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VP2-0066-R Datasheet(PDF) 2 Page - Cooper Bussmann, Inc.

Part No. VP2-0066-R
Description  Inductors and Transformers
Download  8 Pages
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Maker  COOPER [Cooper Bussmann, Inc.]
Homepage  http://www.cooperbussmann.com
Logo COOPER - Cooper Bussmann, Inc.

VP2-0066-R Datasheet(HTML) 2 Page - Cooper Bussmann, Inc.

  VP2-0066-R Datasheet HTML 1Page - Cooper Bussmann, Inc. VP2-0066-R Datasheet HTML 2Page - Cooper Bussmann, Inc. VP2-0066-R Datasheet HTML 3Page - Cooper Bussmann, Inc. VP2-0066-R Datasheet HTML 4Page - Cooper Bussmann, Inc. VP2-0066-R Datasheet HTML 5Page - Cooper Bussmann, Inc. VP2-0066-R Datasheet HTML 6Page - Cooper Bussmann, Inc. VP2-0066-R Datasheet HTML 7Page - Cooper Bussmann, Inc. VP2-0066-R Datasheet HTML 8Page - Cooper Bussmann, Inc.  
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Leakage
Thermal
Part (1)
L(BASE)ISAT(BASE)IRMS(BASE)R(BASE)
Volt-µSEC(BASE)EPEAK(BASE)
Inductance
Resistance
Number
µH
Amps
Amps
Ohms
µVs
µJ
(BASE) µH
°C/Watt
(NOM)(2)
(TYP)(3)(4)
(TYP)(3)(5)
(MAX)(6)
(MAX)(7)
(TYP)(8)
(TYP)(TYP)(9)
VPH4-0860-R(10)
159.65 +/-30%
0.11
1.41
0.0828
64.6
0.57
0.156
39.4
VP4-0860-R(10)
87.0 +/-30%
0.15
1.70
0.057
44.7
0.57
0.075
39.4
VPH4-0140-R
23.7 +/-20%
0.65
1.41
0.0828
64.6
3.54
0.156
39.4
VP4-0140-R
11.3 +/-20%
0.95
1.70
0.057
44.7
3.54
0.075
39.4
VPH4-0075-R
12.7 +/-20%
1.21
1.41
0.0828
64.6
6.55
0.156
39.4
VP4-0075-R
6.1 +/-20%
1.75
1.70
0.057
44.7
6.55
0.075
39.4
VPH4-0060-R
10.1 +/-20%
1.52
1.41
0.0828
64.6
8.16
0.156
39.4
VP4-0060-R
4.9 +/-20%
2.18
1.70
0.057
44.7
8.16
0.075
39.4
VPH4-0047-R
7.94 +/-20%
1.94
1.41
0.0828
64.6
10.52
0.156
39.4
VP4-0047-R
3.8 +/-20%
2.81
1.70
0.057
44.7
10.52
0.075
39.4
VPH5-1200-R(10)
173 +/-30%
0.14
1.70
0.0711
98.4
1.11
0.235
30.3
VP5-1200-R(10)
76.8 +/-30%
0.20
2.08
0.047
65.6
1.11
0.105
30.3
VPH5-0155-R
22.3 +/-20%
1.05
1.70
0.0711
98.4
8.83
0.235
30.3
VP5-0155-R
9.9 +/-20%
1.60
2.08
0.047
65.6
8.83
0.105
30.3
VPH5-0083-R
12 +/-20%
1.96
1.70
0.0711
98.4
16.07
0.235
30.3
VP5-0083-R
5.3 +/-20%
2.95
2.08
0.047
65.6
16.07
0.105
30.3
VPH5-0067-R
9.65 +/-20%
2.43
1.70
0.0711
98.4
19.83
0.235
30.3
VP5-0067-R
4.3 +/-20%
3.63
2.08
0.047
65.6
19.83
0.105
30.3
VPH5-0053-R
7.63 +/-20%
3.07
1.70
0.0711
98.4
25.10
0.235
30.3
VP5-0053-R
3.4 +/-20%
4.59
2.08
0.047
65.6
25.10
0.105
30.3
VERSA-PAC temperature rise depends on total power losses and
size. Any other
PCM configurations other than those suggested
could run hotter than acceptable.
Certain topologies or applications must be analyzed for needed
requirements and matched with the best
VERSA-PAC size and
configuration.
Proper consideration must be used with all
parameters, especially those associated with current rating, energy
storage, or maximum volt-seconds.
VERSA-PAC should not be used in off-line or safety related
applications. The breakdown voltage from one winding to any other
winding is 500 VAC maximum.
PCM
Pin Configurable Magnetics
(1) The first three digits in the part number signify the size of the
package. The next four digits specify the AL, or nanoHenries per turn
squared.
(2) LBASE = Nominal Inductance of a single winding.
(3) IBASE is the lessor of ISAT(BASE) and IRMS(BASE).
(4) Peak current that will result in 30% saturation of the core. This
current value assumes that equal current flows in all six windings.
For applications in which all windings are not simultaneously driven
(i.e. flyback, SEPIC, Cuk, etc.), the saturation current per winding
may be calculated as follows:
I
SAT
=
6 x I
SAT(BASE)
Number of Windings Driven
(5) RMS Current that results in a surface temperature of approximately
40°C above ambient. The 40°C rise occurs when the specified
current flows through each of the six windings.
(6) Maximum DC Resistance of each winding.
(7) For multiple windings in series, the volt-µsecondTOTAL (µVs)
capability varies as the number of windings in series (S):
Volt-µsec
TOTAL = S x Volt-µsec(BASE)
For multiple windings in parallel, the volt-µsecondTOTAL (µVs) capability
is as shown in the table above.
(8) Maximum Energy capability of each winding. This is based on 30%
saturation of the core:
Energy
SERIES = S
2
x
1
x
0.7L
BASE x I
2
SAT(BASE)
Energy
PARALLEL = P
2
x
1
x
0.7L
BASE x I
2
SAT(BASE)
For multiple windings, the energy capability varies as the square of
the number of windings. For example, six windings (either parallel
or series) can store 36 times more energy than one winding.
(9) Thermal Resistance is the approximate surface temperature rise
per Watt of heat loss under still-air conditions. Heat loss is a
combination of core loss and wire loss. The number assumes the
underlying PCB copper area equals 150% of the component area.
(10) These devices are designed for feed-forward applications, where
load current dominates magnitizing current.
2
2
®
VERSA-PAC®
Inductors and Transformers
(Surface Mount)


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