DC025ABK-M Lineage Power, DC025ABK-M Datasheet

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... Min V — I — — — — T – – 55 stg Symbol Min Typ — — I, max — — — — 30 — — 60 April 2009 Max Unit 50 V 500 V 850 V 100 °C 125 °C Max Unit 36 Vdc 3 0 — mAp-p — dB Lineage Power ...

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... O, min All V O1 All O2, All O2, DC025ABK O2, DC025ACL O2, DC025ABK O2, DC025ACL O2, DC025ABK O2, DC025ACL O2, DC025ABK-M DC025ACL-M 18 Vdc to 36 Vdc Input Min Typ Max 4.80 — 5.20 10.80 — 13.70 –10.80 — –13.70 4.80 — 5.20 13.77 — 17.20 — –17.20 –13.77 4.90 5.00 5 ...

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... All — Min ; °C) C — April 2009 Min Typ Max — 80 — — 1 — — 80 — — 0.5 — Min Typ Max — 0.02 — 10 — — Typ Max 2,906,000 — 113 (4.0) Lineage Power Unit Unit µF M Unit hours g (oz.) ...

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... Output Overvoltage Clamp Output Voltage Set-point Adjustment Range 5 DC025 Triple Output-Series Power Modules: Device Symbol (–) terminal. I All All All All All All All DC025ABK-M DC025ACL-M All 18 Vdc to 36 Vdc Input Min Typ Max I — — 1.0 on/off V 0 — 1.2 ...

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... Figure 4. DC025 Triple Output-Series Typical April 2009 – CASE TEM PERATURE, T (°C) Output Voltage Variation Output Over Ambient Temperature Range – CASE TEM PERATURE, T (°C) Output Voltage Variation Output Over Ambient Temperature Range Lineage Power 80 100 8-1079(C) 80 100 8-1080(C) ...

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... 11.5 11.0 0.0 0.5 1.0 1.5 2 OUTPUT CURRENT, I Figure 6. DC025ABK-M Typical Cross Regulation with Respect Note: Given the same load conditions, Output 3 has regulation characteristics similar to Output 2, except the polarity is negative. Lineage Power 16. 3 15 14. 8 14 0 ...

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... Vdc to 36 Vdc Input Characteristic Curves (continued Figure 9. DC025ABK-M Typical 5 V Output Characteristics 2 0 0.0 0.5 Figure 10. DC025ABK-M Typical 12 V Output Characteristics 5.0 4.5 4.0 3 1.5 1.0 0.5 0 Figure 11. DC025ACL-M Typical 5 V Output Characteristics 0 OUTPUT CURRENT 1.0 1.5 2 ...

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... 0.0 0.5 Figure 12. DC025ACL-M Typical 15 V Output Characteristics PERCEN T OF FULL LO AD (%) Note: Loads varied proportionately from minimum to 50% of full load. Figure 13. DC025ABK-M Typical Converter Efficiency Lineage Power OUTP UT CU RRENT 100 120 0 8-1089(C) Note: Loads varied proportionately from minimum to 50% of full load ...

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... Note: Input reflected-ripple current is measured with a simulated source impedance (L TEST sible battery impedance. Current is measured at the input of the module. Figure 18. Input Reflected-Ripple Test Setup 8-1099(C) April 2009 TIME ms/div) 8-1100(C) L TEST V (+) I 12 µH V (–) I 8-489(C). µH. Capacitor C offsets pos- S Lineage Power ...

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... V – – Figure 20. Triple Output Voltage and Efficiency Measurement Test Setup Lineage Power DC025 Triple Output-Series Power Modules: Design Considerations Input Source Impedance The power module should be connected to a low ac-impedance input source. Highly inductive source im- R SCOPE pedances can affect the stability of the power module µ ...

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... V Figure 21. Remote On/Off Implementation ) O, adj k   16.94  adj  April 2009 (–) terminal (V ). The switch I on/off = 1.2 V. The maximum I on/off generated by on/off = µA. on/off V (+) I V (–) I – V on/off + REMOTE ON/OFF I on/off Lineage Power on/off 8-758(C).a ...

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... Heat dissipating components inside the module are thermally coupled to the case to enable heat removal by conduction, con- vection, and radiation to the surrounding environment. Lineage Power MEASURE CASE TEMPERATURE AT 27.9 THIS POINT (1.1) 27 ...

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... Use the estimated total power dissipated (P along with Figure 28 to determine the maximum ambient temperature allowable for a given air velocity. For example, consider the DC025ABK power module operating with 27 V input and output currents The total output power (P total) is 24.5 W. The total ...

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... April 2009 Thermal Considerations Air Velocity (continued) 6.0 5.5 5.0 4 4.0 3 3.0 2 2.0 1.5 1 UTPUT PO WER, P Figure 23. DC025ABK-M Fixed Losses, P 6.0 5.5 5 3.5 3.0 2 2.0 1.5 1 UTPUT PO WER, P Figure 24. DC025ACL-M Fixed Losses, P Lineage Power DC025 Triple Output-Series Power Modules: (continued) 1 ...

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... V ELOCITY , ms (ft./min.) Air Velocity Ts • the power dissipated by the module, is the sink-to-ambient SA = 0.1 °C/W to 0.3 °C/W is typical calculated from the following equa- SA – ---------------- - – total D Lineage Power 1.7 8 2.03 (350 .0) (400.0) 8-1101( ...

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... Dimensions are in millimeters and (inches). Copper paths must not be routed beneath the power module standoffs. Tolerances: x.x ± 0.5 mm (0.02 in.), x.xx ± 0.25 mm (0.010 in.). Top View PIN 1 INDICATOR Side View Bottom View Lineage Power 71.1 (2 .80) MAX 61.0 (2.40) M3 MAX DC-DC Power Modul e MADE IN CHINA 0 ...

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... CAS E OUTLINE M3 x 0.5 CLE ARA NCE HOLE 4 PLACE S (O PTIO NAL 48.3 (1.90) 63.50 ± 0 .38 (2.500 ± 0.01 5) 71.1 (2.80) MAX April 2009 20.32 (0.800) 10.16 (0.400 (2.00 ) 10.16 (0.400 ) 20.32 (0.800 ) 5.1 (0 .20) 8-846(C) Lineage Power ...

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