XRP2526ID-1-F Exar Corporation, XRP2526ID-1-F Datasheet
XRP2526ID-1-F
Specifications of XRP2526ID-1-F
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XRP2526ID-1-F Summary of contents
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... Built-in over current, under voltage lockout (UVLO), reverse current and over temperature protections insure safe operations abnormal operating conditions. XRP2525 and XRP2526 are offered in a RoHS compliant “green”/halogen free 8-pin NSOIC package. TYPICAL APPLICATION DIAGRAM Exar Corporation 48720 Kato Road, Fremont CA 94538, USA ...
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... Over temperature shutdown threshold Over temperature shutdown threshold hysteresis Under-voltage lockout threshold Under-voltage lockout hysteresis FLG output logic low voltage FLG output high leakage FLG blanking time EN input logic high voltage EN input logic low voltage EN input leakage current © 2011 Exar Corporation ...
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... BLOCK DIAGRAM © 2011 Exar Corporation Fig. 2: XRP2525 and XRP2526 Block Diagrams 3/ Rev. 1.1.0 ...
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... X ORDERING INFORMATION Part Number Temperature Range XRP2525ID-1-F -40°C≤T ≤+85°C A XRP2525IDTR-1-F XRP2525ID-2-F -40°C≤T ≤+85°C A XRP2525IDTR-2-F XRP2526ID-1-F -40°C≤T ≤+85°C A XRP2526IDTR-1-F XRP2526ID-2-F -40°C≤T ≤+85°C A XRP2526IDTR-2-F XRP2525 Evaluation Board XRP2525EVB XRP2526 Evaluation Board XRP2526EVB “YY” = Year – “WW” = Work Week – “X” = Lot Number; when applicable. ...
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... TYPICAL PERFORMANCE CHARACTERISTICS All data taken 5V 47µF//1µ from Application Information section of this datasheet. Fig. 4: Output On-Resistance vs. Temperature (XRP2525) Fig. 6: Off Supply Current vs. Temperature Fig. 8: Quiescent Current vs. Temperature XRP2526 (2-channels on) © 2011 Exar Corporation 10µ 25°C, unless otherwise specified - Schematic and BOM ...
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... Fig. 10: Quiescent Current vs. Input Voltage XRP2525 and XRP2526 (1-channel on) Fig. 12: Output Turn-Off Delay vs. Temperature Fig. 14: Output Fall Time vs. Temperature © 2011 Exar Corporation Fig. 11: Quiescent Current vs. Input Voltage Fig. 13: Output Turn-on Delay vs. Temperature Fig. 15: Output Rise Time vs. Temperature 6/ XRP2526 (2-channels on) ...
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... Fig. 16: Output Turn-Off Delay Time vs. Input Voltage Fig. 18: Output Fall Time vs. Input Voltage Fig. 20: Current Limit Threshold vs. Temperature (XRP2525) Fig. 21: Current Limit Threshold vs. Temperature (XRP2526) © 2011 Exar Corporation Fig. 17: Output Turn-On Delay Time vs. Input Voltage Fig. 19: Output Rise Time vs. Input Voltage ...
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... Fig. 22: Under-voltage lockout trip level vs. Temperature (VIN Rising) Fig. 24: Turn-On, Turn-Off Characteristics (XRP2526-1) COUT = 1uF, Rload = 10Ω Fig. 26: Current Limit Operation (XRP2525-1): VIN=5.5V, Rload = 3.9Ω © 2011 Exar Corporation 1.5 Fig. 23: Quiescent Current vs. Enable pin Voltage Fig. 27: Current Limit Operation (XRP2526-1): ...
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... Once activated, the error flag signal remains low until all fault conditions removed and is independent individual channel URRENT IMIT The current limit threshold is preset internally. It protects the output MOSFET switches from © 2011 Exar Corporation ...
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... PACKAGE SPECIFICATION 8- NSOIC PIN © 2011 Exar Corporation 10/ Rev. 1.1.0 ...
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... While the information in this publication has been carefully checked; no responsibility, however, is assumed for inaccuracies. EXAR Corporation does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its safety or effectiveness. Products are not authorized for use in such applications unless EXAR Corporation receives, in writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized ...