STMICROELECTRONICS EMIF10

EMIF10-COM01F2
®
IPAD™
EMI FILTER
INCLUDING ESD PROTECTION
MAIN PRODUCT CHARACTERISTICS
EMI filtering and ESD protection for:
■
■
■
Computers and printers
Communication systems
Mobile phones
DESCRIPTION
The EMIF10-COM01F2 is a highly integrated
device designed to suppress EMI / RFI noise in all
systems subjected to electromagnetic interferences. The EMIF10 Flip-Chip packaging means
the package size is equal to the die size.
Additionally, this filter includes an ESD protection
circuitry which prevents the protected device from
destruction when subjected to ESD surges up to
15 kV.
Flip-Chip
(25 Bumps)
Table 1: Order Code
Part Number
EMIF010-COM01F2
Marking
FE
Figure 1: Pin Configuration (Ball side)
BENEFITS
■ EMI symmetrical (I/O) low-pass filter
■ Lead free package
2
■ Very low PCB space consuming: < 6mm
■ Very thin package: 0.65 mm
■ High efficiency in ESD suppression on both
input & output pins
■ High reliability offered by monolithic integration
COMPLIES WITH THE FOLLOWING STANDARDS:
IEC61000-4-2 level 4
15kV (air discharge)
8kV (contact discharge)
E
D
C
B
A
I5
I4
I3
I2
I1
1
I10
I9
I8
I7
I6
2
GND
GND
GND
GND
GND
3
010
09
08
07
06
4
05
04
03
02
01
5
Figure 2: Basic cell configuration
Low-pass Filter
Input
Output
RI/O = 200Ω
Cline = 45 pF
TM: IPAD is a trademark of STMicroelectronics.
April 2005
REV. 2
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EMIF10-COM01F2
Table 2: Absolute Ratings (Tamb = 25°C)
Symbol
VPP
Tj
Parameter and test conditions
Value
Unit
ESD discharge IEC61000-4-2, air discharge
ESD discharge IEC61000-4-2, contact discharge
15
8
kV
Junction temperature
125
°C
Top
Operating temperature range
- 40 to + 85
°C
Tstg
Storage temperature range
- 55 to + 150
°C
Table 3: Electrical Characteristics (Tamb = 25°C)
Symbol
VBR
Breakdown voltage
IRM
Leakage current @ VRM
VRM
Stand-off voltage
VCL
Clamping voltage
Rd
Dynamic impedance
IPP
Peak pulse current
RI/O
Series resistance between Input &
Output
Cline
Input capacitance per line
Symbol
VCL VBR
Test conditions
VBR
IR = 1 mA
IRM
VRM = 3V per line
Rd
IPP = 10A, tp = 2.5µs
RI/O
Cline
tLH
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I
Parameter
VRM
slope : 1 / R d
Vinput = 2.8V
Rload = 100kΩ
IPP
Min.
Typ.
Max.
Unit
6
8
10
V
500
nA
Ω
1
180
At 0V bias
V
IRM
IR
200
220
Ω
45
50
pF
25
ns
EMIF10-COM01F2
Figure 3: S21(db) attenuation measurement
Figure 4: Analog crosstalk
0.00
EMIF10-COM01F2: Typical S21(dB) measurement on line I10/O10
dB
0.00
dB
-5.00
-10.00
-20.00
-10.00
-30.00
-15.00
-40.00
-20.00
-50.00
-25.00
-30.00
-60.00
-35.00
-70.00
-40.00
-80.00
-45.00
-50.00
1.0M
-90.00
3.0M
10.0M
30.0M
100.0M 300.0M
f/Hz
1.0G
3.0G
-100.00
100.0k
1.0M
10.0M
100.0M
1.0G
f/Hz
Note: Spikes at high frequencies are induced by the PCB layout
Figure 5: ESD response to IEC61000-4-2
(+15kV air discharge) on one input V(in) and on
one output (Vout)
Figure 6: ESD response to IEC61000-4-2 (-15kV
air discharge) on one input V(in) and on one
output (Vout)
V(in1)
V(in1)
V(out1)
V(out1)
Figure 7: Rise time measurement
EMIF10-COM01F2
In
Out
Vout
Square signal
Generator Vc = 2.8V
Vin
100k
Vout
Vin
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EMIF10-COM01F2
Figure 8: Capacitance versus reverse applied
voltage
C(pF)
50
F=1MHz
Vosc=30mV
40
30
20
10
0
1
2
3
4
5
VR(V)
Figure 9: Aplac model
200R
out
in
MODEL = demif10
MODEL = demif10
Demif10 model
BV = 7
IBV = 1m
CJO = 25p
M = 0.3333
RS = 1
VJ = 0.6
TT = 100n
sub
PCB grounding recommendations
In order to ensure a good efficiency in terms of ESD protection and filtering behavior, we recommend to
implement microvias (100 µm dia.) between the GND bumps and the GND layer. GND bumps can be connected together in PCB layer 1, and in addition, if possible, use through hole vias (200 µm dia.) in both
sides of filter to improve contact to GND (layer). This layout will minimize the distance to the ground and
thus parasitic inductances. In addition, we recommend to have GND plane wherever possible.
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EMIF10-COM01F2
Figure 10: Ordering Information Scheme
EMIF
yy
-
xxx zz
Fx
EMI Filter
Number of lines
Information
x = resistance value (Ohms)
z = capacitance value / 10(pF)
or
3 letters = application
2 digits = version
Package
F = Flip-Chip
x = 1: 500µm, Bump = 315µm
= 2: Leadfree Pitch = 500µm, Bump = 315µm
= 3: Leadfree Pitch = 400µm, Bump = 250µm
Figure 11: FLIP-CHIP Package Mechanical Data
500µm ± 50
650µm ± 65
2.42mm ± 50µm
500µm ± 50
315µm ± 50
2.42mm ± 50µm
Figure 12: Foot print recommendations
Figure 13: Marking
545
400
545
Copper pad Diameter :
250µm recommended , 300µm max
Dot, ST logo
xx = marking
z = packaging location
yww = datecode
(y = year
ww = week)
E
Solder stencil opening : 330µm
x x z
y ww
100
230
Solder mask opening recommendation :
340µm min for 315µm copper pad diameter
All dimensions in µm
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EMIF10-COM01F2
Figure 14: FLIP-CHIP Tape and Reel Specification
Dot identifying Pin A1 location
1.75 +/- 0.1
Ø 1.5 +/- 0.1
4 +/- 0.1
3.5 +/- 0.1
ST E
xxz
yww
ST E
xxz
yww
ST E
xxz
yww
8 +/- 0.3
0.73 +/- 0.05
4 +/- 0.1
User direction of unreeling
All dimensions in mm
Table 4: Ordering Information
Ordering code
Marking
Package
Weight
Base qty
Delivery mode
EMIF10-COM01F2
FE
Flip-Chip
8.3 mg
5000
Tape & reel
Note: More informations are available in the application notes:
AN1235: “Flip-Chip: Package description and recommendations for use”
AN1751: "EMI Filters: Recommendations and measurements"
Table 5: Revision History
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Date
Revision
Description of Changes
14-Dec-2004
1
First issue.
12-Apr-2005
2
Die clearance reduction.
EMIF10-COM01F2
Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences
of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted
by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject
to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not
authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.
The ST logo is a registered trademark of STMicroelectronics.
All other names are the property of their respective owners
© 2005 STMicroelectronics - All rights reserved
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