VHB50W-Q24-S5 CUI Inc, VHB50W-Q24-S5 Datasheet
VHB50W-Q24-S5
Specifications of VHB50W-Q24-S5
Related parts for VHB50W-Q24-S5
VHB50W-Q24-S5 Summary of contents
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... Additionally, high efficiency, fast response, tight regulations, remote sense and remote On/Off control make these converters very useful in many applications. MODEL VHB50W-Q24-S3R3 VHB50W-Q24-S5 VHB50W-Q24-S12 VHB50W-Q24-S15 VHB50W-Q24-S24 VHB50W-Q24-S28 VHB50W-Q24-S48 VHB50W-Q48-S3R3 VHB50W-Q48-S5 VHB50W-Q48-S12 ...
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... PART NUMBER: VHB50W OUTPUT parameter conditions/description voltage accuracy transient response 25% step load change external trim adj. range ripple & noise (20MHz BW) 3.3V, 5V 12V& 15V 24V 28V 48V temperature coefficient short circuit protection continuous 5 line regulation 6 load regulation over voltage protection trip range nom. ...
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... PART NUMBER: VHB50W MECHANICAL DRAWING th 20050 SW 112 Ave. Tualatin, Oregon 97062 DESCRIPTION: half-brick dc-dc converter phone phone 503.612.2300 fax fax 503.612.2382 page date 06/2009 ...
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... APPLICATION NOTES 1. OUTPUT DE-RATING The operating case temperature range for VHB50W is -40 ~ +100°C. When operating the VHB50W series, proper derating or cooling is needed. The maximum case temperature under any operating condition should not exceed 100°C. Power Dissipated vs Ambient Temperature and Air Flo w Ambient Temperature ,Ta(Deg ...
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... The fuse rating will depend on the input range and should allow for the maximum current at the lowest input volt- age, as shown in this equation: Ipeak = 150%*Pout/(η η *Vmin). In the previous example of VHB50W-Q24-S5, the peak input current at 9V was calculated to be 10. fuse may be suitable for this application. Make sure the fuse voltage rating is higher than the maximum input voltage. ...
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... R load R trim- nom ) (KΩ) R trim-down o, nom is the Where: R o,nom nominal output voltage. V Table 2. For example, to trim-up the output voltage of 5.0V is calculated module (VHB50W-Q48-S5 4.6V, R trim-up = 11.2 (KΩ) Ω Ω 7.2 3.3 4.636 7.191 Table 2 6.977 173.7 13.3 phone phone 503.612.2300 fax 10KΩ ...
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... PART NUMBER: VHB50W 8. OUTPUT OCP AND SHORT-CIRCUIT PROTECTION Output overload and short circuit conditional will cause the output voltage to decline or shutdown altogether. is not over 100°C, the output recovers automatically when the short or OCP conditions are removed. In the case of slight overloading, the output voltage may not shut down, but the converter may build up heat over time, causing over-temperature shutdown ...
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... PART NUMBER: VHB50W 12. OUTPUT SERIES CONNECTIONS Two or more converters can be connected in series to obtain a higher output voltage. To prevent output reverse biasing each other in case of a short, add a Schottky diode on each output in reverse polarity, as shown in the diagram. In the event of a short, the con- verters will forward-bias the diodes and the output reversal will be limited to one diode drop (about 0 ...
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... PART NUMBER: VHB50W 15. INPUT FILTERING AND EMI INTERFERENCE The VHB50W converters have input capacitors that control input current ripple and the associated EMI interference. However, it has not been tested to a formal standard for conducted emissions. Additional filtering may be needed to ensure compliance to an EMI standard ...
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... PART NUMBER: VHB50W FIGURE 10.2B. EMI FILTER FOR VHB50W (CLASS B) L1 +Vin C1 -Vin Note: Model No. C1 VHB50W-Q24-S28 100uF/50V KY VHB50W-Q48-S28 100uF/100V KY 100uF/100V 1000pF/2KV NC L1 FUSE TVS C1 EMI to meet class A C1 VHB50W-Q24-S48 NC VHB50W-Q48-S48 NC EMI to meet class B C1 10uF/50V VHB50W-Q24-S48 X7R,2220 Ceramic 47uF/100V VHB50W-Q48-S48 KMF note: The recommended components are a starting point but not guaranteed for meeting these EMI requirements ...
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... PART NUMBER: VHB50W 16. OUTPUT FILTERING The converter has built-in capacitors at the output to control ripple and noise. If desired, additional output capacitance can be introduced at the input to the powered equipment. Recommended starting point: one 10μF tantalum and one 1μF ceramic capacitor in parallel at the output. ...