Product Specifications
Part OCL
1
FLL min.
2
I
rms
3
I
sat
1
4
I
sat
2
5
I
sat
3
6
DCR
Number
8
(nH)±10% (nH) (Amps) (Amps) (Amps) (Amps) (mΩ) @ 20°C K-factor
7
FP1208R1-R15-R 150 114 85 79 72 283
FP1208R1-R18-R 180 137 72 66 63 283
FP1208R1-R21-R 210 160 50 65 57 55 0.29±5% 283
FP1208R1-R23-R 230 176 61 53 50 283
FP1208R1-R25-R 250 191 55 48 44 283
Description
• Halogen free, lead free, RoHS compliant
• 125°C maximum total temperature operation
• 12.1x8.0x8.0mm maximum surface mount package
• Ferrite core material
• Controlled DCR for sensing circuits
• Inductance range from 150nH to 250nH
• Current range from 44 to 85 Amps
High Frequency, High Current Power Inductors
Flat-Pac™ FP1208 Series
0813 BU-SB13927 Page 1 of 5 Data Sheet: 10148
Applications
• Multi-phase regulators
• Voltage Regulator Modules (VRMs)
• Desktop and server VRMs and EVRDs
• Notebook regulators
• Data networking and storage systems
• Graphics cards and battery power systems
• Point-of-Load modules
• DCR Sensing circuits
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, 5 00 parts per
13” diameter reel
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 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.
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 @ 125°C
7. K-factor: Used to determine Bp-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).
8. Part Number Definition: FP1208Rx-Rxx-R:
- FP1208= Product code and size
- Rx= DCR indicator
- Rxx= Inductance value in µH
- “-R” suffix = RoHS compliant