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fficiency Vout Io=06A; Ta = 25C 3.3Vin 5Vin Unit " Parameter Min Max Typ Unit 10,240,000 Calculated MTBF (Io=100% of Io, max; Ta=25C) Hours 6.0 Weight 7.0 g Parameter Device Symbol Min Typ ** !(* ** !(* !!"#$ ** " ! %& ** 0 '& ( ** 0 % 0" 6 * Output Voltage Set-point Adjustment Range ** ( Over temperature Protection (shutdown) ** Max Unit 5 &&%* ' * %&*%+* & Converter Efficiency vs. Output Current (2.5V out) Converter Efficiency vs. Output Current (3.3V out) Converter Efficiency vs. Output Current (2.0V out) Converter Efficiency vs. Output Current (1.8V out) Converter Efficiency vs. Output Current (1.5V out) Converter Efficiency vs. Output Current (1.2V out) &&%* ' * %&*%+* & Converter Efficiency vs. Output Current (1.0V out) Converter Efficiency vs. Output Current (0.9V out) Converter Efficiency vs. Output Current (0.8V out) 7 &&%* ' * %&*%+* & Output Ripple & Noise at 3.3Vin, 2.5V/10A out Output Ripple & Noise at 3.3Vin, 1.8V/10A out Output Ripple & Noise at 5Vin, 3.3V/10A out Output Ripple & Noise at 5Vin, 1.8V/10A out 8 &&%* ' * %&*%+* & Turn on Delay time at 3.3Vin, 2.5V/10A out Turn on Delay time at 3.3Vin, 1.8V/10A out Turn on Delay time at 5Vin, 3.3V/10A out Turn on Delay time at 5Vin, 1.8V/10A out 9 &&%* ' * %&*%+* & Typical Transient Response to Step Load Change at Typical Transient Response to Step Load Change at 2.5A/S from 100% to 50% of Io, max at 5Vin, 3.3V out 2.5A/S from 50% to 100% of (Cout = ceramic, 10F Tantalum) (Cout = ceramic, 10F Tantalum) Io, max at 5Vin, 3.3V out Typical Transient Response to Step Load Change at 2.5A/uS from 100% to 50% of Io, max (Cout = ceramic, 10F Tantalum) at 5Vin, 1.8V out Typical Transient Response to Step Load Change at 2.5A/S from 50% to 100% of Io, max at 5Vin, 1.8V out (Cout = ceramic, 10F Tantalum) : &&%* ' * %&*%+* & Typical Transient Response to Step Load Change at Typical Transient Response to Step Load Change at 2.5A/S from 100% to 50% of Io, max at 3.3Vin, 2.5V out 2.5A/S from 50% to 100% of Io, max at 3.3Vin, 2.5V out (Cout = ceramic, 10F Tantalum) (Cout = ceramic, 10F Tantalum) Typical Transient Response to Step Load Change at Typical Transient Response to Step Load Change at 2.5A/S from 100% to 50% of Io, max at 3.3Vin, 1.8V out 2.5A/s from 50% to 100% of Io, max at 3.3Vin, 1.8V out (Cout = ceramic, 10F Tantalum) (Cout = ceramic, 10F Tantalum) () %'&* +* & $&*& !" # !" ! Temperature measurement location NPA03M0R810 A Output Current vs. Ambient Temperature and Air Velocity !"!#$%&!' !"!#$%&!' $ %&!% $ %&!% NPA03M0R910 A Output Current vs. Ambient Temperature and Air Velocity NPA03M1R010 A Output Current vs. Ambient Temperature and Air Velocity (( %'&* +* & $&*& !"!#$%&!' ( !"!#$%&!' $ %&!% $ %&!% NPA03M1R210 A Output Current vs. Ambient Temperature and Air Velocity NPA03M1R510 A Output Current vs. Ambient Temperature and Air Velocity ) !"!#$%&!' !"!#$%&!' $ %&!% $ %&!% NPA03M1R810 A Output Current vs. Ambient Temperature and Air Velocity NPA03M2R010 A Output Current vs. Ambient Temperature and Air Velocity (/ %'&* +* & $&*& $% !" # !" ! NPA03M2R510 A Output Current vs. Ambient Temperature and Air Velocity ( %'&* +* & $!&*& ( ) !"!#$%&!' $ %&!% Temperature measurement location NPA05M0R810 A Output Current vs. Ambient Temperature and Air Velocity ( !"!#$%&!' ( !"!#$%&!' $ %&!% $ %&!% NPA05M0R910 A Output Current vs. Ambient Temperature and Air Velocity NPA05M1R010 A Output Current vs. Ambient Temperature and Air Velocity (5 %'&* +* & $!&*& ( !"!#$%&!' ( ( !"!#$%&!' $ %&!% $ %&!% NPA05M1R210 A Output Current vs. Ambient Temperature and Air Velocity NPA05M1R510 A Output Current vs. Ambient Temperature and Air Velocity ( ) !"!#$%&!' ( !"!#$%&!' $ %&!% $ %&!% NPA05M1R810 A Output Current vs. Ambient Temperature and Air Velocity NPA05M2R010 A Output Current vs. Ambient Temperature and Air Velocity ( %'&* +* & $!&*& ( ( !"!#$%&!' ( !"!#$%&!' $ %&!% $ %&!% NPA05M2R510 A Output Current vs. Ambient Temperature and Air Velocity NPA05M3R310 A Output Current vs. Ambient Temperature and Air Velocity (7 %&%)(,+* %) TO OSCILLOSCOPE 2 # $ # # # Input Reflected-Ripple Test Setup COPPER STRIP Note: Use a 10F tantalum and 1F capacitor. Scope # # .# ; * Peak-Peak Output Noise and Startup Transient Measurement Test Setup CONTACT AND DISTRIBUTION LOSSES Io II LOAD SUPPLY CONTACT RESISTANCE 2 # # * # # + * <" # # " # # * = x x x Output Voltage and Efficiency Measurement Test Setup (8 &,)&* %) # $ " $ ## $ =/> ())? # =7())@> # = ? 5> $ # . $ # A & " # . & # # . # # . & " & " # % " ? && " $# # . # $ 4 # && 067):) /// 7):)))7):) =)9)>2 ? " . # 4 # & - $ " =6> # #64 # $# - $" =6> $ 6 . " $ #- ##/) #& (9 (& %+*&&* %) " 4 $ " #& # " ! " 4 $ # $ $ $ # B( B/ = $ > - - #&(/) # $ B( B/ $& $ - $ " # $ $ " # # " " $ " # ! " # " C #+ " . " .$ " ( 4 " 5:: # " .C $ $& 2 (>&" = > " $ $ $ 4 2 = x = = = = x - - - - = - -#2 @ D2 # F F# D F572 x - - - - = - = @ $D2 # F# $D F(2 - - = - = ## & #" 1 " C ## . # G!()D+ ## ## " $ G!D @ $D2 & (5/" $ " .&()D " # " = x - = -#2 @ D2 & (8" $ " .&()D " # " = x # =E #>.$ =? 5:> =E # $> .$ =? 59> " "& $ 4 "4 - " C " # (: (& %+*&&* %)-). Circuit Configuration to trim -down Circuit Configuration to trim -up /) ### # & # . $ # " # # " & # # A 4 # , # # $ # $ *&()/ *)(& #!"$% %'&* )&* %) ! $$% &!$' ( "# % ! $ # , " $ # # " # # 4 # & 4 # ## & " &# . * $ $# # $ $ $ , $# # +; " & $ $ & * /5##=(%%> #!"!% A . # " .& $ " # # % #- ## # G()H & # . & $ # $& . . $#- ## # # - #- ### # . & #& . AIR FLOW ! Wind Tunnel Test Setup Figure Dimensions are in Millimeters and (Inches). /( 0 &) %) +*( &)+%% &1*&& // &' * /, *&)&& 2)+% / *%+3&*,2%& ! "# $ %&% '" Product Series Input Voltage Package Output Voltage Output Current Space Option Code 0 0! %!(%; Type 3? 0 D0DA 0 /,0, / 0 /0 /0 /0 /,0, /0 /0 /0 0 303!6838;;> )&% 0 ,& $ ( ) ( ) * +,- 3?D/, , , 3?D/ ,E 3?D/ ,, 3?D/ , 3?D/ 3?D/, , 3?D/ 3?D/ 3?D/, , , 3?D/ , 3?D/ , 3?D/ ,, 3?D/ , 3?D/, , 3?D/ 3?D/ /5 )&% 0 ,&-). $ ( ) ( ) * +,- 3?D/, , , 3?D/ ,E 3?D/ ,E 3?D/ , 3?D/ 3?D/, , 3?D/ 3?D/ 3?D/ 3?D/, , , 3?D/ , 3?D/ , 3?D/ ,E 3?D/ , 3?D/, , 3?D/ 3?D/ 3?D/ &'''()"!''( USA: ' * 2 3 4$!$!3 5 !$!3 +$%3 4$*3667 *!$ ( Europe: ' * 2 3 +($ 3 8 ($93 :;3 +$%3 4$*3667 )( *!$ ( Asia: ' * 2 3 +$%3 4$*3667 *!$ !, * $ =/> & # $& # $& # $. " . 4 # # .& . " . .A $" . & #.& & # $ #& # .& # $ & " " & #$ /