UCLAMP2512T.TCT

## uClamp2512T Lightning and ESD Protection for Gigabit Ethernet Interfaces 

## **PROTECTION PRODUCTS** - MicroClamp **[®]** 

## Description 

The �Clamp[®] 2512T TVS diode is specifically designed to meet the performance requirements of Gigabit Ethernet interfaces.  They are designed to protect sensitive PHY chips from damage or upset due to electrostatic discharge (ESD), lightning, electrical fast transients (EFT), and cable discharge events (CDE). 

The �Clamp2512T is constructed using  Semtech’s low voltage EPD process technology. The EPD process provides low operating voltages with significant reductions in leakage current and capacitance over siliconavalanche diode processes.  The device features low variation in capacitance over bias for stable operation on GbE lines.  This means the �Clamp2512T will introduce zero traffic frame errors on GbE interfaces up to a PHY temperature of 120[o] C (100M Cat 5/5e Cable).  The �Clamp2512T also features high surge capability and is designed to be placed between the magnetics and the PHY chip.  In this configuration, the device can withstand intra-building lightning surges per Telcordia GR-1089. 

The �Clamp2512T is in a 8-pin SLP2010N8T package. It measures 2.0 x 1.0 x 0.4mm.  The leads are spaced at a pitch of 0.5mm and are finished with lead-free NiPdAu.  Each device will protect two line pairs operating at 2.5 volts.  It gives the designer the flexibility to protect multiple lines in applications where space is at a premium.  The small size and easy layout of the uClamp2512T make it ideal for use in RJ-45 connectors with integrated magnetics. 

## Typical Application 

**==> picture [258 x 175] intentionally omitted <==**

**----- Start of picture text -----**<br>
TP1+<br>RJ-45<br>Connector TP1-<br>1 TP2+<br>2<br>3<br>TP2-<br>4<br>5 TP3+<br>6<br>7<br>8 TP3-<br>TP4+<br>TP4-<br>**----- End of picture text -----**<br>


**==> picture [171 x 10] intentionally omitted <==**

**----- Start of picture text -----**<br>
GBE Integrated Magnetics Module<br>**----- End of picture text -----**<br>


## Features 

- High ESD withstand Voltage: +/-30kV (Contact/Air) per IEC 61000-4-2 

- Able to withstand over 1000 ESD strikes per IEC 61000-4-2 Level 4 

- Flow-through design simplifies layout 

- Protects two line pairs 

- Low reverse current: 10nA typical (VR=2.5V) 

- Low variation in capacitance vs. bias voltage: 1.3pF Typical (VR = 0 to 2.5V) 

- Working voltage: 2.5V 

- Solid-state silicon-avalanche technology 

## Mechanical Characteristics 

- SLP2010N8T package 

- Pb-Free, Halogen Free, RoHS/WEEE Compliant 

- Nominal Dimensions: 2.0 x 1.0 x 0.4 mm 

- Lead Finish: NiPdAu 

- Molding compound flammability rating: UL 94V-0 

- Marking: Marking code 

- Packaging: Tape and Reel 

## Applications 

- 10/100/1000 Ethernet 

- Integrated magnetics/RJ-45 connectors 

- LAN/WAN Equipment 

- Security Cameras 

- Industrial Controls 

- Notebooks & Desktop Computers 

## Schematic & PIN Configuration 

**==> picture [49 x 51] intentionally omitted <==**

**----- Start of picture text -----**<br>
1<br>2<br>**----- End of picture text -----**<br>


**==> picture [67 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
SLP2010N8T<br>**----- End of picture text -----**<br>


www.semtech.com 

Revision 2/18/2010 

1 

uClamp2512T 

## PROTECTION PRODUCTS 

## Absolute Maximum Rating 

|PROTECTION PRODUCTS<br>Absolute Maximum Rating||||
|---|---|---|---|
|g<br>n<br>it<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|
|)s<br>�<br>0<br>2<br>/<br>8<br>=<br>p<br>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|P k<br>p|0<br>0<br>1|stt<br>a<br>W|
|(<br>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<br>)s<br>�<br>0<br>2<br>/<br>8<br>=<br>p<br>t|I p<br>p|0<br>1|s<br>p<br>m<br>A|
|)riA<br>(<br>2<br>-<br>4<br>-<br>0<br>0<br>0<br>1<br>6<br>C<br>EI<br>r<br>e<br>p<br>D<br>S<br>E<br>)tc<br>a<br>t<br>n<br>o<br>C<br>(<br>2<br>-<br>4<br>-<br>0<br>0<br>0<br>1<br>6<br>C<br>EI<br>r<br>e<br>p<br>D<br>S<br>E|V<br>D<br>S<br>E|0<br>3<br>-/<br>+<br>0<br>3<br>-/<br>+|V<br>k|
|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>8<br>+<br>o<br>t<br>0<br>4<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 (T=25[o] C) 

|Electrical Characteristics (T=25oC)|Electrical Characteristics (T=25oC)|Electrical Characteristics (T=25oC)|Electrical Characteristics (T=25oC)|Electrical Characteristics (T=25oC)|Electrical Characteristics (T=25oC)|Electrical Characteristics (T=25oC)|
|---|---|---|---|---|---|---|
||||||||
|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>ni<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>.<br>2|V|
|e<br>g<br>a<br>tlo<br>V<br>h<br>g<br>u<br>o<br>r<br>h<br>T-<br>h<br>c<br>n<br>u<br>P|V T<br>P|I T<br>P<br>A<br>�<br>2<br>=|7<br>.<br>2|1.<br>3|6<br>.<br>3|V|
|e<br>g<br>a<br>tlo<br>V<br>k<br>c<br>a<br>B<br>-<br>p<br>a<br>n<br>S|V B<br>S|I B<br>S<br>A<br>m<br>0<br>5<br>=|8<br>.<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>V<br>5<br>.<br>2<br>=||1<br>0<br>.<br>0|5<br>0<br>.<br>0|A<br>�|
|e<br>g<br>a<br>tlo<br>V<br>g<br>nip<br>m<br>alC|VC|I P<br>P<br>s<br>�<br>0<br>2<br>/<br>8<br>=<br>p<br>t<br>,<br>A<br>1<br>=|||8<br>.<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>s<br>�<br>0<br>2<br>/<br>8<br>=<br>p<br>t<br>,<br>A<br>0<br>1<br>=|||2<br>.<br>0<br>1|V|
|h<br>ti<br>w<br>e<br>c<br>n<br>a<br>tic<br>a<br>p<br>a<br>c<br>ni<br>n<br>oit<br>air<br>a<br>V<br>s<br>aib<br>e<br>sr<br>e<br>v<br>e<br>r<br>1||d<br>n<br>a<br>7<br>,<br>2<br>o<br>t<br>8<br>,<br>1<br>s<br>niP<br>5<br>,<br>4<br>o<br>t<br>6<br>,<br>3<br>s<br>nip<br>V<br>5<br>.<br>2<br>o<br>t<br>0<br>=<br>R<br>V<br>z<br>H<br>M<br>1<br>=<br>f||3<br>.<br>1||F<br>p|
|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>7<br>,<br>2<br>o<br>t<br>8<br>,<br>1<br>s<br>niP<br>5<br>,<br>4<br>o<br>t<br>6<br>,<br>3<br>s<br>nip<br>VR<br>z<br>H<br>M<br>1<br>=<br>f<br>,V<br>5<br>.<br>2<br>=||5<br>.<br>4|6|F<br>p|



## Notes: 

- 1) This parameter guaranteed by design and characterization and is not production tested 

www.semtech.com 

© 2010 Semtech Corp. 

2 

uClamp2512T 

## PROTECTION PRODUCTS 

## Non-Repetitive Peak Pulse Power vs. Pulse Time 

**==> picture [244 x 364] intentionally omitted <==**

**----- Start of picture text -----**<br>
1<br>PTTNE TTT]|<br>P| PN EP<br>0.1 PAININ UTE ETA ETI<br>—— ee<br>ee<br>eel<br>PCS<br>PTE TTT EPP<br>0.01 PTET UIE TINT<br>0.1 1 10 100 1000<br>Pulse Duration - tp ( Oo s)<br>Normalized Junction Capacitance vs. Reverse Voltage<br>2<br>1.8<br>Te<br>1.6 PEEL ELL EL EEE EEEEEE ELE<br>1.4 PEELE ELE<br>1.2 Pe<br>1<br>SO RRERREE REO RROR REO ERRRRREED<br>0.8<br>HE Rhee ee SRE RER ER EREEEEE<br>0.6<br>0.40.2 PEELEfotPELE EERE EEEfapELEC ediEEEpapa.EL<br>f = 1 MHz<br>0 PCECEPEEEEPEPE PEEP<br>0 0.5 1 1.5 2 2.5 3<br>Reverse Voltage (VR)<br> (kW)<br>PP<br>Peak Pulse Power - P<br>) / Cj(VCj(V=0V)RR<br>**----- End of picture text -----**<br>


## Normalized Junction Capacitance vs. Reverse Voltage 

## ESD Clamping (8kV Contact per IEC 61000-4-2) 

Note: Data is taken with a 10x attenuator 

## Clamping Voltage vs. Peak Pulse Current 

**==> picture [239 x 156] intentionally omitted <==**

**----- Start of picture text -----**<br>
10<br>9<br>8 ree EE ELLE EE<br>7 PreeEOE<br>ee eer<br>6<br>5 PEEa a Dc OG OO |<br>a<br>4<br>EH<br>3<br>Bo Waveform<br>2 Po  Parameters:<br>1 Perr tr = 8μs |<br>td = 20μs<br>0 FREER EER EEE EEEEE EEE |<br>0 2 4 6 8 10 12<br>Peak Pulse Current - IPP (A)<br> (V)<br>C<br>Clamping Voltage -V<br>**----- End of picture text -----**<br>


## Typical Insertion Loss (S21) 

**==> picture [238 x 193] intentionally omitted <==**

**----- Start of picture text -----**<br>
CH1 S21 LOG 6 dB / REF 0 dB<br>1: -1.8892 dB<br>800 MHz<br>2: -2.1247 dB<br> 0 dB  Wt 900 MHz<br>suit<br>-6 dB  1 2 3: -6.9338 dB<br>1 3 1.8 GHz<br> -12 dB  EAT AN<br>4: -15.047 dB<br> -18 dB  ATT 45     2.5 GHz<br> -24 dB  EEA AA<br> -30 dB  IN AS ATA<br> -36 dB  AT<br> -42 dB  REALTY<br> -48 dB<br>1 10 100  1 3<br> MHz   MHz  MHz  GHz  GHz<br>START. 030 MHz STOP 3000.000000 MHz<br>**----- End of picture text -----**<br>


## ESD Clamping (-8kV Contact per IEC 61000-4-2) 

Note: Data is taken with a 10x attenuator 

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© 2010 Semtech Corp. 

3 

uClamp2512T 

## PROTECTION PRODUCTS 

## Applications Information 

## Gigabit Ethernet Protection Solutions 

Ethernet systems with connections external to the building are subject to high-level transient threats. This type of equipment may even be required to meet the surge immunity requirements of Telcordia GR1089.  Reliable protection of the Ethernet transceiver requires a device that can absorb the expected transient energy, clamp the incoming surge to a safe level, and yet remain transparent to the system under normal operation.  The uClamp2512T has been designed to meet these demanding requirements. Typical IEEE 802.3 template test results for a GbE circuit with uClamp2512T are shown in Figure 2. 

## Transient Protection 

When designing Ethernet protection, the entire system must be considered.  An Ethernet port includes interface magnetics in the form of transformers and common mode chokes. Transformers and chokes can be discrete components, but integrated solutions that include the RJ-45 connector, resistors, capacitors, and protection are also available.  In either case, the transformer will provide a high level of common mode isolation to external voltages, but no protection for metallic (line-to-line) surges.  During a metallic transient event, current will flow into one line, through the transformer and back to the source. As the current flows, it charges the windings of the transformer on the line side.  Once the surge is removed, the windings on the line side will stop 

charging and will transfer its stored energy to the IC side where the PHY IC is located.  The magnitude and duration of the surge is attenuated by the inductance of the magnetics.  The amount of attenuation will vary by vendor and configuration of the magnetics.  It is this transferred energy that must be clamped by the protection circuitry. 

A typical protection scheme which utilizes the uClamp2512T is shown in Figure 1.  One device is placed across two line pairs and is located on the PHY side of the transformer as close to the magnetics as possible.  This is done to minimize parasitic inductance and improve clamping performance.  In this design, the isolation voltage of the transformer is relied upon to suppress common mode lightning surges.  High voltage capacitors and resistors are commonly utilized from the center tap to ground to aid in transient protection. Metallic surges will be transferred in some form to the PHY side and clamped by the uClamp2512T.  The uClamp2512T will turn on when the voltage across it exceeds the punch-through voltage of the device.  Low voltage turn on is important since many PHY chips have integrated ESD protection structures.  These structures are for protection of the device during manufacture and are not designed to handle large amounts of energy.  Should they turn on before the external protection, they can be damaged resulting in failure of the PHY chip. 

**==> picture [528 x 180] intentionally omitted <==**

**----- Start of picture text -----**<br>
TP1+<br>RJ-45<br>Connector TP1-<br>TP2+<br>1<br>2<br>3<br>TP2-<br>4 Ethernet<br>5 TP3+ PHY<br>6<br>7<br>TP3-<br>8<br>TP4+<br>TP4-<br>**----- End of picture text -----**<br>


Figure 1 - GbE Protection to Lightning, ESD, and CDE 

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4 

© 2010 Semtech Corp. 

uClamp2512T 

## PROTECTION PRODUCTS 

## Applications Information 

Point A 

Point B 

Point C 

Point D 

Point F 

Point H 

Figure 2 - Typical IEEE 802.3 Template Test Results (With uClamp2512T) 

www.semtech.com 

© 2010 Semtech Corp. 

5 

uClamp2512T 

## PROTECTION PRODUCTS 

## Applications Information - Spice Model 

Spice Model 

|s<br>r<br>e<br>t<br>e<br>m<br>a<br>r<br>a<br>P<br>e<br>ci<br>p<br>S<br>T<br>2<br>1<br>5<br>2<br>p<br>m<br>al<br>C<br>u|s<br>r<br>e<br>t<br>e<br>m<br>a<br>r<br>a<br>P<br>e<br>ci<br>p<br>S<br>T<br>2<br>1<br>5<br>2<br>p<br>m<br>al<br>C<br>u|s<br>r<br>e<br>t<br>e<br>m<br>a<br>r<br>a<br>P<br>e<br>ci<br>p<br>S<br>T<br>2<br>1<br>5<br>2<br>p<br>m<br>al<br>C<br>u|s<br>r<br>e<br>t<br>e<br>m<br>a<br>r<br>a<br>P<br>e<br>ci<br>p<br>S<br>T<br>2<br>1<br>5<br>2<br>p<br>m<br>al<br>C<br>u|
|---|---|---|---|
|r<br>e<br>t<br>e<br>m<br>a<br>r<br>a<br>P|ti<br>n<br>U|)<br>S<br>V<br>T<br>(<br>1<br>D|)<br>S<br>V<br>T<br>(<br>2<br>D|
|S<br>I|p<br>m<br>A|0<br>2<br>-<br>E<br>1|0<br>2<br>-<br>E<br>1|
|V<br>B|tlo<br>V|2<br>.<br>2|2<br>.<br>2|
|J<br>V|tlo<br>V|7<br>.<br>0|7<br>.<br>0|
|S<br>R|m<br>h<br>O|3<br>.<br>0|3<br>.<br>0|
|V<br>B<br>I|p<br>m<br>A|3<br>-<br>E<br>1|3<br>-<br>E<br>1|
|O<br>J<br>C|d<br>a<br>r<br>a<br>F|2<br>1<br>-<br>E<br>2<br>1|2<br>1<br>-<br>E<br>2<br>1|
|T<br>T|c<br>e<br>s|9<br>-<br>E<br>1<br>4<br>5<br>.<br>2|9<br>-<br>E<br>1<br>4<br>5<br>.<br>2|
|M|--|5<br>0<br>.<br>0|5<br>0<br>.<br>0|
|N|--|1.<br>1|1.<br>1|
|G<br>E|V<br>e|1<br>1.<br>1|1<br>1.<br>1|



www.semtech.com 

© 2010 Semtech Corp. 

6 

uClamp2512T 

## PROTECTION PRODUCTS 

## Outline Drawing - SLP2010N8T 

**==> picture [541 x 312] intentionally omitted <==**

**----- Start of picture text -----**<br>
B<br>A D<br>DIMENSIONS<br>MILLIMETERS<br>DIM<br>PIN 1 E MIN NOM MAX<br>INDICATOR A 0.37 0.40 0.43<br>(LASER MARK) A1A2 0.00 (0.13)0.02 0.05<br>b 0.20 0.25 0.30<br>D 1.90 2.00 2.10<br>E 0.90 1.00 1.10<br>e 0.50 BSC<br>L 0.30 0.35 0.40<br>A SEATING R 0.05 0.10 0.15<br>aaa C PLANE aaaN 0.088<br>A2 A1 C bbb 0.10<br>1 2<br>E/2 LxN<br>N<br>R bxN<br>bbb C A B<br>e/2<br>e<br>D/2<br>NOTES:<br>1. CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES).<br>**----- End of picture text -----**<br>


## Land Pattern - SLP2010N8T 

**==> picture [324 x 127] intentionally omitted <==**

**----- Start of picture text -----**<br>
DIMENSIONS<br>DIM MILLIMETERS<br>C (0.90)<br>(C) G Z G 0.25<br>P 0.50<br>Y X 0.30<br>Y 0.65<br>Z 1.55<br>P<br>X<br>P/2<br>NOTES:<br>**----- End of picture text -----**<br>


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. 

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© 2010 Semtech Corp. 

7 

uClamp2512T 

## PROTECTION PRODUCTS 

## Marking Code 

## 2512T 

## PIN 1 INDICATOR YYWW 

## Ordering Information 

|g<br>n<br>i<br>k<br>r<br>o<br>W<br>e<br>g<br>a<br>tl<br>o<br>V|r<br>e<br>p<br>y<br>t<br>Q<br>l<br>e<br>e<br>R|l<br>e<br>e<br>R<br>e<br>zi<br>S|
|---|---|---|
|V<br>5<br>.<br>2|0<br>0<br>0<br>,<br>3|h<br>c<br>nI<br>7|



## Notes: 

- 1) MicroClamp, uClamp and �Clamp are trademarks of Semtech Corporation 

YYWW = Date Code 

## Tape and Reel Specification 

**==> picture [64 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
Pin 1 Location<br>**----- End of picture text -----**<br>


User Direction of feed 

## Device Orientation in Tape 

|A|A|A|0|0|0<br>B||||0<br>K|||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|-/<br>+<br>1<br>2<br>.<br>1||.<br>0||m<br>m<br>5<br>0|5<br>0<br>.<br>0<br>-/<br>+<br>1<br>2<br>.<br>2|m<br>m<br>.<br>0||6<br>6|m<br>m<br>5<br>0<br>.<br>0<br>-/<br>+|||||||||||||||||
|||||||||||||||||||||||||||
|e<br>p<br>a<br>T<br>h<br>t<br>di<br>W||||)x<br>a<br>M<br>(<br>,<br>B|D|1<br>D|||E|||F||P||0<br>P|||2<br>P|||T|||W|
|m<br>m<br>8||||m<br>m<br>2<br>.<br>4<br>)<br>5<br>6<br>1.(|m<br>m<br>1.<br>0<br>+<br>5<br>.<br>1<br>m<br>m<br>0<br>.<br>0<br>-<br>5<br>0<br>0<br>.<br>+<br>9<br>5<br>.<br>0<br>(<br>)<br>0<br>0<br>0<br>.-|m<br>m<br>4<br>.<br>0<br>5<br>2<br>.<br>0<br>±<br>)<br>1<br>3<br>0<br>.(||0<br>1.<br>±<br>0<br>5<br>7<br>.<br>1<br>m<br>m<br>)<br>4<br>0<br>0<br>.<br>±<br>9<br>6<br>0<br>.(|||5<br>0<br>.<br>0<br>±<br>5<br>.<br>3<br>m<br>m<br>)<br>2<br>0<br>0<br>.<br>±<br>8<br>3<br>1.(||0<br>1.<br>0<br>±<br>0<br>.<br>4<br>m<br>m<br>-<br>0<br>0<br>.<br>±<br>7<br>5<br>1.(<br>)<br>4||1.<br>0<br>±<br>0<br>.<br>4<br>m<br>m<br>-<br>0<br>0<br>.<br>±<br>7<br>5<br>1.(<br>)<br>4||.(|5<br>0<br>.<br>0<br>±<br>0<br>.<br>2<br>m<br>m<br>)<br>2<br>0<br>0<br>.<br>±<br>9<br>7<br>0||2<br>0<br>.<br>0<br>±<br>4<br>5<br>2<br>.<br>0<br>)<br>6<br>1<br>0<br>.(<br>m<br>m||||m<br>m<br>0<br>.<br>8<br>m<br>m<br>3<br>.<br>0<br>+<br>m<br>m<br>1.<br>0<br>-<br>)<br>2<br>1<br>0<br>.<br>±<br>2<br>1<br>3<br>.(||



## Contact Information 

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

www.semtech.com 

© 2010 Semtech Corp. 

8