DV150K4032R2

## **Features** 

- n Formerly a                                product KEKOV/\RICON 

- n Three model sizes available - 3255, 4032 

- and 2220 (available on request) 

- n Leadless chip form - zero inductance facilitating extremely fast response time to transient surges 

- n Broad range of current and energy handling capabilities 

- n +125 °C Continuous operating temperature 

- n Tolerant of common water cleaning procedures and humidity (climatic category 55/125/56) 

- n Available in tape and reel packaging for automatic pick-and-place 

- n RoHS compliant* 

## **DV Series - Medium Voltage Varistors** POURNS ~~ET~~ 

## ~~**General Information**~~ 

The DV series of medium voltage varistors is designed to protect electronic equip ment against high voltage surges in the medium voltage region. They offer excel lent transient energy absorption due to improved energy volume distribution and power dissipation. Compared to other Bourns[®] medium voltage SMD varistors, DV series varistors have a very low profile. 

DV series varistors are designed for surface mounting and are available In two model sizes - 3225 and 4032 (the 2220 size is also available upon request). These transient voltage suppressors cover an operating voltage Vrms from 11 to 300 V, featuring maximum surge currents from 100 A to 1200 A. 

## ~~**Agency Recognition**~~ 

|**Standard**<br>File Number|**UL 1449**<br>E313168**|
|---|---|



- ** Not all rated voltages are UL recognized; check the file for details. 

## ~~**Varistor Symbol**~~ 

## ~~**Absolute Maximum Ratings**~~ 

|**Parameter**|**Value**|**Units**|
|---|---|---|
|**Continuous:**<br>Steady State Applied Voltage<br>DC Voltage Range (Vdc)<br>AC Voltage Range(Vrms)|14 to 385<br>11 to 300|V<br>V|
|**Transient:**<br>Non-Repetitive Surge Current, 8/20 µs Waveform (Imax)<br>Non-Repetitive Surge Energy,10/1000µs Waveform(Wmax)|100 to 1200<br>0.6 to 30|A<br>J|
|OperatingAmbient Temperature|-40 to +125|°C|
|Storage Temperature Range|-55 to +150|°C|
|Threshold Voltage Temperature Coefficient|< +0.05|%/°C|
|erature Coefficient<br>Response Time|< 5|ns|
|Climatic Category|55 / 125 / 56||



Tel: +886-2 2562-4117 • Email: asiacus@bourns.com **Asia-Pacific: EMEA:** Tel: +36 88 885 877 • Email: eurocus@bourns.com **The Americas:** Tel: +1-951 781-5500 • Email: americus@bourns.com **www.bourns.com** 

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


## ~~**Index**~~ 

|Features ......................................................1|
|---|
|General Information .................................... 1|
|Varistor Symbol ........................................... 1|
|Absolute Maximum Ratings ........................ 1|
|Device Ratings ............................................ 2|
|Product Dimensions .................................3-4|
|How to Order ............................................... 4|
|Typical Part Marking ................................... 4|
|Protection Level/|
|Pulse Rating Curves ................................5-6|
|Soldering Pad Configuration ....................... 7<br>Packaging Specifications  ........................... 8<br>Soldering Recommendations for<br>SMD Components .................................. 9-11<br>Reliability Testing Procedures ..............12-13<br>~~-~~|
|Terminology ............................................... 14|
|Legal Disclaimer........................................ 15|



**WARNING  Cancer and Reproductive Harm -** www.P65Warnings.ca.gov 

*RoHS Directive 2015/863, Mar 31, 2015 and Annex. 

Specifications are subject to change without notice. 

Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **DV Series - Medium Voltage Varistors3312 - 2 mm SMD Trimming Potentiometer** 

## ~~**Device Ratings**~~ 

**==> picture [508 x 42] intentionally omitted <==**

**----- Start of picture text -----**<br>
Model Vrms Vdc @ 1 mAVn Vc Ic 10/1000 µsWmax max.P   8/20 µsImax @ 1 kHzC Typ.<br>V V V V A J W A pF<br>**----- End of picture text -----**<br>


|**Model**|**Vrms**|**Vdc**|**Vn**<br>**@ 1 mA**|**Vc**|**Ic**|**Wmax**<br>**10/1000 µs**|**P**<br>**max.**|**Imax**<br>**8/20 µs**|**C Typ.**<br>**@ 1 kHz**|
|---|---|---|---|---|---|---|---|---|---|
||V|V|V|V|A|J|W|A|pF|
|||||||||||
|DV 11 K 3225|11|14|18|36|2.5|0.6|0.01|100|2500|
|DV 11 K 4032|11|14|18|36|5|1.1|0.02|250|4300|
|DV 14 K 3225|14|18|22|43|2.5|0.7|0.01|100|2200|
|DV 14 K 4032|14|18|22|43|5|1.3|0.02|250|3500|
|DV 17 K 3225|17|22|27|53|2.5|0.9|0.01|100|1750|
|DV 17 K 4032|17|22|27|53|5|1.6|0.02|250|3000|
|DV 20 K 3225|20|26|33|65|2.5|1.1|0.01|100|1650|
|DV 20 K 4032|20|26|33|65|5|2.0|0.02|250|2300|
|DV 25 K 3225|25|31|39|77|2.5|1.2|0.01|100|1500|
|DV 25 K 4032|25|31|39|77|5|2.4|0.02|250|1900|
|DV 30 K 3225|30|38|47|93|2.5|1.5|0.01|100|1000|
|DV 30 K 4032|30|38|47|93|5|2.8|0.02|250|1600|
|DV 35 K 3225|35|45|56|110|2.5|1.8|0.01|100|800|
|DV 35 K 4032|35|45|56|110|5|3.4|0.02|250|1400|
|DV 40 K 3225|40|56|68|135|2.5|2.2|0.01|100|700|
|DV 40 K 4032|40|56|68|135|5|4.1|0.02|250|1200|
|DV 50 K 3225|50|65|82|135|5|2.5|0.10|400|400|
|DV 50 K 4032|50|65|82|135|10|6.5|0.25|1200|580|
|DV 60 K 3225|60|85|100|165|5|3.0|0.10|400|300|
|DV 60 K 4032|60|85|100|165|10|7.0|0.25|1200|530|
|DV 75 K 3225|75|100|120|200|5|4.0|0.10|400|240|
|DV 75 K 4032|75|100|120|200|10|9.0|0.25|1200|480|
|DV 95 K 3225|95|125|150|250|5|6.0|0.10|400|210|
|DV 95 K 4032|95|125|150|250|10|11.0|0.25|1200|310|
|DV 115 K 3225|115|150|180|300|5|6.5|0.10|400|200|
|DV 115 K 4032|115|150|180|300|10|13.0|0.25|1200|270|
|DV 130 K 3225|130|170|205|340|5|7.0|0.10|400|150|
|DV 130 K 4032|130|170|205|340|10|15.0|0.25|1200|250|
|DV 140 K 3225|140|180|220|360|5|7.5|0.10|400|180|
|DV 140 K 4032|140|180|220|360|10|18.0|0.25|1200|240|
|DV 150 K 3225|150|200|240|395|5|9.0|0.10|400|150|
|DV 150 K 4032|150|200|240|395|10|18.5|0.25|1200|220|
|DV 175 K 3225|175|225|270|455|5|9.5|0.10|400|130|
|DV 175 K 4032|175|225|270|455|10|21.0|0.25|1200|200|
|DV 230 K 3225|230|300|360|595|5|10.0|0.10|400|110|
|DV 230 K 4032|230|300|360|595|10|23.0|0.25|1200|170|
|DV 250 K 3225|250|320|390|650|5|11.0|0.10|400|100|
|DV 250 K 4032|250|320|390|650|10|25.0|0.25|1200|160|
|DV 275 K 3225|275|350|430|710|5|13.0|0.10|400|90|
|DV 275 K 4032|275|350|430|710|10|29.0|0.25|1200|150|
|DV 300 K 3225|300|385|470|775|5|15.0|0.10|400|85|
|DV 300 K 4032|300|385|470|775|10|30.0|0.25|1200|140|



Specifications are subject to change without notice. 

Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **DV Series - Medium Voltage Varistors3312 - 2 mm SMD Trimming Potentiometer** 

## ~~**Product Dimensions**~~ 

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**----- Start of picture text -----**<br>
Dimension 0.5 ± 0.25<br>Model [  0.5 ] [  0.4 ] (.020 ± .010)<br>L  ± (.020) W  ± (.016) t  (Max.)<br>8.0  6.3  1.4 W<br>DV 11 K 3225<br>(.315) (.248) (.055)<br>10.0 8.0 1.4<br>DV 11 K 4032<br>(.394) (.315) (.055)<br>DV 14 K 3225 (.3158.0 ) (.2486.3 ) (.0631.6 ) L t<br>**----- End of picture text -----**<br>


|**Model**|**Dimension**|**Dimension**|**Dimension**|**Dimension**|**Dimension**|
|---|---|---|---|---|---|
||**L**± 0.5<br> (.020)||**W**± 0.4<br> (.016)|**t**(Max.)||
|DV 11 K 3225|8.0<br>(.315)||6.3<br>(.248)|1.4<br>(.055)||
|DV 11 K 4032|10.0<br>(.394)||8.0<br>(.315)|1.4<br>(.055)||
|DV 14 K 3225|8.0<br>(.315)||6.3<br>(.248)|1.6<br>(.063)||
|DV 14 K 4032||10.0<br>(.394)|8.0<br>(.315)|1.6<br>(.063)|DIMENSIONS:<br>MM<br>(INCHES)|
|DV 17 K 3225||8.0<br>(.315)|6.3<br>(.248)|1.8<br>(.071)||
|DV 17 K 4032||10.0<br>(.394)|8.0<br>(.315)|1.8<br>(.071)||
|DV 20 K 3225||8.0<br>(.315)|6.3<br>(.248)|1.8<br>(.071)||
|DV 20 K 4032||10.0<br>(.394)|8.0<br>(.315)|1.8<br>(.071)||
|DV 25 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)||
|DV 25 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)||
|DV 30 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)||
|DV 30 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)||
|DV 35 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)||
|DV 35 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)||
|DV 40 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)||
|DV 40 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)||
|DV 50 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)||
|DV 50 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)||
|DV 60 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)||
|DV 60 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)||
|DV 75 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)||
|DV 75 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)||
|DV 95 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)||
|DV 95 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)||
|DV 115 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)||
|DV 115 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)||
|DV 130 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)||
|DV 130 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)||
|DV 140 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)||
|DV 140 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)||



Specifications are subject to change without notice. 

Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **CDDFN5-0504N - TVS/Steering Diode ArrayDV Series - Medium Voltage Varistors** 

## ~~**Product Dimensions (Continued)**~~ 

**==> picture [331 x 43] intentionally omitted <==**

**----- Start of picture text -----**<br>
Dimension<br>Model<br>L  ± [   0.5 ] (.020) W  ± [   0.4 ] (.016) t  (Max.)<br>8.0  6.3  2.0<br>**----- End of picture text -----**<br>


|**Model**|**Dimension**|**Dimension**|**Dimension**|**Dimension**|
|---|---|---|---|---|
||**L**±0.5<br> (.020)||**W**±0.4<br> (.016)|**t**(Max.)|
||8.0||6.3|2.0|
|DV 150 K 3225||(.315)|(.248)|(.079)|
|DV 150 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)|
|DV 175 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)|
|DV 175 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)|
|DV 230 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)|
|DV 230 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)|
|DV 250 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)|
|DV 250 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)|
|DV 275 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)|
|DV 275 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)|
|DV 300 K 3225||8.0<br>(.315)|6.3<br>(.248)|2.0<br>(.079)|
|DV 300 K 4032||10.0<br>(.394)|8.0<br>(.315)|2.0<br>(.079)|



## ~~**How to Order**~~ 

**DV20K3225R2yy** 

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**----- Start of picture text -----**<br>
0.5 ± 0.25<br>(.020 ± .010)<br>W<br>t<br>L<br>MM<br>DIMENSIONS:<br>(INCHES)<br>**----- End of picture text -----**<br>


## ~~**Typical Part Marking**~~ 

No marking. 

Series Designator DV = DV Series Max. Continuous Operating Voltage (Vrms) Vn Tolerance K = ±10 % Model Size • 3225 • 4032 Packaging R2 = Reel 

Special Requirements • yy = Unique two-digit suffix assigned to each customer requesting special parameters. Please contact Bourns for more information. 

## **Instructions for Creating Orderable Part Number:** 

## 1) Start with base part number in characteristics table (example: DV20K3225). 

2) Add Packaging: R2 (example part number becomes DV20K3225R2). 3) Part number can have no spaces or lower case letters. 

Specifications are subject to change without notice. 

Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **3312 - 2 mm SMD Trimming PotentiometerDV Series - Medium Voltage Varistors3312 - 2 mm SMD Trimming Potentiometer** 

## ~~**Protection Level**~~ 

## **Model Size 3225 - (DV11 ~ DV300)** 

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**----- Start of picture text -----**<br>
4000<br>2000<br>1000<br>800<br>600<br>400<br>200<br>100<br>80<br>60<br>40<br>20<br>10<br>8<br>6<br>4<br>10 [-5] 10 [-4] 10 [-3] 10 [-2] 10 [-1] 10 [0] 10 [1] 10 [2] 10 [3] 10 [4]<br>I (Amps)<br>V (Volts)<br>**----- End of picture text -----**<br>


## ~~**Pulse Rating Curves**~~ 

## **Model Size 3225 - (DV11 ~ DV40)** 

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**----- Start of picture text -----**<br>
1 0 [4]<br>5<br>10 [3]<br>5<br>10 [2]<br>5<br>10 [1]<br>5<br>10 [0]<br>5<br>1 0 [-1]<br>10 [1] 5 10 [2] 5 10 [3] 5 10 [4]<br>tp (µs)<br> (Amps)<br>Imax<br>**----- End of picture text -----**<br>


## **Model Size 3225 - (DV50 ~ DV300)** 

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**----- Start of picture text -----**<br>
10 [4]<br>5<br>10 [3]<br>5<br>10 [2]<br>5<br>10 [1]<br>5<br>10 [0]<br>5<br>10 [-1]<br>10 [1] 5 10 [2] 5 10 [3] 5 10 [4]<br>tp (µs)<br> (Amps)<br>Imax<br>**----- End of picture text -----**<br>


Specifications are subject to change without notice. 

Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **DV Series - Medium Voltage Varistors3312 - 2 mm SMD Trimming Potentiometer** 

**==> picture [479 x 388] intentionally omitted <==**

**----- Start of picture text -----**<br>
Pulse Rating Curves<br>Model Size 4032 - (DV11 ~ DV40)<br>4000 10 [4]<br>5<br>2000 10 [3]<br>5<br>1000<br>800 10 [2]<br>600 5<br>400<br>10 [1]<br>5<br>200<br>10 [0]<br>100 5<br>80<br>60 10 [-1]<br>10 [1] 5 10 [2] 5 10 [3] 5 10 [4]<br>40<br>tp (µs)<br>20<br>Model Size 4032 - (DV50 ~ DV300)<br>10<br>8 10 [[4]]<br>6 5<br>4 10 [[3]]<br>10 [-5] 10 [-4] 10 [-3] 10 [-2] 10 [-1] 10 [0] 10 [1] 10 [2] 10 [3] 10 [4]<br>5<br>I (Amps)<br>10 [[2]]<br>5<br>10 [[1]]<br>5<br>10 [[0]]<br>5<br>10 [[-1]]<br>10 [[1]] 5 10 [[2]] 5 10 [[3]] 5 10 [[4]]<br>tp (µs)<br> (Amps)<br>V (Volts) Imax<br> (Amps)<br>Imaxmax<br>**----- End of picture text -----**<br>


## ~~**Protection Level**~~ 

## **Model Size 4032 - (DV11 ~ DV300)** 

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**----- Start of picture text -----**<br>
10 [[4]]<br>5<br>10 [[3]]<br>5<br>10 [[2]]<br>5<br>10 [[1]]<br>5<br>10 [[0]]<br>5<br>10 [[-1]]<br>10 [[1]] 5 10 [[2]] 5 10 [[3]] 5 10 [[4]]<br>tp (µs)<br> (Amps)<br>Imaxmax<br>**----- End of picture text -----**<br>


Specifications are subject to change without notice. 

Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **DV Series - Medium Voltage Varistors3312 - 2 mm SMD Trimming Potentiometer** 

## ~~**Soldering Pad Confguration**~~ 

|||||||0.5 ± 0|0.5 ± 0|t<br>.25<br>.010)<br>A|t<br>.25<br>.010)<br>A|B|B|C|C|B|B|B|MM<br>(INCHES)|MM<br>(INCHES)|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|||||||(.020 ±|||||||||||||
|||W|||||||||||||||||
||||||||||||||||||||
|||||L|||||||||||||||
||||||||||||||||||||
||||||||||||||||||||
|**Size**|**Voltage**<br>**Range**<br>**(V)**|||||||||||**Dimension**|||||||
||||**L**± 0.5<br> (.020)|||||**W**± 0.4<br> (.016)|**M**± 0.25<br> (.010)|<br>|**t**(Max.)||**A**||**B**|**C**||**D**|
|3225|11 to 300|||8.0<br>(.315)||||6.3<br>(.248)|0.5<br>(.020)||2.0<br>(.079)||6.8<br>(.268)||1.5<br>(.059)|6.5<br>(.256)||9.5<br>(.374)|
|4032|11 to 300|||10.0<br>(.394)||||8.0<br>(.315)|0.5<br>(.020)||2.0<br>(.079)||6.8<br>(.268)||1.5<br>(.059)|8.7<br>(.343)||11.7<br>(.461)|



Specifications are subject to change without notice. Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **CDDFN5-0504N - TVS/Steering Diode ArrayDV Series - Medium Voltage Varistors3312 - 2 mm SMD Trimming Potentiometer** 

## ~~**Packaging Specifcations**~~ 

Conforms to IEC Publication 286-3 Ed. 4: 2007-06 

**==> picture [396 x 151] intentionally omitted <==**

**----- Start of picture text -----**<br>
Tape MAX. (.024)0.6 (.157 ± .004)4 ± 0.1 DIA. 1.75 ± 0.1<br>10 ° MAX. P2 (.059 +.004/-0)1.5 +0.1/-0 (.069 ± .004)<br>COVER W +0.3/-0.1<br>TAPE (W +.012/-.004)<br>E2<br>0.1 B1<br>MAX. (.004) (NOTE A)  A0 D1 B0 F ± 0.05<br>T2 K0 (P1 P1±± .004) 0.1 (F ± .002)<br>(NOTE A)<br>8 12<br>20 ° MAX: W = &<br>(.315) (.472)<br>12<br>10 ° MAX: W ><br>(.472)<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
2 ± 0.5<br>21 ± 0.8<br>(.079 ± .020)<br>(.827 ± .315)<br>W1<br>12.80 + 0.5<br>(.504 + .020)<br>A - 2.0<br>(A - 0.79)<br>60 + 2.0<br>(2.362 + .079)<br>2,000 pieces per 13-inch reel<br>W2<br>**----- End of picture text -----**<br>


**==> picture [17 x 7] intentionally omitted <==**

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


**==> picture [458 x 46] intentionally omitted <==**

**----- Start of picture text -----**<br>
Model Size Model Size<br>Dimension Dimension<br>3225 4032 3225 4032<br>Size (.2767 ) (.3398.6 ) P1 (.2957.5 )<br>**----- End of picture text -----**<br>


|A0|7.8<br>(.307)|||10.8<br>(.425)||||F|16.0<br>(.630)|
|---|---|---|---|---|---|---|---|---|---|
|B0||3.7<br>(.146)||||||W|9.5<br>(.374)|
|K0 MAX.||12.1<br>(.476)||||||T2 MAX.|16.4 + 2<br>(.646 + .079)|
|B1 MAX.||1.5<br>(.059)||||||W1|22.4<br>(.882)|
|D1 DIA. MAX.||14.25<br>(.561)||||||W2 MAX.|15.9to19.4<br>(.626) (.764)|
|e2||12<br>(.472)||||||A DIA.|330<br>(12.992)|
|||||DIMENSIONS:||MM<br>(INCHES)||||



Specifications are subject to change without notice. 

Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **3312 - 2 mm SMD Trimming PotentiometerDV Series - Medium Voltage Varistors** 

## ~~**Soldering Recommendations for SMD Components**~~ 

Popular soldering techniques used for surface mounted components are Wave and Infrared Reflow processes. Both processes can be performed with Pb-containing or Pb-free solders. The terminations for these soldering techniques are Barrier Type End Terminations. 

|**End Termination**|**Designation**|**Recommended and Suitable for**|**RoHS Compliant**|
|---|---|---|---|
|Barrier Type End Termination|DV Series…R1|Pb-containing and Pb-free soldering|Yes|



## **Wave Soldering** 

This process is generally associated with discrete components mounted on the underside of printed circuit boards, or for large top-side components with bottom-side mounting tabs to be attached, such as the frames of transformers, relays, connectors, etc. SMD varistors to be wave soldered are first glued to the circuit board, usually with an epoxy adhesive. When all components on the PCB have been positioned and an appropriate amount of time is allowed for adhesive curing, the completed assembly is then placed on a conveyor and run through a single, double wave process. 

## **Infrared Reflow Soldering** 

These reflow processes are typically associated with top-side component placement. This technique utilizes a mixture of adhesive and solder compounds (and sometimes fluxes) that are blended into a paste. The paste is then screened onto PCB soldering pads specifically designed to accept a particular sized SMD component. The recommended solder paste wet layer thickness is 100 to 300 µm. Once the circuit board is fully populated with SMD components, it is placed in a reflow environment, where the paste is heated to slightly above its eutectic temperature. When the solder paste reflows, the SMD components are attached to the solder pads. 

## **Solder Fluxes** 

Solder fluxes are generally applied to populated circuit boards to keep oxides from forming during the heating process and to facilitate the flowing of the solder. Solder fluxes can be either a part of the solder paste compound or separate materials, usually fluids. Recommended fluxes are: 

- non-activated (R) fluxes, whenever possible 

- mildly activated (RMA) fluxes of class L3CN 

- class ORLO 

Activated (RA), water soluble or strong acidic fluxes with a chlorine content > 0.2 wt. % are NOT RECOMMENDED. The use of such fluxes could create high leakage current paths along the body of the varistor components. 

When a flux is applied prior to wave soldering, it is important to completely dry any residual flux solvents prior to the soldering process. 

## **Thermal Shock** 

To avoid the possibility of generating stresses in the varistor chip due to thermal shock, a preheat stage to within 100 °C of the peak soldering process temperature is recommended. Additionally, SMD varistors should not be subjected to a temperature gradient greater than 4 °C/sec., with an ideal gradient being 2 °C/sec. Peak temperatures should be controlled. Wave and Reflow soldering conditions for SMD varistors with Pb-containing solders are shown on the next page in Fig. 1 and 2 respectively, while Wave and Reflow soldering conditions for SMD varistors with Pb-free solders are shown in Fig. 1 and 3. 

Whenever several different types of SMD components are being soldered, each having a specific soldering profile, the soldering profile with the least heat and the minimum amount of heating time is recommended. Once soldering has been completed, it is necessary to minimize the possibility of thermal shock by allowing the hot PCB to cool to less than 50 °C before cleaning. 

Specifications are subject to change without notice. 

Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **3312 - 2 mm SMD Trimming PotentiometerDV Series - Medium Voltage Varistors** 

## ~~**Soldering Recommendations for SMD Components (Continued)**~~ 

**==> picture [476 x 118] intentionally omitted <==**

## **Inspection Criteria** 

When Wave or Infrared Reflow processes are used, the inspection criteria to determine acceptable solder joints will depend on several key variables, principally termination material process profiles. 

## **Pb-containing Wave and IR Reflow Soldering** 

Typical “before” and “after” soldering results for Barrier Type End Terminations can be seen in Fig. 4. Barrier type terminated varistors form a reliable electrical contact and metallurgical bond between the end terminations and the solder pads. The bond between these two metallic surfaces is exceptionally strong and has been tested by both vertical pull and lateral (horizontal) push tests. The results, in both cases, meet or exceed established industry standards for adhesion. 

Barrier Type End Terminations **Fig. 4 Soldering Criteria for Wave and IR Reflow Pb-containing Soldering** 

Barrier Type End Terminations **Fig. 5 Soldering Criteria for Wave and IR Reflow Pb-free Soldering** 

## **Pb-free Wave and IR Reflow Soldering** 

Solder forms a metallurgical junction with the entire volume of the end termination, i.e., it diffuses from pad to end termination across the inner side, forming a “mirror” or “negative meniscus. The height of the solder penetration can be clearly seen on the end termination and is always 30 % higher than the chip height. 

Since barrier type terminations on Bourns[®] chips do not require the use of sometimes problematic nickel and tin-alloy electroplating processes, these varistors are truly considered environmentally friendly. 

Specifications are subject to change without notice. 

Users should verify actual device performance in their specific applications. The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **3312 - 2 mm SMD Trimming PotentiometerDV Series - Medium Voltage Varistors** 

## ~~**Soldering Recommendations for SMD Components (Continued)**~~ 

## **Solder Test and Retained Samples** 

Reflow soldering test based on J-STD-020D.1 and soldering test by dipping based on IEC 60068- 2 for Pb-free solders are performed on each production lot as shown in the following chart. Test results and accompanying samples are retained for a minimum of two (2) years. The solderability of a specific lot can be checked at any time within this period, should a customer require this information. 

**==> picture [505 x 28] intentionally omitted <==**

**----- Start of picture text -----**<br>
Test Resistance to Flux Solderability Static Leaching (Simula- Dynamic Leaching (Simu-<br>tion of Reflow Soldering) lation of Wave Soldering)<br>**----- End of picture text -----**<br>


|**Test**|**Resistance to Flux**|**Solderability**|**Static Leaching (Simula-**<br>**tion of Refow Soldering)**|**Dynamic Leaching (Simu-**<br>**lation of Wave Soldering)**|
|---|---|---|---|---|
||||||
|Solderingmethod|Dipping|Dipping|Dipping|Dippingwith Agitation|
|Flux|L3CN,ORL0|L3CN,ORL0,R|L3CN,ORL0,R|L3CN,ORL0,R|
|Pb Solder|62Sn / 36Pb / 2Ag||||
|Pb Soldering<br>Temperature(°C)|235 ± 5|235 ± 5|260 ± 5|235 ± 5|
|Pb-Free Solder|Sn96 / Cu0,4-0,8 / 3-4Ag||||
|Pb-Free Soldering<br>Temperature(°C)|250 ± 5|250 ± 5|280 ± 5|250 ± 5|
|SolderingTime(sec.)|2|210|10|> 15|
|Burn-in Conditions|Vdcmax,48 hours|-|-|-|
|Acceptance Criterion|dVn < 5 %, idcmust stay<br>unchanged|> 95 % of end termination<br>must be covered by solder|> 95 % of end termination<br>must be intact and<br>covered bysolder|> 95 % of end termination<br>must be intact and<br>covered bysolder|



## **Rework Criteria - Soldering Iron** 

Unless absolutely necessary, the use of soldering irons is NOT recommended for reworking varistor chips. If no other means of rework is available, the following criteria must be strictly followed: 

- Do not allow the tip of the iron to directly contact the top of the chip 

- Do not exceed the following soldering iron specifications: 

Output Power .......................................30 Watts Maximum Temperature of Soldering Iron Tip .......280 °C Maximum Soldering Time .....................................10 Seconds Maximum 

## **Storage Conditions** 

SMD varistors should be used within 1 year of purchase to avoid possible soldering problems caused by oxidized terminals. The storage environment should be controlled, with humidity less than 40 % and temperature between -25 and +45 °C. Varistor chips should always be stored in their original packaged unit. 

When varistor chips have been in storage for more than 1 year, and when there is evidence of solderability difficulties, Bourns can often “refresh” the terminations to eliminate these problems. 

Specifications are subject to change without notice. 

Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **CDDFN5-0504N - TVS/Steering Diode ArrayDV Series - Medium Voltage Varistors** 

## ~~**Reliability Testing Procedures**~~ 

Varistor test procedures comply with CECC 42200, IEC 1051-1/2 (and AEC-Q200, if applicable for automotive grade products). Test results are available upon customer request. Special tests can be performed upon customer request. 

**==> picture [505 x 35] intentionally omitted <==**

**----- Start of picture text -----**<br>
Condition to be<br>Reliability Parameter Test Tested According to Satisfied after<br>Testing<br>**----- End of picture text -----**<br>


|**Reliability Parameter**|**Test**|**Tested According to**|**Condition to be**<br>**Satisfed after**<br>**Testing**|
|---|---|---|---|
|||||
|**AC/DC Bias Reliability**|AC/DC Life Test|CECC 42200, Test 4.20 or<br>IEC 1051-1, Test 4.20,<br>AEC-Q200 Test 8 - 1000 h at UCT||δVn (1 mA)| < 10 %|
|**Pulse Current Capability**|Imax 8/20 µs|CECC 42200, Test C 2.1 or<br>IEC 1051-1, Test 4.5<br>10 pulses in the same direction at<br>2pulsesper minute at maximumpeak current for 10pulses||δVn (1 mA)| < 10 %<br>no visible damage|
|**Pulse Energy Capability**|Wmax 10/1000 µs|CECC 42200, Test C 2.1 or<br>IEC 1051-1, Test 4.5<br>10 pulses in the same direction at<br>1 pulse every 2 minutes at maximum peak current for 10<br>pulses||δVn (1 mA)| < 10 %<br>no visible damage|
|**WLD Capability**|WLD x 10|ISO 7637, Test pulse 5, 10 pulses at rate of 1 per minute||δVn (1 mA)| < 15 %<br>no visible damage|
|**Vjump Capability**|Vjump 5 min.|Increase of supply voltage to V ≥ Vjump for 1 minute||δVn (1 mA)| < 15 %<br>no visible damage|
|**Environmental and**<br>**Storage Reliability**|Climatic Sequence|CECC 42200, Test 4.16 or<br>IEC 1051-1, Test 4.17<br>a) Dry heat, 16h, UCT, Test Ba, IEC 68-2-2<br>b) Damp heat, cyclic, the frst cycle: 55 °C, 93 % RH, 24 h,<br>Test Db 68-2-4<br>c) Cold, LCT, 2 h, Test Aa, IEC 68-2-1<br>d) Damp heat cyclic, remaining 5 cycles: 55 °C, 93 % RH,<br>24 h/cycle, Test Bd, IEC 68-2-30||δVn (1 mA)| < 10 %|
||Thermal Shock|CECC 42200, Test 4.12, Test Na, IEC 68-2-14,<br>AEC-Q200 Test 16,5||δVn (1 mA)| < 10 %<br>no visible damage|
||Steady State<br>Damp Heat|CECC 42200, Test 4.17, Test Ca, IEC 68-2-3,<br>AEC-Q200 Test 6, 56 days, 40 °C, 93 % RH,<br>AEC-Q200 Test 7: Bias,Rh,T all at 85.||δVn (1 mA)| < 10 %|
||Storage Test|IEC 68-2-2, Test Ba, AEC-Q200 Test 3, 1000 h at maximum<br>storage temperature||δVn (1 mA)| < 5 %|



_Continued on Next Page_ 

Specifications are subject to change without notice. Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **3312 - 2 mm SMD Trimming PotentiometerDV Series - Medium Voltage Varistors3312 - 2 mm SMD Trimming Potentiometer** 

## ~~**Reliability Testing Procedures (Continued)**~~ 

**==> picture [506 x 35] intentionally omitted <==**

**----- Start of picture text -----**<br>
Condition to be<br>Reliability Parameter Test Tested According to Satisfied after<br>Testing<br>**----- End of picture text -----**<br>


|**Reliability Parameter**|**Test**|**Tested According to**|**Condition to be**<br>**Satisfed after**<br>**Testing**|
|---|---|---|---|
|||||
|**Mechanical Reliability**|Solderability|CECC 42200, Test 4.10.1, Test Ta, IEC 68-2-20 solder bath<br>and refow method|Solderable at<br>shipment and after<br>2 years of storage,<br>criteria:  >95% must<br>be covered by solder<br>for refow meniscus|
||Resistance to<br>SolderingHeat|CECC 42200, Test 4.10.2, Test Tb, IEC 68-2-20 solder bath<br>nad refow method|<br>|δVn (1 mA)| < 5 %|
||Terminal Strength|<br>JIS-C-6429, App. 1, 18N for 60 sec. - same for AEC-Q200<br>Test 22|No visual damage|
||Board Flex|JIS-C-6429, App. 2, 2 mm min.<br>AEC-Q200 test 21 - Board fex: 2 mm fex min.||δVn (1 mA)| < 2 %<br>No visible damage|
||Vibration|<br>CECC 42200, Test 4.15, Test Fc, IEC 68-2-6,<br>AEC-Q200 Test 14<br>Frequency range 10 to 55 Hz (AEC: 10-2000 Hz)<br>Amplitude 0.75 m/s2or 98 m/s2(AEC: 5 g for 20 minutes) To-<br>tal duration 6 h (3x2 h) (AEC: 12 cycles each of 3 directions)<br>Waveshape - half sine||δVn (1 mA)| < 2 %<br>No visible damage|
||Mechanical Shock|CECC 42200, Test 4.14, Test Ea, IEC 68-2-27, AEC-Q200<br>Test 13.<br>Acceleration = 490 m/s2(AEC: MIL-STD-202-Method 213),<br>Pulse duration = 11 ms,<br>Waveshape - half sine;Number of shocks = 3x6||δVn (1 mA)| < 10 %<br>No visible damage|
|**Electrical Transient**<br>**Conduction**|ISO-7637-1 Pulses|AEC-Q200 Test 30: Test pulses 1 to 3.<br>Also otherpulses - freestyle.||δVn (1 mA)| < 10 %<br>No visible damage|



Specifications are subject to change without notice. Users should verify actual device performance in their specific applications. 

The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **CDDFN5-0504N - TVS/Steering Diode ArrayDV Series - Medium Voltage Varistors** 

## ~~**Terrminology**~~ 

|**Term**<br>**Symbol**<br>**Definition**|
|---|
|rms<br>RatedAC Voltage .......eeeeeeeeeeeMo<br>teeeesteeeseeeee Maximum continuous sinusoidalAC voltage (<5% total harmonic distortion) which may be|
|dc<br>Rated DC Voltage......eeeeeeM0 eeeeeseseees Maximum continuous DC voltage (<5% ripple) which may be applied to the component|
|Supply Voltage... cesses Visesessssesseeeeee The voltage by which the system is designated and to which certain operating|
|rms|
|dc<br>dcand at +25 ° or at any other specified<br>Leakage Curreent....... cecil cesseshe Current passing through the varistor atV|
|n<br>n)<br>Varistor Voltage ......eeMocesses WVOltage across the varistor measured at a given reference current (I|
|n<br>Reference Current...... eee) ceseeeeeeeeeeReference current=<br>1mADC|
|Clamping Voltage .........................Vc......................The peak voltage developed across the varistor under standard atmospheric conditions,|
|Protection Level<br>when passing an 8/20 µs class current pulse|
|c<br>ClassCurrent... cceeeeeseesseeeeeA peak value of current which is 1/10 of the maximum peak current for 100 pulses at two|
|c/Vapp<br>Voltage Clamping Ratio...............V<br>sissusseeA figure of merit measure of the varistor clamping effectiveness as defined by the symbols|
|c<br>app<br>app<br>rms<br>dc|
|jump<br>Jump Start Transient ..........0..V<br>sists<br>Dejump Starttransient results from the temporary application of an overvoltage in excess|
|overvoltage condition due to the voltage regulation failing or it may be deliberately generated|
|when it becomes necessary to boost start the car.|
|Rated Single Pulse .......................Wmax.................Energy which may be dissipated for a single 10/1000 µs pulse of a maximum rated|
|Transient Energy<br>current, with rated AC voltage or rated DC voltage also applied, without causing device|
|failure|
|Load Dump Transient..................WLD..................Load Dump is a transient which occurs in automotive environments. It is an exponentially|
|nator is still generating charging current with other loads remaining on the alternator circuit|
|at the time of battery disconnect.|
|Rated Peak Single Pulse ..............Imax...................Maximum peak current which may be applied for a single 8/20 µs pulse, with rated line|
|Transient Current<br>voltage also applied, without causing device failure|
|Rated Transient Average ..............P ........................Maximum average power which may be dissipated due to a group of pulses occurring<br>Power Dissipation<br>within a specified isolated time period, without causing device failure at 25 °C|
|Capacitance...<br>cece eee:OueeesieseseesesCapacitance between two terminals ofthe varistor measured @ 1 kHz|
|α<br>nand I1as<br>Non-linearity Exponent...<br>eieeeeeeeeeee-A measure of varistor nonlinearity between two given operating currents,<br>||
|- k is a device constant,|
|- I1< I < Inand|
|- a log (I1/In)/log(V1/Vn) = 1/log (V1/Vn), where:|
|- Iris reference current (1 mA) and Vnis varistor voltage|
|- I1= 10 In, V1is the voltage measured at I1|



Varistor Voltage Temperature .......TC .....................(VCoefficient n @ 85 °C - Vn @ 25 °C) / (Vn @ 25 °C) x 60 °C) x 100 

DHD = Dump Heat Test Duration 

REV. A 01/20 

Specifications are subject to change without notice. Users should verify actual device performance in their specific applications. The products described herein and this document are subject to specific legal disclaimers as set forth on the last page of this document, and at www.bourns.com/docs/legal/disclaimer.pdf. 

## **Legal Disclaimer Notice** 

This legal disclaimer applies to purchasers and users of Bourns[®] products manufactured by or on behalf of Bourns, Inc. and its affiliates (collectively, “Bourns”). 

Unless otherwise expressly indicated in writing, Bourns[®] products and data sheets relating thereto are subject to change without notice.  Users should check for and obtain the latest relevant information and verify that such information is current and complete before placing orders for Bourns[®] products. 

The characteristics and parameters of a Bourns[®] product set forth in its data sheet are based on laboratory conditions, and statements regarding the suitability of products for certain types of applications are based on Bourns’ knowledge of typical requirements in generic applications.  The characteristics and parameters of a Bourns[®] product in a user application may vary from the data sheet characteristics and parameters due to (i) the combination of the Bourns[®] product with other components in the user’s application, or (ii) the environment of the user application itself.  The characteristics and parameters of a Bourns[®] product also can and do vary in different applications and actual performance may vary over time.  Users should always verify the actual performance of the Bourns[®] product in their specific devices and applications, and make their own independent judgments regarding the amount of additional test margin to design into their device or application to compensate for differences between laboratory and real world conditions. 

Unless Bourns has explicitly designated an individual Bourns[®] product as meeting the requirements of a particular industry standard (e.g., ISO/TS 16949) or a particular qualification (e.g., UL listed or recognized), Bourns is not responsible for any failure of an individual Bourns[®] product to meet the requirements of such industry standard or particular qualification.  Users of Bourns[®] products are responsible for ensuring compliance with safety-related requirements and standards applicable to their devices or applications. 

Bourns[®] products are not recommended, authorized or intended for use in nuclear, lifesaving, life-critical or life-sustaining applications, nor in any other applications where failure or malfunction may result in personal injury, death, or severe property or environmental damage.  Unless expressly and specifically approved in writing by two authorized Bourns representatives on a case-by-case basis, use of any Bourns[®] products in such unauthorized applications might not be safe and thus is at the user’s sole risk.  Life-critical applications include devices identified by the U.S. Food and Drug Administration as Class III devices and generally equivalent classifications outside of the United States. 

Bourns expressly identifies those Bourns[®] standard products that are suitable for use in automotive applications on such products’ data sheets in the section entitled “Applications.”  Unless expressly and specifically approved in writing by two authorized Bourns representatives on a case-by-case basis, use of any other Bourns[®] standard products in an automotive application might not be safe and thus is not recommended, authorized or intended and is at the user’s sole risk.  If Bourns expressly identifies a sub-category of automotive application in the data sheet for its standard products (such as infotainment or lighting), such identification means that Bourns has reviewed its standard product and has determined that if such Bourns[®] standard product is considered for potential use in automotive applications, it should only be used in such sub-category of automotive applications.  Any reference to Bourns[®] standard product in the data sheet as compliant with the AEC-Q standard or “automotive grade” does not by itself mean that Bourns has approved such product for use in an automotive application. 

Bourns[®] standard products are not tested to comply with United States Federal Aviation Administration standards generally or any other generally equivalent governmental organization standard applicable to products designed or manufactured for use in aircraft or space applications. Bourns expressly identifies Bourns[®] standard products that are suitable for use in aircraft or space applications on such products’ data sheets in the section entitled “Applications.”  Unless expressly and specifically approved in writing by two authorized Bourns representatives on a case-by-case basis, use of any other Bourns[®] standard product in an aircraft or space application might not be safe and thus is not recommended, authorized or intended and is at the user’s sole risk. 

The use and level of testing applicable to Bourns[®] custom products shall be negotiated on a case-by-case basis by Bourns and the user for which such Bourns[®] custom products are specially designed.  Absent a written agreement between Bourns and the user regarding the use and level of such testing, the above provisions applicable to Bourns[®] standard products shall also apply to such Bourns[®] custom products. 

Users shall not sell, transfer, export or re-export any Bourns[®] products or technology for use in activities which involve the design, development, production, use or stockpiling of nuclear, chemical or biological weapons or missiles, nor shall they use Bourns[®] products or technology in any facility which engages in activities relating to such devices.  The foregoing restrictions apply to all uses and applications that violate national or international prohibitions, including embargos or international regulations.  Further, Bourns[®] products and Bourns technology and technical data may not under any circumstance be exported or re-exported to countries subject to international sanctions or embargoes.  Bourns[®] products may not, without prior authorization from Bourns and/or the U.S. Government, be resold, transferred, or re-exported to any party not eligible to receive U.S. commodities, software, and technical data. 

To the maximum extent permitted by applicable law, Bourns disclaims (i) any and all liability for special, punitive, consequential, incidental or indirect damages or lost revenues or lost profits, and (ii) any and all implied warranties, including implied warranties of fitness for particular purpose, non-infringement and merchantability. 

_For your convenience, copies of this Legal Disclaimer Notice with German, Spanish, Japanese, Traditional Chinese and Simplified Chinese bilingual versions are available at:_ 

_Web Page: http://www.bourns.com/legal/disclaimers-terms-and-policies_ 

_PDF: http://www.bourns.com/docs/Legal/disclaimer.pdf_ 

C1753 05/17/18R