BMMA00131364R47MV1

## **Power Inductor** 

## **BMMA Series** 

## **Overview** 

BMMA Series is designed for low profile type with low RDC and ultra large current. Its molded magnetic shielded type is suitable for high-density mounting and ultra low buzz noise. Soldering conditions can be easily confirmed when mounting onto the board. 

This series also provides customers with embossed carrier type packaging for automatic mounting machine. 

## **Benefits** 

1. Low resistance and high current rating 

2. Magnetic core made by high performance magnetic powder 

## **Applications** 

1. High current power supplies 

2. PMIC 

3. DC-DC converters, inverters 

4. Consumer Electronics: Smartphones, laptops, tablets, wearable devices, and gaming consoles. 

## **Product Information** 

|**Series**|**L (mm)**|**W(mm)**|**T (mm)**|**Inductance (**µ**H)**|
|---|---|---|---|---|
|BMMA|4|4|1.2|0.047 ~ 15|
||4.0|4|2.0||
||5.18|5.49|1.2 ~ 3.0||
||6.47|6.86|1.8 ~ 5||
||8.1|8.3|3 ~ 4||
||10|11.5|1.5 ~ 5||
||12.9|13.2|3.5 ~ 6.4||
||17.2|17.6|7.0||



## **BMMA00131364 Series Specification** 

1 Scope This specification applies to large current and low loss SMD power inductor ~~:~~ 2 Part numbering 

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B MMA □□ □□□□□□ □□□ □ □□<br>Internal code<br>Tolerance<br>| [LE] LL [=] ,<br>Inductance<br>Dimension<br>Control code<br>;LLES Prouduct series<br>Grade<br>**----- End of picture text -----**<br>


## 3 Temperature rating 

Operating Temperature: -55°C~125°C 

Storage Temperature: (on tape & reel): -20°C to +40°C; 75% RH max. 

## ~~;~~ 4 Marking 

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Marking : R22<br>**----- End of picture text -----**<br>


## ~~__|~~ 5 Standard testing condition 

||Unless otherwise specified|Incase ofdoubt|
|---|---|---|
|Temperature|OrdinaryTemperature(15 to 35°C)|20 to 30°C|
|Humidity|OrdinaryHumidity(25 to 85%RH)|50 to 80 %RH|



**BMMA00131364 Series Specification** ~~Fe __|~~ 6 Configuration and dimensions A E **Dimensions in mm Type 131364 A 13.2 ± 0.5** B D **B 12.9 Max C 6.4 Max D 3.5 ± 0.5 E 2.3 ± 0.3** ~~a. =~~ **Size Code Net weight(grms)** c C (a ~~, EE~~ **131364 6 (typ.)** ~~__|~~ 7 Electrical characteristics 

|**Part number**|**(uH)**<br>**Inductance**|**(±%)**<br>**Tolerance**|**Test Freq.**|**Irms (A)**<br>**Typ.**|**Isat (A)**<br>**Typ.**|**RDC (mΩ)**<br>**Max.(Typ.)**|**Marking**|
|---|---|---|---|---|---|---|---|
|BMMA00131364R22MV1|0.22|20|100kHz,0.5V|53|112|0.7(0.63)|R22|
|BMMA00131364R33MV1|0.33|20|100kHz,0.5V|46|65|0.9(0.83)|R33|
|BMMA00131364R47MV1|0.47|20|100kHz,0.5V|41|63|1.2(1)|R47|
|BMMA00131364R56MV1|0.56|20|100kHz,0.5V|37|62|1.4(1.2)|R56|
|BMMA00131364R68MV1|0.68|20|100kHz,0.5V|35|60|1.6(1.4)|R68|
|BMMA00131364R82MV1|0.82|20|100kHz,0.5V|33|50|1.9(1.6)|R82|
|BMMA001313641R0MV1|1|20|100kHz,0.5V|32|49|2(1.7)|1R0|
|BMMA001313641R5MV1|1.5|20|100kHz,0.5V|27|45|3(2.5)|1R5|
|BMMA001313641R8MV1|1.8|20|100kHz,0.5V|24|41|3.2(2.8)|1R8|
|BMMA001313642R2MV1|2.2|20|100kHz,0.5V|22|40|4.2(3.5)|2R2|
|BMMA001313643R3MV1|3.3|20|100kHz,0.5V|18|35|6.8(5.7)|3R3|
|BMMA001313644R7MV1|4.7|20|100kHz,0.5V|13.5|30|11.2(9.3)|4R7|
|BMMA001313645R6MV1|5.6|20|100kHz,0.5V|13.5|32|10(9.3)|5R6|
|BMMA001313646R8MV1|6.8|20|100kHz,0.5V|11.5|16.5|14(13.1)|6R8|
|BMMA001313648R2MV1|8.2|20|100kHz,0.5V|10.5|16|15.5(14.5)|8R2|
|BMMA00131364100MV1|10|20|100kHz,0.5V|10|15.5|17.2(16.4)|100|



## **Note:** 

1. Operating temperature range -55°C to 125°C. 

2. Isat for Inductance drop 20% from its value without current. 

3. Irms for a 40°C temperature rise from 25°C ambient. 

4. The part temperature (ambient + temp rise) should not exceed 125°C under worst case operating conditions. Circuit design 125°C under worst case operating conditions. Component placement, PCB trace size and thickness, airflow  and other cooling provisions all affect the part temperature. Part temperature should be verified in the end application. 

5.[Absolute maximum voltage 25V DC. (Based on test method, it may not the sameunder different application,] it is recommended to verify first.) 

## **BMMA00131364 Series Specification** ~~Fe~~ 

## 8 

BMMA00131364 Series **8.1 Construction** 

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1<br>3<br>2 c<br>**----- End of picture text -----**<br>


## **8.2 Material List** 

|**Item**|**Part**|**Description**|
|---|---|---|
|1|Magnetic core|Magnetic metal powder|
|2|Coil|Enameled copper wire|
|3|Terminals|Copper based terminal|



## **BMMA00131364 Series Specification** 

## 9 Reliability test items 

**1-1.Mechanical Performance** 

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|||||
|---|---|---|---|
|No|Item|Specification|Test Method|
|1-1-1|Vibration|Appearance: No damage|Test device shall be soldered on the substrate|
|Inductance:within±10% of|Oscillation Frequency: 10 to 55 to 10Hz for 1min|
|initial value|Amplitude: 1.5mm|
|Time: 2hrs for each axis (X, Y & Z), total 6hrs|
|1-1-2|Resistance to Soldering Heat|Appearance: No damage|Pre-heating: 150°C, 1min|
|Solder Composition: Sn/Ag3.0/Cu0.5|
|Solder Temperature: 260±5°C|
|Immersion Time: 10±1sec|
|1-1-3|Solder ability|The electrodes shall be at|Pre-heating: 150°C, 1min|
|least 95% covered with new|Solder Composition: Sn/Ag3.0/Cu0.5|
|solder coating|Solder Temperature: 245±5°C|
|Immersion Time: 4±1sec|
|1-1-4|Resistance to solvent|There must be no change in|Inductors must withstand 6 minutes of alcohol or water.|
|appearance or obliteration of|
|marking.|
|1-2.Environmental Performance|
|No|Item|Specification|Test Method|
|1-2-1|Temperature Shock|Appearance: No damage|10 cycles (Air to Air) 1 cycles shall consist of:|
|Inductance:within±10% of|30 minutes exposure to -55°C|
|initial value|30 minutes exposure to 125°C|
|15 seconds maximum transition between temperatures|
|1-2-2|Temperature Cycle|One cycle:|
|Step|Temperature (°C)|Time (min)|
|1|-55±3|30|
|2|25±2|3|
|3|125±3|30|
|4|25±2|3|
|Total: 100cycles|
|Measured after exposure in the room condition for 24hrs|
|1-2-3|Humidity Resistance|Temperature: 40±2°C|
|Relative Humidity: 90 ~ 95%|
|Time: 1000hrs|
|Measured after exposure in the room condition for 24hrs|
|1-2-4|Heat Life|Temperature: 85±3°C|
|Relative Humidity: 20%|
|Applied Current: Rated Current|
|Time: 1000hrs|
|Measured after exposure in the room condition for 24hrs|
|1-2-5|Cold Resistance|Temperature: -55±3°C|
|Relative Humidity: 0%|
|Time: 1000hrs|
|Measured after exposure in the room condition for 24hrs|

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## **BMMA00131364 Series Specification** 

## ~~__|~~ 10 Recommended IR reflow profile 

|oC|Ramp-up|Ramp-up||||Pre-heating|Pre-heating|Pre-heating|Pre-heating|||Reflow|Reflow|Reflow|||Cooling|Cooling|||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|300||||||||||||Peak : 260°C|||||||||
||||||||||||||||||||||
|217°C|||||||||||||||||||||
||||||||||||||||||||||
|150°C||||||||||||||||||6°C / sec max|||
||||||||||||||||||||||
|100|||||||||||||||||||||
|°|||3°C / sec max||C / sec max||||||||||||||||
|0|50||100||||150||200|||250|||||300|350||sec|
|||||||||Reflow||profile|||||||||||
|Lead-Free(LF)||||||||||||||||||Refer to J-STD-020F|Refer to J-STD-020F||
|Item|Ramp-up|||||Pre-heating||||Reflow|||||Peak Temp.|||||Cooling|
|Temp. scope|R.T. ~150||R.T. ~150°C||150°C~200°C|||||217°C||||||260±5°C|||Peak Temp.<br>150°C||
|Time spec|-|||||60~120 sec||60~120 sec|60~150 sec||||||20~40 sec|||20~40 sec||-|



Note: 

1. IR reflow times: within 3 times 

2. Nitrogen adopted is recommended while in IR reflow 

## **BMMA00131364 Series Specification** 

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__| 11 Packaging<br>11.1 Packaging-cover tape<br>The force for tearing off cover tape is 10 to 130 grams.<br>165° to 180°<br>Top cover tape<br>AN<br>\<br>Base tape<br>11.2 Packaging quantity<br>Type pcs/reel<br>131364 250<br>a<br>11.3 Reel dimensions<br>A C B<br>I c:<br>D<br>Dimensions in mm<br>Type A B C D<br>131364 330 100 13 24.2<br>So<br>**----- End of picture text -----**<br>


## **BMMA00131364 Series Specification** 

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__| 11 Packaging<br>11.4 Tape dimensions in mm<br>**----- End of picture text -----**<br>


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P0 P2<br>D<br>E<br>W<br>B0<br>K0 P<br>ab =)<br>Pulling direction<br>A0<br>Type A0 B0 K0 D E W P P0 P2<br>131364 13.4 14.1 6.8 1.5 1.75 24 16 4 2<br>————E<br>R22<br>**----- End of picture text -----**<br>


## ~~__|~~ 12 Recommended pattern 

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C<br>Dimensions in mm<br>Type A B C<br>A<br>131364 4.0 7.87 13.76<br>U U 0 EE<br>B<br>__| 13 Note<br>1. Please make sure that your product has been evaluated and confirmed against your specifications<br>when our product is mounted to your product.<br>**----- End of picture text -----**<br>


2. Don’t design/mount any components in contact with this product. 

3. The moisture sensitivity level (MSL) of products is classified as level 1. 

4. Shelf life: 1 years from the date of shipment. 

## **BMMA00131364 Series Specification** ~~ee~~ 

## ~~__|~~ 14 Graph 

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BMMA00131364R22MV1 BMMA00131364R33MV1<br>0.35 100 0.50 100<br>Inductance(μH) Inductance(μH)<br>Temp Rise (°C) Temp Rise (°C)<br>0.28 ey  Ae 80 ee 0.40 80<br>0.21 60 0.30 60<br>0.14 40 0.20 40<br>0.07 anna 20 0.10 20<br>0.00 > ae 0 ee 0.00 ee 0<br>0 30 60 90 120 0 20 40 60 80<br>DC Current(A) DC Current(A)<br>BMMA00131364R47MV1 BMMA00131364R56MV1<br>0.70 100 0.80 100<br>Inductance(μH) Inductance(μH)<br>Temp Rise (°C) Temp Rise (°C)<br>0.56 A e 80 ee 0.64 80<br>0.42 60 0.48 60<br>0.280.14 Oe en ee| 4020 ee 0.320.16 eeAe/ 4020<br>0.00 >a 0 ee 0.00 ae 0<br>0 20 40 60 80 0 20 40 60 80<br>DC Current(A) DC Current(A)<br>BMMA00131364R68MV1 BMMA00131364R82MV1<br>1.00 100 1.20 100<br>Inductance(μH) Inductance(μH)<br>Temp Rise (°C) Temp Rise (°C)<br>0.80 ay  Ae 80 ee 0.96 e n 80<br>0.60 60 0.72 60<br>ey  Ae e yAeae<br>0.40 40 0.48 40<br>0.20 20 0.24 20<br>0.00 a 0 0.00 ee 0<br>0 20 40 60 80 0 10 20 30 40 50 60<br>DC Current(A) DC Current(A)<br>) )<br>℃ ℃<br>Rise( Rise(<br>Inductance(μH) Temp Inductance(μH) Temp<br>) )<br>℃ ℃<br>Rise( Rise(<br>Inductance(μH) Temp Inductance(μH) Temp<br>) )<br>℃ ℃<br>Rise( Rise(<br>Inductance(μH) Temp Inductance(μH) Temp<br>**----- End of picture text -----**<br>


**BMMA00131364 Series Specification** ~~ae~~ 

## ~~__|~~ 14 Graph 

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BMMA001313641R0MV1 BMMA001313641R5MV1<br>1.50 100 2.5 100<br>Inductance(μH) Inductance(μH)<br>Temp Rise (°C) Temp Rise (°C)<br>1.20 = 77) 80 2.0 &L y 80<br>0.90 60 1.5 60<br>0.60 O O| 40 1.0 a ee 40<br>0.30 an 20 0.5 ane 20<br>0.00 p> 0 0.0 0<br>0 10 20 30 40 50 60 0 10 20 30 40 50<br>DC Current(A) DC Current(A)<br>BMMA001313641R8MV1 BMMA001313642R2MV1<br>3.0 100 3.5 100<br>Inductance(μH) Inductance(μH)<br>Temp Rise (°C) Temp Rise (°C)<br>2.4 = |7.) 80 2.8 = . Yo 80<br>1.8 60 2.1 60<br>i ee ee e e ae<br>1.2 40 1.4 40<br>0.60.0 a> Wz 200 0.70.0 ae So 200<br>0 10 20 30 40 50 0 10 20 30 40 50<br>DC Current(A) DC Current(A)<br>BMMA001313643R3MV1 BMMA001313644R7MV1<br>5.0 100 7.0 100<br>Inductance(μH) Inductance(μH)<br>Temp Rise (°C) Temp Rise (°C)<br>4.03.0 eya Ane 8060 5.64.2 e yee 8060<br>2.0 a ) aeeee 40 ee 2.8 2 ee ee 40<br>1.0 20 1.4 20<br>Aeee ee Ae<br>0.0 ae 0 e 0.0 eae 0<br>0 10 20 30 40 0 8 16 24 32<br>DC Current(A) DC Current(A)<br>) )<br>℃ ℃<br>Rise( Rise(<br>Inductance(μH) Temp Inductance(μH) Temp<br>) )<br>℃ ℃<br>Rise(<br>Inductance(μH) Temp Rise( Inductance(μH) Temp<br>) )<br>℃ ℃<br>Rise(<br>Inductance(μH) Temp Rise( Inductance(μH) Temp<br>**----- End of picture text -----**<br>


## **BMMA00131364 Series Specification** ~~ee~~ 

## ~~__|~~ 14 Graph 

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BMMA001313645R6MV1 BMMA001313646R8MV1<br>8.0 100 10.0 100<br>Inductance(μH) Inductance(μH)<br>Temp Rise (°C) Temp Rise (°C)<br>6.4 = fo 80 8.0 S o OY 80<br>4.8 60 6.0 60<br>eee Ae ee e e<br>3.2 P| 40 4.0 A 40<br>1.6 P| |YEx || ft| To| 20 2.0 OYmaa 20<br>0.0 Bn 0 0.0 ees 0<br>0 5 10 15 20 25 30 35 0 5 10 15 20<br>DC Current(A) DC Current(A)<br>BMMA001313648R2MV1 BMMA00131364100MV1<br>12.0 100 15.0 100<br>Inductance(μH) Inductance(μH)<br>Temp Rise (°C) Temp Rise (°C)<br>9.67.2 Se eit a 8060 12.09.0 = eae 8060<br>ee ey A<br>4.8 40 6.0 40<br>2.4 20 3.0 20<br>0.0 eee 0 0.0 aa 0<br>0 5 10 15 20 0 5 10 15 20<br>DC Current(A) DC Current(A)<br>) )<br>℃ ℃<br>Inductance(μH) Temp Rise( Inductance(μH) Temp Rise(<br>) )<br>℃ ℃<br>Rise( Rise(<br>Inductance(μH) Temp Inductance(μH) Temp<br>**----- End of picture text -----**<br>