CM3421Y600R-10

# EMI FILTERING & RF INDUCTORS 

## About Laird 

Laird is a global technology business focused on enabling wireless communication and smart systems, and providing components and systems that protect electronics.  Laird operates through two divisions, Wireless Systems and Performance Materials.  Wireless Systems solutions include antenna systems, embedded wireless modules, telematics products and wireless automation and control solutions.  Performance Materials solutions include electromagnetic interference shielding, thermal management and signal integrity products.  As a leader in the design, supply and support of innovative technology, our products allow people, organisations, machines and applications to connect effectively, helping to build a world where smart technology transforms the way of life. Custom products are supplied to major sectors of the electronics industry including the handset, telecommunications, IT, automotive, public safety, consumer, medical, rail, mining and industrial markets.  Providing value and differentiation to our customers through innovation, reliable fulfilment and speed, Laird PLC is listed and headquartered in London, and employs over 9,000 people in more than 58 facilities located in 18 countries. 

## Table of Contents 

Part Number Nomenclature Explanation  ................................................ 2 Ferrite EMI Chip Beads  ........................................................................... 3 Ferrite EMI SMT Bead Assemblies  ........................................................ 26 Common Mode And Differential Mode Explanation  ............................. 29 Common Mode Choke Family  .............................................................. 30 Common Mode Chokes  ........................................................................ 31 Low Frequency Common Mode Chokes  ............................................... 37 Common Mode Arrays  ......................................................................... 38 CAN-BUS Common Mode Choke Series  ............................................... 43 Passes and Turns  .................................................................................. 45 Wire-Wound SMT Power Common Mode Chokes  ................................ 46 Wire-Wound DIP Power Common Mode Chokes  .................................. 48 Common Mode Choke Series  ............................................................... 51 Differential Mode EMI Filters  ............................................................... 53 EMI Filter Arrays .................. ................................................................. 56 Differential Mode Filter Equivalent Circuits  .......................................... 59 Ferrite Chip Inductors  ........................................................................... 60 Multilayer Power Chip Inductors  .......................................................... 64 

## **Pb** 

All parts listed in this catalog are lead free and RoHS compliant. 

## **NOTICE** 

Laird products or subcomponents are not specifically designed or tested by Laird for use in any medical applications, surgical applications, medical device manufacturing, or any similar procedure or process requiring approval, testing, or certification by the United States food and drug administration or other similar Governmental entity. Applications with unusual environmental requirements such as military, medical, life-support or Life-sustaining equipment are specifically not recommended without additional testing for such application. 

**PART NUMBER** 

## Nomenclature Explanation 

## **PART NUMBERING SYSTEM** 

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HZ 0402 A 601 R -10<br>PRODUCT   EIA   RATED   IMPEDANCE (Z)  PACKING   ADDITIONAL<br>SERIES CODE SIZE CODE CURRENT CODE OR INDUCTANCE (L) CODE DESCRIPTION<br>**----- End of picture text -----**<br>


|**HZ**|**0402**|**A**|**601**|**R**|**-10**|
|---|---|---|---|---|---|
|**PRODUCT**<br>**SERIES CODE**|**EIA**<br>**SIZE CODE**|**RATED**<br>**CURRENT CODE**|**IMPEDANCE (Z)**<br>**OR INDUCTANCE (L)**|**PACKING**<br>**CODE**|**ADDITIONAL**<br>**DESCRIPTION**|
|||||||
|**HI**= High Current Chip Beads<br>(≥3,000 mA)<br>**MI**= Mid Current Chip Beads<br>(≥1,000 mA to <3,000 mA )<br>**LI**= Low Current Chip Beads<br>(<1,000 mA, <400ΩZ)<br>**HZ**= High Impedance Chip Beads<br>(<1,000 mA, >400ΩZ)<br>**HF**= High Frequency Chip Beads<br>**LF**= Low Frequency Chip Beads<br>**HR**= High Bias Retention<br>Chip Beads ( >3,000 mA)<br>**CC**= CAN-Bus Common Mode<br>Chokes<br>**CM**= Common Mode Chokes<br>**CMX**= Wire-Wound Power<br>Common Mode Chokes<br>**CF**= Small Size (0805, 0504)<br>Monolithic Common Mode<br>Chokes<br>**DA**= Multilines Array Chip Arrays<br>**IC**= Ferrite Chip Inductors<br>**CCI**= Ceramic Chip Inductors<br>**CPI**= Multilayer Power Chip<br>Inductors|0402<br>0504<br>0603<br>0805<br>0806<br>1008<br>1206<br>1210<br>1211<br>1616<br>1612<br>1806<br>1812<br>1922<br>2021<br>2220<br>2520<br>2545<br>2722<br>3032<br>3312<br>3322<br>3421<br>3822<br>4440<br>4545<br>4732<br>5022<br>5441<br>6032|A < 100 mA<br>B = 200 mA<br>C = 300 mA<br>D = 400 mA<br>E = 500 mA<br>F = 600 mA<br>G = 700 mA<br>H = 800 mA<br>I = 900 mA<br>J = 1,000 mA<br>K = 1,500 mA<br>L = 2,000 mA<br>M = 2,500 mA<br>N = 3,000 mA<br>O = 3,500 mA<br>P = 4,000 mA<br>Q = 4,500 mA<br>R = 5,000 mA<br>S = 5,500 mA<br>T = 6,000 mA<br>U = 7,000 mA<br>V = 8,000 mA<br>W = 9,000 mA<br>X = 10,000 mA<br>Y = 15,000 mA<br>Z≥20,000 mA|First two numbers are Signifcant Digits<br>The last number indicates how many zeros<br>are added to the signifcant digits.<br>Impedance Examples:<br>100 = 10 OHMS<br>101 = 100 OHMS<br>102 = 1,000 OHMS<br>202 = 2,000 OHMS<br>060 = 6 OHMS<br>Examples: (For IC Series)<br>470 = 47 nH<br>471 = 470 nH<br>472 = 4,700 nH<br>473 = 47,000 nH<br>Examples: (For CCI series)<br>0N3 = 0.3 nH<br>1N2 = 1.2 nH<br>12N = 12 nH<br>R12 = 120 nH<br>R22 = 220 nH<br>Examples: (For CPI series)<br>R47 = 0.47 uH<br>1R0 = 1.0 uH<br>4R7 = 4.7 uH<br>Examples: (For CMX series)<br>680 = 68 uH<br>181 = 180 uH<br>132 = 1300 uH|B:<br>Bulk Standard Thru-<br>Hole Packaging<br>R :<br>Tape&Reel Standard<br>SMT Package|-10 =<br>Lead Free Standard Catalog<br>Part<br>-11 to -99 =<br>Non-Standard or Custom Part<br>-1a= Tolerance Code|



## **PART NUMBERING SYSTEM** 

|**29**|**F**|**0818**|**-1**|**S**|**R**|**-10**|
|---|---|---|---|---|---|---|
|**MATERIAL TYPE**|**PRODUCT**<br>**TYPE CODE**|**PART SIZE**<br>**CODE**|**MINOR DIMENSION**<br>**CODE**|**BOARD**<br>**MOUNTING**<br>**SYTLE**|**PACKAGING**<br>**CODE**|**ADDITIONAL**<br>**DESCRIPTION**|
|28 & 29 = Broad Band Material<br>35 = Low Freq. Material|C = Choke<br>L = Axial Leaded Bead<br>F = Assembled Part|Unique Part<br>Identifer or<br>Signifcant<br>Dimension|Height or Length<br>Variation|S = Surface Mount<br>T= Thru-Hole|O = Bulk Standard<br>R = Tape & Reel<br>Standard SMT Package|-10 = Lead Free<br>Standard Catalog Part<br>-11 to -99 = Non Standard or<br>Custom Part|



## **TEST CONDITIONS** 

Operation temperature: -40°C ~ +125°C (If no parts are specifically defined) 

Visit **www.lairdtech.com** for additional and the most up-to-date information and for other board level part families not included in this catalog. All data charts are available by contacting your local Laird office. 

A revolutionary new SPICE model for EMI ferrite chip beads in now available from Laird. This new design aid includes the de-rating effects of DC bias currents providing much greater accuracy for better designs the first time. This chip bead SPICE model is available by contacting your local Laird office. 

Note: Most current ratings (I MAX) are based upon a 40°C temperature rise during continuous operation. Parts have no polarity. 

**2** 

**FERRITE EMI** CHIP BEADS 

## FEATURES **Pb** 2 

   - Up to 10 Amps (I MAX) continuous operating capability 

   - Monolithic construction with small footprint and high reliability 

   - Excellent retention under bias 

   - Economical 

   - Broad range of sizes (from EIA 0201 up to 3312) 

- <= • For power line, low frequency and high frequency signal lines 

## **PART NUMBERING SYSTEM** 

|**HZ**|**0402**|**A**|**601**|**R**|**-10**|
|---|---|---|---|---|---|
|Product Series Code|EIA Size Code|Rated Current Code|Impedance Value<br>Code|Packing Code|Additional Description|



## **FOR SIGNAL LINE** 

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Typical Impedance ( Ω ) Peak   RATED I<br>EIA Pkg. Size Metric Pkg. Size Part Number  25 MHzZ    100 MHzZ @  500 MHzZ @   1 GHzZ @  Typical Peak Impedance ( Ω ) Impedance Frequency (MHz) MAX DCR ( Ω ) (continuous)MAX  mA<br>a 0402 1005 LI0402E190R-10 6 | 19 43 56 | 59 1,519 | 0.10 500<br>a 0402  DN 1005 LI0402C220R-10 9 22 30 31 31 830 0.20 300<br>a 0402 1005 LI0402E300R-10 9 30 GO 50 57 GO 58 1,195 0.30 500<br>a 0402 1005 a LI0402C470R-10 eeGO 15 QQ 47 76 90 GOOO 92 1,402 0.15 300<br>a 0402 1005 a LI0402E600R-10 es 29 QR 60 90 QO 57 GG 97 801 0.30 500<br>a 0402 1005 aGC LI0402B800R-10 32 80 220 224 243 769 0.80 200<br>0402 1005 LI0402E800R-10 34 80 126 132 132 867 0.17 500<br>a es Re GG<br>a 0402 1005 a LI0402D121R-10 es es 40 QQ 120 205 195 213 682 0.40 400<br>a 0402  DN 1005 LI0402C221R-10 72 220 443 243 453 440 0.35 300<br>a 0402 1005 LI0402B301R-10 96 300 GO 454 351 GO 549 374 0.80 200<br>a 0402 1005 a HZ0402A601R-10 eeGO 182 QQ 600 600 300 GOOO 965 241 1.00 100<br>0402 1005 HZ0402B102R-10 225 1,000 489 222 1,116 182 1.00 200<br>a a en QQ GG<br>0402 1005 HZ0402A152R-10 400 1,500 441 200 1,500 143 2.00 50<br>a esGGG<br>a 0402 1005 HZ0402A182R-10 GO 251 1,800 520 265 NG 2,702  143  1.40  100<br>0603 1608 LI0603E470R-10 17 47 83 91 91 1,000 0.10 500<br>a a es GG OC<br>a 0603 1608 a LI0603G800R-10 GO 32 80 100 91 GO 100 500 0.20 700<br>a 0603 1608 a LI0603G121R-10 en 52 QQ 120 156 113 GG 177 389 0.20 700<br>a 0603 1608 esGGG LI0603E151R-10 61 150 197 131 209 331 0.25 500<br>a 0603 1608 RD LI0603B201R-10 70 GO 200 340 210 GO 362 420 0.40 200<br>a 0603 1608 a LI0603G221R-10 es 98 GG 220 279 168 QO 283 251 0.30 700<br>a 0603 1608 es LI0603D301R-10 144 GO 300 286 GO 165 389 261 0.35 400<br>0603 1608 HZ0603B471R-10 94 470 560 253 1,060 240 0.85 200<br>a a es QR GO<br>a 0603 1608 aGO HZ0603C601R-10 232 600 360 171 775 168 0.45 300<br>a 0603 1608 a Rs HZ0603C651R-10 OG 296 650 954 652 960 400 0.60 300<br>a 0603 1608 a HZ0603B751R-10 es 302 GG 750 437 198 GO 863 137 0.60 200<br>**----- End of picture text -----**<br>


www.laird.com **3** 

**FERRITE EMI** CHIP BEADS 

## **FOR SIGNAL LINE** 

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EIA  METRIC  TYPICAL IMPEDANCE ( Ω ) TYPICAL PEAK  PEAK IMPEDANCE  DCR  RATED I MAX<br>PKG.  PKG.  PART NUMBER Z @  Z @  Z @ Z  @   IMPEDANCE  FREQUENCY MAX  (CONTINUOUS)<br>SIZE SIZE  25 MHz 100 MHz 500 MHz 1 GHz ( Ω ) (MHz) ( Ω ) mA<br>0603 1608 HZ0603A102R-10 288 1,000 1975 1,450 2,000  480  1.00  100<br>0603 1608 HZ0603B102R-10 453 1,000 380 200 1,000 100 0.60 200<br>0603 1608 HZ0603D102R-10 453 1,000 380 193 970  140  0.35  400<br>0603 1608 HZ0603B112R-10 515 1,100 1,300 850 1,539 288 0.80 200<br>0603 1608 HZ0603A152R-10 552 1,500 1,062 503 2,306 190 0.90 100<br>0603 1608 HZ0603C152R-10 319 1,500 462 190 1,493 135 0.60 300<br>0603 1608 HZ0603A182R-10 610 1,800 1,070 500 2,420 180 1.50 50<br>0603 1608 HZ0603A222R-10 195 2,200 375 175 3,051 122 1.50 100<br>0603 1608 HZ0603A252R-10 791 2,500 1,014 501 3,065 149 1.50 50<br>0805 2012 LI0805G201R-10 100 200 221 128 272 250 0.30 700<br>0805 2012 LI0805G301R-10 124 300 248 146 350 205 0.20 700<br>0805 2012 HZ0805G471R-10 221 470 286 150 572 149 0.20 700<br>0805 2012 HZ0805E601R-10 277 600 304 151 696 155 0.30 500<br>0805 2012 HZ0805D102R-10 280 1,000 328 168 1,268 113 0.30 400<br>0805 2012 MI0805J102R-10 195 1,000 226 108 1,112 120 0.15 1,000<br>0805 2012 HZ0805D152R-10 289 1,500 333 166 1,525 110 0.40 400<br>0805 2012 HZ0805C202R-10 350 2,000 300 150 2,000 100 0.50 300<br>0805 2012 HZ0805B222R-10 648 2,200 419 213 2,200 100 0.80 200<br>0805 2012 HZ0805B252R-10 400 2,500 400 180 2,900  90  0.75  200<br>0805 2012 HZ0805B272R-10 400 2,700 400 150 2,900 88 0.80 200<br>1206 3216 HZ1206E601R-10 296 600 202 103 674 75 0.30 500<br>1206 3216 HZ1206C202R-10 1,673 915 180 100 2,505 41 0.50 300<br>1206 3216 HZ1206E152R-10 823 950 188 57 1,564 57 0.30 500<br>1206 3216 HZ1206D102R-10 201 1,250 250 100 1,000 100 0.40 400<br>**----- End of picture text -----**<br>


## **FOR POWER LINE** 

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EIA   METRIC  TYPICAL IMPEDANCE ( Ω ) TYPICAL PEAK  PEAK IMPEDANCE  DCR  RATED I MAX<br>PKG.  PKG.  PART NUMBER Z @  Z @  Z @  Z @  IMPEDANCE  FREQUENCY MAX  (CONTINUOUS)<br>SIZE SIZE  25 MHZ 100 MHZ 500 MHZ  1 GHZ ( Ω ) (MHz) ( Ω ) mA<br>0402 1005 MI0402L100R-10 3.6 10 14 13.2 15  510  0.10  2,000<br>0402 1005 LI0402E190R-10 6 19 43 56 59 1,519 0.10 500<br>0402 1005 LI0402C220R-10 9 22 30 31 31 830 0.20 300<br>0402 1005 LI0402E300R-10 9 30 50 57 58 1,195 0.30 500<br>0402 1005 LI0402C470R-10 15 47 76 90 92 1,402 0.15 300<br>0402 1005 LI0402E600R-10 29 60 90 57 97 801 0.30 500<br>0402 1005 LI0402E750R-10 30 75 92 92 93 710 0.10 500<br>0402 1005 LI0402B800R-10 32 80 220 224 243 769 0.80 200<br>0402 1005 LI0402E800R-10 34 80 126 132 243 867 0.17 500<br>0402 1005 LI0402D121R-10 40 120 205 195 213 682 0.40 400<br>0402 1005 MI0402K121R-10 52 120 160 132 160 500 0.13 1,500<br>0402 1005 LI0402C221R-10 72 220 443 243 453 440 0.35 300<br>0402 1005 LI0402B301R-10 96 300 454 351 549 374 0.80 200<br>0402 1005 HZ0402B102R-10 225 1,000 489 222 1,116 182 1.00 200<br>0603 1608 MI0603K300R-10 12 30 43 45 45 1,000 0.09 1,500<br>0603 1608 HI0603N300R-10 13 30 44 48 54  1,000  0.04  3,000<br>0603 1608 HI0603R300R-10 13 30 44 45 47  950  0.01  5,000<br>0603 1608 HI0603N330R-10 13 33 44 54 54  1,000  0.025  3,000<br>0603 1608 LI0603E470R-10 17 47 83 91 91 1,000 0.10 500<br>0603 1608 MI0603J600R-10 25 60 91 92 95 700 0.10 1,000<br>0603 1608 HI0603P600R-10 25 60 85 83 95 738 0.03 4,000<br>0603 1608 MI0603J680R-10 35 68 106 99 110 650 0.10 1,000<br>0603 1608 HI0603O700R-10 32 70 91 94 98  600  0.02  3,500<br>0603 1608 LI0603G800R-10 32 80 100 91 100 500 0.20 700<br>**----- End of picture text -----**<br>


**4** 

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**FERRITE EMI** CHIP BEADS 

## **FOR POWER LINE** 

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EIA  METRIC  TYPICAL IMPEDANCE ( Ω ) TYPICAL PEAK  PEAK IMPEDANCE  RATED I MAX<br>DCR MAX<br>PKG.  PKG.  PART NUMBER Z @  Z @  Z @  Z@  IMPEDANCE  FREQUENCY  ( Ω ) (CONTINUOUS)<br>SIZE SIZE  25 MHZ 100 MHZ 500 MHZ 1 GHZ ( Ω ) (MHZ) MA<br>0603 1608 LI0603G121R-10 52 120 156 113 177 389 0.20 700<br>0603 1608 MI0603M121R-10 55 120 169 138 170 420 0.05 2,500<br>0603 1608 LI0603E151R-10 61 150 197 131 209 331 0.25 500<br>0603 1608 MI0603K181R-10 95 180 238 190 245  380  0.09  1,500<br>0603 1608 LI0603B201R-10 70 200 340 210 362 420 0.40 200<br>0603 1608 LI0603G221R-10 98 220 279 168 283 251 0.30 700<br>0603 1608 MI0603L221R-10 107 220 219 121 240 280 0.05 2,000<br>0603 1608 LI0603D301R-10 144 300 286 165 389 261 0.35 400<br>0603 1608 MI0603L301R-10 50 300 225 120 410 200 0.10 2,000<br>0603 1608 HZ0603B471R-10 94 470 560 253 1,060 240 0.85 200<br>0603 1608 MI0603J471R-10 203 470 398 181 580 210 0.20 1,000<br>0603 1608 MI0603K471R-10 237 470 350 193 562 197 0.15 1,500<br>0603 1608 HZ0603C601R-10 232 600 360 171 775 168 0.45 300<br>0603 1608 MI0603J601R-10 225 600 400 200 620 150 0.20 1,000<br>0603 1608 HZ0603C651R-10 296 650 954 652 960 400 0.60 300<br>0603 1608 HZ0603B751R-10 302 750 437 198 863 137 0.60 200<br>0603 1608 HZ0603B102R-10 453 1,000 380 200 1,000 100 0.60 200<br>0603 1608 MI0603J102R-10 432 1,000 400 196 1,000  120  0.20  1,000<br>0603 1608 HZ0603B112R-10 515 1,100 1,300 850 1,539 288 0.80 200<br>0603 1608 HZ0603C152R-10 319 1,500 462 190 1,590 135 0.60 300<br>0805 2012 MI0805K110R-10 5 11 18 19 20 1,000 0.06 1,500<br>0805 2012 HI0805Q310R-10 12 31 42 44 45 800 0.025 4,500<br>0805 2012 HI0805N310R-10 17 31 41 39 42  510  0.03  3,000<br>0805 2012 HI0805P390R-10 17 39 59 65 65  1,050  0.008  4,000<br>0805 2012 LI0805H400R-10 18 40 70 76 76 1,000 0.15 800<br>0805 2012 MI0805K400R-10 19 40 60 63 69 903 0.05 1,500<br>0805 2012 HI0805T500R-10 25 50 64 59 65  490  0.01  6,000<br>0805 2012 HI0805N600R-10 34 60 80 75 81  500  0.04  3,000<br>0805 2012 LI0805H750R-10 31 75 128 130 132 769 0.15 800<br>0805 2012 HI0805R800R-10 38 80 70 38 100 200 0.01 5,000<br>0805 2012 LI0805H121R-10 53 120 170 114 170 340 0.15 800<br>0805 2012 HI0805O121R-10 61 120 140 80 167 270 0.02 3,500<br>0805 2012 HI0805R121R-10 47 120 98 58 149 205 0.03 5,000<br>0805 2012 HI0805P121R-10 45 120 102 64 125 240 0.02 4,000<br>0805 2012 LI0805H151R-10 73 150 207 150 210 400 0.15 800<br>0805 2012 LI0805G201R-10 100 200 221 128 272 250 0.30 700<br>0805 2012 MI0805M221R-10 100 220 274 115 287 260 0.05 2,500<br>0805 2012 HI0805N221R-10 81 220 113 115 283  220  0.04  3,000<br>0805 2012 LI0805G301R-10 124 300 248 146 350 205 0.20 700<br>0805 2012 MI0805L301R-10 135 300 271 147 350 200 0.06 2,000<br>0805 2012 MI0805L331R-10 148 330 264 143 197 393 0.06 2,000<br>0805 2012 HZ0805G471R-10 221 470 286 150 572 149 0.20 700<br>0805 2012 HZ0805E601R-10 277 600 304 151 696 155 0.30 500<br>0805 2012 MI0805K601R-10 280 600 240 120 723 130 0.10 1,500<br>0805 2012 MI0805L601R-10 264 600 316 172 663 155 0.10 2,000<br>0805 2012 HZ0805D102R-10 280 1,000 328 168 1,268 113 0.30 400<br>0805 2012 MI0805J102R-10 195 1,000 226 108 1,112 120 0.15 1,000<br>0805 2012 HZ0805D152R-10 289 1,500 333 166 1,525 110 0.40 400<br>0805 2012 HZ0805C202R-10 350 2,000 300 150 2,000 100 0.50 300<br>1206 3216 MI1206K260R-10 12 26 44 46 46 1,000 0.06 1,500<br>1206 3216 MI1206K310R-10 12 31 37 41 41 1,000 0.045 1,500<br>1206 3216 HI1206T500R-10 19 50 66 70 70 1,000 0.01 6,000<br>1206 3216 HI1206N680R-10 29 68 93 102 102 1,000 0.012 3,000<br>1206 3216 HI1206N800R-10 38 80 120 129 130 800 0.035 3,000<br>1206 3216 MI1206K900R-10 44 90 142 150 154 867 0.08 1,500<br>1206 3216 HI1206N101R-10 41 100 144 145 150 600 0.035 3,000<br>1206 3216 LI1206H121R-10 53 120 144 135 145 422 0.15 800<br>1206 3216 HI1206P121R-10 56 120 130 105 142 300 0.03 4,000<br>1206 3216 LI1206H151R-10 73 150 173 123 182 241 0.15 800<br>1206 3216 HI1206T161R-10 71 160 220 127 229 251 0.018 6,000<br>1206 3216 MI1206L391R-10 100 390 160 90 460 130 0.05 2,000<br>**----- End of picture text -----**<br>


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**FERRITE EMI** CHIP BEADS 

## **FOR POWER LINE** 

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EIA  METRIC  TYPICAL IMPEDANCE ( Ω ) TYPICAL PEAK  PEAK IMPEDANCE  DCR  RATED I MAX<br>PKG.  PKG.  PART NUMBER Z @  Z @  Z @  Z @  IMPEDANCE   FREQUENCY   MAX  (CONTINUOUS)<br>SIZE SIZE  25 MHZ 100 MHZ 500 MHZ 1 GHZ ( Ω ) (MHZ) ( Ω ) MA<br>1206 3216 MI1206L501R-10 210 500 150 82 500 100 0.06 2,000<br>1206 3216 HZ1206E601R-10 296 600 202 103 674 75 0.30 500<br>1206 3216 MI1206K601R-10 300 600 250 130 650 80 0.08 1,500<br>1206 3216 MI1206L601R-10 296 600 116 59 660 79 0.08 2,000<br>1206 3216 HZ1206E152R-10 823 950 188 57 1,564 57 0.30 500<br>1206 3216 HZ1206C202R-10 1,673 915 180 100 2,505 41 0.50 300<br>1206 3216 HZ1206D102R-10 201 1,000 185 100 1,000 100 0.40 400<br>1210 3225 MI1210K600R-10 30 60 90 95 105 900 0.035 1,500<br>1612 4131 HI1612X560R-10 23 56 75 79 79 1,000 0.004 10,000<br>1806 4516 HI1806T600R-10 28 60 87 92 92 1,000 0.01 6,000<br>1806 4516 LI1806E800R-10 28 80 117 117 117 1,000 0.30 500<br>1806 4516 MI1806J800R-10 34 78 114 118 119 903 0.03 1,000<br>1806 4516 HI1806N910R-10 42 91 140 150 150 1,000 0.03 3,000<br>1806 4516 LI1806E101R-10 45 100 157 164 166 966 0.30 500<br>1806 4516 LI1806C151R-10 60 150 219 222 223 871 0.50 300<br>1806 4516 HZ1806K102R-10 60 1,000 160 80 1,390 135 0.15 1,500<br>1812 4532 HI1812T800R-10 30 80 97 107 107 1,000 0.01 6,000<br>1812 4532 HI1812V101R-10 45 100 136 134 139 800 0.01 8,000<br>1812 4532 LI1812D121R-10 55 120 182 184 186 738 0.40 400<br>1812 4532 MI1812K121R-10 45 120 162 170 175 900 0.055 1,500<br>2220 5620 HI2220T101R-10 50 100 148 152 160 600 0.006 6,000<br>2220 5620 HI2220R151R-10 60 150 230 196 230 500 0.015 5,000<br>2220 5620 HI2220P171R-10 78 170 256 237 256 500 0.03 4,000<br>2220 5620 HI2220R181R-10 80 180 263 234 270 400 0.02 5,000<br>2220 5620 HI2220P251R-10 100 250 172 91 390 200 0.015 4,000<br>2220 5620 HI2220P271R-10 110 270 360 250 390 300 0.035 4,000<br>2220 5620 HI2220R301R-10 100 300 190 100 380 200 0.02 5,000<br>2220 5620 HI2220Q401R-10 100 400 159 99 450 150 0.03 4,500<br>2220 5620 HI2220P551R-10 180 550 670 343 850 300 0.035 4,000<br>2220 5620 HI2220P601R-10 220 600 184 106 600 100 0.025 4,000<br>2220 5620 HR2220P601R-10 200 600 150 75 600 100 0.025 4,000<br>2220 5620 HI2220P701R-10 200 700 140 90 700 100 0.025 4,000<br>2220 5620 HR2220V701R-10 198 700 120 62 760 91 0.01 8,000<br>2220 5620 HR2220V801R-10 150 800 125 75 910 90 0.01 8,000<br>3312 8531 HI3312X101R-10 39 100 160 172 172 1,000 0.004 10,000<br>**----- End of picture text -----**<br>


## **4 LINES CHIP BEAD ARRAY** 

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EIA  METRIC  TYPICAL IMPEDANCE ( Ω ) TYPICAL PEAK  DCR  RATED I MAX<br>PEAK IMPEDANCE<br>PKG.  PKG.  PART NUMBER Z @  Z @  Z @  Z @  IMPEDANCE  FREQUENCY (MHZ) MAX  (CONTINUOUS)<br>SIZE SIZE  25 MHz 100 MHz 500 MHz 1 GHz ( Ω ) ( Ω ) MA<br>1206 3216 DA1206E300R-10 10 30 55 56 56 1,000 0.30 500<br>1206 3216 DA1206D600R-10 15 60 115 132 133 1,103 0.20 400<br>1206 3216 DA1206C121R-10 39 120 181 151 211 559 0.20 300<br>1206 3216 DA1206D301R-10 94 300 437 245 437 500 0.40 400<br>1206 3216 DA1206B601R-10 180 600 475 230 761 214 0.35 200<br>1206 3216 DA1206B102R-10 275 1,000 520 240 1,129 175 0.80 200<br>**----- End of picture text -----**<br>


## **LOW FREQUENCY EMI CHIP BEADS** 

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EIA  METRIC  TYPICAL IMPEDANCE ( Ω ) TYPICAL PEAK  DCR  RATED I MAX<br>PEAK IMPEDANCE<br>PKG. SIZE PKG. SIZE PART NUMBER Z 100 MHzZ @  500 MHzZ @  IMPEDANCE ( Ω ) FREQUENCY (MHZ) MAX ( Ω ) (CONTINUOUS)mA<br>1206 3216 LF1206A302R-10 3,000 @ 10 MHz 760 166 5,650  19 1.05  100<br>1206 3216 LF1206C202R-10 2,000 @ 30 MHz 915 180 2,505  41 0.50  300<br>1206 3216 LF1206E152R-10 1,500 @ 50 MHz 946 169 1,564  57 0.30  500<br>0805 2012 LF0805A252R-10 2,500 @ 10 MHz 1,248 306 5,138  25 1.25  100<br>**----- End of picture text -----**<br>


**6** 

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**FERRITE EMI** CHIP BEADS 

## **0402 Chip Bead Impedance Under DC Bias** 

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MI0402L100R-10 LI0402C220R-10<br>16 500<br>14 0 mA 0 mA<br>250 mA | 400 60 mA TAiN\<br>12 500 mA 120 mA<br>1000 mA 180 mA<br>10 1500 mA 300 250 mA<br>8 2000 mA 300 mA<br>200<br>6<br>4 100<br>2<br>0 0<br>1 10 100 1000 10000 1 10 100 1000 3000<br>Frequency (MHz) Frequency (MHz)<br>LI0402E190R-10 LI0402C470R-10<br>70 PE a 0h peer | || || 100 TTT nooo<br>60 allete 0 mA100 mA aPasaetee”a A a atesPsa 9080 ilacemand 0 mA60 mA ftTeefe8)*reNeee<br>50 200 mA r 70 ES BA} 120 mA 1oP<br>4030 alHHHBAI 300 mA400 mA500 mA 1ee1ae7)  |{ 6050 FEHH 180 mA240 mA300 mA EMEHt was)oems, // re Eeeit<br>Pt I AA7/0TT 40 rHee Rttm a°7 //A<br>20 Ty  AL TT 30 A e<br>20<br>10 a ay.| 10 aeCOeeeee<br>0 imeaei ces 00 AY 0 eree es Tra<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>LI0402E300R-10 LI0402B800R-10<br>70 See ee Pe ee ee ee ee ee ee en 300 Se ae oe Se ees 2 oe oe ee ee 2<br>——ao—naSSff.  — cc — oe awas —JOO<br>60 pt piSSS Sle Seepy 250 — a 0 mA _-—_———<br>— SSssisaasasasmso-s — 40 mA _—— a ————<br>5040 IEeeSSSSeewses————areesesSISISETesee eewereaes Ses EY 0 amp100 mA200 mA300 mA Feeeaoo6886sSpiipPpp eee+ee pty2aAZ22area]rteee 200150 We-—————oeaweplateJeemweeres5 3a tes 80 mA120 mA160 mA0.2 A Ls—(eePOSfr66 /SOURSENSo>mest:——ERSSSaEerecreseee<br>30 400 mA<br>20 -—etn—< eee 500 mA Sasslshoeresapet oor tttoases! 100 —aseerslem a eee east eens!scarSe! a)SeemedAnnes ‘measrrmmeseey<br>( gt  EY EES Shem MSS 1 7) SEAS h a RA:<br>10 [poSSSsii SSS Sr 2582 Saas: 50 i<br>0 PpSees— CSee— aeOSoeesoo aee ee eeaeoneee oes 0 amanREST| ——— oaarTSSo 4 AeenseerEE SSSTEamare TEESSESScee<br>1 10 100 1000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>LI0402E600R-10 LI0402E800R-10<br>120 a 140<br>10080 p—SSzr::are——— eeaieeeeereeee a 0 amp100 mA200 mA ER | IEettTatts6 os Se=a—+—teSAeee.4 oo4 a Ow 8 120100 20————TSSEH—+TT Me TTedee ee—100 mamA EeePoiSSese::aeeee iii2)ft fity7iv attsuesae.<br>eeeaemess 300 mA bith a co ESSE ee<br>60 EHp++ 4-4-4] 400 mA500 mA Poitiieeeeeettie commenterATi mntttttil ee—S— eeA oo<br>P—t ++ sa cP scoala oo ET co EE — 80<br>eae ma<br>40 P —  ease e eral 4a enaeeanese ao eeoSee ree SS SeCDHoa eee ess<br>— SSS SiS Ea Sse Sst<br>— oo eee eee pt SA ee<br>20 <aoaeetcot! eee ora osoeeae) oooeon reeaseeet 20S SE— oa cesettee ae ee ste ee eass<br>Seal Vite ar ‘i 2e- —<br>a sae ees! nee<br>0 Ce ee ee= 5,eeeSe ee 2 eeeeee ee 0 1 40 100<br>1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>)<br>Ω )<br>Impedance ( Ω<br>Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>)<br>) Ω<br>Ω Impedance (<br>Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **7** 

**FERRITE EMI** CHIP BEADS 

## **0402 Chip Bead Impedance Under DC Bias** 

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LI0402D121R-10<br>**----- End of picture text -----**<br>


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LI0402D121R-10 LI0402C221R-10<br>250 ptee 500 aes eaea ae BA | |cetee|| |ET)<br>rr 1 —_ eth a || | a a<br>200 etan=Serieeroeoe 0 amp50 mA aeSeCoaoe  _esen EarSeee—  BoAaPsaoe = 54 400 th—o—TmerhOR a 0 mA60 mA120 mA CiCoiCede——_ 1Tr a  eo<br>150100 Sep—_—_+—_}p—_—_+—_+eseeeeSaa  asPamESEaeSeBaetittyeeea 100 mA200 mA300 mA400 mA e aeeeHittmeHesHae}e oys,anee44)sae odseoea4 oe ae erALAee eea 300200 —o=TetheeorThTTRG TT 180 mA250 mA300 mA CCl)SEs)ce)iitCetEECES(ie ae, et,Pass'ayaeowee202aeAa eesavaiatsa)§7 EEE!See)eeSokoe, \ eT CE PtELOO eTEET)<br>p—_+}——+—}ft fintiti JoazetisBatt— 4p4 Ttety itt————o—Nnh the OTaTooaeietoo<br>50 pnPfa -} 4-1 —. eeeFH EHSe ae aa 100 —EAEi.enTiti | | Avidios!a |2a| tii 6 | 1iiiii<br>J ee| ss: = a CC en ie<br>a eT et a | ee, |<br>0 AOO >etSs a| 0 en——eSee oh + +} 3 |Ht GG<br>1 10 100 1000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>LI0402B301R-10  HZ0402A601R-10<br>600 a —— eeeo——ceeas Ee oteeeeiN eeees 1200 cee e eSs0 SSae ik 5eS)Ose| es Me me<br>500 SScSeT aSHeSmm | 0 amp Sseect2 eesa  eee.aeaerie +Feite 1000 SEoeee caeEeTS eeeeed MUSE a ee esee aee aE<br>400300200 aes—SSS=::eselSseeieeaae——abhoesGeeeeeeaaeseeeeaed ae a aaeakereteeeess osoebeP|i|| 25 mA50 mA100 mA150 mA200 mA EEStorSSesetiaayLeSasaSane2aSSSaas’LioLitaSaCoaae  Se68eeeel2606.iaCCl eeAearse2aay2gwaw2 4aae ehoe4lsoe oupee.rrraaeraerawesoeeeeeeenwareiee eee. rrees. eeeeee eeeeer.ast!vat eseeettveeeek 800600400 .waeSaEeeonaEE!eeaSsitaaeemmneatineamaiietediciasaeaaeeeeeseeeseeee rerefarsereeawseeSeesrreeewesc Sleacsne 0 amp25 mA50 mA75 mA100 mA SCOLe(eetl/s(eeee,(2a2a.aor.(00)ei- 4260 e8craaaeae/aae ala e aa7ateea2‘*ieee FaeeeaeaareneereAieee eea”e e OH eeea LeeseeeeeeaeeeeSeeseeeeeeeee+<br>100 ee$$eeeseeSe SS e Eesettee Ses0aeeeeeTeeeee ea e ee)aeetgeeeeeee (aee e STHesfdoe e e Seeet 200 (OaEEdnSSSe e tesGe  reee e 5)Seeree ewerfF OOO.eeleee ae dneee2 oe<br>0 esa eseseiee eee| esee etSSeeeeeeee eeeeS e e 0 Poeee————_—ee ellente eehetee ee ee ee<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HZ0402B102R-10  HZ0402A152R-10<br>12001000 0 mA25 mA50 mA IK\\van(\\\\ ; 160014001200 -——]Tha——<ea—o_-rhThSs—T—at FI4) 0 mA10 mA20 mA onPtSeer.ocTimeeocceeee t :ioy)ce) ot— toetaa SOstttoooeetSess) oneeoett oeee oeeeetin eeeeteee<br>800 75 mA100 mA é \\ : 1000 remeeeTtess)——-F)es oesos os|| 30 mA40 mA oocaSSCs)tttaeam eeeeeeee OOStt s) eetTeetT oetri8 te<br>600400 fii, 800600 SEE——JL——oC—OiTH}GSar4}es 50 mA ee eeSONS} —acoe.an ia ier t2) aemeee)i——Sectertosctt oomeenamoe aeettested<br>t a<br>400 Ssoreeaae 2)ee<br>q ee ee ee<br>2000 SSE—<——=BESexia SSSth." - 2000 ab—SSee=a— aOTSSK e ONerreee ttea 2ttA6 Se)Etel Aee eeon noslSeieoee oe oeow ee wT8 Ae<br>1 10 100 1000 3000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>HZ0402A182R-10 LI0402E750R-10<br>3000 Sy ——Toe 120<br>SS oo<br>2500 (Sar——ar——mereeoe 0 mA es OContLittl O ltCls ee eeeeet) ee e e tet | ee ee eeee eeees e t 100 0 mA }<br>20001500 SaSemSeana:Paoses<rren—rr—crrirre—crrh aSeeeasae eeaettweots|| 20 mA40 mA60 mA80 mA100 mA jmeatie!Cootemeets)Coemeses)CooLilieCooeectsmeat!CoeCoonCe eamekSS&eeteeeeeeleeattReSee)OlterTiiS8tr sl eeeeeeeeeUdtt eeeeee e eeaeeeesseset 8060 ; 100 mA200 mA300 mA400 mA500 mA : -<br>1000 o_oSEooee ee ee—_ eaBitEoaa 40<br>Ce a on<br>5000 SeeePtaesaeOOa emOSa SSeCaeeees <eeeeees ceeeee6k et-efSOOaoC0.C0esoraeareee eeeeee= aeeeee), ae,|hs||| eeeeeeeeeee eeeeeePitteeetee) 200 . '<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


**8** 

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**FERRITE EMI** CHIP BEADS 

## **0402/0603 Chip Bead Impedance Under DC Bias** 

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MI0402K121R-10 LI0603E470R-10<br>180 L—+-}ao4 HHH} —}- +}FH} Ht}—$} Ht 100 eeeea ea<br>160 sr Sosoctroe assste e setts 90 ro a<br>1401201008060 SS:aSas—————=Sdee e ———T———— e 4 0 mA200 mA400 mA800 mA1000 mA1600 mA eteeoeFEooFea\‘sasceteao|<ietttAee oeettOe! SS——<—a—ae aecesses:serooeeaOeoeeooe oessi aSeoeooeoasamersasstsa—oaeeeestooo ooooree eercert 807060504030 }—tmeneel=eptFstmaaecmelSee.paweeeS aetttBel — 0 mA.10 mA.20 mA.30 mA.40 mA.50 mA —_I|Hiaes!imars,ROATih)COHTLEJoo1.74.uae,AAAAAa e/a||AeSiiTitiAgavef aeintricaCe1 meesil~ Wliiintii.<br>40 aSe ease oe eee =s".eeetet 20 Caee e<br>20 —eoscesPe aaa asses: eae ee ees. oases 10 | ae Ee<br>0 bt=——=*eTenees SS ere Seeeran Oe SS a 0 atfteerTe tT0)0 | Nh | a<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>LI0603G800R-10 LI0603G121R-10<br>120100806040 SSSESSaeDSSorSeams———Ssi——eessaaeheeeas—rn a geetSesweESeeeetETeeeseerraeeoeaesae eeiHDeesata ee 0 amp100 mA200 mA300 mA500 mA700 mA orPORSsS66eaessptiCoaacTTCeeCoC2CoCoaeaeCopaCAee)oSSSP.2°.ss 6aeeZZaeororeeaeaoraeeelee2or aoraeeeaaerasOcoaeeee2eeAra eeeeeeeSasseeeeasea 20018016014012010080 Ses_—_—---———FSSS—————eFheeeS — ===;en——Soe———SSS)ternalae— reee—F-F4as=tee Oe=:sss|  sss 0 amp100 mA200 mA300 mA500 mA700 mA oomaeeeSoeSasa——=(———=)SspS]a[aS(=eeaas 2533essS28?eesSS ensssssSs8+ seeoe56 Se ammo—— e —ea———eea <a SeSHeeeeeenSSeeeaamosooaarose! e s weSSEee:SSeesaseas, Sessess!eeeae02S<br>————a ee r eeeaeee 60 PeHSs SS SSS S [SSSS53. SESEES:ee:<br>200 aeseeeeeeaaeet egGeeaee aGee=aoeeeaeteeesaTeeeoesetSSaos a aeeeeeeeeee aee eeoe eee 40200 SS——=SePSSPESS eeeaSSee= —=eS ==.=eo Sea aw oe ee0S———r e eeSStteaeeeoeSSSteonsne oes oeEEE:SS eee SS Eee:aaaSees:<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>LI0603E151R-10 MI0603K181R-10<br>250 aee seee oe 300 T| es oe?!) + & Cayt TH |<br>SS SS Cs es Seti t 0 amp T tT |<br>200 ae——aa BsETEseeeh at 0 amp100 mA SeCoCoCeLea77 aeSoSE 250 oa|}= 100 mA200 mA etHetT+ |t jmeasm nasi!}|<br>tarsSSSee ka 200 mA300 mA aLEP a a, es a 200 | 300 mA ; a |<br>150100 aeeeSSaereeelhetRaeSeree HtEaa bl 400 mA500 mA COCOCeraCoASSSCCACre0 6) ZsaaaZAsere2)reoo weeslaaNs 150 sa||I|t a - 400 mA500 mA Sidbton| /ai} eses)eae!>|| |<br>aeeZaa a cs eeeeeol 7at ee yi a EEE 100 ftt} t} —+—_y—_—_———+}|t |<br>50 aJfpf 7Seeee a ae 50 +i| . oesifi +} ++ |<br>0 eeai0aes Oe Osgeeeee eeeiLL=ee asee eseeLe 0 ij|\ =t awsi4> EE SSS S18 i"} im 58582)|}<br>1 10 100 1000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>LI0603B201R-10 LI0603G221R-10<br>400 ———————————ee ee) eS eS eeeo 300 ASE SE ee a es ee ee Se ae<br>350300 S—ESa———epe e oreEE e.OS eseSS)eaeSSSSSS Se e2s.oe es)£66)ses tet ts )) aeeoeeelssts esis 250 }——_2SRetenee++ eosReedSes —ees Fr-++41aS iaeti 0 amp100 mA200 mA R-+4Z|Ptetttioe44thaolasa2Oa e aAHeeenao e le<br>250 <a Sees easeaasesaa 200 EH 300 mA te RS<br>200 jePR——ooasto—_ooeestSe aeect eee aeees: 67s)27s)tesanmasas!aoef ass. mecce:tamsSama=o a sesaessseneensts msesis 150 ————Tt]eees Oeesa os onek 500 mA700 mA Po=e|pertZe A,tee—ae4rrae!AWe ©eeet<br>15010050 <<SS[—___-4.-$.-4-4-4-5445---4———cssecmsaaseSsee———a————seeeeeeooeeSSeeiTeeeeeeeSSrri4 iiao|i0ee)=|aan/ A 0 mA40 mA80 mA120 mA180 mA200 mA oesiantSee2owS——oaosea teesenoeSaaneeesia Sesessoanee oeae esiaearls eeersse: 10050 fSSma4 a pt—STa+--+. Seeeeee=o—EEFHe/ENN0S508 eeaeeesOheareyoeaes’eSWotAAA  aeaett|4) — eeae—wsoree Sa,eeeebeeee Seeeeehetei.<br>0 et— — 1 A SottttSS Sstii —a. — aesaseetsFF 0 SS|eee—  ie——a EE -_--— oofp eee<br>1 10 100 1000 10000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


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**FERRITE EMI** CHIP BEADS 

## **0603 Chip Bead Impedance Under DC Bias** 

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LI0603D301R-10 HZ0603B471R-10<br>450 }———7- 4 dt tt} i te a a tte 1200 Se ae | a | ee<br>———— =<... —— sass ——oconss a<br>400350 _———————— 0 amp50 mA ——<==:<== = So2..t2) ———-_——— 2 ooo— ereee ss 1000 roa|  a 0 mA a || a a osa S| a see|eT it<br>300250200 -———a—oos|SS——SS SF)=F: 100 mA200 mA300 mA400 mA ——<=——RohopSee——=———-——=<=)gtiooiss — ——see atpss——<<eeTEoeoasessaucesweaaa aee astealAostol 800600 =}===]| 25 mA50 mA75 mA100 mA |ar——||er| aaaa As AAa oe ee oose)osoS|re| aNE Tee)| aenee easyMe<br>SS SSE} ae oe | 200 mA ce to<br>150100 ——eeSS e SS eSS22222.eS eee SSSeeeeeeSS21 i Sseea Seesa ee 400200 C—OSere|)| a | OEa oS a sr |iOoeeA a |aea<br>50 SS SSF =F: SSS SS Ee SS SSE: |A A<br>0 PSS——SSSeSERR SSSy SSeeooSS SSSSSSSESEsss ES 0 TCCeeee |a |a|<br>1 10 100 1000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>HZ0603C601R-10 HZ0603C651R-10<br>900 SS[raSS SII SSE SSTa SSDS STSaTEEtee 1200 eeee ee eea a eeee 2en eee<br>800700600500400300 SSf—————————_—SeeSSSeeaSS[S=zaze: S ——S==S===:SS————S $4ooSSeae[Stzteiee==SS=2222.-t-t]:::::oolSSSss  SSSSS — 0 amp50 mA100 mA200 mA300 mA —SSSSSsssstsSossseeo—S=223————)eeSS525Soo=>.==>.Prpittie= o————52222 222SSS2552- =>.eseS SSS————s————SSSeSassSSSa anobSSataSSsitensrrSSS52:aepagmesesSEEFE: Sst:osssseeesee:ssstteeeee 1000800600400 SeconimeshaD+———erSSS7?)pone—Sea— e iaa eT teen+++ceeCEESaasa SeSeise =eytttff] = 5senter|rr ee 0 amp50 mA100 mA200 mA300 mA + _1_-1aePanos!ceeeteirreseCPtacee,HottaeS500,SeeTA tteeeis oa aappieceeeoaeraeareeeea—_¢1ibPaeaarsaa3-1tereelaoeoeaarea AsoreneeeeseitaoSiresessteees e eesseae«<br>100200 Soe—_SS_==—Sreoooo[2222.3—.<so2ss—=...22 SSSesSS2 =on Ssetasia2==226seS ssn————SSooaoooeee25 200 LEp——t————————————Seeeraeee CE e CSFtTTttt eett eeeereeHhoreooeeestameee<br>0 ———=>--—-__— _---me2 i 252oe ——SSaHSSoe EEE:es 0 Ssaepp a eTrr ate—elertyet tt —eton ee<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HZ0603B751R-10 HZ0603A102R-10<br>1000900 [SSSe——+—Sees Seem SasSlieeoe ae as SS eeemasre SeerSS888Sleees Sat SS otooo 5956SSS Sees SeerSSSa  omees caresSSaesss Ses eee 1200 CanadSeaa  ceshaveEDwebastaeeSSBids|ELeeosdsaskecholelkeee oe eeh 1tlnnndosshallplehiat|<br>800 HSSHTttSSEoo SZEE 0 amp ===...SSSsse3 a Se— ===:asses 1000 ——SS ST Se ae eS)STee SeSOA ED<br>700600500400300 ———___———S=S=S=:SSi—SS—————|Se—Se—SSSSSSs5— o =S==:>S==:=SS= = - SS: 25 mA50 mA100 mA150 mA200 mA SS.===...Et————--—Ea==.Er<->.SSeSSS2555—Pte [Ssss5-SSSsSSe-S525:] a= 2= —————seeeeSeee SH— — ———+eeee——_—-ons ==aaeee Se————— eee+SSS:Sasmaeesaeoe-—soses oeSsss oeeeet== 800600400 — ——-—1—ot——| — =a—s|==—— || 0 amp50 mA100 mA150 mA200 mA J.p——aree—osAreeC—O—— — C—O—[Zoa je} SeCerrrsaeaeaHHSa—Beoe ben e eZ oe be,AAfa a’;fh6o)HSfe ce aameNN|ae.oy eeANeearhee\I aeeeeee“aes<br>200 SSSS[ S [SS][S] 222SEES [ SESS] sito 5 [SSS] SSSSSess ISasLESSoe.SSSeasSS S ESEEEESSSEes.:ess 200 — s — —EE e a ae eSke4 a ‘<br>1000 —— a SSS=S>—=-|=..:--ee ee eeoe 2 5,— ee23SSf=SS ==6SS=S5332222SS  SSSSee SSSESs5:ee oeSSeeeee==:es 0 en——-oean ———ee esee. 6ll a  eena EEeeSeaieo) aeeeaseaeea<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HZ0603B102R-10 MI0603J102R-10<br>12001000 CeeeyeeSsSS,—- eeeeSSeeee RS ESSS)eseeaeSeeeSeeeeRSeS Ssee Oe)ee SeeeeeGT EDA 12001000 0 amp200 mA ; awtHos+—T a Ti | 7eentitHt- tt+atttae t ++Httt<br>==— Ssee a i ee eee 400 mA Htrt + ae +4444om a<br>800600 —|=eela=——!—| 0 amp50 mA100 mA150 mA roessereaaoeesCeaeeeees eeeeaa Ss2s) elaA aeeeeeeeea aeAaes| eeLa\ weermaneetee 800600 600 mA800 mA1000 mA \ ' j \ if jeans<br>400200 —wwme=|ee e As6CS Gee 200 mA Oe eeaeFrEE,a——oerieeeeOZeeeer Aeeeea er)ee el68s)!reafl2ee aOZeeaeee aeeaee raeel| eeeeraeeae 400200 44++atrtspas Hwwewae t e 7 Atdy, ijj , \\\<br>0 EDSeeesa  Se=SSaseeNDeg——eedealee eeTS EeeeeTSee 0 — 651)a SSYZ4lsSe jewOet++H+wwieee!Sit<br>1 10 100 1000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


**10** 

www.laird.com 

**FERRITE EMI** CHIP BEADS 

## **0603 Chip Bead Impedance Under DC Bias** 

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MI0603J600R-10 HI0603N300R-10<br>120 EY fT NY Or CY 60 2 i | Looe aa<br>Se ne: as ol oh ee em | ; it |<br>100 ———=SSS——rmoonSerery 0 amp OTe a trt 8 581 © em eT meGe fe 8 50 Z}|} | a ae ana i a }: ay ox me; a ( —; mmWamtti|Bas||<br>80 ——rh<a—=Sn Seaseens 100 mA200 mA400 mA SctaorCeeohon —otre errereroeerae 40 a}||| a 0 amp1 amp2 amp + J11 ;i tttms ahoonwmatteey}<br>60 eeeeri—[Ssosurn—S eettee a 800 mA1000 mA eeemmm)onSS aseaee a  aee 30 }|| 3 amp St AN2 Coont }|<br>— Ss rr St ree | ; \<br>40 P e a — — 1e eare47 600 eo ea eea 20 |I a ri LANA 7 bea1|<br>i oe ee | ]<br>20 Seere— ee esA eaee eerodoeooo 10 } oe: Perrini! SS iri1ji], Ss eeeane ess|a| t s<br>0 eoSe—— eS 2———— Seeyerooeeeeeeaseae OOeeAtoooooo 0 i=||I | =ew)—a a : easet }}<br>1 10 100 1000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>HI0603R300R-10 HI0603N330R-10<br>50 Ss SSS BE ay es es Be SE ee eee eee et 60 FSR ae eee te<br>45 SmSSSSSEmerBS omeSSBSi ESSas SS SaSSS aSSESSSIa aS aSSSS SaasSSSISEESa oss ||} +h} |ft eganiitf rm eaat } :<br>SS SSS 222: SS SS S522 Ss SSE Ee 50 [ae 2LS YY A a<br>40 0 amp 0 amp<br>3530 ereSSae=S=2) 100 mA250 mA500 mA :—->--—————=—-—pp Stitt <=Seis— oasesas 40 }ea } 1 amp2 amp3 amp iti]<br>25 1000 mA 30<br>20 +}—t—} f+] 1500 mA iat sti ftp pity | |<br>20<br>15<br>10 pra | { t : t<br>Pe 10 FS a Ft Hy<br>5<br>0 -——+— — sees<=See os=>:eS eee ae as===:ae ases 0 i! — a5 oaasil5 | a<br>1 10 100 1000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>HI0603P600R-10 MI0603J680R-10<br>10090 = 0 mA oy ESE Ei i Sat 120 ———— eeToere<br>80 = 200 mA SS 100 0 amp<br>7060 == 400 mA800 mA2400 mA isinsist /See:EV 20) 9) Seem 80 td E —Sait= aanee eeet 100 mA250 mA500 mA eAeccoSESSoasrr cett<br>50 = 4000 mA PALINAf ffi \ || 60 —t==aeeesr 750 mA a ities6 amWatar<br>40 Ssesaaes 1000 mA at—— re<br>30 40<br>20 SSSstHH S SSeS—S4 yFe SreeMIY} 20 Ssreeeooee Sseratseiiiiete2 e eeeesme [Coste] iAceniteeeeee eneaese e e t<br>10<br>0 i—s— oe ASSSS= SEs SSS 0 penerr— aeeaeEC<br>1 10 100 1000 3000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HI0603O700R-10 MI0603M121R-10<br>120 180<br>100 0 mA1400 mA 160140 ———<——a=s!pti iy 0 amp500 mA ERPEPE—OoA bopiitng<br>2100 mA 1000 mA<br>80 2800 mA 120 1500 mA<br>60 3500 mA 100 pt— rh 2000 mA2500 mA Pifitihoerbop isin<br>80 Te pausstomunn—— oureemsiearFr es<br>40 60<br>40<br>20<br>20 SSSSS SS rreeeSSSSS SESSa ae SSSa SEEEE:<br>0 0 aSey<br>1 10 100 1000 10000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **11** 

**FERRITE EMI** CHIP BEADS 

## **0603 Chip Bead Impedance Under DC Bias** 

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HZ0603D102R-10  HZ0603B112R-10<br>12001000800 OS—Se—eeSm—|—|—| BEAL 0 amp50 mA G6 SS—_—si.oo.—aSaYaw MR Ni,eeAa  beASESadakra dFST7 |<<aaOGeeES MaCEmeoo aeRTGOoases 1800160014001200 =E|}|ti! = 0 amp50 mA100 mA ———_——___—__---— ees— I>or——si;;ij<br>600 _—|re—|al 100 mA150 mA ——a a,Sel) As sh) ease 1000 150 mA200 mA /\ LX j<br>400 ———I= 200 mA ———Teee — ———er "aceroa [2A] eest anZr aah. \eesesee 800600 t}|f feaee AP¥, //Zra E 3|<br>ee A Ze f j<br>2000 —eeEEeeees e aaeSSee SSee SeeeeadDSEEECaEEESERRE:aeeeTET——AeE00 SSEOeeeeet)2  GEEaaEERReae aesCENSoooeeEDOeGEnee 4002000 ee|t| SSssaaLLSS: —tis SL= a f_baA __-St++ —--+-«Et37j;<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HZ0603A152R-10 HZ0603C152R-10<br>2500 oo or a a 1600 |<br>2000 oy=———o—T—To—ohThwTTe—e—ee————————— 0 A OUOECoeCoO eoeo 14001200 — 0 mA Sst ——\ ——===::<br>=A 0.02 A Co a ea 50 mA '<br>1500 aealiaa|= 0.04 A eeop ii  eeeeee Te a a 1000 | 100 mA +++ *\\| ase es +44<br>Cameaiiael=e a] 0.06 A TAha NT eA ODa 800 = 200 mA = Ui te\ 5 ee ee<br>1000 =—=F|Ss a 0.08 A0.10 A eeCeeaera ssa48 esee aa1Sl teeelee 600 |— = 300 mA = \\TT. +1 tT<br>== e/a aT A SSOa —| — i $433<br>500 eeeos Fa5) eeLM OEee ARTIF) Se htaoooeeee 400 | — 34!is \\x re<br>eseh 200<br>eS a a | ah = << Sse<br>as Sea |eh<br>0 —— a Sssae eee.a Aco ShA 0”0 |a)A| kB 0 —————gee : mene||<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>HZ0603A222R-10 MI0603L301R-10<br>3500 _——— ee — es ees 400 | ersee Seererersess: =I SII<br>3000 —_——_—__—SesSSS SSSa ——SS SSSSssoeSSeeaeseis 350 0 mA x<br>aee esses: eee 300 100 mA FESR SSeeSH BSE<br>2500 —SS===: (Seett = ——oeees 250 mA i)<br>SSEiitt———— 0 amp it Beasts 250 | 500 mA cSSHt S25).Se<br>20001500 -—tray=SSSaEne 25 mA50 mA75 mA100 mA eetais:oeetaee3aeoo aaeeeeeesit1 +ton or on os 200150 i| 1000 mA2000 mA K_// A\\aAVN\\ |<br>1000 SS=SSSe2::es SSEH ———— 100 ; BSArArs sii §b<br>— me een RA tH f 9 N<br>500<br>S <nSSeeScst ie eeas eeeee oeeas aesilyes 50 aZ|<br>0 Sas Fiia— eearia—eases:er 0 eee|<br>1 10 100 1000 1 10 100 1000 3000<br>Frequency (MHz) Frequency (MHz)<br>HZ0603A252R-10 MI0603K300R-10<br>3000 —————;;_*_——_— ———_x_K*—T——~~—Ee———=ZX&K$— ooo 50 SS SS Sl SS SSS IS Se<br>2500200015001000 —_is)—_ — ————————————eee—="—=—=|ty=a——)| 0 A0.01 mA0.02 mA0.03 mA0.04 mA0.05 mA emmaemaaentore P COSeeSe[ptaCorrenCaerirareceeom mmeseneyeeee!terea'seeaees)P|2) eece|///ayaakrrrtSSS eai e \meeSSS)s| meet rnOSaetSSS)SG)etti ||| eseeaeeeeeee e  ae eee eeeeee oeee a  meteeaaeseea 454035302520 ToSSS————SS——[SliSoSSS—=f+SSSSeeSSS=SS52:SS— —Saat!SSF!SSSS4 ===:—S=4tt =F: EEE:Sea!Lte:4=4 $f SS 0 amp100 mA250 mA500 mA1000 mA1500 mA SSSet=SS S PpSessaSeeS252FHSSSeeeAti=eelll= igtih Sees222.--555 >" [et] SSSSSSeereyaoeSS aeeSSSSasso—SS  — ees!SESarti:SESEF: aeEeeseees E ===I:<br>500 —= a 7)TT FeSEssEEpa [STF] eeeefs)Caea 227s!)7,a [f] Eseeea 20 aeees aaeSekeaCet)1ooo|| aa eeee ee 15105 SSS——————SSSSSSS555533——aeeeeSSSS SS= SS= oeSSSS SSSESeeSS8 ssSS SSSSs2oo—————le  eeSooeSeeSees— eweSEE:cesseeweess:<br>0 erlee—  ae_ ee060) eeSG2SSE6 0 A aSS)on| | Soooea ee oS a | 0 Pdeee————— bee2 Le———erSS =———----eetSSS SS SSStty<br>1 10 100 1000 10000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


**12** www.laird.com 

## **FERRITE EMI** CHIP BEADS **0603/0805 Chip Bead Impedance Under DC Bias** 

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MI0603J471R-10 MI0603L221R-10<br>600500 omer‘ap—HESaeesee SeaeeSEeeeeeeneeeeeBetisoeoeeenseee eee Ba eee e 0 amp100 mA250 mA s22(Sete.(SOC(20:eEr(SS0e)oe OS es ae= aeaoeeeeo«.estSauamaeseae.eeeweaeee ee Seeee ete eee 300250 >—et a Ssesa SeeaeeeeetTNEabeteweeeaseaawrHeet 0 amp50 mA100 mA eeTTSertaBeesBestarSoneraLititz?s azaraeUeeel . aa” [U7] ee  SweeeseeeSeeGeesesere [a] eee ees:<br>a 500 mA oF oes PH 200 mA PHA AS<br>400 ees—aoooeee eesticere 750 mA1000 mA \o8.httPATci sereoaee 200 —PHoo ose 500 mA1000 mA tAeee 2 eas oss ota<br>300 ——es e eoe cy 150 re 2000 mA ith A<br>SSEPFeeTEe0 ee ee G e  eea) eeeee ae)ee te 4 ORMEes SeeFESS eeeas A bs ee ee tittyee) 2 ee a 2aeee<br>200 rrresPTee estTeeTiti «|rretIt eiitil. a|eea amtiit 100 SS——es SSoo oora oo esteeee oe 2rs2eeai anee heee ter Gommeeeeosoree 6) esnoe<br>100 eeeesSs eeeeOeoe eeoe eeee ee2eeee eeeees)eee. aeeeeeareeee eeeeee 50 SSESes SS Gee cee oe eSeeee eea aee 2 eeeaee eeee  eeeae  eeteesee<br>0 e es— s Ceee e = oeeeaoe ee—0 eteeee Lee e aALi...eae aer)eee.eeeeee eeee eeeeeeee 0 Ptesesa=  ee Ges=ee7 eeptaaneseeeettSSeeaeee  aeeeeeeosi eetoeaeeea]meees:weet eee<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>MI0603K471R-10   MI0603J601R-10<br>esibe0700ed =EeSeSE———SSSSSS25—rs 4Ep —o2bomams ESESSSSFPSSoesSe SSSSaSE SSSamasSSSS SaSasettsSSEreTEE:ht!EE 700600500 [4ro——pta—Sptpteeft,aaa| 0 amp100 mA250 mA500 mA750 mA pbbSectpaSooosoln!HeeBo soes!ssetmeraemes iherptaaaaeeoocsesneoreastttt<br>—— ===?! ean ===! ZS 400 Ee 1000 mA Ho<br>400 = =i]SS22 1500mafNAMNRW Saas! Aya:StS<br>0 SS SES teeSS SESE GANS 300 <_< oss Ses) ssa er (hive © fe<br>200100 SSSodeeSSEeeEbitiiiseeSS4 eeeSSSLiiiin A SSEeeZeePiaty 200 S eoSSt SSSeSESas SSS asst:SR<br>o '_—S—=.22SS1 3 ~~~ eae100 1000 100 pSetpe—arreeeSEE<br>Frequency (MHz) toe 0 }——WSeets ea= eS Setsaasesas eases<br>1 10 100 1000<br>Frequency (MHz)<br>HZ0603A182R-10 LI0805G301R-10<br>2500 400 gg—soSSsspy<br>2000 || 0 mA10 mA20 mA30 mA / aN {i] 350300 -—+SSS==3;—-—SSSee +HSf SSS 0 amp100 mA200 mA Ss SSSSSsessioesHoHaHoHottSs titt S s= aaREtmensesHtesastt<br>1500 | 40 mA f ‘ 250 PSE—<aas!SE===:SISELY 300 mA HpiepBa ppgh [Spat] — pri<br>50 mA | 200 ae 500 mA Set<br>1000 }' aeeer //)iA | 150 rere p FEE—eters eres4 700 mA oHaatSeeseeHhPepiSo oe cot aeereeefbco  ateroe  aessetaatPEwl<br>500 +epitt i= 100 ee FF seen eeEeaees ae esse<br>Piz4 50 —FEa asses a a os ee es ese<br>OZ, —S ee eee ooo<br>0 SSE?=< 5 SD> A | LS t | t ] 0 SS es —— SeeaeeS221.— 2625eoaeSSes a SSaesseeooSea Sosaee et SSSeeooeetes esSoSeereseeeeeco o e ose w s<br>1 10 100 1000 3000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HZ0805G471R-10 HZ0805E601R-10<br>700600 -}——_+—_+eSp—— + } Sothys 0 amp rSEeeEHHES fp PP ity 800700 SSe e PSSSSE F 3 0 amp eeSS SSSeeJpe e iipis-e SSSee Sees:<br>500400 -—+—F-——-F—===z:—SSoeS==E!— ae)7]4 100 mA200 mA300 mA500 mA700 mA SseeeSoestepiSescssBEFSooAce s stteerasrann sores.SSEaeos oecosccesseevateSse: aeesseessees 600500400 -—+-—_—+EH—eraseasessare’SSS==}FHFH 100 mA200 mA300 mA400 mA500 mA Ht{iasssssai=ssssaacaacasssssssPSSeerstroaasaetarerePoPiSSasstoeerHoepidih itihe accra=SRSemanoeesfpSasaassesses—neeessaaaseeessdiiin:sesssath<br>300 ——+SS=ze)——e e PASSassopeoo nersi 300 -—+—-F t —aases#4 IS=o.perth——st:te esetSa<br>200 _—+—PE a SSISSS—s SSSsas SS See525 s  tameSSeSaaaIES ssastisameaaSse SS e nemaseS EERSTEtessSes:<br>oeSa 200 SS SSSEES<br>100 soSepeSSEes oses oeses oeeseaeSSH eaesasencase eee taro sammieSEPmeres.eseTE¢ 100 SeesSEFESS ontSS aSEESSs ESSSSeee aote ett eee eee aneeeSass<br>0 — — ——SS.——eee: 0 SS a<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>Impedance () Ω ) Ω<br>Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **13** 

**FERRITE EMI** CHIP BEADS 

## **0805 Chip Bead Impedance Under DC Bias** 

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HZ0805D102R-10 MI0805J102R-10<br>1400 —— Ss —— =e) es or en ea 1200 ->—}— 1-H Ht HH<br>—— ee ——_— oe —<—— ae ee oo ee<br>1200 iSSedeeetllimgibetiebalislSee er1204Hetaa etae eeea eeeee ees 1000 ‘MEETaSSiatab arersasKD mo 0 amp 2aome) ele8) eaoea ee Seeeee aeaaaa aeee8<br>0 amp 100 mA<br>1000 — So oo i oo 100 mA —— st —\ ease se -—f— 200 mA pase ave mmanse<br>ee——<—ooeas 200 mA Pott——<« is—ooceste ey 800 ———— ee— er 400 mA Corrrroes) iit63 a(GD<br>800 300 mA 800 mA<br>600 ——e—_—ee=S=22::SS—h abao SSSps a SS Se e S 4 400 mA [yugiisorerakLeetoeFFBo26001 1S05)O80tt a yw aesaesmoma YeeAVEeeaase!aes eaees eee 600 mSreeseaeS I OSaSeSeTe 1000 mA MpOeee2. 2000)4004Slsifsceeeeee 2a)oeoe | SShelSe eeee o ne e  eeett weeee,e<br>es ass Ss es Sees oe 2 SE ee ea Pesce: 400 ———e So so ewan TT eee<br>400 {+++——_— a Aa — aot—i<—oca aos4+ —+_.-Avliwgcaoe A ——rrEE r eeea ee<br>2000 ——————_——<_<<——stFS aeseheT22s  a<a oe geeso.ad ss ——Seoo Oeoo eelonme ot vet 2000 —es—aSees eeoon i wi GotC  SeeSwateeaeSrSSae at<a  PotmS  CaeesreeeesOne a eT<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HZ0805D152R-10 HZ0805C202R-10<br>1800 — 2500 [aon ench calalidclabsameaeieanl belctastatbammandacdieabebanae ln<br>——— ee | amnatdiongiiee bndid db lddieamadian baled ded beamed eoaad abba!<br>16001400 SSSaSSSPiiii—_-_---..ee—— 0 amp SSS————esseS_SSSi===:.:.— Ss se SseeeSS SSeeeSSeee =SEEFFSSSTEeeeeeeee 2000 eeeSsSSSSeeensee EseSfee ee Read Fy Sma:eeSn SSeei bs ae eeeSiSeeeesSee feefe etesoe a<br>1200 SS=E=t:— 50 mA =SS22)==2253 5SS SS SSE=: === ——T—= RitT moone 0 amp TeCo rr<br>1000800 ——$+—-+—+-+}——SSS);——— $34H$-} 100 mA200 mA300 mA seOESe2)323SFpSSPEE -i Fptis fb SS Sant SSee25b pp ith 1500 rTSeies=S2ocgEsamora CaSET 50 mA100 mA200 mA se),a ae eeas Pc a ae eeeee<br>600 SSS=et:—fff] 0 400 mA pTSreeess)A eresONSetteasEEEsss 1000 mesaSSa 300 mA erooeC2 AGGOT sha Aes<br>400200 SSSSS a SSSPeetSSSS SSStittSee Ei SSSSSSSS =.SFSS =FESSEF SSSS]SSSSSESSLSLL:EESTE 500 p——}neT——————————————SSee4-4——— T bt} 4-4ee eeeLarooFp} ——]NNPEE<br>0 |SSi—— } SS4-4-4SF22Ser—  SRSSSSSSeSSSE SSSSSSSSESees EEF 0 esC—O———_—,eeoe|eeot tT Pitiy oeft tii<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HZ0805B222R-10 HZ0805B252R-10<br>2500 —TIStoe eeeeoe 3500 areeeeeee ee ee<br>2000 —-SS— =4 0 mA aea== es a a “nt=P.OI aHB 3000 -——{——SS2FF—  + 0 mA HA}225)oooS=>=atteeeese<br>1500 ————i——S—4a [=r] ee 25 mA50 mA75 mA |aTV=aaayee asarn1) / A, |aRCL=  ELLE 25002000 — —p25<a—<——-|ae  2ome em 25 mA50 mA75 mA <<2caerceea.et sta0ee 6) a eeooreooaoeoaoooe ae oreseesee,ee<br>SS 100 mA | A a aaica tad tall 100 mA coe a: oo oo<br>1000 —I—sa—= mi 200 mA tATiaa re re a 1500 — =om 200 mA Se eee=—oetc =oeeee<br>—s rei a ar es 7 | —— So sss — oo esas!<br>500 ===eee— oa)rae: + | AAAZea a 1000 estj}oes tae aPy| e e<br>—eS esooae2 a 500 _——ooeee<br>ee OO eeere —eeee e re<br>0 —es Aoe a esAS A 8SS A 0 FtSe i<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>LF0805A252R-10 HZ0805B272R-10<br>6000 ThSS I  ——————ee————— oooooo 3500 ——a ooove tee ee ee es ee om ke<br>5000 aa——lieSe 0 oe|elie———— Eee eo——aee eeoooeos 3000 }SS—cee0 erCED2 eeESro SSre OS DSeofDS ESfg SS OSFee8hp0S eS)nfnSfp|SSESti CD Oe ee<br>PE 0 A SS ee oe ee oe oe)<br>4000300020001000 Cdeea———SeeressteraeeeesSessa—es—hh=r.A—_e ae!eaOoSseeee)anvUUor,aae AeeaV Ze ee eai)||)||||. SotoLL 0.02 A0.04 A0.06 A0.08 A0.10 A Sassiae—<rsoasei————o<rtttaaare SsSeeCSaa aeosaasa assoooFws 85syessBEGYie 2500200015001000 [===}—__f—<—=(eee)==Seee|—tt—Eeees—e——es SssaorerooOODaeson e oewerereeGset7) ee eeomoo!esertor:aps| 0 amp25 mA50 mA75 mA100 mA200 mA fags)GooRocoossaeFES!eeHtsoar<<oedoSa.:)  e HeL=.2260©1006ses—citaceteeeesestts00soemchs eeecuemmenmesttsoe— SeeaeootSeasotococoHHCoeGee oonoeseeeooooeeeeoo oe ononoeonSe oo me aeeeeonon meeeoesoreeeeeeees<br>Sse=eaeiy.fattereee ae ses d e ttilib, Sesessitii es metssstii! 500 SS — errSSEE SSS SESoea SESE<br>0 poems?_ ooee6t e te pet tp e...——peeee 0 }—————————+} a 2 —————oeFF<br>1 10 100 1000 10000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω Impedance () Ω<br>Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


**14** 

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**FERRITE EMI** CHIP BEADS 

## **0805 Chip Bead Impedance Under DC Bias** 

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MI0805K110R-10 HI0805N310R-10<br>25 45<br>20 SScomesp++rayTS  teEEted| 0 amp250 mA500 mA JrteetpPRRa es ateta eTbetty 4035 4——Hssia 0 amp250 mA500 mA ititeHaeSSCeeith lemme [bei] tee eet)Lath eeeepoeptiee EeeHt<br>15 poSeeSeai iiaesSEal me eH [EY] wsBEA || 750 mA1000 mA1500 mA ooCoaJpMeLittle ee-4-PLa ALeTgeed 302520 —==:==:tae— 1000 mA2000 mA3000 mA HeeHestSSRestsigueseease CtiiaeesanasanetsATH i.<br>10<br>ape es 15 SeSSSEEHSee 2S eases<br>5 Peaee a eeee 10 e es Seer es oes SOc few ome os tee eas cmeoa mer none So comment mee oe or et<br>—— eee ae os es 5 SSSa<br>ae ea ce es SS 5 6 2 oi ee aS 2 ee SS i ie SSE:<br>0 C—Oeee rth SSS 0 eettt ttt ttta ttttp EE<br>1 10 100 1000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>HI0805Q310R-10 HI0805P390R-10<br>50 —— ee ee ee eee eee 70 a Sa<br>45403530252015 ———=S=====-—+—PISSSSS-——tSSSeeSSHste+333SSFSSa——— — ae——=SS=5 SST [Seas] S==E25esSSSSE:+SSSeet4}] 0 amp1 amp2 amp3 amp4 amp5 amp SSS eetJoottess!esSiESERESSSSSSss3sESa==5232SSsss2SSeeSSSS5333SS e dititeasetmee-smeceres2522assSsseSSSms——SSSSSSSSSseeotee See SSSoaeatsereesSSassessesat meSSeSSS52555SSTpipie:eeaeersSeer.SEEESaesess aSEESeasSEsis OO6S|8,so ISS-————r}$——+S=aa——oe——_——......——4000temISS—t—— oeSS—=.tJeo4}oteee 1000 2000 — —  30005000mAmamAmA———ma  =FA————SSSSF5223:——o—=sSottoo————PeFr —eea SSEa SseecSesseeeSessolesslSo ——————eeeSSeeeosSSEeeraoeoooeamaeot oo oan coe eesaoeE22aae<br>1050 _——= F ee———Prb—3—-3-Ft—— SSSSS2" Sse a =.—2Seo-ee p eeaee esses ay0 SS1abp—————_SSF SSF= EeSS10 Frequency (MHz) oeSES_——=100esrE—ees SSSSH  SSe5:S E E:<br>1 10 100 1000<br>Frequency (MHz)<br>LI0805H400R-10 LI0805G201R-10<br>90 _S| SS 2222 SS= STS S22. SS SST LSet 300 ES SeSe ek Fs SD See eee ee | eS Pe tee Be et<br>80 S]SSSHeSSS SSHe SSSSSSINE 250 eepr ss 0 amp EE BosesteeonaeaeesSSceeti ee oce masses<br>70 ——o—s os 0 amp Se eSss See ae 2232: ey 100 mA aa<br>60 {td———— 100 mA G44—-osYA a EFns a 200 nerrrewer er oe 200 mA oees8 eraeee Paoe (Ah2 ee<br>200 mA 300 mA<br>50403020 ——_—SSph——SSS==?:—— a—SSE}ry|as nes 400 mA600 mA800 mA woe\-——esese S Ssssssaet—-SSsS255===>.eeSessSeeoesae s  eer —-———=SSS =a efee aaaesoaeeeSSSrs:: meee===:assesessesesease s 150100 esSSS——— e rs———7— SeSeat Ssee a ee 500 mA700 mA eS See(esoLiviagiilHAASPATaeaay.ey cs meanee2s aeeeoroeoYoreeaaneee|eosVii arkmm"<br>= S=2222 SSS SS SS SSE 50 ee<br>10<br>SSSSiiiSSJo SeSEs SS SSSHE Peereeee eer<br>0 }——_———— aoy ——aeSs o———— eset 0 ——eeeeeee SSatTae<br>——_ 6 ee Ee So a a oe et<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>MI0805K400R-10 HI0805T500R-10<br>80 ee— ee me ee 90 [oo SSS oo Pe]<br>70 SSF...edSS See— SS See 80 bes SS 0 amp1 amp 25s.t SS SSS [ss] } [a] [See][ ae] [ae] [we] : [os]<br>60 —_—_—eS===:SSSa as= 0 amp250 mA Eee e t eS oe eee a oe 70 2 amp >Ht ‘ j3p t33e af<br>50 SSSee===:—F—t— 3 500 mA750 mA Feeeea — 60 —=: 3 amp4 amp +3= bbe)=:<br>4030 —SSlies——— leas 1000 mA1500 mA SaeessjameecesaneaecesA——aoc.a — o.oooeos os 5040 ==> ls:=sHat 5 amp ; iMfif merest: eSeittfs<br>SS SS a SSS ae es 30 : f -<br>20 fpFEee—— oeoe os ss)SS eeees eeeet Sseeoe eeee eesee 20 SS esittookt== S4/—/\jf ffas Siei<br>10 FES 10 ft het AA ett i<br>bP a = “aan<br>Sees ee os rs SSS eine gees ete sas Seen eee oes Ses = Ser Sth eh<br>0 SS eae ae SS SSS SS ee ees 0 - szi3§ |<br>1 10 100 1000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω Impedance () Ω<br>Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **15** 

**FERRITE EMI** CHIP BEADS 

## **0805 Chip Bead Impedance Under DC Bias** 

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HI0805N600R-10 LI0805H750R-10<br>90 _— ss eee } 140 SS S22 SSS SSS eat<br>80 SS: 0 amp1 amp a 120 te ee<br>70 2 amp<br>60 3 amp { | 100 ——Sla0 0 amp100 mA or errr<br>4 amp 80 200 mA<br>50 5 amp 400 mA<br>40 60 600 mA<br>800 mA<br>30 k itt if -\- SSSs=: Ka<br>40<br>20<br>20<br>100 frespas’ SSS—_, _SSF(ASS.HayESSt TeesSSSI£45]tty 0 r eae——oeee= nestSaemer,et<aaerrsttteete eee oettteosoe oeerector ete<br>1 10 100 1000 10000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HI0805R800R-10 MI0805L301R-10<br>120 450<br>100 0 mA250 mA 400 0 amp<br>500 mA 350 250 mA<br>80 1000 mA3000 mA 300 500 mA1000 mA<br>60 5000 mA 250 1500 mA2000 mA<br>200<br>40 150<br>100<br>20<br>50<br>0 0<br>1 10 100 1000 3000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HI0805O121R-10 LI0805H121R-10<br>180 AO hh | A 180 <a SSssss ae as SS SSS a asses<br>160140 iizeOSD=e-|SSS Ba 0 A0.75 A PDA(SSISSSTYSiti Pya.eReaoeSe, BLLaio!)Ts)F.,  Ges!3=E!ee| 160140 S==S==;FFSS=$==2;eEL 0 amp100 mA200 mA SSSe===25—aESSSa ese<br>12010080 p=]=e==a— 1.5 A2 A2.75 A3.5 A SSCSaasarEy=a SALT!es.£67iceeeees.)Seeesse. i ||| || Weeware)seeeeaeieeeeeariit)eT 12010080 —===s;—————— EF+} 400 mA600 mA800 mA ERERES=s222s———Eaat oes<br>las | | TL ——— er Set SSE Ssssi<br>60 ae [S] a Sab [e] Ea se /) 2. aT) 60 o oo<br>40 ee a eee ee eee a)a 40 a ===...=. saat:<br>20 SESSGEES aeeanniei 2 / smi em. Ver 20 ssSSES522 EE SeeoS23eeeee<br>0 waeCTa| S ESSSeSD eS FBAN eeaT A) 0 SSseitySSF a eeE32 | eeSSS+ eas4+SEE++Ss444-4ESS+ aaaSETEEE:+ FH aces<br>1 10 100 1000 10000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


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HI0805P121R-10<br>140oe_—_— re oo<br>yoo Si<br> F100—————— 42000ma A<br>a——[|] —s000 ma ft LA<br>SS Sna —4000 mA SeriesATHY<br>a<br>oySe be [——] eea aeS Souy es SSe2eeseeee| a EAos oe8<br>4 40 100<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


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LI0805H151R-10<br>**----- End of picture text -----**<br>


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250 er<br>200 ies——l_:-f] e gos 0 amp SEstiEreemasrteet erat<br>100 mA<br>Fe Geeta aoa<br>150 200 mA 1}.<br>—<oa 400 mA EH<br>comesni ialend eer Bb | 600 mA meeeCa zamaneae acct<br>100 — 800 mA PA<br>50 Sees P a alses ieeea oe ESeitecesemeEET—<br>0 ——eroSSS oes EE Ee ce!<br>1 10 100 1000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**16** 

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**FERRITE EMI** CHIP BEADS 

## **0805/1206 Chip Bead Impedance Under DC Bias** 

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HI0805R121R-10     HI0805N221R-10<br>160 === ——— es — sss— 300 — —— ——<br>PS SE{| [—-2000] pete SEE SSEESEEGH: 250 | 0 amp500 mA eeeses ace sass:<br>— mA Poibdh ty tt — —— ee<br>00 ee— 4—=]OTN — 3000 ma SeesSaseesassFS esas ietsoe(oomeere2 a!A cares\apg 200 -—== 1000 mA1500 mA EAPaeSas aes Ser asSarSee's StS Vhs<br>80 +] — 5000ma <r|— Ae 150 — 2000 mA ESE4 ty o<br>60 ee SE RS — 2500 mA Ss ett— A<br>100<br>0 SSeer SSFSS2iSS Se sectioeee Sa> SE SSSSeas eeaesa Fihf,is = — | —— E SSA —Airet<br>ee SF P E<br>50<br>SS SS 352 ee a ast SS Serer ae eS, | MaASct eee ates<br>1 10 100 1 0 es SS Se SS es lt tl a oe<br>Frequency (MHz) 1 10 100 1000<br>Frequency (MHz)<br>MI0805M221R-10 MI0805L331R-10<br>300250200150100 ‘Se+ai.SPSea=A—il——==————==—a a aaSS— aeeSEre 0 amp500 mA1000 mA1500 mA2000 mA2500 mA msASeeeee——Se Se eeESprSSSEEEe e CsespH [oe] aLOeeesDs CeeeSsceaSeCaeeeeeeeeeeeooae/Ge0 e  aeeeeeesea reaeeoelw0'ssoe2LkOe e6eseeorSkeeeeeeeeeeEEeeeeaoeeeeetcoeereeeeeseeeTaeeeeERSweeeaeemeyeseeeevesseeeseess6=,os meesa 8esfetetat2" 450400250150350300200 ——P—_-}——}+>—_+_+S=SS:f2)y——————{+#——S—————===:==S===: S mes—————_——Seepta —— _—_+—+—+ Se_——}—es eee3-3SStt SS a 449==:+++} SSSemSe 0 amp250 mA500 mA1000 mA1500 mA2000 mA  ——S—ewe...2—boeeESsess3—=—sssSSS.eeGeet—eeese—eeeeeeaeBaSSSoeBe6s-<oos—<_OSoa---ee &  eeseSoe o—o—————eeSSSeeeeaeSsoaaeotee Gr isoSe——=eea attt e  onesconwwooeseaeeSSE:eh)aaS erates ee eeeeasSea e  a ee ae oeeekeeesBoseis e neehtee s ]<br>500 a6SEiea——_<———~-ee eeES!SSee 2eeee—_—ee eeeeear_ etotaoe!eealleeeeeaaks ee 100500 ee———esNNpe—————————— ee eeee aeeoeeeeee eeeeeeeSSSe eeeSeeSSaege eeeesSSeeeea os osee<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>MI0805K601R-10 MI0805L601R-10<br>800700600500 teestl=!Hh—Y—H]=es bersSS 0 amp250 mA500 mA750 mA SS rsBeseoccermmesamannacctsBEonearPEpeihSss2ss on ooSseoee senceapeepentesta:Gameaeeee aseSerences os seeseoESSee, 600500baat ——s===:E800=e— -—t]—15007 —dame1000serumma mApeer2SS=2)PsSais eetmeeteetO eemmmnastsSSae eanaesSFAHN S EtAW<br>1000 mA<br>400 —]]—! 1500 mA eevee Soremmrsencatiericnese 60 See osccemenmaFaeee Sseceos steeeeomeetces ES i\'6 11.08\<br>—= jepwesestemreneecntesssseRASH sasstemesaessa Sa secs SSS—Saaeee:=S552 SSSSS:oS RRS<br>300<br>200100 SeesSseeePHSEos [Sassi]  sea dstSse ceeestpt Seesee oe Seen eeeaatSee eeae wo)ee’eeeeegAsteeleree EREreese10 eeaetesir> aaeeeetese e ssssAEE:e™<br>0 Se3SESrete eee asecpy eames marEEEEtle Frequency (MHz)<br>1 10 100 1000<br>Frequency (MHz)<br>LF1206C202R-10 HZ1206E601R-10<br>3000 800<br>2500 — 0 amp50 mA ren ansee 700 0 amp100 mA<br>2000 ESESa——ESae iseSSSe, eSwe A 100 mA200 mA300 mA 22.)PEApe 768018ep1 VS©88s 0 5856 eeseSes Geeeeee oeteeeeeeem assee eete 600500 }-——+—_-_—SeeeITY-—-er +--+] ese--_er 200 mA300 mA 2LlaepreysoR a——————— seeditaSS oooSS=.yy eote)a] eeSe Ve a<br>——a hatea SeeBw Fea)7 SsO18 es ee  Se  E [—eacetiinumaltonsdnentt!Sar me 400 mA 2a  SSSSeee.SSF eSCer eesOe a a ee<br>1500 aES EEee 2OS OS eeees a: ee ee ee ee 400 —=—ee== = | 500 mA Ceeo_o tT <= - inr...a ——ses<br>1000 CE‘HE/-—}oo [i] GEBME MBBSS e ik.eeeaeA Aaetelee 300 Se— jt aES asset e - 3 +111) hheserta aesrti)eee LeoiSte seeeslee<br>500 —eePE——aeaa ae oaiosoo/ a ee ols See.at2ch eo\noee] ee ooosoee eeee Be 200100 EE——-_--2:asaaPSSeSSseSS oasisSSSeeoaaes aeeens.eSEEStlNast<br>0 — Seee 8 AY — Sooe A eesea ew 0 reptes eesoeee eaepeetteeteeee:te<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>)<br>Ω )<br>Impedance ( Ω<br>Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω Impedance () Ω<br>Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **17** 

**FERRITE EMI** CHIP BEADS 

## **1206 Chip Bead Impedance Under DC Bias** 

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HZ1206E152R-10 HZ1206D102R-10<br>18001600140012001000800 SSS:—————_——=—:-_—+_——+—_+—2—————orsSS—>="———SSS——— S —STS.——sovos—F——-—S=:en 0 amp100 mA200 mA300 mA400 mA500 mA SPottceSS————<eee —— eenSSSi——-.-:—-——.———--——SSSSS. S522osarses——s2<<.<=> oo 2°.— So Seea+20— s  ——a=+oi.s. os —omnr————— SeaSSS— ————eeaaa <a.  STT::—————<<eeeransSSSIorseessseeSessa reeceeesesoeeeesoss 12001000800600 ee }——-;—{—+-+]LEEERaoe———Ta=aSSSS—.a—ier aVeeoeeeeae1amSS —oomEPEevetee o SGen aoaeFDS EYeeT) 0 amp100 mA200 mA300 mA400 mA ereeeeFNTS FH2eeCorheae?aaeooaCSt+I  LT Atty}RRL) eerityieeu60>olo'soooSReT| netsNT:aeSseeYToeEYVSaeeREReeee eeeGTaAvaOr osa rtosee weEnsess<br>600400 SSSSSS=> a peSSSSS>|=|-:-:::::>-_—aeeSSE eSee. SSSS —:.-.:..._SSSeSSSGa 5eSa eSSSSSSa eeSS S SSSSDs.SS SSEEeeeeeeeEEeee 400 ——or ae i o ororeareesme ae oe reoeee en<br>2000 —eeeeSeSSSeeerr erasS333)865 eeeOoree feeeeeeSSan eases SSeeet2a [ttt] se22noesoeSSS ee eattISrareesSSSIseseeeeenerr 2000 eZ—ttaeeeeeeeee eseee ieeeer oerr er<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HZ1206C202R-10 LF1206E152R-10<br>3000 TL—d he sae al! ———eeoooee 1800 [er— ———— =——ee<br>2500 —————reee ftee 0 amp50 mA aeeHeh OSHtSS 6 SS SS a Ow ww 6 1600 — Jit—— 0 amp100 mA P-t—i-bSS222SSSSSSSsz25=——:-—————— i iit i i iinneen—ee<br>SS ee 100 mA osCaS re 1400 —— S S—== 200 mA S =S".505S SSSre SS525235<br>2000 ——— oeaw  a |an 200 mA300 mA eebintse 2 th otatota oat 1200 -—SESSS ===SESE 300 mA400 mA ===F552>ESS25. SSSaSSSSS SZEEEESSESEEE<br>15001000 ——rrT[———— a ee————————roSeor— e oeOEee7SS eeoooAeSeoooJoeee oe S| |0)| 5|oe ooo oeeeee osooo oe 1000800600400 SSS—————SSSSS—+ a SSeeEeSSS>=SeSF52533em= SS SS 500 mA SSSS==ES==————s.oeSS 2-53. teSsSeussee eeeee= oesSSSAtSasstStt SEEeeeeese<br>5000 Seee—S+}.2———SeaeS ee eeaee4 edtaaeeeA ee+ — eooo seeE 2000 SSS_———JeaSSSpSaSSS——  2— EE350209i35erSSSSSSSSaeSSS.SSFE SSS SSS e oott SSSesESre —— oesSEE:SESEEEE eeeTIE<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>LF1206A302R-10 LI1206H121R-10<br>6000 es fe en A SL | Pe end ot ees 160 Vn<br>5000 — —— ee—————TT i eeoe 0 A ———aeoof 140 >S==<<p——== =— sree 0 amp — toSt [SS=" Soseese<br>120 100 mA<br>4000 eeea—oo Ooo 0.02 A0.04 A —acr 100 ILS———e a sereae 300 mA500 mA SSoocs=----)a ——=e neseeset<br>30002000 —_—ScesmscertventrsTT—oeSs ee oeOSes)TT oa eei me)| \sriuecor|vases 0.06 A0.08 A0.10 A aPera(aern( a aES aSES oeSS wweeeBS ee 8060 t+}SSS———————oe— tHoe— +--+oeSSS+ae eee ss 600 mA SSoe rtS552+Si)CaeaeSSoe 00sAee+ SsttteSaroaetOF2aSSoesees:oeon oesiee oeee oe<br>1000 — eTTeeseee_ tyafiSe’ee o 4 ' —ooooofe 4020 f—-——+—ssEeSeeseespe—t —4 hs— SeSSeteeeeeeea aes.FE———eeeae eee<br>0 er08elda a a 0 enSeettSSSteSSttt S22) SS SSSEE:::eee<br>1 10 100 1000 10000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>MI1206K260R-10 MI1206K310R-10<br>50 50<br>4540 pb pd t 0 amp Jibi piety 4540 SsSemenae Settee ae aes<br>3530 250 mA500 mA750 mA 3530 0 amp250 mA500 mA<br>2520 —— 1000 mA1500 mA Ee 2520 S E 1000 mA1500 mA 2<br>15 15<br>10 SSSSSSSSS [SE] SS SSE22SSS SSS SSS [ES] S ee:SSee SESE: 10 SSSS_eee_ SISSSE 222SSSBS.SS SSE<br>5 PogSSSSS552335544=SF5232- PPLE LAL ae SSS SSOPSSSS253EEE 5 SSSSS SEESSSE57.- SS SSSSS5222-SSSS S ESS E EE:EHE<br>0 po Pe EI 0 SSS S525: SSSSSSS S S S E S EE E IE<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


**18** 

www.laird.com 

**FERRITE EMI** CHIP BEADS 

## **1206 Chip Bead Impedance Under DC Bias** 

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HI1206T500R-10 HI1206N800R-10<br>80 SSSSFi23: SS SSS5533 SS SSSI: 140 — <a sss — oe os ses oe os oe<br>70 S =>SEE SSFi3 ftSSSSsitEEE SSre SSSie Ft: 120 -—SeereeserieeesslPEESees mes Osea ost) St eeten eases<br>106050403020 +—|=>Ses—= = ===—===f+—fleeet+444 0 amp1 amp2 amp3 amp4 amp5 amp ateerss+44$—<——assssi—SSSS5553{+[SeeesereenssHR|S557.Heeeea|HeSSS —_—assses:Satea_ eset544tetSS5s5s4 4etSsrensess7&4 eeeEeeSameSSemereeteSSSesserereeeeeSEwgeeFasaemeee.esenrcersaeees: [ceeeess] ass:eneeetaes:aetteasse res ted 10080604020 -—|=|====L|===—| e EE—<_—22——pe 0 amp500 mA1000 mA1500 mA2000 mA3000 mA eessoccertbfotee|HRHeJ}bE——Be| eeeeserbboo  beaeSoseiETTET rt s Sromer ossaeso eee SSepal sisi Sees ae cesas:beteplo Seee.ooaae oresseroe ooensspeteeeeeeeowetens8<br>0 SS= SSSF =e= SSa SsSSS SSSSSS SSEESE:SETI: 0 ————oeee=seesmee— [te] eee:eesees:<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HI1206N680R-10   HI1206N101R-10<br>120 — oo tiese e sr Tess:Coo" 50t ——— Tt tH] 160140 ——— a_ioe——_-_--.::——===.:3—= =o:<br>100 == —0o amp i ==="camaae ==2:t tH SSSpo bd pL tb pipeepep<br>. 5] —s00— 280 a A ee 120 ===: 0 amp Ses mnesst emer ar ae aeee,<br>80 t— = 4+f —1000mama =n ——“fpftT LEes Zi 100 FSS—Sp—— ae me 5 250 mA500 mA pptSesereees——_———<s2 stthtot aeam—a e eseesesyosesti)or eeeoot<br>00 ——F— 200soo—  mama reate- ue aiaac 80 } ==:———-— + 1000 mA2000 mA |SaassshBSE=52S<<aaSSae SEE oe oeso e oe<br>“ eat Fa oe 6040 ———=s 3000 mA Bee sees a aac!<br>20 PDP-— J iinh eeeeine ? mm a e]ss —— — aes= = s2. s aeo oesare is aa a ceset<br>o =— ——r eeSS5 cess.oea4 SSeens—+--+-H eee 200 S— eeeeSs eeeeSSE ereeeeee 5353S05 eeoeeeeeSSeeaeeeee oeEsSSSee ereseee SESEeeea eSS<br>: ‘6 v2 s000 { ee Ee etests!trSea+ tt assettitty<br>1 10 100 1000<br>Frequency (MHz)<br>Frequency (MHz)<br>MI1206K900R-10 HI1206P121R-10<br>180 pe gg eg, 160 eee ate noes aed earn ae cs ae oer iaereraes<br>SS SS 5 222 SS SS EEFI SS SSS EI: pS pet:<br>160 eae Seeeeee ee 140 See— aae ss ees oeSa223aetsSees ae ee aaass<br>140 ————=== 0 amp [=S32EH oS SSeS 120 }-—+ 0 amp fopifae eeitireg 8i eeeXb iiisseee<br>12010080 =S—>S>===:=S==S=2:====S===———sos=S==: 200 mA400 mA800 mA1000 mA1500 mA BSs533EREeEeSSSSaasstsommesrasesaeass™ Sse s SeSS eases:SSFae257s 1008060 =!a—Iol— 1 amp2 amp  3 amp  4 amp  5 amp PeeSS—eSSS[SSS-+$-¥ae S2222);oerteoo iySs ot SSSSSFA SSEce 2. Tae<br>6040 P[pieee S biliiii—ia a ss eee 4eeEiiinhosee .ee eepbiinEEE 40 -——#-——=! S ERSaEerAS<br>—— as ase ee a eee Pt tie te oe<br>20 PE Se 20 SSS SSS SSS SES SESE!<br>SS Se SS SSE re<br>0 —————[ener ee i adEES dept 0 —SeSee  eae: eaeSSSeseeaaaacs<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>)<br>Ω )<br>Impedance ( Ω<br>Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **19** 

**FERRITE EMI** CHIP BEADS 

## **1206/1210/1612 Chip Bead Impedance Under DC Bias** 

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LI1206H151R-10 HI1206T161R-10<br>200 250<br>180 — 0 amp SS SssesseSSSses: 0 mA<br>160 —— 100 mA SSsisii SSS Sess: 200 300 mA A 1®<br>140 =SssEs 200 mA PP i dite SR ES 600 mA 7 \<br>120 400 mA600 mA 150 900 mA2400 mA<br>100 800 mA 6000 mA<br>80 _p— — 4-—— Ft -44 Eabiti ti bith 100 = EBAO/ALEV4 ‘\ ‘i<br>60 SSS SSSs5staee es tess eee es sess: i] \\<br>40 Pept} $i iiiiier f 1 Fioeptud tp bigiiy 50 vf,a \<br>20 SS S553": SS SSS es Sa<br>0 |See oa= 53326stSSSae SSee  SE22:asst eeeSS  eeeaeseesss 0 ——pe —e [arr] y<br>1 10 100 1000 1 10 100 1000 3000<br>Frequency (MHz) Frequency (MHz)<br>MI1206L391R-10 MI1206L501R-10<br>450400 0 mA PSS SS S291 ESeSsstr: = 600 8esrn ooeeMN eeAS OSimaOS||  Sb 0 amp A SE2oe SCeee) eeaee eeOK eee eee<br>350300250200 —-———_ === 250 mA500 mA1000 mA1500 mA2000 mA a=—yPee- —ew we Jif \a)‘\Sp\W\—Ee4————_ 500400300 (eet(Pe)bonjl)‘(SEDoeaaiEena——esisereerSEreereeeeeeeeeeElea PesreewesOeSSeSaFSre a etrenen mt1|1| ee 250 mA500 mA1000 mA1500 mA2000 mA ce2SS2S.Hoes2LLoATiLTLIALLieto2Ge(JSEES! a [Viti] ASCsS0002Ee400k 000) |l aATSTalaeAefaVYSe—+$ ravemeeee [Toa] eeeSIPBeRTAeeeeeeeeeeeeeePeieseeeetAT eee ees ese<br>‘ eS ee ee es) ae oe SS Ee te<br>150 - = :— : 2+ -: <= '~: — 200 SsesSSSSeeeeee eeeeeeee2 ee eseea ee eee eSEE erGeraee eeeeee aA e TSeUeeeeeST e<br>10050 nyee Se Sse p— =.o f, 7 7—, eas 5S:eeee 100 aeesPeRESeeeEEeeeeeee e eea eseee eeeee ARHeaeeeaan<br>0 eee. | 0 eses_——  Gee oeES ee a0  ee== a— an OeSeeee 2 eeee Eeee Aee!<br>1 10 100 1000 3000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>MI1206K601R-10 MI1206L601R-10<br>700 -—F—oN a A a ee eeSoe ee a eeonONoo eee 700 ee——a oe oe ooeeton oe oor or es<br>600 erSEs———aoens| 0 amp250 mA SSSaa=<—  ooesetseers 600 }——}——e+}—F+ -}-- 44H 0 amp250 mA eHEAPt tA beth —tbt pg pte<br>500 ——Sans:— ae 500 mA1000 mA SetSoe= sests SosSowet iomco oesass es 500 -—F—F—ee 500 mA1000 mA ScassseolSccce.as Sacee aooS ce saososssecseeet<br>400300200 ————————h———ot—_——_——o--———_——<_——<aee——te a a oeoo os44oeoo ooaaeseor—— 1500 mA Seaeoo——aSoo.‘seascceSeooeseeeesoeoeSoooSeTssooa <icemoettorieoe oeecet se eeeCetooeee 400300200 a—Seth i —ee a — —_———--eS———_-Re—————_———aoe aeoSesssesere———a 1500 mA as =ooeoeaee oeoroeHEEettre a oes esos oo eohaarsvevieStY wosicmeess te aeoooooe ceeesCleeeesoo eessees<br>1000 }—etesooee ttteeSeeeHt 1000 SSS-———Ee—— +aFt= eeseettaSS—— aesSSee ttt}a ——SSen t+oe — ttoonEee osettt<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>MI1210K600R-10 HI1612X560R-10<br>120 SS 90 ——<br>SS)ee | ee enee<br>100 }—_+—} [14] te 80 e—— e<br>80 SSaaeayiESSe—pf}a smeUEoSaeettySHa 0 mA250 mA500 mA RtatombitittPtititl6SatiSete S6 —aigeih4ifZ7t2eewl«ae.eralii satttt. et 7060 F—Foo———VVoe——mr nemaaaSEmkes 0 amp1 amp2 amp \eaccsom<8ootttfrrpiih|Stttsss tit34.2.2So eenn eneoO-ee40a e nemea aPebee tag=o5cetaseeee [rt] SOtd s s5<br>60 —ohe—< ot 1000 mA1500 mA ether a ae ose 5040 SSSf2:SS==f: 3 amp4 amp ===>| —.—<—-—«——=-=:::=— ase:<br>40 ———ae a  oo!ee aSar= ani- F 5 eerasoe osee on aeesw 8 30 Jotorcas———oeS SS2 O  ceett s e s 5 amp (PeebehjeEeeesPySEHity<br>200 tt——osssoreSeateeaey eeeaiee  eae>A1sESattclst— 2.) a—— tttooesthsoesece  se 20100 PaSSSSS5555PoerasSSSSSeSSaSee ee==SSSe FFE:Eneae e e. SSSS8aeseS oeeeesEe SE=EOSSS. Ss: SeaSotOSSH SSSSeasesSeee_—_=-2:::Sreretenaaes S e araeesoeEee eeeeee<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


**20** 

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# **FERRITE EMI** CHIP BEADS 

## **1806/1812 Chip Bead Impedance Under DC Bias** 

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HI1806T600R-10 LI1806E800R-10<br>10090807060504030 SSSPotbop—_—_S=:_————————SSSS———oe———=—s| — <=—=SS=sssSSS|————S a eeeea—<oSSTSSoe] e de Fl= | 0 amp1 amp2 amp3 amp4 amp5 amp SSSlS SST====s533——===222.SSSoesS———s555——s—<<css)piPsPProt===...)Saas p SS——=RateeSSSS352533iepSefpftdpittSSSSelter psttthoypttdpethooaSS)ttt sieos aesmSSea—eenes oe—SSty-bpatbps>aa SSS oerae—aSSSSESSE:4Aao.soneeeasaet:rereee:re ==:tapesey eoateey aees: creeistity an eseeseeeersns.6eeesssaaot 140120100806040 —_——_—————se S Ce—et —— Sa————SFTSSSSSS—mn—lSS—ee—eEs—eeooaSsSereeeeo_oee:aoa inmenery aes asaS221.)onSanPeseeiea a oseoe e eeeeea 0 amp100 mA200 mA300 mA400 mA500 mA SS—nnASSSeee eeeee a ee= e eeSos,oFSy==.ttyae46.2reeeSSees)scoee a  oleee6etee——aSe——eeeeoe ceeeeoseeeeeeeeeeeeeeoweSeeneetores eesasteaoeee e ETeTe<br>20100 SS——SESee{aSSee— eee [SS]  ==F>:-2== =2eSSE=SSeeSS SeS22- 33 eSSSSee SETI:eeSESE? eee 200 —_——SSSha——<oo0ss——Se—eseTee Se es o teeeSSooeetoSecoreeeeo— oooer:ooreeeee<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>MI1806J800R-10 HI1806N910R-10<br>140 SS— aSS See SSSaeSSSa SSaSSSde ae 160 ——A<br>120100 SSS—_——ai———rr—se=——fI-44—aa— SS===:'Seseedata8sceree 0 amp100 mA iseearaeaeeros r oHree ftet|rooemoooteeeeereeeIm 140120100 p___¢-_$—SS==eepySS222)—SS—_——_—SS22)[SSSee==:!fo)- -  e 0 amp250 mA500 mA1000 mA SS SS—<<< S piPprtet [qptith] a --eepideootoooparteSS—<—<——oeroa eoo raPA:oa es aseith oeSS<br>80 ——-}——+—- {I 200 mA =easiaeeeaaeee ees:ith Jy— SS Sas! 2000 mA eettteas aeea eateeaseees SS<br>6040 ————t—f——-—_—_—— — —mes—s toes}—toa$Foersaesearrh4-4]tdanae aeaeee 400 mA800 mA1000 mA eo18sey e aPfSPteea.aeGistLettyeet7 1? acaPeaaoeeeckonSSPeor eessoseeesrth 806040 ——p—ed—nemai — ee e —— a  ssaee eetttsasies es eo 3000 mA e es e etae<<ose[eelSeseea 6esoeeeeAxiie a ot Aaaoeeeea——— a —nooeoore e  oeee e  oeon tee:oeesseeeeetoeee<br>20 -—}—F——SS— SS  4-Hiee ooer AGeee 20 ——Sapt eeesse seteeSaaeee a oroaess:eee<br>0 SSSN reaSeee ooaS SSSSS Sse 0 —ooSSSeee8. SS. oees SOSSSoe HSeee8 PS SDoo ooeneesae oe om Oeoe<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>LI1806E101R-10 LI1806C151R-10<br>180 SaSS SeSSS SSSSSSSSSTEPSSS SSSStSS SESE 250 ——reeeta<br>160 SS SS SS SS SS SS SS Ss - SSS OS A ee Se Sa Se<br>— ———--—— =—— wes SS EE SE EE a Se SS a eee<br>140 —S—S=——  =. 0 amp100 mA ttSsaSsstouees ae assessrire 200 =—e_nnmon 0 mA Eeise es lianas > canes<br>120100 =S=S==.SSieneSST=:7S=S=ftSEE 200 mA300 mA400 mA ——SSS"aFehoSe eee seeSS? 97SS<7.ao.eereeemememennseaSSEEE:tta a oa se 150 SSS——s—eeSSaEa teesaraenoas 50 mA100 mA200 mA SSSanaeSSSieeeSessanYrmeEr osrosoe22asoeso eee7ceeees)eeoeeeeesl<br>80 SS————== == [S==]  == : es 500 mA — ——— — —s  ———— —— — SooooesSo or aoe seoe = ene= 300 mA | == randap eclinendfee<br>60 pbaSSS e SSSomomstSS [S=F:::]  SSS [3] SS"SFOeaet4.<b ns SSS=Sasis cansSSSese Seer SSSIae eee e 100 pe aSS ae e Coea a s, Petaee<br>4020 eeSeeee——_—_-_----———_——- -- oe — — eee e s 50 ——SpeeeTee eeeee e eeeee|eeteaee<br>0 SSet220°... SSS SlSe 0 SeSe TTerrrr er<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HZ1806K102R-10 HI1812T800R-10<br>1600 a———————————————pe a 120 cheee— eera a a ee a Seciee  Seanaes<br>1400 seeewe— iee  eee —seesCoieiiss ——4eee eeeit——oe sooe eeete 100 tH}—_————i—7— =a44———$ _— ai]eSS= Seuesape:<br>12001000800600400200 p—F—-—}—-+-——-—1—+——===:—=eaSassst——a————_————ateewe=eetT44 0 A0.1 A0.25 A0.5 A1 A1.5 A aBeBo2oeTTtiteeCSPSSTreeeoyiise.feeact(eae?oeamesSls )!2ee2 oobeee sem)(em2eae2aRAid aeoyae)aeoe|is<-sss—eeSeeVi |) ce \ ttteeseeeases|ttttSeeseeeSEaesetceyytititieee)es)Se)ttereeeaeeeeeeS——ttttee Seeoooeoeemoeeeee ore eeeoeS e ee e e7 oeeseweseasseeeeae oeae oeerrrTteeeerie TtiT ws we es ee) ee El 80604020 ———7—T==tH—a.——esaeeeeae——Sas1Ss——S o JiSseSeesEeer—ie1} seo rerLaea eael43-7ssoeee |htoo 0 amp1 amp2 amp3 amp4 amp5 amp ah et2STor|ee|||aaoS||dsAe)1aeaeeoeaaoseeees tea aaoeskcseeOa=aa,a, a aaeeAaerrreteeSt me aepottyVS SHaaesaeTaaa a aaeoeaa7aaeeSwaOSkw|aeeeee. ww<br>0 SSSSe=oe oeeeea——<st eee_ eea oeeeersao ste—ee oe ooee ttteeHt—— ooeesrecrielsorteb 0 | e ——rt—— Se aestd ce—a4GnheeOda— aeon on oon oe<br>1 10 100 1000 10000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **21** 

## **FERRITE EMI** CHIP BEADS **1812/2220 Chip Bead Impedance Under DC Bias** 

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HI1812V101R-10 LI1812D121R-10<br>160140120100 —— SSSisze — —_——__———s———_——_-----——F—rr————s.oa——————==-se4=oee ————— 0 amp1 amp2 amp ————— poseSaaassseS—<-ssss—aesoEReeettt===.Seee2 sess 06seseoS.se2  een amare ———es+-_+\_ ees—asooa oroeoeneeesoeaboo messnese:waeesstreeoo| se 200180160140120 ——SSSSSESESEZEEEEESSSSS——F—F—pe——.FJPpFeSepnypp —SSeSasSSH=EEerrSEE:aeteEE] FFpeSell eigypgyydt—ee— 0 amp50 mA100 mA200 mA aESSIS5aeES —=Sso—<>PriitisPitint—piiiit———<..essesetSreressESSE sees——lee - teeetatSSS 2 —eeptiyb a.re repopon=Seesseeree:—efirereeptiie:pi arrSesseeSSS=it: tsoo<br>8060 ————ee — ———a————<Se<a<a=<eesoo 3 amp4 amp5 amp SasassssaerasaeeBoseEEROS<treeseeSa.EEAEE1,ccc ceeo—aesorsereee——a  aesa,seas aaeseseoesess e sees erss|e ee 10080 p—f—bititySSEHSSSE——SS—=——=sseSSS SSS[SBati:iSSSeeSSEEEFiSZ=ZEFF SteeS555)eSeenSees 300 mA400 mA >Se ee SeaPppppiippeSSS°==) S EeSSPees288s tpee poSS———Sesae=pt oSSS=SS=S225SSeeaeeS=ZEzz2Eop Sos ptyip t  SeriaeeeseHE:eeeoess<br>40200 —— — e — —— Ss—<——_—<————<————<a<<a.<<<.eeaes <<.SeaeSSSSsssses asseseeasstsssss saeos6osooan e aoeeeeee ae aeeoseesSeeaeeesoooe ee e  2oeslee coe — —es aeeeeoooaoo o otmaoeoeno oseeess osaor eeseeseseeeses 6040200 bersPSSSSSSSSSasp44ee8SSee———PfSSE S eeSSSSSSSSSbote SESEEHDS¢eeSSSESoe SESEereR555tt2ithitpty8550!etsttt}° teOE“ eee es—eeee——_tSL47}peSSpeeSSS.LSSBSes e SSASEaee-4tteSSSESES55)fgSEESA258SS++ S52eseget—oeeSpip ESStttsiieeei +SSpeaaeeeseee——_4+ See+SSSSSeeeSSSHSSESEeS++SSESESEEIE4  $$ SSIeee S5829 STII S35i44HEEE?esas tt is<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>MI1812K121R-10 HI2220P601R-10<br>200 1 700 ee——— oo e e ee tne es ooee ooeee<br>180160 0 mA250 mA , 71. 600 eesa—— imea aeser 0 amp500 mA eesSeSas:ae oeoct1k a————oemacesttee ee eee<br>140120 r. 500 mA1000 mA1500 mA > / x d / 3ye 7es}i 500400 ———=aeaSassnesaer——ee4—— LaSSa a 1000 mA2000 mA3000 mA oscSooo=—t—CetEeeer=isoter feoesoeot. oooso ooo sentonteetet<br>100 ; / Z ; ————— aes oe 4000 mA eaFes06ee se SS ee ee<br>806040 tt +; Z 7 ,- P xF ff 4i|i 300200 ———er—_——<—oto r ooa—_———<<EeeEEore) i oooeotr irosPaAoo coeaSn aeetae<br>: ‘ east } 100 $ea tS<br>200 . a a t 1| 0 eeeeOeee ee=  Ss. ———8 eeae Se aeeeOeaOe 2 —— Seea ee eeeeeeee<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HR2220V701R-10 HR2220V801R-10<br>700 1000<br>0 A 900<br>600500 = 1 A2 A3 A Bessitenenia\ 800700 -—+F—+ 4 4 0 amp1 amp2 amp SBa=<. is si ——— aa ssse<br>400 = 4 A5 A Bee? /f i)h) See + + 600500 ——SSP Ht 3 amp4 amp —FS SPsass S235 ia ttSS SSEzE::oo on oe<br>300 i 400 S=Stt 5 amp Heep<br>200 300<br>200<br>100 { mal 100 sswe ss oe ee ssa a see<br>0 ar)pyBe™ tot 0 SSSee——<_ Ses SSF! = See =Sss55=oe eas esSS= ee SS3==eee!SSSeee Pe eeessesFSi:ee<br>1 10 100 1000 10000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>HR2220P601R-10 HI2220T101R-10<br>700 ToT oo 180 | t<br>600500400300200100 — ———_—— S ————4 — —SSE — <r——eoS55—oo—PeSSS——or—eo—_———oeesd———s—F})—eoooeoeeoo)SSS2233ooeeeHies7ee ae7||sestono a 0 amp500 mA1 amp2 amp3 amp4 amp aeooSSaee SSSSiaesrr2aSaeee/tSoocsriCrSeerSession.aSoresGueart=a/1iScccSreeEsvoltA‘ctae oOeeseesess errteel reaeoe itcomecateecooasses:=ocam—cm—«.—eelitoseamesasmasat a eeho oeeesee|ooessessaecooeeeeeoeooo ee ooeeettdttooooaseseeooseesoeeeCroce eesssoerieeenseeeseee e es 16014012010080604020 —t 0 mA1000 mA2000 mA3000 mA4000 mA5000 mA +i]}|i ——————++5 “2Eea4] ————— =<br>0 b—3—ees= ee +}SS rt+————rs Se===...Se Oe — Geoeos oeSe Oeoo eet 0 —--—~—;~ = ” ———L—' - ~—~--—-<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>)<br>) Ω<br>Ω Impedance (<br>Impedance (<br>**----- End of picture text -----**<br>


**22** 

www.laird.com 

**FERRITE EMI** CHIP BEADS 

## **2220 Chip Bead Impedance Under DC Bias** 

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HI2220R151R-10<br>250<br>200 0 mA<br>1000 mA<br>2000 mA<br>150 3000 mA<br>4000 mA<br>100 5000 mA<br>50<br>0<br>1 10 100 1000<br>Frequency (MHz)<br>HI2220R181R-10<br>300<br>250 0 mA<br>1000 mA<br>200 2000 mA<br>3000 mA<br>4000 mA<br>150 f: 5000 mA =e<br>100<br>50<br>0<br>1 10 100 1000<br>Frequency (MHz)<br>HI2220P271R-10<br>450<br>400 0 mA<br>350 1000 mA<br>2000 mA<br>300 3000 mA<br>250 4000 mA<br>200<br>150<br>100<br>50<br>0<br>1 10 100 1000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


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HI2220P171R-10<br>300<br>0 mA<br>250 1000 mA<br>2000 mA<br>200 3000 mA<br>4000 mA<br>150<br>100<br>50<br>0<br>1 10 100 1000<br>Frequency (MHz)<br>HI2220P251R-10<br>350<br>0 mA<br>300 1000 mA<br>250 2000 mA<br>3000 mA<br>200 4000 mA<br>E | SAYIN.<br>150<br>100<br>50<br>0<br>1 10 100 1000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **23** 

**FERRITE EMI** CHIP BEADS 

## **2220/3312 Chip Bead Impedance Under DC Bias** 

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HI2220R301R-10<br>400<br>350 0 mA<br>1000 mA<br>300 2000 mA<br>250 3000 mA<br>4000 mA<br>200 5000 mA<br>150<br>100<br>50<br>0<br>1 10 100 1000<br>Frequency (MHz)<br>HI2220P551R-10<br>900<br>800 0 mA<br>1000 mA<br>700 2000 mA<br>600 3000 mA<br>4000 mA<br>500<br>400<br>300<br>200<br>100<br>0<br>1 10 100 1000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


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HI2220Q401R-10<br>500<br>450 0 mA<br>400 1000 mA<br>350 2000 mA<br>3000 mA<br>300<br>4000 mA<br>250 4500 mA<br>200<br>150<br>100<br>50<br>0<br>1 10 100 1000<br>Frequency (MHz)<br>HI2220P701R-10<br>700<br>600 0 amp<br>500 mA<br>500 1000 mA<br>2000 mA<br>400 3000 mA<br>4000 mA<br>300<br>200<br>100<br>0<br>1 10 100 1000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


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HI3312X101R-10<br>**----- End of picture text -----**<br>


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200<br>180<br>160 0 amp<br>140 1 amp<br>120 2 amp<br>3 amp<br>100 4 amp<br>80 5 amp<br>60<br>40<br>20<br>0<br>1 10 100 1000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**24** www.laird.com 

**FERRITE EMI** CHIP BEADS 

## **4 Line Array Impedance Under DC Bias** 

**==> picture [417 x 433] intentionally omitted <==**

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DA1206E300R-10 DA1206D600R-10<br>60 SS 140 a a es a ae ae ee a<br>pe aaa SSS SS ee ee oe —— oes<br>504030 2S———a—es=——iears—[|==tt—ass rrr Le al==oee 0 amp100 mA200 mA300 mA400 mA orooeeSsooCeaeae}/—--—---- -1—-—___--_------SeC—Oa aasa a aestyaerGS ooas a7aeaAereeveeeaeeer+]7oh 1201008060 [___-_SSeS——rrSSaaayee—aowosoea—es———Pe——aatSeoe+_+_.} oe 0 amp50 mA100 mA200 mA300 mA ooBoHoe[s--Pha.asHooreeCoeSe e222tt ToFe——aeoeerHiowss aerrortoeeeeSee<br>20100 —eel=—————————SSae—aok SN SS TTSw 500 mA CR SeHaeor.aosSea  AeWeSaeeeoeOe<0oF 7 5oooea MU t 40200 -——|-——+-—:+}—————==="——_SSS e es [——-—---] +1.+ +OeSess4+--+a oeLTeeLie FH—s =— 400 mA — tt—fT—fptafeCoeSa.oo:Atoe|eyoases!+—_}—4eeSea; oe See<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>DA1206C121R-10 DA1206D301R-10<br>250 450<br>0 amp 400<br>25 mA 0 amp<br>200 50 mA 350 50 mA<br>100 mA 300 100 mA<br>150 200 mA300 mA y, 250 }— 200 mA300 mA ee A<br>200 400 mA<br>100 150<br>> 100 PE<br>50 —_LAa ;i 500 PSSSSSae=  2252———aA [Se] SS SSaettGEE]—— oe Eee?ti<br>0 1 10 100 1000 3000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>DA1206B601R-10 DA1206B102R-10<br>800 Ss TS co 1200 ee ee ery eee ee ee eee et<br>SHEESH SSDS SSS SS SSS Set — — —— ———— eee ooo<br>700600500400300 _—-——+—a==ESaserSSS=——a—SSSSSEHH===:ee42:are 0 amp50 mA100 mA150 mA200 mA ==aReoea———-.)aSe.SeoseasesAEeetAAH aces2 teessaa—Eaeoefjooa ooooeeeoon ert eeoroo ePoeootses+ eee teesoeSeees4 1000800600 |——-+t|——-++-—————eae——4—SS o aEL—a—=na Trio1aae,es=naeSee-4eelSeesheee 0 amp50 mA100 mA150 mA200 mA —<—<—<—$<—oooeonSasoneometereeCrnsreaaa AYae Atosista20sa fraaeeeeetS,ooanway2eeeaa et Gace: eeAYweeseee<br>400<br>200100 _—-——————SSSeeeeoeors?——se|ss...)oesas .—SSmesesseess:oe 200 +—eeSEee—— —  oe—————aee — _—aw———oe  oee e e oooaooPeent 2 eehy<br>0 SSEth—_——<_—_——— = =====:-——Setsoe  botteett ——TPttt}——ttoe—st ooPLE tteeeree 0 -—=—_*"t—aae a eol2S elSe [eb] aoe on oe oe 2618ance Soene aanoon oeees8<br>1 10 100 1000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **25** 

**FERRITE EMI SMT** BEAD ASSEMBLIES 

## vo 

## **Pb** 

## FEATURES 

- 10 Amps continuous operating current capability 

- Very low RDC 

- Broadband (28F) and (35F) parts available 

- Lead free and RoHS compliant 

## **PART NUMBERING SYSTEM** 

|**28**<br>**F**<br>**0121**<br>**-0**<br>**S**<br>**R**<br>**-10**<br>Material Code<br>Product Code (EIA)<br>EIA Size Code<br>Selected<br>Dimension Code<br>Additional<br>Description<br>Packing<br>Code<br>Additional Description<br>**SMT BEAD ASSEMBLIES - POWER LINE**<br>**EIA**<br>**PKG.**<br>**SIZE**<br>**Metric**<br>**Pkg.**<br>**Size**<br>**Part Number**<br>**Typical Impedance (**Ω**)**<br>**Typical**<br>**Peak Im-**<br>**pedance (**Ω**)**<br>**Peak**<br>**Impedance**<br>**Frequency**<br>**(MHz)**<br>**DCR**<br>**MAX**<br>**(**Ω**)**<br>**RATED I MAX**<br>**(continuous)**<br>**mA**<br>**Z @**<br>**MHz**<br>**Z @**<br>**100 MHz**<br>**Z @**<br>**500 MHz**<br>**Z @**<br>**1 GHz**<br>1612<br>4131<br>28F0121-0SR-10<br>30<br>48<br>53<br>53<br>54<br>800<br>0.00075<br>10,000<br>3312<br>8531<br>28F0121-1SR-10<br>60<br>96<br>115<br>114<br>117<br>833<br>0.001<br>10,000<br>3318<br>8545<br>28F0181-1SR-10<br>72<br>115<br>123<br>123<br>125<br>900<br>0.001<br>10,000<br>~~aee~~|
|---|
|**LOW FREQUENCY BEAD ASSEMBLIES - POWER LINE**|
|**EIA**<br>**PKG.**<br>**SIZE**<br>**Metric**<br>**Pkg.**<br>**Size**<br>**Part Number**<br>**Typical Impedance (**Ω**)**<br>**Typical**<br>**Peak Im-**<br>**pedance (**Ω**)**<br>**Peak**<br>**Impedance**<br>**Frequency**<br>**(MHz)**<br>**DCR**<br>**MAX**<br>**(**Ω**)**<br>**RATED I MAX**<br>**(continuous)**<br>**mA**<br>**Z @**<br>**MHz**<br>**Z @**<br>**100 MHz**<br>**Z @**<br>**500 MHz**<br>**Z @**<br>**1 GHz**<br>1612<br>4131<br>35F0121-0SR-10<br>17<br>41<br>48<br>47<br>49<br>13<br>0.00075<br>10,000<br>3312<br>8531<br>35F0121-1SR-10<br>35<br>82<br>102<br>90<br>104<br>17<br>0.001<br>10,000<br>~~cea~~|



**26** www.laird.com 

**FERRITE EMI SMT** BEAD ASSEMBLIES 

## **SMT Bead Assemblies Impedance Under DC Bias** 

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28F0121-0SR-10 28F0121-1SR-10<br>60<br>140<br>0 mA<br>50 500 mA 120 0 mA<br>500 mA<br>S P M 1000 mA Sse Sse 7 SL<br>40 > 2000 mA eee 100 =: 1000 mA2000 mA SaaS<br>30 4000 mA8000 mA 80 = 3000 mA LAA<br>HH: | [ZAZA] 5000 mA<br>60<br>20<br>Serres Ses 3 40 - A EAN<br>10<br>20<br>Bree Se eee. e ee<br>0 Seo Soneeer ee 0 Se ae<br>1 10 100 1000 3000 1 10 100 1000 3000<br>Frequency (MHz) Frequency (MHz)<br>28F0181-1SR-10 35F0121-0SR-10<br>140 60<br>120 = 0 mA ee 0 mA250 mA —<br>500 mA 50 500 mA<br>100 1000 mA 750 mA<br>2000 mA 40 1000 mA<br>80 Ll:+5 3000 mA |AGA A S 5000 mA<br>5000 mA 30<br>60 | [Aza =<br>40 LLL 20 AT e e<br>20 e ee 10 Tee<br>0 gE Etat 0 pee tt ezahtl) ametON‘Y<br>1 10 100 1000 3000 1 10 100 1000 3000<br>Frequency (MHz) Frequency (MHz)<br>35F0121-1SR-10<br>120<br>0 mA<br>100 BSH Sti BE 250 mA500 mA<br>750 mA<br>80 1000 mA<br>BSH Best Se! 5000 mA<br>60<br>40<br>ba SSE eset Se<br>20<br>sai eet Seat<br>0<br>1 10 100 1000 3000<br>Frequency (MHz)<br>Impedance () Ω Impedance () Ω<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **27** 

**FERRITE EMI SMT** BEAD ASSEMBLIES 

## **DIMENSION** 

|**METRIC ( EIA )**<br>**PKG. SIZE**|**A mm**<br>**(INCHES)**|**B mm**<br>**(INCHES)**|**C* mm**<br>**(INCHES)**|**D mm**<br>**(INCHES)**|**MONOLITHIC CHIP BEAD**|
|---|---|---|---|---|---|
|0603(0201)|0.60(0.023)|0.30(0.011)|0.30(0.011)|0.15(0.006)|**FERRITE**<br>**SMT BEAD ASSEMBLIES**<br>~~a~~|
|1005(0402)|1.01(0.040)|0.50(0.020)|0.50(0.020)|0.30(0.012)||
|1608(0603)|1.60(0.063)|0.80(0.031)|0.80(0.031)|0.36(0.014)||
|2010(0804)|2.00(0.079)|1.00(0.039)|0.50(0.020)|0.025(0.010)||
|2012(0805)|2.00(0.079)|1.25(0.049)|0.90(0.035)|0.51(0.020)||
|3216(1206)|3.20(0.126)|1.60(0.063)|1.10(0.043)|0.51(0.020)||
|3225(1210)|3.20(0.126)|2.50(0.098)|1.40(0.055)|0.46(0.018)||
|4030(1612)|4.06(0.160)|3.05(0.120)|2.28(0.090)|0.46(0.018)||
|4516(1806)|4.50(0.177)|1.60(0.063)|1.60(0.063)|0.51(0.020)||
|4532(1812)|4.50(0.177)|3.20(0.126)|1.40(0.055)|0.46(0.018)||
|5650(2220)|5.59(0.220)|5.08(0.200)|3.45(0.136)|0.76(0.030)||
||8.50 (0.335)<br>**A mm**<br>**(INCHES)**<br>3.05 (0.120)<br>~~a~~|3.05 (0.120)<br>**B mm**<br>**(INCHES)**<br>2.54 (0.100)<br>~~a~~|2.28 (0.090)<br>**C* mm**<br>**(INCHES)**<br>4.06 (0.160)<br>~~a~~|0.51 (0.020)<br>**D mm**<br>**(INCHES)**<br>- -<br>~~a~~||
|_ _ F0121-1SR<br>~~a~~|3.05 (0.120)<br>~~a~~|2.54 (0.100)<br>~~a~~|8.51 (0.335)<br>~~a~~|- -<br>~~a~~||
|_ _ F0181-0SR<br>~~a~~|4.57 (0.180)<br>~~a~~|2.54 (0.100)<br>~~a~~|8.51 (0.335)<br>~~a~~|- -<br>~~a~~||



*C     Dimension (height) may vary with current and impedance rating requirements. Refer to part print for specific dimensions. Parts have no polarity. 

**28** www.laird.com 

**COMMON MODE AND DIFFERENTIAL MODE** 

EXPLANATION 

Laird common mode chokes are the ideal components for EMI filtering of power and signal lines. These components withstand high DC currents without degradation of filtering performance that can occur with differential mode filters like small chip beads. Stable common mode chokes allow most signals to pass unaffected, yet filter the noise (EMI) from these circuits. 

Switch mode power supplies are required for most advanced electronics because harmonics of the switch mode power supply can escape the power supply as EMI. The power delivery circuit often creates opportunities for unintended common mode current loops to form in the end product, even when using a “certified” or “regulation compliant” power supply. Installation of a common mode choke to the supply output can significantly reduce this common mode energy flow and help insure product performance and EMI regulatory compliance. 

Small ferrite chip beads or inductors are degraded by the power supply output. However, common mode chokes continue their high performance regardless of the high power currents that might flow or spike in the circuit. 

Modern systems are frequently an interconnection of functional blocks and connections made by cables or wiring harnesses. These interconnections often present the opportunity for common mode current loops between devices that can lead to EMI regulatory failure. The addition of a common mode choke before the connector filters these common mode currents while allowing the desired signals to pass unaffected. The result is effective communication between devices, reliable product and system operation and product EMI regulatory compliance. 

Most well-designed power and signal circuits present no EMI caused from intended currents. As an example, at 30 MHz a pair of traces or wires 1 m long, separated by 1.3 mm, require over 20 mA differential current imbalance to exceed 100 µV/m radiation 3 meters away. However, unintended, unforeseen common mode currents can exceed 100 µV/m radiation with only 8 µA common mode current flow! Suppression of these tiny common mode currents is often crucial to assuring EMI regulatory compliance and reliable product performance. Ferrite common mode chokes operate by acting on the magnetic fields surrounding a pair of conductors. 

## **Black arrows represent differential (normal) mode. Red arrows represent common mode.** 

Two conductors used in a standard “differential” transmission circuit create magnetic fields surrounding the conductors. These magnetic fields flow around the conductors in the directions depicted by the black arrows. 

Likewise, common mode currents generate magnetic fields surrounding the conductors. The red arrows depict the common mode current path and the associated flux paths around the wires. 

The same two wires shown above have been fitted above with two separate ferrite EMI cores in a differential-mode configuration with one core per line. In this application, each core must contain the total magnetic flux resulting from both the differential mode (intended) current and the common mode (unintended) by the intended current. Differential mode filters (like small chip beads) are not stable under significant load. 

The same two wires have now been fitted with a ferrite EMI core in a common mode configuration; a single core with both lines through a common opening in the core. The differential mode (black) fields in the core are now equal and opposite, which yields a net flux seen by the core of approximately zero. Saturation is no longer an issue, and a much smaller ferrite core/choke can be used. The field from the common mode noise (red arrows) is additive and is the only remaining flux to be inflected by the core. The common mode choke configuration applies to both cable cores and board level components. Common mode chokes are stable under load. 

www.laird.com **29** 

**COMMON MODE CHOKE** FAMILY 

|**PART**<br>**SERIES**<br>**SPECIAL FEATURES**<br>**EIA PACKAGE**<br>**SIZE**<br>~~a~~<br>~~ee~~|**PART**<br>**SERIES**<br>**SPECIAL FEATURES**<br>**EIA PACKAGE**<br>**SIZE**<br>~~a~~<br>~~ee~~|**PART**<br>**SERIES**<br>**SPECIAL FEATURES**<br>**EIA PACKAGE**<br>**SIZE**<br>~~a~~<br>~~ee~~|**IMPEDANCE**<br>**( Z )**Ω**@**<br>**100 MHz**<br>~~ee~~|**RATED I MAX**<br>**(CONTINUOUS)**<br>**mA**|**PEAK IMPEDANCE**<br>**(Z) FREQUENCY**<br>~~ee~~|**# OF SINGLE**<br>**LINE PAIRS OR**<br>**CHOKES**<br>~~ee~~|
|---|---|---|---|---|---|---|
|CM 05<br>~~a~~<br>~~0~~|USB 2.0, Low Normal Mode Z<br>~~a~~<br>|0805<br>~~ee~~<br>|90-370<br>~~ee~~<br>|100-400<br>|1 GHz - 1.4 GHz<br>~~ee~~<br>~~ee~~<br>|1<br>~~ee~~<br>|
|CH 05<br>~~a~~<br>~~0 ee~~<br>~~0~~<br>~~0~~|HDMI High Speed Signal<br>~~a~~<br>~~ee~~<br><br>|0805<br>~~ee~~<br>~~ee~~<br><br>|90<br>~~ee~~<br>~~ee~~<br><br>|400<br>~~ee~~<br><br>|2000<br>~~ee~~<br>~~ee~~<br>~~ee~~<br><br>~~ee~~<br>|1<br>~~ee~~<br>~~ee~~<br><br>|
|CF Beads<br>~~0 ee~~<br>~~0 ee~~<br>~~0~~<br>~~0~~|Normal Signal, Small Package<br>~~ee~~<br>~~ee~~<br><br>|0504-0805<br>~~ee~~<br>~~ee~~<br><br>|67-220<br>~~ee~~<br>~~ee~~<br><br>|300-400<br>~~ee~~<br>~~ee~~<br><br>|180-583<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~<br><br>~~ee~~<br>|1<br>~~ee~~<br>~~ee~~<br><br>|
|CM 21<br>~~0 ee~~<br>~~0 ee~~<br>~~0~~<br>~~0~~|High Current, Low Profile<br>~~ee~~<br>~~ee~~<br><br>|2021-3421<br>~~ee~~<br>~~ee~~<br><br>|33-60<br>~~ee~~<br>~~ee~~<br><br>|15,000<br>~~ee~~<br>~~ee~~<br><br>|1GHz<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~<br><br>~~ee~~<br>|1<br>~~ee~~<br>~~ee~~<br><br>|
|CM 22 Array<br>~~0 ee~~<br>~~0 ee~~<br>~~0~~|Firewire, Gigabit Ethernet<br>~~ee~~<br>~~ee~~<br>|2722-5022<br>~~ee~~<br>~~ee~~<br>|45-200<br>~~ee~~<br>~~ee~~<br>|5,000<br>~~ee~~<br>~~ee~~<br>|200 MHz - 3 GHz<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~<br><br>~~ee~~|2,3,4<br>~~ee~~<br>~~ee~~<br>|
|CM 32 Array<br>~~0 ee~~<br>~~0 ee~~|High Current, High Frequency<br>~~ee~~<br>~~ee~~|3032- 6032<br>~~ee~~<br>~~ee~~<br>~~rE~~|120-300<br>~~ee~~<br>~~ee~~<br>~~rE~~|8,000<br>~~ee~~<br>~~ee~~|150 MHz - 2 GHz<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|2,3,4<br>~~ee~~<br>~~ee~~|
|CM 40 Array<br>~~0 ee~~<br>~~=|~~|High Current,<br>Low to High Frequency<br>~~ee~~<br>~~=|~~|3440-5740<br>~~ee~~<br>~~=|~~<br>~~rE~~<br>~~|~~|170<br>~~ee~~<br>~~=|~~<br>~~rE~~<br>~~| |~~|20,000<br>~~ee~~<br>~~=|~~<br>~~|~~|1 GHz<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~=|~~<br>~~|~~|1,2<br>~~ee~~<br>~~=|~~<br>~~|~~|
|CM 41<br>~~|~~|Ultra High Current,<br>Low to High Frequency<br>~~|~~|5441<br>~~rE~~<br>~~|~~<br>~~|~~|90-160<br>~~rE~~<br>~~|~~<br>~~| |~~|75,000<br>~~|~~<br>~~|~~<br>~~ee~~|600 MHz - 700 MHz<br>~~|~~<br>~~|~~<br>~~ee~~|1<br>~~|~~<br>~~|~~|
|CM 44<br>~~ee~~<br>~~0~~|3 Line Power<br>~~ee~~|4440<br>~~|~~<br>~~ee~~|110<br>~~| |~~<br>~~ee~~|20,000<br>~~|~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|500 MHz<br>~~|~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|3<br>~~|~~<br>~~ee~~|
|CM 45<br>~~ee~~<br>~~0~~|2 & 4 Line Power<br>~~ee~~|2545-4545<br>~~ee~~|130-170<br>~~ee~~|10,000<br>~~ee~~<br>~~ee~~<br>~~ee~~|500 MHz - 1 GHz<br>~~ee~~<br>~~ee~~<br>~~ee~~|1,2<br>~~ee~~|
|LF CM<br>~~0~~|Low Frequency|1812-5740|100-3500|200-20,000<br>~~ee~~|3 MHz - 80 MHz<br>~~ee~~|1|



## **IMPEDANCE TEST FOR COMMON MODE CHOKES** 

**Open Mode** 

**Normal/Differential Mode** 

**Common Mode** 

**Open-Mode Impedance Measurement** - 

The open-mode impedance characterizes the impedance of only a single conductor in the ferrite common mode choke. 

**Normal (Differential) Mode Impedance Measurement** The normal mode impedance characterizes the impedance presented by the common mode choke to the normal (differential) signals present in the circuit. The test circuit represents the forward and return paths through the device. 

**Common Mode Impedance Measurement** - The common mode impedance characterizes the impedance presented by the choke to the unintended common mode currents that might flow in the circuit and cause EMI failures. Since this current flows in both conductors, it is necessary to short the conductors on each side of the choke so that test current flows equally through both conductors. 

**30** www.laird.com 

**COMMON MODE CHOKES** 

## FEATURES 

## **Pb** 

- Wire wound SMT and through hole structure rated current up to 75 Amps 

- Low DCR with small package 

- Stable performance under load bias 

- Excellent impedance vs frequency feature 

- Small size and high reliability 

- For power, low frequency and high frequency signal lines 

- For USB, HDMI, 1394, DVI, S-ATA, LVDS signal line applications 

- Suitable for power saving especially for portable application 

## **PART NUMBERING SYSTEM** 

|**CM**|**0805**|**D**|**900**|**R**|**-10**|
|---|---|---|---|---|---|
|Product Series Code|EIA Size Code|Rated Current Code|Inductance Value Code|Packing Code|Additional Description|



## **HIGH SPEED SERIAL INTERFACE COMMON MODE CHOKE** 

|**APPLICATION**|**TYPE**|**PART NUMBER**|**TYPICAL IMPEDANCE (**Ω**)**<br>Po|**TYPICAL IMPEDANCE (**Ω**)**<br>Po|**TYPICAL IMPEDANCE (**Ω**)**<br>Po|**TYPICAL IMPEDANCE (**Ω**)**<br>Po|**TYPICAL**<br>**PEAK**<br>**IMPEDANCE**<br>**(**Ω**)**|**PEAK**<br>**IMPEDANCE**<br>**FREQUENCY**<br>**(MHz)**|**DCR**<br>**MAX**<br>**(**Ω**)**|**RATED I MAX**<br>**(CONTINUOUS)**<br>**(mA)**|
|---|---|---|---|---|---|---|---|---|---|---|
||||**Z @**<br>**25 MHz**|**Z @**<br>**100**<br>**MHz**|**Z @**<br>**500**<br>**MHz**|**Z @**<br>**1 GHz**|||||
|USB2.0/LVDS|Wirewound<br>(For 2 lines)|CM0805D900R-10<br>~~ae~~|24<br>~~ae~~|90<br>~~eee~~|340<br>~~eee~~|435<br>~~eee~~|445<br>~~eee~~|1405<br>~~eee~~|0.3<br>~~eee~~|400<br>~~eee~~<br>~~ee~~|
|||CM0805C161R-10<br>~~ae~~<br>~~a~~|49<br>~~ae~~<br>~~a ee~~|160<br>~~eee~~<br>~~ee~~|540<br>~~eee~~<br>~~ee~~|684<br>~~eee~~<br>~~ee~~|684<br>~~eee~~<br>~~ee~~|1000<br>~~eee~~<br>~~ee~~|0.35<br>~~eee~~<br>~~ee~~|300<br>~~eee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|
|||CM0805C221R-10<br>~~a~~<br>~~ee~~<br>~~a~~|57<br>~~a ee~~<br>~~ee~~<br>~~a~~|220<br>~~ee~~<br>~~ee~~<br>|570<br>~~ee~~<br>~~ee~~<br>~~ee~~|720<br>~~ee~~<br>~~ee~~<br>~~ee~~|724<br>~~ee~~<br>~~ee~~<br>~~ee~~|1147<br>~~ee~~<br>~~ee~~<br>~~eee~~|0.4<br>~~ee~~<br>~~ee~~<br>~~eee~~|300<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~eee~~|
|||CM0805B361R-10<br>~~ee~~<br>~~ee~~<br>~~a~~<br>~~a~~|95<br>~~ee~~<br>~~ee~~<br>~~a~~<br>~~a~~|360<br>~~ee~~<br>~~ee~~<br>~~a~~<br>|1080<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>|1310<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>|1343<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>|913<br>~~ee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~<br>|0.4<br>~~ee~~<br>~~ee~~<br>~~eee~~<br>|280<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~<br>|
|||CM0805A371R-10<br>~~a~~<br>~~a~~<br>~~a~~|186<br>~~a ~~<br>~~a~~<br>~~a~~|370<br> ~~a~~<br><br>|730<br>~~ee~~<br><br>|878<br>~~ee ~~<br><br>|878<br> ~~ee ~~<br>~~ee~~<br><br>|1000<br> ~~eee~~<br>~~ee~~<br><br>|0.5<br>~~eee~~<br><br>~~eee~~<br>|100<br>~~eee~~<br>~~ee~~<br><br>~~eee~~<br>|
|||CM0805B501R-10<br><br>~~a~~<br>~~a~~<br>~~a~~|185<br> <br>~~a~~<br>~~a~~<br>~~a~~|500<br> ~~a~~<br>~~ee~~<br><br>|895<br>~~ee~~<br><br>|980<br>~~ee~~<br><br>|1015<br>~~ee~~<br>~~ee~~<br><br>|833<br>~~ee~~<br>~~ee~~<br><br>|0.5<br>~~ee~~<br>~~eee~~<br><br>~~eee~~<br>|250<br>~~ee~~<br>~~ee~~<br>~~eee~~<br><br>~~eee~~<br>|
|||CM0805C601R-10<br>~~a~~<br>~~a~~<br>~~a~~|265<br>~~a~~<br>~~a~~<br>~~a~~|600<br>~~ee~~<br><br>|1080<br>~~ee~~<br><br>|1227<br>~~ee~~<br><br>|1264<br>~~ee~~<br><br>|782<br>~~ee~~<br><br>|0.375<br>~~eee~~<br>~~ee~~<br>~~eee~~<br><br>~~eee~~<br>|250<br>~~eee~~<br>~~ee~~<br>~~eee~~<br><br>~~eee~~<br>|
|HDMI/DVI/SATA||CH0805D900R-10<br>~~a~~<br>~~a~~<br>~~a~~|48<br>~~a ee~~<br>~~a~~<br>~~a~~|90<br>~~ee~~<br><br>|249<br>~~ee~~<br><br>|339<br>~~ee~~<br><br>|494<br>~~ee~~<br><br>|2000<br>~~ee~~<br><br>|0.3<br>~~eee~~<br>~~ee~~<br>~~eee~~<br><br>~~eee~~<br>|400<br>~~eee~~<br>~~ee~~<br>~~eee~~<br><br>~~eee~~<br>|
|||CM1206A601R-10<br>~~a~~<br>~~a~~<br>~~a~~<br>~~a~~|200<br>~~a ee~~<br>~~a~~<br>~~a~~<br>~~a~~|600<br>~~ee~~<br>~~ee~~<br><br>|1450<br>~~ee~~<br>~~ee~~<br><br>|980<br>~~ee~~<br>~~ee~~<br><br>|1530<br>~~ee~~<br>~~ee~~<br><br>|580<br>~~ee~~<br>~~ee~~<br><br>|0.8<br>~~eee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~<br>~~eee~~<br><br>|260<br>~~eee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~<br>~~eee~~<br><br>~~ee~~<br>|
|||CM1206C161R-10<br>~~a~~<br>~~a~~<br>~~a~~<br>~~a~~|81<br>~~a~~<br>~~a~~<br>~~a~~<br>~~a~~|160<br>~~ee~~<br>~~ee~~<br><br>|358<br>~~ee~~<br>~~ee~~<br><br>|555<br>~~ee~~<br>~~ee~~<br><br>|718<br>~~ee~~<br>~~ee~~<br><br>|2177<br>~~ee~~<br>~~ee~~<br><br>|0.4<br>~~eee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~<br><br>~~eee~~<br>|340<br>~~eee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~<br>~~ee~~<br><br>~~eee~~<br>|
|USB/Signal Line|Multilayer<br>(For 2 lines)|CF0504C900R-10<br>~~a~~<br>~~a~~<br>~~a~~<br>~~a~~|28<br>~~a~~<br>~~a ee~~<br>~~a~~<br>~~a~~|90<br>~~ee~~<br>~~ee~~<br><br>|210<br>~~ee~~<br>~~ee~~<br><br>|148<br>~~ee~~<br>~~ee~~<br><br>|217<br>~~ee~~<br>~~ee~~<br><br>|583<br>~~ee~~<br>~~ee~~<br><br>|0.6<br>~~eee~~<br>~~ee~~<br>~~ee~~<br>~~eee~~<br><br>|300<br>~~eee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~eee~~<br><br>~~ee~~<br>|
|||CF0504C121R-10<br>~~a~~<br>~~a~~<br>~~a~~<br>~~a~~|33<br>~~a ee~~<br>~~a~~<br>~~a~~<br>~~a~~|120<br>~~ee~~<br>~~ee~~<br><br>|250<br>~~ee~~<br>~~ee~~<br><br>|145<br>~~ee~~<br>~~ee~~<br><br>|250<br>~~ee~~<br>~~ee~~<br><br>|500<br>~~ee~~<br>~~ee~~<br><br>|0.6<br>~~ee~~<br>~~eee~~<br>~~ee~~<br><br>~~eee~~<br>|300<br>~~ee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~<br>~~ee~~<br><br>~~eee~~<br>|
|||CF0805D670R-10<br>~~a~~<br>~~a~~<br>~~a~~|24<br>~~a ee~~<br>~~a~~<br>~~a~~|67<br>~~ee~~<br><br>|196<br>~~ee~~<br><br>|98<br>~~ee~~<br><br>|166<br>~~ee~~<br><br>|510<br>~~ee~~<br><br>|0.4<br>~~ee~~<br>~~eee~~<br><br>|400<br>~~ee~~<br>~~ee~~<br>~~eee~~<br><br>~~eee~~<br>|
|||CF0805D900R-10<br>~~a~~<br>~~a~~<br>~~a~~|32<br>~~a~~<br>~~a~~<br>~~a~~|90<br>~~ee~~<br><br>|210<br>~~ee~~<br><br>|106<br>~~ee~~<br><br>|220<br>~~ee~~<br><br>|435<br>~~ee~~<br><br>|0.4<br>~~eee~~<br>~~ee~~<br><br>~~eee~~<br>|400<br>~~eee~~<br>~~ee~~<br>~~eee~~<br><br>~~eee~~<br>|
|||CF0805D121R-10<br>~~a~~<br>~~a~~<br>~~a~~|36<br>~~a~~<br>~~a~~<br>~~a~~|120<br>~~ee~~<br><br>|240<br>~~ee~~<br><br>|103<br>~~ee~~<br><br>|260<br>~~ee~~<br><br>|397<br>~~ee~~<br><br>|0.4<br>~~ee~~<br>~~eee~~<br><br>|400<br>~~eee~~<br>~~ee~~<br>~~eee~~<br><br>~~ee~~<br>|
|||CF0805D181R-10<br>~~a~~<br>~~a~~|48<br>~~a~~<br>~~a~~|180<br>~~ee~~<br>|123<br>~~ee~~<br>|42<br>~~ee~~<br>|277<br>~~ee~~<br>|210<br>~~ee~~<br>|0.5<br>~~eee~~<br>~~ee~~<br><br>~~eee~~|400<br>~~eee~~<br>~~ee~~<br>~~ee~~<br><br>~~eee~~|
|||CF0805C221R-10<br>~~a~~<br>~~a~~|50<br>~~a~~<br>~~a ee~~|220<br>~~ee~~<br>~~ee~~|109<br>~~ee~~<br>~~ee~~|33<br>~~ee~~<br>~~ee~~|296<br>~~ee~~<br>~~ee~~|180<br>~~ee~~<br>~~ee~~|0.5<br>~~eee~~<br>~~ee~~<br>~~ee~~<br>~~eee~~|300<br>~~eee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~eee~~|



www.laird.com **31** 

**COMMON MODE CHOKES** 

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CM0805D900R-10<br>600 LT Tn<br>500 APT| 1 oN|ee ||<br>400 a a Nil<br>TT Att 6 IN<br>300<br>Sine i ayen<br>200 CT y<br>PT ET AeAe<br>100<br>PT| aTTHy a: FT|<br>0 ee<br>eee i ae Ill<br>1 10 100 1000 3000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


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800<br>700 0 A : = :<br>600500 beate fe.  et4 Wh<br>400 SartGkeet ect4 \\ eee<br>300<br>200 Con _ ooh _ oc<br>0<br>1000 a0a agaDer a<br>1 10 100 1000 3000<br>Frequency (MHz)<br>CM0805A371R-10<br>1000<br>900 SS ey een<br>800 PSEA DEE DonWon<br>700<br>POSTE<br>600 See ewerESeeeTAN4 atl a iEEEREE<br>500<br>Ee<br>400<br>300<br>200 PeSem eCmnnnS4   commpmeerinall  mast\ at<br>100<br>0 PEerrno oeEeSo<br>1 10 100 1000 3000<br>Frequency (MHz)<br>CM0805C601R-10<br>1400 | | T }<br>1200 | +tf at 7\c<br>1000 . }+ t} +ryHEE\<br>800 || |} |t t\10<br>600 | I } |<br>400<br>200 }| +} } sett+<br>0 }1 — ee<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


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CM0805C161R-10<br>800 PtPOL<br>700 Oonr,Ch<br>600 LooaCao_Oae WOCo<br>500 oooo<br>400<br>ooSHHEeoon<br>300<br>200100 SSHoTaSLnnTTRLIRTEEEIEn|earnmaeooa tiowETZonGentEEenEaneeieeAut4nieERE<br>0 A<br>NL<br>1 10 100 1000 3000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


## **CM0805B361R-10** 

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1200<br>1000 ESEOeESee esis:ee<br>SSaeess eee ets eee ees a Coe eeet!<br>800600 eSSearsESSSaeeltSesh——tieeEE|a—————SetiesSeeSe ateeeeraseke e srieeoitisthere eet| Seee e eese!etttt<br>Semrecerecessqumraresetes}mener Susttiian tasmrusttt:<br>400 EEeresesasetsemmentrest” ee<br>See tates weet ieee temestte:<br>200 2SS Seer sateet ee eT ee<br>0 EESeeeeeeop pea parAieee eee eaaiiiranQOLt e emer<br>1 10 100 1000 10000<br>Frequency (MHz)<br>CM0805B501R-10<br>1200<br>SSH SSH SSH SSH:<br>1000 Ses SSHSSS,<br>800 SESE<br>202SSHPIE S OD ENShEE1a s yenSHS S ’ iESH:<br>600<br>SSeS SS SSHHLY -Saaitiee Saati<br>400<br>200 Sassiiiemesapeeestttnee emnen Strraeoteaureemeritremmeneteitteseittn es seit‘ tt<br>0 ODDbt ert THettttPHAR Tine<br>1 10 100 1000 10000<br>Frequency (MHz)<br>CH0805D900R-10<br>400 —<—<aet a es ssi oeess<br>350 Se — —ooctite—<t—— cesta<<<os ——ocsess!—osest!! oon\ Soo tometee esetmeset!mesett<br>300 ISPSee——SSsseteSSSresinsibeT1b TlAcom meeeEEE e itttT<br>250200 essePetSSSsssaea aesetaese eeaeieSiSSassi: sessSSaeset SSE: Seesesses<br>150<br>100 EEaee se<br>50<br>0 —<—occesssea 2), eea caSeESETi <<)SETssseeeoo eSmassesStITS<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**32** www.laird.com 

**COMMON MODE CHOKES** 

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CM1206A601R-10<br>2000<br>| |<br>hh st<br>1500 Ca A >| |<br>po eT TS TR Mil<br>tttEEoere/f Ta10, || |<br>1000 | A,y<br>SOE|<br>Pees [eeetat][eneeeeneeen”]  Aaenmeeninah Geaemeen<br>500<br>SYA NT<br>0 Jttf attcon: ae| aettee  SHEER |Ht — +t etrynti’ha eeNelEeeTTTmmameat<br>1 10 100 1000 10000<br>Frequency (MHz)<br>CM1206C161R-10<br>800<br>700 SStt—<—oooseeS —<ocsss— ae ees <<ee ttessccss saaeee eesst:<br>——<<- ——— sss — eee) ene<br>600 POP PSS Cb PENN bp pis oh prises<br>500400300 SOPeettSSSPOP——<—<—<O—_———ti—_sssSe aEE EPLEEwe 523Sswr <=.oes St)SSeeOP SS553ee EPHEEescece asSS——ott eae orsePup saossSS5555—<ao_ssesss aoeSSetOPa SESE: eetPHInEaceesoasestt:<br>——$_Pt = ee —— i eei tt<br>200100 FrSsoOPPsGee Ge et eebbee o bit. e  ee ee ee eebithee ieebitinee es<br>ea<br>0 bnee——eene nant eheeaeee ES Soooeeeeloyees:<br>1 10 100 1000 10000<br>Frequency (MHz)<br>CF0805D670R-10<br>250 Hog———T>h—h————*—7——X—TCcX_——jedg e d ob pdt ——T——T—of etdo_odhe ttt<br>200 EA2ee|2oe || Loss| eT<br>150 ——T————————oT—ThhNT——————N——————TTTooo Sooo ooo<br>——TTT<br>100 ooOODTTTEH ———————eee—E—EeEeeeearsa OeOOO<br>See eAYT<br>50 —————=TT TeTT “ Looo<br>Ar— reeeee ae<br>0 p—ES ftee ae5 6 es ee .<br>1 10 100 1000 10000<br>Frequency (MHz)<br>CF0805D121R-10<br>300 ee— ro Ge Ge ae oot ee Gee ee ee | ee ee ee et) ee ee ee ee<br>250 eS — —————T—eeTTT——T———eero0S eeoooekoeel) oooll eeeeooeeee eee eis<br>200 ————whNnwnX——EEeeTTSiee et ee eeee e  Teo7 eeee, oots 8 ticetie Seeoooee meee ees<br>150 SEESroTr [See] ee eee ro [ Sl] 2eee. se 1aeee eo e ese<br>100 i——es— oo ooeeee Si,eeooa Geeeeee  essss) oo| eeoe eweseee eels<br>50 rreeTha — —aooeeesee erroeer ee e sie aoeeoooeee<br>0 aeeeeeiee eeeeeeee|eleeeeeeeee eet tiaeemee. ooViGe@annis<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


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CF0504C900R-10<br>450 SS EE GS | | ee ee<br>400 ————e————— ee ee<br>TTT ooo<br>350 etTTT oo<br>300 ee ett ees oeeeet easesen2°; | Wena<br>250 onreort+ —a ia eeRS eensee<br>200 seesETTeeoTcette ATE7 aereti i Otas eer<br>—<br>150 aee ee oe Ce cee ee oe STN 7 as NOT nS eT<br>100500 eelendSeePtes e  Os On eheres8srseSeee tttoyeieee ce—ertttAeats iam|aleeeAmemeetitt eee<br>1 10 100 1000 10000<br>Frequency (MHz)<br>CF0504C121R-10<br>350<br>300 orSeSES SS SE | RS A 8 CoA Ee a<br>— oT ao<br>250 ee Seo<br>200 ——ee—— eeoe oroeClio' oo oe cay<br>150 eSES GEa eeae asee|)Coeee ee ee ees<br>(ODP LEE OD [iyi] prune hobisun<br>10050 ——T——————Ee——T——N————T—T—h——esee—————ThhhaeeA aSOs) esereeFooa e eeee)Lisie6o oooVi Seek ames eeeeee<br>0 =eea—Se”Oe Oe Ooete—ee e meeeaa+—a A esys |-—¥eeA aa<br>1 10 100 1000 10000<br>Frequency (MHz)<br>CF0805D900R-10<br>300 —aee eeeeeeeeeeT<br>250 TT——————————eeee—— —————T—T————  eaeoo<br>200 ooEtSSSECeaetae eeaAS te eeeeat<br>150 Po— tb eee—=ee eee—A ep Pe bbe<br>Eee HHH HA Et<br>100 As)aSee eee) eee A| ee ermees)<br>ataSe a Ssls| onaSe desooo eeersen\ws) marmaeess<br>50 at OeOe<br>eee——————TTT— teeoe; Se eet re 4etl Seat!<br>0 eeCCCAeeeer| ee<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **33** 

**COMMON MODE CHOKES** 

**==> picture [410 x 131] intentionally omitted <==**

**----- Start of picture text -----**<br>
CF0805D181R-10 CF0805C221R-10<br>350300250200150 — airr<<ooaSS——iortratte————T—————oo—es————T—o—X——o—er—oo a aeAs—ostSSooeSeectsa aeSeSe eaoaSoaosa ooooeacorset!)Ses!et  oottt—oo Tes!Oooeoe!oaweees 350300250200150 ——rrraTT—ooeeeeassetoo—i———Seesoorroeeo ee Noeeooasahhee eeoetiOOaasnastt)ee,Sessl io oneeoeausaeeeoeoo©waeatt!!SeeseoSsetsseorosoeooco aoo eens:eoooomonmoeoooereoo  eseteset<br>100500 eses—oe———octoTee————ToavVXKhwT——<aaco——— aTeee e  eeoossasetSShrhe2eea eer)easeaeo e  oaeo eoesroooo leaeSa eeia easel)eata A| woeaa ooSett) eeeest 100500 oioOo — —<—occcestsoocesetSse,oreee—Ptaethe———- a aan east):oe2aaaoean eoHHeeaaesttioueScio.osoosc:soummanasrea.FESAail meett HR ee5 is Ctintom oo ieA+ assomasmoesoemAananmasse:etew acesseTeseteet<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


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32<br>**----- End of picture text -----**<br>


## **DIMENSION** 

|**PART NUMBER**|**EIA**<br>**PKG SIZE**|**METRIC PKG SIZE**|**A mm**<br>**(INCHES)**|**B mm**<br>**(INCHES)**|**C mm**<br>**(INCHES)**|**D mm**<br>**(INCHES)**|**D1 mm**<br>**(INCHES)**|**E mm**<br>**(INCHES)**|
|---|---|---|---|---|---|---|---|---|
|CM0805 CH0805|0805|2012|2.00<br>(0.079)|1.20<br>(0.047)|1.20<br>(0.047)|–|–|–|
|CF0504|0504|1210|1.25<br>(0.049)|1.00<br>(0.039)|0.82<br>(0.032)|0.30<br>(0.012)|0.20 (0.008)|0.50<br>(0.020)|
|CF0805|0805|2012|2.00<br>(0.079)|1.25<br>(0.049)|1.00<br>(0.039)|0.30<br>(0.012)|–|0.40<br>(0.016)|



## **POWER LINES COMMON MODE CHOKE** 

|**APPLICATION**|**TYPE**|**PART NUMBER**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL PEAK**<br>**IMPEDANCE**<br>**(**Ω**)**|**PEAK**<br>**IMPEDANCE**<br>**FREQUENCY**<br>**(MHz)**|**DCR MAX**<br>**(**Ω**)**|**RATED I MAX**<br>**(CONTINUOUS)**<br>**(mA)**|
|---|---|---|---|---|---|---|---|---|---|---|
||||**Z @**<br>**25 MHz**|**Z @**<br>**100 MHz**|**Z @**<br>**500 MHz**|**Z @**<br>**1 GHz**|||||
|Power Lines|Surface Mount<br>( For 2 lines)|CM2021Y330R-10|18|33|52|61|62|1100|0.0008|15,000|
|||CM3421Y600R-10|39|60|96|110|110|1000|0.0008|15,000|
||Thru-Hole<br>( For 2 lines)|CM3440Z171B-10|116|170|189|202|202|1000|0.001|20,000|
||Thru-Hole<br>( For 4 lines)|CM5740Z171B-10|116|170|189|202|202|1000|0.001|20,000|
||Surface Mount<br>( For 2 lines)|CM3440Z171R-10|116|170|189|202|202|1000|0.001|20,000|
||Surface Mount<br>( For 4 lines)|CM5740Z171R-10|116|170|189|202|202|1000|0.001|20,000|
||Surface Mount<br>( For 3 lines)|CM4440Z111R-10|79|110|122|117|122|500|0.001|20,000|
|||CM4440Z121R-10|82|120|122|117|123|460|0.001|20,000|
||Thru-Hole<br>( For 2 lines)|CM5441Z101B-10|79|100|188|183|204|682|0.0003|30,000 mA @<br>25°C Temp Rise<br>70,000 mA @<br>30 °C Temp Rise|
|||CM5441Z161B-10|112|160|261|146|263|457|0.0003||
|||CM5441Z161R-10|110|160|260|140|265|460|0.0003||



**34** www.laird.com 

**COMMON MODE CHOKES** 

**==> picture [61 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
CM2021Y330R-10<br>**----- End of picture text -----**<br>


**==> picture [188 x 131] intentionally omitted <==**

**----- Start of picture text -----**<br>
CM3421Y600R-10<br>250200 YTV ATNMT TT TINeEMl  TTT<br>150<br>Ht |<br>100 TM ETM LAM<br>aM<br>50 TT | FY AB NAT TI<br>|<br>0 r teTT TTT NIIbh<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


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200<br>180<br>Tn nn ooo<br>160 EY | nN<br>140<br>120 | |<br>Se a<br>100<br>80 PT TT ATI CTT<br>PT TTT<br>60<br>40 CT VT<br>CT Cn Zea SECT<br>20<br>0 POer CC SATN T T T<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


## **CM3440Z171B-10  CM3440Z171R-10** 

## **CM5740Z171B-10  CM5740Z171R-10** 

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500 e a<br>450<br>400<br>350<br>300<br>250<br>200<br>150<br>100<br>50<br>0<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


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600 pe bee pee bt pope ett pt<br>500<br>400<br>300<br>200<br>100<br>0<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**CM4440Z111R-10** 

**==> picture [60 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
CM5441Z101B-10<br>**----- End of picture text -----**<br>


**==> picture [189 x 120] intentionally omitted <==**

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450 q<br>400<br>350 S16<br>300<br>250<br>ETT TT<br>200<br>PTT TT<br>150 PTT<br>100 I Ae TTT<br>|| Re TN<br>50 Terraee ESI TET Ssj TTT<br>0 ee ail | ll<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


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450 | | ee |<br>375 | | || ee |<br>SSeih Eeeeatt Seeeet meee<br>300 SSS eet eee eR<br>225<br>EE<br>150 PeSS<br>75 T_T er<br>ee i<br>0 rT ee Nt<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


## **CM5441Z161B-10** 

**600 500 400 300 200 100 0** 

www.laird.com **35** 

**COMMON MODE CHOKES** 

## **DIMENSION** 

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PART NUMBER A mm (INCHES) B mm  (INCHES) C mm (INCHES)<br>CM2021Y330R-10  5.00 (0.197) 5.60 (0.220) 2.85 (0.112)<br>eeeae<br>CM3421Y600R-10  8.68 (0.342) 5.60 (0.220) 2.85 (0.112)<br>ee<br>CM3440Z171B-10  8.51 (0.335) 10.03 (0.395) 9.32 (0.367)<br>CM3440Z171R-10  8.51 (0.335) 10.03 (0.395) 9.32 (0.367)<br>++ 3<br>| | | | |<br>CM5740Z171B-10  14.48 (0.570) 10.03 (0.395) 9.32 (0.367)<br>ee:<br>CM5740Z171R-10 14.48 (0.570) 10.03 (0.395) 9.32 (0.367)<br>ee<br>CM4440Z111R-10  11.05 (0.435) 10.03 (0.395) 9.32 (0.367)<br>ee<br>CM5441Z101B-10  13.72 (0.540) 10.41 (0.410) 10.52 (0.414)<br>CM5441Z161B-10  13.72 (0.540) 10.41 (0.410) 15.24 (0.600)<br>BS<br>| i |<br>**----- End of picture text -----**<br>


**36** www.laird.com 

**LOW FREQUENCY** COMMON MODE CHOKES 

|**APPLICATION**|**TYPE**|**PART NUMBER**<br>~~es~~|**TYPICAL IMPEDANCE (**Ω**)**<br>~~po~~|**TYPICAL IMPEDANCE (**Ω**)**<br>~~po~~|**TYPICAL IMPEDANCE (**Ω**)**<br>~~po~~|**TYPICAL IMPEDANCE (**Ω**)**<br>~~po~~|**TYPICAL PEAK**<br>**IMPEDANCE (**Ω**)**<br>|**PEAK**<br>**IMPEDANCE**<br>**FREQUENCY**<br>**(MHz)**<br>~~ee~~<br>|**DCR**<br>**MAX**<br>**(**Ω**)**<br>~~**eee**~~<br>|**RATED I MAX**<br>**(CONTINUOUS)**<br>**(mA)**<br>~~**eee**~~<br>|
|---|---|---|---|---|---|---|---|---|---|---|
||||**Z @**<br>**1 MHz**<br>~~po~~<br>|**Z @**<br>**4 MHz**<br>~~po~~<br>|**Z @**<br>**10 MHz**<br>~~po~~<br>|**Z @**<br>**100 MHz**<br>~~po~~<br>|||||
|Signal/<br>Power Line|Surface<br>Mount (For<br>2 lines)<br>~~ee~~|CM1812C282R-10<br>~~ee~~<br>~~es~~|370<br>~~ee~~<br>|1,100<br>~~ee~~<br>|1,900<br>~~ee~~<br>|2,800<br>~~ee~~<br>|3500<br>~~ee~~<br>|50<br>~~ee~~<br>~~ee~~<br>|0.5<br>~~ee~~<br>~~**eee**~~<br>|200<br>~~ee~~<br>~~**eee**~~<br>|
|||CM2824B103R-10<br>~~ee~~<br>~~es~~|10,000<br>~~ee~~<br>~~ee~~|8,900<br>~~ee~~<br>~~ee~~|3,980<br>~~ee~~<br>~~ee~~|400<br>~~ee~~<br>~~ee~~|13,200<br>~~ee~~<br>~~ee~~|2<br>~~ee~~<br>~~ee~~<br>~~ee~~|1.3<br>~~ee~~<br>~~**eee**~~<br>~~ee~~<br>~~ee~~|400<br>~~ee~~<br>~~**eee**~~<br>~~ee~~<br>~~ee~~|
|||CM2824E182R-10<br>~~es~~<br>~~ee~~|200<br>~~ee~~<br>~~ee~~|570<br>~~ee~~<br>~~ee~~|920<br>~~ee~~<br>~~ee~~|1,800<br>~~ee~~<br>~~ee~~|1,920<br>~~ee~~<br>~~ee~~|80<br>~~ee ~~<br>~~ee~~<br>~~ee~~|0.26<br> ~~**eee**~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|800<br>~~**eee**~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|
|||CM2824E352R-10<br>~~eee~~<br>~~ee~~|350<br>~~eee~~<br>~~ee~~|1400<br>~~eee~~<br>~~ee~~|2,100<br>~~eee~~<br>~~ee~~|3,500<br>~~eee~~<br>~~ee~~|3,950<br>~~eee~~<br>~~**e**ee~~|45<br>~~eee~~<br>~~ee~~|0.3<br>~~ee~~<br>~~eee~~<br>~~ee~~|800<br>~~ee~~<br>~~eee~~<br>~~ee~~|
||Thru-Hole<br>(For 4 lines)<br>~~ee~~|CM2824E702R-10<br>~~ee~~|3,000<br>~~ee~~|7,000<br>~~ee~~|5,800<br>~~ee~~|800<br>~~ee~~|7,200<br>~~**e**ee~~|6<br>~~ee~~|0.26<br>~~ee~~|700<br>~~ee~~<br>~~ee~~|
|||CM5740Z241B-10<br>~~ee~~<br>~~e~~|170<br>(2 Turns)<br>~~ee~~<br>~~e~~|240<br>(2 Turns)<br>~~ee~~<br>~~e~~|173<br>(2 Turns)<br>~~ee~~<br>~~e~~|100<br>(2 Turns)<br>~~ee~~<br>~~e~~|276<br>(2 Turns)<br>~~**e**ee~~<br>~~e~~|3<br>(2 Turns)<br>~~ee~~|0.0013<br>~~ee~~|20,000<br>~~ee~~<br>~~ee~~|



## **Impedance (Z) versus Frequency** 

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4000<br>3600<br>CM2824E352R-10<br>3200 CM1812C282R-10<br>2800 CM2824E182R-10<br>2400<br>2000<br>1600<br>1200<br>800<br>400<br>0 See SESE ee Sati<br>1 10 30 100<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**==> picture [200 x 115] intentionally omitted <==**

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16000<br>14000 CM2824B103R-10<br>12000 CM2824E702R-10<br>10000<br>8000<br>6000<br>4000<br>2000<br>0 SSS BEES HS SSSTEE<br>0.1 1 5 10<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


## **CM5740Z241B-10, 2 Turn Impedance (Z)** 

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**----- Start of picture text -----**<br>
300<br>CM5740Z241B-10,<br>250 2 Turn Impedance (Z)<br>200<br>150<br>100<br>50<br>0<br>0.1 1 10 100<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


## **DIMENSION** 

|**DIMENSION**<br>**PART NUMBER**<br>**A mm (INCHES)**<br>**B mm (INCHES)**|**DIMENSION**<br>**PART NUMBER**<br>**A mm (INCHES)**<br>**B mm (INCHES)**|**DIMENSION**<br>**PART NUMBER**<br>**A mm (INCHES)**<br>**B mm (INCHES)**|**C mm (INCHES)**||
|---|---|---|---|---|
|CM1812C282R-10<br>~~ee~~<br>~~sO~~|5.00 (0.197)<br>~~ee~~<br>~~sO~~|3.50 (0.138)<br>~~ee~~|5.55 (0.140)<br>~~ee~~|~~ee~~<br>;|
|CM2824B103R-10<br>~~sO~~|7.50 (0.295)<br>~~sO~~|5.50 (0.217)|3.80 (0.150)|;<br>S|
|CM2824E182R-10<br>~~sO~~<br>~~a~~|7.50 (0.295)<br>~~sO~~|5.50 (0.217)|3.80 (0.150)||
|CM2824E352R-10<br>~~a~~<br>~~a~~|7.50 (0.295)|5.50 (0.217)|3.80 (0.150)||
|CM2824E702R-10|7.50 (0.295)|5.50 (0.217)|3.80 (0.150)||
|CM5740Z241B-10|14.40 (0.570)|10.03 (0.395)|9.32 (0.387)||



**37** 

www.laird.com 

**COMMON MODE** 

## ARRAYS 

## **APPLICATION FOR POWER LINES** 

**==> picture [524 x 278] intentionally omitted <==**

**----- Start of picture text -----**<br>
TYPICAL IMPEDANCE ( Ω ) PEAK<br>TYPICAL   DCR  RATED I MAX<br>IMPEDANCE<br>TYPE PART NUMBER Z @   Z @   Z @   Z @   PEAK  FREQUENCY  MAX  (CONTINUOUS)<br>25 MHz 100 MHz 500 MHz 1 GHz IMPEDANCE ( Ω ) (MHz) ( Ω ) (mA)<br>CM2722R800R-10 60 80 92 98 140 3000 0.02 5,000<br>Surface Mount (For 4 lines) CM2722R151R-10 113 150 165 165 168 1783 0.02 5,000<br>CM2722R201R-10 141 200 202 187 206 272 0.02 5,000<br>CM3822R800R-10 63 80 97 105 151 3000 0.02 5,000<br>Surface Mount (For 6 lines) CM3822R151R-10 108 150 170 169 172 1646 0.02 5,000<br>CM3822R201R-10 140 200 207 187 213 218 0.02 5,000<br>CM5022R800R-10 61 80 95 102 150 3000 0.02 5,000<br>Surface Mount (For 8 lines) CM5022R151R-10 112 150 165 167 177 2092 0.02 5,000<br>CM5022R201R-10 144 200 206 188 210 306 0.02 5,000<br>CM3032V121R-10 80 120 130 140 169 200 0.01 8,000<br>Surface Mount (For 4 lines) CM3032V201R-10 143 200 210 199 214 319 0.01 8,000<br>CM3032V301R-10 211 300 280 224 307 214 0.01 8,000<br>CM4732V201R-10 152 200 218 187 229 241 0.01 8,000<br>Surface Mount (For 6 lines)<br>CM4732V301R-10 217 300 250 172 328 168 0.01 8,000<br>CM6032V201R-10 140 200 219 213 219 500 0.01 8,000<br>Surface Mount (For 8 lines)<br>CM6032V301R-10 240 300 258 170 346 149 0.01 8,000<br>Thru-Hole ( For 2 lines) CM2545X171B-10 108 170 210 180 210 500 0.01 10,000<br>Surface Mount ( For 2 lines) CM2545X171R-10 108 170 210 180 210 500 0.01 10,000<br>Thru-Hole ( For 4 lines) CM4545Z131B-10 65 130 267 256 288 682 0.01 10,000<br>Surface Mount ( For 4 lines) CM4545Z131R-10 65 130 267 256 288 682 0.01 10,000<br>**----- End of picture text -----**<br>


**==> picture [504 x 257] intentionally omitted <==**

**----- Start of picture text -----**<br>
TYPICAL IMPEDANCE ( Ω ) FOR MULTIPLE PASS BOARD LAYOUT OPTIONS<br>ONE PASS TWO PASS THREE PASS FOUR PASS<br>PART NUMBER # OF CHOKES<br>100   500   1   100   500   1   100   500   1   100   500   1<br>MHz MHz GHz MHz MHz GHz MHz MHz GHz MHz MHz GHz<br>CM2722R800R-10 2 80 92 98 174 190 173 - - - - - -<br>CM2722R151R-10 2 150 165 165 292 311 222 - - - - - -<br>CM2722R201R-10 2 200 202 187 433 362 187 - - - - - -<br>CM3822R800R-10 3 80 97 105 174 190 173 304 334 257 - - -<br>CM3822R151R-10 3 150 170 169 292 311 222 490 448 226 - - -<br>CM3822R201R-10 3 200 207 187 433 362 187 670 470 208 - - -<br>CM5022R800R-10 4 80 95 102 174 190 173 304 334 257 389 446 283<br>CM5022R151R-10 4 150 165 167 292 311 222 490 448 226 674 535 229<br>CM5022R201R-10 4 200 206 188 433 362 187 670 470 208 945 499 212<br>CM3032V121R-10 2 120 130 140 266 284 241 - - - - - -<br>CM3032V201R-10 2 200 210 199 432 300 175 - - - - - -<br>CM3032V301R-10 2 300 280 224 631 251 156 - - - - - -<br>CM4732V201R-10 3 200 218 187 491 317 182 771 331 194 - - -<br>CM4732V301R-10 3 300 250 172 684 258 156 967 278 172 - - -<br>CM6032V201R-10 4 200 219 213 472 313 179 737 315 193 995 358 250<br>CM6032V301R-10 4 300 258 170 681 266 161 926 273 167 1075 317 300<br>**----- End of picture text -----**<br>


**38** www.laird.com 

**COMMON MODE** ARRAYS 

## **Part Impedance** 

**==> picture [184 x 137] intentionally omitted <==**

**----- Start of picture text -----**<br>
CM2722R800R-10, CM3822R800R-10,<br>CM5022R800R-10<br>200<br>180<br>160<br>140<br>120<br>100<br>80<br>60<br>SS<br>40<br>20<br>0<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**==> picture [187 x 136] intentionally omitted <==**

**----- Start of picture text -----**<br>
CM2722R151R-10M, CM3822R151R-10,<br>CM5022R151R-10<br>250<br>200<br>150 SSS SEs SSE a a peat<br>100<br>SSSetii Sati imeeeti iseient<br>50<br>0<br>SSStH eset eset memati<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**==> picture [187 x 137] intentionally omitted <==**

**----- Start of picture text -----**<br>
CM2722R201R-10, CM3822R201R-10,<br>CM5022R201R-10<br>500<br>450<br>400<br>350<br>300<br>250<br>200<br>150<br>Bas SSih 2 StS He<br>100<br>50<br>0<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**Multi-Pass Impedance (for multiple pass board layout options)** 

**==> picture [195 x 136] intentionally omitted <==**

**----- Start of picture text -----**<br>
CM2722R800R-10, CM3822R800R-10,<br>CM5022R800R-10<br>500<br>450<br>400<br>350<br>300<br>250<br>200<br>150<br>Piee<br>100<br>50<br>0<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**==> picture [133 x 14] intentionally omitted <==**

**----- Start of picture text -----**<br>
CM2722R151R-10M, CM3822R151R-10,<br>CM5022R151R-10<br>**----- End of picture text -----**<br>


**==> picture [190 x 119] intentionally omitted <==**

**----- Start of picture text -----**<br>
800<br>700<br>600<br>500<br>400 PN ine |<br>300<br>SiH0 Sis ===.<br>200<br>100<br>0<br>1 seer 10 a 100 SE 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**==> picture [189 x 137] intentionally omitted <==**

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CM2722R201R-10, CM3822R201R-10,<br>CM5022R201R-10<br>1000<br>900<br>800<br>700<br>600<br>500<br>400<br>300<br>200 ffGo NN<br>100<br>0<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **39** 

**COMMON MODE** ARRAYS 

## **Part Impedance** 

## **Multi-Pass Impedance (for multiple pass board layout options)** 

**==> picture [404 x 431] intentionally omitted <==**

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CM3032V121R-10 CM3032V121R-10<br>450 ——SSSer SS SSEaHSS SSSI=oSS SSSET:eee 350 Pyeere wees ——_<br>400 Sob i ihinkh ob bLiueb Of bibunh of i diiin 300 por 2 Pass<br>350 Pi:FFob iiune dPPiafteerite 250 Ss Ses!eoFein. 1 Pass<br>300<br>250 SOP PEiHeD Ob iM od Pfihny fic phi 200 oe<br>200 SSSStHHSLD DIN SSSOf bint SSSoi pith itisSS Sse 150 PLEAt mess’ Ze [EE] + Eg:<br>150<br>SSI SSS SSSHH ALES 100 as ei a he<br>100 ree iste SEICESIS ——— cusnasdiem<br>50 —=S_o2SHHiiceste fifa ateeet 50 Sez stilt aati3 Bett N SS<br>eee == s ees i<br>0 e iste ae Sees! ease eee eeeses 0<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>CM3032V201R-10, CM4732V201R-10,  CM3032V201R-10, CM4732V201R-10,<br>CM6032V201R-10 CM6032V201R-10<br>600 aSS i] i] rm it — m ‘ 1200 C—Oooo<br>500 ae aa ————— SsaesaeSi||||| a | |— | a|aooee ——E—EEeeS et|a eeOoooeeeeSeeeSPE, 1000 en)saasPSeeee Geoeaeatar ees)hsdsos) eeeeeeeeeedd eeeeee e  Yh)eeaetereteaos)HENGeeeen,fdETiiee ee tdtd yy 43 PassPassee 'Ye5®'<br>400 SSSeeeSees aeesSSee | | eeee oe | esti| eeedes ee |t' || ee e e eeeeee ee 800 aTHe a —e eees)ee)Aee e ARNOee/ ey4 eh)ess)loct! aeeee ee 2 Pass e'i.i<br>300 SerreSea esa et eS =aet|—ee esS00 11a2eeeee eeees 600 Se—a aeettees? (owLaloe eeePi tt —_eetnAeeeee®<br>200100 Seeoaeeeseee——a eeeeOeehehao| eeee ——Sei)aee=/ ses90a. eeetOs“on aeeeern eee 400200 \—Setf]=—_rsee +—_—_aaeHAA 001)aaOSE)hs=eeaelnAtteeSet)aeoOhpremeeeetern a.aen5games...’NNOE.StH. Slnf ae|‘Ceeea eseeeesees eetseeea<br>0 —_eenteeTitiea ttt iiliipemteoee| tnTiti |oe| ootiti 0 F eenseetee2 8P--:abterringST)a—_a>dt << te0asin O05)|cit  Seeeeaeaeet a, eeeniae Sh )}) aeANeneSst“am eeetttt<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>CM3032V301R-10, CM4732V301R-10,  CM3032V301R-10, CM4732V301R-10,<br>CM6032V301R-10 CM6032V301R-10<br>800 SSSSiae= _ sea=e = = eee{45 = eee 1600 BSSsiil2 SS ees) ESee eeSSSeS es ESSE[—J-+-3-44441-----4---1-4-3-4444ESET<br>700 ——<_—————<—ose—— eeee —— asstsect —oeoe ace! 1400 pSSSSSeis)SpSSSsepee SS SSseeea a] <<}<br>et a tN 4 Pass j<br>600 ——_oo(LEEee oe ae See <<ee See ae ceeae SS ee Seeesre | || Fhct ce eeoo ewoo oe cel 1200 SSSSeiitioo SSréSesii|oh SS SSses:oe 3 Pas: jj<br>500 SSScsoc oe ee eee bioe oeeeeae e et! oboeesooiipyseo ssc) tt ibinsoooe oo oc 1000 SetiiPE 9AS22)ee eetttattt e ii|<br>400 PF——---2———<22 —— aaseee —— es os (meee,otes 800 poeeSSsiiirSSfe fetitt ssinySissiQA tty 2Pass_ ||i<br>300 SSSa——PSS [sea] Se ——SSSEENSeae2 ——SS SSeSSSeeoe eneCS Seesnt 600 Snes,}Seet [——t-—+] Pt orititoeeeePtscit! —+—tee> Aureaseae4-4-1seesWat$F$aea nvA areest Sees!-t tty 1Passmem eness,|||<br>2001000 +erSS — PePe—<— — —<=s:)—ao EFF+ el—<——asestSS SSS=O 00( CEESaeSSSEDGESeheoelonamecca rt O08oy CEDSSSeae ASSse::eee cece,aesTe ; 4002000 FOaBPsreeoNFrPAaBS8teaesAATastPDeetetee|TpaBe GONNAeae.ees)PAtN StentTHNQQyeettaefits:eee<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


**40** www.laird.com 

**COMMON MODE** 

ARRAYS 

## **CM2545X171B-10,  CM2545X171R-10** 

**==> picture [186 x 143] intentionally omitted <==**

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700 oe<br>See ee<br>600 Pe ie<br>500 EES ee<br>SSaaeest a eet es ett<br>400 Pe<br>Sees ett ee ees oes rereees:<br>300<br>200<br>100<br>EaSe<br>0<br>1 10 100 1000 10000<br>Frequency (MHz)<br>CM4545X131B-10, CM4545X131R-10,<br>Multi-Turn Impedance<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


## **CM4545X131B-10, CM4545X131R-10** 

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600 pte thet ttt He tt et bt ;<br>RIS) PERL bn ban<br>500 Re<br>400 eas eti Sects eer ememnceet:<br>So LS i fo bts<br>See a SEs ee<br>300 fay<br>200<br>100<br>SE ee OA in A<br>0<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


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600<br>500400 Et<br>300 a Stnann2eh'Rimee<br>200<br>100<br>0<br>e rente as NES‘a<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **41** 

**COMMON MODE** ARRAYS 

## **DIMENSION** 

**A mm B mm C mm A mm B mm C mm PART NUMBER PART NUMBER (INCHES) (INCHES) (INCHES) (INCHES) (INCHES) (INCHES)** 6.99 5.72 4.32 7.62 8.13 9.45 CM2722R800R-10 CM3032V201R-10 (0.275) (0.225) (0.170) (0.300) (0.320) (0.372) ~~CTT~~ 7 6.99 5.72 7.62 7.62 8.13 14.48 CM2722R151R-10 CM3032V301R-10 (0.275) (0.225) (0.300) (0.300) (0.320) (0.570) ~~CEs |r~~ 6.99 5.72 9.53 11.94 8.13 9.45 CM2722R201R-10 CM4732V201R-10 (0.275) (0.225) (0.375) (0.470) (0.320) (0.372) 9.78 5.72 4.32 11.94 8.13 14.48 CM3822R800R-10 CM4732V301R-10 (0.385) (0.225) (0.170) (0.470) (0.320) (0.570) ~~CECHTeETTes~~ 9.78 5.72 7.62 15.24 8.13 9.45 CM3822R151R-10 CM6032V201R-10 (0.385) (0.225) (0.300) (0.600) (0.320) (0.372) 9.78 5.72 9.53 15.24 8.13 14.48 CM3822R201R-10 CM6032V301R-10 (0.385) (0.225) (0.375) (0.600) (0.320) (0.570) ~~nea)TAA SansEre~~ 12.57 5.72 4.32 6.3 11.38 9.32 CM5022R800R-10 CM2545X171B-10 (0.495) (0.225) (0.170) (0.248) (0.448) (0.367) ~~Co~~ 12.57 5.72 7.62 6.3 11.38 9.32 CM5022R151R-10 CM2545X171R-10 (0.495) (0.225) (0.300) (0.248) (0.448) (0.367) ~~= 8~~ 12.57 5.72 9.53 11.38 11.38 9.32 CM5022R201R-10 CM4545Z131B-10 (0.495) (0.225) (0.375) (0.448) (0.448) (0.367) ~~Te~~ 7.62 8.13 5.72 11.38 11.38 9.32 CM3032V121R-10 CM4545Z131R-11 (0.300) (0.320) (0.225) (0.448) (0.448) (0.367) ~~ss~~ 

**42** www.laird.com 

**CAN-BUS COMMON MODE CHOKE** SERIES 

## FEATURES 

- Accurate current matching capability over a broad range of inductance values 

- Sector wound coils at 25 & 51 μH to filter differential mode noise from the data signal. 

- Low distortion 

- Custom designs possible 

- Open bottom case construction 

- Small (1812) size parts are so available 

- Surface Mount 

## **HIGH SPEED SERIAL INTERFACE COMMON MODE CHOKE** 

|**TYPE**|**PART NUMBER**|**Lp IMPEDANCE (µH)**<br>po|**Lp IMPEDANCE (µH)**<br>po|**Lp IMPEDANCE (µH)**<br>po|**Lp IMPEDANCE (µH)**<br>po|**PEAK IMPEDANCE (Z)**|**L**<br>**LEAKAGE**<br>**(µH)**|**HI-POT (VAC)**<br>**0.5 mA 2 SEC**|**DCR TYPICAL**<br>**(**Ω**)**|**Idc**<br>**(mA)**<br>~~ee~~|
|---|---|---|---|---|---|---|---|---|---|---|
|||**TEST CONDITION**|**MIN**|**NOM**|**MAX**||||||
|Surface<br>Mount<br>(For 2<br>lines)|CC1812C513R-10*<br>~~ee~~|100 KHz / 50mV<br>~~ee~~|35.7<br>~~ee~~|51<br>~~ee~~|66.3<br>~~ee~~|3500 @40 MHz<br>~~ee~~|2.6<br>~~ee~~|250<br>~~ee~~|0.5<br>~~ee~~<br>~~ee~~|200<br>~~ee~~<br>~~ee~~<br>~~ee~~|
||CC2824J502R-10<br>~~ee~~|100 KHz / 50 mV<br>~~ee~~|3.5<br>~~ee~~|5<br>~~ee~~|6.5<br>~~ee~~|400 @ 500 MHz<br>~~ee~~|0.05<br>~~ee~~|250<br>~~ee~~|0.1<br>~~ee~~<br>~~ee~~<br>~~ee~~|1200<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|
||CC2824E113R-10<br>~~ee~~<br>~~Be~~|100 KHz / 50mV<br>~~ee~~<br>~~Be~~|7.7<br>~~ee~~<br>~~Be~~|11<br>~~ee~~<br>~~Be~~|14.3<br>~~ee~~<br>~~Be~~|800 @ 200 MHz<br>~~ee~~<br>~~Be~~|0.05<br>~~ee~~<br>~~Be~~|250<br>~~ee~~<br>~~Be~~|0.12<br>~~ee~~<br>~~ee~~<br>~~Be~~<br>~~ee~~<br>~~eee~~|800<br>~~ee~~<br>~~ee~~<br>~~Be~~<br>~~ee~~<br>~~eee~~|
||CC2824E253R-10<br>~~Be~~<br>~~ee~~|100 KHz / 50mV<br>~~Be~~<br>~~ee~~|17.5<br>~~Be~~<br>~~ee~~|25<br>~~Be~~<br>~~ee~~|32.5<br>~~Be~~<br>~~ee~~|2000 @ 100 MHz<br>~~Be~~<br>~~ee~~|1.5<br>~~Be~~<br>~~ee~~|250<br>~~Be~~<br>~~ee~~|0.13<br>~~Be~~<br>~~ee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~|800<br>~~Be~~<br>~~ee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~|
||CC2824E513R-10*<br>~~ee~~<br>~~ee~~|100 KHz / 50mV<br>~~ee~~<br>~~ee~~|35<br>~~ee~~<br>~~ee~~|51<br>~~ee~~<br>~~ee~~|66.3<br>~~ee~~<br>~~ee~~|3800 @ 50 MHz<br>~~ee~~<br>~~ee~~|2<br>~~ee~~<br>~~ee~~|250<br>~~ee~~<br>~~ee~~|0.16<br>~~ee~~<br>~~eee~~<br>~~ee~~<br>~~ee~~|800<br>~~ee~~<br>~~eee~~<br>~~ee~~<br>~~ee~~|
||CC2824E474R-10<br>~~ee~~<br>~~OC~~|100 KHz / 50mV<br>~~ee~~<br>~~OC~~|329<br>~~ee~~<br>~~OC~~|470<br>~~ee~~<br>~~OC~~|611<br>~~ee~~<br>~~OC~~|8600 @ 5 MHz<br>~~ee~~<br>~~OC~~|0.2<br>~~ee~~<br>~~OC~~|750<br>~~ee~~<br>~~OC~~|0.2<br>~~ee~~<br>~~ee ~~<br>~~OC~~|700<br>~~ee~~<br> ~~ee~~<br>~~OC~~|
||CC2824E105R-10<br>~~COSC~~|100 KHz / 50mV<br>~~COSC~~|700<br>~~COSC~~|1000<br>~~COSC~~|1500<br>~~COSC~~|4250 @ 7 MHz<br>~~COSC~~|0.2<br>~~COSC~~|750<br>~~COSC~~|0.2<br>~~COSC~~<br>~~ee~~|700<br>~~COSC~~<br>~~ee~~|
||CC2824D225R-10<br>~~ee~~|10 KHz / 50mV<br>~~ee~~|1540<br>~~ee~~|2200<br>~~ee~~|3300<br>~~ee~~|5300 @ 5 MHz<br>~~ee~~|0.25<br>~~ee~~|750<br>~~ee~~|0.4<br>~~ee~~<br>~~ee~~|500<br>~~ee~~<br>~~ee~~|
||CC2824B475R-10<br>~~Be~~|10 KHz / 50mV<br>~~Be~~|3290<br>~~Be~~|4700<br>~~Be~~|7050<br>~~Be~~|12300 @ 2 MHz<br>~~Be~~|0.3<br>~~Be~~|750<br>~~Be~~|0.55<br>~~ee~~<br>~~Be~~|400<br>~~ee~~<br>~~Be~~|



* Sector Wound 

## **DIMENSION** 

|**DIMENSION**<br>**PART**<br>**NUMBER**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**PART**<br>**NUMBER**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**PART**<br>**NUMBER**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**C mm (INCHES)**||
|---|---|---|---|---|
|CC2824<br>~~ee~~|7.50 MAX (0.295<br>MAX)<br>~~ee~~|5.50 MAX (0.217<br>MAX)<br>~~ee~~|3.80 MAX (0.150 MAX)<br>~~ee~~|a><br>~~ee~~|
|CC1812<br>~~ae~~|5.00 MAX (0.197<br>MAX)<br>~~ae~~|3.50 MAX (0.138<br>MAX)<br>~~ae~~|5.55 MAX (0.140 MAX)<br>~~ae~~|~~ae~~|



www.laird.com **43** 

**CAN-BUS COMMON MODE CHOKE** SERIES 

## **Typical Insertion Loss @ 50** Ω 

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CC2824J502R-10<br>0<br>-2<br>-4 IWee<br>-6 SOIC<br>-8 SC<br>GH<br>-10<br>-12<br>-14 Co SkTTI 2.2. tee“|<br>-16 eT<br>1 10 100 1000<br>Frequency (MHz)<br>CC2824E253R-10<br>0 Tn Coo Coo<br>-5 NEUE<br>-10-15 COENT CCCn<br>a eee<br>-20<br>er Oe<br>-25-30 CTelleT SST<br>1 10 100 1000<br>Frequency (MHz)<br>CC2824E471R-10<br>-10-50 arT Fnll<br>-15 eT<br>mn<br>-20<br>a<br>-25 RT Tl<br>-30 Ertleet LI<br>1 10 100 1000<br>Frequency (MHz)<br>CC2824D225R-10<br>0<br>-5<br>-10 Set ON 0H a<br>-15-20 CCECI CTCrl<br>CET CATE CCCI<br>-25<br>SOC<br>-30<br>-35 rentsi  Cereal<br>-40 CPE CTT EEN CEI<br>0.1 1 10 100 1000<br>Frequency (MHz)<br>IL (dB)<br>IL (dB)<br>IL (dB)<br>IL (dB)<br>**----- End of picture text -----**<br>


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CC2824E113R-10<br>0<br>-5 86<br>-10 SAUTE<br>TEI TTT]<br>-15 aaT RTI<br>-20<br>BE Tsas My<br>-25 ETTLTE EE<br>1 10 100 1000<br>Frequency (MHz)<br>CC1812C513R-10, CC2824E513R-10<br>-10-50 TOCTM}<br>-15<br>NEE<br>-20 SST COTTA<br>-25 TRS CI<br>-30 PIPPh fl 4<br>-35 0a TTT<br>1 10 100 1000<br>Frequency (MHz)<br>CC2824E105R-10<br>-50 aa A a<br>-10 A<br>-15<br>PLETE LETTE TTT | ATI<br>-20 KET ELITE I ET<br>-25 SSN ZT<br>-30-35 GDhELUTESSOGNSette TITELHY |  LTT<br>0.1 1 10 100 1000<br>Frequency (MHz)<br>CC2824B475R-10<br>0<br>-5<br>-10 — ETT<br>-15 a A<br>-20 BHI<br>-25-30 PCStet BaltPe aEaadi<br>-35<br>-40 SCPaseo<br>-45 iaCoe oo<br>0.1 1 10 100<br>Frequency (MHz)<br>IL (dB)<br>IL (dB)<br>IL (dB)<br>IL (dB)<br>**----- End of picture text -----**<br>


**44** 

www.laird.com 

**PASSES** 

AND TURNS 

**==> picture [348 x 301] intentionally omitted <==**

**----- Start of picture text -----**<br>
CM Beads, CM 05 / 21 / 40 / 41<br>EMI  Chip Beads, Chip Inductors / 45, LF CM, Can Bus<br>2 4 3<br>CM5740Z241B-10, CM 45 Array CM22 Array, CM 32 Array, CM 40 Array<br>5 8? i Ss fo" 7 6 5 rT ae 6 5<br>\ €2 Tum \<br>LENE) | EIB 2™ Pass > XK<br>e . e N se @ ee ie<br>1 2 3 4 1 2 3 4 1 2 3. 4<br>CM22 Array, CM 32 Array<br>ia, 7) oe F ee |<br>EE 3 Ss\ N<br>2™ Pass \ \<br>e . se 3 Pass e \ \<br>4 7 6 ae | 3.4 5 6<br>CM22 Array, CM 32 Array<br>**----- End of picture text -----**<br>


## **EXPLANATION OF PASSES & TURNS** 

Laird multi-choke arrays can be electrically connected in the PC board to increase effective impedance. When the PCB circuits are configured, as shown above, such that individual side-by-side chokes within one array part are connected in series, the impedance is increased by a factor of the number of passes through the part. Since internal construction of Laird ferrite common mode chokes varies, Laird refers to this special installation configuration using the different terms of “pass” (additive) or “turn” (multiplicative). 

When the term “pass” is used to describe series connections through a choke, each additional pass increases the impedance (Z) in proportion to the number of series PCB connections applied. Each additional “pass” adds a choke in series. If needed, it’s an optional effective method of increasing impedance with an array. 

When the term “turn” is used to describe series connection through a choke, each additional turn increases the impedance in proportion to the square of the number of series PCB connections applied. Each turn multiplies impedance. 

Parts have no polarity. 

www.laird.com **45** 

**WIRE-WOUND SMT POWER COMMON-MODE** 

CHOKES 

## FEATURES **Pb** • Small size with high current • • : 

- Stable performance under load bias and high reliability 

- High suppression of asymmetric interferences at both low and high frequency 

## APPLICATIONS 

   - Interferences suppression of common mode noise 

   - Power line filter 

   - Switch-mode power supplies 

- SMT Type with less height 

**==> picture [64 x 7] intentionally omitted <==**

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CMX 1211 Series<br>**----- End of picture text -----**<br>


- Operation temperature: -40 **°** C to 125 **°** C (Including self-heating) 

- Custom designs on request 

## **ELECTRICAL SPECIFICATIONS** 

|**PART NO.**<br>CMX1211Z680B-10<br>ee|**INDUCTANCE @ 100 KHZ / 100 mV (uH)**<br>**DCR**<br>**MAX**<br>**(m**Ω**)**<br>**CURRENT**<br>**RATING**<br>**MAX (A)**<br>**RATING**<br>**VOLTAGE**<br>**MAX (Vrms)**<br>**HIPOT**<br>**COIL –**<br>**COIL (VAC)**<br>**NOM**<br>**MIN**<br>**MAX**<br>68<br>40.8<br>91.8<br>0.56<br>50<br>250<br>1500<br>~~J~~<br> ~~eee~~|**INDUCTANCE @ 100 KHZ / 100 mV (uH)**<br>**DCR**<br>**MAX**<br>**(m**Ω**)**<br>**CURRENT**<br>**RATING**<br>**MAX (A)**<br>**RATING**<br>**VOLTAGE**<br>**MAX (Vrms)**<br>**HIPOT**<br>**COIL –**<br>**COIL (VAC)**<br>**NOM**<br>**MIN**<br>**MAX**<br>68<br>40.8<br>91.8<br>0.56<br>50<br>250<br>1500<br>~~J~~<br> ~~eee~~|**INDUCTANCE @ 100 KHZ / 100 mV (uH)**<br>**DCR**<br>**MAX**<br>**(m**Ω**)**<br>**CURRENT**<br>**RATING**<br>**MAX (A)**<br>**RATING**<br>**VOLTAGE**<br>**MAX (Vrms)**<br>**HIPOT**<br>**COIL –**<br>**COIL (VAC)**<br>**NOM**<br>**MIN**<br>**MAX**<br>68<br>40.8<br>91.8<br>0.56<br>50<br>250<br>1500<br>~~J~~<br> ~~eee~~|**INDUCTANCE @ 100 KHZ / 100 mV (uH)**<br>**DCR**<br>**MAX**<br>**(m**Ω**)**<br>**CURRENT**<br>**RATING**<br>**MAX (A)**<br>**RATING**<br>**VOLTAGE**<br>**MAX (Vrms)**<br>**HIPOT**<br>**COIL –**<br>**COIL (VAC)**<br>**NOM**<br>**MIN**<br>**MAX**<br>68<br>40.8<br>91.8<br>0.56<br>50<br>250<br>1500<br>~~J~~<br> ~~eee~~|**INDUCTANCE @ 100 KHZ / 100 mV (uH)**<br>**DCR**<br>**MAX**<br>**(m**Ω**)**<br>**CURRENT**<br>**RATING**<br>**MAX (A)**<br>**RATING**<br>**VOLTAGE**<br>**MAX (Vrms)**<br>**HIPOT**<br>**COIL –**<br>**COIL (VAC)**<br>**NOM**<br>**MIN**<br>**MAX**<br>68<br>40.8<br>91.8<br>0.56<br>50<br>250<br>1500<br>~~J~~<br> ~~eee~~|
|---|---|---|---|---|---|
|CMX1211Z181B-10|180<br>108<br>243|1.35|32|250|1500|
|CMX1211Z321B-10|320<br>192<br>432|2.5|28|250|1500|
|CMX1211Z601B-10|620<br>372<br>837|3.5|20|250|1500|
|CMX1211Y801B-10|800<br>480<br>1080|5.3|16|250|1500|
|CMX1211X132B-10|1300<br>780<br>1755|10|11|250|1500|
|CMX1211W182B-10|1800<br>1080<br>2430|14|9|250|1500|



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DIMENSIONS CMX1211   Unit: mm<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
A Max B Max C Max<br>31.50 19.00 28.80<br>**----- End of picture text -----**<br>


## ORDERING INFORMATION 

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**----- Start of picture text -----**<br>
C  M  X  1   2   1 1   Z 6 8 0 B - 1   0<br>CMX1211 SERIES PART NUMBER EXAMPLE<br>Product series code EIA size code(L x W) Rated Current CodeX = 10,000 mAY = 15,000 mA Inductance value code (L)401 = 396 uH171 = 176 uH Packing Code B = Bulk Packaging Description Additional<br>Z ≥ = 20,000 mA 222 = 2156 uH<br>**----- End of picture text -----**<br>


**46** www.laird.com 

## **CMX1211 SERIES** WIRE-WOUND SMT POWER COMMON-MODE CHOKES TYPICAL CHARACTERISTICS – ZRX VS FREQUENCY **CMX1211Z680B-10** 

**==> picture [401 x 551] intentionally omitted <==**

**----- Start of picture text -----**<br>
180 SSSSass ees<br>160 SSS DSE=S=_ LSS SE] HSS TZLTE<br>140 _————— ee<br>120 Sa SS SS = SSSS SH SESE a Z<br>100 ——__——a SS SS ee a R<br>80<br>60 SSSSSF SS SS eeSS SSSHS SZETEE — XL<br>40 ——aoSS SS WF SSS SSE ETE<br>20<br>0<br>0.1 1.0 10<br>Frequency (MHz)<br>CMX1211Z181B-10 CMX1211Z321B-10<br>450400 S _——o—o—nSS DS= S =LS=S ssoSS DS SSS SSEEE 900800 SaaSSaaS SeSSSSSSSSSSSSSSS SSSS SS S  CSS SS  SS SS  SETIEEee<br>350 ooSesserSSSSSSSSSF__2 255 SSSFt28tOSS SSSSSotSS SSSsS5SSS Sse 700 _—SSS=SSSSS =.=.sr 2 SS SSSDSSS SSSLSSSSSSSS STF<br>300 —————oooo 600 ae SSSSS eSSSS EEE<br>250 ———_- - == ===reEEE 500 [Sa—————a— RE<br>200150 SSSeSS eS eeeLS—_SSeae, SSSaneSs 2sSeSSS SsaSSSS SSae nasSsssze SEEee 400300 SaoSSSS)SESSaeSSaeeeaSLSSS SSSSnasSSSES——SSE SOSSte eSS<br>100 S——=S=S_EaSSS—ae_——SS SE SS SO SSS SE 200 ss—aS eSi SOttaoeaeee SSedee<br>50 100<br>0 td 0 —_—_S=SS SS SSS EES eee<br>0.1 1.0 10 0.1 1.0 10<br>Frequency (MHz) Frequency (MHz)<br>CMX1211Z601B-10 CMX1211Y801B-10<br>1600140012001000 _—_———SSS———-=.SS=[}____-___-—_———SSS———_—_$_———ee—"Seee oeSSSS> oereesSNLasta ee oseS 2 CCos———_—J————SSS—SS—————Oe OOeeCrrr eeeDSSS aoo [sce] eeSSSLee SEIIIL=wn 250020001500 ——[Ss———aaa‘esesfea,eeefeeSeemeeSS e e ceefee S eeees7, SeefeIES edattesaeseeSeSeeS———1Seseees  eaeAeees Segee2et oteeOh<br>800 —S-_ S S rSS2 SSa ee SSeS Setas SSSa OsSS2SE aSS SS SS aSS Se<br>600 — S SsadSSSSiSSS=-—SS FS SSSeSSS SS_——SSSaeedS S EEEseee 100 ——:eeomameow (eeRSAe0 me remem RN FNa BeOe GanPN eywm<br>400 aS—?SSS— sn V_ESS__——E—— SSSSEss SS= an wy 2am oeSe oS<br>2000 SSS——<—<SSS—SSS<<SSSSSSSSS ES SSSSa — —— SSSS— SS—-——SSSSSSSS SVSSAEEESSE=== 5000 SSTSpe—a SSSodOEee TELeeea——teaeeoa EeRe...~<br>0.1 1.0 10 0.1 1.0 10<br>Frequency (MHz) Frequency (MHz)<br>CMX1211X132B-10 CMX1211W182B-10<br>3000 Oooo oo 4500 ———————————— Ss es eee<br>2500 Sa|ESaSS2EESE CeeseeeneSeeeeeetA+EeLO es,OeSseSeeee eeeeew erseesse reeeeee re 40003500 aSS—=LS=S=peeeSee-————_——oooee i 8seii oeeTP e eSes8FESSt2ES eeOoooaeeeS= SSeesaoee esaeae [a] eeeaeOsSS SSTeeeeae es TSseeees<br>2000 Pe—————See eeLTSrSeeT? | eSee eeSSce POee 3000 ————_——————FFeeFrewee ee<br>150010005000 SSooKEEas,Se—Se$A—eya—eeDTES——me 7H¢—-f—-—ee—— eSAeee!TTsoeeeoeRESEeeeEOSSser) NeseoeeAee4 2S SReeETTCeeeeEeeeestera eeFeaSTreeeSEaSFSSeeOe SSer$$eSNeceeTSeeee cee\ETSee—\__—aeeee e SSeee eereeeeeehOOoeFS e resee oeee——rmet 2500200015001005000 SSBaSaer}-——aFE—_—_—_—SToeSSS2 a ee a aa——————eeSESfASSSSSEeDESLSS SSS—_eeesSS---mmLSS—4_}-SSesSSS IE=aSESSeeee EES ----}eSTTEeee >>FlO——L—L——==E SeST4SS a e SS_____._eeSSeSSSoeees e SSSEyya SSeS_}-SEeee LSceSSSEEESenn}eeSSTeedesiee EEe Ss arenesSeSeSa—-1<br>0.1 1.0 10 0.1 1.0 10<br>Frequency (MHz) Frequency (MHz)<br>) Ω<br>Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


www.laird.com **47** 

**WIRE-WOUND DIP POWER COMMON-MODE** CHOKES 

**CMX 1616 Series** 

## **Pb** Z) 

## FEATURES 

- Current rating up to 62 Amp 

- Stable performance and high reliability 

- High suppression of asymmetric interferences at both low and high frequency 

- Operation temperature: -40 **°** C to 125 **°** C (Including self-heating) 

## APPLICATIONS 

   - Interferences suppression of common mode noise 

   - Power line filter 

   - Switch-mode power supplies 

- Custom designs on request 

## **ELECTRICAL SPECIFICATIONS** 

|**PART NO.**<br>CMX1616X282B-10<br>~~a~~|**PART NO.**<br>CMX1616X282B-10<br>~~a~~|**INDUCTANCE @ 100 KHZ / 100 mV (uH)**<br>**NOM**<br>**MIN**<br>**MAX**<br>2816<br>1689<br>3802<br>~~ree eee ~~|**INDUCTANCE @ 100 KHZ / 100 mV (uH)**<br>**NOM**<br>**MIN**<br>**MAX**<br>2816<br>1689<br>3802<br>~~ree eee ~~|**INDUCTANCE @ 100 KHZ / 100 mV (uH)**<br>**NOM**<br>**MIN**<br>**MAX**<br>2816<br>1689<br>3802<br>~~ree eee ~~|**DCR**<br>**MAX**<br>**(m**Ω**)**<br>**CURRENT**<br>**RATING**<br>**MAX (A)**<br>11.0<br>14<br> ~~ee~~|**DCR**<br>**MAX**<br>**(m**Ω**)**<br>**CURRENT**<br>**RATING**<br>**MAX (A)**<br>11.0<br>14<br> ~~ee~~|**RATING**<br>**VOLTAGE**<br>**MAX (Vrms)**<br>250|**HIPOT**<br>**COIL –**<br>**COIL (VAC)**<br>1500|
|---|---|---|---|---|---|---|---|---|
||CMX1616Y222B-10|2156|1293|2911|6.0|19|250|1500|
||CMX1616Z112B-10|1000|600|1350|2.8|30|250|1500|
||CMX1616Z162B-10|1584|950|2138|4.1|24|250|1500|
||CMX1616Z171B-10|176|105|238|0.65|62|250|1500|
||CMX1616Z401B-10|396|237|535|1.15|46|250|1500|
||CMX1616Z701B-10|704|422|951|2.3|33|250|1500|



## ORDERING INFORMATION 

**==> picture [376 x 34] intentionally omitted <==**

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C  M  X  1   6   1 6   Z 1 1 2 B - 1   0<br>CMX1616 SERIES PART NUMBER EXAMPLE a i a<br>Product series code EIA size code(L x W) Rated Current CodeX = 10,000 mAY = 15,000 mA Inductance value code (L)401 = 396 uH171 = 176 uH Packing Code B = Bulk Packaging Description Additional<br>Z ≥ = 20,000 mA 222 = 2156 uH<br>**----- End of picture text -----**<br>


**48** www.laird.com 

**CMX1616 SERIES** 

WIRE-WOUND DIP POWER COMMON-MODE CHOKES 

## DIMENSIONS Unit: mm 

|Part Number<br>i|A Max<br>i|B Max|C Max|LAND PATTERN|
|---|---|---|---|---|
|CMX1616X282B-10|42.00|40.00|15.50|19 &=|
|||||LT<br>On|
|CMX1616Y222B-10|42.00|40.00|15.50|tga|
|||||ee|
|CMX1616Z112B-10|40.00|40.00|16.50|to<br>6-3|
|||||1-9<br>°<br>YY|
|CMX1616Z162B-10|42.00|41.00|16.50|1-0Aa|
|||||oO<br>go|
|CMX1616Z171B-10|41.00|41.00|16.50||
|||||192<br>oF|
|CMX1616Z401B-10|41.00|41.00|16.50|to, 24|
|||||i<br>oOo<br>Ls<br>!|
|CMX1616Z701B-10|40.00|40.00|16.50|+5.af|



www.laird.com **49** 

**CMX1616 SERIES** WIRE-WOUND DIP POWER COMMON-MODE CHOKES 

## TYPICAL CHARACTERISTICS – ZRX VS FREQUENCY 

CMX1616X282B-10 

**==> picture [10 x 36] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>R<br>XL<br>**----- End of picture text -----**<br>


CMX1616Y222B-10 

CMX1616Z112B-10 

CMX1616Z162B-10 

CMX1616Z171B-10 

CMX1616Z401B-10 

CMX1616Z701B-10 

**50** 

www.laird.com 

**COMMON MODE CHOKE** SERIES 

**==> picture [511 x 532] intentionally omitted <==**

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SORTED BY IMPEDANCE @ 100 MHz OR 4 MHz<br>TYPICAL  RATED<br>TYPICAL  NOMINAL  TYPICAL  TYPICAL PEAK  TYPICAL PEAK<br>Z   DCR MAX   CONTINUOUS  A (mm)  B (mm)  C (mm)<br>PART NUMBER Z  Ω  @ 25  Z  Ω  @ 100  Z  Ω  @  IMPEDANCE  IMPEDANCE<br>Ω  @ 500  ( Ω ) CURRENT  LENGTH WIDTH HEIGHT<br>MHz MHz 1 GHz ( Ω ) FREQ. (MHz)<br>MHz (mA)<br>CM2021Y330R-10 18 33 52 61 62 1100 0.001 15,000 5.60 2.85 5.00<br>CM3421Y600R-10 39 60 96 110 110 1000 0.001 15,000 5.60 2.85 8.68<br>CF0805D670R-10 24 67 196 98 166 510 0.4 400 2.00 1.25 1.00<br>CM2722R800R-10 60 80 92 98 140 3000 0.02 5,000 6.99 5.72 4.32<br>CM3822R800R-10 64 80 97 105 151 3000 0.02 5,000 9.78 5.72 4.32<br>CM5022R800R-10 61 80 95 102 150 3000 0.02 5,000 12.57 5.72 4.32<br>CF0504C900R-10 28 90 210 148 217 583 0.6 300 1.25 1.00 0.82<br>CF0805D900R-10 32 90 210 106 220 435 0.4 400 2.00 1.25 1.00<br>CM0805D900R-10 24 90 340 435 445 1405 0.3 400 2.00 1.20 1.20<br>CH0805D900R-10 48 90 249 339 494 2000 0.3 400 2.00 1.20 1.20<br>CM5441Z101B-10 79 100 188 183 204 682 0.0008 75,000 13.72 10.41 10.52<br>CM4440Z111R-10 79 110 122 177 122 500 0.001 20,000 11.05 10.03 9.32<br>CM4440Z121R-10 82 120 122 117 123 460 0.001 20,000 11.05 10.03 9.32<br>CF0504C121R-10 33 120 250 145 250 500 0.6 300 1.25 1.00 0.82<br>CF0805D121R-10 36 120 240 103 260 397 0.4 400 2.00 1.25 1.00<br>CM3032V121R-10 80 120 130 140 169 2010 0.01 8,000 7.62 8.13 5.72<br>CM4545Z131B-10 65 130 267 256 288 682 0.01 10,000 11.38 11.38 9.32<br>CM4545Z131R-10 65 130 267 256 288 682 0.01 10,000 11.38 11.38 9.32<br>CM5022R151R-10 113 150 165 167 177 2092 0.02 5,000 12.57 5.72 7.62<br>CM2722R151R-10 113 150 165 165 168 1783 0.02 5,000 6.99 5.72 7.62<br>CM3822R151R-10 107 150 170 169 172 1646 0.02 5,000 9.78 5.72 7.62<br>CM0805C161R-10 49 160 540 684 684 1000 0.35 300 2.00 1.20 1.20<br>CM1206C161R-10 81 160 358 555 718 2177 0.4 340 3.20 1.60 1.80<br>CM5441Z161B-10 112 160 261 146 263 457 0.0008 75,000 13.72 10.41 15.24<br>CM5441Z161R-10 110 160 260 140 265 457 0.0003 75,000 13.72 10.41 15.24<br>CM3440Z171B-10 116 170 189 202 202 1000 0.001 20,000 8.51 10.03 9.32<br>CM3440Z171R-10 116 170 189 202 202 1000 0.001 20,000 8.51 10.03 9.32<br>CM5740Z171B-10 114 170 189 202 202 1000 0.001 20,000 14.48 10.03 9.32<br>CM5740Z171R-10 114 170 189 202 202 1000 0.001 20,000 14.48 10.03 9.32<br>CM2545X171B-10 108 170 210 180 210 500 0.01 10,000 6.30 11.38 9.32<br>CM2545X171R-10 108 170 210 180 210 500 0.01 10,000 6.30 11.38 9.32<br>CF0805D181R-10 48 180 123 42 277 210 0.5 400 2.00 1.25 1.00<br>CM6032V201R-10 140 200 219 213 219 500 0.01 8,000 15.24 8.13 9.45<br>CM3032V201R-10 143 200 210 199 214 319 0.01 8,000 7.62 8.13 9.45<br>CM5022R201R-10 142 200 206 188 210 306 0.02 5,000 12.57 5.72 9.53<br>CM2722R201R-10 142 200 202 187 206 272 0.02 5,000 6.99 5.72 9.53<br>CM4732V201R-10 152 200 218 187 229 241 0.01 8,000 11.94 8.13 9.45<br>CM3822R201R-10 141 200 207 187 213 218 0.02 5,000 9.78 5.72 9.53<br>CF0805C221R-10 50 220 109 33 296 180 0.5 300 2.00 1.25 1.00<br>CM0805C221R-10 57 220 570 720 724 1147 0.4 300 2.00 1.20 1.20<br>CM3032V301R-10 211 300 280 224 307 214 0.01 8,000 7.62 8.13 14.48<br>CM4732V301R-10 217 300 250 172 328 168 0.01 8,000 11.94 8.13 14.48<br>CM6032V301R-10 240 300 258 170 346 149 0.01 8,000 15.24 8.13 14.48<br>CM0805A371R-10 186 370 730 878 878 1000 0.5 100 2.00 1.20 1.20<br>Low Frequency Parts @ 1 MHz @ 4 MHz @ 10 MHz @ 25 MHz (Ohms) (MHz) (Ohms) (mA) (mm) (mm) (mm)<br>170   240   173   140   276   3<br>CM5740Z241B-10 0.001 20,000 14.48 10.03 9.32<br>(2 Turns) (2 Turns) (2 Turns) (2 Turns) (2 Turns) (2 Turns)<br>CM2824E182R-10 200 570 920 1400 1920 80 0.26 800 7.50 5.50 3.80<br>CM1812C282R-10 370 1100 1900 2700 3500 50 0.5 200 5.00 3.50 5.55<br>CM2824E352R-10 350 1400 2100 3200 3950 45 0.3 800 7.50 5.50 3.80<br>CM2824E702R-10 3000 7000 5800 4800 7200 6 0.26 700 7.50 5.50 3.80<br>CM2824B103R-10 10000 8900 3980 1800 13200 2 1.3 400 7.50 5.50 3.80<br>**----- End of picture text -----**<br>


www.laird.com **51** 

**COMMON MODE CHOKE** SERIES 

**==> picture [500 x 531] intentionally omitted <==**

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SORTED BY RATED CURRENT (AT CONTINUOUS OPERATION)<br>TYPICAL  TYPICAL  RATED<br>TYPICAL  NOMINAL  TYPICAL  TYPICAL<br>PEAK  PEAK  DCR MAX   CONTINUOUS  A (mm)  B (mm)  C (mm)<br>PART NUMBER Z  Ω  @  Z  Ω  @  Z  Ω  @  Z  Ω  @<br>IMPEDANCE  IMPEDANCE  ( Ω ) CURRENT  LENGTH WIDTH HEIGHT<br>25 MHz 100 MHz 500 MHz 1 GHz<br>( Ω ) FREQ. (MHz) (mA)<br>CM0805A371R-10 186 370 730 878 878 1,000 0.5 100 2.00 1.20 1.20<br>CM0805C161R-10 49 160 540 684 684 1,000 0.35 300 2.00 1.20 1.20<br>CM0805C221R-10 57 220 570 720 724 1,147 0.4 300 2.00 1.20 1.20<br>CF0504C900R-10 28 90 210 148 217 583 0.6 300 1.25 1.00 0.82<br>CF0504C121R-10 33 120 250 145 250 500 0.6 300 1.25 1.00 0.82<br>CF0805C221R-10 50 220 109 33 296 180 0.5 300 2.00 1.25 1.00<br>CF0805D670R-10 24 67 196 98 166 510 0.4 400 2.00 1.25 1.00<br>CF0805D900R-10 32 90 210 106 220 435 0.4 400 2.00 1.25 1.00<br>CF0805D121R-10 36 120 240 103 260 397 0.4 400 2.00 1.25 1.00<br>CF0805D181R-10 48 180 123 42 277 210 0.5 400 2.00 1.25 1.00<br>CH0805D900R-10 48 90 249 339 494 2000 0.3 400 2.00 1.20 1.20<br>CM0805D900R-10 24 90 340 435 445 1,405 0.3 400 2.00 1.20 1.20<br>CM2722R151R-10 113 150 165 165 168 1,783 0.02 5,000 6.99 5.72 7.62<br>CM2722R201R-10 142 200 202 187 206 272 0.02 5,000 6.99 5.72 9.53<br>CM2722R800R-10 60 80 92 98 140 3,000 0.02 5,000 6.99 5.72 4.32<br>CM3822R151R-10 107 150 170 169 172 1,646 0.02 5,000 9.78 5.72 7.62<br>CM3822R201R-10 141 200 207 187 213 218 0.02 5,000 9.78 5.72 9.53<br>CM3822R800R-10 64 80 97 105 151 3,000 0.02 5,000 9.78 5.72 4.32<br>CM5022R151R-10 113 150 165 167 177 2,092 0.02 5,000 12.57 5.72 7.62<br>CM5022R201R-10 142 200 206 188 210 306 0.02 5,000 12.57 5.72 9.53<br>CM5022R800R-10 61 80 95 102 150 3,000 0.02 5,000 12.57 5.72 4.32<br>CM3032V121R-10 80 120 130 140 169 2,010 0.01 8,000 7.62 8.13 5.72<br>CM3032V201R-10 143 200 210 199 214 319 0.01 8,000 7.62 8.13 9.45<br>CM3032V301R-10 211 300 280 224 307 214 0.01 8,000 7.62 8.13 14.48<br>CM4732V201R-10 152 200 218 187 229 241 0.01 8,000 11.94 8.13 9.45<br>CM4732V301R-10 217 300 250 172 328 168 0.01 8,000 11.94 8.13 14.48<br>CM6032V201R-10 140 200 219 213 219 500 0.01 8,000 15.24 8.13 9.45<br>CM6032V301R-10 240 300 258 170 346 149 0.01 8,000 15.24 8.13 14.48<br>CM2545X171B-10 108 170 210 180 210 500 0.01 10,000 6.30 11.38 9.32<br>CM2545X171R-10 108 170 210 180 210 500 0.01 10,000 6.30 11.38 9.32<br>CM4545Z131B-10 65 130 267 256 288 682 0.01 10,000 11.38 11.38 9.32<br>CM4545Z131R-10 65 130 267 256 288 682 0.01 10,000 11.38 11.38 9.32<br>CM2021Y330R-10 18 33 52 61 62 1,100 0.001 15,000 5.60 2.85 5.00<br>CM3421Y600R-10 39 60 96 110 110 1,000 0.001 15,000 5.60 2.85 8.68<br>CM3440Z171B-10 116 170 189 202 202 1,000 0.001 20,000 8.51 10.03 9.32<br>CM3440Z171R-10 116 170 189 202 202 1,000 0.001 20,000 8.51 10.03 9.32<br>CM4440Z111R-10 79 110 122 117 122 500 0.001 20,000 11.05 10.03 9.32<br>CM5740Z171B-10 114 170 189 202 202 1,000 0.001 20,000 14.48 10.03 9.32<br>CM5740Z171R-10 114 170 189 202 202 1,000 0.001 20,000 14.48 10.03 9.32<br>CM5441Z101B-10 79 100 188 183 204 682 0.0008 75,000 13.72 10.41 10.52<br>CM5441Z101B-13 79 100 188 183 204 682 0.0008 75,000 13.72 10.41 10.52<br>CM5441Z161B-10 112 160 261 146 263 457 0.0008 75,000 13.72 10.41 15.24<br>CM5441Z161B-13 112 160 261 146 263 457 0.0008 75,000 13.72 10.41 15.24<br>Low Frequency Parts @ 1 MHz @ 4 MHz @ 10 MHz @ 25 MHz (Ohms) (MHz) (Ohms) (mA) (mm) (mm) (mm)<br>CM1812C282R-10 370 1,100 1,900 2,700 3,500 50 0.5 200 5.00 3.50 5.55<br>CM2824B103R-10 10,000 8,900 3,980 1,800 13,200 2 1.3 400 7.50 5.50 3.80<br>CM2824E702R-10 3,000 7,000 5,800 4,800 7,200 6 0.26 700 7.50 5.50 3.80<br>CM2824E182R-10 200 570 920 1,400 1,920 80 0.26 800 7.50 5.50 3.80<br>CM2824E352R-10 350 1,400 2,100 3,200 3,950 45 0.3 800 7.50 5.50 3.80<br>170   240   173   140   276   3<br>CM5740Z241B-10 0.001 20,000 14.48 10.03 9.32<br>(2 Turns) (2 Turns) (2 Turns) (2 Turns) (2 Turns) (2 Turns)<br>**----- End of picture text -----**<br>


**52** www.laird.com 

**DIFFERENTIAL MODE EMI** FILTERS 

## FEATURES 

## **Pb** 

- Differential mode EMI filter, high current, thru-hole type 

- Up to 5 Amps continuous operation current 

- Low DCR 

- For power lines application for LCD-TV, automotive, telecom, test equipment etc. 

## **PART NUMBERING SYSTEM** 

|**28**|**L**|**0138**|**-1**|**0**|**R**|**-10**|
|---|---|---|---|---|---|---|
|Material Code|Product Code|EIA Size Code|Stated Dimension Code|Additional<br>Description|Packing Code|Additional Description|



|**TYPE**|**PART NUMBER**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL PEAK**<br>**IMPEDANCE (**Ω**)**|**PEAK**<br>**IMPEDANCE**<br>**FREQUENCY**<br>**(MHZ)**|**DCR MAX**<br>**(**Ω**)**|**RATED I MAX**<br>**(CONTINUOUS)**<br>**mA**|
|---|---|---|---|---|---|---|---|---|---|
|||**Z @**<br>**25 MHz**|**Z @**<br>**100 MHz**|**Z @**<br>**500 MHz**|**Z @**<br>**1 GHz**|||||
|Power Line<br>Thru-Hole<br>(Single Turn)|28L0138-10R-10|45|75|70|55|80|200|0.01|5,000|
||28L0138-40R-10|99|135|180|80|138|200|0.01|5,000|
||28L0138-50R-10|92|153|152|111|161|150|0.01|5,000|
||28L0138-70R-10|123|220|180|110|220|100|0.01|5,000|
||28L0138-80R-10|48|86|78|57|85|100|0.01|5,000|
|Power Line<br>Thru-Hole<br>(Multiple Turns)|28C0236-0BS-10|500|835|480|220|846|156|0.01|5,000|
||28C0236-0BW-10|500|835|480|220|846|156|0.01|5,000|
||28C0236-0DW-10|260|460|478|360|498|300|0.01|5,000|
||28C0236-0EW-10|620|998|484|205|1010|140|0.01|5,000|
||28C0236-0JW-10|620|998|484|205|1010|140|0.01|5,000|



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28L0138-10R-10<br>120 SEpaereeSS SYFE || esowgeeteS sk ee edee wm<br>100 rereea eene et<br>80 SSesSS—oSe e etsess:Seeo eSeeSeaemNeesol eeeraeeeee e eemeses! we<br>——eea [St] ee we e aenee<br>60 a<br>See—~— co a +++ }——+— ee:<br>40 Sehh——= a7 ————————ortel<br>[——T—_TeS eeTTalth 1aert Titi aeeSSC)a CT  eSty<br>20 ——aeaaaesaaa; eSakee18,Se.oeot i——+—OSeeee aSeeSlee:tiiLytes ee)eesafeSamoe masese:oe ;<br>0 RESTS: SSS S228 SSS Seess:<br>1 10 100 1000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**==> picture [185 x 130] intentionally omitted <==**

**----- Start of picture text -----**<br>
28L0138-40R-10<br>160140 SSSSSmeeeSSFSS SS eo SSSSSSee SSSS eseeee.SSSeeee Sst<br>SSS=== S29 TlSS—SSSIoa eee eesSSS<br>120100 —SS SS =S=S222..Ss SSSsqSS S hihS sesSS.2 SSSSSVss..SSee SSee 5 Seee18ene ss SSSeeSSS.ee SSSss:hs<br>eeSS we —S NS<br>80 SSS SS52h) Se SSSSeat<br>===eee===: ===ee Eeee ee oe ee<br>60 SaaSSS SSS EEE282: 2SSSSS SSS SS22 SSSSS SSESSSE5 :<br>4020 TSSSe————-—tt—ae eS=>Sr e Se.sseeSSSe2 5) —— e SSLS SSSS.SSeeeee288ee ees—SS SSSeeareesSses::<br>0 rereSS S093h Sos ae seers See Sarees:<br>1 10 100 1000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


> www.laird.com **53** 

**DIFFERENTIAL MODE EMI** FILTERS 

**==> picture [413 x 585] intentionally omitted <==**

**----- Start of picture text -----**<br>
28L0138-50R-10 28L0138-70R-10<br>180 St SS Sh sss) Gee SSS SSh) Sess essere asses, 250 ae eS es<br>160 SSSSS5:33)J —----$ SSS SSeesepeases----- ee ---acasn SSSeeSS,a eSed SSa)ee<br>140 <<eeSSSSE5533i SSSSSE533e~ SS. 8 SSS Sssss: 200 esEEaGeeeeeem0 ee ee ee eeae) ee LoNanSee eee e)<br>120 SSSSSsSss3333)SSSesccs SSS.aes... s SSaes se, fearsoereeesr PeSs9|<br>10080604020 SaarSSSSPSSSSS)SSeeeeSSFFFSSSSE=.3SassSssasees)SSesSesces)——o SS=SEreecerere”te-.-SFoSn)| ci| caSetaesSeasSSSSSerSSSSSSSSSS<5, Gal SSS2:.SESE =fSsSFSF OPE.aeaa4).Ss01 SEF ESSEr5 3 ahes)ee=<s! ss e  GEERGales>.SSaeSSSS—<SeeSSSSSSSSeee)aa SEFT eESeRIS SSESessSSS EsEssaceeewr areer;ass:eee SeeaeGEESEtfem=—aaeaaass:SS SSSSSE:STSSSSSaceuearers DSasSSE: SSEEE: eeeeesassessees TT:eeea cere 15010050 SEMeRAeraSSa)oe—Sere e aeooGEeeaes 8te|eeSSSaeeaayeSa”aAeeeSs)|ee eeeaeee_ onwees.ee<br>0 SS—SS SE3==. 23 SSSSSSS SSE SSS SSSSSS.SS TE SS:SassSSSSESS: STTTE:ee: 0 SSetce SSHaSA SYRT OSooa SOOY | oooSRS HTT,<br>1 10 100 1000 10000 1 10 100 1000<br>Frequency (MHz) Frequency (MHz)<br>28L0138-80R-10 28C0236-0BS-10<br>120 a—ee ee ee ee aes a a: Eom a 900800 peepSESS ERERRERREDG2b EAS SERRE. SERENE<br>100 ame—reeea)ee sea eeekaee__ee eeSK 700 ptHeSSS2222)SSS8Sss SSPSStt2 S S") ss2SSS Ssnet SSSSSSSstttss Sse:SSStt Sssss:<br>8060 mSLeaeSsek—eee ro aseOeAesa)AS SS eeee HeKeST rr e EeEEeeeee eReetta 600400500 SEESa—————_——7__1_1tttiiSSeSaIEE 5+SEES sr) HESaasa12 LESTE:oeee7Sett areBaetiih EESSaatSSa-ee SeesESeos--CEs , SEES e  ttesee<br>—ee es eeeeoote | ee tee me SS——t-_TSeteTy tiittieSRmySatiTitiSS7.SSJaSS terySSS SSE:<br>4020 P—T—esee——_es— [es] ooetee OOeSeeaee otee [EHH] aaatset 100200300 SanatS=Ssti3.etSSaSS. SF 205 i SSSSSSSS53.SSSaeSess  SS.SSSSSSas.Sst.a  SSiealSse:1ee7) trity<br>0 a SS aa eeeesEt oeeeSS Geoaee Oe es Sleeee oeeeeoeeTTSee e e  a e 0 “255aSS SSSS282SS.SSSSS: SSSSS SasSS Sees:<br>1 10 100 1000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>28C0236-0BW-10 28C0236-0DW-10<br>900<br>800700600500 PpSSSSSSSSsacisSSSSsssi33iSSF.SSSsSSSSeees!——wa—  eastss| [SS55233] SSF——---Sess)a222:SSS -S a4 [_____—] SeesSaseesSSSsSsss3°SSSSSSSSSSS S25 S555;aa=f...rr S F F7£5253)Sees)..288s:sei --333 a&SeeSadSSS S SS_———=__-StSSSssesSSSSss3!SSS)-$3S2. —-----“eSaeSBE8SaeseSSsos! Sse1 =See)! a4.SeesSeesSSSssSSsssit—eeSSSSSes oeoonSSEEE SSeaseeseteeee-----Ja ese) 600500400 ppSeaes— ee aeee——Ek)eeeoeeeeeeet)—-etSess)----4 |~~~SSeSeeeeeeeeee ee)|)|ee4}  =9eeeeee——eeieeeeee ese)ss)Sets)TE| eeeeeee!ee__eeeeeeeee---_-eeese eis)<br>400300200 _—SinesSSSss*.Se————ptSessSS=~SF==—*:.aes=e) 55S82!3 SSSa=SSseaeLeOaSEESSess)=2F=SSS S33eeeee=.sssSareesSe—eeSSSSSSeeSS.SEES,mnSsSeTS oeohSS.TSee So:osaFe esSees:ogSee—SSeee:SSSS eeasssiasstSSSi:SeSSSSSTEE:aeee. SSSstweiss 300200 Se=ASSeeeeeeeeeeeaSS es)oeeeee)a neEshs)a)Hf} —eeeeaeeNRoeeeonasA Aeeesi)eS)es)|Ss) aef}—eeOHSe)eeeeeeENeeeeeeTS)eetit)ti h—ee)|emeR||||ere weeeeeisWOeToea weeeewe!f<br>1000 .2SSSSS| _ [—]  erSSSSiS87PASC SSake eASSSSSSSSSSS522.SesSSS sesESS || rrSSSaSSSSSSS)SS SSS:SEESSse: | SShsSSSSSSee SSeS SEES SSSSsee 1000 SS—eeOra eer ehse A808)|2  ReETaAceeo|SkoseSe| ese) eeeeeeeseee! cece!<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>28C0236-0EW-10 28C0236-0JW-10<br>1200<br>ISoo S| ew 1200 —=o ——<oscse —oes s ——oe oon neat<br>1000 —ai—4 — — = —jtt — i—tt—<br>800600 SeSEaaaSeoor=oSZeaeeSea nSSe|Ch)—=TS2aA||i)|eee|fe=eSa 1||S|Sts) =eCeeeee eeae eel) 1000800600 SeesooeeA$}AaaaTTT|ee) —eeAeSSE,2 SST!)CLO? IrHaee—ES|,  Itt1eeCMO|SSS)—}—-Eeee ee ee)tt<br>400200 arraae—eeaeee eeesoeee! ||eraeS.teSO ht)Te)tteseeor oremeeleeeee!) 400 +—aaeeeeee3 ee++  aHoeSAeea SS) NsHt a NS)AHH<br>a ASSES) | ae se ome eore 200 AerAOS) SS ST | Te).<br>0 a)SeeZ)Ee)—- | — SJ TTmet! 0 SBSeSAe SS 08)seeE LTees)Se SSS) |). ees|Esee). | a.ae Sereeases<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


**54** www.laird.com 

**DIFFERENTIAL MODE EMI** 

FILTERS 

## **DIMENSION** 

|**DIMENSION**<br>**PART NUMBER**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**PART NUMBER**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**PART NUMBER**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**C mm**<br>**(INCHES)**||
|---|---|---|---|---|
|28L0138-10R-10<br>~~TTT~~|3.51<br>(0.138)<br>~~TTT~~|59.00<br>(2.323)<br>~~TTT~~|4.45<br>(0.175)<br>~~TTT~~|~~Te...~~<br>~~Re~~|
|28L0138-40R-10<br>~~Te...~~<br>~~Re~~|3.51<br>(0.138)<br>~~Te...~~<br>~~Re~~|59.00<br>(2.323)<br>~~Te...~~<br>~~Re~~|8.89<br>(0.350)<br>~~Te...~~<br>~~Re~~||
|28L0138-50R-10<br>~~Te...~~<br>~~Re~~|3.51<br>(0.138)<br>~~Te...~~<br>~~Re~~|59.00<br>(2.323)<br>~~Te...~~<br>~~Re~~|9.53<br>(0.375)<br>~~Te...~~<br>~~Re~~||
|28L0138-70R-10<br>~~Re~~<br>~~aaa~~|3.51<br>(0.138)<br>~~Re~~<br>~~aaa~~|59.00<br>(2.323)<br>~~Re~~<br>~~aaa~~|13.97<br>(0.550)<br>~~Re~~<br>~~aaa~~||
|28L0138-80R-10<br>~~ae~~|3.51<br>(0.138)<br>~~ae~~|59.00<br>(2.323)<br>~~ae~~|5.23<br>(0.206)<br>~~ae~~||



## **DIMENSION** 

|**DIMENSION**<br>**PART NUMBER**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**PART NUMBER**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**PART NUMBER**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**C mm**<br>**(INCHES)**|**D mm**<br>**(INCHES)**|**E mm**<br>**(INCHES)**|**F mm**<br>**(INCHES)**|**L1 mm**<br>**(INCHES)**||
|---|---|---|---|---|---|---|---|---|
|28C0236-0BS-10<br>~~a~~<br>|6.00<br>(0.236)<br>~~a~~<br>|14.99<br>(0.590)<br>~~a~~<br>|10.00<br>(0.394)<br>~~a~~<br>|0.51<br>(0.020)<br>~~a~~<br>|14.61<br>(0.575)<br>~~a~~<br>|-<br>~~a~~<br>|5.99<br>(0.236)<br>~~a~~<br>|~~a~~<br>~~2~~|
|28C0236-0BW-10<br>~~a~~<br>~~cee~~<br>|6.00<br>(0.236)<br>~~a~~<br>~~cee~~<br>|86.46<br>(3.404)<br>~~a~~<br>~~cee~~<br>|10.00<br>(0.394)<br>~~a~~<br>~~cee~~<br>|0.51<br>(0.020)<br>~~a~~<br>~~cee~~<br>|14.61<br>(0.575)<br>~~a~~<br>~~cee~~<br>|-<br>~~a~~<br>~~cee~~<br>|38.10<br>(1.500)<br>~~a~~<br>~~cee~~<br>|~~a~~<br>~~cee2~~<br>~~2~~|
|28C0236-0DW-10<br>~~cee~~<br>~~ee~~<br>|6.00<br>(0.236)<br>~~cee~~<br>~~ee~~<br>|86.46<br>(3.404)<br>~~cee~~<br>~~ee~~<br>|10.00<br>(0.394)<br>~~cee~~<br>~~ee~~<br>|0.51<br>(0.020)<br>~~cee~~<br>~~ee~~<br>|14.61<br>(0.575)<br>~~cee~~<br>~~ee~~<br>|-<br>~~cee~~<br>~~ee~~<br>|38.23<br>(1.505)<br>~~cee~~<br>~~ee~~<br>|~~cee2~~<br>~~ee2~~<br>~~2~~|
|28C0236-0EW-10<br><br>~~eee~~|6.00<br>(0.236)<br><br>~~eee~~|50.53<br>(1.989)<br><br>~~eee~~|10.00<br>(0.394)<br><br>~~eee~~|0.51<br>(0.020)<br><br>~~eee~~|14.61<br>(0.575)<br><br>~~eee~~|-<br><br>~~eee~~|38.10<br>(1.500)<br><br>~~eee~~|~~2~~<br>~~eee2~~|
|28C0236-0JW-10<br>~~eee~~<br>~~8~~|6.00<br>(0.236)<br>~~eee~~<br>~~8~~|20.96<br>(0.825)<br>~~eee~~<br>~~8~~|10.00<br>(0.394)<br>~~eee~~<br>~~8~~|0.51<br>(0.020)<br>~~eee~~<br>~~8~~|15.90<br>(0.626)<br>~~eee~~<br>~~8~~|5.08<br>(0.200)<br>~~eee~~<br>~~8~~|5.08<br>(0.200)<br>~~eee~~<br>~~8~~|~~eee2~~<br>~~8~~|



> www.laird.com **55** 

**EMI FILTER** 

ARRAYS 

## **POWER LINE** 

|**TYPE**|**PART NUMBER**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL IMPEDANCE (**Ω**)**|**TYPICAL PEAK**<br>**IMPEDANCE**<br>**(**Ω**)**|**PEAK**<br>**IMPEDANCE**<br>**FREQUENCY**<br>**(MHz)**|**DCR MAX (**Ω**)**|**RATED I MAX**<br>**(CONTINUOUS)**<br>**mA**|
|---|---|---|---|---|---|---|---|---|---|
|||**Z @**<br>**25 MHz**|**Z @**<br>**100 MHz**|**Z @**<br>**500 MHz**|**Z @**<br>**1 GHz**|||||
|Thru-Hole (3 lines)|29F0303-0T0-10|180|266|278|215|288|200|0.01|8,000|
|Surface Mount (3 lines)|29F0318-1SR-10|70|119|119|118|119|500|0.01|6,000|
|Thru-Hole (3 lines)|29F0328-0T0-10|232|342|418|360|420|350|0.01|10,000|
|Surface Mount (3 lines)|29F0330-2SR-10|125|200|201|160|210|300|0.01|9,000|
|Surface Mount (4 lines)|29F0418-0SR-10|48|80|80|70|83|300|0.01|6,000|
|Surface Mount (4 lines)|29F0418-1SR-10|70|119|119|118|119|500|0.01|6,000|
|Thru-Hole (4 lines)|29F0428-0T0-10|225|342|390|350|400|300|0.01|10,000|
|Thru-Hole (4 lines)|29F0429-0T0-10|180|245|270|211|280|200|0.01|8,000|
|Surface Mount (4 lines)|29F0430-2SR-10|120|200|230|225|235|800|0.01|8,000|
|Surface Mount (4 lines)|29F0430-4SR-10|175|290|268|209|300|200|0.01|9,000|
|Thru-Hole (5 lines)|29F0528-0T0-10|232|342|418|360|420|350|0.01|10,000|
|Surface Mount (8 lines)|29F0818-0SR-10|48|75|80|70|83|370|0.01|6,000|
|Surface Mount (8 lines)|29F0818-1SR-10|70|119|119|118|119|500|0.01|6,000|



## **29F0303-0T0-10** 

**==> picture [186 x 122] intentionally omitted <==**

**----- Start of picture text -----**<br>
350<br>300<br>250<br>200<br>150<br>100<br>50<br>0 ert ee ep<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


## **29F0328-0T0-10, 29F0528-0T0-10** 

**==> picture [186 x 122] intentionally omitted <==**

**----- Start of picture text -----**<br>
600 T_T<br>|| ||| ||| |||<br>450 QA ||| ||| || ||<br>BBG! Gl! ees:4 lll)<br>YY a > t+<br>300 j YY |<br>(if<br>150 ES<br>0 o> aoAU!) || S|<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


## **29F0318-1SR-10** 

**==> picture [189 x 274] intentionally omitted <==**

**----- Start of picture text -----**<br>
160<br>120<br>80<br>40<br>0 _——_<br>1 10 100 1000<br>Frequency (MHz)<br>29F0330-2SR-10<br>250 Sees eee eee ess eee<br>200 SSeoae ae Ge 0 et) ee ts mom ttt) a eesti<br>EE a<br>150 SEportingesSSS ae asSSS)!| eeaoffsetlsSs’ft()|et)|eTSel),iseg eeGeeeeeisseeeset<br>100<br>50 LfSeerpieir secie2 ti eeed eeeia oeaeeee!a<br>0 perperrr t+PEttini SSNEES Tt tCpgti<br>1 10 100 1000 10000<br>Frequency (MHz)<br>) Ω<br>Impedance (<br>) Ω<br>Impedance (<br>**----- End of picture text -----**<br>


**56** www.laird.com 

**EMI FILTER** ARRAYS 

**==> picture [419 x 425] intentionally omitted <==**

**----- Start of picture text -----**<br>
29F0418-0SR-10, 29F0818-0SR-10 29F0418-1SR-10, 29F0818-1SR-10<br>90 160<br>80<br>70<br>120<br>60<br>50<br>80<br>40<br>30<br>20 40<br>10<br>0 0<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>29F0428-0T0-10 29F0429-0T0-10<br>600 nnn 350 SSE55H) SSSEis SSSSEE SSS:<br>|| | | 300 SiH: SSE SSE SSH<br>450 || | BSH SSHE SST SSS:<br>a 250 SS555 DSSes) SSE SSSHES<br>|| oe | 200 SSSEiH SSS ss SSSrih DSSSEe:<br>300<br>CreeaOG ne ffl NSne em 150 BSSSi8SSHIEGSree5 SEESH SSSHE:SSS PSSRSSEEE S ST:<br>150 RR YF | 100 SSS32H TS SHEE SSH SSS:<br>SE oc SSF Sis SSs ese<br>50<br>Lee oa S| | SSSio8 SSS SSS SSS:<br>0 eo = OE || | ||TUN || || 0 FaiSS SSeiit SeeSi s ess:: SeSSHeeSeess S eeassess:HEE<br>1 10 100 1000 10000 1 10 100 1000 10000<br>Frequency (MHz) Frequency (MHz)<br>29F0430-2SR-10 29F0430-4SR-10<br>250 400<br>200<br>300<br>150<br>ey 200 Cir =<br>100<br>Ben SieSTBsa es SriSe  Ee ae,Seu<br>100<br>50 7a enti es Best oa etinn<br>0 0<br>1 BeriEa 10 eeetty 100 Bett 1000 Bi 3000 a 1 ZezciilEe ani l 10 SetiSvat 100 \ 1000<br>Frequency (MHz) Frequency (MHz)<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>) Ω ) Ω<br>Impedance ( Impedance (<br>**----- End of picture text -----**<br>


> www.laird.com **57** 

**EMI FILTER** ARRAYS 

## **DIMENSION** 

|**DIMENSION**<br>**PART NUMBER**<br>**# OF**<br>**LINES**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**PART NUMBER**<br>**# OF**<br>**LINES**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**PART NUMBER**<br>**# OF**<br>**LINES**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**PART NUMBER**<br>**# OF**<br>**LINES**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**PART NUMBER**<br>**# OF**<br>**LINES**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**C mm**<br>**(INCHES)**||
|---|---|---|---|---|---|---|
|29F0303-0T0-10|Thru-hole|3|7.62 (0.300)|5.08 (0.200)|10.44<br>(0.411)||
|29F0328-0T0-10||3|8.34 (0.328)|10.88 (0.428)|10.57<br>(0.416)||
|29F0318-1SR-10<br>~~eee~~|Surface-Mount<br>~~eee~~|3<br>~~eee~~|4.83 (0.190)<br>~~eee~~|4.50 (0.177)<br>~~eee~~|4.19 (0.165)<br>~~eee~~|~~oS~~<br>~~.~~|
|29F0330-2SR-10<br>~~eee~~<br>~~a~~||3<br>~~eee~~<br>~~ee~~|8.33 (0.328)<br>~~eee~~<br>~~ee~~|10.87 (0.428)<br>~~eee~~<br>~~ee~~|6.35 (0.250)<br>~~eee~~<br>~~ee~~||
|29F0428-0T0-10<br>~~eee~~<br>~~a~~<br>~~ee~~<br>~~i~~|Thru-hole<br>~~eee~~<br>~~ee~~<br>~~ee~~|4<br>~~eee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|10.88<br>(0.428)<br>~~eee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|10.88 (0.428)<br>~~eee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|10.57<br>(0.416)<br>~~eee ~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|~~oS~~<br>~~.~~|
|29F0429-0T0-10<br>~~ee~~<br>~~i~~||4<br>~~ee~~<br>~~ee~~|10.88<br>(0.428)<br>~~ee~~<br>~~ee~~|5.49 (0.216)<br>~~ee~~<br>~~ee~~|10.44<br>(0.411)<br>~~ee~~<br>~~ee~~||
|29F0418-0SR-10<br>~~i ~~<br>~~muses~~|Surface-Mount<br> ~~ee~~<br>~~muses~~|4<br>~~ee~~<br>~~muses~~|6.10 (0.240)<br>~~ee~~<br>~~muses~~|4.50 (0.177)<br>~~ee~~<br>~~muses~~|2.92 (0.115)<br>~~ee~~<br>~~muses~~|B o.,<br>=<br>,|
|29F0418-1SR-10<br>~~muses~~<br>~~a~~||4<br>~~muses~~<br>~~eee~~|6.10 (0.240)<br>~~muses~~<br>~~eee~~|4.50 (0.177)<br>~~muses~~<br>~~eee~~|4.19 (0.165)<br>~~muses~~<br>~~eee~~||
|29F0430-2SR-10<br>~~muses~~<br>~~a~~||4<br>~~muses~~<br>~~eee~~|10.87<br>(0.428)<br>~~muses~~<br>~~eee~~|10.87 (0.428)<br>~~muses~~<br>~~eee~~|6.35 (0.250)<br>~~muses~~<br>~~eee~~||
|29F0430-4SR-10<br>~~muses~~<br>~~a~~||4<br>~~muses~~<br>~~eee~~|10.87<br>(0.428)<br>~~muses~~<br>~~eee~~|10.87 (0.428)<br>~~muses~~<br>~~eee~~|8.89 (0.350)<br>~~muses~~<br>~~eee~~||
|29F0528-0T0-10<br>~~oo~~|Thru-hole<br>~~oo~~|5<br>~~oo~~|13.42<br>(0.528)<br>~~oo~~|10.88 (0.428)|10.57<br>(0.416)|~~RSS~~|
|29F0818-0SR-10<br>~~oo~~|Surface-Mount<br>~~oo~~|8<br>~~oo~~|11.43<br>(0.450)<br>~~oo~~|4.50 (0.177)|2.92 (0.115)|~~RSS~~|
|29F0818-1SR-10<br>~~oo~~||8<br>~~oo~~|11.43<br>(0.450)<br>~~oo~~|4.50 (0.177)|4.19 (0.165)||



**58** www.laird.com 

**DIFFERENTIAL MODE FILTER** EQUIVALENT CIRCUITS 

> www.laird.com **59** 

**FERRITE CHIP** INDUCTORS 

## FEATURES 

## **Pb** 

- Monolithic construction, small size 

- High reliability 

- Economical 

- Broadband and high frequency available 

- For RF and wireless communication, computers, telecommunications, automotive electronics etc. 

**PART NUMBERING SYSTEM** 

|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**IC**<br>**0603**<br>**A**<br>**102**<br>**R**<br>**-10**<br>Product Series<br>Code<br>EIA Size Code<br>Rated<br>Current Code<br>Inductance<br>Value Code<br>Packing Code<br>Additional Description<br>~~a~~||||||||||||||
|||||||||||||||
||**EIA**<br>**PKG.**<br>**SIZE**|**METRIC**<br>**PKG. SIZE**|||**PART NUMBER**||**L (nH) ± 10%**|**Q (MIN)**||**TEST**<br>**FREQ. L,Q**<br>**(MHZ)**|**SELF-**<br>**RESONANT**<br>**FREQ. (MHZ)**|**DCR MAX (**Ω**)**|**RATED I**<br>**MAX (mA)**|
||0603|1608|||IC0603A102R-10||1,000|30||10|70|0.6|25|
||0603|1608|||IC0603A103R-10||10,000|30||2|17|2.55|15|
||0603|1608|||IC0603A152R-10||1500|35||10|60|0.70|40|
||0603|1608|||IC0603A472R-10||4700|35||10|33|1.60|30|
||0603|1608|||IC0603A182R-10||1,800|30||10|50|0.95|25|
||0603|1608|||IC0603A681R-10||680|15||25|80|1.7|35|
||0603|1608|||IC0603B181R-10||180|15||25|165|0.6|50|
||0603|1608|||IC0603B470R-10||47|10||50|260|0.3|200|
||0603|1608|||IC0603A821R-10||820|15||25|85|2.10|35|
||0603|1608|||IC0603B820R-10||82|10||50|245|0.3|200|
|||||||||||||||
||0805|2012|||IC0805A103R-10||10,000|45||2|24|1.15|15|
||0805|2012|||IC0805A153R-10||15,000|30||1|19|0.8|5|
||0805|2012|||IC0805A183R-10||18,000|30||1|18|0.9|5|
||0805|2012|||IC0805A223R-10||22,000|30||1|16|1.1|5|
||0805|2012|||IC0805A272R-10||2,700|45||10|45|0.75|30|
||0805|2012|||IC0805A333R-10||33,000|30||0.4|13|1.25|5|
||0805|2012|||IC0805A472R-10||4,700|45||10|35|1|30|
||0805|2012|||IC0805A681R-10||680|25||25|105|0.8|150|
||0805|2012|||IC0805A821R-10||820|25||25|100|1.00|150|
||0805|2012|||IC0805A822R-10||8,200|45||4|26|1.1|15|
||0805|2012|||IC0805B101R-10||100|20||25|235|0.3|250|
||0805|2012|||IC0805B102R-10||1,000|45||10|75|0.4|50|
||0805|2012|||IC0805B122R-10||1200|45||10|65|0.50|250|
||0805|2012|||IC0805B182R-10||1,800|45||10|55|0.6|50|
||0805|2012|||IC0805B222R-10||2,200|45||10|50|0.65|30|
||0805|2012|||IC0805B331R-10||330|20||25|145|0.55|250|
||0805|2012|||IC0805B332R-10||3300|45||10|41|0.80|200|
||0805|2012|||IC0805C470R-10||47|15||50|320|0.2|300|
||0805|2012|||IC0805C680R-10||68|15||50|280|0.2|300|
|||||||||||||||
||1206|3216|||IC1206A103R-10||10,000|50||2|24|1|25|
||1206|3216|||IC1206A332R-10||3,330|45||10|41|0.7|50|
||1206|3216|||IC1206A333R-10||33,000|35||0.4|13|1.05|5|
||1206|3216|||IC1206A472R-10||4,700|45||10|35|0.9|50|
||1206|3216|||IC1206B153R-10||15,000|35||1|19|0.7|5|
||1206|3216|||IC1206B183R-10||18,000|35||1|21|0.7|5|
||1206|3216|||IC1206B331R-10||330|20||25|145|0.5|250|
||1206|3216|||IC1206B821R-10||820|25||25|100|0.9|150|



**6 0** www.laird.com 

**FERRITE CHIP** INDUCTORS 

## **0603 Characteristics** 

**==> picture [412 x 296] intentionally omitted <==**

**----- Start of picture text -----**<br>
L vs Frequency Q vs Frequency<br>100000 1000nH 100<br>10000nH<br>10000 CO NE 47nH Saas<br>1000<br>10<br>CON T ) = FEN Sg<br>100<br>CoN Ti KAHN<br>10<br>1 SH SUI CI 1 i hai)<br>CCT CTS 1 10 100<br>10 100 1000 10000<br>Frequency (MHz)<br>Frequency (MHz)<br>0805 Characteristics<br>L vs Frequency Q vs Frequency<br>100000 100<br>33000nH<br>10000 ee ll 4700nH1000nH 80<br>1000 47nH<br>=SN 60 SE<br>100<br>PUTTIN LEI F TT 40 =e aT<br>10 i [LT a<br>20<br>1<br>a Nl ees NBN es<br>0.1 a ll 0 zs<br>10 100 1000 10000 1 10 100<br>Frequency (MHz)<br>Q<br>Inductance (nH)<br>Q<br>Inductance (nH)<br>**----- End of picture text -----**<br>


**==> picture [176 x 121] intentionally omitted <==**

**----- Start of picture text -----**<br>
Q vs Frequency<br>100<br>80<br>60 SE<br>40 =e aT<br>a<br>20<br>ees NBN es<br>0 zs<br>1 10 100<br>Frequency (MHz)<br>Q<br>**----- End of picture text -----**<br>


## **1206 Characteristics** 

**==> picture [186 x 121] intentionally omitted <==**

**----- Start of picture text -----**<br>
L vs Frequency<br>100000 q y<br>4700nH<br>10000 330nH<br>SU C<br>33000nH<br>1000<br>ssa N U<br>100<br>Sars TE<br>10<br>CCM Coca<br>1<br>COCA<br>10 100 1000 10000<br>Frequency (MHz)<br>Inductance (nH)<br>**----- End of picture text -----**<br>


**==> picture [179 x 119] intentionally omitted <==**

**----- Start of picture text -----**<br>
Q vs Frequency<br>100<br>80<br>SS<br>60<br>See eer<br>40<br>SEs<br>20 aaaik UEN iil<br>0 1 sSssiiiisesaitll 10 e 100<br>Frequency (MHz)<br>Q<br>**----- End of picture text -----**<br>


> www.laird.com **61** 

**MULTILAYER POWER CHIP** INDUCTORS 

## **Pb** FEATURES • Small size (L x W : EIA 0805, 0806 and 1008) @ with max 1.0 mm in thickness 

- Lead-free product and support lead-free soldering 

- Applications: mainly for DC-DC converters and power modules. Compact electrical instruments like DSCs, DVCs, PDA, DVD and HDDs, cellular phones 

- Operation temperature: -55°C ~ +125°C 

- Rated Current Definition: Temperature rise to 40°C max. 

|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**|**PART NUMBERING SYSTEM**||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**CPI**<br>Product Series<br>Code<br>~~a~~||||**0805**<br>**J**<br>EIA Size<br>Code<br>Rated<br>Current Code||Current Code||**R47**<br>Inductance<br>Value Code||**R**<br>Packing<br>Code|**-1**<br>Additional<br>Description||R47 = 0.47 µH   1R0 = 1.0 µH<br>**INDUCTANCE VALUE CODE**<br>E = 500 mA<br>F = 600 mA<br>G = 700 mA<br>H = 800 mA<br>I  = 900 mA<br>J= 1000 mA≤IDC<1500 mA<br>K= 1500 mA≤IDC<2000 mA<br>**RATED CURRENT CODE**||||||
||||||||||||||4R7 = 4.7 µH|4R7 = 4.7 µH|||||
||**EIA**<br>**PKG.**<br>**SIZE**|**METRIC**<br>**PKG.**<br>**SIZE**|||**PART NUMBER**||**INDUCTANCE**<br>**(µH)**||**INDUCTANCE**<br>**TOLERANCE**||**TEST**<br>**FREQ.**<br>**(MHz)**||**DCR**<br>**(**Ω**)**|**RATED**<br>**CURRENT MAX**<br>**(mA)**|||||
||0805|2012|||CPI0805JR47R-10||0.47|||20%|1|0.10±25%||||1100|||
||0805|2012|||CPI0805JR68R-10||0.68|||20%|1|0.12±25%||||1000|||
||0805|2012|||CPI0805IR82R-10||0.82|||20%|1|0.14±25%||||900|||
||0805|2012|||CPI0805H1R0R-10||1.0|||20%|1|0.16±25%||||800|||
||0805|2012|||CPI0805H1R2R-10||1.2|||20%|1|0.16±25%||||800|||
||0805|2012|||CPI0805G1R5R-10||1.5|||20%|1|0.22±25%||||700|||
||0805|2012|||CPI0805G1R8R-10||1.8|||20%|1|0.22±25%||||700|||
||0805|2012|||CPI0805F2R2R-10||2.2|||20%|1|0.25±25%||||600|||
||0805|2012|||CPI0805E3R3R-10||3.3|||20%|1|0.22±25%||||500|||
||0805|2012|||CPI0805E4R7R-10||4.7|||20%|1|0.30±25%||||500|||
||||||||||||||||||||
||0806|2016|||CPI0806KR47R-10||0.47|||20%|1|0.14±30%||||1500|||
||0806|2016|||CPI0806KR68R-10||0.68|||20%|1|0.15±30%||||1500|||
||0806|2016|||CPI0806KR82R-10||0.82|||20%|1|0.16±30%||||1500|||
||0806|2016|||CPI0806J1R0R-10||1.0|||20%|1|0.16±30%||||1400|||
||0806|2016|||CPI0806J1R2R-10||1.2|||20%|1|0.16±30%||||1400|||
||0806|2016|||CPI0806J1R5R-10||1.5|||20%|1|0.20±30%||||1200|||
||0806|2016|||CPI0806J1R8R-10||1.8|||20%|1|0.20±30%||||1200|||
||0806|2016|||CPI0806J2R2R-10||2.2|||20%|1|0.22±30%||||1200|||
||0806|2016|||CPI0806J3R3R-10||3.3|||20%|1|0.24±30%||||1100|||
||0806|2016|||CPI0806J4R7R-10||4.7|||20%|1|0.30±30%||||1100|||
||||||||||||||||||||
||1008|2520|||CPI1008KR47R-10||0.47|||20%|1|0.07±25%||||1800|||
||1008|2520|||CPI1008KR68R-10||0.68|||20%|1|0.09±25%||||1700|||
||1008|2520|||CPI1008KR82R-10||0.82|||20%|1|0.10±25%||||1700|||
||1008|2520|||CPI1008K1R0R-10||1.0|||20%|1|0.11±25%||||1600|||
||1008|2520|||CPI1008K1R2R-10||1.2|||20%|1|0.11±25%||||1600|||
||1008|2520|||CPI1008K1R5R-10||1.5|||20%|1|0.13±25%||||1500|||
||1008|2520|||CPI1008K1R8R-10||1.8|||20%|1|0.13±25%||||1500|||
||1008|2520|||CPI1008J2R2R-10||2.2|||20%|1|0.17±25%||||1300|||
||1008|2520|||CPI1008J3R3R-10||3.3|||20%|1|0.16±25%||||1200|||
||1008|2520|||CPI1008J4R7R-10||4.7|||20%|1|0.20±25%||||1100|||



## **DIMENSION** 

|**DIMENSION**<br>**METRIC ( EIA ) PKG.**<br>**SIZE**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**METRIC ( EIA ) PKG.**<br>**SIZE**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**DIMENSION**<br>**METRIC ( EIA ) PKG.**<br>**SIZE**<br>**A mm**<br>**(INCHES)**<br>**B mm**<br>**(INCHES)**|**C* mm**<br>**(INCHES)**|**D mm**<br>**(INCHES)**|**MONOLITHIC POWER**<br>**CHIP INDUCTOR**|
|---|---|---|---|---|---|
|2012 (0805)|2.00±0.20<br>(0.079±0.008)|1.25±0.20<br>(0.049±0.008)|0.9±0.10<br>(0.035±0.004)|0.5±0.20<br>(0.02±0.008)||
|2016 (0806)|2.00±0.15<br>(0.079±0.006)<br>~~ee~~|1.60±0.15<br>(0.063±0.006)<br>~~ee~~|0.9±0.10<br>(0.035±0.004)<br>~~ee~~|0.5±0.20<br>(0.02±0.008)<br>~~ee~~||
|2520 (1008)<br>~~a~~|2.50±0.20<br>(0.098±0.008)<br>~~ee~~|2.00±0.20<br>(0.079±0.008)<br>~~ee~~|0.9±0.10<br>(0.035±0.004)<br>~~ee~~|0.6±0.20<br>(0.024±0.008)<br>~~ee~~||



**6 2** 

www.laird.com 

**MULTILAYER POWER CHIP** INDUCTORS 

## **0805  Characteristics** 

**==> picture [512 x 464] intentionally omitted <==**

**----- Start of picture text -----**<br>
L vs Frequency L vs DC Bias Current<br>6 6<br>5 5<br>TTT A<br>4 Sit TIN | «| 4  RETa a CPI0805E4R7R-10<br>3 S04 3 TP CPI0805F2R2R-10<br>2 Seera 2 = CPI0805JR47R-10 |<br>| ESfy<br>1 1<br>|| | aee<br>0 a 0<br>1 10 100 0 0.2 0.4 0.6 0.8 1.0 1.2<br>Frequency (MHz) DC Bias Current (A)<br>0806  Characteristics<br>L vs Frequency L vs DC Bias Current<br>6 6<br>5 ‘TO Tims] 5 «CU<br>4 ane| 4<br>CPI0806J4R7R-10<br>3 0 3 CPI0806J3R3R-10<br>2 TT = 2 CPI0806J2R2R-10<br>Evi | eS<br>1 CCL Cl 1 POESS<br>0 COOL 0 a<br>1 10 100 0 0.2 0.4 0.6 0.8 1.0 1.2<br>Frequency (MHz) DC Bias Current (A)<br>1008  Characteristics<br>L vs Frequency L vs DC Bias Current<br>6 6<br>5 TOL FAT] «6D 5<br>4 4<br>Seem<br>3 TE | ATI}PMI} 3 KCEN CPI1008J4R7R-10 CPI1008J2R2R-10<br>2 2 CPI1008KR47R-10<br>1 SenecaTo Luann 1 PS<br>Be 80s es en wae | OEa<br>0 0 a<br>1 10 100<br>0 0.2 0.4 0.6 0.8 1.0 1.2<br>Frequency (MHz) DC Bias Current (A)<br>Inductance (uH) Inductance (uH)<br>Inductance (uH) Inductance (uH)<br>Inductance (uH) Inductance (uH)<br>**----- End of picture text -----**<br>


www.laird.com **63** 

ANTENNAS & RECEPTION | EMBEDDED WIRELESS | EMI | TELEMATICS | THERMAL | WIRELESS AUTOMATION & CONTROL 

USA: +1.886.928.8181 Europe: +49.8031.24600 Asia: +86.755.2714.1166 

## **www.laird.com** 

## **MCP-CAT-EMI FILTERING RF** 

Any information furnished by Laird and its agents is believed to be accurate and reliable. All specifications are subject to change without notice. Responsibility for the use and application of Laird materials rests with the end user, since Laird and its agents cannot be aware of all potential uses.  Laird makes no warranties as to the fitness, merchantability or suitability of any Laird materials or products for any specific or general uses.  Laird, Laird Technologies, Inc or any of its affiliates or agents shall not be liable for incidental or consequential damages of any kind.  All Laird products are sold pursuant to the Laird Technologies’ Terms and Conditions of sale in effect from time to time, a copy of which will be furnished upon request.  © Copyright 2018 Laird Technologies, Inc.  All Rights Reserved.  Laird, Laird Technologies, the Laird Logo, and other marks are trademarks or registered trademarks of Laird Technologies, Inc. or an affiliate company thereof.  Other product or service names may be the property of third parties.  Nothing herein provides a license under any Laird or any third party intellectual property rights.