ESD/EMI Protection for Color LCD Interfaces
PROTECTION PROTECTION PRODUCTS - EMIClampTM Description
The EClampTM2386K is a low pass filter array with integrated TVS diodes. It is designed to suppress unwanted EMI/RFI signals and provide electrostatic discharge (ESD) protection in portable electronic equipment. This state-of-the-art device utilizes solid-state silicon-avalanche technology for superior clamping performance and DC electrical characteristics. It has been optimized for protection of color LCD panels in cellular phones and other portable electronics. The device consists of six identical circuits comprised of TVS diodes for ESD protection, and a resistor capacitor network for EMI/RFI filtering. A series resistor value of 200Ω and a capacitance value of 12pF are used to achieve 30dB minimum attenuation from 800MHz to 2.7GHz. The TVS diodes provide effective suppression of ESD voltages in excess of ±15kV (air discharge) and ±8kV (contact discharge) per IEC 610004-2, level 4. The EClamp2386K is in a 12-pin, RoHS/WEEE compliant, SLP2513P12 package. It measures 2.5 x 1.3 x 0.50mm. The leads are spaced at a pitch of 0.4mm and are finished with lead-free NiPdAu. The small package makes it ideal for use in portable electronics such as cell phones, digital still cameras, and PDAs.
EClamp2386K
PRELIMINARY
Features
Bidirectional EMI/RFI filter with integrated TVS for ESD protection
ESD protection to IEC 61000-4-2 (ESD) Level 4, ±15kV (air), ±8kV (contact) Filter performance: 30dB minimum attenuation 800MHz to 2.7GHz T VS working voltage: 5V Resistor: 200Ω +/− 15% Total Capacitance: 12pF (VR = 2.5V) Protection and filtering for six lines Solid-state technology
Mechanical Characteristics
SLP2513P12 12-pin package RoHS/WEEE Compliant Nominal Dimensions: 2.5 x 1.3 x 0.50 mm Lead Pitch: 0.4mm Lead finish: NiPdAu Marking: Marking Code Packaging: Tape and Reel per EIA 481
Applications
Color LCD Protection Cell Phone CCD Camera Lines Clamshell Cell Phones
Circuit Diagram (Each Line)
Package Configuration
2.50
12
200 Ω
IN
12pF 12pF
OUT
1.30
0.40 BSC
GND
0.50
Device Schematic (6X)
Revision 03/26/2007
12 Pin SLP package (Bottom Side View) Nominal Dimensions in mm
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EClamp2386K
PROTECTION PRODUCTS Maximum Ratings
R ating ESD p er IEC 61000-4-2 (Air) ESD p er IEC 61000-4-2 (Contact) Junction Temp erature Op erating Temp erature Storage Temp erature Symbol VESD TJ Top TSTG Value +/- 17 +/- 12 125 -40 to +85 -55 to +150
PRELIMINARY
Units kV
o
C C C
o
o
Electrical Characteristics (T = 25oC)
P a r a met er T VS Reverse Stand-Of f Voltage T VS Reverse Breakdown Voltage T VS Reverse Leakage Current Total Series Resistance Capacitance Total Capacitance Symb ol VRWM VBR IR R C 1, C 2 C in It = 1mA VRWM = 3.0V Each Line Each Line VR = 2.5V, f = 1MHz Input to Gnd, Each Line VR = 2.5V, f = 1MHz 170 10 20 200 12 24 6 8 C on d i t i on s Mi n i mu m Ty p i c a l M a xi m u m 5 10 0.5 230 15 30 Un i ts V V μA Ohms pF pF
© 2007 Semtech Corp.
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EClamp2386K
PROTECTION PRODUCTS Typical Characteristics
Typical Insertion Loss S21 (Each Line)
CH1 S21 LOG 6 dB / REF 0 dB 1: -12.260 dB 112 MHz 2: -35.300 dB 800 MHz 3: -34.405 dB 1.8 GHz
1
PRELIMINARY
Analog Crosstalk (Each Line)
CH1 S21 LOG 20 dB / EF 0 dB R
0 dB -6 dB -12 dB -18 dB -24 dB
4
4: -30.362 dB 2.7 GHz
-30 dB -36 dB -42 dB -48 dB 1 MHz START . 030 MHz 10 MHz 100 MHz 3 1 GHz GHz STOP 3 000. 000000 MHz
3
2
START . 030 MHz
STOP 3000. 000000 M Hz
ESD Clamping (+8kV Contact)
ESD Clamping (-8kV Contact)
Note: Data is taken with a 10x attenuator
Note: Data is taken with a 10x attenuator
Normalized Capacitance vs. Reverse Voltage (Normalized to 2.5 volts)
2
1.5
CJ(VR) / CJ(VR=2.5)
1
0.5
f = 1 MHz 0 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5
Reverse Voltage - VR (V)
© 2007 Semtech Corp.
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EClamp2386K
PROTECTION PRODUCTS
Device Connection The EClamp2386K is comprised of six identical circuits each consisting of a low pass filter for EMI/RFI suppression and dual TVS diodes for ESD protection. The device is in a 12-pin SLP package. Electrical connection is made to the 12 pins located at the bottom of the device. A center tab serves as the ground connection. The device has a flow through design for easy layout. Pin connections are noted in Figure 1. All path lengths should be kept as short as possible to minimize the effects of parasitic inductance in the board traces. Recommendations for the ground connection are given below. Ground Connection Recommendation Parasitic inductance present in the board layout will affect the filtering performance of the device. As frequency increases, the effect of the inductance becomes more dominant. This effect is given by Equation 1. Equation 1: The Impedance of an Inductor at Frequency XLF Figure 1 - Pin Identification and Configuration (Top Side View)
PRELIMINARY
In 1 In 2 In 3 In 4 In 5 In 6
Pin 1-6 7 - 12 Center Tab
1
12
GND
6
7
Out 1 Out 2 Out 3 Out 4 Out 5 Out 6
Identification Inp ut Lines Outp ut Lines Ground
XLF(L, f ) = 2 * π * f * L
Where: L= Inductance (H) f = Frequency (Hz) Via connections to the ground plane form rectangular wire loops or ground loop inductance as shown in Figure 2. Ground loop inductance can be reduced by using multiple vias to make the connection to the ground plane. Bringing the ground plane closer to the signal layer (preferably the next layer) also reduces ground loop inductance. Multiple vias in the device ground pad will result in a lower inductive ground loop over two exterior vias. Vias with a diameter d are separated by a distance y run between layers separated by a distance x. The inductance of the loop path is given by Equation 2. Thus, decreasing distance x and y will reduce the loop inductance and result in better high frequency filter characteristics.
Figure 2 - Inductance of Rectangular Wire Loops
Ground Via 1
Ground Via 2 d x Signal Layer
y
Ground Layer Layer
Equation 2: Inductance of Rectangular Wire Loop
LRECT(d, x , y) = 10.16 *10 −9 * x * ln
Where: d = Diameter of the wire (in) x = Length of wire loop (in) y = Breath of wire loop (in)
[
[ ] + y * ln[ ]]
2*y d 2*x d
© 2007 Semtech Corp.
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EClamp2386K
PROTECTION PRODUCTS Applications Information
Figure 3 shows the recommended device layout. The ground pad vias have a diameter of 0.008 inches (0.20 mm) while the two external vias have a diameter of 0.010 inches (0.250mm). The internal vias are spaced approximately evenly from the center of the pad. The designer may choose to use more vias with a smaller diameter (such as 0.005 inches or 0.125mm) since changing the diameter of the via will result in little change in inductance (i.e. the log function in Equation 2 in highly insensitive to parameter d) . Figure 4 shows a typical insertion loss (S21) plot for the device using Semtech’s filter evaluation board with 50 Ohm traces and the recommended via configuration.
PRELIMINARY
Figure 4 - Filter Characteristics Using Recommended Layout with Internal Vias
CH1 S21 LOG 6 dB / REF 0 dB 1: -12.260 dB 112 MHz 2: -35.300 dB 800 MHz 3: -34.405 dB 1.8 GHz
1
0 dB -6 dB -12 dB -18 dB -24 dB
4
4: -30.362 dB 2.7 GHz
-30 dB -36 dB -42 dB
3
2
Figure 3 - Recommended Layout Using Ground Vias
-48 dB
1 MHz START . 030 MHz
10 MHz
100 MHz
3 1 GHz GHz STOP 3000. 000000 MHz
© 2007 Semtech Corp.
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EClamp2386K
PROTECTION PRODUCTS Applications Information - Spice Model PRELIMINARY
Line In
0.7nH 200
0.7nH
Line Out
EClamp2386K Spice Model
Table 1 - EClamp2386K Spice Parameters Parameter IS BV VJ RS IBV CJO TT M N EG Unit Amp Volt Volt O hm Amp Farad sec --eV D1 (T VS) 5.15E-15 7.53 0.75 0 .4 2 6 1 E -3 23E-12 2.541E-9 0.256 1.1 1.11 D2 (T VS) 5.15E-15 7.53 0.75 0 .4 2 6 1E-3 23E-12 2.541E-9 0.256 1.1 1.11
© 2007 Semtech Corp.
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EClamp2386K
PROTECTION PRODUCTS Outline Drawing - SLP2513P12 PRELIMINARY
A
D
B
DIM
PIN 1 INDICATOR (LASER MARK) E
DIMENSIONS INCHES MILLIMETERS MIN NOM MAX MIN NOM MAX
.018 .020 .022 .000 .001 .002 (.005) .006 .008 .010 .096 .098 .101 .079 .083 .087 .049 .051 .054 .008 .012 .016 .016 BSC .008 .010 .012 12 .003 .004 0.45 0.50 0.55 0.00 0.02 0.05 (0.13) 0.15 0.20 0.25 2.45 2.50 2.575 2.00 2.10 2.20 1.25 1.30 1.375 0.20 0.30 0.40 0.40 BSC 0.20 0.25 0.30 12 0.08 0.10
A aaa C A2 D1 1 E1 N e e/2 D/2 2 LxN E/2 A1 C
SEATING PLANE
A A1 A2 b D D1 E E1 e L N aaa bbb
bxN bbb CAB
NOTES:
1. CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES). 2. COPLANARITY APPLIES TO THE EXPOSED PAD AS WELL AS THE TERMINALS.
Land Pattern - SLP2513P12
P X DIM C G H K P X Y Z
Z
G Y
H
(C)
DIMENSIONS INCHES MILLIMETERS (.050) (1.27) .027 0.69 0.30 .012 .087 2.20 .016 0.40 .008 0.20 .023 0.58 .073 1.85
K
NOTES:
1. CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES). 2. THIS LAND PATTERN IS FOR REFERENCE PURPOSES ONLY. CONSULT YOUR MANUFACTURING GROUP TO ENSURE YOUR COMPANY'S MANUFACTURING GUIDELINES ARE MET.
© 2007 Semtech Corp.
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EClamp2386K
PROTECTION PRODUCTS Marking PRELIMINARY Ordering Information
Part Number Qty per Reel 3000 Reel Size 7 Inch
PIN 1 INDICATOR
2386K
YYWW
EClamp2386K.TCT
EMIClamp and EClamp are marks of Semtech Corporation
Note: YYWW= Date Code
Tape and Reel Specification
Pin 1 Location
User Direction of feed
Device Orientation in Tape
A0 1.78 +/-0.05 mm B0 3.18 +/-0.05 mm K0 0.76 +/-0.05 mm
Tape Width
B, (Max)
D 1.5 + 0.1 mm - 0.0 mm (0.59 +.005 - .000)
D1
E 1.750±.10 mm (.069±.004)
F
K (MAX)
P 4.0±0.1 mm (.157±.004)
P0 4.0±0.1 mm (.157±.004)
P2
T(MAX)
W 8.0 mm + 0.3 mm - 0.1 mm (.312±.012)
8 mm
4.2 mm (.165)
0.8 mm ±0.05 (.031)
3.5±0.05 mm (.138±.002)
2.4 mm (.094)
2.0±0.05mm (.079±.002)
0.4 mm (.016)
Contact Information
Semtech Corporation Protection Products Division 200 Flynn Rd., Camarillo, CA 93012 Phone: (805)498-2111 FAX (805)498-3804
© 2007 Semtech Corp. 8 www.semtech.com
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