JW075C1 Lineage Power, JW075C1 Datasheet
JW075C1
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JW075C1 Summary of contents
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Data Sheet April 2008 JW050C, JW075C, JW100C, JW150C Power Modules: dc-dc Converters Vdc Input, 15 Vdc Output 150 W The JW050C, JW075C, JW100C, and JW150C Power Modules use advanced, surface-mount technology and deliver high- ...
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... I, max I — — I, max I — — I, max I — — I, max — — I — — — 60 April 2008 Max Unit 75 Vdc 80 Vdc 100 V 1500 Vdc 100 °C 125 °C Max Unit 75 Vdc 1.7 A 2.6 A 3 — mAp-p — dB Lineage Power ...
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... O Load Change from I = 50 Peak Deviation Settling Time (V < 10% of peak deviation Consult your sales representative or the factory. † These are manufacturing test limits. In some situations, results may differ. Lineage Power (continued) Device Symbol All V O, set All V All All ...
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... V 0 — 1.2 on/off I — — 1.0 on/off V — — 15 on/off I — — 50 on/off — — — — — 0.5 — 50 — 103 V 16.5* — 20.0* O, clamp T — 105 — C Lineage Power Unit pF M¾ Unit hr. g (oz.) Unit µ nom V °C ...
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... INPUT VOLTAGE, V Figure 1. Typical JW050C Input Characteristics at Room Temperature 3.0 2.5 2.0 1.5 1.0 0.5 0 INPUT VOLTAGE, V Figure 2. Typical JW075C Input Characteristics at Room Temperature Lineage Power 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 (V) I 8-1429 (C) Figure 3. Typical JW100C Input Characteristics at ...
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... OUTPUT CURRENT, I Figure 6. Typical JW075C Output Characteristics at Room Temperature 2.5 3.0 3.5 4.0 (A) O 8-1433 (C) Figure 7. Typical JW100C Output Characteristics (A) O 8-1434 (C) Figure 8. Typical JW150C Output Characteristics April 2008 OUTPUT CURRENT Room Temperature OUTPUT CURRENT Room Temperature Lineage Power 8 9 8-1435 ( 8-1436 (C) ...
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... OUTPUT CURRENT, I Figure 9. Typical JW050C Converter Efficiency vs. Output Current at Room Temperature 0.0 0.5 1.0 1.5 2.0 2.5 OUTPUT CURRENT, I Figure 10. Typical JW075C Converter Efficiency vs. Output Current at Room Temperature Lineage Power 2.5 2.8 3.1 3.4 0 (A) O 8-1437 (C) Figure 11. Typical JW100C Converter Efficiency vs. ...
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... Note: Tested with a 10 µF aluminum and a 1.0 µF ceramic capacitor across the load. Figure 16. Typical Start-Up from Remote On/Off April 2008 TIME, t (50 µs/div) Step Increase in Load from 50% to 75% of Full Load at Room Temperature and 48 V Input (Waveform Averaged to Eliminate Ripple Component.) TIME ms/div) JW150C1 max Lineage Power 8-2012 (C) 8-1266 (C).b ...
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... V (+) – V (– Figure 19. Output Voltage and Efficiency Measurement Test Setup Lineage Power Design Considerations Input Source Impedance The power module should be connected to a low ac-impedance input source. Highly inductive source impedances can affect the stability of the power mod ule. For the test configuration in Figure 17 µF electrolytic capacitor (ESR < ...
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... Figure 21. Effective Circuit Configuration for (+) O LOAD (–) O 8-720 (C).c April 2008 (–)] – [SENSE(+) – SENSE(–)] ð 0 (+) and V (–) terminals O O (–) at the module. O SENSE(+) SENSE(–) V (+) V (+) (–) V (– CONTACT AND DISTRIBUTION LOSSES Single-Module Remote-Sense Operation Lineage Power LOAD 8-651 (C).m ...
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... V. This limit includes any increase in voltage due to remote-sense compensation and output voltage set-point adjustment (trim). See Fig- ure 21. Lineage Power Although the output voltage can be increased by both the remote sense and by the trim, the maximum increase for the output voltage is not the sum of both. ...
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... The output power of the module should not exceed the rated power for the module as listed in the Ordering Information table. April 2008 MEASURE CASE 38.0 (1.50) TEMPERATURE HERE V (+) V (+) SEN ON/OFF TRIM CASE – SEN V (–) V (– Location Lineage Power ) C 8-716 (C).f ...
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... Solution Given 6 °C A Determine P (Use Figure 30.): Determine airflow (v) (Use Figure 27.): v = 1.3 m/s (260 ft./min.) Lineage Power 0.1 m/s (NAT. CONV.) (20 ft./min LOCAL AMBIENT TEMPERATURE, T Figure 27. Forced Convection Power Derating with No Heat Sink; Either Orientation ...
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... Figure 32. These curves were obtained by experimental testing of heat sinks, which are offered in the product catalog. April 2008 OUTPUT CURRENT, I (A) O Output Current ) divided by the C, max ): ΔT – C max , -------------------- - = ----------------------- - Lineage Power 9 10 8-1444 ( ...
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... ° °C C Heat sink = 1/2 in. Determine P by using Figure 30 Lineage Power Then solve the following equation: (continued) (continued) θ ca θ 1/2 IN. HEAT SINK θ 1 IN. HEAT SINK ca 1/2 IN. HEAT SINK 1/4 IN. HEAT SINK Use Figure 32 to determine air velocity for the 1/2 inch NO HEAT SINK heat sink ...
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... For assistance with designing for EMC compliance, please refer to the FLTR100V10 data sheet (DS98-152EPS). Layout Considerations Copper paths must not be routed beneath the power module mounting inserts. For additional layout guide- lines, refer to the FLTR100V10 data sheet (DS98-152EPS). April 2008 Lineage Power ...
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... Side label includes Lineage name, product designation, safety agency markings, input/output voltage and current ratings, and bar code. Lineage Power 57.9 (2.28) MAX 61.0 (2.40) MAX SIDE LABEL* 1.02 (0.040) DIA SOLDER-PLATED BRASS, 7 PLACES 12 ...
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... Positive 100 W Positive 150 W Positive April 2008 35.56 (1.400) 25.40 (1.000) 61.0 17.78 (2.40) 10.16 (0.700) MAX (0.400) MOUNTING INSERTS Device Comcode Code JW050C1 107314726 JW075C1 107709669 JW100C1 107314734 JW150C1 107250458 JW050C 107309668 JW075C JW100C 107361438 JW150C 107309817 Lineage Power 8-1945 (C).a ...
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... Dimensions are in millimeters and (inches). 1/4 IN. 1/2 IN. 1 IN. 61 (2.4) 1 1/2 IN. 57.9 (2.28) Figure 34. Longitudinal Heat Sink Lineage Power 61 (2.4) D000-c.cvs Figure 35. Transverse Heat Sink Comcode 407243989 407243997 407244706 407244714 407244722 407244730 ...
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... Lineage Power reserves the right to m ake changes to the produc t(s) or information contained herein without notice. No liability is ass umed as a res ult of their use or applic ation. No rights under any patent acc ompany the sale of any oduct information. ...