTORS
Coupled Inductors – ST526PND
CouplingLeakage
Inductance2 DCR max3 SRF typ4 coefficient L typ5
Part number1
±20% (µH)
(Ohms)
(MHz)
typ
(µH)
ST526PND252MLZ 2.5
0.033 55
0.97 0.14
ST526PND332MLZ 3.3
0.037 43
0.99 0.09
ST526PND472MLZ 4.7
0.051 35
0.99 0.11
ST526PND562MLZ 5.6
0.063 32
0.99 0.09
ST526PND682MLZ 6.8
0.070 30
0.99 0.14
ST526PND822MLZ 8.2
0.075 27
0.98 0.25
ST526PND103MLZ 10
0.100 22
0.98 0.30
ST526PND123MLZ 12
0.120 20
0.98 0.36
ST526PND153MLZ 15
0.130 18
0.98 0.49
ST526PND183MLZ 18
0.170 15
>0.99 0.16
ST526PND223MLZ 22
0.220 13.5 >0.99 0.20
ST526PND273MLZ 27
0.250 12.0 >0.99 0.20
ST526PND333MLZ 33
0.270 11.0 >0.99 0.15
ST526PND393MLZ 39
0.380 10.0 0.99 0.70
ST526PND473MLZ 47
0.420 9.5 >0.99 0.30
ST526PND563MLZ 56
0.460 8.7 >0.99 0.51
ST526PND683MLZ 68
0.600 7.3 >0.99 0.51
ST526PND823MLZ 82
0.680
6.2
0.99 1.17
ST526PND104MLZ 100
0.770
5.5 >0.99 0.96
ST526PND124MLZ 120
1.03
4.5 >0.99 0.61
ST526PND154MLZ 150
1.35
4.0 >0.99 0.54
ST526PND184MLZ 180
1.52
3.8 >0.99 0.75
ST526PND224MLZ 220
1.72
3.5 >0.99 1.43
ST526PND274MLZ 270
2.41
3.3 >0.99 1.56
ST526PND334MLZ 330
2.70
3.0 >0.99 1.65
ST526PND394MLZ 390
3.05
2.8
0.99 4.73
ST526PND474MLZ 470
4.00
2.6
0.99 5.50
ST526PND564MLZ 560
4.43
2.5 >0.99 4.85
ST526PND684MLZ 680
5.00
2.3
0.99 7.59
ST526PND824MLZ 820
6.80
2.2 >0.99 8.01
ST526PND105MLZ1000
7.80
2.0 >0.99
8.69
(A)6 Irms (A)
10% 20% 30%
both
one
windings7 winding8
drop drop drop
6.0 6.26.3
2.17 3.06
5.2 5.35.4
2.05 2.89
4.1 4.34.6
1.74 2.46
3.9 4.14.2
1.57 2.22
3.7 3.83.9
1.49 2.10
3.3 3.43.5
1.44 2.03
2.8 2.93.0
1.24 1.76
2.5 2.62.7
1.14 1.61
2.2 2.32.4
1.09 1.54
2.0 2.22.3
0.95 1.35
1.9 2.02.1
0.84 1.19
1.7 1.81.9
0.79 1.11
1.5 1.61.7
0.76 1.07
1.3 1.41.5
0.64 0.90
1.2 1.31.4
0.61 0.86
1.1 1.21.3
0.58 0.82
1.0 1.11.2
0.51 0.72
0.90 1.001.1
0.48
0.67
0.80 0.920.98
0.45
0.63
0.70 0.800.90
0.39
0.55
0.65 0.760.80
0.34
0.48
0.62 0.660.73
0.32
0.45
0.59 0.620.66
0.30
0.42
0.55 0.570.60
0.25
0.36
0.49 0.520.54
0.24
0.34
0.45 0.470.50
0.23
0.32
0.41 0.430.46
0.20
0.28
0.38 0.400.42
0.19
0.26
0.36 0.370.38
0.18
0.25
0.30 0.320.35
0.15
0.21
0.27 0.29 0.31
0.14
0.20
Isat
1. When ordering, please specify termination and testing codes:
Temperature rise calculation based on specified Irms
ST526PND105MLZ
Termination:L = RoHS compliant matte tin over nickel over phos bronze.
Special order: T = RoHS tin-silver-copper (95.5/4/0.5)
or S = non-RoHS tin-lead (63/37).
Testing:Z
=COTS
H = Screening per Coilcraft CP-SA-10001
2. Inductance shown for each winding, measured at 100 kHz, 0.1 Vrms,
0 Adc on an Agilent/HP 4284A LCR meter or equivalent. When leads
are connected in parallel, inductance is the same value. When leads are
connected in series, inductance is four times the value.
3. DCR is for each winding. When leads are connected in parallel, DCR
is half the value. When leads are connected in series, DCR is twice the
value.
4. SRF measured using an Agilent/HP 4191A or equivalent. When leads
are connected in parallel, SRF is the same value.
5. Leakage inductance is for L1 and is measured with L2 shorted.
6. DC current, at which the inductance drops the specified amount from its
value without current. It is the sum of the current flowing in both windings.
7. Equal current when applied to each winding simultaneously that causes
a 40°C temperature rise from 25°C ambient. See temperature rise calculation.
8. Maximum current when applied to one winding that causes a 40°C
temperature rise from 25°C ambient. See temperature rise calculation.
9. Electrical specifications at 25°C.
Refer to Doc 639 “Selecting Coupled Inductors for SEPIC Applications.”
Refer to Doc 362 “Soldering Surface Mount Components” before soldering.
Winding power loss = (IL12 + IL22 ) × DCR in Watts (W)
129°C
Temperature rise (t) = Winding power loss ×
W
129°C
2
2
t = (IL1 + IL2 ) × DCR ×
W
®
Example 2. 526PND-123ML (IL1 = 1.4 A, IL2 = 0.6 A)
Winding power loss = (1.4 2 + 0.6 2) × 0.120 = 0.278 W
t = 0.278 W ×
129°C
= 36°C
W
Coupled Inductor Core and Winding Loss Calculator
This web-based utility allows you to enter frequency, peak-to-peak
(ripple) current, and Irms current to predict temperature rise and overall
losses, including core loss. Visit www.coilcraft-cps.com/coupledloss.
Specifications subject to change without notice.
Please check our website for latest information.
1102 Silver Lake Road
Cary IL 60013
© Coilcraft, Inc. 2012
Example 1. 526PND-123ML (Equal current in each winding)
Winding power loss = (1.14 2 + 1.14 2) × 0.120 = 0.312 W
129°C
= 40°C
t = 0.312 W ×
W
Document ST621-2 Revised 02/15/12
Phone 800-981-0363
Fax 847-639-1508
E-mail [email protected]
Web www.coilcraft-cps.com
7342 COUPLED INDUCTORS
Coupled Inductors – ST526PND
Typical L vs Current
Typical L vs Frequency
10000
10000
1000 µH
100 µH
100
47 µH
10 µH
10
1000 µH
1000
470 µH
Inductance (µH)
Inductance (µH)
1000
470 µH
100 µH
100
47 µH
10 µH
10
4.7 µH
4.7 µH
1
0.01
1
0.1
10
1
0.1
Current (A)
10
1
100
Frequency (MHz)
Irms Derating
120
110
90
80
70
60
50
40
25°C
Percent of rated Irms
100
30
20
10
0
-40
-20
0
20
40
60
80
100
120 140
Ambient temperature (°C)
®
Specifications subject to change without notice.
Please check our website for latest information.
1102 Silver Lake Road
Cary IL 60013
© Coilcraft, Inc. 2012
Document ST621-3 Revised 02/15/12
Phone 800-981-0363
Fax 847-639-1508
E-mail [email protected]
Web www.coilcraft-cps.com