Power Inductors. MPIA25-V2 Datasheet

MPIA25-V2 Inductors. Datasheet pdf. Equivalent


Part MPIA25-V2
Description Miniature Power Inductors
Feature Technical Data 10650 Effective July 2018 MPIA25-V2 Automotive grade High current, low profile, mi.
Manufacture EATON
Datasheet
Download MPIA25-V2 Datasheet


Technical Data 10650 Effective July 2018 MPIA25-V2 Automo MPIA25-V2 Datasheet
Recommendation Recommendation Datasheet MPIA25-V2 Datasheet




MPIA25-V2
Technical Data 10650
Effective July 2018
MPIA25-V2
Automotive grade
High current, low profile, miniature power inductors
Product features
AEC-Q200 qualified
High current carrying capacity in a compact
standard 1008 (2520 metric) footprint
Magnetically shielded, Low EMI
Rugged construction
Self resonant frequency (SRF) greater
than 25 MHz
Inductance range from 0.33 μH to 4.7 μH
Current range from 1.2 A to 7.5 A
2.7 mm x 2.2 mm footprint surface mount pack-
age in 1.05 mm, 1.25 mm heights
Moisture Sensitivity Level (MSL): 1
Applications
Body electronics
Central body control module
Vehicle access control system
Headlamps, tail lamps, interior lighting and
LED lighting
Doors, window lift and seat control
Advanced driver assistance systems
77 GHz radar system
Basic and smart surround, and rear and front
view camera
Adaptive cruise control (ACC)
Automatic parking control
Car black box system
Infotainment and cluster electronics
Active noise cancellation (ANC)
Audio subsystem: head unit and trunk amp
Digital instrument cluster
In-vehicle infotainment (IVI) and navigation
Environmental data
Storage temperature range (Component):
-40 °C to +125 °C
Operating temperature range: -40 °C to +125 °C
(ambient plus self-temperature rise)
Solder reflow temperature:
J-STD-020 (latest revision) compliant
Halogen free, lead free, RoHS compliant
Pb
HFHALOGEN
FREE



MPIA25-V2
Technical Data 10650
Effective July 2018
MPIA25-V2
Automotive grade
High current, low profile, miniature power inductors
Product specifications
Part Number5
1.0 mm height
MPIA2510V2-R33-R
MPIA2510V2-R47-R
MPIA2510V2-R68-R
MPIA2510V2-1R0-R
MPIA2510V2-1R5-R
MPIA2510V2-2R2-R
MPIA2510V2-3R3-R
MPIA2510V2-4R7-R
1.2 mm height
MPIA2512V2-R33-R
MPIA2512V2-R47-R
MPIA2512V2-R68-R
MPIA2512V2-1R0-R
MPIA2512V2-1R5-R
MPIA2512V2-2R2-R
MPIA2512V2-3R3-R
MPIA2512V2-4R7-R
OCL1
(μH) ±20%
I(rAm)s2
I(sAat)3
DCR (mΩ)
typical @ +20 °C
DCR (mΩ)
maximum @ +20 °C
SRF
(MHz)
typical
K-factor4
0.33 4.8 6.6 15
0.47 4.4 6.0 19
0.68 3.1 4.3 37
1.00 3.1 4.3 41
1.50 2.5 2.5 65
2.20 2.1 2.8 88
3.30 1.6 2.1 140
4.70
1.22 1.8
220
20
25
44
52
85
110
170
262
120 6336
100 5039
80 5733
55 3372
45 4695
45 2873
35 1893
25 1616
0.33 5.1 7.5 14
0.47 4.9 6.7 17
0.68 3.4 6.0 29
1.00 3.3 4.4 36
1.50 2.3 3.2 64
2.20 2.2 3.5 73
3.30 1.8 2.8 110
4.70 1.4 1.9 196
19
23
35
44
77
87
135
235
130 6560
100 3628
70 3633
70 3083
45 4850
30 2924
35 1965
25 1580
1. Open Circuit Inductance (OCL) Test Parameters: 1.0 MHz, 0.1 Vrms, 0.0 Adc, +25 °C.
2. Irms: DC current for an approximate temperature rise of 40 °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.
3. Isat : Peak current for approximately 30% rolloff @ +25 °C.
Dimensions (mm)
4. K-factor: Used to determine Bp-p for core loss (see graph). Bp-p = K * L * ΔI. Bp-p :(Gauss),
K: (K-factor from table), L: (Inductance in uH), ΔI (Peak to peak ripple current in Amps).
5. Part Number Definition: MPIA25xxV2-xxx-R
MPIA25 = Product code
xx= Height indicator
V2=Version indicator
xxx= inductance value in μH, R= decimal point, If no R is present then last character equals
number of zeros
-R suffix = RoHS compliant
Dimension A
MPIA2510V2
1.05 maximum
MPIA2512V2
1.25 maximum,
No marking
All soldering surfaces to be coplanar within 0.10 millimeters
Tolerances are ±0.2 millimeters unless stated otherwise
Pad layout tolerances are ±0.1 millimeters unless stated otherwise
Do not route traces or vias underneath the inductor
2 www.eaton.com/electronics







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