Tel : + 33 (0) 3 82 59 13 33 www.microspire.com Specifications may change without prior notice - Revised 06/09
16
100 µH
82 µH
33 µH
10 µH
330 nH
100 nH
82 nH
33 nH
10 nH
8.2 µH
3.3 µH
820
nH
20
40
60
80
100
120
140
10001 3 5 10 30 50 100 300 500
Frequency - MHz
Connections
PCB
Layout
(suggested)
3.40
2.50
1st significant figure
(2 times wider)
2nd significant figure
Multiplier (nH)
3.30
5.70
5
3.8
1
2
4.80
5.80
Chip Inductors -
MPCI
233
Series
Electrical Data
(
25°C
)
ID Code Inductance*
µH
Q
Min
Test Freq.
MHz
SFR Min.
MHz
DCR Max.
DC Current
mA max
Tol**
% Min
MPCI 233 000 010
0.010 60 150 2000 0.04 1000
10
MPCI 233 000 012
0.012 70 150 1800 0.04 1000
MPCI 233 000 015
0.015 75 150 1500 0.04 1000
MPCI 233 000 018
0.018 75 150 1500 0.04 1000
MPCI 233 000 022
0.022 60 100 1300 0.05 1000
5
MPCI 233 000 027
0.027 60 100 1300 0.05 1000
MPCI 233 000 033
0.033 60 100 1000 0.05 1000
MPCI 233 000 039
0.039 60 100 1000 0.06 900
MPCI 233 000 047
0.047 65 100 800 0.06 900
MPCI 233 000 056
0.056 65 100 760 0.06 900
MPCI 233 000 068
0.068 65 100 700 0.07 840
MPCI 233 000 082
0.082 65 100 650 0.07 840
MPCI 233 000 100
0.100 65 50 570 0.07 840
10
MPCI 233 000 120
0.120 65 50 520 0.07 840
MPCI 233 000 150
0.150 75 50 400 0.08 790
MPCI 233 000 180
0.180 75 50 360 0.08 790
MPCI 233 000 220
0.220 70 50 320 0.08 790
MPCI 233 000 270
0.270 70 50 270 0.10 700
MPCI 233 000 330
0.330 70 50 240 0.10 700
MPCI 233 000 390
0.390 70 50 220 0.10 700
MPCI 233 000 470
0.470 70 25 190 0.14 590
5
MPCI 233 000 560
0.560 70 25 170 0.19 510
MPCI 233 000 680
0.680 70 25 160 0.26 430
MPCI 233 000 820
0.820 75 25 150 0.30 400
MPCI 233 001 000
1.00 75 25 130 0.34 380
MPCI 233 001 200
1.20 65 7.9 120 0.45 330
2
MPCI 233 001 500
1.50 65 7.9 110 0.57 290
MPCI 233 001 800
1.80 65 7.9 100 0.72 260
MPCI 233 002 200
2.20 65 7.9 80 0.90 230
MPCI 233 002 700
2.70 65 7.9 60 1.10 210
MPCI 233 003 300
3.30 60 7.9 50 1.20 200
MPCI 233 003 900
3.90 60 7.9 45 1.40 180
MPCI 233 004 700
4.70 60 7.9 42 1.60 170
MPCI 233 005 600
5.60 65 7.9 40 1.80 160
MPCI 233 006 800
6.80 65 7.9 37 2.40 140
MPCI 233 008 200
8.20 65 7.9 34 3.00 130
MPCI 233 010 000
10.0 65 7.9 29 3.50 120
MPCI 233 012 000
12.0 60 2.5 27 3.60 118
MPCI 233 015 000
15.0 60 2.5 22 3.70 115
ID Code Inductance*
µH
Q
Min
Test Freq.
MHz
SFR Min.
MHz
DCR Max.
DC Current
mA max
Tol**
% Min
MPCI 233 018 000
18.0 60 2.5 17 3.80 114
2
MPCI 233 022 000
22.0 60 2.5 16 3.90 113
MPCI 233 027 000
27.0 65 2.5 15 4.00 110
MPCI 233 033 000
33.0 65 2.5 14 5.00 100
MPCI 233 039 000
39.0 65 2.5 13 7.00 84
MPCI 233 047 000
47.0 70 2.5 12 8.00 79
MPCI 233 056 000
56.0 70 2.5 11 10.0 70
MPCI 233 068 000
68.0 65 2.5 10 11.0 67
MPCI 233 082 000
82.0 60 2.5 9 12.0 64
MPCI 233 100 000
100 60 2.5 8 13.0 62
MPCI 233 120 000
120 40 0.79 7 14.0 59
MPCI 233 150 000
150 40 0.79 6 16.0 56
MPCI 233 180 000
180 40 0.79 5 18.0 52
MPCI 233 220 000
220 40 0.79 4 24.0 45
MPCI 233 270 000
270 40 0.79 3.3 25.0 44
MPCI 233 330 000
330 40 0.79 3;1 29.0 41
MPCI 233 390 000
390 40 0.79 2.9 32.0 39
MPCI 233 470 000
470 35 0.79 2.4 35.0 37
MPCI 233 560 000
560 35 0.79 2.1 45.0 33
MPCI 233 680 000
680 35 0.79 1.9 55.0 30
MPCI 233 820 000
820 30 0.79 1.8 70.0 26
MPCI 233 1000 000
1000 30 0.79 1.7 80.0 25
* Standard inductance tolerance
:
±
10
%
** Tightest achievable tolerances.
Other inductance values and S parameters on request.
Inductance variation
:
60
PPM
/
°C
max.
in the range
0.01
to
1
µH
80
PPM
/
°C
max.
in the range
1.2
to
10
µH
150
PPM
/
°C
max.
in the range
12
to
100
µH
300
PPM
/
°C
max.
in the range
120
to
1000
µH
To Order
MPCI 233 ### ### xy
MPCI 233 ### ### x y
Range Inductance
Value
Terminations
x = G for Gold
x = T for Tinned
Tolerance :
y = 10 for ±10%
y = 5 for ±5%
y = 2 for ±2%
Q vs frequencyTypical Dimensions
(mm)
• High temp. RF inductances
• Excellent Q values even at high frequencies
• Very high self-resonant frequencies (SFRs)
• With or without tab terminations
• Tinned or gold plated terminations
• Frequency range
:
1
MHz
to
1
GHz
• Operating temperature range
:
-
55
°C
to
+
175
°C
• Weight
:
0.15
gram
Packaging
Tray
.....High Grade Technologies............
.....RF and Data magnetics.............
.....Miniature Chip Inductors............