ETC PA0373

100W SMT PLANAR
TRANSFORMER AND INDUCTOR
For use with Texas Instrument’s UCC3580®
PLANAR TRANSFORMER – PA0369
!
NEW
Power Rating: 100W (48v to 3.3v/30A)
Height: 8.4mm Max
Footprint: 23.4mm x 20.1mm Max
PLANAR INDUCTOR – PA0373
Energy Storage: up to 900µJ (2.0µH/30Adc)
Height: 7.4mm Max
Footprint: 23.4mm x 20.1mm Max
Electrical Specifications @ 25°C — Operating Temperature -40°C to 125°C
Part
Number
Power
Rating 2
Turns Ratio
(Pri:Sec)
Primary
Secondary
Isolation
Primary
Inductance
(µH MIN)
Leakage
Inductance
(µH MAX)
Primary
(mΩ MAX)
PA0369
100 W (3.3v/30A)
6:1
1500 Vdc Basic
65
.25
15
DCR
Secondary
(mΩ MAX)
0.4
Electrical Specifications @ 25°C — Operating Temperature -40°C to 125°C
Part
Number
Inductance
@Irated (7-11)
(µH ±10%)
Irated 3
(ADC)
Turns Ratio
(Main Winding
to Aux.)
PA0373
2.0
30
1:4
DCR (mΩ MAX)
Main Winding
Aux. Winding
(7-11)
(1-6)
2.1
Saturation Current 4
(A)
Inductance
@ 0 ADC
(µH ±10%)
2800
2.1
Mechanicals
@ 25°C
@ 100°C
Heating
Current 5
(A)
44
35.2
34
Schematics
PA0369
SUGGESTED PAD LAYOUT
2
PA0369
4
Date Code
Country of Origin
6T (PRI)
1T (SEC)
9
8
PA0373
SUGGESTED PAD LAYOUT
1
16T (AUX)
6
PA0373
Date Code
Country of Origin
4T (IND)
11
7
PA0369
PA0373
Weight ..................11.0 grams ..................11.0 grams
Tape & Reel...............180/reel .......................250/reel
Tray .............................40/tray.........................90/tray
Dimensions: Inches
mm
Unless otherwise specified, all tolerances are ± .010
0,25
US 619 674 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
P571.B (12/02)
100W SMT PLANAR
TRANSFORMER AND INDUCTOR
For use with Texas Instrument’s UCC3580®
Notes from Tables
For P0373: Planar Inductor
3. The rated current as listed is either 85% of the saturation current or the heating current depending on which value is lower.
1. The PA0369 transformer and PA0373 inductor were designed
for use with Texas Instrument's UCC3580® IC and form the
foundation of a low cost, discrete component alternative to telecom power modules. The PA0369 transformer and PA0373
inductor were designed for (but not limited to) the following
applications:
Topology: Single switch Forward
Frequency: 300kHz
Pri./Sec. Isolation: Basic Insulation (1500Vdc)
Input Voltage: 36-75v telecom input
Output Voltage: 3.3v / 30A output
4. The saturation current is the current which causes the inductance to drop by 15% at the stated ambient temperatures
(25°C, 100°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.
5. The heating current is the dc current which causes the temperature of the part to increase by approximately 45°C. This current is determined by mounting the component on a PCB with a
.25" wide, 2oz. Equivalent copper traces, and applying the current to the device for 30 minutes with no force air cooling.
For PA0369: Basic Insulated Planar Transformer:
2. To determine if the transformer is suitable for your application, it
is necessary to ensure that the temperature rise of the component (ambieint plus temp. rise) does not exceed its operating
temperature.To determine the temperature rise of the component it is necessary to calculate the total power losses (core
and copper) in the application.
6. 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 an core losses should be taken into account
Total Copper Losses (Pcu total(W)):
Pcu total(W) = sum of the losses in each winding
The losses in each winding can be calculated by:
Pcu(W) = .001* DCR(mΩ) * (Irms2)
Core Losses (Pcore(W))
To calculate core loss, use the following formula:
CoreLoss (W) = 1.92 * 10-13 (∆B)2.5 * (Freq kHz)1.8
where:
∆B = 22653.1 * Vin min * Dutycycle max / Freq kHz
Total Losses:
P total = Pcu total + CoreLoss
Temperature Rise:
The approximate temperature rise can be found by looking
up the calculated total losses in the temperature rise vs.
power dissipation curve.
Inductor Voltage vs. Core Loss
20
15
10
5
0
0.1
0.2
0.3
0.4
Core Loss (W)
0.5
0.6
0.7
2.0
1.5
1.0
0.5
0.0
0
10
20
30
25C
100C
Current (A)
40
Temperature Rise vs.
Power (W) Dissipation
120
Temperature Rise
2.5
Inductance (uH)
Inductor Voltage
7. UCC3580® is a registered trademark of Texas Instruments.
PA0373 Inductance vs Current
25
0
Total Copper Losses (Pcu_total(W)):
Pcu(W)= .001* DCR(mΩ) * (Irms2)
where:
Irms = (Idc2 + (∆1/2)2).5
∆1 = ripple current through inductor
Core Losses (Pcore(W)):
Use the Inductor Voltage versus CoreLoss table to
determine the approximate core losses
Total Losses:
P total = Pcu total + CoreLoss
Temperature Rise:
The approximate temperature rise can be found by looking
up the calculated total losses in the temperature rise vs.
power dissipation curve.
50
100
80
60
40
20
0
0
1
2
3
4
5
6
Total Power (W) Dissipation
For More Information :
UNITED STATES
(Worldwide)
UNITED KINGDOM
(Northern Europe)
FRANCE
(Southern Europe)
SINGAPORE
(Southern Asia)
TAIWAN, R.O.C.
(Northern Asia)
HONG KONG
(China/Hong Kong)
12220 World Trade Drive
San Diego, CA 92128
U.S.A.
http://www.pulseeng.com
TEL: 858 674 8100
FAX: 858 674 8262
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The Surrey Research Park
Guildford, Surrey GU2 5RE
United Kingdom
TEL: 44 1483 401700
FAX: 44 1483 401701
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F-39270
Orgelet
France
TEL: 33 3 84 35 04 04
FAX: 33 3 84 25 46 41
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#07-01/02
KA Centre
Singapore 368324
TEL: 65 6287 8998
FAX: 65 6280 0080
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
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1008 Tai Nan West Street
Cheung Sha Wan, Kowloon
Hong Kong, China
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.
Printed on recycled paper. ©2002, Pulse Engineering, Inc.
P571.B (12/02)
7