LCDA05.TBT

## LCDA05 through LCDA24 Low Capacitance TVS Diode Array For High-Speed Data Interfaces 

## PROTECTION PRODUCTS 

## Description 

The LCDA series of TVS arrays are designed to protect sensitive electronics from damage or latch-up due to ESD and other voltage-induced transient events. Each device will protect two high-speed lines. They are available with operating voltages of 5V, 12V, 15V and 24V. They are bidirectional devices and may be used on lines where the signal polarities are above and below ground. 

TVS diodes are solid-state devices designed specifically for transient suppression.  They offer desirable characteristics for board level protection including fast response time, low operating and clamping voltage and no device degradation.  The LCDA series devices feature low capacitance compensation diodes in series with standard TVS diodes to provide an integrated, low capacitance solution for use on high-speed interfaces. 

The LCDA series devices may be used to meet the immunity requirements of IEC 61000-4-2, level 4. 

## Features 

- Transient protection for high-speed data lines to IEC 61000-4-2 (ESD) ±15kV (air), ±8kV (contact) IEC 61000-4-4 (EFT) 40A (5/50ns) IEC 61000-4-5 (lightning) (8/20µs)* 

- Protects two I/O lines 

- Low capacitance for high-speed data lines 

- Working voltages: 5V, 12V, 15V and 24V 

- Low leakage current 

- Low operating and clamping voltages 

- Solid-state silicon avalanche technology 

## Mechanical Characteristics 

- JEDEC SO-8 package 

- Molding compound flammability rating: UL 94V-0 

- Marking : Part Number, Date Code 

- Packaging : Tape and Reel per EIA 481 

## Applications 

- High-Speed Data Lines 

- Microprocessor Based Equipment 

- Universal Serial Bus (USB) Port Protection 

- Notebooks, Desktops, and Servers 

- Instrumentation 

- LAN/WAN Equipment 

- Peripherals 

*See Electrical Characteristics Tables for Ipp 

## Circuit Diagram (Each Line Pair) 

**==> picture [265 x 209] intentionally omitted <==**

**----- Start of picture text -----**<br>
Pin 1 and 2<br>Pin 7 and 8<br>**----- End of picture text -----**<br>


## Schematic & PIN Configuration 

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**----- Start of picture text -----**<br>
1 8<br>2 7<br>3 6<br>4 5<br>**----- End of picture text -----**<br>


**==> picture [80 x 10] intentionally omitted <==**

**----- Start of picture text -----**<br>
SO-8  (Top View)<br>**----- End of picture text -----**<br>


www.semtech.com 

Revision 08/15/2006 

1 

## LCDA05 through LCDA24 

## **PROTECTION PRODUCTS** 

## Absolute Maximum Rating 

|**PROTECTION PRODUCTS**<br>Absolute Maximum Rating||||
|---|---|---|---|
|g<br>nit<br>a<br>R|l<br>o<br>b<br>m<br>y<br>S|e<br>ul<br>a<br>V|s<br>ti<br>n<br>U|
|t(<br>r<br>e<br>w<br>o<br>P<br>e<br>slu<br>P<br>k<br>a<br>e<br>P<br>p<br>)s<br>µ<br>0<br>2<br>/<br>8<br>=|P k<br>p|0<br>0<br>3|stt<br>a<br>W|
|e<br>r<br>u<br>t<br>a<br>r<br>e<br>p<br>m<br>e<br>T<br>g<br>nir<br>e<br>dlo<br>S<br>d<br>a<br>e<br>L|TL|).c<br>e<br>s<br>0<br>1<br>(<br>0<br>6<br>2|C<br>°|
|e<br>r<br>u<br>t<br>a<br>r<br>e<br>p<br>m<br>e<br>T<br>g<br>nit<br>a<br>r<br>e<br>p<br>O|TJ|5<br>2<br>1<br>+<br>o<br>t<br>5<br>5<br>-|C<br>°|
|e<br>r<br>u<br>t<br>a<br>r<br>e<br>p<br>m<br>e<br>T<br>e<br>g<br>a<br>r<br>o<br>t<br>S|T<br>G<br>T<br>S|0<br>5<br>1<br>+<br>o<br>t<br>5<br>5<br>-|C<br>°|



## Electrical Characteristics 

|Electrical Characteristics|Electrical Characteristics|Electrical Characteristics|Electrical Characteristics|Electrical Characteristics|Electrical Characteristics|Electrical Characteristics|
|---|---|---|---|---|---|---|
|5<br>0<br>A<br>D<br>C<br>L|||||||
|r<br>e<br>t<br>e<br>m<br>a<br>r<br>a<br>P|l<br>o<br>b<br>m<br>y<br>S|s<br>n<br>oiti<br>d<br>n<br>o<br>C|m<br>u<br>m<br>i<br>n<br>i<br>M|l<br>a<br>ci<br>p<br>y<br>T|m<br>u<br>m<br>ix<br>a<br>M|s<br>ti<br>n<br>U|
|e<br>g<br>a<br>tlo<br>V<br>ff<br>O<br>-<br>d<br>n<br>a<br>t<br>S<br>e<br>sr<br>e<br>v<br>e<br>R|V<br>M<br>W<br>R||||5|V|
|e<br>g<br>a<br>tlo<br>V<br>n<br>w<br>o<br>d<br>k<br>a<br>e<br>r<br>B<br>e<br>sr<br>e<br>v<br>e<br>R|V R<br>B|It<br>A<br>m<br>1<br>=|6|||V|
|t<br>n<br>e<br>rr<br>u<br>C<br>e<br>g<br>a<br>k<br>a<br>e<br>L<br>e<br>sr<br>e<br>v<br>e<br>R|IR|V<br>M<br>W<br>R<br>C<br>°<br>5<br>2<br>=<br>T<br>,V<br>5<br>=|||0<br>2|A<br>µ|
|e<br>g<br>a<br>tlo<br>V<br>g<br>nip<br>m<br>alC|VC|I P<br>P<br>t<br>,<br>A<br>1<br>=<br>p<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||8<br>.<br>9|V|
|e<br>g<br>a<br>tlo<br>V<br>g<br>nip<br>m<br>alC|VC|I P<br>P<br>t<br>,<br>A<br>5<br>=<br>p<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||1<br>1|V|
|t<br>n<br>e<br>rr<br>u<br>C<br>e<br>slu<br>P<br>k<br>a<br>e<br>P<br>m<br>u<br>m<br>ix<br>a<br>M|I P<br>P|tp<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||7<br>1|A|
|e<br>c<br>n<br>a<br>tic<br>a<br>p<br>a<br>C<br>n<br>oitc<br>n<br>u<br>J|Cj|d<br>n<br>a<br>s<br>niP<br>O<br>/I<br>n<br>e<br>e<br>w<br>t<br>e<br>B<br>d<br>n<br>u<br>o<br>r<br>G<br>VR<br>z<br>H<br>M<br>1<br>=<br>f<br>,V<br>0<br>=|||5|F<br>p|
||||||||
|2<br>1<br>A<br>D<br>C<br>L|||||||
|r<br>e<br>t<br>e<br>m<br>a<br>r<br>a<br>P|l<br>o<br>b<br>m<br>y<br>S|s<br>n<br>oiti<br>d<br>n<br>o<br>C|m<br>u<br>m<br>i<br>n<br>i<br>M|l<br>a<br>ci<br>p<br>y<br>T|m<br>u<br>m<br>ix<br>a<br>M|s<br>ti<br>n<br>U|
|e<br>g<br>a<br>tlo<br>V<br>ff<br>O<br>-<br>d<br>n<br>a<br>t<br>S<br>e<br>sr<br>e<br>v<br>e<br>R|V<br>M<br>W<br>R||||2<br>1|V|
|e<br>g<br>a<br>tlo<br>V<br>n<br>w<br>o<br>d<br>k<br>a<br>e<br>r<br>B<br>e<br>sr<br>e<br>v<br>e<br>R|V R<br>B|It<br>A<br>m<br>1<br>=|3<br>.<br>3<br>1|||V|
|t<br>n<br>e<br>rr<br>u<br>C<br>e<br>g<br>a<br>k<br>a<br>e<br>L<br>e<br>sr<br>e<br>v<br>e<br>R|IR|V<br>M<br>W<br>R<br>C<br>°<br>5<br>2<br>=<br>T<br>,V<br>2<br>1<br>=|||1|A<br>µ|
|e<br>g<br>a<br>tlo<br>V<br>g<br>nip<br>m<br>alC|VC|I P<br>P<br>t<br>,<br>A<br>1<br>=<br>p<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||9<br>1|V|
|e<br>g<br>a<br>tlo<br>V<br>g<br>nip<br>m<br>alC|VC|I P<br>P<br>t<br>,<br>A<br>5<br>=<br>p<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||4<br>2|V|
|t<br>n<br>e<br>rr<br>u<br>C<br>e<br>slu<br>P<br>k<br>a<br>e<br>P<br>m<br>u<br>m<br>ix<br>a<br>M|I P<br>P|tp<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||2<br>1|A|
|e<br>c<br>n<br>a<br>tic<br>a<br>p<br>a<br>C<br>n<br>oitc<br>n<br>u<br>J|Cj|d<br>n<br>a<br>s<br>niP<br>O<br>/I<br>n<br>e<br>e<br>w<br>t<br>e<br>B<br>d<br>n<br>u<br>o<br>r<br>G<br>VR<br>z<br>H<br>M<br>1<br>=<br>f<br>,V<br>0<br>=|||5|F<br>p|



www.semtech.com 

 2005 Semtech Corp. 

2 

## LCDA05 through LCDA24 

## PROTECTION PRODUCTS 

## Electrical Characteristics _(continued)_ 

|PROTECTION PRODUCTS<br>Electrical Characteristics_(continued)_|PROTECTION PRODUCTS<br>Electrical Characteristics_(continued)_|PROTECTION PRODUCTS<br>Electrical Characteristics_(continued)_|PROTECTION PRODUCTS<br>Electrical Characteristics_(continued)_|PROTECTION PRODUCTS<br>Electrical Characteristics_(continued)_|PROTECTION PRODUCTS<br>Electrical Characteristics_(continued)_|PROTECTION PRODUCTS<br>Electrical Characteristics_(continued)_|
|---|---|---|---|---|---|---|
|5<br>1<br>A<br>D<br>C<br>L|||||||
|r<br>e<br>t<br>e<br>m<br>a<br>r<br>a<br>P|l<br>o<br>b<br>m<br>y<br>S|s<br>n<br>oiti<br>d<br>n<br>o<br>C|m<br>u<br>m<br>i<br>n<br>i<br>M|l<br>a<br>ci<br>p<br>y<br>T|m<br>u<br>m<br>ix<br>a<br>M|s<br>ti<br>n<br>U|
|e<br>g<br>a<br>tlo<br>V<br>ff<br>O<br>-<br>d<br>n<br>a<br>t<br>S<br>e<br>sr<br>e<br>v<br>e<br>R|V<br>M<br>W<br>R||||5<br>1|V|
|e<br>g<br>a<br>tlo<br>V<br>n<br>w<br>o<br>d<br>k<br>a<br>e<br>r<br>B<br>e<br>sr<br>e<br>v<br>e<br>R|V R<br>B|It<br>A<br>m<br>1<br>=|7<br>.<br>6<br>1|||V|
|t<br>n<br>e<br>rr<br>u<br>C<br>e<br>g<br>a<br>k<br>a<br>e<br>L<br>e<br>sr<br>e<br>v<br>e<br>R|IR|V<br>M<br>W<br>R<br>C<br>°<br>5<br>2<br>=<br>T<br>,V<br>5<br>1<br>=|||1|A<br>µ|
|e<br>g<br>a<br>tlo<br>V<br>g<br>nip<br>m<br>alC|VC|I P<br>P<br>t<br>,<br>A<br>1<br>=<br>p<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||4<br>2|V|
|e<br>g<br>a<br>tlo<br>V<br>g<br>nip<br>m<br>alC|VC|I P<br>P<br>t<br>,<br>A<br>5<br>=<br>p<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||0<br>3|V|
|t<br>n<br>e<br>rr<br>u<br>C<br>e<br>slu<br>P<br>k<br>a<br>e<br>P<br>m<br>u<br>m<br>ix<br>a<br>M|I P<br>P|tp<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||0<br>1|A|
|e<br>c<br>n<br>a<br>tic<br>a<br>p<br>a<br>C<br>n<br>oitc<br>n<br>u<br>J|Cj|d<br>n<br>a<br>s<br>niP<br>O<br>/I<br>n<br>e<br>e<br>w<br>t<br>e<br>B<br>d<br>n<br>u<br>o<br>r<br>G<br>VR<br>z<br>H<br>M<br>1<br>=<br>f<br>,V<br>0<br>=|||5|F<br>p|
||||||||
|4<br>2<br>A<br>D<br>C<br>L|||||||
|r<br>e<br>t<br>e<br>m<br>a<br>r<br>a<br>P|l<br>o<br>b<br>m<br>y<br>S|s<br>n<br>oiti<br>d<br>n<br>o<br>C|m<br>u<br>m<br>i<br>n<br>i<br>M|l<br>a<br>ci<br>p<br>y<br>T|m<br>u<br>m<br>ix<br>a<br>M|s<br>ti<br>n<br>U|
|e<br>g<br>a<br>tlo<br>V<br>ff<br>O<br>-<br>d<br>n<br>a<br>t<br>S<br>e<br>sr<br>e<br>v<br>e<br>R|V<br>M<br>W<br>R||||4<br>2|V|
|e<br>g<br>a<br>tlo<br>V<br>n<br>w<br>o<br>d<br>k<br>a<br>e<br>r<br>B<br>e<br>sr<br>e<br>v<br>e<br>R|V R<br>B|It<br>A<br>m<br>1<br>=|7<br>.<br>6<br>2|||V|
|t<br>n<br>e<br>rr<br>u<br>C<br>e<br>g<br>a<br>k<br>a<br>e<br>L<br>e<br>sr<br>e<br>v<br>e<br>R|IR|V<br>M<br>W<br>R<br>C<br>°<br>5<br>2<br>=<br>T<br>,V<br>4<br>2<br>=|||1|A<br>µ|
|e<br>g<br>a<br>tlo<br>V<br>g<br>nip<br>m<br>alC|VC|I P<br>P<br>t<br>,<br>A<br>1<br>=<br>p<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||3<br>4|V|
|e<br>g<br>a<br>tlo<br>V<br>g<br>nip<br>m<br>alC|VC|I P<br>P<br>t<br>,<br>A<br>5<br>=<br>p<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||5<br>5|V|
|t<br>n<br>e<br>rr<br>u<br>C<br>e<br>slu<br>P<br>k<br>a<br>e<br>P<br>m<br>u<br>m<br>ix<br>a<br>M|I P<br>P|tp<br>s<br>µ<br>0<br>2<br>/<br>8<br>=|||5|A|
|e<br>c<br>n<br>a<br>tic<br>a<br>p<br>a<br>C<br>n<br>oitc<br>n<br>u<br>J|Cj|d<br>n<br>a<br>s<br>niP<br>O<br>/I<br>n<br>e<br>e<br>w<br>t<br>e<br>B<br>d<br>n<br>u<br>o<br>r<br>G<br>VR<br>z<br>H<br>M<br>1<br>=<br>f<br>,V<br>0<br>=|||5|F<br>p|



www.semtech.com 

 2005 Semtech Corp. 

3 

LCDA05 through LCDA24 

**PROTECTION PRODUCTS** 

~~[~~ Typical Characteristics 

Non-Repetitive Peak Pulse Power vs. Pulse Time 

**==> picture [234 x 349] intentionally omitted <==**

**----- Start of picture text -----**<br>
10<br>PSS<br>1<br>ee |<br>0.1 aie<br>0.01 PTT PE<br>0.1 1 10 100 1000<br>Pulse Duration - tp (µs)<br>Pulse Waveform<br>110<br>100 PP Waveform<br>90 PN  Parameters:<br>80 eea) td = 20µs tr = 8µs<br>70 -t<br>a e ee<br>60<br>50 Pf ANNee<br>40<br>td = IPP/2<br>30 pfPf oo<br>20 eeee<br>10 ee<br>0 | ee<br>0 5 10 15 20 25 30<br>Time (µs)<br> (kW)<br>pk<br>Peak Pulse Power - P<br>PP<br>Percent of I<br>**----- End of picture text -----**<br>


ESD Pulse Waveform (Per IEC 61000-4-2) 

## Power Derating Curve 

**==> picture [235 x 154] intentionally omitted <==**

**----- Start of picture text -----**<br>
110<br>100<br>90<br>80<br>70<br>60<br>50<br>40 ee ee ee Ne<br>30<br>20<br>100 a<br>0 25 50 75 100 125 150<br>Ambient Temperature - TA ( [o] C)<br>PP<br>% of Rated Power or I<br>**----- End of picture text -----**<br>


ESD Discharge Parameters Per IEC 61000-4-2 

Levle tsriF Peak Peak Tets Tets Peak Current Current Vtloage Vtloage Current at 30ns at 60ns (Contatc (riA (A) (A) (A) Dsicharg)e Dsicharg)e (kV) (kV) 1 .75 4 8 2 2 2 15 8 4 4 4 3 22.5 12 6 6 8 4 30 16 8 8 15 ~~a~~ e www.semtech.com 

4 

 2005 Semtech Corp. 

LCDA05 through LCDA24 

## PROTECTION PRODUCTS 

## Applications Information 

## Device Connection for Protection of Two High-Speed Data Lines 

The LCDAxx is designed to protect up to two high-speed data lines.  The LCDAxx utilizes a low capacitance compensation diode in series with, but in opposite polarity to a TVS diode in each line.  The resulting capacitance is less than 5pF per line.  Each line will only suppress transient events in one polarity.  Therefore, to achieve protection in both positive and negative polarity, a second TVS/rectifier pair is connected in anti-parallel to the first.  Pins 1, 2, 7, and 8 are used to protect one data line.  Pins 3, 4, 5, and 6 are used to protect the second data line. 

## LCDA Connection Diagram 

**==> picture [201 x 105] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 8<br>I/O 1 I/O 1<br>2 7<br>3 6<br>I/O 2 I/O 2<br>4 5<br>**----- End of picture text -----**<br>


## I/O Line Protection 

The device is connected as follows: 

- Pins 1 and 2 are tied together and pins 7 and 8 are tied together providing the protection circuit for one I/O line.  Pins 3 and 4 are tied together and pins 5 and 6 are tied together providing the protection circuit for the second I/O line.  Since the device is electrically symmetrical, either side of the connected pairs may be used to protect the lines. The other side of the pair is used to make the ground connection.  The ground connections should be made directly to the ground plane for best results.  The path length is kept as short as possible to reduce the effects of parasitic inductance in the board traces. 

## Circuit Board Layout Recommendations for Suppression of ESD. 

Good circuit board layout is critical for the suppression of ESD induced transients.  The following guidelines are recommended: 

- Place the TVS near the input terminals or connectors to restrict transient coupling. 

- Minimize the path length between the TVS and the protected line. 

- Minimize all conductive loops including power and ground loops. 

- The ESD transient return path to ground should be kept as short as possible. 

- Never run critical signals near board edges. 

- Use ground planes whenever possible. 

**==> picture [239 x 97] intentionally omitted <==**

## Connection Options 

**==> picture [166 x 267] intentionally omitted <==**

**----- Start of picture text -----**<br>
To Protected<br>Device<br>1 8<br>Line 1 Line 1<br>In/Out Ground<br>2 7<br>3 6<br>Line 2 Line 2<br>Ground In/Out<br>4 5<br>From Connector<br>To Protected<br>Device<br>Line 1 1 8<br>In/Out<br>2 7<br>Ground<br>3 6<br>Line 2<br>4 In/Out 5<br>From Connector<br>**----- End of picture text -----**<br>


www.semtech.com 

 2005 Semtech Corp. 

5 

LCDA05 through LCDA24 

## **PROTECTION PRODUCTS** 

## Applications Information _(continued)_ 

## Matte Tin Lead Finish 

Matte tin has become the industry standard lead-free replacement for SnPb lead finishes.  A matte tin finish is composed of 100% tin solder with large grains. Since the solder volume on the leads is small compared to the solder paste volume that is placed on the land pattern of the PCB, the reflow profile will be determined by the requirements of the solder paste. Therefore, these devices are compatible with both lead-free and SnPb assembly techniques.  In addition, unlike other lead-free compositions, matte tin does not have any added alloys that can cause degradation of the solder joint. 

www.semtech.com 

 2005 Semtech Corp. 

6 

LCDA05 through LCDA24 

## PROTECTION PRODUCTS 

## Outline Drawing - SO-8 

**==> picture [491 x 185] intentionally omitted <==**

**----- Start of picture text -----**<br>
A<br>e D h<br>N DIMENSIONS<br>INCHES MILLIMETERS<br>h DIM<br>2X E/2 H A MIN.053 NOM- MAX.069 MIN1.35 NOM- MAX1.75<br>A1 .004 - .010 0.10 - 0.25<br>E1 E PLANEGAGE c A2bc .049.012.007 --- .065.010.020 0.311.250.17 --- 0.511.650.25<br>ccc C 1 2 0.25 L 01 E1D .189.150 .193.154 .197.157 4.803.80 4.903.90 5.004.00<br>2X N/2 TIPS e/2 (L1) E .236 BSC 6.00 BSC<br>e .050 BSC 1.27 BSC<br>B DETAIL A h .010 - .020 0.25 - 0.50<br>L .016 .028 .041 0.40 0.72 1.04<br>L1 (.041) (1.04)<br>D N 8 8<br>01 0° - 8° 0° - 8°<br>aaa C aaa .004 0.10<br>SEATING A2 A SEE DETAIL A bbbccc .008.010 0.250.20<br>PLANE SIDE VIEW<br>C A1<br>bxN<br>bbb C A-B D<br>**----- End of picture text -----**<br>


NOTES: 

1. CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES). 

2. DATUMS           AND           TO BE DETERMINED AT DATUM PLANE-A-B-H- 

3. DIMENSIONS "E1" AND "D" DO NOT INCLUDE MOLD FLASH, PROTRUSIONS OR GATE BURRS. 

4. REFERENCE JEDEC STD MS-012, VARIATION AA. 

## Land Pattern - SO-8 

**==> picture [250 x 90] intentionally omitted <==**

**----- Start of picture text -----**<br>
X<br>DIMENSIONS<br>DIM INCHES MILLIMETERS<br>C (.205) (5.20)<br>(C) G Z G .118 3.00<br>P .050 1.27<br>X .024 0.60<br>Y Y .087 2.20<br>Z .291 7.40<br>P<br>**----- End of picture text -----**<br>


NOTES: 

1. THIS LAND PATTERN IS FOR REFERENCE PURPOSES ONLY. CONSULT YOUR MANUFACTURING GROUP TO ENSURE YOUR COMPANY'S MANUFACTURING GUIDELINES ARE MET. 

2. REFERENCE IPC-SM-782A, RLP NO. 300A. 

www.semtech.com 

 2005 Semtech Corp. 

7 

LCDA05 through LCDA24 

## **PROTECTION PRODUCTS** 

## Ordering Information 

|tr<br>a<br>P<br>r<br>e<br>b<br>m<br>u<br>N|h<br>si<br>ni<br>F<br>d<br>a<br>e<br>L|l<br>e<br>e<br>R<br>r<br>e<br>p<br>yt<br>Q|e<br>zi<br>S<br>l<br>e<br>e<br>R|
|---|---|---|---|
|B<br>T.<br>5<br>0<br>A<br>D<br>C<br>L|b<br>P<br>n<br>S|0<br>0<br>5|h<br>c<br>nI<br>7|
|B<br>T.<br>2<br>1<br>A<br>D<br>C<br>L|b<br>P<br>n<br>S|0<br>0<br>5|h<br>c<br>nI<br>7|
|B<br>T.<br>5<br>1<br>A<br>D<br>C<br>L|b<br>P<br>n<br>S|0<br>0<br>5|h<br>c<br>nI<br>7|
|B<br>T.<br>4<br>2<br>A<br>D<br>C<br>L|b<br>P<br>n<br>S|0<br>0<br>5|h<br>c<br>nI<br>7|
|T<br>B<br>T.<br>5<br>0<br>A<br>D<br>C<br>L|e<br>e<br>rF<br>b<br>P|0<br>0<br>5|h<br>c<br>ni<br>7|
|T<br>B<br>T.<br>2<br>1<br>A<br>D<br>C<br>L|e<br>e<br>rF<br>b<br>P|0<br>0<br>5|h<br>c<br>ni<br>7|
|T<br>B<br>T.<br>5<br>1<br>A<br>D<br>C<br>L|e<br>e<br>rF<br>b<br>P|0<br>0<br>5|h<br>c<br>ni<br>7|
|T<br>B<br>T.<br>4<br>2<br>A<br>D<br>C<br>L|e<br>e<br>rF<br>b<br>P|0<br>0<br>5|h<br>c<br>ni<br>7|
|5<br>0<br>A<br>D<br>C<br>L|b<br>P<br>n<br>S|e<br>b<br>u<br>T<br>/<br>5<br>9|A<br>/<br>N|
|2<br>1<br>A<br>D<br>C<br>L|b<br>P<br>n<br>S|e<br>b<br>u<br>T<br>/<br>5<br>9|A<br>/<br>N|
|5<br>1<br>A<br>D<br>C<br>L|b<br>P<br>n<br>S|e<br>b<br>u<br>T<br>/<br>5<br>9|A<br>/<br>N|
|4<br>2<br>A<br>D<br>C<br>L|b<br>P<br>n<br>S|e<br>b<br>u<br>T<br>/<br>5<br>9|A<br>/<br>N|
|T.<br>5<br>0<br>A<br>D<br>C<br>L|e<br>e<br>rF<br>b<br>P|e<br>b<br>u<br>T<br>/<br>5<br>9|A<br>/<br>N|
|T.<br>2<br>1<br>A<br>D<br>C<br>L|e<br>e<br>rF<br>b<br>P|e<br>b<br>u<br>T<br>/<br>5<br>9|A<br>/<br>N|
|T.<br>5<br>1<br>A<br>D<br>C<br>L|e<br>e<br>rF<br>b<br>P|e<br>b<br>u<br>T<br>/<br>5<br>9|A<br>/<br>N|
|T.<br>4<br>2<br>A<br>D<br>C<br>L|e<br>e<br>rF<br>b<br>P|e<br>b<br>u<br>T<br>/<br>5<br>9|A<br>/<br>N|



## Contact Information 

Semtech Corporation Protection Products Division 200 Flynn Road, Camarillo, CA 93012 Phone: (805)498-2111   FAX (805)498-3804 

www.semtech.com 

 2005 Semtech Corp. 

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