• 10.8 x 8.0 x 8.0mm maximum surface mount package
• Ferrite core material
• Controlled DCR for sensing circuits
• Inductance range from 114nH to 180nH
• Current range from 63 to 106 Amps
Environmental Data
• Storage temperature range (Component): -40°C to +125°C
• Operating temperature range: -40°C to +125°C
(ambient + self-temperature rise)
• Solder reflow temperature: J-STD-020D compliant
Packaging
• Supplied in tape-and-reel packaging, 350 parts per
13” diameter reel
Product Specifications
Part
Number
9
FP1008-120-R
FP1008-150-R
FP1008-180-R
OCL
1
(nH)±10%
114
144
180
FLL min.
2
(nH)
82
104
130
I
rms
3
(Amps)
63
I
sat
1
4
(Amps)
106
82
64
I
sat
2
5
(Amps)
100.7
78
60.8
I
sat
3
6
(Amps)
97
75
58.6
I
sat
4
7
(Amps)
88
68
53
DCR
(mΩ) @ 20°C
0.17±5%
K-factor
8
366
366
366
1. Open Circuit Inductance (OCL) Test Parameters: 100kHz,
0.1V
rms
, 0.0Adc @ 25°C
2. Full Load Inductance (FLL) Test Parameters: 100kHz, 0.1V
rms
, I
sat
1
3. I
rms
: DC current for an approximate temperature rise of 30°C without core loss.
Derating is necessary for AC currents. PCB layout, trace thickness and width,
air-flow, and proximity of other heat generating components will affect the
temperature rise. It is recommended that the temperature of the part not exceed
125°C under worst case operating conditions verified in the end application.
4. I
sat
1: Peak current for approximately 20% rolloff @ 25°C
5. I
sat
2: Peak current for approximately 20% rolloff @ 85°C
6. I
sat
3: Peak current for approximately 20% rolloff @ 100°C
7. I
sat
4: Peak current for approximately 20% rolloff @ 125°C
8. K-factor: Used to determine B
p-p
for core loss (see graph).
B
p-p
= K * L * ∆I * 10
-3
. B
p-p
:(Gauss), K: (K-factor from table), L: (Inductance in
nH), ∆I (Peak-to-peak ripple current in Amps).
9. Part Number Definition: FP1008-xxx-R
- FP1008= Product code and size
- xxx= Inductance value in nH
- “-R” suffix = RoHS compliant
0913
BU-SB13930
Page 1 of 5
Data Sheet: 10155
Dimensions - mm
DCR measured from point “A” to point “B”
Part marking: FP1008-xxx xxx = Inductance value in nH
wwllyy= date code, R= revision level
Tolerances are +/- 0.205 millimeters unless stated otherwise.
All soldering surfaces to be be coplanar within 0.1 millimeters.
Packaging Information - mm
Supplied in tape-and-reel packaging, 350 parts on a 13” diameter reel.
0913
BU-SB13930
Page 2 of 5
Data Sheet: 10155
Core Loss
10
Core Loss vs. B
p-p
1
Core Loss (W)
0.1
0.01
0.001
100
1000
10000
B
p-p
(Gauss)
Inductance Characteristics
% of OCL vs % of I
FP1008-120-R
120%
100%
80%
sat
1
% of OCL
60%
40%
20%
0%
0%
20%
40%
60%
80%
100%
120%
140%
160%
180%
% of I
sat
1
0913
BU-SB13930
Page 3 of 5
Data Sheet: 10155
Inductance Characteristics
% of OCL vs % of I
FP1008-150-R
120%
100%
80%
sat
1
% of OCL
60%
40%
20%
0%
0%
20%
40%
60%
80%
100%
120%
140%
160%
% of I
sat
1
% of OCL vs % of I
FP1008-180-R
120%
100%
80%
60%
40%
20%
0%
sat
1
% of OCL
0%
20%
40%
60%
80%
100%
120%
140%
160%
180%
% of I
sat
1
0913
BU-SB13930
Page 4 of 5
Data Sheet: 10155
Solder Reflow Profile
T
P
Max. Ramp Up Rate = 3°C/s
Max. Ramp Down Rate = 6°C/s
T
L
Preheat
A
t
t
P
T
C
-5°C
Table 1 - Standard SnPb Solder (T c)
Package
Thickness
<2.5mm
_
>2.5mm
Volume
mm
3
<350
235°C
220°C
Volume
mm
3
_
>350
220°C
220°C
Temperature
T
smax
Table 2 - Lead (Pb) Free Solder (Tc)
T
smin
t
s
Volume
Package
mm
3
Thickness
<350
<1.6mm
260°C
1.6 – 2.5mm 260°C
>2.5mm
250°C
Time
Volume
mm
3
350 - 2000
260°C
250°C
245°C
Volume
mm
3
>2000
260°C
245°C
245°C
25°C
Time 25°C to Peak
Reference JDEC J-STD-020D
Profile Feature
Preheat and Soak
• Temperature min. (Tsmin)
• Temperature max. (Tsmax)
• Time (Tsmin to Tsmax) (ts)
Average ramp up rate Tsmax to Tp
Liquidous temperature (T
L
)
Time at liquidous (tL)
Peak package body temperature (TP)*
Time (tp)** within 5 °C of the specified classification temperature (Tc)
Average ramp-down rate (Tp to Tsmax)
Time 25°C to Peak Temperature
Standard SnPb Solder
100°C
150°C
60-120 Seconds
3°C/ Second Max.
183°C
60-150 Seconds
Table 1
20 Seconds**
6°C/ Second Max.
6 Minutes Max.
Lead (Pb) Free Solder
150°C
200°C
60-120 Seconds
3°C/ Second Max.
217°C
60-150 Seconds
Table 2
30 Seconds**
6°C/ Second Max.
8 Minutes Max.
* Tolerance for peak profile temperature (Tp) is defined as a supplier minimum and a user maximum.
** Tolerance for time at peak profile temperature (tp) is defined as a supplier minimum and a user maximum.
North America
Cooper Electronic Technologies
1225 Broken Sound Parkway NW
Boca Raton, FL 33487-3533
Tel: 1-561-998-4100
Fax: 1-561-241-6640
Toll Free: 1-888-414-2645
Cooper Bussmann
P.O. Box 14460
St. Louis, MO 63178-4460
Tel: 1-636-394-2877
Fax: 1-636-527-1607
Europe
Cooper Electronic Technologies
Cooper (UK) Limited
Burton-on-the-Wolds
Leicestershire • LE12 5TH UK
Tel: +44 (0) 1509 882 737
Fax: +44 (0) 1509 882 786
Cooper Electronic Technologies
Avda. Santa Eulalia, 290
08223
Terrassa, (Barcelona), Spain
Tel: +34 937 362 812
+34 937 362 813
Fax: +34 937 362 719
Asia Pacific
Cooper Electronic Technologies
1 Jalan Kilang Timor
#06-01 Pacific Tech Centre
Singapore 159303
Tel: +65 278 6151
Fax: +65 270 4160
The only controlled copy of this Data Sheet is the electronic read-only version located on the Cooper Bussmann Network Drive. All other copies of this document
are by definition uncontrolled. This bulletin is intended to clearly present comprehensive product data and provide technical information that will help the end user
with design applications. Cooper Bussmann reserves the right, without notice, to change design or construction of any products and to discontinue or limit
distribution of any products. Cooper Bussmann also reserves the right to change or update, without notice, any technical information contained in this bulletin. Once
a product has been selected, it should be tested by the user in all possible applications.
Life Support Policy: Cooper Bussmann does not authorize the use of any of its products for use in life support devices or systems without the express written
approval of an officer of the Company. Life support systems are devices which support or sustain life, and whose failure to perform, when properly used in
accordance with instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.
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