Version 4 SHEET 1 3244 996 WIRE 1264 -496 -976 -496 WIRE -624 -448 -912 -448 WIRE 16 -448 -624 -448 WIRE 800 -448 16 -448 WIRE -912 -432 -912 -448 WIRE -96 -432 -144 -432 WIRE 112 -432 -16 -432 WIRE -144 -400 -144 -432 WIRE 448 -400 -144 -400 WIRE -512 -384 -816 -384 WIRE -416 -384 -448 -384 WIRE -352 -384 -416 -384 WIRE -256 -384 -288 -384 WIRE -112 -384 -256 -384 WIRE 208 -384 -112 -384 WIRE 336 -384 208 -384 WIRE 384 -384 336 -384 WIRE 432 -384 384 -384 WIRE 464 -384 432 -384 WIRE 592 -384 528 -384 WIRE 640 -384 592 -384 WIRE 960 -384 704 -384 WIRE 16 -368 16 -448 WIRE 112 -368 112 -432 WIRE 208 -368 208 -384 WIRE 384 -368 384 -384 WIRE -624 -352 -624 -448 WIRE 800 -352 800 -448 WIRE -912 -336 -912 -352 WIRE -416 -336 -416 -384 WIRE 592 -336 592 -384 WIRE -112 -304 -112 -384 WIRE -96 -304 -112 -304 WIRE 336 -304 336 -384 WIRE 336 -304 320 -304 WIRE -544 -272 -576 -272 WIRE -144 -272 -144 -400 WIRE -144 -272 -288 -272 WIRE 384 -272 384 -288 WIRE 448 -272 448 -400 WIRE 464 -272 448 -272 WIRE 752 -272 720 -272 WIRE -96 -208 -240 -208 WIRE 416 -208 320 -208 WIRE -976 -192 -976 -496 WIRE -928 -192 -976 -192 WIRE -816 -192 -816 -384 WIRE -816 -192 -848 -192 WIRE -624 -192 -624 -256 WIRE -624 -192 -816 -192 WIRE -544 -192 -624 -192 WIRE -256 -192 -256 -384 WIRE -256 -192 -288 -192 WIRE 432 -192 432 -384 WIRE 464 -192 432 -192 WIRE 800 -192 800 -256 WIRE 800 -192 720 -192 WIRE 960 -192 960 -384 WIRE 960 -192 800 -192 WIRE 992 -192 960 -192 WIRE 1104 -192 1072 -192 WIRE 1152 -192 1104 -192 WIRE 1264 -192 1264 -496 WIRE 1264 -192 1152 -192 WIRE 1376 -192 1264 -192 WIRE 1152 -176 1152 -192 WIRE 1264 -176 1264 -192 WIRE 1376 -176 1376 -192 WIRE -544 -112 -576 -112 WIRE -240 -112 -240 -208 WIRE -240 -112 -288 -112 WIRE 416 -112 416 -208 WIRE 464 -112 416 -112 WIRE 752 -112 720 -112 WIRE 1152 -80 1152 -112 WIRE 1264 -80 1264 -112 WIRE 1376 -80 1376 -96 WIRE -624 -64 -624 -96 WIRE 800 -64 800 -96 WIRE -416 -32 -416 -48 WIRE 592 -32 592 -48 WIRE -816 -16 -816 -192 WIRE -784 -16 -816 -16 WIRE -192 -16 -704 -16 WIRE -96 -16 -192 -16 WIRE 368 -16 320 -16 WIRE 800 -16 368 -16 WIRE 960 -16 960 -192 WIRE 960 -16 880 -16 WIRE -192 0 -192 -16 WIRE 368 0 368 -16 WIRE -976 80 -976 -192 WIRE -192 80 -192 64 WIRE -192 80 -976 80 WIRE -96 80 -192 80 WIRE 368 80 368 64 WIRE 368 80 320 80 WIRE 1104 80 1104 -192 WIRE 1104 80 368 80 WIRE -976 176 -976 80 WIRE -96 176 -976 176 WIRE 608 176 320 176 WIRE 1104 176 1104 80 WIRE 1104 176 608 176 WIRE 336 272 320 272 WIRE -96 368 -160 368 WIRE 352 368 320 368 WIRE 464 368 352 368 WIRE 608 368 608 176 WIRE 352 384 352 368 WIRE -144 464 -144 -272 WIRE -96 464 -144 464 WIRE 352 464 352 448 WIRE 352 464 320 464 WIRE 608 464 608 432 WIRE 608 464 352 464 WIRE -96 656 -128 656 WIRE 336 656 320 656 WIRE 384 656 336 656 WIRE 384 752 384 656 WIRE -144 832 -144 464 WIRE -32 832 -32 816 WIRE -32 832 -144 832 WIRE 160 832 160 816 WIRE 256 832 256 816 WIRE 384 832 384 816 WIRE 384 832 256 832 WIRE -32 848 -32 832 WIRE 64 848 64 816 WIRE 256 848 256 832 WIRE 384 848 384 832 WIRE -32 928 -32 912 WIRE 64 928 64 912 WIRE -128 944 -128 656 WIRE 336 944 336 656 WIRE 336 944 -128 944 WIRE -160 960 -160 368 WIRE 464 960 464 368 WIRE 464 960 -160 960 FLAG 160 832 0 FLAG -912 -336 0 FLAG -416 -32 0 FLAG -624 -64 0 FLAG 1152 -80 0 FLAG 1264 -80 0 FLAG 1376 -80 0 FLAG 1376 -192 OUT FLAG -912 -448 IN FLAG 592 -32 0 FLAG 800 -64 0 FLAG 384 848 0 FLAG 384 -272 0 FLAG 256 848 0 FLAG 336 272 0 FLAG -32 928 0 FLAG 64 928 0 SYMBOL voltage -912 -448 R0 SYMATTR InstName V1 SYMATTR Value 32 SYMBOL PowerProducts\\LTC4449 -416 -192 M0 SYMATTR InstName U1 SYMBOL nmos -576 -352 M0 SYMATTR InstName Q1 SYMATTR Value BSC050N04LS SYMBOL ind -832 -176 M270 WINDOW 0 32 56 VTop 2 WINDOW 3 5 56 VBottom 2 SYMATTR InstName L1 SYMATTR Value .2µ SYMATTR SpiceLine Rser=.3m Rpar=5K SYMBOL res -800 -32 M90 WINDOW 0 0 56 VBottom 2 WINDOW 3 32 56 VTop 2 SYMATTR InstName R1 SYMATTR Value 3.09K SYMBOL cap -176 0 M0 SYMATTR InstName C1 SYMATTR Value .22µ SYMBOL cap 1136 -176 R0 WINDOW 123 26 65 Left 2 WINDOW 3 41 36 Left 2 SYMATTR Value2 X4 SYMATTR Value 470µ SYMATTR InstName C2 SYMATTR SpiceLine Rser=25m SYMBOL cap 1248 -176 R0 WINDOW 123 21 69 Left 2 WINDOW 3 44 37 Left 2 SYMATTR Value2 X2 SYMATTR Value 100µ SYMATTR InstName C3 SYMATTR SpiceLine Rser=3m SYMBOL schottky -288 -400 R90 WINDOW 0 0 32 VBottom 2 WINDOW 3 32 32 VTop 2 SYMATTR InstName D1 SYMATTR Value 1N5818 SYMATTR Description Diode SYMATTR Type diode SYMBOL cap -448 -400 R90 WINDOW 0 0 32 VBottom 2 WINDOW 3 32 32 VTop 2 SYMATTR InstName C4 SYMATTR Value .22µ SYMBOL cap 592 432 M180 WINDOW 39 29 7 Left 2 WINDOW 3 42 35 Left 2 WINDOW 0 22 59 Left 2 SYMATTR SpiceLine Rser=1.07K SYMATTR Value 200p SYMATTR InstName C5 SYMBOL nmos -576 -192 M0 SYMATTR InstName Q2 SYMATTR Value BSC017N04NS SYMBOL PowerProducts\\LTC4449 592 -192 R0 SYMATTR InstName U3 SYMBOL ind 976 -176 R270 WINDOW 0 32 56 VTop 2 WINDOW 3 5 56 VBottom 2 SYMATTR InstName L2 SYMATTR Value .2µ SYMATTR SpiceLine Rser=.3m Rpar=5K SYMBOL res 896 -32 R90 WINDOW 0 0 56 VBottom 2 WINDOW 3 32 56 VTop 2 SYMATTR InstName R4 SYMATTR Value 3.09K SYMBOL cap 352 0 R0 SYMATTR InstName C6 SYMATTR Value .22µ SYMBOL schottky 464 -400 M90 WINDOW 0 0 32 VBottom 2 WINDOW 3 32 32 VTop 2 SYMATTR InstName D2 SYMATTR Value 1N5818 SYMATTR Description Diode SYMATTR Type diode SYMBOL cap 640 -400 M90 WINDOW 0 0 32 VBottom 2 WINDOW 3 32 32 VTop 2 SYMATTR InstName C7 SYMATTR Value .22µ SYMBOL cap 336 384 R0 WINDOW 39 24 63 Left 2 WINDOW 3 35 34 Left 2 SYMATTR SpiceLine Rser=100K Cpar=11p SYMATTR Value 270p SYMATTR InstName C8 SYMBOL cap 368 752 R0 SYMATTR InstName C9 SYMATTR Value 100p SYMBOL voltage 384 -384 R0 SYMATTR InstName V2 SYMATTR Value 5 SYMBOL res 1360 -192 R0 SYMATTR InstName Rload SYMATTR Value 82.5m SYMBOL nmos 752 -352 R0 SYMATTR InstName Q3 SYMATTR Value BSC050N04LS SYMBOL nmos 752 -192 R0 SYMATTR InstName Q4 SYMATTR Value BSC017N04NS SYMBOL cap -48 848 R0 SYMATTR InstName C10 SYMATTR Value 2.2µ SYMBOL cap 48 848 R0 SYMATTR InstName C11 SYMATTR Value 1µ SYMBOL res 0 -448 R90 WINDOW 0 0 56 VBottom 2 WINDOW 3 32 56 VTop 2 SYMATTR InstName R2 SYMATTR Value 2K SYMBOL PowerProducts\\LTC3882 112 224 R0 SYMATTR InstName U2 TEXT 952 360 Left 2 !.tran 1m startup TEXT 1480 -280 Left 2 ;Please read the following notes carefully, since the model presents different user interface\nthan the real part does.\n \n(1) All PMBus communication and memory address related functions and pins are not modeled. \n \n(2) Changes to all parameter values during the simulation running will not be in effect, unless the\nsimulation is stopped and restarted. This is different from the operation of the part, which will\n respond to the commanded changes while running. \n \n(3) Share_clk is not modeled. The default time reference of LTspice is used as the common time \nbase for all time related parameters.\n \n(4) The following parameters can be defined, by right-clicking the symbol of LTC3882. Different \nnomenclature from the datasheet is adopted here. If any value of these parameters are set beyond \nthe scope discribed in the datasheet, the resulting simulation outcomes are not meaningful.\n \n Freq -- in Hz, sets switching frequency as one of values of 250K, 300K, 350K, \n 400K, 450K, 500K, 600K, 750K, 900K, 1000K, 1250K. FREQ_CFG pin needs to float \n (or short to VDD25), to make the value be in effect;\n PHAS_0 & PHAS_1 -- in degree, set phase angle related to SYNC signal. \n Certain combinations are restricted as in datasheet. PHAS_CFG \n pin needs to float (or short to VDD25), to make the value be in effect;\n Ton0_delay & Ton0_rise; Ton1_delay & Ton1_rise -- in sec, set delay and soft-start timers for \n channel0 and channel1. Initialization time is not modeled;\n Toff0_delay & Toff0_fall; Toff1_delay & Toff1_fall -- in sec, set delay and soft-off timers for \n channel0 and channel1;\n Vout_0 & Vout_1 -- in volt, set output voltages respectively. Vout#_CFG pin needs to float \n (or short to VDD25), to make the value be in effect;\n Vout0_range & Vout1_range -- set maximum output range, with value 0\n for 5.5V; value 1 for 2.75V;\n Iout0_fault & Iout1_fault -- in Amper, set maximum inductor peak current value, OC will be triggered \n when the value is exceeded;\n Iout0_warn & Iout1_warn -- in aMper, set the average load current maximum value, which will be used \n with Vout#_AVP to define the AVP operation;\n Iout0_gain & Iout1_gain -- in Ohm, set sensing resistor or inductor DCR values used in the circuit;\n Vout0_AVP & Vout1_AVP -- set the maximum value reference will reduce at Iout#_warn level:\n PWM0_Protocol & PWM1_Protocol-- sets TG/BG output rules: 0 for 3-state PWM output; 1 for 2-state PWM output with active-high EN;\n 2 for 2-state PWM output with active-low open drain disable; 4 for indenpendent TG/BG outputs.