spice analysis of power section, corrected resistor values

pull/3/head
davor 7 years ago
parent 46709c1772
commit 3b92d7064b

@ -1,4 +1,5 @@
all: powersection.plot #all: powersection-v17.plot
all: powersection-v188.plot
#SPICE=spice3 #SPICE=spice3
#SCOPE=rlwrap nutmeg #SCOPE=rlwrap nutmeg

@ -1,4 +1,4 @@
* POWERSECTION -> plot v(pwrbtn_pulse),v(shutdown_pulse),v(wake_pulse),v(p3v3),v(ftdi_nsleep) * POWERSECTION -> plot v(pwrbtn_pulse),v(shutdown_pulse),v(wake_pulse),v(p3v3),v(ftdi_nsleep),v(pwren)
* Simulation of power network * Simulation of power network
* POWER ON: USB plugged in, POWER button, RTC alarm, FTDI_nSLEEP * POWER ON: USB plugged in, POWER button, RTC alarm, FTDI_nSLEEP

@ -0,0 +1,122 @@
* POWERSECTION -> plot v(pwrbtn_pulse),v(shutdown_pulse),v(wake_pulse),v(p3v3),v(ftdi_nsleep),v(pwren)
* Simulation of power network
* POWER ON: USB plugged in, POWER button, RTC alarm, FTDI_nSLEEP
* POWER OFF: SHUTDOWN signal
* FTDI_nSLEEP has priority over SHUTDOWN signal (not yet simulated)
* Simulate 5V USB plugging in every 10 seconds
* start rise fall duration period
VUSB5V hard_5V 0 PULSE(0V 5V 0.1s 10ms 10ms 9s 10s DC=0V)
* internal resistor provides "soft" USB 5V
Rusb hard_5V USB5V 0.1
* shutdown pulse every 1 second, start after 0.4s
* start rise fall duration period
VSHUT shutdown_pulse 0 PULSE(0V 3.3V 0.4s 10ms 10ms 100ms 1s DC=0V)
* convergence friendly resistor
RSHUT shutdown_pulse SHUTDOWN 220
* power up button pulse every 10 seconds, start after 0.7s
* start rise fall duration period
VPWRBTN pwrbtn_pulse 0 PULSE(0V 3.3V 0.9s 10ms 10ms 100ms 10s DC=0V)
* RTC internal wakeup pulse every 10 seconds, start after 1.7s
* start rise fall duration period
VWAKEUP wake_pulse 0 PULSE(0V 3.3V 1.9s 10ms 10ms 100ms 10s DC=0V)
* convergence friendly internal resistor
Rwk wake_pulse wake_base 1k
* FTDI_nSLEEP signal every 10 seconds, start after 2.3s
* start rise fall duration period
VFTDI FTDI_nSLEEP 0 PULSE(0V 3.3V 2.2s 10ms 10ms 0.5s 10s DC=0V)
* RTC internal NPN transisfor for open collector output
Qwk WAKEUPn wake_base 0 BC847
* hard 3.3V voltage
Vhard3V3 hard_3V3 0 3.3V
* internal resistor provides "soft" 3.3V
Rsmps hard_3V3 PWR3V3 10
* base resistor
R6 WAKEUPn WKn 1.2k
* PNP transistor
Q1 WKUP WKn USB5V BC857
* Slow down capacitor, initially discharged
C13 USB5V WKUP 2.2uF IC=0
* diode to discharge C13 at shutdown
D13 0 WKUP N4148
* diode to activate onboard switching regulator
D10 WKUP WAKE N4148
* "OR" resistors
R1 WAKE PWREN 4.7k
R4 PWREN HOLD 15k
* "OR" diode to 3.3V from switching regulator
D11 P3V3 HOLD LED_RED
* switching regulator, default off, starts by hysteresis
SW3V3 PWR3V3 P3V3 PWREN 0 SWITCH OFF
* pull down resistor
R2 PWREN 0 18k
* small mosfet
M1 drain SHUT 0 0 N7002
* drain resistor
R8 drain PWREN 680
* mosfet gate slowdown resistor
C14 SHUT 0 220nF
* mosfet gate discharge (default OFF) resistor
R5 SHUT 0 2.2MEG
* diode to discharge gate at shutdown
D14 SHUT P3V3 N4148
* diode for shutdown to only pull down, never up
D15 SHUTDOWN SHUT BAT42
* Pull down resistor
R13 SHUTDOWN 0 15k
* power button
R3 USB5V pwrbtn 4.7k
D16 WAKEUPn pwrbtn N4148
SPWR pwrbtn 0 pwrbtn_pulse 0 SWITCH OFF
* ftdi no-sleep network
R10 FTDI_nSLEEP FTDI_nSUSPEND 220
D12 FTDI_nSUSPEND PWREN N4148
* The load (slow)
RL P3V3 0 100
CL P3V3 0 1000uF
.TRAN 1ms 3.3s
.OPTIONS METHOD=GEAR, RELTOL=1E-3, itl1=500, itl4=500
*.OPTIONS gmin=1e-11 reltol=4e-4 itl1=500 itl4=500
*.OPTIONS gmin = 1E-12, reltol = 1E-3, itl1 = 500, itl4 = 500
.MODEL SWITCH SW (VT=1V, VH=0.5V, RON=0.01, ROFF=100MEG)
.MODEL N4148 D (CJO=0.2pF)
.MODEL BAT42 D (VJ=0.25)
*Typ RED GaAs LED: Vf=1.7V Vr=4V If=40mA trr=3uS
.MODEL LED_RED D (IS=93.2P RS=42M N=3.73 BV=4 IBV=10U
+ CJO=2.97P VJ=.75 M=.333 TT=4.32U)
*Typ RED,GREEN,YELLOW,AMBER GaAs LED: Vf=2.1V Vr=4V If=40mA trr=3uS
.MODEL LED_GREEN D (IS=93.1P RS=42M N=4.61 BV=4 IBV=10U
+ CJO=2.97P VJ=.75 M=.333 TT=4.32U)
*Typ BLUE SiC LED: Vf=3.4V Vr=5V If=40mA trr=3uS
.MODEL LED_BLUE D (IS=93.1P RS=42M N=7.47 BV=5 IBV=30U
+ CJO=2.97P VJ=.75 M=.333 TT=4.32U)
.MODEL BC847 NPN (BF=150)
.MODEL BC857 PNP (BF=150)
.MODEL N7002 NMOS (LEVEL=1, VTO=2.5, KP=40, RS=0.033, RD=0.034)
* todo
* [ ] BAT42 schottky diode model doesn't simulate wanted 0.25V drop
* the BAT42 model seems to have 0.7V drop
* [ ] delay: switch power 3.3V doesn't start immediately
* [ ] control signals should be derived from P3V3 line
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