EMI4183 [ONSEMI]
Common Mode Filter with ESD Protection; 共模滤波器与ESD保护型号: | EMI4183 |
厂家: | ONSEMI |
描述: | Common Mode Filter with ESD Protection |
文件: | 总10页 (文件大小:863K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
EMI4183
Common Mode Filter with
ESD Protection
Functional Description
The EMI4183 is an integrated common mode filter providing both
ESD protection and EMI filtering for high speed digital serial
interfaces such as MIPI D-PHY.
The EMI4183 provides protection for three differential data line
pairs in a small RoHS-compliant WDFN16 package.
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MARKING
DIAGRAMS
4TMG
Features
G
• Highly Integrated Common Mode Filter (CMF) with ESD Protection
provides protection and EMI reduction for systems using High Speed
Serial Data Lines with cost and space savings over discrete solutions
WDFN16
CASE 511BL
• Large Differential Mode Bandwidth with Cutoff Frequency > 2 GHz
4T = Specific Device Code
• High Common Mode Stop Band Attenuation: >25 dB at 700 MHz,
M
G
= Date Code
= Pb−Free Package
>30 dB at 800 MHz
• Provides ESD Protection to IEC61000-4-2 Level 4, 15 kV Contact
Discharge
(Note: Microdot may be in either location)
• Low Channel Input Capacitance Provides Superior Impedance
Matching Performance
PIN CONNECTIONS
16
In_1+
1
2
3
4
5
6
7
8
Out_1+
Out_1−
GND
• Low Profile Package with Small Footprint in WDFN16 2 x 4 mm
Pb−Free Package
• These Devices are Pb−Free, Halogen Free/BFR Free and are RoHS
Compliant
15
14
13
12
11
10
9
In_1−
GND
In_2+
In_2−
Out_2+
Out_2−
GND
Applications
• MIPI D-PHY (CSI-2, DSI, etc) in Mobile Phones and Digital Still
Cameras
GND
In_3+
Out_3+
Out_3−
16
1
In_3−
15
13
2
4
External
(Connector)
Internal
(ASIC)
5
7
12
10
ORDERING INFORMATION
†
Device
EMI4183MTTAG
Package
Shipping
8
9
WDFN16
3000/Tape & Reel
(Pb−Free)
†For information on tape and reel specifications,
including part orientation and tape sizes, please
refer to our Tape and Reel Packaging Specifications
Brochure, BRD8011/D.
6, 11
3, 14
Figure 1. EMI4183 Electrical Schematic
© Semiconductor Components Industries, LLC, 2011
1
Publication Order Number:
May, 2011 − Rev. 0
EMI4183/D
EMI4183
PIN FUNCTION DESCRIPTION
Pin Name
In_1+
Pin No.
Type
I/O
Description
1
2
CMF Channel 1+ to Connector
CMF Channel 1− to Connector
CMF Channel 1+ to ASIC
CMF Channel 1− to ASIC
CMF Channel 2+ to Connector
CMF Channel 2− to Connector
CMF Channel 2+ to ASIC
CMF Channel 2− to ASIC
CMF Channel 3+ to Connector
CMF Channel 3− to Connector
CMF Channel 3+ to ASIC
CMF Channel 3− to ASIC
Ground
In_1−
I/O
Out_1+
Out_1−
In_2+
16
15
4
I/O
I/O
I/O
In_2−
5
I/O
Out_2+
Out_2−
In_3+
13
12
7
I/O
I/O
I/O
In_3−
8
I/O
Out_3+
Out_3−
GND
10
9
I/O
I/O
3, 14
6, 11
GND
GND
GND
Ground
ABSOLUTE MAXIMUM RATINGS (T = 25°C unless otherwise noted)
A
Parameter
Operating Temperature Range
Symbol
Value
−40 to +85
−65 to +150
15
Unit
°C
T
OP
Storage Temperature Range
T
STG
°C
ESD Discharge IEC61000−4−2 Contact Discharge
V
PP
kV
Maximum Lead Temperature for Soldering Purposes
(1/8” from Case for 10 seconds)
T
L
260
°C
DC Current per Line
I
100
mA
LINE
Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the
Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect
device reliability.
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2
EMI4183
ELECTRICAL CHARACTERISTICS (T = 25°C unless otherwise noted)
A
Symbol
Parameter
Channel Leakage Current
Channel Negative Voltage
Test Conditions
T = 25°C, V = 5 V, GND = 0 V
Min
Typ
Max
1.0
1.5
1.3
Unit
mA
V
I
LEAK
A
IN
V
F
T = 25°C, I = 10 mA
0.1
A
F
C
Channel Input Capacitance to Ground
(Pins 1,2,4,5,7,8 to Pins 3,6,11,14)
T = 25°C, At 1 MHz, GND = 0 V,
0.8
8.0
pF
IN
A
IN
V
= 1.65 V
R
Channel Resistance
(Pins 1−16, 2−15, 4−13, 5−12, 7−10 & 8−9)
W
CH
f
Differential Mode Cut−off Frequency
50 W Source and Load Termination
2.0
30
GHz
dB
3dB
F
atten
Common Mode Stop Band Attenuation
@ 800 MHz
V
ESD
ESD Protection − Peak Discharge
Voltage at any channel input, in system:
Contact discharge per
T = 25°C
15
kV
A
(Notes 1 and 2)
Pins 1, 2, 4, 5, 7, 8
IEC61000−4−2 standard
V
CL
TLP Clamping Voltage
(See Figure 12)
Forward I = 8 A
12
18
V
V
V
V
PP
Forward I = 16 A
PP
Forward I = −8 A
−6
PP
Forward I = −16 A
−12
PP
R
Dynamic Resistance
Positive Transients
Negative Transients
T = 25°C, I = 1 A, t = 8/20 ms
A PP P
Any I/O pin to Ground;
Notes 1 and 3
DYN
1.36
0.6
V
Reverse Working Voltage
Breakdown Voltage
(Note 3)
5.0
9.0
V
V
RWM
V
I = 1 mA; (Note 4)
T
5.6
BR
1. Standard IEC61000−4−2 with C
= 150 pF, R
= 330, GND grounded.
Discharge
Discharge
2. These measurements performed with no external capacitor.
3. TVS devices are normally selected according to the working peak reverse voltage (V
or continuous peak operating voltage level.
), which should be equal to or greater than the DC
RWM
4. V is measured at pulse test current I .
BR
T
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3
EMI4183
TYPICAL CHARACTERISTICS
Figure 2. Differential Mode Attenuation vs.
Figure 3. Common Mode Attenuation vs.
Frequency (Zdiff = 100 W)
Frequency (Zcomm = 50 W)
Figure 4. Differential Return Loss vs. Frequency
Figure 5. Differential Inter−Lane Cross−Coupling
(Zdiff=100 W)
Figure 6. Common Mode Inter−Lane Cross−Coupling
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4
EMI4183
MIPI DSI (D−PHY)
MIPI DSI (D−PHY)
Client
Host
EMI4183
Evaluation
Board
Figure 7. MIPI D−PHY LP Mode Test Setup
Figure 8. EMI4183 MIPI D−PHY LP Mode Measured Results
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5
EMI4183
Figure 9. EMI4183 Eye Diagram Test Setup
Figure 10. EMI4183 Measured Eye Diagram @ 3.4Gbps (EVB through on left, EVB with EMI4183 on right)
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6
EMI4183
Transmission Line Pulse (TLP) Measurements
Transmission Line Pulse (TLP) provides current versus voltage (I-V) curves in which each data point is obtained from a
100 ns long rectangular pulse from a charged transmission line. A simplified schematic of a typical TLP system is shown in
Figure 11. TLP I-V curves of ESD protection devices accurately demonstrate the product’s ESD capability because the 10 s
of amps current levels and under 100 ns time scale match those of an ESD event. This is illustrated in Figure 12 where an 8 kV
IEC61000-4-2 current waveform is compared with TLP current pulses at 8 and 16 A. A TLP curve shows the voltage at which
the device turns on as well as how well the device clamps voltage over a range of current levels. Typical TLP I-V curves for
the EMI4183 are shown in Figure 13.
Attenuator
L
50 W Coax Cable
SW
÷
50 W Coax
Cable
VM
IM
10 MW
VC
DUT
Oscilloscope
Figure 11. Simplified Schematic of a Typical TLP System
Figure 12. Comparison Between 8 kV IEC61000−4−2 and 8 A and 16 A TLP Waveforms
Figure 13. Positive and Negative TLP Waveforms
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7
EMI4183
ESD Voltage Clamping
For sensitive circuit elements it is important to limit the voltage that an IC will be exposed to during an ESD event to as low
a voltage as possible. The ESD clamping voltage is the voltage drop across the ESD protection diode during an ESD event per
the IEC61000−4−2 waveform. Since the IEC61000−4−2 was written as a pass/fail spec for larger systems such as cell phones
or laptop computers it is not clearly defined in the spec how to specify a clamping voltage at the device level. ON Semiconductor
has developed a way to examine the entire voltage waveform across the ESD protection diode over the time domain of an ESD
pulse in the form of an oscilloscope screenshot, which can be found on the datasheets for all ESD protection diodes. For more
information on how ON Semiconductor creates these screenshots and how to interpret them please refer to On Semiconductor
Application Notes AND8307/D and AND8308/D.
IEC61000−4−2 Waveform
IEC61000−4−2 Spec.
I
peak
Test
Voltage
(kV)
First Peak
Current
(A)
100%
90%
Current at
30 ns (A)
Current at
60 ns (A)
Level
1
2
3
4
2
4
6
8
7.5
15
4
8
2
4
6
8
I @ 30 ns
22.5
30
12
16
I @ 60 ns
10%
t
P
= 0.7 ns to 1 ns
Oscilloscope
ESD Gun
TVS
50 W
Cable
50 W
Figure 14. Diagram of ESD Test Setup
100
90
80
70
60
50
40
30
20
t
r
PEAK VALUE I
@ 8 ms
RSM
PULSE WIDTH (t ) IS DEFINED
P
AS THAT POINT WHERE THE
PEAK CURRENT DECAY = 8 ms
HALF VALUE I /2 @ 20 ms
RSM
t
P
10
0
0
20
40
t, TIME (ms)
60
80
Figure 15. 8 x 20 ms Pulse Waveform
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8
EMI4183
Figure 16. ESD Clamping Voltage +8 kV per IEC6100−4−2 (external to internal pin)
Figure 17. ESD Clamping Voltage −8 kV per IEC6100−4−2 (external to internal pin)
D−PHY (CDI/DSI)
D−PHY (CSI/DSI)
Receiver
D0+
EMI4183
Transmitter
D0+
D0-
D0-
GND
GND
D0+
D0-
D0+
D0-
GND
GND
Clock+
Clock-
Clock+
Clock-
Figure 18. EMI4183 MIPI D−PHY Application Diagram
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9
EMI4183
PACKAGE DIMENSIONS
WDFN16 4x2, 0.5P
CASE 511BL−01
ISSUE O
L
L
NOTES:
A
B
E
D
1. DIMENSIONING AND TOLERANCING PER
ASME Y14.5M, 1994.
2. CONTROLLING DIMENSION: MILLIMETERS.
3. DIMENSIONS b APPLIES TO PLATED
TERMINAL AND IS MEASURED BETWEEN
0.15 AND 0.30 MM FROM TERMINAL TIP.
4. COPLANARITY APPLIES TO THE EXPOSED
PAD AS WELL AS THE TERMINALS.
L1
2X
0.10
C
PIN 1
REFERENCE
DETAIL A
ALTERNATE TERMINAL
CONSTRUCTIONS
MILLIMETERS
A3
DIM MIN
MAX
0.80
0.05
2X
0.10 C
EXPOSED Cu
MOLD CMPD
A
A1
A3
b
0.70
0.00
TOP VIEW
0.20 REF
(A3)
DETAIL B
0.15
0.25
0.05
C
D
4.00 BSC
2.00 BSC
0.50 BSC
A1
E
A
e
DETAIL B
L
0.70
0.05
0.90
0.15
0.05
C
ALTERNATE
L1
CONSTRUCTIONS
NOTE 4
A1
SEATING
PLANE
C
SIDE VIEW
RECOMMENDED
DETAIL A
MOUNTING FOOTPRINT*
1
8
9
13X
0.30
PACKAGE
OUTLINE
12X
1.07
12X L
0.10
MIN
2.30
16
e
1
b
14X
M
M
e/2
BOTTOM VIEW
C
C
A
B
0.10
0.45
0.50 PITCH
NOTE 3
0.05
DIMENSIONS: MILLIMETERS
*For additional information on our Pb−Free strategy and soldering
details, please download the ON Semiconductor Soldering and
Mounting Techniques Reference Manual, SOLDERRM/D.
ON Semiconductor and
are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice
to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability
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“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All
operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights
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EMI4183/D
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