PA0229NLT - Pulse Engineering, Inc.

P522.B (5/05)

US 858 674 8100

••

UK 44 1483 401 700

••

France 33 3 84 35 04 04

••

Singapore 65 6287 8998

••

Taiwan 886 2 2698 0228

••

Hong Kong 852 2788 6588

••

http://www.pulseeng.com

SMT POWER INDUCTORS

Power Beads - Volta 1 & 2 Series

.010

0,25 2X.065

1,65

.125

3,18

MAX

.276

7,01MAX

.130

3,30

P1681

Date Code

Country of Origin

.255

6,48

MAX

SUGGESTED PAD LAYOUT

.280

7,11

.150

3,81

.100

2,54

.177

4,50

.010

0,25

2X.079

2,01

.110

2,80

P2004/P2005

PA0229

Date Code

Country of Origin

.350

8,89MAX

.250

6,35

MAX

SUGGESTED PAD LAYOUT

.350

8,89

.135

3,43

.150

3,81

.130

3,30MAX

.010

0,25 4X .065

1,65 2X .031

1,79

2X .020

0,51

.150

3,81

.296

7,52

2X .085

2,16

2X .065

1,65

.276

7,01MAX

.255

6,48MAX

PA0274

Date Code

Country of

Origin

.085

2,16

SUGGESTED PAD LAYOUT

2X .045

1,14

2X .040

1,02

2X .015

0,38

.135

3,43

.360

9,14

2X .099

2,51

2X .060

1,52

SUGGESTED PAD LAYOUT

.177

4,50MAX

.010

0,25 4X .079

2,01

.075

1,91

.350

8,89MAX

.250

6,35MAX

PA0277

Date Code

Country of Origin

2X .040

1,02

P1681

P2004

P2005

PA0229

PA0274

PA0277

Mechanicals

Volta 1 Volta 2

Weight.........0.464 grams ....0.945 grams

Tape & Reel .....1500/reel.........1000/reel

Height: 3.2mm and 4.5mm Max

Footprint: 7.0 x 6.4mm Max and 8.9 x 6.4mm Max

Current Rating: up to 16A

Inductance Range: 0.1µH to 0.6µH

Frequency Range: up to 2MHz

Inductance DCR Inductance Saturation Current 2Heating3Trise4

Core Loss Factor4

Part5, 6

@Irated Irated1

(mΩ)@0ADC (ADC)Current Factor

Number (nH ± 20%) (ADC)TYP MAX (nH ± 20%) 25°C 100°C (A) K0 K1 K2

VOLTA 1

P1681 95 15 0.31 0.39 100 18 16.2 15 1.0032 .00319 .07381

PA0274 475*6.0 1.60 1.8*700 7 4.8 12 1.4000 .00638 .24632

VOLTA 2

PA0229 92 16 0.68 0.80 100 36 30 16 2.2458 .00638 .03975

P2005 142.5 15 0.45 0.56 150 18 16.2 15 2.2458 .00638 .05961

P2004 190 15 0.45 0.56 200 16.8 15.1 15 2.2458 .00638 .07949

PA0277 600*10.7 2.3 2.53*700 12.6 8.0 10.7 2.0400 .01276 .13196

*DCR and Inductance rating for indicated parts is for both windings tied in series.

Electrical Specifications @ 25°C — Operating Temperature -40°C to +130°C

Volta 1 Volta 2

Schematic

Dimensions: Inches

Unless otherwise specified,

all tolerances are ± .010

0,25

.069

1,75

USER DIRECTION OF FEED

.630

± .012

16,00

± 0,30

.079

2,00

.157

4,00

.472

12,00

.270

6,86

.295

7,49

TAPE & REEL LAYOUT

.285

7,24

.012

0,30

.130

3,30.069

1,75

USER DIRECTION OF FEED

.630

± .012

16,00

± 0,30

.079

2,00

.157

4,00

.472

12,00

.265

6,73

.295

7,49

TAPE & REEL LAYOUT

.340

8,64

.012

0,30

.180

4,57

P522.B (5/05)

For More Information:

UNITED STATES

(Worldwide)

12220 World Trade Drive

San Diego, CA 92128

U.S.A.

http://www.pulseeng.com

TEL: 858 674 8100

FAX: 858 674 8262

UNITED KINGDOM

(Northern Europe)

3 Huxley Road

Surrey Research Park

Guildford, Surrey GU2 5RE

United Kingdom

TEL: 44 1483 401700

FAX: 44 1483 401701

FRANCE

(Southern Europe)

Zone Industrielle

F-39270

Orgelet

France

TEL: 33 3 84 35 04 04

FAX: 33 3 84 25 46 41

TAIWAN, R.O.C.

(Northern Asia)

3F-4, No. 81, Sec. 1

HsinTai Wu Road

Hsi-Chih, Taipei Hsien

Taiwan, R.O.C.

Tel: 886 2 2698 0228

FAX: 886 2 2698 0948

SINGAPORE

(Southern Asia)

150 Kampong Ampat

#07-01/02

KA Centre

Singapore 368324

TEL: 65 6287 8998

FAX: 65 6280 0080

HONG KONG

(China/Hong Kong)

Unit 11, 11/F

Wah Lai Industrial Centre

10-14 Kwei Tei Street,

Fotan, Shatin, Hong Kong

TEL: 852 2788 6588

FAX: 852 2776 1055

DISTRIBUTOR

Performance warranty of products offered on this data sheet is limited to the parameters specified. Data is subject to change without notice. Other brand and product

names mentioned herein may be trademarks or registered trademarks of their respective owners.

SMT POWER INDUCTORS

Power Beads - Volta 1 & 2 Series

Notes from Tables

1. The rated current as listed is either the saturation current or the

heating current depending on which value is lower.

2. The saturation current is the current which causes the

inductance to drop by 10% at the stated ambient temperatures

(-40°C, 25°C, 125°C). This current is determined by placing the

component in the specified ambient environment and applying

a short duration pulse current (to eliminate self-heating effects)

to the component.

3. The heating current is the DC current which causes the temper-

ature of the part to increase by approximately 30°C. This

current is determined by mounting the component on a PCB

with .25" wide, 3 oz. equivalent copper traces, and applying the

current to the device for 30 minutes.

4. In high volt*time applications, additional heating in the

component can occur due to core losses in the inductor

which may neccessitate derating the current in order to limit

the temperature rise of the component. In order to determine

the approximate total losses (or temperature rise) for a given

application both copper losses and core losses should be taken

into account.

5. Optional Tape & Reel packaging can be ordered by adding a

“T” suffix to the part number, (i.e. PA0274T).

6. To order RoHS compliant part, add the suffix "NL" to the part

number (i.e. PA0274 becomes PA0274NL and PA0274T

becomes PA0274NLT).

Estimated Temperature Rise:

Trise = Coreloss (mW) + Copper Loss (mW)

.833

(°C)

Coreloss = K1 * (Fsw(kHz))1.6688 * (K2 * dI)2.17 (mW)

Copper Loss = Irms2* DCR(m

) (mW)

Irms = IDC2+ dI 2½

(Arms)

Fsw(kHz) = switching frequency (kHz)

dI = delta I across the component (A)

The temperature of the component (ambient temperature +

temperature rise) should be within the listed operating

temperature range.

0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8

Normalized I

Percentage of Initial Inductance

P2 P3

100

120 P1

P1 - Initial Inductance, Lo (.1V

RMS

, 1MHz, 0A

, 25

P2 - Inductance (typically 95% L

) at Rated I

P3 - Inductance (typically 90% L

) at I

.Normalized Inductance

Inductance vs Current Characteristics

P1681, P2005, P2004

PA0277 Inductance vs. DC Current at 25°C

100

120

0 2.5 5 7.5 10 12.5 15 17.5 20

Current (ADC)

Percent of Initial Inductance

(%)

PA0274 Inductance vs. DC Current at 25°C

100

120

024681012

Current (ADC)

Percent of Initial Inductance

(%)

Current (ADC)

Percent of Initial Inductance

(%)

0 5 10 15 20 25 30 35 40 45

100

120

100

PA0229 Inductance vs. DC Current at 25°C