P597.A (5/03)
For More Information :
Performance warranty of products offered on this data sheet is limited to the parameters specified. Data is subject to change without notice. Other brand and product
names mentioned herein may be trademarks or registered trademarks of their respective owners.
Printed on recycled paper. ©2003, Pulse Engineering, Inc.
UNITED STATES
(Worldwide)
12220 World Trade Drive
San Diego, CA 92128
U.S.A.
http://www.pulseeng.com
TEL: 858 674 8100
FAX: 858 674 8262
UNITED KINGDOM
(Northern Europe)
1 & 2 Huxley Road
The Surrey Research Park
Guildford, Surrey GU2 5RE
United Kingdom
TEL: 44 1483 401700
FAX: 44 1483 401701
FRANCE
(Southern Europe)
Zone Industrielle
F-39270
Orgelet
France
TEL: 33 3 84 35 04 04
FAX: 33 3 84 25 46 41
TAIWAN, R.O.C.
(Northern Asia)
3F-4, No. 81, Sec. 1
HsinTai Wu Road
Hsi-Chih, Taipei Hsien
Taiwan, R.O.C.
Tel: 886 2 2698 0228
FAX: 886 2 2698 0948
SINGAPORE
(Southern Asia)
150 Kampong Ampat
#07-01/02
KA Centre
Singapore 368324
TEL: 65 6287 8998
FAX: 65 6280 0080
HONG KONG
(China/Hong Kong)
9/F, Phase 2, Tai Sang
Shatin Warehouse Centre
6 Wong Chuk Yeung Street
Fotan, Shatin, Hong Kong
TEL: 852 2788 6588
FAX: 852 2776 1055
DISTRIBUTOR
LOW PROFILE SELF-LEADED
POWER INDUCTORS
Designed for PCMCIA Applications
Small PCMCIA size (.38" X .43" X .098")
Frequency range: 100 kHz to 1 MHz
Up to 3 amps rated DC current
Surface mount, pick and placeable
6
Date Code
Country of
Origin
P01XX
.430 MAX
10,92
1
25
34
.300
7,62
.150
3,81
.380 MAX
9,65
.098 MAX
2,49
4 SURFACES
.004/0,10
1
3
4
6
.300
7,62
.150
3,81
.050
1,27
.335
8,51
.080
2,03
SUGGESTED PAD LAYOUT
Mechanical Schematic
Electrical Specifications @ 25°C — Operating Temperature -40°C to +130°C
1. The reference inductance at rated DC current is a typical value.
2. Temperature rise is 50°C in typical buck or boost circuits at 500 kHz and with the
reference ET applied to the inductor.
3. Total loss in the inductor is 95 mWatts for 50°C temperature rise above ambient.
4. To estimate temperature rise in a given application, determine copper and core
losses, divide by 95 and multiply by 50.
5. For the copper loss, calculate IDC2 X RN.
6. For RN, multiply DCRMAX by 0.85.
7. For core loss, using frequency (f) and operating flux density (B),
calculate 747 x 10-21 x B2.7 x f2.04.
8. For flux density (B), calculate ET (V-µsec) for the application, divide by
ET100 from the table, and multiply by 100.
9. Limit the DC bias (H) to 31 orsteds. Calculate H by multiplying H1from
the table by IDC of the application.
10. Add suffix "T" to part number for tape and reel package (i.e. P0100T).
Weight .............0.25 grams
Tape & Reel .......1250/reel
Tube......................55/tube
NOTES:
ID Reference Values Control Values Calculation Data
L @ DC L W/O DC 100 Gauss 1 Amp DC
Part Hookup IDC LDC ET L0±20% DCR (MAX) ET100 H1
Number (amp) (µH) (V-µsec) (µH) (mΩ)(V-µsec) (Orsted)
P0108 Series 0.27 122.6 16.55 137.8 1545 2.77 102.50
P0107 Series 0.33 88.5 14.60 100.5 1068 2.37 87.55
P0106 Series 0.40 60.1 12.03 69.1 720 1.96 72.60
P0116 Series 0.44 43.6 9.59 46.9 692 1.62 59.79
P0108 Parallel 0.54 30.7 8.28 34.4 382 1.38 51.25
P0105 Series 0.62 20.1 6.22 21.6 325 1.10 40.57
P0107 Parallel 0.66 22.1 7.30 25.1 267 1.18 43.77
P0104 Series 0.73 15.7 5.74 17.3 236 0.98 36.30
P0106 Parallel 0.80 15.0 6.01 17.3 180 0.98 36.30
P0103 Series 0.86 12.1 5.21 13.5 170 0.87 32.03
P0116 Parallel 0.88 10.9 4.80 11.7 173 0.81 29.89
P0102 Series 1.03 9.0 4.63 10.1 121 0.75 27.76
P0101 Series 1.23 6.4 3.92 7.2 86 0.63 23.49
P0105 Parallel 1.24 5.0 3.11 5.4 81 0.55 20.29
P0100 Series 1.41 5.2 3.67 6.0 66 0.58 21.35
P0104 Parallel 1.46 3.9 2.87 4.3 59 0.49 18.15
P0103 Parallel 1.72 3.0 2.60 3.4 42 0.43 16.01
P0102 Parallel 2.06 2.2 2.32 2.5 30 0.38 13.88
P0101 Parallel 2.46 1.6 1.96 1.8 22 0.32 11.74
P0100 Parallel 2.82 1.3 1.83 1.5 16 0.29 10.68
Dimensions: Inches
mm
Unless otherwise specified,
all tolerances are ± .010
0,25
