SMT Power Inductors
Power Beads - PA1320NL and PA1320ANL Series
Current Rating:
Over 75Apk
Inductance Range:
120nH to 310nH
Height:
6.5mm Max
Footprint:
10.4mm x 8.0mm Max
Halogen Free
Electrical Specifications @ 25°C - Operating Temperature -40°C to +130°C
1
2
7
Part
Number
PA1320.121NL
PA1320.141NL
PA1320.171NL
PA1320.221NL
PA1320.301NL
Inductance
@ 0A
DC
(nH
±20%)
120
140
180
200
310
Inductance
@ Irated
(nH TYP)
120
140
174
185
250
Irated
(A
DC
)
40
40
40
40
30
DCR
(mΩ)
74
66
0.48
±8%
(NL)
0.47
±5%(ANL)
52
50
30
Saturation Current
3
(A TYP)
25°C
100°C
65
52
44
42
26
Heating
4
Current
(A TYP)
40
Notes:
1. The rated current as listed is either the saturation current or the heating current depending
on which value is lower.
2. The nominal DCR tolerance is by design. The nominal DCR is measured from point a to
point b , as shown below on the mechanical drawing. The standard part PA1320.XXXNL
has a DCR tolerance of +/-8%. A tighter DCR tolerance (+/-5%) part is available by changing
the NL suffix to ANL (i.e. PA1320.121NL becomes PA1320.121ANL).
3. The saturation current is the typical current which causes the inductance to drop by 20% at
the stated ambient temperatures (25C and 100C). This current is determined by placing the
component in the specified ambient environment and applying a short duration pulse
current (to eliminate self-heating effects) to the component.
4. The heating current is the DC current which causes the part temperature to increase by
approximately 40C. This current is determined by soldering the component on a typical
application PCB, and then applying the current to the device for 30 minutes with 25LFM
of forced air cooling.
5. In high volt*time applications, additional heating in the component can occur due to
core losses in the inductor which may necessitate derating the current in order to limit
the temperature rise of the component. To determine the approximate total losses (or
temperature rise) for a given application, the coreloss and temperature rise curves
can be used.
6. Optional Tape & Reel packaging can be ordered by adding a “T” suffix to the part
number (i.e. PA1320.121NL becomes PA1320.121NLT). Pulse complies to industry standard
tape and reel specification EIA481.
7. The temperature of the component (ambient plus temperature rise) must be within the
stated operating temperature range.
Mechanical
Schematic
1
PA1320.XXXNL
.410
MAX
10,41
PA1320.XXXNL
D/C
MFG.
.315
8,00
MAX
Weight
................................2.05 grams
Tape & Reel
...........................750/reel
Inches
Dimensions:
mm
Unless otherwise specified, all tolerances are
±
.010
0,25
.256
6,50
2
.256
6,50
MAX
a
2X
.100
2,54
b
.088
2,24
.421
10,70
.945 ± .012
24.00 ± 0,30
.110
2,79
.120
3,05
TAPE & REEL
LAYOUT
.323
8,20
.472
12,00
USER DIRECTION
OF FEED
1
.290
7,37
pulseelectronics.com
SPM2007 (11/13)
SMT Power Inductors
350
.301NL
300
Power Beads - PA1320NL and PA1320ANL Series
Typical Inductance vs DC Bias @ 25˚C
Inductance (nH)
250
200
150
100
50
0
.221NL
.171NL
.141NL
.121NL
0
10
20
30
40
50
60
70
80
DC Bias (A)
350
.301NL
300
Typical Inductance vs DC Bias @ 100˚C
Inductance (nH)
250
200
150
100
50
0
0
10
20
30
40
50
60
70
80
.221NL
.171NL
.141NL
.121NL
DC Bias (A)
0.45
0.40
0.35
Temp Rise above Ambient (C)
(Trise = 70.8* Total Power Dissipation
.833
)
CoreLoss (W)
1.0
MHz
700
kHz
600
kHz
500
kHz
400
kHz
PA1320.XXXNL Temp Rise vs Power Dissipation
110
100
90
80
70
60
50
40
30
20
10
0
CoreLoss (W)
0.30
0.25
0.20
0.15
0.10
0.05
0.00
0
500
1000
1500
2000
300
kHz
200
kHz
2500
3000
0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
B
where B = 0.4 * L (nH) * I
Total Power Dissipation (W) = CopperLoss + CoreLoss
CopperLoss = Irms
2
* Rdc (m ) / 1000
CoreLoss = (from table)
2
pulseelectronics.com
SPM2007 (11/13)
