Version 4 SHEET 1 1912 680 WIRE 192 -240 -208 -240 WIRE 416 -240 192 -240 WIRE 656 -240 416 -240 WIRE 896 -240 656 -240 WIRE 192 -192 192 -240 WIRE 416 -192 416 -240 WIRE 656 -192 656 -240 WIRE 896 -192 896 -240 WIRE 112 -176 96 -176 WIRE 288 -176 272 -176 WIRE 512 -176 496 -176 WIRE -208 -160 -208 -240 WIRE 112 -144 96 -144 WIRE 288 -144 272 -144 WIRE 512 -144 496 -144 WIRE 112 -112 96 -112 WIRE 288 -112 272 -112 WIRE -208 -32 -208 -80 WIRE 192 -32 192 -96 WIRE 192 -32 -208 -32 WIRE 416 -32 416 -96 WIRE 416 -32 192 -32 WIRE 656 -32 656 -96 WIRE 656 -32 416 -32 WIRE 896 -32 896 -96 WIRE 896 -32 656 -32 WIRE -208 0 -208 -32 WIRE 192 272 -208 272 WIRE 416 272 192 272 WIRE 656 272 416 272 WIRE 896 272 656 272 WIRE 192 320 192 272 WIRE 416 320 416 272 WIRE 656 320 656 272 WIRE 896 320 896 272 WIRE 112 336 96 336 WIRE 288 336 272 336 WIRE 512 336 496 336 WIRE -208 352 -208 272 WIRE 112 368 96 368 WIRE 288 368 272 368 WIRE 512 368 496 368 WIRE 112 400 96 400 WIRE 288 400 272 400 WIRE -208 480 -208 432 WIRE 192 480 192 416 WIRE 192 480 -208 480 WIRE 416 480 416 416 WIRE 416 480 192 480 WIRE 656 480 656 416 WIRE 656 480 416 480 WIRE 896 480 896 416 WIRE 896 480 656 480 WIRE -208 512 -208 480 FLAG -208 512 0 FLAG -208 0 0 SYMBOL voltage -208 336 R0 WINDOW 123 0 0 Left 0 WINDOW 39 0 0 Left 0 WINDOW 3 20 117 Left 0 SYMATTR Value PULSE(0 12 0 1m 1m 500 1000) SYMATTR InstName V2 SYMBOL voltage -208 -176 R0 WINDOW 123 0 0 Left 0 WINDOW 39 0 0 Left 0 WINDOW 3 20 117 Left 0 SYMATTR Value PULSE(0 12 0 1m 1m 500 1000) SYMATTR InstName V1 SYMBOL halolamp6 192 -144 R0 SYMATTR InstName U1 SYMATTR Value HALO12V20W6 SYMBOL halolamp2 416 -144 R0 SYMATTR InstName U2 SYMATTR Value HALO12V20W2 SYMBOL halolamp0 656 -144 R0 SYMATTR InstName U3 SYMATTR Value HALO12V20W0 SYMBOL halolamp0 896 -144 R0 SYMATTR InstName U4 SYMATTR Value HALO12V20W0 SYMBOL halolamp6 192 368 R0 SYMATTR InstName U10 SYMATTR Value HALO12V20W SYMBOL halolamp2 416 368 R0 SYMATTR InstName U11 SYMATTR Value HALO12V20W SYMATTR SpiceModel nn3 nn4 nn5 nn6 SYMBOL halolamp0 656 368 R0 SYMATTR InstName U12 SYMATTR Value HALO12V20W SYMATTR SpiceModel na1 na2 na3 na4 na5 na6 SYMBOL halolamp0 896 368 R0 SYMATTR InstName U13 SYMATTR Value HALO12V20W SYMATTR SpiceModel nb1 nb2 nb3 nb4 nb5 nb6 TEXT -208 -432 Left 0 !.tran 1000 TEXT -208 -512 Left 0 !.include lamp.sub TEXT -208 -472 Left 0 !.TEMP 25 TEXT 600 232 Left 0 ;halolamp0 TEXT 376 232 Left 0 ;halolamp2 TEXT 144 232 Left 0 ;halolamp6 TEXT 840 232 Left 0 ;halolamp0 TEXT 600 -280 Left 0 ;halolamp0 TEXT 376 -280 Left 0 ;halolamp2 TEXT 144 -280 Left 0 ;halolamp6 TEXT 840 -280 Left 0 ;halolamp0 TEXT -224 128 Left 0 ;All three symbols can use the same 6-ouput model HALO12V20W, if the missing pins were added \nin the line "SpiceModel" of the instance U11, U12 and U13. \nBe aware that the additional nodenames must be unique in the whole schematic. TEXT -216 -328 Left 0 ;The traditional symbols use a subcircuit with exactly the same number of nodes as the symbol has nodes. TEXT 192 -1368 Left 0 ;SPICE MODEL FOR LAMPS. Helmut Sennewald 12/06/2003\n \nThe model uses three cascaded thermal resistor elements, \nthe filament, the bulb and the socket. \nThe basic formula:\nTemperature = TAmbient + Power * (Rth1+Rth2+Rth3)\nRFilament = R25 + K * (TFilament-T25)\nThe ambient temperature TEMP is also included in the model.\nAll temperatures are in degree Celsius.\n \nThe lamp provides up to six control outputs.\nR: resistance \nP: electrical power \nL: light power \nTf: temperature of filament \nTb: temperature of bulb \nTs: temperature of socket\n \nCalling Parameters:\nUNOM: nominal Voltage\nPNOM: nominal Power\nR25: unpowered(cold) resistance at 25 degree Celsius\nT25: 25 degree Celsius\nLEFCY: efficiency of visible light conversion\nTFIL: final filament temperature\nTAU1: time constant of TFIL\nTBULB: final bulb temperature\nTAU2: time constant of TBULB\nTSOCK: socket temperature\nTAU3: time constant of TSOCK\nThe temperature condition TFIL > TBULB > TSOCK must be always fulfilled .\n \nTo disable the thermal resistance of TFIL, TSOCK or TBULB, the \ncorresponding temperature value must be set equal to the value of T25.\nIt is recommended to set the time constant TAUx then to a low value, e.g. 1m.