NRS4018T470MDGJ

INDUCTOR, 47UH, SHIELDED, 0.52A

⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
Manufacturer: TAIYO YUDEN
Product type: SMD Power Inductors
Inductance:47µH; RMS Current (Irms):520mA; Inductor Construction:Shielded; Saturation Current (Isat):700mA; Product Range:NRS Series; Inductor Case / Package:-; DC Res 45Y0569
SVHC: No SVHC (25-Jun-2025)
Inductance: 47µH
Product Range: NRS Series
Product Width: 4mm
Product Height: 1.8mm
Product Length: 4mm
DC Resistance Max: 0.78ohm
RMS Current (Irms): 520mA
Power Inductor Case: 4mm x 4mm x 1.8mm
Inductance Tolerance: ± 20%
Inductor Construction: Shielded
Inductor Case / Package: -
Saturation Current (Isat): 700mA
Delivery and price
Units per pack	14000
Price	0.087 €
Current stock	1000+
Lead time	30 days
Datasheet
**for General Electronic Equipment** 

## **Notice for TAIYO YUDEN roducts p** 

Please read this notice before using the TAIYO YUDEN products. 

## REMINDERS 

- **Product Information in this Catalog** 

   - Product information in this catalog is as of October January 2021. All of the 2020 . All of the contents specified herein and production status of the products listed in this catalog are subject to change without notice due to technical improvement of our products, etc.  Therefore, please check for the latest information carefully before practical application or use of our products. 

Please note that TAIYO YUDEN shall not be in any way responsible for any damages and defects in products or equipment incorporating our products, which are caused under the conditions other than those specified in this catalog or individual product specification sheets. 

- **Approval of Product Specifications** 

Please contact TAIYO YUDEN for further details of product specifications as the individual product specification sheets are available. When using our products, please be sure to approve our product specifications or make a written agreement on the product specification with TAIYO YUDEN in advance. 

- **Pre-Evaluation in the Actual Equipment and Conditions** 

Please conduct validation and verification of our products in actual conditions of mounting and operating environment before using our products. 

## ■ **Limited Application** 

**1. Equipment Intended for Use** 

The products listed in this catalog are intended for generalpurpose and standard use in general electronic equipment (e.g., AV equipment, OA equipment, home electric appliances, office equipment, information and communication equipment including, without limitation, mobile phone, and PC) and other equipment specified in this catalog or the individual product specification sheets. 

TAIYO YUDEN has the line-up of the products intended for use in automotive electronic equipment, telecommunications infrastructure and industrial equipment, or medical devices classified as GHTF Classes A to C (Japan Classes I to III). Therefore, when using our products for these equipment, please check available applications specified in this catalog or the individual product specification sheets and use the corresponding products. 

## **2. Equipment Requiring Inquiry** 

Please be sure to contact TAIYO YUDEN for further information before using the products listed in this catalog for the following equipment (excluding intended equipment as specified in this catalog or the individual product specification sheets) which may cause loss of human life, bodily injury, serious property damage and/or serious public impact due to a failure or defect of the products and/or malfunction attributed thereto. 

- (1) Transportation equipment (automotive powertrain control system, train control system, and ship control system, etc.) 

- (2) Traffic signal equipment 

- (4) Power generation control equipment (nuclear power, hydroelectric power, thermal power plant control system, etc.) 

- (5) Undersea equipment (submarine repeating equipment, underwater work equipment, etc.) 

- (6) Military equipment 

- (7) Any other equipment requiring extremely high levels of safety and/or reliability equal to the equipment listed above 

- *Notes: 

1. There is a possibility that our products can be used only for aviation equipment that does not directly affect the safe operation of aircraft (e.g., in-flight entertainment, cabin light, electric seat, cooking equipment) if such use meets requirements specified separately by TAIYO YUDEN. Please be sure to contact TAIYO YUDEN for further information before using our products for such aviation equipment. 

2. Implantable medical devices contain not only internal unit which is implanted in a body, but also external unit which is connected to the internal unit. 

## **4. Limitation of Liability** 

Please note that unless you obtain prior written consent of TAIYO YUDEN, TAIYO YUDEN shall not be in any way responsible for any damages incurred by you or third parties arising from use of the products listed in this catalog for any equipment that is not intended for use by TAIYO YUDEN, or any equipment requiring inquiry to TAIYO YUDEN or prohibited for use by TAIYO YUDEN as described above. 

## ■ **Safety Design** 

When using our products for high safety and/or reliability-required equipment or circuits, please fully perform safety and/or reliability evaluation. In addition, please install (i) systems equipped with a protection circuit and a protection device and/or (ii) systems equipped with a redundant circuit or other system to prevent an unsafe status in the event of a single fault for a failsafe design to ensure safety. 

## ■ **Intellectual Property Rights** 

Information contained in this catalog is intended to convey examples of typical performances and/or applications of our products and is not intended to make any warranty with respect to the intellectual property rights or any other related rights of TAIYO YUDEN or any third parties nor grant any license under such rights. 

## ■ **Limited Warranty** 

Please note that the scope of warranty for our products is limited to the delivered our products themselves and TAIYO YUDEN shall not be in any way responsible for any damages resulting from a failure or defect in our products. Notwithstanding the foregoing, if there is a written agreement (e.g., supply and purchase agreement, quality assurance agreement) signed by TAIYO YUDEN and your company, TAIYO YUDEN will warrant our products in accordance with such agreement. 

- (3) Disaster prevention equipment, crime prevention equipment 

- (5) Highly public information network equipment, dataprocessing equipment (telephone exchange, and base station, etc.) 

- (6) Any other equipment requiring high levels of quality and/or reliability equal to the equipment listed above 

## **3. Equipment Prohibited for Use** 

- Please do not incorporate our products into the following equipment requiring extremely high levels of safety and/or reliability. 

- (1) Aerospace equipment (artificial satellite, rocket, etc.) (2) Aviation equipment *1 

## ■ **TAIYO YUDEN’s Official Sales Channel** 

The contents of this catalog are applicable to our products which are purchased from our sales offices or authorized distributors (hereinafter “TAIYO YUDEN’s official sales channel”). Please note that the contents of this catalog are not applicable to our products purchased from any seller other than TAIYO YUDEN’s official sales channel. 

## ■ **Caution for Export** 

Some of our products listed in this catalog may require specific procedures for export according to “U.S. Export Administration ”“ ” Regulations , Foreign Exchange and Foreign Trade Control Law of Japan, and other applicable regulations. Should you have any questions on this matter, please contact our sales staff. 

- (3) Medical devices classified as GHTF Class D (Japan Class IV), implantable medical devices *2 

▶ For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

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**for General Electronic Equipment** 

SMD POWER INDUCTORS（NR SERIES/NR SERIES H TYPE/S TYPE/V TYPE） 

* Operating Temp.：-25～+120℃（NRS40/50/60/80：-25～+125℃）（Including self-generated heat） 

||||||
|---|---|---|---|---|
|REFLOW|||||
||■PARTS NUMB|ER||* OperatingTemp.：-25～+120℃（NRS40/50/60/80：-25～+125℃）（Includingself-generated heat）|
||N<br>R △<br>①|||1<br>0<br>0 M  △<br>△＝Blank space<br>④<br>⑤<br>⑥|
|||4<br>0<br>1<br>8|T<br>△|1<br>0<br>0|
|||②|③||



**==> picture [208 x 174] intentionally omitted <==**

**----- Start of picture text -----**<br>
③Packaging<br>Code  Packaging<br>T△  Taping<br>④Nominal inductance<br>Code<br>Nominal inductance［μH］<br>（example）<br>2R2  2.2<br>100  10<br>101  100<br>※R＝Decimal point<br>⑤Inductance tolerance<br>Code  Inductance tolerance<br>M  ±20％<br>N  ±30％<br>⑥Internal code<br>**----- End of picture text -----**<br>


## ①Series name 

|Code|Series name|
|---|---|
|NR△|Coating resin specification|
|NRH||
|NRS||
|NRV||



## ②Dimensions（L×W×H） 

|Code|Dimensions（L×W×H）［mm］|
|---|---|
|2010|2.0×2.0×1.0|
|2012|2.0×2.0×1.2|
|2410|2.4×2.4×1.0|
|2412|2.4×2.4×1.2|
|3010|3.0×3.0×1.0|
|3012|3.0×3.0×1.2|
|3015|3.0×3.0×1.5|
|4010|4.0×4.0×1.0|
|4012|4.0×4.0×1.2|
|4018|4.0×4.0×1.8|
|5010|4.9×4.9×1.0|
|5012|4.9×4.9×1.2|
|5014|4.9×4.9×1.4|
|5020|4.9×4.9×2.0|
|5024|4.9×4.9×2.4|
|5030|4.9×4.9×3.0|
|5040|4.9×4.9×4.0|
|6010|6.0×6.0×1.0|
|6012|6.0×6.0×1.2|
|6014|6.0×6.0×1.4|
|6020|6.0×6.0×2.0|
|6028|6.0×6.0×2.8|
|6045|6.0×6.0×4.5|
|8030|8.0×8.0×3.0|
|8040|8.0×8.0×4.0|



▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

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## **for General Electronic Equipment** 

■STANDARD EXTERNAL DIMENSIONS / STANDARD QUANTITY 

|Recommended Land Patt<br>W<br>L<br>H<br>e<br>e<br>f<br>B<br>A<br>A<br>C|erns||||
|---|---|---|---|---|
||Type|A|B|C|
||NRV2010<br>NRS2012NRV2012|0.65|1.35|2.0|
||, <br>NRH2410|0.7|1.45|2.0|
||NRH2412||||
||NR 3010,NRH3010|0.8|2.2|2.7|
||NR 3012,NRH3012,NRV3012||||
||NR 3015,NRS3015||||
||NR 4010,NRS4010|1.2|2.8|3.7|
||NR 4012,NRS4012||||
||NR 4018,NRS4018||||
||NRS8030|1.8|5.6|7.5|
||NR 8040,NRS8040||||
||||Unit：|mm|



|Type|L|W|H|e|f|Standard quantity<br>［pcs］Taping|
|---|---|---|---|---|---|---|
|NRV2010|2.0±0.1<br>（0.079±0.004）|2.0±0.1<br>（0.079±0.004）|1.0 max<br>（0.039 max）|0.5±0.2<br>（0.020±0.008）|1.25±0.2<br>（0.050±0.008）|2500|
|NRS2012<br>NRV2012|2.0±0.1<br>（0.079±0.004）|2.0±0.1<br>（0.079±0.004）|1.2 max<br>（0.047 max）|0.5±0.2<br>（0.020±0.008）|1.25±0.2<br>（0.050±0.008）|2500|
|NRH2410|2.4±0.1<br>（0.095±0.004）|2.4±0.1<br>（0.095±0.004）|1.0 max<br>（0.039 max）|0.6±0.2<br>（0.024±0.008）|1.45±0.2<br>（0.057±0.008）|2500|
|NRH2412|2.4±0.1<br>（0.095±0.004）|2.4±0.1<br>（0.095±0.004）|1.2 max<br>（0.047 max）|0.6±0.2<br>（0.024±0.008）|1.45±0.2<br>（0.057±0.008）|2500|
|NR 3010<br>NRH3010|3.0±0.1<br>（0.118±0.004）|3.0±0.1<br>（0.118±0.004）|1.0 max<br>（0.039 max）|0.9±0.2<br>（0.035±0.008）|1.9±0.2<br>（0.075±0.008）|2000|
|NR 3012<br>NRH3012<br>NRV3012|3.0±0.1<br>（0.118±0.004）|3.0±0.1<br>（0.118±0.004）|1.2 max<br>（0.047 max）|0.9±0.2<br>（0.035±0.008）|1.9±0.2<br>（0.075±0.008）|2000|
|NR 3015<br>NRS3015|3.0±0.1<br>（0.118±0.004）|3.0±0.1<br>（0.118±0.004）|1.5 max<br>（0.059 max）|0.9±0.2<br>（0.035±0.008）|1.9±0.2<br>（0.075±0.008）|2000|
|NR 4010<br>NRS4010|4.0±0.2<br>（0.158±0.008）|4.0±0.2<br>（0.158±0.008）|1.0 max<br>（0.039 max）|1.1±0.2<br>（0.043±0.008）|2.5±0.2<br>（0.098±0.008）|5000|
|NR 4012<br>NRS4012|4.0±0.2<br>（0.158±0.008）|4.0±0.2<br>（0.158±0.008）|1.2 max<br>（0.047 max）|1.1±0.2<br>（0.043±0.008）|2.5±0.2<br>（0.098±0.008）|4500|
|NR 4018<br>NRS4018|4.0±0.2<br>（0.158±0.008）|4.0±0.2<br>（0.158±0.008）|1.8 max<br>（0.071 max）|1.1±0.2<br>（0.043±0.008）|2.5±0.2<br>（0.098±0.008）|3500|
|NRS8030|8.0±0.2<br>（0.315±0.008）|8.0±0.2<br>（0.315±0.008）|3.0 max<br>（0.118 max）|1.60±0.3<br>（0.063±0.012）|5.6±0.3<br>（0.22±0.012）|1000|
|NR 8040<br>NRS8040|8.0±0.2<br>（0.315±0.008）|8.0±0.2<br>（0.315±0.008）|*1） 4.2 max<br>（0.165 max）<br>*2） 4.0 max<br>（0.158 max）|1.60±0.3<br>（0.063±0.012）|5.6±0.3<br>（0.22±0.012）|1000|



*1）0R9～6R8 type,   *2）100～221 type                                            Unit：mm（inch） 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**52** 

**for General Electronic Equipment** 

**==> picture [478 x 154] intentionally omitted <==**

**----- Start of picture text -----**<br>
Recommended Land Patterns<br>L H ∆I B Type  A  B  C<br>NRS5010<br>e NRS5012<br>C NRS5014<br>W f NRS5020  1.5  3.6  4.0<br>NRS5024<br>NRS5030<br>e A A<br>NR 5040, NRS5040<br>NRS6010<br>NR 6012, NRS6012<br>NRS6014<br>1.6  4.7  5.7<br>NR 6020, NRS6020<br>NR 6028, NRS6028<br>NR 6045, NRS6045<br>Unit：mm<br>**----- End of picture text -----**<br>


|Type|L|W|H|e|f|ΔI|Standard quantity<br>［pcs］Taping|
|---|---|---|---|---|---|---|---|
|NRS5010|4.9±0.2<br>（0.193±0.008）|4.9±0.2<br>（0.193±0.008）|1.0 max<br>（0.039 max）|1.2±0.2<br>（0.047±0.008）|3.3±0.2<br>（0.130±0.008）|1.3typ<br>（0.051typ）|1000|
|NRS5012|4.9±0.2<br>（0.193±0.008）|4.9±0.2<br>（0.193±0.008）|1.2 max<br>（0.047 max）|1.2±0.2<br>（0.047±0.008）|3.3±0.2<br>（0.130±0.008）|1.3typ<br>（0.051typ）|1000|
|NRS5014|4.9±0.2<br>（0.193±0.008）|4.9±0.2<br>（0.193±0.008）|1.4 max<br>（0.055 max）|1.2±0.2<br>（0.047±0.008）|3.3±0.2<br>（0.130±0.008）|1.3typ<br>（0.051typ）|1000|
|NRS5020|4.9±0.2<br>（0.193±0.008）|4.9±0.2<br>（0.193±0.008）|2.0 max<br>（0.079 max）|1.2±0.2<br>（0.047±0.008）|3.3±0.2<br>（0.130±0.008）|1.3typ<br>（0.051typ）|800|
|NRS5024|4.9±0.2<br>（0.193±0.008）|4.9±0.2<br>（0.193±0.008）|*3） 2.5 max<br>（0.098 max）<br>*4） 2.4 max<br>（0.095 max）|1.2±0.2<br>（0.047±0.008）|3.3±0.2<br>（0.130±0.008）|1.3typ<br>（0.051typ）|2500|
|NRS5030|4.9±0.2<br>（0.193±0.008）|4.9±0.2<br>（0.193±0.008）|*5） 3.1 max<br>（0.122 max）<br>*6） 3.0 max<br>（0.118 max）|1.2±0.2<br>（0.047±0.008）|3.3±0.2<br>（0.130±0.008）|1.3typ<br>（0.051typ）|500|
|NR 5040<br>NRS5040|4.9±0.2<br>（0.193±0.008）|4.9±0.2<br>（0.193±0.008）|*7） 4.1 max<br>（0.161 max）<br>*8） 4.0 max<br>（0.158 max）|1.2±0.2<br>（0.047±0.008）|3.3±0.2<br>（0.130±0.008）|1.3typ<br>（0.051typ）|1500|
|NRS6010|6.0±0.2<br>（0.236±0.008）|6.0±0.2<br>（0.236±0.008）|1.0 max<br>（0.039 max）|1.35±0.2<br>（0.053±0.008）|4.0±0.2<br>（0.158±0.008）|2.3typ<br>（0.091typ）|1000|
|NR 6012<br>NRS6012|6.0±0.2<br>（0.236±0.008）|6.0±0.2<br>（0.236±0.008）|1.2 max<br>（0.047 max）|1.35±0.2<br>（0.053±0.008）|4.0±0.2<br>（0.158±0.008）|2.3typ<br>（0.091typ）|1000|
|NRS6014|6.0±0.2<br>（0.236±0.008）|6.0±0.2<br>（0.236±0.008）|1.4 max<br>（0.055 max）|1.35±0.2<br>（0.053±0.008）|4.0±0.2<br>（0.158±0.008）|2.3typ<br>（0.091typ）|1000|
|NR 6020<br>NRS6020|6.0±0.2<br>（0.236±0.008）|6.0±0.2<br>（0.236±0.008）|2.0 max<br>（0.079 max）|1.35±0.2<br>（0.053±0.008）|4.0±0.2<br>（0.158±0.008）|2.3typ<br>（0.091typ）|2500|
|NR 6028<br>NRS6028|6.0±0.2<br>（0.236±0.008）|6.0±0.2<br>（0.236±0.008）|2.8 max<br>（0.110 max）|1.35±0.2<br>（0.053±0.008）|4.0±0.2<br>（0.158±0.008）|2.3typ<br>（0.091typ）|2000|
|NR 6045<br>NRS6045|6.0±0.2<br>（0.236±0.008）|6.0±0.2<br>（0.236±0.008）|4.5 max<br>（0.177 max）|1.35±0.2<br>（0.053±0.008）|4.0±0.2<br>（0.158±0.008）|2.3typ<br>（0.091typ）|1500|



*3）1R0～1R5 type,   *4）2R2～330 type                                                         Unit：mm（inch） *5）R47～100 type,   *6）150～470 type 

*7）1R5～100 type,   *8）150～470 type 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**53** 

**for General Electronic Equipment** 

■PARTS NUMBER 

## ●NRS2012 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS2012T 1R0N GJ|RoHS|1.0|±30％|－|0.070|1,900|2,050|1,700|1,850|100|
|NRS2012T 1R5N GJ|RoHS|1.5|±30％|－|0.090|1,650|1,800|1,500|1,650|100|
|NRS2012T 2R2M GJ|RoHS|2.2|±20％|－|0.107|1,350|1,500|1,370|1,500|100|
|NRS2012T 3R3M GJ|RoHS|3.3|±20％|－|0.190|1,000|1,150|1,020|1,100|100|
|NRS2012T 4R7M GJ|RoHS|4.7|±20％|－|0.241|900|1,050|910|1,000|100|



## ●NRV2010 type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRV2010T R47N GF|RoHS|0.47|±30％|－|0.052|2,100|2,250|2,000|2,300|100|
|NRV2010T R68N GF|RoHS|0.68|±30％|－|0.060|1,850|2,000|1,850|2,100|100|
|NRV2010T 1R0N GF|RoHS|1.0|±30％|－|0.080|1,550|1,700|1,600|1,850|100|
|NRV2010T 1R5M GF|RoHS|1.5|±20％|－|0.100|1,350|1,450|1,450|1,650|100|
|NRV2010T 2R2M GF|RoHS|2.2|±20％|－|0.175|1,100|1,200|1,100|1,200|100|
|NRV2010T 3R3M GF|RoHS|3.3|±20％|－|0.250|880|950|1,000|1,100|100|
|NRV2010T 4R7M GF|RoHS|4.7|±20％|－|0.320|760|810|820|930|100|



- ●NRV2012 type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRV2012T 1R0N GF|RoHS|1.0|±30％|－|0.073|2,200|2,350|1,650|1,830|100|
|NRV2012T 1R5N GF|RoHS|1.5|±30％|－|0.100|1,800|1,950|1,400|1,550|100|
|NRV2012T 2R2M GF|RoHS|2.2|±20％|－|0.129|1,600|1,700|1,200|1,350|100|
|NRV2012T 3R3M GF|RoHS|3.3|±20％|－|0.227|1,250|1,350|900|1,040|100|
|NRV2012T 4R7M GF|RoHS|4.7|±20％|－|0.325|1,100|1,150|750|850|100|



## ●NRH2410 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRH2410T R68NN 4|RoHS|0.68|±30％|120|0.060|2,200|2,300|1,570|1,810|100|
|NRH2410T 1R0NN 4|RoHS|1.0|±30％|106|0.070|1,800|1,950|1,410|1,640|100|
|NRH2410T 1R5MN|RoHS|1.5|±20％|94|0.110|1,550|1,640|1,160|1,320|100|
|NRH2410T 2R2MN|RoHS|2.2|±20％|77|0.150|1,290|1,340|970|1,110|100|
|NRH2410T 3R3MN|RoHS|3.3|±20％|56|0.220|1,000|1,140|770|890|100|
|NRH2410T 4R7MN|RoHS|4.7|±20％|50|0.290|880|930|670|780|100|
|NRH2410T 6R8MN|RoHS|6.8|±20％|43|0.410|750|765|570|650|100|
|NRH2410T 100MN|RoHS|10|±20％|32|0.690|550|605|450|520|100|
|NRH2410T 150MN|RoHS|15|±20％|27|1.02|470|520|370|430|100|
|NRH2410T 220MN|RoHS|22|±20％|22|1.47|390|405|300|340|100|



## ●NRH2412 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRH2412T R47NNGJ|RoHS|0.47|±30％|180|0.050|2,900|3,690|2,100|2,300|100|
|NRH2412T 1R0NNGH|RoHS|1.0|±30％|101|0.077|2,350|2,610|1,300|1,540|100|
|NRH2412T 1R5NNGH|RoHS|1.5|±30％|89|0.100|2,100|2,290|1,150|1,390|100|
|NRH2412T 2R2MNGH|RoHS|2.2|±20％|72|0.140|1,700|1,940|1,000|1,190|100|
|NRH2412T 3R3MNGH|RoHS|3.3|±20％|56|0.225|1,400|1,600|750|890|100|
|NRH2412T 4R7MNGH|RoHS|4.7|±20％|45|0.300|1,150|1,280|650|770|100|
|NRH2412T 6R8MNGH|RoHS|6.8|±20％|34|0.420|950|1,100|550|635|100|
|NRH2412T 100MNGH|RoHS|10|±20％|29|0.600|810|900|450|510|100|



- ●NRH3010 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRH3010T 1R2NN|RoHS|1.2|±30％|120|0.065|1,700|1,740|1,480|1,850|100|
|NRH3010T 1R5NN|RoHS|1.5|±30％|99|0.075|1,440|1,500|1,370|1,680|100|
|NRH3010T 2R2MN|RoHS|2.2|±20％|86|0.083|1,300|1,400|1,300|1,550|100|
|NRH3010T 3R3MN|RoHS|3.3|±20％|64|0.130|1,000|1,020|1,030|1,220|100|
|NRH3010T 4R7MN|RoHS|4.7|±20％|50|0.170|850|930|900|1,090|100|
|NRH3010T 6R8MN|RoHS|6.8|±20％|44|0.250|700|750|745|920|100|
|NRH3010T 100MN|RoHS|10|±20％|34|0.350|600|650|620|780|100|
|NRH3010T 150MN|RoHS|15|±20％|25|0.550|450|520|480|600|100|
|NRH3010T 220MN|RoHS|22|±20％|22|0.770|380|440|410|510|100|
|NRH3010T 330MN|RoHS|33|±20％|20|1.250|290|360|350|440|100|
|NRH3010T 470MN|RoHS|47|±20％|17|2.050|250|300|285|320|100|



※） The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

※） The temperature rise current value（Idc2) is the DC current value having temperature increase up to 40℃. (at 20℃) 

※） The rated current is the DC current value that satisfies both of current value saturation current value and temperature rise current value. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**54** 

**for General Electronic Equipment** 

■PARTS NUMBER 

## ●NRH3012 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRH3012T R47NN|RoHS|0.47|±30％|160|0.033|2,600|3,200|1,900|2,280|100|
|NRH3012T 1R0NN|RoHS|1.0|±30％|111|0.048|2,200|2,500|1,710|1,970|100|
|NRH3012T 1R5NN|RoHS|1.5|±30％|95|0.055|1,700|1,900|1,600|1,750|100|
|NRH3012T 2R2MN|RoHS|2.2|±20％|78|0.075|1,500|1,750|1,370|1,600|100|
|NRH3012T 3R3MN|RoHS|3.3|±20％|61|0.100|1,200|1,500|1,210|1,480|100|
|NRH3012T 4R7MN|RoHS|4.7|±20％|50|0.130|1,000|1,200|1,060|1,280|100|
|NRH3012T 6R8MN|RoHS|6.8|±20％|43|0.190|850|910|890|1,000|100|
|NRH3012T 100MN|RoHS|10|±20％|32|0.270|730|780|720|850|100|
|NRH3012T 150MN|RoHS|15|±20％|26|0.450|530|650|570|680|100|
|NRH3012T 220MN|RoHS|22|±20％|22|0.630|500|550|500|590|100|
|NRH3012T 330MN|RoHS|33|±20％|18|0.960|360|430|450|510|100|
|NRH3012T 470MN|RoHS|47|±20％|16|1.340|280|380|380|430|100|



## ●NRV3012 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRV3012T 1R0N|RoHS|1.0|±30％|110|0.065|2,500|3,000|1,600|1,970|100|
|NRV3012T 1R5N|RoHS|1.5|±30％|92|0.075|2,100|2,500|1,400|1,610|100|
|NRV3012T 2R2M|RoHS|2.2|±20％|70|0.120|1,800|2,100|1,100|1,330|100|
|NRV3012T 3R3M|RoHS|3.3|±20％|55|0.150|1,600|1,900|1,000|1,260|100|
|NRV3012T 4R7M|RoHS|4.7|±20％|48|0.190|1,250|1,500|850|1,040|100|
|NRV3012T 6R8M|RoHS|6.8|±20％|40|0.300|950|1,200|650|800|100|
|NRV3012T 100M|RoHS|10|±20％|32|0.470|800|990|550|640|100|



- ●NRS3015 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS3015T 1R0NNGH|RoHS|1.0|±30％|100|0.030|2,100|2,400|2,100|2,350|100|
|NRS3015T 1R5NNGH|RoHS|1.5|±30％|87|0.038|1,800|2,100|1,820|2,100|100|
|NRS3015T 2R2MNGH|RoHS|2.2|±20％|64|0.058|1,480|1,700|1,500|1,800|100|
|NRS3015T 3R3MNGH|RoHS|3.3|±20％|49|0.078|1,210|1,400|1,230|1,500|100|
|NRS3015T 4R7MNGH|RoHS|4.7|±20％|40|0.120|1,020|1,100|1,040|1,300|100|
|NRS3015T 6R8MNGH|RoHS|6.8|±20％|36|0.160|870|920|880|1,100|100|
|NRS3015T 100MNGH|RoHS|10|±20％|28|0.220|700|750|710|840|100|
|NRS3015T 150MNGH|RoHS|15|±20％|23|0.325|580|680|680|760|100|
|NRS3015T 220MNGH|RoHS|22|±20％|20|0.520|470|540|470|530|100|
|NRS3015T 330MNGH|RoHS|33|±20％|18|0.780|400|440|440|490|100|
|NRS3015T 470MNGH|RoHS|47|±20％|17|1.100|325|380|350|380|100|



## ●NRS4010 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS4010T 1R0NDGG|RoHS|1.0|±30％|116|0.056|2,000|2,280|1,900|2,390|100|
|NRS4010T 2R2MDGG|RoHS|2.2|±20％|73|0.085|1,200|1,610|1,500|1,800|100|
|NRS4010T 3R3MDGG|RoHS|3.3|±20％|58|0.100|1,100|1,300|1,400|1,700|100|
|NRS4010T 4R7MDGG|RoHS|4.7|±20％|47|0.140|950|1,100|1,200|1,450|100|
|NRS4010T 6R8MDGG|RoHS|6.8|±20％|38|0.200|800|890|1,000|1,200|100|
|NRS4010T 100MDGG|RoHS|10|±20％|31|0.300|620|760|750|860|100|
|NRS4010T 150MDGG|RoHS|15|±20％|24|0.430|540|635|600|700|100|
|NRS4010T 220MDGG|RoHS|22|±20％|19|0.570|450|540|500|600|100|
|NRS4010T 330MDGG|RoHS|33|±20％|15|0.900|350|440|400|460|100|
|NRS4010T 470MDGG|RoHS|47|±20％|13|1.250|300|350|350|370|100|



## ●NRS4012 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS4012T 1R0NDGG|RoHS|1.0|±30％|100|0.042|2,800|2,900|2,200|2,670|100|
|NRS4012T 1R5NDGG|RoHS|1.5|±30％|90|0.051|2,300|2,500|2,000|2,430|100|
|NRS4012T 2R2MDGJ|RoHS|2.2|±20％|70|0.060|1,650|1,950|1,900|2,100|100|
|NRS4012T 3R3MDGJ|RoHS|3.3|±20％|60|0.070|1,400|1,700|1,700|1,880|100|
|NRS4012T 4R7MDGJ|RoHS|4.7|±20％|45|0.095|1,200|1,320|1,500|1,570|100|
|NRS4012T 6R8MDGJ|RoHS|6.8|±20％|35|0.125|900|1,170|1,300|1,400|100|
|NRS4012T 100MDGJ|RoHS|10|±20％|30|0.170|800|990|1,100|1,200|100|
|NRS4012T 150MDGJ|RoHS|15|±20％|24|0.260|650|820|750|840|100|
|NRS4012T 220MDGJ|RoHS|22|±20％|18|0.400|500|620|620|650|100|
|NRS4012T 330MDGJ|RoHS|33|±20％|15|0.600|400|500|480|530|100|
|NRS4012T 470MDGJ|RoHS|47|±20％|12|0.770|350|430|420|470|100|



※） The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

※） The temperature rise current value（Idc2) is the DC current value having temperature increase up to 40℃. (at 20℃) 

※） The rated current is the DC current value that satisfies both of current value saturation current value and temperature rise current value. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**55** 

**for General Electronic Equipment** 

■PARTS NUMBER 

## ●NRS4018 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS4018T 1R0NDGJ|RoHS|1.0|±30％|90|0.027|4,000|4,590|3,200|3,720|100|
|NRS4018T 1R5NDGJ|RoHS|1.5|±30％|75|0.037|3,300|3,750|2,400|3,000|100|
|NRS4018T 2R2MDGJ|RoHS|2.2|±20％|60|0.042|3,000|3,110|2,200|2,590|100|
|NRS4018T 3R3MDGJ|RoHS|3.3|±20％|45|0.055|2,300|2,560|2,000|2,240|100|
|NRS4018T 4R7MDGJ|RoHS|4.7|±20％|35|0.070|2,000|2,330|1,700|1,880|100|
|NRS4018T 6R8MDGJ|RoHS|6.8|±20％|30|0.098|1,600|1,820|1,450|1,690|100|
|NRS4018T 100MDGJ|RoHS|10|±20％|25|0.150|1,300|1,440|1,200|1,250|100|
|NRS4018T 150MDGJ|RoHS|15|±20％|18|0.210|1,100|1,150|850|915|100|
|NRS4018T 220MDGJ|RoHS|22|±20％|15|0.290|900|920|720|810|100|
|NRS4018T 330MDGJ|RoHS|33|±20％|12|0.460|700|830|550|630|100|
|NRS4018T 470MDGJ|RoHS|47|±20％|10|0.650|600|700|440|520|100|
|NRS4018T 680MDGJ|RoHS|68|±20％|8.3|1.00|520|600|320|400|100|
|NRS4018T 101MDGJ|RoHS|100|±20％|6.5|1.45|420|490|280|330|100|
|NRS4018T 151MDGJ|RoHS|150|±20％|5.5|2.30|340|390|220|280|100|
|NRS4018T 221MDGJ|RoHS|220|±20％|4.0|3.80|275|310|170|210|100|



## ●NRS5010 type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS5010T 1R0NMGF|RoHS|1.0|±30％|95|0.070|2,350|2,510|1,750|2,000|100|
|NRS5010T 2R2NMGF|RoHS|2.2|±30％|65|0.105|1,500|1,710|1,400|1,600|100|
|NRS5010T 3R3MMGF|RoHS|3.3|±20％|42|0.125|1,400|1,530|1,250|1,520|100|
|NRS5010T 4R7MMGF|RoHS|4.7|±20％|37|0.145|1,200|1,340|1,150|1,390|100|
|NRS5010T 6R8MMGF|RoHS|6.8|±20％|33|0.185|1,000|1,120|1,000|1,210|100|
|NRS5010T 100MMGF|RoHS|10|±20％|23|0.250|850|970|900|950|100|
|NRS5010T 150MMGF|RoHS|15|±20％|19|0.400|680|740|650|700|100|
|NRS5010T 220MMGF|RoHS|22|±20％|15|0.600|550|620|450|560|100|



## ●NRS5012 type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS5012T 1R0NMGF|RoHS|1.0|±30％|100|0.053|4,500|4,670|2,300|2,750|100|
|NRS5012T 1R5NMGF|RoHS|1.5|±30％|86|0.070|3,800|3,970|2,200|2,470|100|
|NRS5012T 2R2MMGF|RoHS|2.2|±20％|70|0.085|3,100|3,510|2,000|2,300|100|
|NRS5012T 3R3MMGF|RoHS|3.3|±20％|48|0.160|2,400|2,580|1,450|1,650|100|
|NRS5012T 4R7MMGF|RoHS|4.7|±20％|40|0.180|2,200|2,320|1,400|1,560|100|
|NRS5012T 6R8MMGF|RoHS|6.8|±20％|36|0.260|1,700|1,950|1,100|1,260|100|
|NRS5012T 100MMGF|RoHS|10|±20％|26|0.420|1,400|1,550|850|1,000|100|
|NRS5012T 150MMGF|RoHS|15|±20％|22|0.670|1,200|1,240|640|740|100|



## ●NRS5014 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS5014T R47NMGG|RoHS|0.47|±30％|185|0.025|5,800|6,400|3,300|3,470|100|
|NRS5014T 1R2NMGG|RoHS|1.2|±30％|86|0.045|3,800|4,200|2,400|3,000|100|
|NRS5014T 2R2NMGG|RoHS|2.2|±30％|56|0.065|2,800|3,100|2,000|2,400|100|
|NRS5014T 3R3NMGG|RoHS|3.3|±30％|48|0.080|2,350|2,650|1,700|2,200|100|
|NRS5014T 4R7NMGG|RoHS|4.7|±30％|41|0.100|2,050|2,400|1,400|1,900|100|
|NRS5014T 6R8MMGG|RoHS|6.8|±20％|33|0.150|1,600|1,850|1,200|1,450|100|
|NRS5014T 100MMGG|RoHS|10|±20％|27|0.200|1,400|1,600|1,050|1,250|100|
|NRS5014T 150MMGG|RoHS|15|±20％|20|0.320|1,100|1,300|650|790|100|
|NRS5014T 220MMGG|RoHS|22|±20％|16|0.450|900|1,000|550|660|100|



## ●NRS5020 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS5020T R47NMGJ|RoHS|0.47|±30％|230|0.012|6,100|6,900|5,000|5,800|100|
|NRS5020T 1R0NMGJ|RoHS|1.0|±30％|81|0.021|4,000|4,500|3,600|3,710|100|
|NRS5020T 1R5NMGJ|RoHS|1.5|±30％|68|0.026|3,350|3,800|3,200|3,540|100|
|NRS5020T 2R2NMGJ|RoHS|2.2|±30％|57|0.035|2,900|3,200|2,900|3,200|100|
|NRS5020T 3R3NMGJ|RoHS|3.3|±30％|46|0.048|2,400|2,700|2,400|3,080|100|
|NRS5020T 4R7MMGJ|RoHS|4.7|±20％|37|0.060|2,000|2,270|2,000|2,370|100|
|NRS5020T 6R8MMGJ|RoHS|6.8|±20％|30|0.090|1,600|1,850|1,650|2,200|100|
|NRS5020T 100MMGJ|RoHS|10|±20％|24|0.120|1,300|1,480|1,450|1,850|100|
|NRS5020T 150MMGJ|RoHS|15|±20％|20|0.165|1,100|1,260|1,200|1,480|100|
|NRS5020T 220MMGJ|RoHS|22|±20％|17|0.260|900|1,100|1,000|1,230|100|
|NRS5020T 470MMGJ|RoHS|47|±20％|12|0.435|630|750|560|610|100|
|NRS5020T 101MMGJ|RoHS|100|±20％|7|0.850|420|510|400|450|100|



※） The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

※） The temperature rise current value（Idc2) is the DC current value having temperature increase up to 40℃. (at 20℃) 

- ※） The rated current is the DC current value that satisfies both of current value saturation current value and temperature rise current value. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**56** 

**for General Electronic Equipment** 

■PARTS NUMBER 

## ●NRS5024 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS5024T 1R0NMGJ|RoHS|1.0|±30％|85|0.016|5,800|6,800|4,400|4,900|100|
|NRS5024T 1R5NMGJ|RoHS|1.5|±30％|67|0.022|5,200|5,800|3,600|4,300|100|
|NRS5024T 2R2NMGJ|RoHS|2.2|±30％|51|0.029|4,100|4,800|3,100|3,600|100|
|NRS5024T 3R3NMGJ|RoHS|3.3|±30％|41|0.043|3,100|3,700|2,400|2,750|100|
|NRS5024T 4R7MMGJ|RoHS|4.7|±20％|37|0.055|2,700|3,400|2,000|2,400|100|
|NRS5024T 6R8MMGJ|RoHS|6.8|±20％|28|0.080|2,200|2,750|1,600|1,800|100|
|NRS5024T 100MMGJ|RoHS|10|±20％|21|0.125|1,700|2,100|1,200|1,460|100|
|NRS5024T 150MMGJ|RoHS|15|±20％|18|0.170|1,400|1,750|1,000|1,250|100|
|NRS5024T 220MMGJ|RoHS|22|±20％|15|0.230|1,200|1,450|820|900|100|
|NRS5024T 330MMGJ|RoHS|33|±20％|11|0.370|1,000|1,200|630|700|100|



## ●NRS5030 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS5030T R47NMGJ|RoHS|0.47|±30％|185|0.010|9,000|9,400|5,000|5,900|100|
|NRS5030T 1R0NMGJ|RoHS|1.0|±30％|110|0.015|6,600|7,400|4,000|4,900|100|
|NRS5030T 2R2NMGJ|RoHS|2.2|±30％|46|0.023|4,200|5,000|3,500|4,100|100|
|NRS5030T 3R3MMGJ|RoHS|3.3|±20％|36|0.030|3,600|3,900|3,000|3,600|100|
|NRS5030T 4R7MMGJ|RoHS|4.7|±20％|31|0.035|3,100|3,500|2,600|3,000|100|
|NRS5030T 6R8MMGJ|RoHS|6.8|±20％|22|0.052|2,500|2,800|2,300|2,500|100|
|NRS5030T 100MMGJ|RoHS|10|±20％|20|0.070|2,100|2,300|1,700|2,000|100|
|NRS5030T 150MMGJ|RoHS|15|±20％|14|0.125|1,600|1,800|1,400|1,550|100|
|NRS5030T 220MMGJ|RoHS|22|±20％|13|0.180|1,400|1,500|1,050|1,200|100|
|NRS5030T 330MMGJ|RoHS|33|±20％|10|0.225|1,150|1,250|800|950|100|
|NRS5030T 470MMGJ|RoHS|47|±20％|9|0.325|950|1,050|700|800|100|



## ●NRS5040 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS5040T 1R5NMGJ|RoHS|1.5|±30％|60|0.017|6,400|6,530|4,500|4,730|100|
|NRS5040T 2R2NMGJ|RoHS|2.2|±30％|42|0.022|5,000|5,250|3,700|4,080|100|
|NRS5040T 3R3NMGJ|RoHS|3.3|±30％|32|0.027|4,000|4,280|3,300|3,770|100|
|NRS5040T 4R7NMGK|RoHS|4.7|±30％|28|0.029|3,300|3,470|3,100|3,500|100|
|NRS5040T 6R8MMGJ|RoHS|6.8|±20％|21|0.049|2,800|2,910|2,400|2,470|100|
|NRS5040T 100MMGJ|RoHS|10|±20％|18|0.056|2,300|2,470|2,100|2,210|100|
|NRS5040T 150MMGJ|RoHS|15|±20％|13|0.080|2,000|2,150|1,800|1,920|100|
|NRS5040T 220MMGK|RoHS|22|±20％|9|0.126|1,500|1,580|1,400|1,470|100|
|NRS5040T 330MMGJ|RoHS|33|±20％|7|0.180|1,300|1,390|1,200|1,270|100|
|NRS5040T 470MMGJ|RoHS|47|±20％|6|0.310|1,100|1,150|900|950|100|



## ●NRS6010 type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS6010T 1R5MMGF|RoHS|1.5|±20％|77|0.090|2,400|2,650|1,900|2,150|100|
|NRS6010T 2R2MMGF|RoHS|2.2|±20％|56|0.110|1,900|2,120|1,700|1,950|100|
|NRS6010T 3R3MMGF|RoHS|3.3|±20％|42|0.135|1,600|1,750|1,500|1,750|100|
|NRS6010T 4R7MMGF|RoHS|4.7|±20％|36|0.165|1,300|1,470|1,400|1,600|100|
|NRS6010T 6R8MMGF|RoHS|6.8|±20％|30|0.220|1,200|1,300|1,200|1,320|100|
|NRS6010T 100MMGF|RoHS|10|±20％|25|0.270|1,000|1,100|1,100|1,200|100|
|NRS6010T 220MMGF|RoHS|22|±20％|12|0.580|650|720|700|740|100|



## ●NRS6012 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS6012T 1R0NMGJ|RoHS|1.0|±30％|95|0.050|3,000|3,900|2,400|2,700|100|
|NRS6012T 1R5NMGG|RoHS|1.5|±30％|69|0.067|2,600|3,500|2,100|2,300|100|
|NRS6012T 2R5NMGG|RoHS|2.5|±30％|45|0.090|2,100|2,900|1,800|2,100|100|
|NRS6012T 3R3NMGG|RoHS|3.3|±30％|42|0.105|1,800|2,500|1,700|1,950|100|
|NRS6012T 4R7MMGG|RoHS|4.7|±20％|36|0.125|1,600|2,100|1,550|1,750|100|
|NRS6012T 5R3MMGJ|RoHS|5.3|±20％|34|0.125|1,500|1,750|1,550|1,750|100|
|NRS6012T 6R8MMGJ|RoHS|6.8|±20％|30|0.165|1,300|1,600|1,350|1,600|100|
|NRS6012T 100MMGJ|RoHS|10|±20％|22|0.200|1,000|1,400|1,200|1,380|100|
|NRS6012T 150MMGJ|RoHS|15|±20％|18|0.295|800|1,100|800|950|100|
|NRS6012T 220MMGJ|RoHS|22|±20％|12|0.465|760|900|650|750|100|
|NRS6012T 330MMGJ|RoHS|33|±20％|8|0.580|590|800|550|670|100|
|NRS6012T 470MMGJ|RoHS|47|±20％|6|0.965|520|630|460|540|100|
|NRS6012T 680MMGJ|RoHS|68|±20％|3|1.16|440|560|410|450|100|
|NRS6012T 101MMGJ|RoHS|100|±20％|1|1.67|350|490|320|380|100|



※） The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

※） The temperature rise current value（Idc2) is the DC current value having temperature increase up to 40℃. (at 20℃) 

※） The rated current is the DC current value that satisfies both of current value saturation current value and temperature rise current value. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**57** 

## **for General Electronic Equipment** 

■PARTS NUMBER 

●NRS6014 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS6014T 1R2NMGG|RoHS|1.2|±30％|77|0.042|4,000|4,400|2,750|3,200|100|
|NRS6014T 2R2NMGG|RoHS|2.2|±30％|61|0.055|3,000|3,500|2,300|2,600|100|
|NRS6014T 3R3NMGG|RoHS|3.3|±30％|41|0.075|2,500|2,600|2,000|2,200|100|
|NRS6014T 4R7MMGG|RoHS|4.7|±20％|36|0.090|2,000|2,170|1,900|1,950|100|
|NRS6014T 6R8MMGG|RoHS|6.8|±20％|30|0.115|1,700|1,880|1,650|1,700|100|
|NRS6014T 100MMGG|RoHS|10|±20％|24|0.140|1,400|1,540|1,400|1,500|100|
|NRS6014T 150MMGG|RoHS|15|±20％|20|0.210|1,150|1,300|1,200|1,280|100|
|NRS6014T 220MMGG|RoHS|22|±20％|16|0.300|950|1,100|1,000|1,090|100|



## ●NRS6020 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS6020T 0R8NMGG|RoHS|0.8|±30％|110|0.020|6,400|7,400|4,100|4,800|100|
|NRS6020T 1R5NMGJ|RoHS|1.5|±30％|93|0.026|4,300|5,300|3,600|4,200|100|
|NRS6020T 2R2NMGJ|RoHS|2.2|±30％|73|0.034|3,200|4,000|2,900|3,400|100|
|NRS6020T 3R3NMGJ|RoHS|3.3|±30％|55|0.040|2,800|3,400|2,750|3,100|100|
|NRS6020T 4R7NMGJ|RoHS|4.7|±30％|43|0.058|2,400|2,800|2,150|2,500|100|
|NRS6020T 6R8NMGJ|RoHS|6.8|±30％|30|0.085|2,000|2,600|1,800|2,100|100|
|NRS6020T 100MMGG|RoHS|10|±20％|18|0.125|1,900|2,240|1,500|1,700|100|
|NRS6020T 220MMGG|RoHS|22|±20％|11|0.290|1,250|1,470|950|1,100|100|



## ●NRS6028 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS6028T 0R9NMGJ|RoHS|0.9|±30％|90|0.013|6,700|7,900|4,600|5,200|100|
|NRS6028T 1R5NMGJ|RoHS|1.5|±30％|78|0.016|5,100|6,100|4,200|4,700|100|
|NRS6028T 2R2NMGJ|RoHS|2.2|±30％|68|0.020|4,200|5,100|3,700|4,200|100|
|NRS6028T 3R0NMGJ|RoHS|3.0|±30％|55|0.023|3,600|4,300|3,400|3,900|100|
|NRS6028T 4R7MMGK|RoHS|4.7|±20％|39|0.031|2,700|3,300|3,000|3,400|100|
|NRS6028T 6R8MMGJ|RoHS|6.8|±20％|25|0.043|2,600|3,000|2,500|2,900|100|
|NRS6028T 100MMGK|RoHS|10|±20％|20|0.065|1,900|2,200|1,900|2,200|100|
|NRS6028T 150MMGJ|RoHS|15|±20％|17|0.095|1,600|1,900|1,800|1,900|100|
|NRS6028T 220MMGJ|RoHS|22|±20％|12|0.135|1,300|1,600|1,400|1,600|100|
|NRS6028T 330MMGJ|RoHS|33|±20％|10|0.220|1,100|1,300|1,100|1,250|100|
|NRS6028T 470MMGJ|RoHS|47|±20％|8|0.300|1,000|1,150|920|1,050|100|
|NRS6028T 680MMGJ|RoHS|68|±20％|5|0.420|800|950|770|880|100|
|NRS6028T 101MMGJ|RoHS|100|±20％|3|0.600|650|750|660|750|100|



## ●NRS6045 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS6045T 1R0NMGK|RoHS|1.0|±30％|110|0.014|9,800|11,000|4,500|5,200|100|
|NRS6045T 1R3NMGK|RoHS|1.3|±30％|95|0.016|8,200|9,300|4,200|4,800|100|
|NRS6045T 1R5NMGK|RoHS|1.5|±30％|95|0.016|8,200|9,300|4,200|4,800|100|
|NRS6045T 1R8NMGK|RoHS|1.8|±30％|80|0.019|7,200|8,100|3,900|4,400|100|
|NRS6045T 2R2NMGK|RoHS|2.2|±30％|60|0.022|6,400|7,300|3,600|4,100|100|
|NRS6045T 2R3NMGK|RoHS|2.3|±30％|60|0.022|6,400|7,300|3,600|4,100|100|
|NRS6045T 3R0NMGK|RoHS|3.0|±30％|45|0.024|5,600|6,500|3,300|4,000|100|
|NRS6045T 3R3NMGK|RoHS|3.3|±30％|45|0.024|5,600|6,500|3,300|4,000|100|
|NRS6045T 4R5MMGK|RoHS|4.5|±20％|25|0.030|4,400|5,400|3,100|3,600|100|
|NRS6045T 4R7NMGK|RoHS|4.7|±30％|25|0.030|4,400|5,400|3,100|3,600|100|
|NRS6045T 6R3MMGK|RoHS|6.3|±20％|15|0.036|3,600|4,300|3,000|3,300|100|
|NRS6045T 6R8MMGK|RoHS|6.8|±20％|15|0.036|3,600|4,300|3,000|3,300|100|
|NRS6045T 100MMGK|RoHS|10|±20％|12|0.046|3,100|3,600|2,400|2,800|100|
|NRS6045T 150MMGK|RoHS|15|±20％|10|0.070|2,500|3,000|1,900|2,300|100|
|NRS6045T 220MMGK|RoHS|22|±20％|7|0.107|2,000|2,400|1,600|1,900|100|
|NRS6045T 330MMGK|RoHS|33|±20％|6|0.141|1,650|2,000|1,400|1,600|100|
|NRS6045T 470MMGK|RoHS|47|±20％|5|0.211|1,400|1,600|1,150|1,350|100|
|NRS6045T 680MMGK|RoHS|68|±20％|4|0.304|1,100|1,300|950|1,100|100|
|NRS6045T 101MMGK|RoHS|100|±20％|3|0.466|900|1,200|750|900|100|



※） The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

※） The temperature rise current value（Idc2) is the DC current value having temperature increase up to 40℃. (at 20℃) 

※） The rated current is the DC current value that satisfies both of current value saturation current value and temperature rise current value. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**58** 

**for General Electronic Equipment** 

■PARTS NUMBER 

## ●NRS8030 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※）［ｍA］|Rated current ※）［ｍA］|Rated current ※）［ｍA］|Rated current ※）［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS8030T 1R0NJGJ|RoHS|1.0|±30％|120|0.009|7,800|9,300|6,200|7,600|100|
|NRS8030T 1R5NJGJ|RoHS|1.5|±30％|80|0.012|6,200|7,800|5,300|6,400|100|
|NRS8030T 2R2NJGJ|RoHS|2.2|±30％|60|0.015|4,900|6,100|4,800|5,600|100|
|NRS8030T 3R3MJGJ|RoHS|3.3|±20％|50|0.019|4,200|5,200|4,300|5,100|100|
|NRS8030T 4R7MJGJ|RoHS|4.7|±20％|40|0.022|3,600|4,400|4,000|4,700|100|
|NRS8030T 6R8MJGJ|RoHS|6.8|±20％|32|0.029|3,000|3,600|3,400|4,000|100|
|NRS8030T 100MJGJ|RoHS|10|±20％|27|0.033|2,400|2,900|3,000|3,600|100|
|NRS8030T 150MJGJ|RoHS|15|±20％|20|0.060|2,000|2,300|2,200|2,600|100|
|NRS8030T 220MJGJ|RoHS|22|±20％|16|0.070|1,750|2,200|1,900|2,300|100|
|NRS8030T 330MJGJ|RoHS|33|±20％|13|0.120|1,300|1,600|1,500|1,800|100|
|NRS8030T 470MJGJ|RoHS|47|±20％|11|0.170|1,100|1,400|1,300|1,500|100|



## ●NRS8040 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1||Temperature rise current: Idc2|||
|||||||Max.|Typ.|Max.|Typ.||
|NRS8040T 0R9NJGJ|RoHS|0.9|±30％|85|0.006|13,000|14,000|7,800|9,600|100|
|NRS8040T 1R0NJGJ|RoHS|1|±30％|85|0.006|13,000|14,000|7,800|9,600|100|
|NRS8040T 1R4NJGJ|RoHS|1.4|±30％|63|0.007|10,000|11,000|7,000|8,400|100|
|NRS8040T 1R5NJGJ|RoHS|1.5|±30％|63|0.007|10,000|11,000|7,000|8,400|100|
|NRS8040T 2R0NJGJ|RoHS|2.0|±30％|50|0.009|8,100|9,200|6,300|7,600|100|
|NRS8040T 2R2NJGJ|RoHS|2.2|±30％|50|0.009|8,100|9,200|6,300|7,600|100|
|NRS8040T 3R3NJGJ|RoHS|3.3|±30％|34|0.015|6,400|6,800|4,900|6,000|100|
|NRS8040T 3R6NJGJ|RoHS|3.6|±30％|34|0.015|6,400|6,800|4,900|6,000|100|
|NRS8040T 4R7NJGJ|RoHS|4.7|±30％|30|0.018|5,400|5,900|4,100|5,200|100|
|NRS8040T 6R8NJGJ|RoHS|6.8|±30％|24|0.025|4,400|4,800|3,700|4,400|100|
|NRS8040T 100MJGJ|RoHS|10|±20％|22|0.034|3,800|4,100|3,100|3,500|100|
|NRS8040T 150MJGJ|RoHS|15|±20％|16|0.050|2,900|3,200|2,400|3,000|100|
|NRS8040T 220MJGJ|RoHS|22|±20％|13|0.066|2,400|2,700|2,200|2,600|100|
|NRS8040T 330MJGK|RoHS|33|±20％|12|0.100|2,000|2,300|1,700|1,900|100|
|NRS8040T 470MJGK|RoHS|47|±20％|8|0.140|1,500|1,800|1,500|1,600|100|
|NRS8040T 680MJGK|RoHS|68|±20％|7|0.210|1,300|1,500|1,200|1,300|100|
|NRS8040T 101MJGK|RoHS|100|±20％|6|0.280|1,100|1,300|1,000|1,100|100|
|NRS8040T 151MJGK|RoHS|150|±20％|5|0.420|900|980|800|890|100|
|NRS8040T 221MJGK|RoHS|220|±20％|4|0.620|700|800|670|740|100|



## ●NR 3010 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1<br>Max.|Temperature rise current: Idc2<br>Max.||
|NR 3010T 1R0N|RoHS|1.0|±30％|126|0.065|1,300|1,400|100|
|NR 3010T 1R5N|RoHS|1.5|±30％|98|0.080|1,200|1,300|100|
|NR 3010T 2R2M|RoHS|2.2|±20％|82|0.095|1,100|1,100|100|
|NR 3010T 3R3M|RoHS|3.3|±20％|63|0.140|870|940|100|
|NR 3010T 4R7M|RoHS|4.7|±20％|56|0.190|750|780|100|
|NR 3010T 6R8M|RoHS|6.8|±20％|46|0.300|610|630|100|
|NR 3010T 100M|RoHS|10|±20％|35|0.450|500|510|100|
|NR 3010T 150M|RoHS|15|±20％|30|0.740|400|400|100|
|NR 3010T 220M|RoHS|22|±20％|25|1.03|350|350|100|
|NR 3010T 330M|RoHS|33|±20％|20|1.55|260|275|100|
|NR 3010T 470M|RoHS|47|±20％|17|2.05|220|235|100|



- ●NR 3012 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※）［ｍA］|Rated current ※）［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Max.<br>Saturation current: Idc1|Max.<br>Temperature rise current: Idc2||
|NR 3012T 1R0N|RoHS|1.0|±30％|110|0.050|1,500|1,490|100|
|NR 3012T 1R5N|RoHS|1.5|±30％|92|0.060|1,360|1,400|100|
|NR 3012T 2R2M|RoHS|2.2|±20％|70|0.080|1,100|1,200|100|
|NR 3012T 3R3M|RoHS|3.3|±20％|55|0.100|910|1,050|100|
|NR 3012T 4R7M|RoHS|4.7|±20％|48|0.130|770|980|100|
|NR 3012T 6R8M|RoHS|6.8|±20％|40|0.190|670|740|100|
|NR 3012T 100M|RoHS|10|±20％|32|0.290|540|630|100|
|NR 3012T 150M|RoHS|15|±20％|27|0.450|440|485|100|
|NR 3012T 220M|RoHS|22|±20％|22|0.630|375|420|100|
|NR 3012T 330M|RoHS|33|±20％|19|1.03|310|330|100|
|NR 3012T 470M|RoHS|47|±20％|17|1.45|250|280|100|



※） The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

※） The temperature rise current value（Idc2) is the DC current value having temperature increase up to 40℃. (at 20℃) 

※） The rated current is the DC current value that satisfies both of current value saturation current value and temperature rise current value. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**59** 

**for General Electronic Equipment** 

■PARTS NUMBER 

## ●NR 3015 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※）［ｍA］|Rated current ※）［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1<br>Max.|Temperature rise current: Idc2<br>Max.||
|NR 3015T 1R0N|RoHS|1.0|±30％|100|0.030|2,100|2,100|100|
|NR 3015T 1R5N|RoHS|1.5|±30％|87|0.040|1,800|1,820|100|
|NR 3015T 2R2M|RoHS|2.2|±20％|64|0.060|1,480|1,500|100|
|NR 3015T 3R3M|RoHS|3.3|±20％|49|0.080|1,210|1,230|100|
|NR 3015T 4R7M|RoHS|4.7|±20％|40|0.120|1,020|1,040|100|
|NR 3015T 6R8M|RoHS|6.8|±20％|36|0.160|870|880|100|
|NR 3015T 100M|RoHS|10|±20％|28|0.230|700|710|100|
|NR 3015T 150M|RoHS|15|±20％|23|0.360|560|560|100|
|NR 3015T 220M|RoHS|22|±20％|20|0.520|470|470|100|
|NR 3015T 330M|RoHS|33|±20％|18|0.840|390|370|100|
|NR 3015T 470M|RoHS|47|±20％|17|1.34|320|300|100|



## ●NR 4010 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※）［ｍA］|Rated current ※）［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1<br>Max.|Temperature rise current: Idc2<br>Max.||
|NR 4010T 1R0N|RoHS|1.0|±30％|116|0.100|1,800|1,050|100|
|NR 4010T 2R2N|RoHS|2.2|±30％|73|0.150|1,150|890|100|
|NR 4010T 3R3M|RoHS|3.3|±20％|58|0.180|1,100|820|100|
|NR 4010T 4R7M|RoHS|4.7|±20％|47|0.210|900|750|100|
|NR 4010T 6R8M|RoHS|6.8|±20％|38|0.300|740|620|100|
|NR 4010T 100M|RoHS|10|±20％|31|0.380|560|600|100|
|NR 4010T 150M|RoHS|15|±20％|24|0.510|470|510|100|
|NR 4010T 220M|RoHS|22|±20％|19|0.870|360|400|100|
|NR 4010T 330M|RoHS|33|±20％|15|1.54|280|300|100|
|NR 4010T 470M|RoHS|47|±20％|13|1.81|240|280|100|



## ●NR 4012 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※）［ｍA］|Rated current ※）［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Max.<br>Saturation current: Idc1|Max.<br>Temperature rise current: Idc2||
|NR 4012T 1R0N|RoHS|1.0|±30％|131|0.060|2,500|1,500|100|
|NR 4012T 2R2M|RoHS|2.2|±20％|66|0.090|1,650|1,200|100|
|NR 4012T 3R3M|RoHS|3.3|±20％|50|0.130|1,200|980|100|
|NR 4012T 4R7M|RoHS|4.7|±20％|45|0.140|1,050|960|100|
|NR 4012T 6R8M|RoHS|6.8|±20％|35|0.180|900|840|100|
|NR 4012T 100M|RoHS|10|±20％|28|0.240|740|770|100|
|NR 4012T 150M|RoHS|15|±20％|23|0.400|560|600|100|
|NR 4012T 220M|RoHS|22|±20％|18|0.480|510|540|100|
|NR 4012T 330M|RoHS|33|±20％|15|0.810|400|420|100|
|NR 4012T 470M|RoHS|47|±20％|12|1.00|350|370|100|



## ●NR 4018 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1<br>Max.|Temperature rise current: Idc2<br>Max.||
|NR 4018T 1R0N|RoHS|1.0|±30％|80|0.030|4,000|1,830|100|
|NR 4018T 2R2M|RoHS|2.2|±20％|52|0.060|2,700|1,440|100|
|NR 4018T 3R3M|RoHS|3.3|±20％|44|0.070|2,000|1,230|100|
|NR 4018T 4R7M|RoHS|4.7|±20％|34|0.090|1,700|1,200|100|
|NR 4018T 6R8M|RoHS|6.8|±20％|29|0.110|1,450|1,060|100|
|NR 4018T 100M|RoHS|10|±20％|24|0.180|1,200|840|100|
|NR 4018T 150M|RoHS|15|±20％|19|0.250|940|650|100|
|NR 4018T 220M|RoHS|22|±20％|16|0.360|800|590|100|
|NR 4018T 330M|RoHS|33|±20％|12|0.530|650|490|100|
|NR 4018T 470M|RoHS|47|±20％|10|0.650|570|420|100|
|NR 4018T 680M|RoHS|68|±20％|8.3|1.00|470|320|100|
|NR 4018T 101M|RoHS|100|±20％|6.5|1.50|400|270|100|
|NR 4018T 151M|RoHS|150|±20％|5.5|2.50|310|220|100|
|NR 4018T 221M|RoHS|220|±20％|4.0|4.00|270|170|100|



●NR 5040 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1<br>Max.|Temperature rise current: Idc2<br>Max.||
|NR 5040T 1R5N|RoHS|1.5|±30％|60|0.020|6,000|3,600|100|
|NR 5040T 2R2N|RoHS|2.2|±30％|42|0.022|4,600|3,500|100|
|NR 5040T 3R3N|RoHS|3.3|±30％|32|0.027|3,800|3,300|100|
|NR 5040T 4R7N|RoHS|4.7|±30％|28|0.029|3,300|3,100|100|
|NR 5040T 6R8M|RoHS|6.8|±20％|21|0.049|2,600|2,300|100|
|NR 5040T 100M|RoHS|10|±20％|18|0.056|2,300|2,100|100|
|NR 5040T 150M|RoHS|15|±20％|13|0.080|2,000|1,800|100|
|NR 5040T 220M|RoHS|22|±20％|9|0.126|1,600|1,400|100|
|NR 5040T 330M|RoHS|33|±20％|7|0.180|1,300|1,200|100|
|NR 5040T 470M|RoHS|47|±20％|6|0.310|1,100|900|100|



※） The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

※） The temperature rise current value（Idc2) is the DC current value having temperature increase up to 40℃. (at 20℃) 

- ※） The rated current is the DC current value that satisfies both of current value saturation current value and temperature rise current value. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**60** 

**for General Electronic Equipment** 

■PARTS NUMBER 

## ●NR 6012 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※）［ｍA］|Rated current ※）［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1<br>Max.|Temperature rise current: Idc2<br>Max.||
|NR 6012T 2R5NE|RoHS|2.5|±30％|45|0.090|2,100|1,730|100|
|NR 6012T 4R0NE|RoHS|4.0|±30％|39|0.105|1,800|1,570|100|
|NR 6012T 5R3ME|RoHS|5.3|±20％|34|0.125|1,500|1,400|100|
|NR 6012T 6R8ME|RoHS|6.8|±20％|30|0.165|1,300|1,180|100|
|NR 6012T 100ME|RoHS|10|±20％|22|0.235|1,000|1,000|100|
|NR 6012T 150ME|RoHS|15|±20％|18|0.330|800|790|100|
|NR 6012T 220ME|RoHS|22|±20％|12|0.530|760|630|100|
|NR 6012T 330ME|RoHS|33|±20％|8|0.700|590|530|100|
|NR 6012T 470ME|RoHS|47|±20％|6|1.05|520|460|100|
|NR 6012T 680ME|RoHS|68|±20％|3|1.35|440|410|100|
|NR 6012T 101ME|RoHS|100|±20％|1|2.18|350|320|100|
|●NR 6020 Shielded type|||||||||
|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］||Measuring<br>frequency［kHz］|
|||||||Saturation current: Idc1<br>Max.|Temperature rise current: Idc2<br>Max.||
|NR 6020T 0R8N|RoHS|0.8|±30％|110|0.020|5,500|3,800|100|
|NR 6020T 1R5N|RoHS|1.5|±30％|93|0.026|4,000|3,200|100|
|NR 6020T 2R2N|RoHS|2.2|±30％|73|0.034|3,200|2,700|100|
|NR 6020T 3R3N|RoHS|3.3|±30％|55|0.040|2,800|2,600|100|
|NR 6020T 4R7N|RoHS|4.7|±30％|43|0.058|2,400|2,000|100|
|NR 6020T 6R8N|RoHS|6.8|±30％|30|0.085|2,000|1,800|100|
|NR 6020T 100M|RoHS|10|±20％|18|0.125|1,700|1,400|100|
|NR 6020T 220M|RoHS|22|±20％|11|0.290|1,050|950|100|



## ●NR 6028 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1<br>Max.|Temperature rise current: Idc2<br>Max.||
|NR 6028T 0R9N|RoHS|0.9|±30％|90|0.013|6,600|4,600|100|
|NR 6028T 1R5N|RoHS|1.5|±30％|78|0.016|5,000|4,200|100|
|NR 6028T 2R2N|RoHS|2.2|±30％|68|0.020|4,200|3,700|100|
|NR 6028T 3R0N|RoHS|3.0|±30％|55|0.023|3,600|3,400|100|
|NR 6028T 4R7M|RoHS|4.7|±20％|39|0.031|2,700|3,000|100|
|NR 6028T 6R0M|RoHS|6.0|±20％|30|0.040|2,500|2,500|100|
|NR 6028T 100M|RoHS|10|±20％|20|0.065|1,900|1,900|100|
|NR 6028T 150M|RoHS|15|±20％|17|0.095|1,600|1,800|100|
|NR 6028T 220M|RoHS|22|±20％|12|0.135|1,300|1,400|100|
|NR 6028T 330M|RoHS|33|±20％|10|0.220|1,100|1,100|100|
|NR 6028T 470M|RoHS|47|±20％|8|0.300|950|920|100|
|NR 6028T 680M|RoHS|68|±20％|5|0.420|760|770|100|
|NR 6028T 101M|RoHS|100|±20％|3|0.600|620|660|100|



## ●NR 6045 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1<br>Max.|Temperature rise current: Idc2<br>Max.||
|NR 6045T 1R0N|RoHS|1.0|±30％|110|0.014|8,500|4,200|100|
|NR 6045T 1R3N|RoHS|1.3|±30％|95|0.016|8,000|4,000|100|
|NR 6045T 1R8N|RoHS|1.8|±30％|80|0.018|7,000|3,700|100|
|NR 6045T 2R3N|RoHS|2.3|±30％|60|0.021|6,000|3,500|100|
|NR 6045T 3R0N|RoHS|3.0|±30％|45|0.024|5,000|3,200|100|
|NR 6045T 4R5M|RoHS|4.5|±20％|25|0.031|4,000|3,000|100|
|NR 6045T 6R3M|RoHS|6.3|±20％|15|0.038|3,800|2,800|100|
|NR 6045T 100M|RoHS|10|±20％|12|0.047|3,000|2,500|100|
|NR 6045T 150M|RoHS|15|±20％|10|0.077|2,300|1,900|100|
|NR 6045T 220M|RoHS|22|±20％|7|0.115|1,900|1,500|100|
|NR 6045T 330M|RoHS|33|±20％|6|0.145|1,500|1,400|100|
|NR 6045T 470M|RoHS|47|±20％|5|0.220|1,300|1,100|100|
|NR 6045T 680M|RoHS|68|±20％|4|0.330|1,000|900|100|
|NR 6045T 101M|RoHS|100|±20％|3|0.500|800|700|100|



## ●NR 8040 Shielded type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current: Idc1<br>Max.|Temperature rise current: Idc2<br>Max.||
|NR 8040T 0R9N|RoHS|0.9|±30％|85|0.006|11,000|7,800|100|
|NR 8040T 1R4N|RoHS|1.4|±30％|63|0.007|9,000|7,000|100|
|NR 8040T 2R0N|RoHS|2.0|±30％|50|0.009|7,400|6,300|100|
|NR 8040T 3R6N|RoHS|3.6|±30％|34|0.015|5,300|4,900|100|
|NR 8040T 4R7N|RoHS|4.7|±30％|30|0.018|4,700|4,100|100|
|NR 8040T 6R8N|RoHS|6.8|±30％|24|0.025|4,000|3,700|100|
|NR 8040T 100M|RoHS|10|±20％|22|0.034|3,400|3,100|100|
|NR 8040T 150M|RoHS|15|±20％|16|0.050|2,700|2,400|100|
|NR 8040T 220M|RoHS|22|±20％|13|0.066|2,200|2,200|100|
|NR 8040T 330M|RoHS|33|±20％|12|0.100|1,900|1,700|100|
|NR 8040T 470M|RoHS|47|±20％|8|0.150|1,500|1,400|100|
|NR 8040T 680M|RoHS|68|±20％|7|0.230|1,200|1,100|100|
|NR 8040T 101M|RoHS|100|±20％|6|0.290|1,000|1,000|100|



※） The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

※） The temperature rise current value（Idc2) is the DC current value having temperature increase up to 40℃. (at 20℃) 

- ※） The rated current is the DC current value that satisfies both of current value saturation current value and temperature rise current value. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**61** 

SMD POWER INDUCTORS (NR SERIES/NR SERIES H TYPE/M TYPE/S TYPE/V TYPE) 

## ■PACKAGING 

①Minimum Quantity 

|Type|Standard Quantity [pcs]<br>Tape ＆ Reel|
|---|---|
|NRV2010|2500|
|NRS2012<br>NRV2012|2500|
|NRH2410|2500|
|NRH2412|2500|
|NR 3010<br>NRH3010|2000|
|NR 3012<br>NRH3012<br>NRV3012|2000|
|NR 3015<br>NRS3015|2000|
|NR 4010<br>NRS4010|5000|
|NR 4012<br>NRS4012|4500|
|NR 4018<br>NRS4018|3500|



|Type|Standard Quantity [pcs]|
|---|---|
||Tape ＆ Reel|
|NRS5010|1000|
|NRS5012|1000|
|NRS5014|1000|
|NRS5020|800|
|NRS5024|2500|
|NRS5030|500|
|NR 5040<br>NRS5040|1500|
|NRS6010|1000|
|NR 6012<br>NRS6012|1000|
|NRS6014|1000|
|NR 6020<br>NRS6020|2500|
|NR 6028<br>NRS6028|2000|
|NR 6045<br>NRM6045<br>NRS6045|1500|
|NRS8030|1000|
|NR 8040<br>NRS8040|1000|



**==> picture [377 x 356] intentionally omitted <==**

**----- Start of picture text -----**<br>
②Tape Material<br>●Embossed Tape<br>Top tape<br>ey eK Chip Filled<br>| Sprocket hole<br>| Base tape   & Chip cavity  as Chip<br>③Taping dimensions<br>●Embossed tape 8mm wide (0.315 inches wide)<br>φ1.5＋0.1/－0 1.75±0.1<br>Sprocket hole (φ0.059＋0.004/-0) (0.069±0.004） Ts T<br>2<br>= A<br>B<br>K<br>F 4.0±0.1<br>= (0.157±0.004) ti<br>2.0±0.05<br>(0.079±0.002) Electrode（bottom view）<br>3.5±0.1 8.0±0.2<br>(0.138±0.004) (0.315±0.008)<br>**----- End of picture text -----**<br>


▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_pack_e-E07R01 

|Type|Chipcavity<br>~~ee Pe~~|Chipcavity<br>~~ee Pe~~|Insertionpitch<br>~~Pe~~<br>~~|~~|Tape thickness<br>~~|~~|Tape thickness<br>~~|~~|
|---|---|---|---|---|---|
||A<br>~~ee~~<br>~~|~~|B<br>~~ee Pe~~<br>~~|~~|F<br>~~Pe~~<br>~~|~~<br>~~|~~|T<br>~~|~~<br>~~|~~|K|
|NRV2010|2.2±0.1<br>（0.102±0.004）<br>~~|~~|2.2±0.1<br>（0.102±0.004）<br>~~|~~|4.0±0.1<br>（0.157±0.004）<br>~~|~~<br>~~|~~|0.25±0.05<br>（0.009±0.002）<br>~~|~~<br>~~|~~|1.3±0.1<br>（0.051±0.004）|
|NRS2012<br>NRV2012||||||
|NRH2410|2.6±0.1<br>（0.087±0.004）|2.6±0.1<br>（0.102±0.004）||0.25±0.05<br>（0.009±0.002）|1.3±0.1<br>（0.051±0.004）|
|NRH2412||||||
|NR 3010<br>NRH3010|3.2±0.1<br>（0.126±0.004）|3.2±0.1<br>（0.126±0.004）||0.3±0.05<br>（0.012±0.002）|1.4±0.1<br>（0.055±0.004）|
|NR 3012<br>NRH3012<br>NRV3012|||||1.6±0.1<br>（0.063±0.004）|
||||||1.9±0.1<br>（0.075±0.004）|
|NR 3015<br>NRS3015||||||



●Embossed tape 12mm wide (0.47 inches wide) 

|Type|Chipcavity<br>~~es~~|Chipcavity<br>~~es~~|Insertionpitch<br>~~es~~<br>~~|~~|Tape thickness<br>~~|~~|Tape thickness<br>~~|~~|
|---|---|---|---|---|---|
||A<br>~~|~~|B<br>~~|~~|F<br>~~|~~<br>~~|~~|T<br>~~|~~<br>~~|~~|K|
|NR 4010<br>NRS4010|4.3±0.1<br>（0.169±0.004）|4.3±0.1<br>（0.169±0.004）|8.0±0.1<br>（0.315±0.004）<br>~~|~~|0.3±0.1<br>（0.012±0.004）<br>~~|~~|1.4±0.1<br>（0.055±0.004）|
|NR 4012<br>NRS4012|||||1.6±0.1<br>（0.063±0.004）|
|NR 4018<br>NRS4018|||||2.1±0.1<br>（0.083±0.004）|
|NRS5010|5.25±0.1<br>（0.207±0.004）|5.25±0.1<br>（0.207±0.004）|||1.4±0.1<br>（0.055±0.004）|
|NRS5012|||||1.4±0.1<br>（0.055±0.004）|
|NRS5014|||||1.6±0.1<br>（0.063±0.004）|
|NRS5020|||||2.3±0.1<br>（0.091±0.004）|
|NRS5024|||||2.7±0.1<br>（0.106±0.004）|
|NRS5030|5.15±0.1<br>（0.203±0.004）|5.15±0.1<br>（0.203±0.004）||0.4±0.1<br>（0.016±0.004）|3.2±0.1<br>（0.126±0.004）|
|NR 5040<br>NRS5040|5.15±0.1<br>（0.203±0.004）|5.15±0.1<br>（0.203±0.004）|||4.2±0.1<br>（0.165±0.004）|
|NRS6010|6.3±0.1<br>（0.248±0.004）|6.3±0.1<br>（0.248±0.004）|||1.4±0.1<br>（0.055±0.004）|
|NR 6012<br>NRS6012|||||1.6±0.1<br>（0.063±0.004）|
|NRS6014|||||1.6±0.1<br>（0.063±0.004）|
|NR 6020<br>NRS6020|||||2.3±0.1<br>（0.090±0.004）|
|NR 6028<br>NRS6028|||||3.1±0.1<br>（0.122±0.004）|
|NR 6045<br>NRM6045<br>NRS6045|||||4.7±0.1<br>（0.185±0.004）|



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_pack_e-E07R01 

●Embossed tape 16mm wide (0.63 inches wide) 

**==> picture [497 x 238] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||
|---|---|---|---|---|---|---|---|---|---|
|φ1.5±0.1|1.75±0.1|
|Sprocket|hole|(φ0.059±0.004）|(0.069±0.004）|
|{|Je|T|
|A|
|kk|
|B|
|H|ert|ref|fy|+|.|q|7|=|.|
|K|
|en|:|sel|
|Pn|ae|>||.|
|F|2.0±0.1|4.0±0.1|
|(0.079±0.004)|(0.157±0.004)|Electrode（bottom view）|
|Chip cavity|Insertion pitch|Tape thickness|
|Type|
|A|B|F|T|K|
|3.4±0.1|
|NRS8030|
|8.3±0.1|8.3±0.1|12.0±0.1|0.5±0.1|（0.134±0.004）|
|NR 8040|（0.327±0.004）|（0.327±0.004）|（0.472±0.004）|（0.020±0.004）|4.5±0.1|
|NRS8040|（0.177±0.004）|
|Unit：mm（inch）|
|④Leader and Blank portion|
|●NR, NRH, NRS, NRV|

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


**==> picture [42 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
⑤Reel size<br>**----- End of picture text -----**<br>


**==> picture [321 x 146] intentionally omitted <==**

**----- Start of picture text -----**<br>
Reel size (Reference values)<br>Type<br>φD  φd  W<br>NRV2010<br>NRS2012<br>NRV2012<br>NRH2410<br>NRH2412<br>NR 3010   180±0.5  60±1.0  10.0±1.5<br>NRH3010   （7.087±0.019）  （2.36±0.04）  （0.394±0.059）<br>NR 3012<br>NRH3012<br>NRV3012<br>NR 3015<br>NRS3015<br>**----- End of picture text -----**<br>


▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_pack_e-E07R01 

**==> picture [321 x 104] intentionally omitted <==**

**----- Start of picture text -----**<br>
NRS5010<br>NRS5012<br>NRS5014<br>NRS5020<br>180±3.0  60±2.0  14.0±1.5<br>NRS5030<br>（7.087±0.118）  （2.36±0.08）  （0.551±0.059）<br>NRS6010<br>NR 6012<br>NRS6012<br>NRS6014<br>Unit：mm（inch）<br>**----- End of picture text -----**<br>


|Type<br>~~PO~~|Reel size (Reference values)<br>~~PO~~|Reel size (Reference values)<br>~~PO~~|Reel size (Reference values)<br>~~PO~~|Reel size (Reference values)<br>~~PO~~|
|---|---|---|---|---|
||φD<br>~~PO~~|φd|t（max.）|W|
|NR 4010<br>NRS4010<br>~~PO~~|330±3.0<br>（12.99±0.118）<br>~~PO~~|80±2.0<br>（3.15±0.078）|18.5<br>（0.72）|13.5±1.0<br>（0.531±0.04）|
|NR 4012<br>NRS4012|||||
|NR 4018<br>NRS4018|||||
|NRS5024|||||
|NR 5040<br>NRS5040|||||
|NR 6020<br>NRS6020|||||
|NR 6028<br>NRS6028|||||
|NR 6045<br>NRM6045<br>NRS6045|||||
|NRS8030|||22.5<br>（0.89）|17.5±1.0<br>（0.689±0.04）|
|NR 8040<br>NRS8040|||||



## ⑥Top Tape Strength 

The top tape requires a peel-off force of 0.1 to 1.3N in the direction of the arrow as illustrated below. 

▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_pack_e-E07R01 

SMD POWER INDUCTORS（NR□, NS SERIES） 

||■RELIABILITY DATA||||
|---|---|---|---|---|
||||||
||1. OperatingTemperature Range||||
||NR30/40/50/60/80, NRS20, NRV20/30,<br>NRH24/30 Type||－25～＋120℃||
||Specified Value<br>NRS40/50/60/80 Type||－25～＋125℃||
||NR10050 Type||－25～＋105℃||
||NS101, NS125 Type||－40～＋125℃||
||Test Methods and<br>Remarks<br>Including self-generated heat|Including self-generated heat|||
||||||
||2. Storage Temperature Range||||
||NR30/40/50/60/80, NRV20/30,||||
||NRH24/30, NRS20/40/50/60/80 Type||||
||Specified Value<br>NR10050 Type||－40～＋85℃||
||NS101, NS125 Type||||
||Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type：<br>－5 to 40℃ for the product with taping.||||
||||||
||3. Rated current||||
|Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>NR10050 Type<br>NS101, NS125 Type<br>4. Inductance<br>NR30/40/50/60/80, NRV20/30,<br>~~SS ~~|||Within the specified tolerance<br> ~~oe~~||
||NRH24/30, NRS20/40/50/60/80 Type||||
||Specified Value<br>NR10050 Type||Within the specified tolerance||
||NS101, NS125 Type||||
||Measuring equipment|: LCR Meter （HP 4285A or equivalent）|||
||Measuring frequency|: Specified frequency|||
||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type  :||||
||Test Methods and<br>Measuring equipment|: LCR Meter （HP 4285A or equivalent）|||
||Remarks<br>Measuring frequency|: 100kHz, 1V|||
||NR10050 Type :||||
||Measuring equipment|: LCR Meter （HP 4263A or equivalent）|||
||Measuring frequency|: 100kHz, 1V|||
||||||
||5. DC Resistance||||
||NR30/40/50/60/80, NRV20/30,||||
||NRH24/30, NRS20/40/50/60/80 Type||||
||Specified Value<br>NR10050 Type||Within the specified tolerance||
||NS101, NS125 Type||||
||Test Methods and<br>Remarks<br>Measuring equipment|: DC ohmmeter （HIOKI 3227 or equivalent）|: DC ohmmeter （HIOKI 3227 or equivalent）||
||||||
||6. Self resonance frequency||||
|Specified Value<br>NR30/40/50/60/80, NRV30, NRH24/30,<br>NRS40/50/60/80 Type<br>Within the specified tolerance<br>NR10050 Type<br>NS101, NS125 Type<br>－<br>~~L—EEees~~|||||
||Test Methods and<br>NR30/40/50/60/80, NRV30, NRH24/30, NRS40/50/60/80 Type, NR10050 Type :|NR30/40/50/60/80, NRV30, NRH24/30, NRS40/50/60/80 Type, NR10050 Type :|||
||Remarks<br>Measuring equipment|: Impedance analyzer/material analyzer（HP4291A or equivalent HP4191A, 4192A or equivalent）|||



- This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

|Specified Value|NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type|Inductance change : Within ±20%|
|---|---|---|
||NR10050 Type||
||NS101, NS125 Type|Inductance change : Within ±15%|
|Test Methods and<br>Remarks|NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type :<br>Measurement of inductance shall be taken at temperature range within －25℃～＋85℃.<br>With reference to inductance value at ＋20℃., change rate shall be calculated.<br>NS101, NS125 Type :<br>Measurement of inductance shall be taken at temperature range within －40℃～＋125℃.<br>With reference to inductance value at ＋20℃., change rate shall be calculated.<br>Change of maximum inductance deviation in step1 to 5<br>Step<br>Temperature（℃）<br>1<br>20<br>2<br>Minimum operatingtemperature<br>3<br>20 (Standard temperature)<br>4<br>Maximum operatingtemperature<br>5<br>20||



## 8. Resistance to flexure of substrate 

NR30/40/50/60/80, NRV20/30, No damage NRH24/30, NRS20/40/50/60/80 Type Specified Value ~~|~~ NR10050 Type － NS101, NS125 Type No damage ~~PO~~ NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NS101/125 Type : The test samples shall be soldered to the test board by the reflow. As illustrated below, apply force in the direction of the arrow indicating until deflection of the test board reaches to 2 mm. Test board size : 100×40×1.0 Force Rod 10 20 Test board material : Glass epoxy-resin R230 Solder cream thickness : 0.10mm (NR30, NRS20, NRH24/30, NRV20/30) ) : 0.15mm(NR40/50/60/80, NRS40/50/60, NS101/125Type) 

|Test Methods and<br>Remarks||||||||||||RS|||as-tomm<br>—_—||as-tomm<br>—_—||as-tomm<br>—_—|as-tomm|vena|vena|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
||Land dimension||||||Type|A|B|C||Type|||A||B|C|
||||||||NRS20,NRV20|0.65|0.7|2.0||NS101|||2.5||5.6|3.2|
|||||||C|NRH24<br>NR30,NRV30,NRH30|0.7<br>0.8|0.75<br>1.4|2.0<br>2.7||NS125|||2.5||8.6|3.2|
||||||||NR40,NRS40|1.2|1.6|3.7|||||||||
|||A|B|A|||NR50,NRS50|1.5|2.1|4.0|||||||||
||||||||NR60,NRS60|1.6|3.1|5.7|||||||||
||||||||NR80,NRS80|1.8|3.8|7.5|||||||||



## 9. Insulation resistance : between wires 

||NR30/40/50/60/80, NRV20/30,||
|---|---|---|
||NRH24/30, NRS20/40/50/60/80 Type||
|Specified Value|NR10050 Type|－|
||NS101, NS125 Type||
||||
|10. Insulation resistance : between wire and core|||
||NR30/40/50/60/80, NRV20/30,||
||NRH24/30, NRS20/40/50/60/80 Type||
|Specified Value|NR10050 Type|－|
||NS101, NS125 Type||



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

|11. Withstandingvoltage : between wire and core|11. Withstandingvoltage : between wire and core||
|---|---|---|
||NR30/40/50/60/80, NRV20/30,||
||NRH24/30, NRS20/40/50/60/80 Type||
|Specified Value|NR10050 Type|－|
||NS101, NS125 Type||



|12. Adhesion of terminal electrode||||
|---|---|---|---|
|NR30/40/50/60/80, NRV20/30,||||
|NRH24/30, NRS20/40/50/60/80 Type||||
|Specified Value<br>NR10050 Type||Shall not come off PC board||
|NS101, NS125 Type||||
|NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NS101/125 Type :||||
|The test samples shall be soldered to the test board by the reflow.|The test samples shall be soldered to the test board by the reflow.|||
|Applied force|: 10N to X and Y directions.|||
|Duration|: 5s.|||
|Solder cream thickness|: 0.10mm (NR30, NRS20, NRH24/30, NRV20/30)|||
||: 0.15mm (NR40/50/60/80, NRS40/50/60, NS101/125Type)|||
|Test Methods and||||
|Remarks||||
|NR10050 Type||||
|Applied force|: 5N to X and Y directions.|||
|Duration|: 5s.|||
|||||
|13. Resistance to vibration||||
|NR30/40/50/60/80, NRV20/30,||||
|Specified Value<br>NRH24/30, NRS20/40/50/60/80 Type<br>NR10050 Type||Inductance change : Within ±10%<br>No significant abnormality in appearance.||
|NS101, NS125 Type||||
|NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :||||
|The test samples shall be soldered to the test board by the reflow.|The test samples shall be soldered to the test board by the reflow.|||
|Then it shall be submitted to below test conditions.|Then it shall be submitted to below test conditions.|||
|FrequencyRange|10～55Hz|||
|Test Methods and<br>Total Amplitude|1.5mm (Maynot exceed acceleration 196m/s2)|||
|Remarks<br>SweepingMethod|10Hz to 55Hz to 10Hz for 1min.|10Hz to 55Hz to 10Hz for 1min.||
||X|||
|Time|For 2 hours on each X, Y, and Z axis.<br>Y|For 2 hours on each X, Y, and Z axis.||
||Z|||



Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs. 14. Solderability NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type Specified Value At least 90％ of surface of terminal electrode is covered by new solder. NR10050 Type NS101, NS125 Type The test samples shall be dipped in flux, and then immersed in molten solder as shown in below table. Flux : Methanol solution containing rosin 25%. Test Methods and NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type Remarks Solder Temperature 245±5℃ Time 5±1.0 sec. ※Immersion depth : All sides of mounting terminal shall be immersed. ~~ES~~ ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

|||15. Resistance to solderingheat|15. Resistance to solderingheat|
|---|---|---|---|
||||NR30/40/50/60/80, NRV20/30,|
|||Specified Value|NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type|
||||NS101, NS125 Type|
||||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :|
||||The test sample shall be exposed to reflow oven at 230±5℃ for 40 seconds, with peak temperature at 260±5℃ for 5 seconds, 2 times.|
||||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80Type, NS101/125 Type|
|||Test Methods and|Test board material<br>: Glass epoxy-resin|
|||Remarks|Test board thickness  : 1.0mm|
||||NR10050 Type|
||||Test board material<br>: Glass epoxy-resin|
||||Test board thickness  : 1.6mm|
||||Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.|
|||||
|||16. Thermal shock||
|Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type<br>NS101, NS125 Type<br>Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :<br>The test samples shall be soldered to the test board by the reflow. The test samples shall be placed at specified temperature for specified<br>time bystep1 to step4 as shown in below table in sequence. The temperature cycle shall be repeated 100 cycles.<br>Conditions of 1 cycle<br>Step<br>Temperature (℃)<br>Duration (min)<br>1<br>－40±3<br>30±3<br>2<br>Room temperature<br>Within 3<br>3<br>＋85±2<br>30±3<br>4<br>Room temperature<br>Within 3<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>~~=~~||||
|||17. Dampheat||
||||NR30/40/50/60/80, NRV20/30,<br>Inductance change : Within ±10%|
||||NRH24/30, NRS20/40/50/60/80 Type<br>No significant abnormality in appearance.|
|||Specified Value|NR10050 Type<br>－|
||||NS101, NS125 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.|
||||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NS101/125 Type :|
||||The test samples shall be soldered to the test board by the reflow.|
|Test Methods and<br>Remarks<br>The test samples shall beplaced in thermostatic oven set at specified temperature and humidity as shown in below table.<br>Temperature<br>60±2℃<br>Humidity<br>90～95%RH<br>Time<br>500＋24/－0 hour<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>18. Loadingunder dampheat<br>Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type<br>NS101, NS125 Type<br>Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :<br>The test samples shall be soldered to the test board by the reflow.<br>The test samples shall be placed in thermostatic oven set at specified temperature and humidity and applied the rated current<br>continuouslyas shown in below table.<br>Temperature<br>60±2℃<br>Humidity<br>90～95％RH<br>Applied current<br>Rated current<br>Time<br>500＋24/－0 hour<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>~~—=—~~||||
|▶||This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification.||
|||For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) .||
||||i_smd_NR_NS_reli_e-E04R01|



||19. Low temperature life test|
|---|---|
|Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type<br>NS101, NS125 Type<br>Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :<br>The test samples shall be soldered to the test board by the reflow. After that, the test samples shall be placed at test conditions as shown<br>in below table.<br>Temperature<br>－40±2℃<br>Time<br>500＋24/－0 hour<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>~~=~~||
||20. High temperature life test|
||Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>－<br>NR10050 Type<br>－<br>~~a~~<br>~~OO~~|
||NS101, NS125 Type<br>－<br>~~OO~~|
||Test Methods and<br>Remarks<br>NR10050 Type :<br>Temperature<br>105±3℃<br>Time<br>500＋24/－0 hour<br>~~—~~|
||Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.|
|||
||21. Loadingat high temperature life test|
||NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>~~a~~|
||Specified Value<br>NR10050 Type<br>－<br>~~OO~~|
||NS101, NS125 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>~~ee~~|
||NR30/40/50/60/80, NRV30, NRH24/30, NRS40/50/60/80 Type, NS12555, NS12565, NS12575 Type :|
||Test Methods and<br>Remarks<br>The test samples shall be soldered to the test board by the reflow soldering.<br>Temperature<br>85±2℃<br>Applied current<br>Rated current<br>Time<br>500＋24/－0 hour<br>~~|~~|



Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs. 

|Specified Value|NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type|Standard test condition :<br>Unless otherwise specified, temperature is 20±15℃ and 65±20％of<br>relative humidity.<br>When there is any question concerning measurement result: In order to<br>provide correlation data, the test shall be condition of 20±2℃ of<br>temperature, 65±5% relative humidity.<br>Inductance is in accordance with our measured value.|
|---|---|---|
||NR10050 Type||
||NS101, NS125 Type||



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

SMD POWER INDUCTORS（NR□, NS SERIES） 

## ■PRECAUTIONS 

## 1. Circuit Design 

◆Operating environment 

1. The products described in this specification are intended for use in general electronic equipment,(office supply equipment, telecommunications systems, measuring equipment, and household equipment). They are not intended for use in mission-critical 

Precautions equipment or systems requiring special quality and high reliability (traffic systems, safety equipment, aerospace systems, nuclear control systems and medical equipment including life-support systems,) where product failure might result in loss of life, injury or damage. For such uses, contact TAIYO YUDEN Sales Department in advance. 

## 2. PCB Design 

◆Land pattern design 

   1. Please refer to a recommended land pattern. 

- Precautions 2. There is stress, which has been caused by distortion of a PCB, to the inductor. (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

   3. Please consider the arrangement of parts on a PCB. (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

   - ◆Land pattern design 

   - Surface Mounting 

   1. Mounting and soldering conditions should be checked beforehand. 

   2. Applicable soldering process to this products is reflow soldering only. 

   3. Please use the recommended land pattern shown as below. Electrical characteristics and the mounting ability of the product are being considered in the recommended land pattern. If a PCB is designed with other dimensions, defective soldering and stress to a product may occur due to misalignment. The performance of the product may not be brought out. If an adopted land pattern is different from the recommended land pattern, stress to the product will increase. It may cause cracks or defective electrical characteristics of the product. Please conduct validation completely before studying adoption of this product and please judge the pros and cons of adoption of this product with taking on responsibility. 

   - (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

   4. As coefficients of thermal expansion between an inductor and a PCB differs, cracks may occur on a ferrite core when thermal stress is applied to them after mounting an inductor. (Please refer to the drawings below.) Please conduct validation completely before studying adoption of this product and please judge the pros and cons of adoption of this product with taking on responsibility. 

   (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

**==> picture [417 x 49] intentionally omitted <==**

**----- Start of picture text -----**<br>
Clack on ferrite core<br>Technical<br>considerations  Solder, electrode<br>=<br>PCB<br>**----- End of picture text -----**<br>


5. SMD inductors should be located to minimize any possible mechanical stresses from board warp or deflection. When splitting the PC board after mounting inductors and other components, care is required so as not to give any stresses of deflection or twisting to the board. 

- （NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type） 

**==> picture [392 x 86] intentionally omitted <==**

**----- Start of picture text -----**<br>
Electrode A product tends to undergo stress in order “A>C>B≡D”.<br>Please consider the layouts of a product to minimize any stresses.<br>A Perforation D<br>a we ie)uo {2}<br>B<br>Slit ‘ Go<br>C<br>| [CU]<br>**----- End of picture text -----**<br>


▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) 

i_smd_NR_NS_prec_e-E06R01 

|3. Considerations for automaticplacement|3. Considerations for automaticplacement|
|---|---|
||◆Adjustment of mounting machine|
|Precautions|1. Excessive impact load should not be imposed on the products when mounting onto the PC boards.|
||2. Mounting and soldering conditions should be checked beforehand.|
||◆Adjustment of mounting machine|
||1. When installing products, care should be taken not to apply distortion stress as it may deform the products.|
||2. Stress may be applied to a product with a warp or a twist in handling of the product. Please conduct validation completely before|
||studying adoption of this product and please judge the pros and cons of adoption of this product with taking on responsibility.|
||(NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type)|
|Technical||
|considerations|＜Wrap＞                              ＜Twist＞|
|||
|||
|4. Soldering||
||◆Reflow soldering|
||1. Please contact any of our offices for a reflow soldering, and refer to the recommended condition specified.|
||2. The product shall be used reflow soldering only.|
||3. Please do not add any stress to a product until it returns in normal temperature after reflow soldering.|
||◆Lead free soldering|
|Precautions|1. When using products with lead free soldering, we request to use them after confirming adhesion, temperature of resistance to soldering<br>heat, soldering etc sufficiently.|
||◆Recommended conditions for using a soldering iron (NR10050 Type)|
||・ Put the soldering iron on the land-pattern.|
||・ Soldering iron's temperature - Below 350℃|
||・ Duration - 3 seconds or less|
||・ The soldering iron should not directly touch the inductor.|
||◆Reflow soldering|
||1. If products are used beyond the range of the recommended conditions, heat stresses may deform the products, and consequently|
||degrade the reliability of the products.|
||・NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type|
||Recommended reflow condition (Pb free solder)|
||300<br>5sec max|
|Technical<br>considerations|2<br>\ <—Peak:<br>7<br>150~-180<br>‘<br>4<br>2<br>250+5/—-0C<br>§ 200-<br>~<br>|<br>ao|
||S<br>|<br>30+10sec<br>ge 100<br>90+30sec | 230°Cmin<br>oD<br>a|
||0<br>Heating Time[sec]|
|||
|5. Cleaning||
|Precautions|◆Cleaning conditions<br>1. Washing by supersonic waves shall be avoided.|
|Technical|◆Cleaning conditions|
|considerations|1. If washed by supersonic waves, the products might be broken.|



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) 

i_smd_NR_NS_prec_e-E06R01 

|6. Handling||
|---|---|
|Precautions|◆Handling<br>1. Keep the product away from all magnets and magnetic objects.<br>◆Breakaway PC boards (splitting along perforations)<br>1. When splitting the PC board after mounting product, care should be taken not to give any stresses of deflection or twisting to the board.<br>2. Board separation should not be done manually, but by using the appropriate devices.<br>◆Mechanical considerations<br>1. Please do not give the product any excessive mechanical shocks.<br>2. Please do not add any shock and power to a product in transportation.<br>◆Pick-up pressure<br>1. Please do not push to add any pressure to a winding part. Please do not give any shock and push into a ferrite core exposure part.<br>◆Packing<br>1. Please avoid accumulation of a packing box as much as possible.|
|Technical<br>considerations|◆Handling<br>1. There is a case that a characteristic varies with magnetic influence.<br>◆Breakaway PC boards (splitting along perforations)<br>1. The position of the product on PCBs shall be carefully considered to minimize the stress caused from splitting of the PCBs.<br>◆Mechanical considerations<br>1. There is a case to be damaged by a mechanical shock.<br>2. There is a case to be broken by the handling in transportation.<br>◆Pick-up pressure<br>1. Damage and a characteristic can vary with an excessive shock or stress.<br>◆Packing<br>1. If packing boxes are accumulated, that could cause a deformation on packing tapes or a damage on the products.|



|Precautions|◆Storage<br>1. To maintain the solderability of terminal electrodes and to keep the packing material in good condition, temperature and humidity in the<br>storage area should be controlled.<br>・ Recommended conditions<br>Ambient temperature : －5～40℃<br>Humidity : Below 70% RH<br>・ The ambient temperature must be kept below 30℃. Even under ideal storage conditions, solderability of products electrodes may<br>decrease as time passes.<br>For this reason, product should be used within 6 months from the time of delivery.<br>In case of storage over 6 months, solderability shall be checked before actual usage.|
|---|---|
|Technical<br>considerations|◆Storage<br>1. Under a high temperature and humidity environment, problems such as reduced solderability caused by oxidation of terminal electrodes<br>and deterioration of taping/packaging materials may take place.|



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) 

i_smd_NR_NS_prec_e-E06R01 

**for General Electronic Equipment** 

## SMD POWER INDUCTORS 

**==> picture [491 x 431] intentionally omitted <==**

**----- Start of picture text -----**<br>
■PARTS NUMBER  *Operating Temp.：-25～+105℃（Including self-generated heat）<br>N R △  1 0  0 5 0 T △ 1  0 0  M  △  △＝Blank space<br>①  ②  ③  ④  ⑤ ⑥<br>①Series name  ④Nominal inductance<br>Code  Series name  Code<br>Nominal inductance［μH］<br>NR△  Coating resin specification  （example）<br>1R3  1.3<br>②Dimensions（L×H） 100  10<br>Code  Dimensions（L×H）［mm］ 101  100<br>10050  10.0×5.0  ※R＝Decimal point<br>③Packaging ⑤Inductance tolerance<br>Code  Packaging Code  Inductance tolerance<br>T△  Taping M  ±20％<br>N  ±30％<br>⑥Internal code<br>Code  Internal code<br>△  standard<br>■STANDARD EXTERNAL DIMENSIONS / STANDARD QUANTITY<br>Recommended Land Patterns<br>Surface Mounting<br>L a ・Mounting and soldering conditions should be checked beforehand.<br>・Applicable soldering process to these products is reflow soldering only.<br>W b b<br>4.5<br>H<br>2.6 5.4 2.6 Unit：mm<br>Standard quantity<br>Type  L  W  H  a  b<br>［pcs］ Taping<br>10.0±0.3  9.8±0.5  5.0 max  4.0  1.75<br>NR 10050  500<br>（0.394±0.012） （0.386±0.020） （0.197 max） （0.16） （0.07）<br>Unit：mm（inch）<br>**----- End of picture text -----**<br>


▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**62** 

**for General Electronic Equipment** 

■PARTS NUMBER 

## ●NR 10050 type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［kHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|NR 10050T 1R3N|RoHS|1.3|±30％|53|0.0068|11,000|9,000|100|
|NR 10050T 2R1N|RoHS|2.1|±30％|37|0.0080|10,000|8,300|100|
|NR 10050T 2R9N|RoHS|2.9|±30％|29|0.0093|8,200|7,300|100|
|NR 10050T 3R8N|RoHS|3.8|±30％|26|0.013|7,300|6,800|100|
|NR 10050T 4R9N|RoHS|4.9|±30％|23|0.015|6,600|6,000|100|
|NR 10050T 6R5N|RoHS|6.5|±30％|19|0.018|6,000|5,200|100|
|NR 10050T 100M|RoHS|10|±20％|15|0.025|4,700|4,100|100|
|NR 10050T 150M|RoHS|15|±20％|11|0.035|3,600|3,200|100|
|NR 10050T 220M|RoHS|22|±20％|10|0.045|2,600|2,500|100|
|NR 10050T 330M|RoHS|33|±20％|8.2|0.066|2,500|2,100|100|
|NR 10050T 470M|RoHS|47|±20％|7.0|0.092|2,000|1,800|100|
|NR 10050T 680M|RoHS|68|±20％|5.6|0.144|1,700|1,500|100|
|NR 10050T 101M|RoHS|100|±20％|4.6|0.209|1,300|1,200|100|
|NR 10050T 221M|RoHS|220|±20％|3.0|0.450|1,000|800|100|



- ※）The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

- ※）The temperature rise current value (Idc2) is the DC current value having temperature increase up to 40℃. (at 20℃) 

- ※）The maximum rated current is the DC current value that satisfies both of current value Saturation current value and temperature rise current value. (at 20℃) 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**63** 

## SMD POWER INDUCTORS 

## ■PACKAGING 

**==> picture [380 x 241] intentionally omitted <==**

**----- Start of picture text -----**<br>
①Minimum Quantity<br>Standard Quantity [pcs]<br>Type<br>Tape & Reel<br>NR 10050   500<br>②Tape Material<br>●Embossed Tape<br>Top tape<br>4 EE<br>~~<br>mom) S\/ Chip Filled<br>/<br>Sprocket hole<br>[le @<br>Base tape  Chip cavity  Chip<br>③Taping dimensions<br>**----- End of picture text -----**<br>


**==> picture [497 x 232] intentionally omitted <==**

**----- Start of picture text -----**<br>
●Embossed tape 24mm wide (0.945 inches wide)<br>φ1.5＋0.1/－0 1.75±0.1<br>Sprocket hole (φ0.059＋0.004/-0) (0.069±0.004）<br>alle T<br>fO-O-O-G-G-B-O-P A -O-O-P-G-G- -- fh --------<br>B<br>Ja nay<br>K<br>LY | leo| >| i<br>F 2.0±0.1 4.0±0.1<br>(0.079±0.004) (0.157±0.004)<br>Chip cavity Insertion pich  Tape thickness<br>Type<br>A  B  F  T  K<br>10.4±0.1  9.9±0.1  16.0±0.1  0.5±0.05  5.7±0.1<br>NR 10050<br>（0.409±0.004） （0.390±0.004） （0.630±0.004） （0.020±0.002） （0.224±0.004）<br>Unit：mm（inch）<br>④Leader and Blank portion<br>11.5±0.1<br>(0.453±0.004）<br>24.0＋0.3/－0.1<br>（0.945＋0.012/－0.004）<br>**----- End of picture text -----**<br>


▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR10050_pack_e-E05R01 

**==> picture [327 x 263] intentionally omitted <==**

**----- Start of picture text -----**<br>
⑤Reel size<br>25.54+1.0<br>(1.004+0.04)<br>a -<br>20.5<br>(0.0790.020)<br>913405[ _ 1)pifTaeGATvan1 |!\ _ \| _ __ |u* oO|°<br>aw a__/<br>t<br>Reel size (Reference valus<br>Type<br>φD  φd  t（max.）<br>330±3  80±2  30.5<br>NR 10050<br>（12.99±0.118） （3.15±0.078） （1.201）<br>Unit：mm（inch）<br>⑥Top Tape Strength<br>**----- End of picture text -----**<br>


The top tape requires a peel-off force of 0.1 to 1.3N in the direction of the arrow as illustrated below. 

▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR10050_pack_e-E05R01 

SMD POWER INDUCTORS（NR□, NS SERIES） 

||■RELIABILITY DATA||||
|---|---|---|---|---|
||||||
||1. OperatingTemperature Range||||
||NR30/40/50/60/80, NRS20, NRV20/30,<br>NRH24/30 Type||－25～＋120℃||
||Specified Value<br>NRS40/50/60/80 Type||－25～＋125℃||
||NR10050 Type||－25～＋105℃||
||NS101, NS125 Type||－40～＋125℃||
||Test Methods and<br>Remarks<br>Including self-generated heat|Including self-generated heat|||
||||||
||2. Storage Temperature Range||||
||NR30/40/50/60/80, NRV20/30,||||
||NRH24/30, NRS20/40/50/60/80 Type||||
||Specified Value<br>NR10050 Type||－40～＋85℃||
||NS101, NS125 Type||||
||Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type：<br>－5 to 40℃ for the product with taping.||||
||||||
||3. Rated current||||
|Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>NR10050 Type<br>NS101, NS125 Type<br>4. Inductance<br>NR30/40/50/60/80, NRV20/30,<br>~~SS ~~|||Within the specified tolerance<br> ~~oe~~||
||NRH24/30, NRS20/40/50/60/80 Type||||
||Specified Value<br>NR10050 Type||Within the specified tolerance||
||NS101, NS125 Type||||
||Measuring equipment|: LCR Meter （HP 4285A or equivalent）|||
||Measuring frequency|: Specified frequency|||
||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type  :||||
||Test Methods and<br>Measuring equipment|: LCR Meter （HP 4285A or equivalent）|||
||Remarks<br>Measuring frequency|: 100kHz, 1V|||
||NR10050 Type :||||
||Measuring equipment|: LCR Meter （HP 4263A or equivalent）|||
||Measuring frequency|: 100kHz, 1V|||
||||||
||5. DC Resistance||||
||NR30/40/50/60/80, NRV20/30,||||
||NRH24/30, NRS20/40/50/60/80 Type||||
||Specified Value<br>NR10050 Type||Within the specified tolerance||
||NS101, NS125 Type||||
||Test Methods and<br>Remarks<br>Measuring equipment|: DC ohmmeter （HIOKI 3227 or equivalent）|: DC ohmmeter （HIOKI 3227 or equivalent）||
||||||
||6. Self resonance frequency||||
|Specified Value<br>NR30/40/50/60/80, NRV30, NRH24/30,<br>NRS40/50/60/80 Type<br>Within the specified tolerance<br>NR10050 Type<br>NS101, NS125 Type<br>－<br>~~L—EEees~~|||||
||Test Methods and<br>NR30/40/50/60/80, NRV30, NRH24/30, NRS40/50/60/80 Type, NR10050 Type :|NR30/40/50/60/80, NRV30, NRH24/30, NRS40/50/60/80 Type, NR10050 Type :|||
||Remarks<br>Measuring equipment|: Impedance analyzer/material analyzer（HP4291A or equivalent HP4191A, 4192A or equivalent）|||



- This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

|Specified Value|NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type|Inductance change : Within ±20%|
|---|---|---|
||NR10050 Type||
||NS101, NS125 Type|Inductance change : Within ±15%|
|Test Methods and<br>Remarks|NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type :<br>Measurement of inductance shall be taken at temperature range within －25℃～＋85℃.<br>With reference to inductance value at ＋20℃., change rate shall be calculated.<br>NS101, NS125 Type :<br>Measurement of inductance shall be taken at temperature range within －40℃～＋125℃.<br>With reference to inductance value at ＋20℃., change rate shall be calculated.<br>Change of maximum inductance deviation in step1 to 5<br>Step<br>Temperature（℃）<br>1<br>20<br>2<br>Minimum operatingtemperature<br>3<br>20 (Standard temperature)<br>4<br>Maximum operatingtemperature<br>5<br>20||



## 8. Resistance to flexure of substrate 

NR30/40/50/60/80, NRV20/30, No damage NRH24/30, NRS20/40/50/60/80 Type Specified Value ~~|~~ NR10050 Type － NS101, NS125 Type No damage ~~PO~~ NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NS101/125 Type : The test samples shall be soldered to the test board by the reflow. As illustrated below, apply force in the direction of the arrow indicating until deflection of the test board reaches to 2 mm. Test board size : 100×40×1.0 Force Rod 10 20 Test board material : Glass epoxy-resin R230 Solder cream thickness : 0.10mm (NR30, NRS20, NRH24/30, NRV20/30) ) : 0.15mm(NR40/50/60/80, NRS40/50/60, NS101/125Type) 

|Test Methods and<br>Remarks||||||||||||RS|||as-tomm<br>—_—||as-tomm<br>—_—||as-tomm<br>—_—|as-tomm|vena|vena|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
||Land dimension||||||Type|A|B|C||Type|||A||B|C|
||||||||NRS20,NRV20|0.65|0.7|2.0||NS101|||2.5||5.6|3.2|
|||||||C|NRH24<br>NR30,NRV30,NRH30|0.7<br>0.8|0.75<br>1.4|2.0<br>2.7||NS125|||2.5||8.6|3.2|
||||||||NR40,NRS40|1.2|1.6|3.7|||||||||
|||A|B|A|||NR50,NRS50|1.5|2.1|4.0|||||||||
||||||||NR60,NRS60|1.6|3.1|5.7|||||||||
||||||||NR80,NRS80|1.8|3.8|7.5|||||||||



## 9. Insulation resistance : between wires 

||NR30/40/50/60/80, NRV20/30,||
|---|---|---|
||NRH24/30, NRS20/40/50/60/80 Type||
|Specified Value|NR10050 Type|－|
||NS101, NS125 Type||
||||
|10. Insulation resistance : between wire and core|||
||NR30/40/50/60/80, NRV20/30,||
||NRH24/30, NRS20/40/50/60/80 Type||
|Specified Value|NR10050 Type|－|
||NS101, NS125 Type||



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

|11. Withstandingvoltage : between wire and core|11. Withstandingvoltage : between wire and core||
|---|---|---|
||NR30/40/50/60/80, NRV20/30,||
||NRH24/30, NRS20/40/50/60/80 Type||
|Specified Value|NR10050 Type|－|
||NS101, NS125 Type||



|12. Adhesion of terminal electrode||||
|---|---|---|---|
|NR30/40/50/60/80, NRV20/30,||||
|NRH24/30, NRS20/40/50/60/80 Type||||
|Specified Value<br>NR10050 Type||Shall not come off PC board||
|NS101, NS125 Type||||
|NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NS101/125 Type :||||
|The test samples shall be soldered to the test board by the reflow.|The test samples shall be soldered to the test board by the reflow.|||
|Applied force|: 10N to X and Y directions.|||
|Duration|: 5s.|||
|Solder cream thickness|: 0.10mm (NR30, NRS20, NRH24/30, NRV20/30)|||
||: 0.15mm (NR40/50/60/80, NRS40/50/60, NS101/125Type)|||
|Test Methods and||||
|Remarks||||
|NR10050 Type||||
|Applied force|: 5N to X and Y directions.|||
|Duration|: 5s.|||
|||||
|13. Resistance to vibration||||
|NR30/40/50/60/80, NRV20/30,||||
|Specified Value<br>NRH24/30, NRS20/40/50/60/80 Type<br>NR10050 Type||Inductance change : Within ±10%<br>No significant abnormality in appearance.||
|NS101, NS125 Type||||
|NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :||||
|The test samples shall be soldered to the test board by the reflow.|The test samples shall be soldered to the test board by the reflow.|||
|Then it shall be submitted to below test conditions.|Then it shall be submitted to below test conditions.|||
|FrequencyRange|10～55Hz|||
|Test Methods and<br>Total Amplitude|1.5mm (Maynot exceed acceleration 196m/s2)|||
|Remarks<br>SweepingMethod|10Hz to 55Hz to 10Hz for 1min.|10Hz to 55Hz to 10Hz for 1min.||
||X|||
|Time|For 2 hours on each X, Y, and Z axis.<br>Y|For 2 hours on each X, Y, and Z axis.||
||Z|||



Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs. 14. Solderability NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type Specified Value At least 90％ of surface of terminal electrode is covered by new solder. NR10050 Type NS101, NS125 Type The test samples shall be dipped in flux, and then immersed in molten solder as shown in below table. Flux : Methanol solution containing rosin 25%. Test Methods and NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type Remarks Solder Temperature 245±5℃ Time 5±1.0 sec. ※Immersion depth : All sides of mounting terminal shall be immersed. ~~ES~~ ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

|||15. Resistance to solderingheat|15. Resistance to solderingheat|
|---|---|---|---|
||||NR30/40/50/60/80, NRV20/30,|
|||Specified Value|NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type|
||||NS101, NS125 Type|
||||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :|
||||The test sample shall be exposed to reflow oven at 230±5℃ for 40 seconds, with peak temperature at 260±5℃ for 5 seconds, 2 times.|
||||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80Type, NS101/125 Type|
|||Test Methods and|Test board material<br>: Glass epoxy-resin|
|||Remarks|Test board thickness  : 1.0mm|
||||NR10050 Type|
||||Test board material<br>: Glass epoxy-resin|
||||Test board thickness  : 1.6mm|
||||Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.|
|||||
|||16. Thermal shock||
|Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type<br>NS101, NS125 Type<br>Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :<br>The test samples shall be soldered to the test board by the reflow. The test samples shall be placed at specified temperature for specified<br>time bystep1 to step4 as shown in below table in sequence. The temperature cycle shall be repeated 100 cycles.<br>Conditions of 1 cycle<br>Step<br>Temperature (℃)<br>Duration (min)<br>1<br>－40±3<br>30±3<br>2<br>Room temperature<br>Within 3<br>3<br>＋85±2<br>30±3<br>4<br>Room temperature<br>Within 3<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>~~=~~||||
|||17. Dampheat||
||||NR30/40/50/60/80, NRV20/30,<br>Inductance change : Within ±10%|
||||NRH24/30, NRS20/40/50/60/80 Type<br>No significant abnormality in appearance.|
|||Specified Value|NR10050 Type<br>－|
||||NS101, NS125 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.|
||||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NS101/125 Type :|
||||The test samples shall be soldered to the test board by the reflow.|
|Test Methods and<br>Remarks<br>The test samples shall beplaced in thermostatic oven set at specified temperature and humidity as shown in below table.<br>Temperature<br>60±2℃<br>Humidity<br>90～95%RH<br>Time<br>500＋24/－0 hour<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>18. Loadingunder dampheat<br>Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type<br>NS101, NS125 Type<br>Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :<br>The test samples shall be soldered to the test board by the reflow.<br>The test samples shall be placed in thermostatic oven set at specified temperature and humidity and applied the rated current<br>continuouslyas shown in below table.<br>Temperature<br>60±2℃<br>Humidity<br>90～95％RH<br>Applied current<br>Rated current<br>Time<br>500＋24/－0 hour<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>~~—=—~~||||
|▶||This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification.||
|||For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) .||
||||i_smd_NR_NS_reli_e-E04R01|



||19. Low temperature life test|
|---|---|
|Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type<br>NS101, NS125 Type<br>Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :<br>The test samples shall be soldered to the test board by the reflow. After that, the test samples shall be placed at test conditions as shown<br>in below table.<br>Temperature<br>－40±2℃<br>Time<br>500＋24/－0 hour<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>~~=~~||
||20. High temperature life test|
||Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>－<br>NR10050 Type<br>－<br>~~a~~<br>~~OO~~|
||NS101, NS125 Type<br>－<br>~~OO~~|
||Test Methods and<br>Remarks<br>NR10050 Type :<br>Temperature<br>105±3℃<br>Time<br>500＋24/－0 hour<br>~~—~~|
||Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.|
|||
||21. Loadingat high temperature life test|
||NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>~~a~~|
||Specified Value<br>NR10050 Type<br>－<br>~~OO~~|
||NS101, NS125 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>~~ee~~|
||NR30/40/50/60/80, NRV30, NRH24/30, NRS40/50/60/80 Type, NS12555, NS12565, NS12575 Type :|
||Test Methods and<br>Remarks<br>The test samples shall be soldered to the test board by the reflow soldering.<br>Temperature<br>85±2℃<br>Applied current<br>Rated current<br>Time<br>500＋24/－0 hour<br>~~|~~|



Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs. 

|Specified Value|NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type|Standard test condition :<br>Unless otherwise specified, temperature is 20±15℃ and 65±20％of<br>relative humidity.<br>When there is any question concerning measurement result: In order to<br>provide correlation data, the test shall be condition of 20±2℃ of<br>temperature, 65±5% relative humidity.<br>Inductance is in accordance with our measured value.|
|---|---|---|
||NR10050 Type||
||NS101, NS125 Type||



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

SMD POWER INDUCTORS（NR□, NS SERIES） 

## ■PRECAUTIONS 

## 1. Circuit Design 

◆Operating environment 

1. The products described in this specification are intended for use in general electronic equipment,(office supply equipment, telecommunications systems, measuring equipment, and household equipment). They are not intended for use in mission-critical 

Precautions equipment or systems requiring special quality and high reliability (traffic systems, safety equipment, aerospace systems, nuclear control systems and medical equipment including life-support systems,) where product failure might result in loss of life, injury or damage. For such uses, contact TAIYO YUDEN Sales Department in advance. 

## 2. PCB Design 

◆Land pattern design 

   1. Please refer to a recommended land pattern. 

- Precautions 2. There is stress, which has been caused by distortion of a PCB, to the inductor. (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

   3. Please consider the arrangement of parts on a PCB. (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

   - ◆Land pattern design 

   - Surface Mounting 

   1. Mounting and soldering conditions should be checked beforehand. 

   2. Applicable soldering process to this products is reflow soldering only. 

   3. Please use the recommended land pattern shown as below. Electrical characteristics and the mounting ability of the product are being considered in the recommended land pattern. If a PCB is designed with other dimensions, defective soldering and stress to a product may occur due to misalignment. The performance of the product may not be brought out. If an adopted land pattern is different from the recommended land pattern, stress to the product will increase. It may cause cracks or defective electrical characteristics of the product. Please conduct validation completely before studying adoption of this product and please judge the pros and cons of adoption of this product with taking on responsibility. 

   - (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

   4. As coefficients of thermal expansion between an inductor and a PCB differs, cracks may occur on a ferrite core when thermal stress is applied to them after mounting an inductor. (Please refer to the drawings below.) Please conduct validation completely before studying adoption of this product and please judge the pros and cons of adoption of this product with taking on responsibility. 

   (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

**==> picture [417 x 49] intentionally omitted <==**

**----- Start of picture text -----**<br>
Clack on ferrite core<br>Technical<br>considerations  Solder, electrode<br>=<br>PCB<br>**----- End of picture text -----**<br>


5. SMD inductors should be located to minimize any possible mechanical stresses from board warp or deflection. When splitting the PC board after mounting inductors and other components, care is required so as not to give any stresses of deflection or twisting to the board. 

- （NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type） 

**==> picture [392 x 86] intentionally omitted <==**

**----- Start of picture text -----**<br>
Electrode A product tends to undergo stress in order “A>C>B≡D”.<br>Please consider the layouts of a product to minimize any stresses.<br>A Perforation D<br>a we ie)uo {2}<br>B<br>Slit ‘ Go<br>C<br>| [CU]<br>**----- End of picture text -----**<br>


▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) 

i_smd_NR_NS_prec_e-E06R01 

|3. Considerations for automaticplacement|3. Considerations for automaticplacement|
|---|---|
||◆Adjustment of mounting machine|
|Precautions|1. Excessive impact load should not be imposed on the products when mounting onto the PC boards.|
||2. Mounting and soldering conditions should be checked beforehand.|
||◆Adjustment of mounting machine|
||1. When installing products, care should be taken not to apply distortion stress as it may deform the products.|
||2. Stress may be applied to a product with a warp or a twist in handling of the product. Please conduct validation completely before|
||studying adoption of this product and please judge the pros and cons of adoption of this product with taking on responsibility.|
||(NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type)|
|Technical||
|considerations|＜Wrap＞                              ＜Twist＞|
|||
|||
|4. Soldering||
||◆Reflow soldering|
||1. Please contact any of our offices for a reflow soldering, and refer to the recommended condition specified.|
||2. The product shall be used reflow soldering only.|
||3. Please do not add any stress to a product until it returns in normal temperature after reflow soldering.|
||◆Lead free soldering|
|Precautions|1. When using products with lead free soldering, we request to use them after confirming adhesion, temperature of resistance to soldering<br>heat, soldering etc sufficiently.|
||◆Recommended conditions for using a soldering iron (NR10050 Type)|
||・ Put the soldering iron on the land-pattern.|
||・ Soldering iron's temperature - Below 350℃|
||・ Duration - 3 seconds or less|
||・ The soldering iron should not directly touch the inductor.|
||◆Reflow soldering|
||1. If products are used beyond the range of the recommended conditions, heat stresses may deform the products, and consequently|
||degrade the reliability of the products.|
||・NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type|
||Recommended reflow condition (Pb free solder)|
||300<br>5sec max|
|Technical<br>considerations|2<br>\ <—Peak:<br>7<br>150~-180<br>‘<br>4<br>2<br>250+5/—-0C<br>§ 200-<br>~<br>|<br>ao|
||S<br>|<br>30+10sec<br>ge 100<br>90+30sec | 230°Cmin<br>oD<br>a|
||0<br>Heating Time[sec]|
|||
|5. Cleaning||
|Precautions|◆Cleaning conditions<br>1. Washing by supersonic waves shall be avoided.|
|Technical|◆Cleaning conditions|
|considerations|1. If washed by supersonic waves, the products might be broken.|



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) 

i_smd_NR_NS_prec_e-E06R01 

|6. Handling||
|---|---|
|Precautions|◆Handling<br>1. Keep the product away from all magnets and magnetic objects.<br>◆Breakaway PC boards (splitting along perforations)<br>1. When splitting the PC board after mounting product, care should be taken not to give any stresses of deflection or twisting to the board.<br>2. Board separation should not be done manually, but by using the appropriate devices.<br>◆Mechanical considerations<br>1. Please do not give the product any excessive mechanical shocks.<br>2. Please do not add any shock and power to a product in transportation.<br>◆Pick-up pressure<br>1. Please do not push to add any pressure to a winding part. Please do not give any shock and push into a ferrite core exposure part.<br>◆Packing<br>1. Please avoid accumulation of a packing box as much as possible.|
|Technical<br>considerations|◆Handling<br>1. There is a case that a characteristic varies with magnetic influence.<br>◆Breakaway PC boards (splitting along perforations)<br>1. The position of the product on PCBs shall be carefully considered to minimize the stress caused from splitting of the PCBs.<br>◆Mechanical considerations<br>1. There is a case to be damaged by a mechanical shock.<br>2. There is a case to be broken by the handling in transportation.<br>◆Pick-up pressure<br>1. Damage and a characteristic can vary with an excessive shock or stress.<br>◆Packing<br>1. If packing boxes are accumulated, that could cause a deformation on packing tapes or a damage on the products.|



|Precautions|◆Storage<br>1. To maintain the solderability of terminal electrodes and to keep the packing material in good condition, temperature and humidity in the<br>storage area should be controlled.<br>・ Recommended conditions<br>Ambient temperature : －5～40℃<br>Humidity : Below 70% RH<br>・ The ambient temperature must be kept below 30℃. Even under ideal storage conditions, solderability of products electrodes may<br>decrease as time passes.<br>For this reason, product should be used within 6 months from the time of delivery.<br>In case of storage over 6 months, solderability shall be checked before actual usage.|
|---|---|
|Technical<br>considerations|◆Storage<br>1. Under a high temperature and humidity environment, problems such as reduced solderability caused by oxidation of terminal electrodes<br>and deterioration of taping/packaging materials may take place.|



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) 

i_smd_NR_NS_prec_e-E06R01 

**for General Electronic Equipment** 

## SMD POWER INDUCTORS（NS SERIES） 

## ■PARTS NUMBER 

## * Operating Temp.：-40～+125℃（Including self-generated heat） 

||N|S △||1<br>0<br>1<br>4<br>5<br>T<br>△||1|0|0|||M||N|A|△＝Blank space|△＝Blank space|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|||①||②<br>③|||④||||⑤||<br>⑥||||
|①Series name|||||||||||||④Nominal inductance||||
|||Code<br>NS△||Series name<br>Shielded specification||||||||||Code<br>（example）||Nominal inductance［μH］|
||||||||||||||||1R0|1.0|
|②Dimensions（L×W×H）|||||||||||||||100|10|
|||Code||Dimensions（L×W×H）［mm］|||||||||||101|100|
|||10145||10.1×10.1×4.5|||||||||※R＝Decimal point||||
|||10155||10.1×10.1×5.5|||||||||||||
|||10165||10.1×10.1×6.5|||||||||⑤Inductance tolerance||||
|||12555||12.5×12.5×5.5|||||||||||Code|Inductance tolerance|
|||12565||12.5×12.5×6.5|||||||||||M|±20％|
|||12575||12.5×12.5×7.5|||||||||||N|±30％|
|③Packaging|||||||||||||⑥Internal code||||
|||Code||Packaging|||||||||||Code||
|||T△||Taping|||||||||||N△<br>NA|Internal code|



## ■STANDARD EXTERNAL DIMENSIONS / MINIMUM QUANTITY 

||||W<br>H|W<br>H|a<br>b<br>b|a<br>b<br>b||||
|---|---|---|---|---|---|---|---|---|---|
||||W|||||||
||L|||||||||
|||||H||||||
|||||||||||
||||||※ The NS 101□□||type does not have th|e indication of the Manufacturingdate code.<br>b<br>Minimumquantity ［pcs］<br>2.0±0.15<br>（0.079±0.006）<br>2000<br>2.0±0.15<br>（0.079±0.006）<br>2000<br>2.0±0.15<br>（0.079±0.006）<br>2000<br>2.0±0.15<br>（0.079±0.006）<br>2000<br>2.0±0.15<br>（0.079±0.006）<br>2000<br>2.0±0.15<br>（0.079±0.006）<br>2000<br>Unit：mm（inch）||
|Type|||L||W|H|a|b|Minimumquantity ［pcs］|
|NS 10145|||10.1±0.3<br>（0.398±0.012）||10.1±0.3<br>（0.398±0.012）|4.5±0.35<br>（0.177±0.014）|2.8±0.1<br>（0.110±0.004）|2.0±0.15<br>（0.079±0.006）|2000|
|NS 10155|||10.1±0.3<br>（0.398±0.012）||10.1±0.3<br>（0.398±0.012）|5.5±0.35<br>（0.217±0.014）|2.8±0.1<br>（0.110±0.004）|2.0±0.15<br>（0.079±0.006）|2000|
|NS 10165|||10.1±0.3<br>（0.398±0.012）||10.1±0.3<br>（0.398±0.012）|6.5±0.35<br>（0.256±0.014）|2.8±0.1<br>（0.110±0.004）|2.0±0.15<br>（0.079±0.006）|2000|
|NS 12555|||12.5±0.3<br>（0.492±0.012）||12.5±0.3<br>（0.492±0.012）|5.5±0.35<br>（0.217±0.014）|3.0±0.1<br>（0.118±0.004）|2.0±0.15<br>（0.079±0.006）|2000|
|NS 12565|||12.5±0.3<br>（0.492±0.012）||12.5±0.3<br>（0.492±0.012）|6.5±0.35<br>（0.256±0.014）|3.0±0.1<br>（0.118±0.004）|2.0±0.15<br>（0.079±0.006）|2000|
|NS 12575|||12.5±0.3<br>（0.492±0.012）||12.5±0.3<br>（0.492±0.012）|7.5±0.35<br>（0.295±0.014）|3.0±0.1<br>（0.118±0.004）|2.0±0.15<br>（0.079±0.006）|2000|
|||||||||||



|Recommended Land Patterns<br>Surface Mounting<br>Mounting and soldering conditions should be checked beforehand.<br>Applicable soldering process to theseproducts is reflow soldering only.<br>A<br>A<br>B<br>C|||||
|---|---|---|---|---|
||Type|A|B|C|
||NS 10145|2.5|5.6|3.2|
||NS 10155|2.5|5.6|3.2|
||NS 10165|2.5|5.6|3.2|
||NS 12555|2.5|8.6|3.2|
||NS 12565|2.5|8.6|3.2|
||NS 12575|2.5|8.6|3.2|
|||||Unit：mm|



▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**64** 

**for General Electronic Equipment** 

■PARTS NUMBER 

## ●NS 10145 type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［A］|Rated current ※） ［A］|Measuring frequency<br>［kHz］|
|---|---|---|---|---|---|---|---|
||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|NS 10145T 1R0NNA|RoHS|1.0|±30％|0.0049|12.54|8.90|100|
|NS 10145T 1R5NNA|RoHS|1.5|±30％|0.0060|10.34|7.99|100|
|NS 10145T 2R2NNA|RoHS|2.2|±30％|0.0085|8.91|6.64|100|
|NS 10145T 3R3NNA|RoHS|3.3|±30％|0.0100|7.33|6.10|100|
|NS 10145T 4R7NNA|RoHS|4.7|±30％|0.0144|6.69|5.03|100|
|NS 10145T 5R6NNA|RoHS|5.6|±30％|0.0181|5.85|4.45|100|
|NS 10145T 6R8NNA|RoHS|6.8|±30％|0.0200|5.05|4.22|100|
|NS 10145T 100MNA|RoHS|10|±20％|0.0248|4.22|3.77|100|
|NS 10145T 150MNA|RoHS|15|±20％|0.0381|3.44|3.00|100|
|NS 10145T 220MNA|RoHS|22|±20％|0.0520|2.87|2.55|100|
|NS 10145T 330MNA|RoHS|33|±20％|0.0815|2.36|2.01|100|
|NS 10145T 470MNA|RoHS|47|±20％|0.100|1.85|1.80|100|
|NS 10145T 680MNA|RoHS|68|±20％|0.150|1.66|1.45|100|
|NS 10145T 101MNA|RoHS|100|±20％|0.200|1.29|1.25|100|
|NS 10145T 151MNA|RoHS|150|±20％|0.341|1.11|0.94|100|
|NS 10145T 221MNA|RoHS|220|±20％|0.485|0.91|0.78|100|
|NS 10145T 331MNA|RoHS|330|±20％|0.700|0.71|0.64|100|
|NS 10145T 471MNA|RoHS|470|±20％|1.030|0.61|0.52|100|
|NS 10145T 681MNA|RoHS|680|±20％|1.57|0.50|0.42|100|
|NS 10145T 102MNA|RoHS|1000|±20％|2.58|0.41|0.32|100|
|NS 10145T 152MNA|RoHS|1500|±20％|3.70|0.36|0.27|100|



## ●NS 10155 type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［A］|Rated current ※） ［A］|Measuring frequency<br>［kHz］|
|---|---|---|---|---|---|---|---|
||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|NS 10155T 1R5NNA|RoHS|1.5|±30％|0.0060|11.90|8.39|100|
|NS 10155T 2R2NNA|RoHS|2.2|±30％|0.0072|10.00|7.61|100|
|NS 10155T 3R3NNA|RoHS|3.3|±30％|0.0097|8.50|6.49|100|
|NS 10155T 4R7NNA|RoHS|4.7|±30％|0.0112|7.40|6.01|100|
|NS 10155T 6R8NNA|RoHS|6.8|±30％|0.0159|6.00|4.98|100|
|NS 10155T 100MNA|RoHS|10|±20％|0.0200|4.49|4.40|100|
|NS 10155T 150MNA|RoHS|15|±20％|0.0284|4.03|3.65|100|
|NS 10155T 220MNA|RoHS|22|±20％|0.0380|3.37|3.12|100|



## ●NS 10165 type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［A］|Rated current ※） ［A］|Measuring frequency<br>［kHz］|
|---|---|---|---|---|---|---|---|
||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|NS 10165T 1R5NNA|RoHS|1.5|±30％|0.0062|13.60|8.04|100|
|NS 10165T 2R2NNA|RoHS|2.2|±30％|0.0074|10.80|7.32|100|
|NS 10165T 3R3NNA|RoHS|3.3|±30％|0.0086|9.30|6.76|100|
|NS 10165T 4R7NNA|RoHS|4.7|±30％|0.0112|7.70|5.88|100|
|NS 10165T 6R8NNA|RoHS|6.8|±30％|0.0140|6.00|5.22|100|
|NS 10165T 100MNA|RoHS|10|±20％|0.0174|5.20|4.66|100|
|NS 10165T 150MNA|RoHS|15|±20％|0.0250|4.50|3.84|100|
|NS 10165T 220MNA|RoHS|22|±20％|0.0313|3.60|3.41|100|



## ●NS 12555 type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［A］|Rated current ※） ［A］|Measuring frequency<br>［kHz］|
|---|---|---|---|---|---|---|---|
||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|NS 12555T 6R0NN|RoHS|6.0|±30％|0.0140|5.01|5.60|100|
|NS 12555T 100MN|RoHS|10|±20％|0.0175|4.73|5.04|100|
|NS 12555T 150MN|RoHS|15|±20％|0.0233|3.89|4.18|100|
|NS 12555T 220MN|RoHS|22|±20％|0.0297|3.20|3.81|100|
|NS 12555T 330MN|RoHS|33|±20％|0.0415|2.64|3.16|100|
|NS 12555T 470MN|RoHS|47|±20％|0.0551|2.23|2.70|100|
|NS 12555T 680MN|RoHS|68|±20％|0.0797|1.81|2.14|100|
|NS 12555T 101MN|RoHS|100|±20％|0.117|1.53|1.86|100|
|NS 12555T 151MN|RoHS|150|±20％|0.176|1.22|1.43|100|
|NS 12555T 221MN|RoHS|220|±20％|0.270|1.00|1.18|100|
|NS 12555T 331MN|RoHS|330|±20％|0.410|0.82|0.96|100|
|NS 12555T 471MN|RoHS|470|±20％|0.520|0.68|0.80|100|
|NS 12555T 681MN|RoHS|680|±20％|0.760|0.60|0.72|100|
|NS 12555T 102MN|RoHS|1000|±20％|1.12|0.47|0.59|100|
|NS 12555T 152MN|RoHS|1500|±20％|1.73|0.40|0.44|100|



※） The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

※） The temperature rise current value (Idc2) is the DC current value having temperature increase up to 40℃. (at 20℃) 

※） The rated current is the DC current value that satisfies both of current value saturation current value and temperature rise current value. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**65** 

## **for General Electronic Equipment** 

■PARTS NUMBER 

**==> picture [491 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
●NS 12565 type<br>**----- End of picture text -----**<br>


|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［A］|Rated current ※） ［A］|Measuring frequency<br>［kHz］|
|---|---|---|---|---|---|---|---|
||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|NS 12565T 2R0NN|RoHS|2.0|±30％|0.0080|13.91|7.60|100|
|NS 12565T 4R2NN|RoHS|4.2|±30％|0.0126|10.15|5.91|100|
|NS 12565T 7R0NN|RoHS|7.0|±30％|0.0162|7.93|5.21|100|
|NS 12565T 100MN|RoHS|10|±20％|0.0199|6.96|4.75|100|
|NS 12565T 150MN|RoHS|15|±20％|0.0237|5.84|4.33|100|
|NS 12565T 220MN|RoHS|22|±20％|0.0310|4.87|3.91|100|
|NS 12565T 330MN|RoHS|33|±20％|0.0390|3.89|3.22|100|
|NS 12565T 470MN|RoHS|47|±20％|0.0575|3.34|2.78|100|
|NS 12565T 680MN|RoHS|68|±20％|0.0775|2.78|2.30|100|
|NS 12565T 101MN|RoHS|100|±20％|0.123|2.23|1.81|100|
|NS 12565T 151MN|RoHS|150|±20％|0.173|1.84|1.54|100|
|NS 12565T 221MN|RoHS|220|±20％|0.273|1.39|1.18|100|



|●NS 12575 type|●NS 12575 type|●NS 12575 type|●NS 12575 type|●NS 12575 type||||
|---|---|---|---|---|---|---|---|
|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［A］||Measuring frequency<br>［kHz］|
||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|NS 12575T 1R2NN|RoHS|1.2|±30％|0.0058|18.08|9.15|100|
|NS 12575T 2R7NN|RoHS|2.7|±30％|0.0085|13.91|7.69|100|
|NS 12575T 3R9NN|RoHS|3.9|±30％|0.0099|12.52|7.38|100|
|NS 12575T 5R6NN|RoHS|5.6|±30％|0.0116|10.85|6.36|100|
|NS 12575T 6R8NN|RoHS|6.8|±30％|0.0131|10.02|5.84|100|
|NS 12575T 100MN|RoHS|10|±20％|0.0156|7.65|5.55|100|
|NS 12575T 150MN|RoHS|15|±20％|0.0184|6.54|5.22|100|
|NS 12575T 220MN|RoHS|22|±20％|0.0260|5.56|4.05|100|
|NS 12575T 330MN|RoHS|33|±20％|0.0390|4.45|3.48|100|
|NS 12575T 470MN|RoHS|47|±20％|0.0515|3.76|2.95|100|
|NS 12575T 680MN|RoHS|68|±20％|0.0720|2.78|2.49|100|
|NS 12575T 101MN|RoHS|100|±20％|0.110|2.64|2.01|100|
|NS 12575T 151MN|RoHS|150|±20％|0.161|2.09|1.51|100|
|NS 12575T 221MN|RoHS|220|±20％|0.245|1.81|1.35|100|



※） The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

- ※） The temperature rise current value (Idc2) is the DC current value having temperature increase up to 40℃. (at 20℃) 

- ※） The rated current is the DC current value that satisfies both of current value saturation current value and temperature rise current value. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**66** 

SMD POWER INDUCTORS (NS SERIES) 

## ■PACKAGING 

**==> picture [497 x 614] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||
|---|---|---|---|---|---|
|①Packing Quantity|
|PO|Standard Quantity (1reel) [pcs]|Minimum Quantity|[pcs]|
|Type|
|PO|Embossed Tape|Embossed Tape|
|NS10145|PO|500|2000|
|NS10155|PO|500|2000|
|NS10165|PO|500|2000|
|NS12555|PO|500|2000|
|NS12565|PO|500|2000|
|NS12575|500|2000|
|②Tape Material|
|●Embossed Tape|
|—|
|Top tape|
|mom)|\|Chip Filled|
|y|CODODDDDVCDODNDNOCOOO|
|oF|Sprocket hole|7|a|a|mf|
|[8|
|Base tape|Chip cavity|Chip|
|③Taping dimensions|
|●Embossed tape 24mm wide (0.945 inches wide)|
|φ1.5＋0.1/－0|1.75±0.1|
|Sprocket hole|(φ0.059＋0.004/-0)|(0.069±0.004）|
|a|l|}|T|
|[O-O-O-G--G-B--O--PD-O-O--G-G-|A|e|e|
|a!|
|B|
|F|eecHeper eee ;|f=|:|
|Li|||a5|>||i|K|
|F|2.0±0.1|4.0±0.1|
|(0.079±0.004)|(0.157±0.004)|
|Cf|Chip cavity|Insertion pitch|Tape thickness|
|Type|
|a|A|B|F|T|K|
|10.5±0.1|10.5±0.1|16.0±0.1|0.4±0.1|5.0±0.1|
|NS10145|
|（0.413±0.004）|（0.413±0.004）|（0.630±0.004）|（0.016±0.004）|（0.197±0.004）|
|10.5±0.1|10.5±0.1|16.0±0.1|0.4±0.1|6.0±0.1|
|NS10155|
|（0.413±0.004）|（0.413±0.004）|（0.630±0.004）|（0.016±0.004）|（0.236±0.004）|
|10.5±0.1|10.5±0.1|16.0±0.1|0.4±0.1|7.0±0.1|
|NS10165|
|（0.413±0.004）|（0.413±0.004）|（0.630±0.004）|（0.016±0.004）|（0.276±0.004）|
|13.0±0.1|13.0±0.1|16.0±0.1|0.4±0.1|6.1±0.1|
|NS12555|
|（0.512±0.004）|（0.512±0.004）|（0.630±0.004）|（0.016±0.004）|（0.240±0.004）|
|13.0±0.1|13.0±0.1|16.0±0.1|0.4±0.1|7.1±0.1|
|NS12565|
|（0.512±0.004）|（0.512±0.004）|（0.630±0.004）|（0.016±0.004）|（0.280±0.004）|
|13.0±0.1|13.0±0.1|16.0±0.1|0.4±0.1|8.0±0.1|
|NS12575|
|（0.512±0.004）|（0.512±0.004）|（0.630±0.004）|（0.016±0.004）|（0.315±0.004）|
|Unit：mm（inch）|

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


▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NS_pack_e-E05R01 

## ④Leader and Blank portion 

⑤Reel size 

|Type|Reel size (Reference values)|Reel size (Reference values)|
|---|---|---|
||φD|φd|
|NS10145|330±2<br>（12.99±0.079）|100±1<br>（3.937±0.039）|
|NS10155|||
|NS10165|||
|NS12555|||
|NS12565|||
|NS12575|||



## ⑥Top Tape Strength 

The top tape requires a peel-off force of 0.1 to 1.3N in the direction of the arrow as illustrated below. 

▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NS_pack_e-E05R01 

SMD POWER INDUCTORS（NR□, NS SERIES） 

||■RELIABILITY DATA||||
|---|---|---|---|---|
||||||
||1. OperatingTemperature Range||||
||NR30/40/50/60/80, NRS20, NRV20/30,<br>NRH24/30 Type||－25～＋120℃||
||Specified Value<br>NRS40/50/60/80 Type||－25～＋125℃||
||NR10050 Type||－25～＋105℃||
||NS101, NS125 Type||－40～＋125℃||
||Test Methods and<br>Remarks<br>Including self-generated heat|Including self-generated heat|||
||||||
||2. Storage Temperature Range||||
||NR30/40/50/60/80, NRV20/30,||||
||NRH24/30, NRS20/40/50/60/80 Type||||
||Specified Value<br>NR10050 Type||－40～＋85℃||
||NS101, NS125 Type||||
||Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type：<br>－5 to 40℃ for the product with taping.||||
||||||
||3. Rated current||||
|Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>NR10050 Type<br>NS101, NS125 Type<br>4. Inductance<br>NR30/40/50/60/80, NRV20/30,<br>~~SS ~~|||Within the specified tolerance<br> ~~oe~~||
||NRH24/30, NRS20/40/50/60/80 Type||||
||Specified Value<br>NR10050 Type||Within the specified tolerance||
||NS101, NS125 Type||||
||Measuring equipment|: LCR Meter （HP 4285A or equivalent）|||
||Measuring frequency|: Specified frequency|||
||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type  :||||
||Test Methods and<br>Measuring equipment|: LCR Meter （HP 4285A or equivalent）|||
||Remarks<br>Measuring frequency|: 100kHz, 1V|||
||NR10050 Type :||||
||Measuring equipment|: LCR Meter （HP 4263A or equivalent）|||
||Measuring frequency|: 100kHz, 1V|||
||||||
||5. DC Resistance||||
||NR30/40/50/60/80, NRV20/30,||||
||NRH24/30, NRS20/40/50/60/80 Type||||
||Specified Value<br>NR10050 Type||Within the specified tolerance||
||NS101, NS125 Type||||
||Test Methods and<br>Remarks<br>Measuring equipment|: DC ohmmeter （HIOKI 3227 or equivalent）|: DC ohmmeter （HIOKI 3227 or equivalent）||
||||||
||6. Self resonance frequency||||
|Specified Value<br>NR30/40/50/60/80, NRV30, NRH24/30,<br>NRS40/50/60/80 Type<br>Within the specified tolerance<br>NR10050 Type<br>NS101, NS125 Type<br>－<br>~~L—EEees~~|||||
||Test Methods and<br>NR30/40/50/60/80, NRV30, NRH24/30, NRS40/50/60/80 Type, NR10050 Type :|NR30/40/50/60/80, NRV30, NRH24/30, NRS40/50/60/80 Type, NR10050 Type :|||
||Remarks<br>Measuring equipment|: Impedance analyzer/material analyzer（HP4291A or equivalent HP4191A, 4192A or equivalent）|||



- This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

|Specified Value|NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type|Inductance change : Within ±20%|
|---|---|---|
||NR10050 Type||
||NS101, NS125 Type|Inductance change : Within ±15%|
|Test Methods and<br>Remarks|NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type :<br>Measurement of inductance shall be taken at temperature range within －25℃～＋85℃.<br>With reference to inductance value at ＋20℃., change rate shall be calculated.<br>NS101, NS125 Type :<br>Measurement of inductance shall be taken at temperature range within －40℃～＋125℃.<br>With reference to inductance value at ＋20℃., change rate shall be calculated.<br>Change of maximum inductance deviation in step1 to 5<br>Step<br>Temperature（℃）<br>1<br>20<br>2<br>Minimum operatingtemperature<br>3<br>20 (Standard temperature)<br>4<br>Maximum operatingtemperature<br>5<br>20||



## 8. Resistance to flexure of substrate 

NR30/40/50/60/80, NRV20/30, No damage NRH24/30, NRS20/40/50/60/80 Type Specified Value ~~|~~ NR10050 Type － NS101, NS125 Type No damage ~~PO~~ NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NS101/125 Type : The test samples shall be soldered to the test board by the reflow. As illustrated below, apply force in the direction of the arrow indicating until deflection of the test board reaches to 2 mm. Test board size : 100×40×1.0 Force Rod 10 20 Test board material : Glass epoxy-resin R230 Solder cream thickness : 0.10mm (NR30, NRS20, NRH24/30, NRV20/30) ) : 0.15mm(NR40/50/60/80, NRS40/50/60, NS101/125Type) 

|Test Methods and<br>Remarks||||||||||||RS|||as-tomm<br>—_—||as-tomm<br>—_—||as-tomm<br>—_—|as-tomm|vena|vena|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
||Land dimension||||||Type|A|B|C||Type|||A||B|C|
||||||||NRS20,NRV20|0.65|0.7|2.0||NS101|||2.5||5.6|3.2|
|||||||C|NRH24<br>NR30,NRV30,NRH30|0.7<br>0.8|0.75<br>1.4|2.0<br>2.7||NS125|||2.5||8.6|3.2|
||||||||NR40,NRS40|1.2|1.6|3.7|||||||||
|||A|B|A|||NR50,NRS50|1.5|2.1|4.0|||||||||
||||||||NR60,NRS60|1.6|3.1|5.7|||||||||
||||||||NR80,NRS80|1.8|3.8|7.5|||||||||



## 9. Insulation resistance : between wires 

||NR30/40/50/60/80, NRV20/30,||
|---|---|---|
||NRH24/30, NRS20/40/50/60/80 Type||
|Specified Value|NR10050 Type|－|
||NS101, NS125 Type||
||||
|10. Insulation resistance : between wire and core|||
||NR30/40/50/60/80, NRV20/30,||
||NRH24/30, NRS20/40/50/60/80 Type||
|Specified Value|NR10050 Type|－|
||NS101, NS125 Type||



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

|11. Withstandingvoltage : between wire and core|11. Withstandingvoltage : between wire and core||
|---|---|---|
||NR30/40/50/60/80, NRV20/30,||
||NRH24/30, NRS20/40/50/60/80 Type||
|Specified Value|NR10050 Type|－|
||NS101, NS125 Type||



|12. Adhesion of terminal electrode||||
|---|---|---|---|
|NR30/40/50/60/80, NRV20/30,||||
|NRH24/30, NRS20/40/50/60/80 Type||||
|Specified Value<br>NR10050 Type||Shall not come off PC board||
|NS101, NS125 Type||||
|NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NS101/125 Type :||||
|The test samples shall be soldered to the test board by the reflow.|The test samples shall be soldered to the test board by the reflow.|||
|Applied force|: 10N to X and Y directions.|||
|Duration|: 5s.|||
|Solder cream thickness|: 0.10mm (NR30, NRS20, NRH24/30, NRV20/30)|||
||: 0.15mm (NR40/50/60/80, NRS40/50/60, NS101/125Type)|||
|Test Methods and||||
|Remarks||||
|NR10050 Type||||
|Applied force|: 5N to X and Y directions.|||
|Duration|: 5s.|||
|||||
|13. Resistance to vibration||||
|NR30/40/50/60/80, NRV20/30,||||
|Specified Value<br>NRH24/30, NRS20/40/50/60/80 Type<br>NR10050 Type||Inductance change : Within ±10%<br>No significant abnormality in appearance.||
|NS101, NS125 Type||||
|NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :||||
|The test samples shall be soldered to the test board by the reflow.|The test samples shall be soldered to the test board by the reflow.|||
|Then it shall be submitted to below test conditions.|Then it shall be submitted to below test conditions.|||
|FrequencyRange|10～55Hz|||
|Test Methods and<br>Total Amplitude|1.5mm (Maynot exceed acceleration 196m/s2)|||
|Remarks<br>SweepingMethod|10Hz to 55Hz to 10Hz for 1min.|10Hz to 55Hz to 10Hz for 1min.||
||X|||
|Time|For 2 hours on each X, Y, and Z axis.<br>Y|For 2 hours on each X, Y, and Z axis.||
||Z|||



Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs. 14. Solderability NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type Specified Value At least 90％ of surface of terminal electrode is covered by new solder. NR10050 Type NS101, NS125 Type The test samples shall be dipped in flux, and then immersed in molten solder as shown in below table. Flux : Methanol solution containing rosin 25%. Test Methods and NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type Remarks Solder Temperature 245±5℃ Time 5±1.0 sec. ※Immersion depth : All sides of mounting terminal shall be immersed. ~~ES~~ ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

|||15. Resistance to solderingheat|15. Resistance to solderingheat|
|---|---|---|---|
||||NR30/40/50/60/80, NRV20/30,|
|||Specified Value|NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type|
||||NS101, NS125 Type|
||||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :|
||||The test sample shall be exposed to reflow oven at 230±5℃ for 40 seconds, with peak temperature at 260±5℃ for 5 seconds, 2 times.|
||||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80Type, NS101/125 Type|
|||Test Methods and|Test board material<br>: Glass epoxy-resin|
|||Remarks|Test board thickness  : 1.0mm|
||||NR10050 Type|
||||Test board material<br>: Glass epoxy-resin|
||||Test board thickness  : 1.6mm|
||||Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.|
|||||
|||16. Thermal shock||
|Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type<br>NS101, NS125 Type<br>Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :<br>The test samples shall be soldered to the test board by the reflow. The test samples shall be placed at specified temperature for specified<br>time bystep1 to step4 as shown in below table in sequence. The temperature cycle shall be repeated 100 cycles.<br>Conditions of 1 cycle<br>Step<br>Temperature (℃)<br>Duration (min)<br>1<br>－40±3<br>30±3<br>2<br>Room temperature<br>Within 3<br>3<br>＋85±2<br>30±3<br>4<br>Room temperature<br>Within 3<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>~~=~~||||
|||17. Dampheat||
||||NR30/40/50/60/80, NRV20/30,<br>Inductance change : Within ±10%|
||||NRH24/30, NRS20/40/50/60/80 Type<br>No significant abnormality in appearance.|
|||Specified Value|NR10050 Type<br>－|
||||NS101, NS125 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.|
||||NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NS101/125 Type :|
||||The test samples shall be soldered to the test board by the reflow.|
|Test Methods and<br>Remarks<br>The test samples shall beplaced in thermostatic oven set at specified temperature and humidity as shown in below table.<br>Temperature<br>60±2℃<br>Humidity<br>90～95%RH<br>Time<br>500＋24/－0 hour<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>18. Loadingunder dampheat<br>Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type<br>NS101, NS125 Type<br>Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :<br>The test samples shall be soldered to the test board by the reflow.<br>The test samples shall be placed in thermostatic oven set at specified temperature and humidity and applied the rated current<br>continuouslyas shown in below table.<br>Temperature<br>60±2℃<br>Humidity<br>90～95％RH<br>Applied current<br>Rated current<br>Time<br>500＋24/－0 hour<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>~~—=—~~||||
|▶||This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification.||
|||For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) .||
||||i_smd_NR_NS_reli_e-E04R01|



||19. Low temperature life test|
|---|---|
|Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>NR10050 Type<br>NS101, NS125 Type<br>Test Methods and<br>Remarks<br>NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type :<br>The test samples shall be soldered to the test board by the reflow. After that, the test samples shall be placed at test conditions as shown<br>in below table.<br>Temperature<br>－40±2℃<br>Time<br>500＋24/－0 hour<br>Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.<br>~~=~~||
||20. High temperature life test|
||Specified Value<br>NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>－<br>NR10050 Type<br>－<br>~~a~~<br>~~OO~~|
||NS101, NS125 Type<br>－<br>~~OO~~|
||Test Methods and<br>Remarks<br>NR10050 Type :<br>Temperature<br>105±3℃<br>Time<br>500＋24/－0 hour<br>~~—~~|
||Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.|
|||
||21. Loadingat high temperature life test|
||NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>~~a~~|
||Specified Value<br>NR10050 Type<br>－<br>~~OO~~|
||NS101, NS125 Type<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>~~ee~~|
||NR30/40/50/60/80, NRV30, NRH24/30, NRS40/50/60/80 Type, NS12555, NS12565, NS12575 Type :|
||Test Methods and<br>Remarks<br>The test samples shall be soldered to the test board by the reflow soldering.<br>Temperature<br>85±2℃<br>Applied current<br>Rated current<br>Time<br>500＋24/－0 hour<br>~~|~~|



Recovery : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs. 

|Specified Value|NR30/40/50/60/80, NRV20/30,<br>NRH24/30, NRS20/40/50/60/80 Type|Standard test condition :<br>Unless otherwise specified, temperature is 20±15℃ and 65±20％of<br>relative humidity.<br>When there is any question concerning measurement result: In order to<br>provide correlation data, the test shall be condition of 20±2℃ of<br>temperature, 65±5% relative humidity.<br>Inductance is in accordance with our measured value.|
|---|---|---|
||NR10050 Type||
||NS101, NS125 Type||



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_smd_NR_NS_reli_e-E04R01 

SMD POWER INDUCTORS（NR□, NS SERIES） 

## ■PRECAUTIONS 

## 1. Circuit Design 

◆Operating environment 

1. The products described in this specification are intended for use in general electronic equipment,(office supply equipment, telecommunications systems, measuring equipment, and household equipment). They are not intended for use in mission-critical 

Precautions equipment or systems requiring special quality and high reliability (traffic systems, safety equipment, aerospace systems, nuclear control systems and medical equipment including life-support systems,) where product failure might result in loss of life, injury or damage. For such uses, contact TAIYO YUDEN Sales Department in advance. 

## 2. PCB Design 

◆Land pattern design 

   1. Please refer to a recommended land pattern. 

- Precautions 2. There is stress, which has been caused by distortion of a PCB, to the inductor. (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

   3. Please consider the arrangement of parts on a PCB. (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

   - ◆Land pattern design 

   - Surface Mounting 

   1. Mounting and soldering conditions should be checked beforehand. 

   2. Applicable soldering process to this products is reflow soldering only. 

   3. Please use the recommended land pattern shown as below. Electrical characteristics and the mounting ability of the product are being considered in the recommended land pattern. If a PCB is designed with other dimensions, defective soldering and stress to a product may occur due to misalignment. The performance of the product may not be brought out. If an adopted land pattern is different from the recommended land pattern, stress to the product will increase. It may cause cracks or defective electrical characteristics of the product. Please conduct validation completely before studying adoption of this product and please judge the pros and cons of adoption of this product with taking on responsibility. 

   - (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

   4. As coefficients of thermal expansion between an inductor and a PCB differs, cracks may occur on a ferrite core when thermal stress is applied to them after mounting an inductor. (Please refer to the drawings below.) Please conduct validation completely before studying adoption of this product and please judge the pros and cons of adoption of this product with taking on responsibility. 

   (NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type) 

**==> picture [417 x 49] intentionally omitted <==**

**----- Start of picture text -----**<br>
Clack on ferrite core<br>Technical<br>considerations  Solder, electrode<br>=<br>PCB<br>**----- End of picture text -----**<br>


5. SMD inductors should be located to minimize any possible mechanical stresses from board warp or deflection. When splitting the PC board after mounting inductors and other components, care is required so as not to give any stresses of deflection or twisting to the board. 

- （NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type） 

**==> picture [392 x 86] intentionally omitted <==**

**----- Start of picture text -----**<br>
Electrode A product tends to undergo stress in order “A>C>B≡D”.<br>Please consider the layouts of a product to minimize any stresses.<br>A Perforation D<br>a we ie)uo {2}<br>B<br>Slit ‘ Go<br>C<br>| [CU]<br>**----- End of picture text -----**<br>


▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) 

i_smd_NR_NS_prec_e-E06R01 

|3. Considerations for automaticplacement|3. Considerations for automaticplacement|
|---|---|
||◆Adjustment of mounting machine|
|Precautions|1. Excessive impact load should not be imposed on the products when mounting onto the PC boards.|
||2. Mounting and soldering conditions should be checked beforehand.|
||◆Adjustment of mounting machine|
||1. When installing products, care should be taken not to apply distortion stress as it may deform the products.|
||2. Stress may be applied to a product with a warp or a twist in handling of the product. Please conduct validation completely before|
||studying adoption of this product and please judge the pros and cons of adoption of this product with taking on responsibility.|
||(NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/30/40/50/60/80 Type)|
|Technical||
|considerations|＜Wrap＞                              ＜Twist＞|
|||
|||
|4. Soldering||
||◆Reflow soldering|
||1. Please contact any of our offices for a reflow soldering, and refer to the recommended condition specified.|
||2. The product shall be used reflow soldering only.|
||3. Please do not add any stress to a product until it returns in normal temperature after reflow soldering.|
||◆Lead free soldering|
|Precautions|1. When using products with lead free soldering, we request to use them after confirming adhesion, temperature of resistance to soldering<br>heat, soldering etc sufficiently.|
||◆Recommended conditions for using a soldering iron (NR10050 Type)|
||・ Put the soldering iron on the land-pattern.|
||・ Soldering iron's temperature - Below 350℃|
||・ Duration - 3 seconds or less|
||・ The soldering iron should not directly touch the inductor.|
||◆Reflow soldering|
||1. If products are used beyond the range of the recommended conditions, heat stresses may deform the products, and consequently|
||degrade the reliability of the products.|
||・NR30/40/50/60/80, NRV20/30, NRH24/30, NRS20/40/50/60/80 Type, NR10050 Type, NS101/125 Type|
||Recommended reflow condition (Pb free solder)|
||300<br>5sec max|
|Technical<br>considerations|2<br>\ <—Peak:<br>7<br>150~-180<br>‘<br>4<br>2<br>250+5/—-0C<br>§ 200-<br>~<br>|<br>ao|
||S<br>|<br>30+10sec<br>ge 100<br>90+30sec | 230°Cmin<br>oD<br>a|
||0<br>Heating Time[sec]|
|||
|5. Cleaning||
|Precautions|◆Cleaning conditions<br>1. Washing by supersonic waves shall be avoided.|
|Technical|◆Cleaning conditions|
|considerations|1. If washed by supersonic waves, the products might be broken.|



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) 

i_smd_NR_NS_prec_e-E06R01 

|6. Handling||
|---|---|
|Precautions|◆Handling<br>1. Keep the product away from all magnets and magnetic objects.<br>◆Breakaway PC boards (splitting along perforations)<br>1. When splitting the PC board after mounting product, care should be taken not to give any stresses of deflection or twisting to the board.<br>2. Board separation should not be done manually, but by using the appropriate devices.<br>◆Mechanical considerations<br>1. Please do not give the product any excessive mechanical shocks.<br>2. Please do not add any shock and power to a product in transportation.<br>◆Pick-up pressure<br>1. Please do not push to add any pressure to a winding part. Please do not give any shock and push into a ferrite core exposure part.<br>◆Packing<br>1. Please avoid accumulation of a packing box as much as possible.|
|Technical<br>considerations|◆Handling<br>1. There is a case that a characteristic varies with magnetic influence.<br>◆Breakaway PC boards (splitting along perforations)<br>1. The position of the product on PCBs shall be carefully considered to minimize the stress caused from splitting of the PCBs.<br>◆Mechanical considerations<br>1. There is a case to be damaged by a mechanical shock.<br>2. There is a case to be broken by the handling in transportation.<br>◆Pick-up pressure<br>1. Damage and a characteristic can vary with an excessive shock or stress.<br>◆Packing<br>1. If packing boxes are accumulated, that could cause a deformation on packing tapes or a damage on the products.|



|Precautions|◆Storage<br>1. To maintain the solderability of terminal electrodes and to keep the packing material in good condition, temperature and humidity in the<br>storage area should be controlled.<br>・ Recommended conditions<br>Ambient temperature : －5～40℃<br>Humidity : Below 70% RH<br>・ The ambient temperature must be kept below 30℃. Even under ideal storage conditions, solderability of products electrodes may<br>decrease as time passes.<br>For this reason, product should be used within 6 months from the time of delivery.<br>In case of storage over 6 months, solderability shall be checked before actual usage.|
|---|---|
|Technical<br>considerations|◆Storage<br>1. Under a high temperature and humidity environment, problems such as reduced solderability caused by oxidation of terminal electrodes<br>and deterioration of taping/packaging materials may take place.|



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) 

i_smd_NR_NS_prec_e-E06R01 

**for General Electronic Equipment** 

WIRE-WOUND CHIP POWER INDUCTORS（BR SERIES） 

## ■PARTS NUMBER 

* Operating Temp.：-40～+105℃（Including self-generated heat） 

|B R|△ L<br>②<br>ame|△ L<br>②<br>ame|2<br>5<br>1<br>8|2<br>5<br>1<br>8|2<br>5<br>1<br>8|2<br>5<br>1<br>8|2<br>5<br>1<br>8|2<br>5<br>1<br>8|2<br>5<br>1<br>8|
|---|---|---|---|---|---|---|---|---|---|
|①<br>①Series n||||||||||
|Code|||Series name|||||Code|Packaging|
|BR|||Wire-Wound chip powe||r inductor|||T|Taping|
|②Characteristics||||||||⑤Nominal induct|ance|
|Code|||Characteristic||s|||Code<br>（example）|Nominal inductance［μH］|
|FL|||Low profile|||||||
|△L||||||||R20|0.2|
|HL||||||||1R0|1.0|
|△C|||High current|||||100|10|
|③Dimensions（L×W）||||||||101|100|
|||||||||※R＝Decimal point<br>⑥Inductance tolerance||
|Code|||Type（inch）|Dimensions<br>（L×W）［mm］||||||
|1608|||1608（0603）|1.6×0.8||||Code|Inductance tolerance|
|2012|||2012（0805）|2.0×1.25||||K|±10％|
|2016|||2016（0806）|2.0×1.6||||M|±20％|
|2518|||2518（1007）|2.5×1.8||||⑦Internal code||
|3225|||3225（1210）|3.2×2.5||||||



## ■STANDARD EXTERNAL DIMENSIONS / STANDARD QUANTITY 

|STANDARD EXTERNAL DIMENSIONS / STANDARD QUANTITY|||||
|---|---|---|---|---|
|L<br><br>e<br>W<br>Recommended Land Patterns<br>Surface Mounting<br>・Mounting and soldering conditio<br>・Applicable soldering process to<br>A<br>A<br>B<br>C|ns should be chec<br>theseproducts is<br>Type<br>1608<br>2012<br>2016<br>2518<br>3225|ked beforehand.<br>reflow solderingonly.|||
|||A|B|C|
|||0.55|0.70|1.00|
|||0.60|1.00|1.45|
|||0.60|1.00|1.80|
|||0.60|1.50|2.00|
|||0.85|1.70|2.70|
|||||Unit：mm|



|Type|L|W|T|e|Standardquantity［pcs］|Standardquantity［pcs］|
|---|---|---|---|---|---|---|
||||||Paper tape|Embossed tape|
|BR L1608|1.6±0.2<br>（0.063±0.008）|0.8±0.2<br>（0.031±0.008）|0.7 max<br>（0.028 max）|0.45±0.15<br>（0.016±0.006）|－|3000|
|BR C1608|1.6±0.2<br>（0.063±0.008）|0.8±0.2<br>（0.031±0.008）|0.8±0.2<br>（0.031±0.008）|0.45±0.15<br>（0.016±0.006）|－|3000|
|BR L2012|2.0±0.2<br>（0.079±0.008）|1.25±0.2<br>（0.049±0.008）|1.0 max<br>（0.040 max）|0.5±0.2<br>（0.020±0.008）|－|3000|
|BR C2012|2.0±0.2<br>（0.079±0.008）|1.25±0.2<br>（0.049±0.008）|1.4 max<br>（0.056 max）|0.5±0.2<br>（0.020±0.008）|－|2000|
|BR C2016|2.0±0.2<br>（0.079±0.008）|1.6±0.2<br>（0.063±0.008）|1.6±0.2<br>（0.063±0.008）|0.5±0.2<br>（0.020±0.008）|－|2000|
|BRFL2518|2.5±0.2<br>（0.098±0.008）|1.8±0.2<br>（0.071±0.008）|1.0 max<br>（0.040 max）|0.5±0.2<br>（0.020±0.008）|－|3000|
|BR L2518|2.5±0.2<br>（0.098±0.008）|1.8±0.2<br>（0.071±0.008）|1.2 max<br>（0.048 max）|0.5±0.2<br>（0.020±0.008）|－|3000|
|BRHL2518|2.5±0.2<br>（0.098±0.008）|1.8±0.2<br>（0.071±0.008）|1.5 max<br>（0.060 max）|0.5±0.2<br>（0.020±0.008）|－|2000|
|BR C2518|2.5±0.2<br>（0.098±0.008）|1.8±0.2<br>（0.071±0.008）|1.8±0.2<br>（0.071±0.008）|0.5±0.2<br>（0.020±0.008）|－|2000|
|BR L3225|3.2±0.2<br>（0.126±0.008）|2.5±0.2<br>（0.098±0.008）|1.7 max<br>（0.068 max）|0.75±0.2<br>（0.03±0.008）|－|2000|
|||||||Unit：mm（inch）|



▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**67** 

## **for General Electronic Equipment** 

■PARTS NUMBER 

|●1608（0603）type|●1608（0603）type|●1608（0603）type|●1608（0603）type|●1608（0603）type|●1608（0603）type||||
|---|---|---|---|---|---|---|---|---|
|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※）［ｍA］||Measuring<br>frequency［MHz］|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BR L1608T1R0M|RoHS|1.0|±20％|700|0.230|510|650|1.0|
|BR L1608T1R5M|RoHS|1.5|±20％|600|0.280|440|590|1.0|
|BR L1608T2R2M|RoHS|2.2|±20％|400|0.400|360|500|1.0|
|BR L1608T3R3M|RoHS|3.3|±20％|300|0.650|290|390|1.0|
|BR L1608T4R7M|RoHS|4.7|±20％|150|1.00|240|310|1.0|
|BR L1608T6R8M|RoHS|6.8|±20％|100|1.64|200|250|1.0|
|BR L1608T100M|RoHS|10|±20％|45|2.00|170|220|1.0|
|BR L1608T150M|RoHS|15|±20％|32|2.56|150|200|1.0|



|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BR C1608TR43M 6|RoHS|0.43|±20％|740|0.082|1,400|1,100|6.0|
|BR C1608TR50M 6|RoHS|0.50|±20％|710|0.090|1,200|1,050|6.0|
|BR C1608TR60M 6|RoHS|0.60|±20％|630|0.099|1,100|940|6.0|
|BR C1608TR72M 6|RoHS|0.72|±20％|600|0.144|1,000|810|6.0|
|BR C1608TR82M 6|RoHS|0.82|±20％|560|0.176|950|730|6.0|
|BR C1608T1R0M 6|RoHS|1.0|±20％|550|0.188|890|680|6.0|



|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BR C1608TR20M|RoHS|0.20|±20％|400|0.060|1,750|980|7.96|
|BR C1608TR35M|RoHS|0.35|±20％|300|0.080|1,400|810|7.96|
|BR C1608TR45M|RoHS|0.45|±20％|200|0.090|1,250|800|7.96|
|BR C1608TR56M|RoHS|0.56|±20％|170|0.095|1,150|760|7.96|
|BR C1608TR77M|RoHS|0.77|±20％|150|0.110|1,000|660|7.96|
|BR C1608T1R0M|RoHS|1.0|±20％|140|0.180|850|520|7.96|
|BR C1608T1R5M|RoHS|1.5|±20％|120|0.300|700|410|7.96|
|BR C1608T2R2M|RoHS|2.2|±20％|100|0.550|550|280|7.96|



|●2012（0805）type|●2012（0805）type|●2012（0805）type|●2012（0805）type|●2012（0805）type|●2012（0805）type||||
|---|---|---|---|---|---|---|---|---|
|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］||Measuring<br>frequency［MHz］|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BR L2012TR47M 6|RoHS|0.47|±20％|500|0.048|1,500|1,900|6.0|
|BR L2012T1R0M 6|RoHS|1.0|±20％|400|0.108|1,050|1,230|6.0|
|BR L2012T2R2MD6|RoHS|2.2|±20％|250|0.184|680|950|6.0|
||||||||||
|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］||Measuring<br>frequency［MHz］|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BR L2012TR47M|RoHS|0.47|±20％|350|0.090|1,100|1,050|7.96|
|BR L2012T1R0M|RoHS|1.0|±20％|300|0.135|850|850|7.96|
|BR L2012T1R5M|RoHS|1.5|±20％|250|0.180|700|750|7.96|
|BR L2012T2R2M|RoHS|2.2|±20％|200|0.300|600|550|7.96|
|BR L2012T3R3M|RoHS|3.3|±20％|190|0.500|490|440|7.96|
|BR L2012T4R7M|RoHS|4.7|±20％|150|0.550|340|400|7.96|
|BR L2012T6R8M|RoHS|6.8|±20％|60|0.750|290|350|7.96|
|BR L2012T100M|RoHS|10|±20％|30|0.850|270|330|2.52|
|BR L2012T150M|RoHS|15|±20％|15|1.00|220|300|2.52|
|BR L2012T220M|RoHS|22|±20％|13|1.30|190|270|2.52|
|BR L2012T330M|RoHS|33|±20％|8.0|2.00|150|220|2.52|
|BR L2012T470M|RoHS|47|±20％|7.0|3.50|125|160|2.52|
|BR L2012T680M|RoHS|68|±20％|6.5|5.80|100|110|2.52|
|BR L2012T101M|RoHS|100|±20％|6.0|7.70|85|85|0.796|
||||||||||
|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］||Measuring<br>frequency［MHz］|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BR C2012T1R0M|RoHS|1.0|±20％|490|0.060|1,500|1,400|1.0|
|BR C2012T1R5MD|RoHS|1.5|±20％|390|0.090|1,200|1,100|1.0|
|BR C2012T2R2MD|RoHS|2.2|±20％|350|0.110|1,100|1,000|1.0|
|BR C2012T3R3MD|RoHS|3.3|±20％|300|0.170|800|870|1.0|
|BR C2012T4R7MD|RoHS|4.7|±20％|250|0.265|700|600|1.0|



※）The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

- ※）The temperature rise current value (Idc2) is the DC current value having temperature increase by 40℃. (at 20℃) 

- ※）The rated current value is following either Idc1 or Idc2, which is the lower one. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**68** 

**for General Electronic Equipment** 

■PARTS NUMBER 

## ●2016（0806）type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BR C2016T1R0M|RoHS|1.0|±20％|450|0.085|1,350|1,100|0.10|
|BR C2016T1R5M|RoHS|1.5|±20％|370|0.150|1,100|820|0.10|
|BR C2016T2R2M|RoHS|2.2|±20％|250|0.180|910|760|0.10|
|BR C2016T3R3M|RoHS|3.3|±20％|140|0.220|740|680|0.10|
|BR C2016T4R7M|RoHS|4.7|±20％|78|0.270|660|610|0.10|
|BR C2016T6R8M|RoHS|6.8|±20％|39|0.330|550|560|0.10|
|BR C2016T100[]|RoHS|10|±10％，±20％|35|0.400|450|520|0.10|
|BR C2016T150[]|RoHS|15|±10％，±20％|28|0.600|400|410|0.10|
|BR C2016T220[]|RoHS|22|±10％，±20％|24|1.00|310|310|0.10|
|BR C2016T330[]|RoHS|33|±10％，±20％|13|1.70|270|240|0.10|
|BR C2016T470[]|RoHS|47|±10％，±20％|11|2.20|210|210|0.10|
|BR C2016T680[]|RoHS|68|±10％，±20％|8|2.80|200|190|0.10|
|BR C2016T101[]|RoHS|100|±10％，±20％|7|3.40|140|170|0.10|



## ●2518（1007）type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BRFL2518T1R0M|RoHS|1.0|±20％|130|0.090|1,200|1,200|1.0|
|BRFL2518T1R5M|RoHS|1.5|±20％|100|0.110|1,100|1,000|1.0|
|BRFL2518T2R2M|RoHS|2.2|±20％|80|0.130|850|950|1.0|
|BRFL2518T3R3M|RoHS|3.3|±20％|70|0.220|700|700|1.0|
|BRFL2518T4R7M|RoHS|4.7|±20％|60|0.330|650|650|1.0|
||||||||||
|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］||Measuring<br>frequency［MHz］|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BR L2518T1R0M|RoHS|1.0|±20％|130|0.080|1,600|1,000|7.96|
|BR L2518T1R5M|RoHS|1.5|±20％|100|0.100|1,200|920|7.96|
|BR L2518T2R2M|RoHS|2.2|±20％|80|0.135|1,000|850|7.96|
|BR L2518T3R3M|RoHS|3.3|±20％|70|0.300|800|580|7.96|
|BR L2518T4R7M|RoHS|4.7|±20％|60|0.400|700|470|7.96|
||||||||||
|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］||Measuring<br>frequency［MHz］|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BRHL2518T1R0M|RoHS|1.0|±20％|400|0.055|2,000|1,400|1.0|
|BRHL2518T1R5M|RoHS|1.5|±20％|350|0.085|1,700|1,100|1.0|
|BRHL2518T2R2M|RoHS|2.2|±20％|300|0.115|1,500|1,000|1.0|
|BRHL2518T3R3MD|RoHS|3.3|±20％|200|0.165|1,200|800|1.0|
|BRHL2518T4R7MD|RoHS|4.7|±20％|150|0.245|1,100|750|1.0|



|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BR C2518T1R0M|RoHS|1.0|±20％|280|0.050|2,550|1,650|1.0|
|BR C2518T1R5M|RoHS|1.5|±20％|230|0.080|2,100|1,300|1.0|
|BR C2518T2R2M|RoHS|2.2|±20％|200|0.120|1,800|1,000|1.0|
|BR C2518T3R3M|RoHS|3.3|±20％|150|0.175|1,450|860|1.0|
|BR C2518T4R7M|RoHS|4.7|±20％|100|0.230|1,250|750|1.0|
|BR C2518T6R8M|RoHS|6.8|±20％|45|0.280|1,050|680|1.0|
|BR C2518T100[]|RoHS|10|±10％，±20％|20|0.350|890|610|1.0|
|BR C2518T150[]|RoHS|15|±10％，±20％|13|0.430|760|550|1.0|
|BR C2518T220[]|RoHS|22|±10％，±20％|10|0.560|640|490|1.0|
|BR C2518T330[]|RoHS|33|±10％，±20％|8|0.850|560|390|1.0|
|BR C2518T470[]|RoHS|47|±10％，±20％|6.5|1.45|410|300|1.0|
|BR C2518T680[]|RoHS|68|±10％，±20％|5.5|2.40|340|230|1.0|
|BR C2518T101[]|RoHS|100|±10％，±20％|4.5|3.60|300|190|1.0|
|・ [] Please specify the inductance tolerance code. (M or K)|||||||||



- ※）The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

- ※）The temperature rise current value (Idc2) is the DC current value having temperature increase by 40℃. (at 20℃) 

- ※）The rated current value is following either Idc1 or Idc2, which is the lower one. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**69** 

## **for General Electronic Equipment** 

■PARTS NUMBER 

## ●3225（1210）type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BR L3225TR27M|RoHS|0.27|±20％|390|0.022|4,500|2,850|7.96|
|BR L3225TR36M|RoHS|0.36|±20％|350|0.025|4,300|2,750|7.96|
|BR L3225TR51M|RoHS|0.51|±20％|270|0.029|3,600|2,550|7.96|
||||||||||
|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±20％）|Rated current ※） ［ｍA］||Measuring<br>frequency［MHz］|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|BR L3225T1R0M|RoHS|1.0|±20％|220|0.043|2,400|2,200|0.1|
|BR L3225T1R5M|RoHS|1.5|±20％|170|0.045|2,200|1,750|0.1|
|BR L3225T2R2M|RoHS|2.2|±20％|150|0.065|1,850|1,600|0.1|
|BR L3225T3R3M|RoHS|3.3|±20％|140|0.120|1,450|1,200|0.1|
|BR L3225T4R7M|RoHS|4.7|±20％|120|0.180|1,300|1,000|0.1|
|BR L3225T6R8M|RoHS|6.8|±20％|90|0.270|1,050|770|0.1|
|BR L3225T100[]|RoHS|10|±10％，±20％|70|0.350|900|700|0.1|
|BR L3225T150[]|RoHS|15|±10％，±20％|20|0.570|700|530|0.1|
|BR L3225T220[]|RoHS|22|±10％，±20％|13|0.690|550|470|0.1|
|BR L3225T330[]|RoHS|33|±10％，±20％|9|0.840|470|420|0.1|
|BR L3225T470[]|RoHS|47|±10％，±20％|7|1.00|420|390|0.1|
|BR L3225T680[]|RoHS|68|±10％，±20％|6|1.40|330|300|0.1|
|BR L3225T101[]|RoHS|100|±10％，±20％|5|2.50|270|250|0.1|



・ [] Please specify the inductance tolerance code. (M or K) 

※）The saturation current value (Idc1) is the DC current value having inductance decrease down to 30%. (at 20℃) 

※）The temperature rise current value (Idc2) is the DC current value having temperature increase by 40℃. (at 20℃) 

- ※）The rated current value is following either Idc1 or Idc2, which is the lower one. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**70** 

WIRE-WOUND CHIP POWER INDUCTORS（BR SERIES） 

## ■PACKAGING 

**==> picture [261 x 390] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||
|---|---|---|---|---|
|①Minimum Quantity|
|Standard Quantity|[pcs]|
|Type|
|Paper Tape|Embossed Tape|
|||tC|tt—‘CsizCS|
|BR C1608|－|3,000|
|||—‘izdC|
|BR L1608|－|3,000|
|||Cid|
|BR L2012|－|3,000|
|||ti|C—C=idCY|
|BR C2012|||ti“(tisé‘—C;siszC|－|2,000|
|BR C2016|－|2,000|
|||[Cid]|
|BR C2518|－|2,000|
|||ti|C—C=idCY|
|BRHL2518|||ti“(tisé‘—C;siszC|－|2,000|
|BR L2518|－|3,000|
|||—C—idC|
|BRFL2518|－|3,000|
|||ti|C=idCY|
|BR L3225|－|2,000|
|||ti“tC|
|②Tape Material|
|●Embossed tape|
|Top tape|
|aN|SS|
|a|/|
|mom)|J!|
|Sprocket hole|
|Dea|}:|
|Base tape|Chip cavity|
|Chip Filled|
|Ho|o|ad|
|Chip|

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


## ③Taping dimensions 

**==> picture [207 x 154] intentionally omitted <==**

**----- Start of picture text -----**<br>
●Embossed Tape 8mm wide (0.315 inches wide)<br>φ1.5＋0.1/－0 1.75±0.1<br>Sprocket hole (φ0.059＋0.004/-0) (0.069±0.004）<br>:<br>k>| A<br>B<br>LO<br>F 4.0±0.1<br>(0.157±0.004)<br>2.0±0.05<br>(0.079±0.002)<br>3.5±0.05 8.0±0.2<br>(0.138±0.002)<br>(0.315±0.008)<br>**----- End of picture text -----**<br>


▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_BR_pack_e-E05R01 

|Type|Chipcavity|Chipcavity|Insertionpitch|Tape thickness|Tape thickness|
|---|---|---|---|---|---|
||A|B|F|T|K|
|BR L1608|1.1±0.1<br>(0.043±0.004)|1.9±0.1<br>(0.075±0.004)|4.0±0.1<br>(0.157±0.004)|0.2±0.05<br>(0.008±0.002)|0.9 max<br>(0.035 max)|
|BR C1608|1.1±0.1<br>(0.043±0.004)|1.9±0.1<br>(0.075±0.004)|4.0±0.1<br>(0.157±0.004)|0.25±0.05<br>(0.010±0.002)|1.2 max<br>(0.047 max)|
|BR L2012|1.45±0.1<br>(0.057±0.004)|2.2±0.1<br>(0.087±0.004)|4.0±0.1<br>(0.157±0.004)|0.25±0.05<br>(0.010±0.002)|1.2 max<br>(0.047 max)|
|BR C2012|1.45±0.1<br>(0.057±0.004)|2.37±0.1<br>(0.093±0.004)|4.0±0.1<br>(0.157±0.004)|0.25±0.05<br>(0.010±0.002)|1.59 max<br>(0.063 max)|
|BR C2016|1.75±0.1<br>(0.069±0.004)|2.1±0.1<br>(0.083±0.004)|4.0±0.1<br>(0.157±0.004)|0.3±0.05<br>(0.012±0.002)|1.9 max<br>(0.075 max)|
|BRFL2518|2.3±0.1<br>(0.091±0.004)|2.8±0.1<br>(0.110±0.004)|4.0±0.1<br>(0.157±0.004)|0.25±0.05<br>(0.010±0.002)|1.3 max<br>(0.051 max)|
|BR L2518|2.3±0.1<br>(0.091±0.004)|2.8±0.1<br>(0.110±0.004)|4.0±0.1<br>(0.157±0.004)|0.3±0.05<br>(0.012±0.002)|1.45 max<br>(0.057 max)|
|BRHL2518|2.1±0.1<br>(0.083±0.004)|2.8±0.1<br>(0.110±0.004)|4.0±0.1<br>(0.157±0.004)|0.3±0.05<br>(0.012±0.002)|1.7 max<br>(0.067 max)|
|BR C2518|2.15±0.1<br>(0.085±0.004)|2.7±0.1<br>(0.106±0.004)|4.0±0.1<br>(0.157±0.004)|0.3±0.05<br>(0.012±0.002)|2.2 max<br>(0.087 max)|
|BR L3225|2.8±0.1<br>(0.110±0.004)|3.5±0.1<br>(0.138±0.004)|4.0±0.1<br>(0.157±0.004)|0.25±0.05<br>(0.010±0.002)|1.9 max<br>(0.075 max)|



## ④Leader and Blank portion 

⑤Reel size 

⑥Top Tape Strength 

The top tape requires a peel-off force of 0.2 to 0.7N in the direction of the arrow as illustrated below. 

▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_BR_pack_e-E05R01 

WIRE-WOUND CHIP POWER INDUCTORS（BR SERIES） 

|■RELIABILITY DATA|■RELIABILITY DATA|||
|---|---|---|---|
|||||
|1. OperatingTemperature Range||||
|Specified Value|BR series||－40～＋105℃|
|Test Methods and<br>Remarks|Including self-generated heat|Including self-generated heat||
|||||
|2. Storage Temperature Range（after soldering）||||
|Specified Value|BR series||－40～＋85℃|
|Test Methods and<br>Remarks|Please refer the term of "7.Storage conditions" in Precautions.|||
|||||
|3. Rated current||||
|Specified Value|BR series||Within the specified tolerance|
|||||
|4. Inductance||||
|Specified Value|BR series||Within the specified tolerance|
|Test Methods and|Measuring equipment|: LCR Meter （HP 4285A or equivalent）||
|Remarks|Measuring frequency|: Specified frequency||
|||||
|5. DC Resistance||||
|Specified Value|BR series||Within the specified tolerance|
|Test Methods and<br>Remarks|Measuring equipment|: DC ohmmeter （HIOKI 3227 or equivalent）|: DC ohmmeter （HIOKI 3227 or equivalent）|
|||||
|6. Self resonance frequency||||
|Specified Value|BR series||Within the specified tolerance|
|Test Methods and|Measuring equipment|: Impedance analyzer/material analyzer||
|Remarks||（HP4291A or equivalent HP4191A, 4192A or equivalent）||
|||||
|7. Temperature characteristic||||
|Specified Value|BR series||Inductance change : Within ±15%|
|Test Methods and<br>Remarks|Based on the inductance at 20℃ and Measured at the ambient of －40℃～＋85℃.|||



|8. Resistance to the bendability|8. Resistance to the bendability|||
|---|---|---|---|
|Specified Value|BR series||No damage.|
|Test Methods and|The given sample is soldered on the board and then the back side of the board is pushed until it bends 2mm like the figure.|||
|Remarks|Dimension of the board|: 100×40×1.0mm (0.8mm thickness for 1608(0603) inductors)||
||Material of the board|: Glass epoxy-resin|: Glass epoxy-resin|
||Thickness of soldering paste|: 0.12mm||



> ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_BR_reli_e-E05R01 

9. Body strength Specified Value BR series No damage. Test Methods and 2012～ Remarks Applied orce 10N Duration : 10sec. 1608 size Applied force  : 5N Duration : 10sec. 

10. Adhesion of terminal electrodes Specified Value BR series Not to removed from the board. Test Methods and The given sample is soldered to the board and then it is kept for 5sec with 10N stress (5N for 1608(0603) inductors) like the figure. Remarks ~~|~~ 

11. Resistance to vibration 

|Specified Value|BR series|Inductance change : Within ±10%<br>No significant abnormality in appearance.|
|---|---|---|
|Test Methods and<br>Remarks|Thegiven sample is soldered to the board and then it is tested dependingon the conditions of the following table.<br>Vibration Frequency<br>10～55Hz<br>Total Amplitude<br>1.5mm (Maynot exceed acceleration 196m/s2)<br>SweepingMethod<br>10Hz to 55Hz to 10Hz for 1min.<br>Time<br>X<br>For 2 hours on each X, Y, and Z axis.<br>Y<br>Z<br>Recovery  : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.||



|12. Solderability|||||||
|---|---|---|---|---|---|---|
|Specified Value|BR series||||At least 90% area of the electrodes is covered by new solder.||
|Test Methods and|Test Method and Remarks】||||||
|Remarks|The given sample is dipped into the flux and then it is tested depending on the conditions of the following table.||||||
||Flux : Methanol solution containingrosin 25%.||||rosin 25%.||
||||Solder Temperature|245±5℃|||
||||Time|5±0.5 sec.|||
||||||||
|13. Resistance to solderingheat|||||||
|Specified Value|BR series||||Inductance change : Within ±10%<br>No significant abnormality in appearance.||
|Test Methods and|3 times reflow having the temperature profile of 5sec of 260＋0/－5 ℃ and 40sec of more than 230℃.||3 times reflow having the temperature profile of 5sec of 260＋0/－5 ℃ and 40sec of more than 230℃.||3 times reflow having the temperature profile of 5sec of 260＋0/－5 ℃ and 40sec of more than 230℃.||
|Remarks|Test board thickness<br>: 1.0mm||||||
||Test board material<br>: Glass epoxy-resin||||: Glass epoxy-resin||
||Recovery  : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.|||Recovery  : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48hrs.|||



|14. Thermal shock|||
|---|---|---|
|Specified Value|BR series|Inductance change : Within ±10%<br>No significant abnormality in appearance.|
|Test Methods and<br>Remarks|Thegiven sample is soldered to the board and then its Inductance is measured after 100cycles of the following conditions.<br>Conditions of 1 cycle<br>Step<br>Temperature (℃)<br>Duration (min)<br>1<br>－40±3<br>30±3<br>2<br>Room temperature<br>Within 3<br>3<br>＋85±2<br>30±3<br>4<br>Room temperature<br>Within 3<br>Recovery  : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.||



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_BR_reli_e-E05R01 

|15. Dampheat||
|---|---|
|Specified Value<br>BR series<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>Test Methods and<br>Remarks<br>Thegiven sample is soldered to the board and then it is kept at the following conditions.<br>Temperature<br>60±2℃<br>Humidity<br>90～95%RH<br>Time<br>1000 hours.<br>Recovery  : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>~~eS~~||
|16. Loadingunder dampheat||
|Specified Value<br>BR series<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>Test Methods and<br>Remarks<br>Thegiven sample is soldered to the board and then it is kept at the following conditions.<br>Temperature<br>60±2℃<br>Humidity<br>90～95％RH<br>Applied current<br>Rated current<br>Time<br>1000hours.<br>Recovery<br>: At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>~~=~~||
|17. Low temperature life test||
|Specified Value<br>BR series<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>Test Methods and<br>Remarks<br>Thegiven sample is soldered to the board and then it is kept at the following conditions.<br>Temperature<br>－40±2℃<br>Duration<br>1000hours<br>Recovery  : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>~~=~~||
|18. High temperature life test||
|Specified Value<br>BR series<br>Inductance change : Within ±10%<br>No significant abnormality in appearance.<br>Test Methods and<br>Remarks<br>Thegiven sample is soldered to the board and then it is kept at the following conditions.<br>Temperature<br>85±2℃<br>Duration<br>1000hours<br>Recovery  : At least 2hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>~~=~~||
|19. Standard conditions||
|Specified Value<br>BR series<br>Standard test condition :<br>Unless otherwise specified, temperature is 20±15℃ and 65±20％of relative humidity.<br>When there is any question concerning measurement result: In order to provide<br>correlation data, the test shall be condition of 20±2℃ of temperature, 65±5% relative<br>humidity.<br>Inductance is in accordance with our measured value.<br>~~jf~~||



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_BR_reli_e-E05R01 

WIRE-WOUND CHIP POWER INDUCTORS（BR SERIES） 

## ■PRECAUTIONS 

|1. Circuit Design|n|
|---|---|
||◆Operating Ambient|
||The products are premised on the usage for the general equipments like the office supply equipment, the telecommunications systems, the|
|Precautions|measuring equipment, the household equipment and so on.<br>Please ask to TAIYO YUDEN's sales person in advance, if you need to apply them to the equipments or the systems which might have any|
||influences for the human body, the property, like the traffic systems, the safety equipment, the aerospace systems, the nuclear control|
||systems, the medical equipment and soon.|
|||
|2. PCB Design||
|Precautions|◆Land pattern design<br>1. Please refer to a recommended land pattern.|
||◆Land pattern design|
|Technical|Surface Mounting|
|considerations|1. The conditions of the picking and placing should be checked in advance.|
||2. The products are only for reflow soldering.|
|||
|3. Considerations for automatic placement||
||◆Adjustment of mounting machine|
|Precautions|1. Excessive physical impact should not be imposed on the products for picking and placing onto the PC boards.|
||2. Mounting and soldering conditions should be checked in advance.|
|Technical|◆Adjustment of mounting machine|
|considerations|The products might be broken if too much stress is given for the picking and placing.|
|||
|4. Soldering||
||◆Reflow soldering|
||1. Please apply our recommended soldering conditions on the specification as much as possible.|
||2. The products are only for reflow soldering.|
|Precautions|3. Please do not give any stress to a product until it returns in room temperature after reflow soldering.<br>◆Recommended conditions for using a soldering iron. （Excluding 1608 type）|
||Touch a soldering iron to the land pattern not to the product directly.|
||The temperature of a soldering iron is less than 350degC.|
||The soldering is for 3 seconds or less.|
||◆Reflow soldering|
||1. The product might break or might make the tombstoning, if the soldering conditions are too far from our recommended conditions.|
|Technical<br>considerations|300<br>| 5secmax<br>Oo<br>|<br><-Peak:<br>;<br>150~180<br>260+0/—5'°C<br>5 200 —<br>‘NX<br>><br>ra<br>|<br>®<br>30+10sec<br>e 1007<br>“90+30sec| 230°C min<br>o2||
||°<br>Heating Time[sec])|
|||
|5. Cleaning||
|Precautions|◆Cleaning conditions<br>1. Please don't wash by the ultra-sonic waves.|
|Technical|◆Cleaning conditions|
|considerations|1. Washing by the ultra-sonic waves might break the product.|



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_BR_prec_e-E06R01 

|6. Handling||
|---|---|
|Precautions|◆Handling<br>1. Keep the product away from any magnets.<br>◆Cutting the PC boards<br>1. Please don't give any stress of the bending or the twisting for the cutting process of PC boards.<br>2. Please don't give any shock and stress to the products in transportation.<br>◆Mechanical considerations<br>1. Please don't give too much shock to the product.<br>2. Please don't give any shock and stress to the products in transportation.<br>◆The stress for picking and placing<br>1. Please don't give any shock into an exposed ferrite core.<br>◆Packing<br>1. Please don't pile the packing boxes up as much as possible.|
|Technical<br>considerations|◆Handling<br>1. There is a case that a characteristic varies with magnetic influence.<br>◆Cutting the PC boards<br>1. Please don't give the bending stress or the twisting stress to the products because they might break in such cases.<br>◆Mechanical considerations<br>1. The mechanical shock might break the products.<br>2. The products might break depending on the handling in transportation.<br>◆Pick-up pressure<br>1. The electrical characteristics of the products might be shifted by too much physical shock and stress.<br>◆Packing<br>1. The products and the tape might break, if the packing boxes are piled up.|



|Precautions|◆Storage<br>1. To maintain the solderability of terminal electrodes and to keep the packing material in good condition, temperature and humidity in the<br>storage area should be controlled.<br>・ Recommended conditions<br>Ambient temperature : 0～40℃<br>Humidity : Below 70% RH<br>・ The ambient temperature must be kept below 30℃. Even under ideal storage conditions, solderability of products electrodes may<br>decrease as time passes.<br>For this reason, product should be used within 6 months from the time of delivery.<br>In case of storage over 6 months, solderability shall be checked before actual usage.|
|---|---|
|Technical<br>considerations|◆Storage<br>1. The ambient of high temperature or high humidity might accelerate to make the solderability and the tape worse.|



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_BR_prec_e-E06R01 

**for General Electronic Equipment** 

WIRE-WOUND CHIP POWER INDUCTORS（CB SERIES） 

* Operating Temp.：-40～+105℃（Including self-generated heat）perating Temp.：-40～+105℃（Including self-generated heat）erating Temp.：-40～+105℃（Including self-generated heat）g Temp.：-40～+105℃（Including self-generated heat） Temp.：-40～+105℃（Including self-generated heat）p.：-40～+105℃（Including self-generated heat）.：-40～+105℃（Including self-generated heat）（Including self-generated heat）Including self-generated heat）g self-generated heat） self-generated heat）generated heat）enerated heat）） 

**==> picture [492 x 276] intentionally omitted <==**

**----- Start of picture text -----**<br>
■PARTS NUMBER  * Operating Temp.：-40～+105℃（Including self-generated heat）perating Temp.：-40～+105℃（Including self-generated heat）erating Temp.：-40～+105℃（Including self-generated heat）g Temp.：-40～+105℃（Including self-generated heat） Temp.：-40～+105℃（Including self-generated heat）p.：-40～+105℃（Including self-generated heat）.：-40～+105℃（Including self-generated heat）（Including self-generated heat）Including self-generated heat）g self-generated heat） self-generated heat）generated heat）enerated heat））<br>C B  △ △  2 0  1  2 T 1 0  0  M △ △ △△ △＝Blank space<br>①  ②  ③  ④  ⑤  ⑥ ⑦  ⑧<br>①Series name  ④Packaging<br>Code  Series name  Code  Packaging<br>CB  Wound chip power inductor  T  Taping<br>②Characteristics  ⑤Nominal inductance<br>Code  Characteristics  Code<br>Nominal inductance［μH］<br>△△  Standard  （example）<br>△C  High current  1R0  1.0<br>△L  Low profile  100  10<br>MF  Low loss  101  100<br>※R＝Decimal point<br>③Dimensions（L×W）<br>Dimensions  ⑥Inductance tolerance<br>Code  Type（inch）<br>（L×W）［mm］ Code  Inductance tolerance<br>1608  1608（0603） 1.6×0.8  K  ±10％<br>2012  2012（0805） 2.0×1.25  M  ±20％<br>2016  2016（0806） 2.0×1.6<br>2518  2518（1007） 2.5×1.8  ⑦Special code<br>3225  3225（1210） 3.2×2.5  Code  Special code<br>△  Standard<br>R  Low Rdc type<br>⑧Internal code<br>**----- End of picture text -----**<br>


■STANDARD EXTERNAL DIMENSIONS / STANDARD QUANTITY 

|CB／CB C／CB L<br>C<br>W<br>L<br>e<br>T|CB／CB C／CB L<br>C<br>W<br>L<br>e<br>T|BMF<br>Recommended Land Pattern<br>Surface Mounting<br>・Mounting and soldering con<br>・Applicable soldering proces<br>W<br>L<br>e<br>T<br>A<br>A<br>B<br>C|BMF<br>Recommended Land Pattern<br>Surface Mounting<br>・Mounting and soldering con<br>・Applicable soldering proces<br>W<br>L<br>e<br>T<br>A<br>A<br>B<br>C|BMF<br>Recommended Land Pattern<br>Surface Mounting<br>・Mounting and soldering con<br>・Applicable soldering proces<br>W<br>L<br>e<br>T<br>A<br>A<br>B<br>C|s<br>diti<br>s to|ons should be checked beforehand.<br>theseproducts is reflow solderingonly.|ons should be checked beforehand.<br>theseproducts is reflow solderingonly.|ons should be checked beforehand.<br>theseproducts is reflow solderingonly.|ons should be checked beforehand.<br>theseproducts is reflow solderingonly.|ons should be checked beforehand.<br>theseproducts is reflow solderingonly.|
|---|---|---|---|---|---|---|---|---|---|---|
|||W<br>L<br>e<br>T|||||||||
|||||||Type|A||B|C|
|||||||MF1608|0.55||0.7|1.0|
|||||||2012|0.60||1.0|1.45|
|||||||2016|0.60||1.0|1.8|
|||||||2518|0.60||1.5|2.0|
|||||||3225|0.85||1.7|2.7|
||||||||||||
|Type|L|W|T|e|||Standardquantity［pcs］||||
|||||||Paper t|ape|Embosse||d tape|
|CBMF1608|1.6±0.2<br>（0.063±0.008）|0.8±0.2<br>（0.031±0.008）|0.8±0.2<br>（0.031±0.008）|0.45±0.15<br>（0.016±0.006）||－||300||0|
|CB L2012|2.0±0.2<br>（0.079±0.008）|1.25±0.2<br>（0.049±0.008）|0.9±0.1<br>（0.035±0.004）|0.5±0.2<br>（0.020±0.008）||400|0|－|||
|CB  2012<br>CB C2012|2.0±0.2<br>（0.079±0.008）|1.25±0.2<br>（0.049±0.008）|1.25±0.2<br>（0.049±0.008）|0.5±0.2<br>（0.020±0.008）||－||300||0|
|CB  2016<br>CB C2016|2.0±0.2<br>（0.079±0.008）|1.6±0.2<br>（0.063±0.008）|1.6±0.2<br>（0.063±0.008）|0.5±0.2<br>（0.020±0.008）||－||200||0|
|CB  2518<br>CB C2518|2.5±0.2<br>（0.098±0.008）|1.8±0.2<br>（0.071±0.008）|1.8±0.2<br>（0.071±0.008）|0.5±0.2<br>（0.020±0.008）||－||200||0|
|CB C3225|3.2±0.2<br>（0.126±0.008）|2.5±0.2<br>（0.098±0.008）|2.5±0.2<br>（0.098±0.008）|0.6±0.3<br>（0.024±0.012）||－||100||0|
||||||||||||



▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**71** 

**for General Electronic Equipment** 

■PARTS NUMBER 

## ●1608（0603）type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|CBMF1608T1R0M|RoHS|1.0|±20％|100|0.09|290|770|7.96|
|CBMF1608T2R2M|RoHS|2.2|±20％|80|0.17|190|560|7.96|
|CBMF1608T3R3M|RoHS|3.3|±20％|60|0.22|170|500|7.96|
|CBMF1608T4R7M|RoHS|4.7|±20％|45|0.24|145|470|7.96|
|CBMF1608T100[]|RoHS|10|±10％，±20％|32|0.36|115|380|2.52|
|CBMF1608T220[]|RoHS|22|±10％，±20％|16|1.0|70|230|2.52|
|CBMF1608T470[]|RoHS|47|±10％，±20％|11|2.5|50|140|2.52|



## ●2012（0805）type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|CB  2012T1R0M|RoHS|1.0|±20％|100|0.15|500|900|7.96|
|CB  2012T2R2M|RoHS|2.2|±20％|80|0.23|410|770|7.96|
|CB  2012T3R3M|RoHS|3.3|±20％|55|0.30|330|650|7.96|
|CB  2012T4R7M|RoHS|4.7|±20％|45|0.40|300|580|7.96|
|CB  2012T6R8M|RoHS|6.8|±20％|38|0.47|250|540|7.96|
|CB  2012T100[]|RoHS|10|±10％，±20％|32|0.70|190|440|2.52|
|CB  2012T100[]R|RoHS|10|±10％，±20％|32|0.50|200|520|2.52|
|CB  2012T150[]|RoHS|15|±10％，±20％|28|1.3|170|320|2.52|
|CB  2012T220[]|RoHS|22|±10％，±20％|16|1.7|135|280|2.52|
|CB  2012T470[]|RoHS|47|±10％，±20％|11|3.7|90|190|2.52|
|CB  2012T680[]|RoHS|68|±10％，±20％|10|6.0|70|140|2.52|
|CB  2012T101[]|RoHS|100|±10％，±20％|8|7.0|60|130|0.796|
||||||||||
|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］||Measuring<br>frequency［MHz］|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|CB C2012T1R0M|RoHS|1.0|±20％|100|0.19|700|840|7.96|
|CB C2012T2R2M|RoHS|2.2|±20％|70|0.33|530|640|7.96|
|CB C2012T4R7M|RoHS|4.7|±20％|45|0.50|360|520|7.96|
|CB C2012T100[]|RoHS|10|±10％，±20％|40|1.2|240|340|2.52|
|CB C2012T220[]|RoHS|22|±10％，±20％|16|3.7|170|190|2.52|
|CB C2012T470[]|RoHS|47|±10％，±20％|11|5.8|120|150|2.52|
||||||||||
|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］||Measuring<br>frequency［MHz］|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|CB L2012T1R0M|RoHS|1.0|±20％|100|0.15|620|950|0.1|
|CB L2012T2R2M|RoHS|2.2|±20％|80|0.39|440|590|0.1|
|CB L2012T4R7M|RoHS|4.7|±20％|45|0.66|275|490|0.1|
|CB L2012T100M|RoHS|10|±20％|32|1.0|205|370|0.1|
|CB L2012T220M|RoHS|22|±20％|23|2.1|150|250|0.1|
|CB L2012T470M|RoHS|47|±20％|11|4.2|100|140|0.1|



## ●2016（0806）type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|CB  2016T1R0M|RoHS|1.0|±20％|100|0.09|600|1,100|7.96|
|CB  2016T1R5M|RoHS|1.5|±20％|80|0.11|550|1,000|7.96|
|CB  2016T2R2M|RoHS|2.2|±20％|70|0.13|510|1,000|7.96|
|CB  2016T3R3M|RoHS|3.3|±20％|55|0.20|400|800|7.96|
|CB  2016T4R7M|RoHS|4.7|±20％|45|0.25|340|740|7.96|
|CB  2016T6R8M|RoHS|6.8|±20％|38|0.35|300|600|7.96|
|CB  2016T100[]|RoHS|10|±10％，±20％|32|0.50|250|520|2.52|
|CB  2016T150[]|RoHS|15|±10％，±20％|28|0.70|210|440|2.52|
|CB  2016T220[]|RoHS|22|±10％，±20％|16|1.0|165|370|2.52|
|CB  2016T330[]|RoHS|33|±10％，±20％|14|1.7|130|270|2.52|
|CB  2016T470[]|RoHS|47|±10％，±20％|11|2.4|110|240|2.52|
|CB  2016T680[]|RoHS|68|±10％，±20％|10|3.0|90|210|2.52|
|CB  2016T101[]|RoHS|100|±10％，±20％|8|4.5|70|170|0.796|



・ [] Please specify the Inductance tolerance code（Ｋor Ｍ） 

※）The saturation current value（Idc1） is the DC current value having inductance decrease down to 30%.（ at 20℃） 

※）The temperature rise current value（Idc2） is the DC current value having temperature increase by 40℃.（ at 20℃） 

※）The rated current value is following either Idc1 or Idc2, which is the lower one. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**72** 

**for General Electronic Equipment** 

■PARTS NUMBER 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|CB C2016T1R0M|RoHS|1.0|±20％|100|0.10|1,100|1,100|7.96|
|CB C2016T1R5M|RoHS|1.5|±20％|80|0.15|1,000|1,000|7.96|
|CB C2016T2R2M|RoHS|2.2|±20％|70|0.20|750|720|7.96|
|CB C2016T3R3M|RoHS|3.3|±20％|55|0.27|600|610|7.96|
|CB C2016T4R7M|RoHS|4.7|±20％|45|0.37|550|530|7.96|
|CB C2016T6R8M|RoHS|6.8|±20％|38|0.59|450|450|7.96|
|CB C2016T100[]|RoHS|10|±10％，±20％|32|0.82|380|350|2.52|
|CB C2016T150[]|RoHS|15|±10％，±20％|28|1.2|300|300|2.52|
|CB C2016T220[]|RoHS|22|±10％，±20％|16|1.8|250|240|2.52|
|CB C2016T330[]|RoHS|33|±10％，±20％|14|2.8|220|220|2.52|
|CB C2016T470[]|RoHS|47|±10％，±20％|11|4.3|150|150|2.52|
|CB C2016T680[]|RoHS|68|±10％，±20％|10|7.0|130|130|2.52|
|CB C2016T101[]|RoHS|100|±10％，±20％|8|8.0|110|110|0.796|



## ●2518（1007）type 

|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|CB  2518T1R0M|RoHS|1.0|±20％|100|0.06|1,200|1,500|7.96|
|CB  2518T1R5M|RoHS|1.5|±20％|80|0.07|650|1,400|7.96|
|CB  2518T2R2M|RoHS|2.2|±20％|68|0.09|510|1,300|7.96|
|CB  2518T3R3M|RoHS|3.3|±20％|54|0.11|440|1,200|7.96|
|CB  2518T4R7MR|RoHS|4.7|±20％|46|0.10|310|1,200|7.96|
|CB  2518T4R7M|RoHS|4.7|±20％|46|0.13|340|1,100|7.96|
|CB  2518T6R8M|RoHS|6.8|±20％|38|0.15|270|930|7.96|
|CB  2518T100[]|RoHS|10|±10％，±20％|30|0.25|250|820|2.52|
|CB  2518T150[]|RoHS|15|±10％，±20％|23|0.32|180|650|2.52|
|CB  2518T220[]|RoHS|22|±10％，±20％|19|0.50|165|580|2.52|
|CB  2518T330[]|RoHS|33|±10％，±20％|15|0.70|130|460|2.52|
|CB  2518T470[]|RoHS|47|±10％，±20％|12|0.95|110|420|2.52|
|CB  2518T680[]|RoHS|68|±10％，±20％|9.5|1.5|70|310|2.52|
|CB  2518T101[]|RoHS|100|±10％，±20％|9.0|2.1|60|260|0.796|
|CB  2518T151[]|RoHS|150|±10％，±20％|7.0|3.2|55|210|0.796|
|CB  2518T221[]|RoHS|220|±10％，±20％|5.5|4.5|50|180|0.796|
|CB  2518T331[]|RoHS|330|±10％，±20％|4.5|7.0|40|140|0.796|
|CB  2518T471[]|RoHS|470|±10％，±20％|3.5|10|35|120|0.796|
|CB  2518T681[]|RoHS|680|±10％，±20％|3.0|17|30|90|0.796|
|CB  2518T102[]|RoHS|1000|±10％，±20％|2.4|24|25|75|0.252|



|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|CB C2518T1R0M|RoHS|1.0|±20％|100|0.08|1,000|1,200|7.96|
|CB C2518T1R5M|RoHS|1.5|±20％|80|0.11|950|1,190|7.96|
|CB C2518T2R2M|RoHS|2.2|±20％|68|0.13|890|1,100|7.96|
|CB C2518T3R3M|RoHS|3.3|±20％|54|0.16|730|1,020|7.96|
|CB C2518T4R7M|RoHS|4.7|±20％|41|0.20|680|920|7.96|
|CB C2518T6R8M|RoHS|6.8|±20％|38|0.30|550|740|7.96|
|CB C2518T100[]|RoHS|10|±10％，±20％|30|0.36|480|680|2.52|
|CB C2518T150[]|RoHS|15|±10％，±20％|23|0.65|350|500|2.52|
|CB C2518T220[]|RoHS|22|±10％，±20％|19|0.77|320|460|2.52|
|CB C2518T330[]|RoHS|33|±10％，±20％|15|1.5|270|320|2.52|
|CB C2518T470[]|RoHS|47|±10％，±20％|12|1.9|240|290|2.52|
|CB C2518T680[]|RoHS|68|±10％，±20％|9.5|2.8|200|200|2.52|
|CB C2518T101[]|RoHS|100|±10％，±20％|9.0|3.7|160|170|0.796|
|CB C2518T151[]|RoHS|150|±10％，±20％|7.0|6.1|140|130|0.796|
|CB C2518T221[]|RoHS|220|±10％，±20％|5.5|8.4|115|110|0.796|
|CB C2518T331[]|RoHS|330|±10％，±20％|4.5|12.3|100|90|0.796|
|CB C2518T471[]|RoHS|470|±10％，±20％|3.5|22|80|70|0.796|
|CB C2518T681[]|RoHS|680|±10％，±20％|3.0|28|65|60|0.796|
|・ [] Please specify the Inductance tolerance code（Ｋor Ｍ）|||||||||



- ※）The saturation current value（Idc1） is the DC current value having inductance decrease down to 30%.（ at 20℃） 

- ※）The temperature rise current value（Idc2） is the DC current value having temperature increase by 40℃.（ at 20℃） 

- ※）The rated current value is following either Idc1 or Idc2, which is the lower one. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**73** 

## **for General Electronic Equipment** 

■PARTS NUMBER 

**==> picture [48 x 6] intentionally omitted <==**

**----- Start of picture text -----**<br>
●3225（1210）type<br>**----- End of picture text -----**<br>


|Parts number|EHS|Nominal inductance<br>［μH］|Inductance tolerance|Self-resonant<br>frequency<br>［MHｚ］（min.）|DC Resistance<br>［Ω］（±30％）|Rated current ※） ［ｍA］|Rated current ※） ［ｍA］|Measuring<br>frequency［MHz］|
|---|---|---|---|---|---|---|---|---|
|||||||Saturation current<br>Idc1|Temperature rise current<br>Idc2||
|CB C3225T1R0MR|RoHS|1.0|±20％|250|0.055|2,000|1,440|0.1|
|CB C3225T1R5MR|RoHS|1.5|±20％|220|0.060|2,000|1,310|0.1|
|CB C3225T2R2MR|RoHS|2.2|±20％|190|0.080|2,000|1,130|0.1|
|CB C3225T3R3MR|RoHS|3.3|±20％|160|0.095|2,000|1,040|0.1|
|CB C3225T4R7MR|RoHS|4.7|±20％|70|0.100|1,250|1,010|0.1|
|CB C3225T6R8MR|RoHS|6.8|±20％|50|0.120|950|940|0.1|
|CB C3225T100[]R|RoHS|10|±10％，±20％|23|0.133|900|900|0.1|
|CB C3225T150[]R|RoHS|15|±10％，±20％|20|0.195|730|850|0.1|
|CB C3225T220[]R|RoHS|22|±10％，±20％|17|0.27|620|780|0.1|
|CB C3225T330[]R|RoHS|33|±10％，±20％|13|0.41|500|570|0.1|
|CB C3225T470[]R|RoHS|47|±10％，±20％|10|0.67|390|480|0.1|
|CB C3225T680[]R|RoHS|68|±10％，±20％|8.0|1.0|320|410|0.1|
|CB C3225T101[]R|RoHS|100|±10％，±20％|6.0|1.4|270|340|0.1|
|CB C3225T221[]R|RoHS|220|±10％，±20％|3.0|2.5|190|190|0.1|
|CB C3225T821[]R|RoHS|820|±10％，±20％|1.8|12|110|110|0.1|
|CB C3225T102[]R|RoHS|1000|±10％，±20％|1.6|13|100|100|0.1|
|・ [] Please specify the Inductance tolerance code（Ｋor Ｍ）|||||||||



※）The saturation current value（Idc1） is the DC current value having inductance decrease down to 30%.（ at 20℃） 

- ※）The temperature rise current value（Idc2） is the DC current value having temperature increase by 40℃.（ at 20℃） 

- ※）The rated current value is following either Idc1 or Idc2, which is the lower one. 

▶ This catalog contains the typical specification only due to the limitation of space.  When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 

**21** 

**74** 

WIRE-WOUND CHIP INDUCTORS (LB SERIES)， WIRE-WOUND CHIP POWER INDUCTORS (CB SERIES)， WIRE-WOUND CHIP INDUCTORS FOR SIGNAL LINES (LB SERIES M TYPE) 

## ■PACKAGING 

①Minimum Quantity 

**==> picture [243 x 266] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||
|---|---|---|---|
|Standard Quantity|［pcs］|
|Type|
|Paper Tape|Embossed Tape|
|[||
|LB C3225|
|－|1000|
|CB C3225|
|LB  3218|||－|2000|
|LB R2518|
|LB C2518|
|LB  2518|－|2000|
|CB  2518|
|CB C2518|
|LBM2016|
|LB C2016|
|LB  2016|－|2000|
|CB  2016|
|CB C2016|
|LB  2012|
|LB C2012|
|LB R2012|－|3000|
|CB  2012|
|CB C2012|
|CB L2012|_|4000|－|
|LB  1608|4000|－|
|[|
|LBMF1608|
|－|3000|
|CBMF1608|
|||
|②Tape material|

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


●Embossed tape 

**==> picture [291 x 309] intentionally omitted <==**

**----- Start of picture text -----**<br>
Top tape<br>% Chip Filled<br>|<br>Sprocket hole<br>/%<br>Base tape  Chip cavity  Chip<br>Top tape<br>Base tape<br>Chip Filled<br>/ Ac)<br>Sprocket hole<br>/ &<br>Bottom tape  Chip cavity  Chip<br>**----- End of picture text -----**<br>


●Card board carrier tape 

▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_CB_LB_pack_e-E05R01 

## ③Taping Dimensions 

●Embossed Tape （0.315 inches wide） 

**==> picture [230 x 135] intentionally omitted <==**

**----- Start of picture text -----**<br>
φ1.5＋0.1/－0 1.75±0.1<br>Sprocket hole (φ0.059＋0.004/-0) / (0.069±0.004） “+<br>OB PP f o<br>>| A<br>B<br>pa te | B h<br>PE F  Pe 4.0±0.1 ma<br>(0.157±0.004)<br>2.0±0.1<br>(0.079±0.004)<br>3.5±0.05 8.0±0.3<br>(0.138±0.002)<br>(0.315±0.012)<br>**----- End of picture text -----**<br>


|Type|Chipcavity<br>~~a~~|Chipcavity<br>~~a~~|Insertionpitch<br>~~a~~|Tape thickness|Tape thickness|
|---|---|---|---|---|---|
||A<br>~~a~~|B<br>~~a~~|F<br>~~a~~<br>~~(|~~|T<br>~~(|~~|K|
|LBM2016|1.75±0.1<br>（0.069±0.004）<br>~~i~~|2.1±0.1<br>（0.083±0.004）|4.0±0.1<br>（0.157±0.004）|0.3±0.05<br>（0.012±0.002）|1.9max.<br>（0.075max.）|
|LB C3225<br>CB C3225<br>~~Le~~|2.8±0.1<br>（0.110±0.004）<br>~~i~~<br>~~a ~~<br>~~Le~~|3.5±0.1<br>（0.138±0.004）<br> ~~a~~|4.0±0.1<br>（0.157±0.004）|0.3±0.05<br>（0.012±0.002）|4.0max.<br>（0.157max.）|
|LB  3218<br>~~Le~~|2.1±0.1<br>（0.083±0.004）<br> <br>~~Le~~|3.5±0.1<br>（0.138±0.004）<br> ~~a~~|4.0±0.1<br>（0.157±0.004）|0.3±0.05<br>（0.012±0.002）|2.2max.<br>（0.087max.）|
|LB  2518<br>CB  2518<br>LB C2518<br>CB C2518<br>LB R2518<br>~~Le~~|2.15±0.1<br>（0.085±0.004）<br> <br>~~Le~~|2.7±0.1<br>（0.106±0.004）<br> ~~a~~|4.0±0.1<br>（0.157±0.004）|0.3±0.05<br>（0.012±0.002）|2.2max.<br>（0.087max.）|
|LB  2016<br>CB  2016<br>LB C2016<br>CB C2016|1.75±0.1<br>（0.069±0.004）|2.1±0.1<br>（0.083±0.004）|4.0±0.1<br>（0.157±0.004）|0.3±0.05<br>（0.012±0.002）|1.9max.<br>（0.075max.）|
|LB  2012<br>CB  2012<br>LB C2012<br>CB C2012<br>LB R2012|1.45±0.1<br>（0.057±0.004）|2.25±0.1<br>（0.089±0.004）|4.0±0.1<br>（0.157±0.004）|0.25±0.05<br>（0.010±0.002）|1.45max.<br>（0.057max.）|
|LBMF1608<br>CBMF1608|1.1±0.1<br>（0.043±0.004）<br>~~A~~|1.9±0.1<br>（0.075±0.004）<br>~~A~~|4.0±0.1<br>（0.157±0.004）<br>~~A~~|0.25±0.05<br>（0.010±0.002）<br>~~A~~|1.2max.<br>（0.047max.）|



## ●Card board carrier tape（0.315 inches wide） 

**==> picture [225 x 134] intentionally omitted <==**

**----- Start of picture text -----**<br>
φ1.5＋0.1/－0 1.75±0.1<br>Sprocket hole (φ0.059＋0.004/-0) (0.069±0.004） T<br>a l e<br>/ |_|<br>OB PoP iz<br>kK A ||<br>B<br>f al a 4<br>Ls<br>F 4.0±0.1<br>(0.157±0.004)<br>2.0±0.1<br>(0.079±0.004)<br>3.5±0.05 8.0±0.3<br>(0.138±0.002)<br>(0.315±0.012)<br>**----- End of picture text -----**<br>


|Type|Chipcavity|Chipcavity|Insertionpitch|Tape thickness|
|---|---|---|---|---|
||A|B|F|T|
|CB L2012|1.55±0.1<br>（0.061±0.004）|2.3±0.1<br>（0.091±0.004）|4.0±0.1<br>（0.157±0.004）|1.1max.<br>（0.043max.）|
|LB  1608|1.0±0.1<br>（0.039±0.004）|1.8±0.1<br>（0.071±0.004）|4.0±0.1<br>（0.157±0.004）|1.1max.<br>（0.043max.）|



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_CB_LB_pack_e-E05R01 

## ④Leader and Blank Portion 

## ⑤Reel Size 

## ⑥Top Tape Strength 

The top tape requires a peel-off force 0.2 to 0.7N in the direction of the arrow as illustrated below. 

▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_CB_LB_pack_e-E05R01 

WIRE-WOUND CHIP INDUCTORS (LB SERIES), WIRE-WOUND CHIP POWER INDUCTORS (CB SERIES), WIRE-WOUND CHIP INDUCTORS FOR SIGNAL LINES (LB SERIES M TYPE) 

|■RELIABILITY DATA|
|---|
||
|1.Operatingtemperature Range|
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>－40～＋105℃（Including self-generated heat）<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>~~oe~~|
|2. Storage Temperature Range（after soldering）|
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>－40～＋85℃<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Test Methods and<br>Remarks<br>LB, CB Series：<br>Please refer the term of "7. storage conditions" in precautions.<br>~~————~~|
|3.Rated Current|
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>Within the specified tolerance<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>~~—_~~|
|4.Inductance|
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>Within the specified tolerance<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Test Methods and<br>Remarks<br>LB・LBC・LBR・CB・CBC・CBL・LBMF・CBMF・LBM Series<br>Measuring equipment<br>：LCR Mater（HP4285A or its equivalent）<br>Measuring frequency<br>:  Specified frequency<br>~~ee~~|
|5.Q|
|LB, LBC, LBR, LBMF Series|
|－|
|Specified Value<br>CB, CBC, CBL, CBMF Series|
|LBM Series<br>Within the specified tolerance|
|Test Methods and<br>LBM Series|
|Remarks<br>Measuring equipment<br>: LCR Mater（HP4285A or its equivalent）|
|Measuring frequency<br>:  Specified frequency|
||
|6.DC Resisitance|
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>Within the specified tolerance<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Test Methods and<br>Remarks<br>Measuring equipment : DC Ohmmeter （HIOKI 3227 or its equivalent）<br>~~————~~|
|7.Self-Resonant Frequency|
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>Within the specified tolerance<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Test Methods and<br>Remarks<br>Measuring equipment : Impedance analyzer （HP4291A or its equivalent）<br>~~————~~|
||
|▶This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification.|
|For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) .|



i_wound_CB_LB_reli_e-E05R01 

**==> picture [400 x 126] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||
|---|---|---|---|---|
|8.Temperature Characteristic|
|LBM2016|Inductance change : Within±5％|
|LB1608|LB2012|LBR2012|CB2012|
|CBL2012|LB2016|CB2016|LB2518|Inductance change : Within±20％|
|Specified Value|LBR2518|CB2518|LBC3225|CBC3225|
|LBMF1608|CBMF1608|LBC2016|CBC2016|
|Inductance change : Within±25％|
|LBC2518|CBC2518|LB3218|
|LBC2012|CBC2012|Inductance change : Within±35％|
|Test Methods and|
|Based on the inductance at 20℃ and Measured at the ambient of －40℃～＋85℃.|
|Remarks|

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


**==> picture [349 x 468] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||
|---|---|---|---|---|---|
|9.Rasistance to Flexure of Substrate|
|LB, LBC, LBR, LBMF Series|
|Specified Value|CB, CBC, CBL, CBMF Series|No damage.|
|LBM Series|
|Warp|: 2mm（LB・LBC・LBR・CB・CBC・CBL・LBM・LBMF・CBMF Series）|
|Test substrate : Glass epoxy-resin substrate|
|Thickness|: 0.8mm（LB1608・LBMF1608・CBMF1608）|
|: 1.0mm（Others）|
|Pressing|jig|
|Test Methods and|10-22|
|Remarks|R340|
|Board|
|ne|||452mm|aseomm|||||
|10.Body Strength|
|LB, LBC, LBR, LBMF Series|
|Specified Value|CB, CBC, CBL, CBMF Series|No damage.|
|LBM Series|
|LB・LBC・LBR・CB・CBC・CBL・LBM|
|Applied force  : 10N|
|Test Methods and|Duration|: 10sec.|
|Remarks|LB1608・LBMF1608・CBMF1608|
|Applied force  : 5N|
|Duration|: 10sec.|
|11.Adhesion of terminal electrode|
|LB, LBC, LBR, LBMF Series|
|Specified Value|CB, CBC, CBL, CBMF Series|No abnormality.|
|LBM Series|
|LB・LBC・LBR・CB・CBC・CBL・LBM・LBMF・CBMF|
|Applied force|: 10N to X and Y directions|
|Duration|: 5 sec.|
|Test Methods and|
|Test substrate|: Printed board|
|Remarks|
|LB1608・CBMF1608・LBMF1608|
|Applied force|: 5N to X and Y directions|
|Duration|: 5 sec.|
|Test substrate|: Printed board|

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


▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_CB_LB_reli_e-E05R01 

|12.Resistance to vibration||
|---|---|
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>Inductance change : Within±10％<br>No significant abnormality in appearance.<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Inductance change : Within±5％<br>No significant abnormality in appearance.<br>Test Methods and<br>Remarks<br>LB・LBR・LBC・CB・CBC・CBL・LBM・LBMF・CBMF：<br>Thegiven sample is soldered to the board and then it is tested dependingon the conditions of the following table.<br>Vibration Frequency<br>10～55Hz<br>Total Amplitude<br>1.5mm (Maynot exceed acceleration 196m/s2)<br>SweepingMethod<br>10Hz to 55Hz to 10Hz for 1min.<br>Time<br>X<br>For 2 hours on each X, Y, and Z axis.<br>Y<br>Z<br>Recovery<br>: At least 2 hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>~~i=~~||
|13.Droptest||
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>－<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>14.Solderability<br>Specified Value<br>LB, LBC, LBR, LBMF Series<br>At least 90％ of surface of terminal electrode is covered by new<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Test Methods and<br>Remarks<br>LB・LBC・LBR・CB・CBC・CBL・LBM・LBMF・CBMF：<br>Solder temperature<br>: 245±5℃<br>Duration<br>: 5±0.5sec<br>Flux<br>: Methanol solution with 25％ of colophony<br>~~—SS= ee~~<br>~~a~~||
|15.Resistance to soldering||
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>Inductance change : Within±10％<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Inductance change : Within±5％<br>Test Methods and<br>Remarks<br>LB・LBC・LBR・CB・CBC・CBL・LBM・LBMF・CBMF：<br>3 times of reflow oven at 230℃ MIN for 40sec. with peak temperature at 260 ℃ for 5sec.<br>Recovery<br>: At least 2 hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>~~———~~||
|16.Resisitance to solvent||
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>－<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Test Methods and<br>Remarks<br>Solvent temperature<br>: Room temperature<br>Type of solvent<br>: Isopropyl alcohol<br>Cleaning conditions<br>: 90s. Immersion and cleaning.<br>~~—=—=~~||
|17.Thermal shock||
|▶This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification.<br>For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) .<br>i_wound_CB_LB_reli_e-E05R01<br>Specified Value<br>LB, LBC, LBR, LBMF Series<br>Inductance change : Within±10％<br>No significant abnormality in appearance.<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Test Methods and<br>Remarks<br>LB・LBC・LBR・CB・CBC・CBL・LBM・LBMF・CBMF：<br>Thegiven sample is soldered to the board and then its Inductance is measured after 100cycles of the following conditions.<br>Conditions of 1 cycle<br>Step<br>Temperature (℃)<br>Duration (min)<br>1<br>－40±3<br>30±3<br>2<br>Room temperature<br>Within 3<br>3<br>＋85±2<br>30±3<br>4<br>Room temperature<br>Within 3<br>Recovery<br>: At least 2 hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>~~:=~~|i_wound_CB_LB_reli_e-E05R01|



18.Damp heat life test 

|18.Damp heat life testp heat life testheat life test|18.Damp heat life testp heat life testheat life test|
|---|---|
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>Inductance change : Within±10％<br>No significant abnormality in appearance.<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Test Methods and<br>Remarks<br>Temperature<br>: 60±2℃<br>Humidity<br>: 90～95％RH<br>Duration<br>: 1000 hrs<br>Recovery<br>: At least 2 hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>19.Loading under damp heat life test<br>Specified Value<br>Test Methods and<br>Remarks<br>LB, LBC, LBR, LBMF Series<br>Inductance change : Within±10％<br>No significant abnormality in appearance.<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Temperature<br>: 60±2℃<br>Humidity<br>: 90～95％RH<br>Duration<br>: 1000 hrs<br>Applied current<br>: Rated current<br>Recovery<br>: At least 2 hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>20.High temperature life test<br>Specified Value<br>LB, LBC, LBR, LBMF Series<br>－<br>CB, CBC, CBL, CBMF Series<br>Inductance change : Within±10％<br>No significant abnormality in appearance.<br>LBM Series<br>Test Methods and<br>Remarks<br>Temperature<br>: 85±2℃<br>Duration<br>: 1000 hrs<br>Recovery<br>: At least 2 hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>~~—_———~~||
|21.Loadingat high temperature life test||
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>Inductance change : Within±10％<br>（LBC3225 Series : Within±20％）<br>No significant abnormality in appearance.<br>CB, CBC, CBL, CBMF Series<br>－<br>LBM Series<br>Test Methods and<br>Remarks<br>Temperature<br>: 85±2℃<br>Duration<br>: 1000 hrs<br>Applied current<br>: Rated current<br>Recovery<br>: At least 2 hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>~~_—_———~~||
|22.Low temperature life test||
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>Inductance change : Within±10％<br>No significant abnormality in appearance.<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>Test Methods and<br>Remarks<br>Temperature<br>: －40±2℃<br>Duration<br>: 1000 hrs<br>Recovery<br>: At least 2 hrs of recovery under the standard condition after the test, followed by the measurement within 48 hrs.<br>~~—~~||
|23.Standard condition||
|Specified Value<br>LB, LBC, LBR, LBMF Series<br>Standard test conditions<br>Unless specified, Ambient temperature is 20±15℃ and the Relative<br>humidity is 65±20％. If there is any doubt about the test results, further<br>measurement shall be had within the following limits:<br>Ambient Temperature: 20±2℃<br>Relative humidity: 65±5％<br>Inductance value is based on our standard measurement systems.<br>CB, CBC, CBL, CBMF Series<br>LBM Series<br>~~a~~||
|||
|▶This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification.||
|For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) .||



i_wound_CB_LB_reli_e-E05R01 

## WIRE-WOUND CHIP INDUCTORS (LB SERIES)， WIRE-WOUND CHIP POWER INDUCTORS (CB SERIES)， WIRE-WOUND CHIP INDUCTORS FOR SIGNAL LINES (LB SERIES M TYPE) 

■PRECAUTIONS 1．Circuit Design ◆Operating environment 1. The products described in this specification are intended for use in general electronic equipment, (office supply equipment, telecommunications systems, measuring equipment, and household equipment). They are not intended for use in mission-critical Precautions equipment or systems requiring special quality and high reliability (traffic systems, safety equipment, aerospace systems, nuclear control systems and medical equipment including life-support systems,) where product failure might result in loss of life, injury or damage. For such uses, contact TAIYO YUDEN Sales Department in advance. 2．PCB Design ◆Land pattern design Precautions 1. Please contact any of our offices for a land pattern, and refer to a recommended land pattern of a right figure or specifications. PRECAUTIONS 【Recommended Land Patterns】 Technical Surface Mounting considerations ・ Mounting and soldering conditions should be checked beforehand. ・ Applicable soldering process to those products is reflow soldering only. 

**==> picture [440 x 65] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||
|---|---|
|3．Considerations for automatic placement|
|◆Adjustment of mounting machine|
|Precautions|1. Excessive impact load should not be imposed on the products when mounting onto the PC boards.|
|2. Mounting and soldering conditions should be checked beforehand.|
|Technical|
|1. When installing products, care should be taken not to apply distortion stress as it may deform the products.|
|considerations|

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


4．Soldering 

**==> picture [526 x 74] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||
|---|---|
|◆Reflow soldering（ LB and CB Types）|
|1. For reflow soldering with either leaded or lead-free solder, the profile specified in "point for controlling" is recommended.|
|Precautions|◆Recommended conditions for using a soldering iron|
|1. Put the soldering iron on the land-pattern. Soldering iron's temperature - Below 350℃ Duration-3 seconds or less. The soldering iron|
|should not come in contact with inductor directly.|
|◆Reflow soldering（ LB and CB Types）|
|1. Reflow profile|

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


**==> picture [425 x 82] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||
|---|---|---|---|---|
|Technical|©||
|considerations|gE|1007|“90+30sec|30+10sec|
|©o|||||230°C|min|
|0|
|Heating|Time[sec]|
|◆Recommended conditions for using a soldering iron|
|1. Components can be damaged by excessive heat where soldering conditions exceed the specified range.|

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


**==> picture [280 x 56] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||
|---|---|
|5．Cleaning|
|◆Cleaning conditions|
|Precautions|
|Washing by supersonic waves shall be avoided.|
|Technical|◆Cleaning conditions|
|considerations|If washed by supersonic waves, the products might be broken.|

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


▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_CB_LB_prec_e-E06R01 

|6．Handling|||
|---|---|---|
||◆Handling||
||1. Keep the inductors away from all magnets and magnetic objects.|1. Keep the inductors away from all magnets and magnetic objects.|
||◆Breakaway PC boards（ splitting along perforations）||
|Precautions|1. When splitting the PC board after mounting inductors, care should be taken not to give any stresses of deflection or twisting to the|1. When splitting the PC board after mounting inductors, care should be taken not to give any stresses of deflection or twisting to the<br>board.|
||2. Board separation should not be done manually, but by using the appropriate devices.|2. Board separation should not be done manually, but by using the appropriate devices.|
||◆Mechanical considerations||
||1. Please do not give the inductors any excessive mechanical shocks.|1. Please do not give the inductors any excessive mechanical shocks.|
||◆Handling||
||1. There is a case that a characteristic varies with magnetic influence.|1. There is a case that a characteristic varies with magnetic influence.|
|Technical|◆Breakaway PC boards（ splitting along perforations）||
|considerations|1. Planning pattern configurations and the position of products should be carefully performed to minimize stress.|1. Planning pattern configurations and the position of products should be carefully performed to minimize stress.|
||◆Mechanical considerations||
||1. There is a case to be damaged by a mechanical shock.|1. There is a case to be damaged by a mechanical shock.|
||||
|7．Storage conditions|||
||◆Storage||
||1. To maintain the solderability of terminal electrodes and to keep the packing material in good condition, temperature and humidity in the|1. To maintain the solderability of terminal electrodes and to keep the packing material in good condition, temperature and humidity in the|
|||storage area should be controlled.|
|||・ Recommended conditions|
|Precautions||Ambient temperature : 0～40℃<br>Humidity : Below 70% RH|
|||・ The ambient temperature must be kept below 30℃. Even under ideal storage conditions, solderability of products electrodes may|
|||decrease as time passes.|
|||For this reason, product should be used within 6 months from the time of delivery.|
|||In case of storage over 6 months, solderability shall be checked before actual usage.|
|Technical<br>considerations|◆Storage<br>1. Under a high temperature and humidity environment, problems such as reduced solderability caused by oxidation of terminal electrodes<br>and deterioration of taping/packaging materials may take place.||



▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . 

i_wound_CB_LB_prec_e-E06R01
Updated at June 8, 2026
Founded in 1950, Taiyo Yuden is a globally recognized manufacturer of electronic components, renowned for a foundational approach to product creation that begins with raw material development. This dedication to advanced material science has positioned the company as a trusted leader in providing highly reliable components for modern smartphones, automotive systems, information infrastructure, and industrial equipment. The core of our Taiyo Yuden portfolio is built around their industry-leading inductive solutions. We feature a comprehensive selection of high-performance power inductors and RF inductors, engineered to deliver exceptional efficiency and precision in demanding power management and high-frequency communication circuits. Complementing this robust inductor offering, our range includes specialized Taiyo Yuden components designed for diverse engineering needs. This encompasses common mode chokes and filters for effective EMC and RFI suppression, compact Bluetooth modules for advanced wireless networking, single-band chip and RF antennas, as well as high-capacity supercapacitors for innovative energy storage.
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