TDK Belleta iEA Series Datasheet Download | Manualshive

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Data Sheet: Belleta

®

iEA Series –Single Output Eighth Brick

©2004 TDK Innoveta® Inc.
iEAFullDatasheet 032707 3/29/2007 Revision 2.0

℡

(877) 498-0099

9/41

Thermal Performance:

iEA48007A120V-000 through -015: 12V, 6.5A Output

iEA48007A120V-000 maximum output current vs. ambient
temperature at nominal input voltage for airflow rates natural
convection (60lfm) to 600lfm with airflow from pin 3 to pin 1.

iEA48007A120V-000 maximum output current vs.ambient

temperature at nominal input voltage for airflow rates natural
convection (60lfm) to 600lfm with airflow from pin 1 to pin 3.

iEA48007A120V-000 thermal measurement location –
top view

Both the thermal curves provided and the example given above are based upon measurements made in TDK Innoveta’s
experimental test setup that is described in the Thermal Management section.  Due to the large number of variables in
system design, TDK Innoveta recommends that the user verify the module’s thermal performance in the end application.
The critical component should be thermo coupled and monitored, and should not exceed the temperature limit specified in
the derating curve above.  It is critical that the thermocouple be mounted in a manner that gives direct thermal contact or
significant measurement errors may result.  TDK Innoveta can provide modules with a thermocouple pre-mounted to the
critical component for system verification tests.

Thermal measurement

location on PWB Cu

Best orientation

airflow

0

1

2

3

4

5

6

7

25

45

65

85

105

125

T emp er at ur e ( o C )

NC

0.5 m/ s ( 100 LFM)

1.0 m/ s (200 LFM)

2.0 m/ s ( 400 LFM)

3.0 m/ s ( 600 LFM)

Tc, Thermal Limit

0

1

2

3

4

5

6

7

25

45

65

85

105

125

Temperature (oC)

O

u

tp

u

t

C

u

rr

e

n

t

(A

)

NC

0.5 m/s (100 LFM)

1.0 m/s (200 LFM)

2.0 m/s (400 LFM)

3.0 m/s (600 LFM)

Tc, Thermal Limit

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Summary of Contents for Belleta iEA Series

Page 1: ...vironments Standard Features Size 58 4mm x 22 9 mm x 8 8 mm 2 3 in x 0 9 in x 0 347 in Thru hole pins 3 68 mm 0 145 High efficiency greater than 89 1500Vdc isolation voltage Meets basic insulation spa...

Page 2: ...t Positive Logic On Off Negative Logic On Off 0 110 Pin Length 0 200 Pin Length 0 145 Pin Length Latching OVP 00 X X 01 X X 02 X X 03 X X 04 X X 05 X X 11 X X X 15 X X X Product Offering Code Input Vo...

Page 3: ...wise specified tolerances are x x 0 5 0 02 x xx and x xxx 0 25 0 010 1 02 0 040 DIA Pin 2 03 0 080 DIA Stand Offs 6 Pins 1 57 0 062 DIA Pin 2 59 0 102 DIA Stand Offs 2 Pins Recommended Hole Pattern to...

Page 4: ...Time from on off 35 mS Vo 0 to 0 1 Vo nom Vin Vi nom Io Io max Tc 25 C Output Voltage Rise Time 50 mS Io Io max Tc 25 C Vo 0 1 to 0 9 Vo nom Inrush Transient 0 2 A2 s Input Reflected Ripple 15 mApp S...

Page 5: ...egulate the output voltage but the output ripple may increase Output Current Limiting Threshold 8 5 A Vo 0 9 Vo nom Tc Tc max Short Circuit Current 12 A Vo 0 25V Tc 25 C 80 200 mVpp Output Ripple and...

Page 6: ...pical Efficiency vs Input Voltage at Ta 85 degrees iEA48007A120V 000 Typical Power Dissipation vs Input Voltage at Ta 85 degrees 70 75 80 85 90 95 0 0 7 1 4 2 1 2 8 3 5 4 2 4 9 5 6 6 3 7 Output Curren...

Page 7: ...utput voltage response to load step from 50 to 75 of full load with output current slew rate of 0 1A uS iEA48007A120V 000 Typical Output voltage response to load step from 50 to 75 of full load with o...

Page 8: ...put Ripple at nominal input voltage and full load at Ta 25 degrees iEA48007A120V 000 Typical Input Current vs Input Voltage Characteristics iEA48007A120V 000 Typical Output Voltage vs Input Voltage Ch...

Page 9: ...s described in the Thermal Management section Due to the large number of variables in system design TDK Innoveta recommends that the user verify the module s thermal performance in the end application...

Page 10: ...the output voltage but the output ripple may increase Output Current Limiting Threshold 20 A Vo 0 9 Vo nom Tc Tc max Short Circuit Current 14 A Vo 0 25V Tc 25 C 55 125 mVpp Output Ripple and Noise Vol...

Page 11: ...al Efficiency vs Input Voltage at Ta 85 degrees iEA48015A050V 000 Typical Power Dissipation vs Input Voltage at Ta 85 degrees 70 75 80 85 90 95 1 2 4 3 8 5 2 6 6 8 9 4 10 8 12 2 13 6 15 Output Current...

Page 12: ...Output voltage response to load step from 50 to 75 of full load with output current slew rate of 0 1A uS iEA48015A050V 000 Typical Output voltage response to load step from 50 to 75 of full load with...

Page 13: ...at nominal input voltage and full load at Ta 25 degrees iEA48015A050V 000 Typical Input Current vs Input Voltage Characteristics iEA48015A050V 000 Typical Output Voltage vs Input Voltage Characterist...

Page 14: ...rmal Management section Due to the large number of variables in system design TDK Innoveta recommends that the user verify the module s thermal performance in the end application The critical componen...

Page 15: ...old 29 A Vo 0 9 Vo nom Tc Tc max Short Circuit Current 20 A Vo 0 25V Tc 25 C 35 100 mVpp Output Ripple and Noise Voltage 11 mVrms Measured across one 1 0 uF ceramic capacitor and a 10uF tantalum capac...

Page 16: ...ciency vs Input Voltage at Ta 85 degrees iEA48020A033V 000 Typical Power Dissipation vs Input Voltage at Ta 85 degrees 70 75 80 85 90 95 1 2 9 4 8 6 7 8 6 10 5 12 4 14 3 16 2 18 1 20 Output Current A...

Page 17: ...Typical output voltage response to load step from 50 to 75 of full load with output current slew rate of 0 1A uS iEA48020A033V 000 Typical output voltage response to load step from 50 to 75 of full lo...

Page 18: ...le at nominal input voltage and full load at Ta 25 degrees iEA48020A033V 000 Typical Input Current vs Input Voltage Characteristics iEA48020A033V 000 Typical Output Voltage vs Input Voltage Characteri...

Page 19: ...ermal Management section Due to the large number of variables in system design TDK Innoveta recommends that the user verify the module s thermal performance in the end application The critical compone...

Page 20: ...te the output voltage but the output ripple may increase Output Current Limiting Threshold 31 A Vo 0 9 Vo nom Tc Tc max Short Circuit Current 20 A Vo 0 25V Tc 25 C 35 100 mVpp Output Ripple and Noise...

Page 21: ...1 output voltage iEA48025A025V 000 Typical startup characteristic from input voltage application at full load Ch3 input voltage Ch 1 output voltage iEA48025A025V 000 Typical Output Current Limit Chara...

Page 22: ...oltage vs Input Voltage Characteristics Change of Vout Trim Down Resistor Kohm Change of Vout Trim Up Resistor Kohm 5 91 8K 5 106K 10 40 8K 10 53 3K e g trim up 5 Rup 5 1 2 5 100 5 1 225 5 510 5 10 2...

Page 23: ...hermal Management section Due to the large number of variables in system design TDK Innoveta recommends that the user verify the module s thermal performance in the end application The critical compon...

Page 24: ...e the output voltage but the output ripple may increase Output Current Limiting Threshold 35 A Vo 0 9 Vo nom Tc Tc max Short Circuit Current 20 A Vo 0 25V Tc 25 C 35 100 mVpp Output Ripple and Noise V...

Page 25: ...full load Ch1 on off signal Ch 4 output voltage iEA48025A018V 000 Typical startup characteristic from input voltage application at full load Ch1 input voltage Ch 4 output voltage iEA48025A018V 000 Typ...

Page 26: ...istics iEA48025A018V 000 Typical Output Voltage vs Input Voltage Characteristics Change of Vout Trim Down Resistor Kohm Change of Vout Trim Up Resistor Kohm 5 91 8K 5 45 2K 10 40 8K 10 21 2K e g trim...

Page 27: ...nagement section Due to the large number of variables in system design TDK Innoveta recommends that the user verify the module s thermal performance in the end application The critical component shoul...

Page 28: ...te the output voltage but the output ripple may increase Output Current Limiting Threshold 35 A Vo 0 9 Vo nom Tc Tc max Short Circuit Current 20 A Vo 0 25V Tc 25 C 30 100 mVpp Output Ripple and Noise...

Page 29: ...at full load Ch3 on off signal Ch 1 output voltage iEA48025A015V 000 Typical startup characteristic from input voltage application at full load Ch3 input voltage Ch 1 output voltage iEA48025A015V 000...

Page 30: ...EA48025A015V 000 Typical Output Voltage vs Input Voltage Characteristics Change of Vout Trim Down Resistor Kohm Change of Vout Trim Up Resistor Kohm 5 91 8K 5 18 9K 10 40 8K 10 7 5K e g trim up 5 Rup...

Page 31: ...rmal Management section Due to the large number of variables in system design TDK Innoveta recommends that the user verify the module s thermal performance in the end application The critical componen...

Page 32: ...ate the output voltage but the output ripple may increase Output Current Limiting Threshold 33 A Vo 0 9 Vo nom Tc Tc max Short Circuit Current 20 A Vo 0 25V Tc 25 C 45 100 mVpp Output Ripple and Noise...

Page 33: ...Ch1 on off signal Ch3 output voltage iEA48025A012V 000 Typical startup characteristic from input voltage application at full load Ch1 input voltage Ch3 output voltage iEA48025A012V 000 Typical transi...

Page 34: ...put Voltage Characteristics iEA48025A012V 000 Typical Output Voltage vs Input Voltage Characteristics Change of Vout Trim Down Resistor Kohm Change of Vout Trim Up Resistor Kohm 5 18K 5 20K 10 8K 10 1...

Page 35: ...rmal Management section Due to the large number of variables in system design TDK Innoveta recommends that the user verify the module s thermal performance in the end application The critical componen...

Page 36: ...tered in most modern electronic systems with distributed power architectures The electronic equipment in networking telecom wireless and advanced computer systems operates in similar environments and...

Page 37: ...age protection circuitry will cause the power module to enter a hiccup over voltage mode once it detects that the output voltage has reached the level indicated on the Electrical Data section for the...

Page 38: ...according to the following equation For all outputs except 1 2V Rdown 510 Vo 10 2 1000 For 1 2V output only Rdown 100 Vo 2 1000 The current limit set point does not increase as the module is trimmed...

Page 39: ...DK Innoveta power modules are designed for use in a wide variety of systems and applications For assistance with designing for EMC compliance please contact TDK Innoveta technical support Input Impeda...

Page 40: ...age and clearance distances when routing traces near the power module As part of the production process the power modules are hi pot tested from primary and secondary at a test voltage of 1500Vdc To p...

Page 41: ...e No license is granted by implication or otherwise under any patent or patent rights of TDK Innoveta TDK Innoveta components are not designed to be used in applications such as life support systems w...

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