*1.2.7 part 3

Waiting for data

Signal	Value
Signal	Value

Cursor 1	Cursor 2	∆X	1/∆X	∆Y	∆Y (Phase)

Out of date
V	—
V	—
V_PP	—
V_RMS	—
V_AV	—
f_V	—
I	—
I	—
I_PP	—
I_RMS	—
I_AV	—
f_I	—
D	—

Out of date
V	—
V	—
V_PP	—
V_RMS	—
V_AV	—
f_V	—
I	—
I	—
I_PP	—
I_RMS	—
I_AV	—
f_I	—
D	—

Out of date
V	—
V	—
V_PP	—
V_RMS	—
V_AV	—
f_V	—
I	—
I	—
I_PP	—
I_RMS	—
I_AV	—
f_I	—
D	—

Out of date
V	—
V	—
V_PP	—
V_RMS	—
V_AV	—
f_V	—
I	—
I	—
I_PP	—
I_RMS	—
I_AV	—
f_I	—
D	—

Out of date
V	—
V	—
V_PP	—
V_RMS	—
V_AV	—
f_V	—
I	—
I	—
I_PP	—
I_RMS	—
I_AV	—
f_I	—
D	—

ID:

x10

x0.1

Sheet:1

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SPICE

SPICE Netlist

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** 1.2.7 part 3 **
*
* Multisim Live SPICE netlist
*
*

* --- Circuit Topology ---

* Component: A1
xA1 0 25 1 29 26 25 24 29 IDEAL_TIMER_A1

* Component: C1
cC1 25 0 4.7e-7

* Component: C2
cC2 26 0 1e-8

* Component: C3
cC3 2 0 0.00005

* Component: LED1
xLED1 18 11 LED_VIRTUAL_LED1

* Component: LED2
xLED2 20 12 LED_VIRTUAL_LED2

* Component: LED3
xLED3 21 13 LED_VIRTUAL_LED3

* Component: LED4
xLED4 21 14 LED_VIRTUAL_LED4

* Component: LED5
xLED5 20 15 LED_VIRTUAL_LED5

* Component: LED6
xLED6 18 16 LED_VIRTUAL_LED6

* Component: LED7
xLED7 10 17 LED_VIRTUAL_LED7

* Component: R1
rR1 11 0 180 VIRTUAL_RESISTANCE_R1

* Component: R10
rR10 29 28 1200 VIRTUAL_RESISTANCE_R10

* Component: R2
rR2 12 0 180 VIRTUAL_RESISTANCE_R2

* Component: R3
rR3 13 0 180 VIRTUAL_RESISTANCE_R3

* Component: R4
rR4 14 0 180 VIRTUAL_RESISTANCE_R4

* Component: R5
rR5 15 0 180 VIRTUAL_RESISTANCE_R5

* Component: R6
rR6 16 0 180 VIRTUAL_RESISTANCE_R6

* Component: R7
rR7 17 0 180 VIRTUAL_RESISTANCE_R7

* Component: R8
rR8 2 24 10000 VIRTUAL_RESISTANCE_R8

* Component: R9
rR9 24 25 18000 VIRTUAL_RESISTANCE_R9

* Component: S2
xS2 2 28 SPST_Switch_S2 Params: Ron=0.0001 Roff=100000000 State=0

* Component: U1
aU1 3 bridgeU1!CLK 6 bridgeU1!RESET bridgeU1!Q 3 Digital_DFlipFlopPOSSR_U1

xbridgeU1!CLK bridgeU1!CLK 1 REAL_CUSTOM_ADC PARAMS: lowV=0 maxLowV=0.8 unknownV=1 minHighV=2 highV=3.3 riseT=0 fallT=0

xbridgeU1!RESET bridgeU1!RESET 0 REAL_CUSTOM_ADC PARAMS: lowV=0 maxLowV=0.8 unknownV=1 minHighV=2 highV=3.3 riseT=0 fallT=0

xbridgeU1!Q bridgeU1!Q 10 REAL_CUSTOM_DAC PARAMS: lowV=0 maxLowV=0.8 unknownV=1 minHighV=2 highV=3.3 riseT=0 fallT=0

* Component: U10
aU10 bridgeU10!A 22 Digital_Inverter_U10

xbridgeU10!A bridgeU10!A 10 REAL_CUSTOM_ADC PARAMS: lowV=0 maxLowV=0.8 unknownV=1 minHighV=2 highV=3.3 riseT=0 fallT=0

* Component: U2
aU2 4 3 bridgeU2!SET 6 9 4 Digital_DFlipFlopPOSSR_U2

xbridgeU2!SET bridgeU2!SET 0 REAL_CUSTOM_ADC PARAMS: lowV=0 maxLowV=0.8 unknownV=1 minHighV=2 highV=3.3 riseT=0 fallT=0

* Component: U3
aU3 5 4 bridgeU3!SET 6 8 5 Digital_DFlipFlopPOSSR_U3

xbridgeU3!SET bridgeU3!SET 0 REAL_CUSTOM_ADC PARAMS: lowV=0 maxLowV=0.8 unknownV=1 minHighV=2 highV=3.3 riseT=0 fallT=0

* Component: U4
aU4 [7 8] 6 Digital_AND2_U4

* Component: U5
aU5 [bridgeU5!A 9] 7 Digital_AND2_U5

xbridgeU5!A bridgeU5!A 10 REAL_CUSTOM_ADC PARAMS: lowV=0 maxLowV=0.8 unknownV=1 minHighV=2 highV=3.3 riseT=0 fallT=0

* Component: U6
aU6 [8 9] bridgeU6!Y Digital_AND2_U6

xbridgeU6!Y bridgeU6!Y 20 REAL_CUSTOM_DAC PARAMS: lowV=0 maxLowV=0.8 unknownV=1 minHighV=2 highV=3.3 riseT=0 fallT=0

* Component: U7
aU7 [9 bridgeU7!B] 19 Digital_AND2_U7

xbridgeU7!B bridgeU7!B 10 REAL_CUSTOM_ADC PARAMS: lowV=0 maxLowV=0.8 unknownV=1 minHighV=2 highV=3.3 riseT=0 fallT=0

* Component: U8
aU8 [8 19] bridgeU8!Y Digital_OR2_U8

xbridgeU8!Y bridgeU8!Y 18 REAL_CUSTOM_DAC PARAMS: lowV=0 maxLowV=0.8 unknownV=1 minHighV=2 highV=3.3 riseT=0 fallT=0

* Component: U9
aU9 [8 22] bridgeU9!Y Digital_OR2_U9

xbridgeU9!Y bridgeU9!Y 21 REAL_CUSTOM_DAC PARAMS: lowV=0 maxLowV=0.8 unknownV=1 minHighV=2 highV=3.3 riseT=0 fallT=0

* Component: V1
vV1 29 0 dc 5 ac 0 0
+ distof1 0 0
+ distof2 0 0

* --- Circuit Models ---

* R1 model
.model VIRTUAL_RESISTANCE_R1 r( )

* R10 model
.model VIRTUAL_RESISTANCE_R10 r( )

* R2 model
.model VIRTUAL_RESISTANCE_R2 r( )

* R3 model
.model VIRTUAL_RESISTANCE_R3 r( )

* R4 model
.model VIRTUAL_RESISTANCE_R4 r( )

* R5 model
.model VIRTUAL_RESISTANCE_R5 r( )

* R6 model
.model VIRTUAL_RESISTANCE_R6 r( )

* R7 model
.model VIRTUAL_RESISTANCE_R7 r( )

* R8 model
.model VIRTUAL_RESISTANCE_R8 r( )

* R9 model
.model VIRTUAL_RESISTANCE_R9 r( )

* U1 model
.model Digital_DFlipFlopPOSSR_U1 d_dff (rise_delay=1e-9 fall_delay=1e-9 clk_delay=1e-9 set_delay=1e-9 reset_delay=1e-9 ic=0)

* U10 model
.model Digital_Inverter_U10 d_inverter (rise_delay=1e-9 fall_delay=1e-9)

* U2 model
.model Digital_DFlipFlopPOSSR_U2 d_dff (rise_delay=1e-9 fall_delay=1e-9 clk_delay=1e-9 set_delay=1e-9 reset_delay=1e-9 ic=0)

* U3 model
.model Digital_DFlipFlopPOSSR_U3 d_dff (rise_delay=1e-9 fall_delay=1e-9 clk_delay=1e-9 set_delay=1e-9 reset_delay=1e-9 ic=0)

* U4 model
.model Digital_AND2_U4 d_and (rise_delay=1e-9 fall_delay=1e-9)

* U5 model
.model Digital_AND2_U5 d_and (rise_delay=1e-9 fall_delay=1e-9)

* U6 model
.model Digital_AND2_U6 d_and (rise_delay=1e-9 fall_delay=1e-9)

* U7 model
.model Digital_AND2_U7 d_and (rise_delay=1e-9 fall_delay=1e-9)

* U8 model
.model Digital_OR2_U8 d_or (rise_delay=1e-9 fall_delay=1e-9)

* U9 model
.model Digital_OR2_U9 d_or (rise_delay=1e-9 fall_delay=1e-9)

* --- Subcircuits ---

* A1 subcircuit
.subckt IDEAL_TIMER_A1 0 2 3 4 5 6 7 8
rn1 8 5 5k
rn2 5 51 5k
rn3 51 0 5k
Ecomp1 56x 0 value={if(v(5,6)>0,5,0)}
Ecomp2 52x 0 value={if(v(2,51)>0,5,0)}
**These prevent an unstable condition during DC OP
EskipDC 52 0 value={if(TIME>0, v(52x), 0)}
EskipDC2 56 0 value={if(TIME>0, v(56x), 0)}
.model op limit (gain= 3000,
+ out_upper_limit=5,
+ out_lower_limit=-5,
+ limit_range=1 fraction=true)
aadc1 [56 52] [r s] ADC1
.MODEL ADC1 adc_bridge (in_low= 3.5 in_high = 3.5 rise_delay= 1e-12 fall_delay= 1e-12)
anand1 [r Q2] Q1 nand1
anand2 [s Q1] Q2 nand1
.model nand1 d_nand(rise_delay=1n)
adac1 [q1 q2] [66 62] DAC1
rad3 66 0 1
rad4 62 0 1
aadc4 [4] [40] ADC1
ainv2 40 41 inv1
adlatch q1 2u 41 3d Qb Qc dlt
.model dlt d_dlatch(rise_delay=1e-12)
apu1 2u pullup1
.model pullup1 d_pullup(load=10e-12)
apd1 3d pulldown1
.model pulldown1 d_pulldown(load=10e-12)
ainv1 Qb 31 inv1
.model inv1 d_inverter(rise_delay=1e-12)
adac72 [Qb] [72] DAC1
adac31 [31] [32] DAC1
r30 32 0 1g
b1 3 0 v=(v(32)*v(8)/5)
r3 3 0 1g
.MODEL DAC1 dac_bridge (out_low= 0.0 out_high= 5.0 out_undef=0.5)
rad5 72 0 1meg
mdis 7 72 0 0 mdis
.MODEL mdis nmos (VTO=1.29 PHI=0.4 LAMBDA=5 KP=4.3m LD=12.8u GAMMA =3)
.ends

* LED1 subcircuit
.subckt LED_VIRTUAL_LED1 A K

dd1 A 0vNode ledDiodeModel
.model ledDiodeModel D( IS=1e-14 N=1 RS=0 IBV=1e-10 BV=1e+30 CJO=0 M=0.5 VJ=1 )

V_Isense 0vNode K DC 0

* Interactive sense node
b1 lit 0 v = { if (i(V_Isense) < 0, 0, if( i(V_Isense) > 0.005, 1, { i(V_Isense) / 0.005 })) }

.ends

* LED2 subcircuit
.subckt LED_VIRTUAL_LED2 A K

dd1 A 0vNode ledDiodeModel
.model ledDiodeModel D( IS=1e-14 N=1 RS=0 IBV=1e-10 BV=1e+30 CJO=0 M=0.5 VJ=1 )

V_Isense 0vNode K DC 0

* Interactive sense node
b1 lit 0 v = { if (i(V_Isense) < 0, 0, if( i(V_Isense) > 0.005, 1, { i(V_Isense) / 0.005 })) }

.ends

* LED3 subcircuit
.subckt LED_VIRTUAL_LED3 A K

dd1 A 0vNode ledDiodeModel
.model ledDiodeModel D( IS=1e-14 N=1 RS=0 IBV=1e-10 BV=1e+30 CJO=0 M=0.5 VJ=1 )

V_Isense 0vNode K DC 0

* Interactive sense node
b1 lit 0 v = { if (i(V_Isense) < 0, 0, if( i(V_Isense) > 0.005, 1, { i(V_Isense) / 0.005 })) }

.ends

* LED4 subcircuit
.subckt LED_VIRTUAL_LED4 A K

dd1 A 0vNode ledDiodeModel
.model ledDiodeModel D( IS=1e-14 N=1 RS=0 IBV=1e-10 BV=1e+30 CJO=0 M=0.5 VJ=1 )

V_Isense 0vNode K DC 0

* Interactive sense node
b1 lit 0 v = { if (i(V_Isense) < 0, 0, if( i(V_Isense) > 0.005, 1, { i(V_Isense) / 0.005 })) }

.ends

* LED5 subcircuit
.subckt LED_VIRTUAL_LED5 A K

dd1 A 0vNode ledDiodeModel
.model ledDiodeModel D( IS=1e-14 N=1 RS=0 IBV=1e-10 BV=1e+30 CJO=0 M=0.5 VJ=1 )

V_Isense 0vNode K DC 0

* Interactive sense node
b1 lit 0 v = { if (i(V_Isense) < 0, 0, if( i(V_Isense) > 0.005, 1, { i(V_Isense) / 0.005 })) }

.ends

* LED6 subcircuit
.subckt LED_VIRTUAL_LED6 A K

dd1 A 0vNode ledDiodeModel
.model ledDiodeModel D( IS=1e-14 N=1 RS=0 IBV=1e-10 BV=1e+30 CJO=0 M=0.5 VJ=1 )

V_Isense 0vNode K DC 0

* Interactive sense node
b1 lit 0 v = { if (i(V_Isense) < 0, 0, if( i(V_Isense) > 0.005, 1, { i(V_Isense) / 0.005 })) }

.ends

* LED7 subcircuit
.subckt LED_VIRTUAL_LED7 A K

dd1 A 0vNode ledDiodeModel
.model ledDiodeModel D( IS=1e-14 N=1 RS=0 IBV=1e-10 BV=1e+30 CJO=0 M=0.5 VJ=1 )

V_Isense 0vNode K DC 0

* Interactive sense node
b1 lit 0 v = { if (i(V_Isense) < 0, 0, if( i(V_Isense) > 0.005, 1, { i(V_Isense) / 0.005 })) }

.ends

* S2 subcircuit
.subckt SPST_Switch_S2 port1 port2 Params: Ron=1e-8 Roff=1e30 State=0
V2 state 0 DC {State}
R1 state 6 10
V1 6 0 DC 0
W0 port2 port1 V1 NC_contact
.model NC_contact ISWITCH (Ion=0.05 Ioff=0.025 Ron={Ron} Roff={Roff})
.ends

* --- Pin bridge models

.SUBCKT REAL_CUSTOM_ADC 1 2 PARAMS: lowV=0 maxLowV=0.8 unknownV=1.0 minHighV=2.0 highV=5.0 riseT=0 fallT=0
* Ideal Receiver Model 1 = input, 2 = A/D out
aADCin1 [2] [1] ADC
.MODEL ADC adc_bridge (in_low = {maxLowV} in_high = {minHighV})
.ENDS

.SUBCKT REAL_CUSTOM_DAC 1 2 PARAMS: lowV=0 maxLowV=0.8 unknownV=1.0 minHighV=2.0 highV=5.0 riseT=0 fallT=0
* Ideal Driver Model 1 = A/D out, 2 = input
aDACin1 [1] [2] aDAC
.MODEL aDAC dac_bridge (out_low = {lowV} out_high = {highV} out_undef = {unknownV} t_rise = {max(riseT,1e-9)} t_fall = {max(fallT,1e-9)})
.ENDS

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Item

Document

Section

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Type

Rise time

Time it takes for signal to transition from low to high.

With non-zero rise time, the signal converts to an analog signal from a digital signal.

Fall time

Time it takes for signal to transition from high to low.

With non-zero fall time, the signal converts to an analog signal from a digital signal.

Use document settings

Use logic levels settings from Document tab.

Threshold voltage levels.

Threshold voltage values used in the logic evaluation. See Digital Simulation for more information.

Output low

Output low voltage.

Maximum output voltage level to produce a low signal.

Input low threshold

Input low threshold voltage.

Maximum input voltage level for the signal to be considered low.

Input high threshold

Input high threshold voltage.

Minimum input voltage level for the signal to be considered high.

Output high

Output high voltage.

Minimum output voltage level to produce a high signal.

Type Probe

Select desired function.

Function

Use document settings

Use logic levels settings from Document tab.

Threshold voltage levels.

Threshold voltage values used in the logic evaluation. See Digital Simulation for more information.

Output low

Output low voltage.

Maximum output voltage level to produce a low signal.

Input low threshold

Input low threshold voltage.

Maximum input voltage level for the signal to be considered low.

Input high threshold

Input high threshold voltage.

Minimum input voltage level for the signal to be considered high.

Output high

Output high voltage.

Minimum output voltage level to produce a high signal.

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Disconnect

Switch on to stream data from Source when simulation runs.

For data files with more than one plot, select the plot to view.

Source type

Application used to generate the Source data.

Data type

Type of simulation data in Source.

File size

Size of the referenced file. Total file size for all data plotters cannot exceed 100 MB.

Selected simulation type does not match uploaded simulation data

Data streaming is only available in interactive simulation

Instantaneous

Displays instantaneous measurements on probe during interactive simulation.

Periodic

Displays periodic measurements on probe during Interactive simulation.

Bias point(s)

Displays bias points on probe for DC Op simulation.

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Name 1.2.7 part 3

Type Schematic

The simulation to run. See Simulation types for more information.

Name

Title of graph. Edit as desired.

End time

Time at which the simulation stops. Does not include pauses. Simulation does not occur in real time.

Start simulation

RELTOL

Relative error tolerance. A simulation wide accuracy control used to establish convergence.

VNTOL

Absolute voltage error tolerance. Defines the minimum value for voltage where it may still be considered accurate.

ABSTOL

Absolute current error tolerance. Defines the minimum value for current where it may still be considered accurate.

ITL1

DC iteration limit. Number of iterative passes done on DC circuit equations in attempt to reach convergence in simulation.

ITL4

Upper iteration limit. Number of iterative passes done per time point, on Transient circuit equations in attempt to reach convergence in simulation.

Integration method. The numerical integration method used in transient analysis.

Temp

℃

Operating temperature. The temperature at which the entire circuit will be simulated.

Insert shunt resistance

Inserts a resistance of RSHUNT from every analog node to ground. Will aid in convergence, but alter the behavior of the circuit.

RSHUNT

Shunt resistance. This eliminates singular matrix errors that result from a lack of a DC path to ground.

Reset to default

Threshold voltage levels.

Threshold voltage values used in the logic evaluation. See Digital Simulation for more information.

Output low

Output low voltage.

Maximum output voltage level to produce a low signal.

Input low threshold

Input low threshold voltage.

Maximum input voltage level for the signal to be considered low.

Input high threshold

Input high threshold voltage.

Minimum input voltage level for the signal to be considered high.

Output high

Output high voltage.

Minimum output voltage level to produce a high signal.

Width

Sheet width in grid squares.

Height

Sheet height in grid squares.

Grid

Toggles grid display.

Net Labels

Toggles all net labels.

Component Labels

Toggles all component labels.

1.2.7 part 3