1.8 V LDO
1.8 V linear regulator.
🔗 Schematics
LVS
LVS-state: Netlists match uniquely.
🔗 LVS-report
SPECIFICATIONS
LDO Voltage Curvature vs Temperature
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.772
1.784 / 1.9
V
15/100.0%/0.0%/0.0%
LDO Voltage Curvature
0.0 / 4.837
9.729 / 250.0
mV
15/100.0%/0.0%/0.0%
LDO Voltage at 20°C
1.7 / 1.771
1.782 / 1.9
V
15/100.0%/0.0%/0.0%
LDO Voltage Sensitivity at 20°C
-100.0 / 24.768
49.935 / 100.0
uV/°C
15/100.0%/0.0%/0.0%
LDO Voltage Curvature vs Temperature (Monte Carlo)
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.761
1.788 / 1.9
V
499/100.0%/0.0%/0.0%
LDO Voltage Curvature
0.0 / 0.872
8.73 / 250.0
mV
499/100.0%/0.0%/0.0%
LDO Voltage at 20°C
1.7 / 1.761
1.787 / 1.9
V
400/100.0%/0.0%/0.0%
LDO Voltage Sensitivity at 20°C
-100.0 / 2.032
46.238 / 100.0
uV/°C
499/100.0%/0.0%/0.0%
LDO Voltage Curvature vs VDD
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.772
1.779 / 1.9
V
15/100.0%/0.0%/0.0%
LDO Voltage Curvature
0.0 / 12.387
18.39 / 25.0
mV
15/100.0%/0.0%/0.0%
LDO Voltage at 3.3V
1.7 / 1.771
1.778 / 1.9
V
15/100.0%/0.0%/0.0%
LDO Voltage Sensitivity at 3.3V
-20.0 / 3.803
5.023 / 20.0
mV/V
15/100.0%/0.0%/0.0%
LDO Voltage Curvature vs VDD (Monte Carlo)
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.763
1.785 / 1.9
V
500/100.0%/0.0%/0.0%
LDO Voltage Curvature
0.0 / 13.683
14.808 / 25.0
mV
500/100.0%/0.0%/0.0%
LDO Voltage at 3.3V
1.7 / 1.762
1.784 / 1.9
V
500/100.0%/0.0%/0.0%
LDO Voltage Sensitivity at 3.3V
-20.0 / 4.098
4.34 / 20.0
mV/V
500/100.0%/0.0%/0.0%
LDO Voltage Curvature vs Load
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.777
1.788 / 1.9
V
15/100.0%/0.0%/0.0%
LDO Voltage Curvature
0.0 / 0.822
2.66 / 25.0
mV
15/100.0%/0.0%/0.0%
LDO Voltage at 100uA
1.7 / 1.778
1.789 / 1.9
V
15/100.0%/0.0%/0.0%
LDO Voltage Sensitivity at 100uA
-10 / -7.274
-2.186 / 10
V/A
15/100.0%/0.0%/0.0%
LDO Voltage Curvature vs Load (Monte Carlo)
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.768
1.793 / 1.9
V
490/100.0%/0.0%/0.0%
LDO Voltage Curvature
0.0 / 1.138
1.331 / 25.0
mV
490/100.0%/0.0%/0.0%
LDO Voltage at 100uA
1.7 / 1.768
1.793 / 1.9
V
490/100.0%/0.0%/0.0%
LDO Voltage Sensitivity at 100uA
-10 / -3.592
-3.038 / 10
V/A
490/100.0%/0.0%/0.0%
LDO Voltage Noise Specification
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Output Noise at 10 Hz
0.0 / 1.789
1.919 / 100.0
uV/sqrt(Hz)
5/100.0%/0.0%/0.0%
Output Noise at 10 kHz
0.0 / 0.092
0.098 / 50.0
uV/sqrt(Hz)
5/100.0%/0.0%/0.0%
PSRR+ Specification
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
PSRR+ at 10 Hz
-80 / -43.785
-42.596 / -40
dB
5/100.0%/0.0%/0.0%
PSRR+ at 10 MHz
-10 / 1.687
2.387 / 20
dB
5/100.0%/0.0%/0.0%
PSRR+ Specification (Monte Carlo)
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
PSRR+ at 10 Hz
-120 / -43.902
-42.498 / 10
dB
497/100.0%/0.0%/0.0%
PSRR+ at 10 MHz
-100 / 1.513
2.561 / 20
dB
497/100.0%/0.0%/0.0%
Line Transient Specification
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Output Ripple
0.0 / 20.845
25.214 / 50.0
mV
5/100.0%/0.0%/0.0%
Ripple from 1V Input Voltage Step
Line Transient Specification (Monte Carlo)
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Output Ripple
0.0 / 19.96
27.044 / 50.0
mV
492/100.0%/0.0%/0.0%
Ripple from 1V Input Voltage Step
Load Transient Specification
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Output Ripple
0.0 / 1.938
2.421 / 50.0
mV
5/100.0%/0.0%/0.0%
Ripple from 50->250 uA Load Step
Load Transient Specification (Monte Carlo)
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Output Ripple
0.0 / 1.328
2.526 / 50.0
mV
498/100.0%/0.0%/0.0%
Ripple from 50->250 uA Load Step
AC Loopgain PM Specification
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Loopgain PM
45 / 48.689
60.872 / 180
deg
5/100.0%/0.0%/0.0%
AC Loopgain PM Specification (Monte Carlo)
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Loopgain PM
45 / 47.593
61.364 / 180
deg
480/100.0%/0.0%/0.0%
LDO Voltage Curvature vs Temperature [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.772
1.784 / 1.9
V
15/100.0%/0.0%/0.0%
LDO Voltage Curvature
0.0 / 4.83
9.708 / 250.0
mV
15/100.0%/0.0%/0.0%
LDO Voltage at 20°C
1.7 / 1.771
1.782 / 1.9
V
15/100.0%/0.0%/0.0%
LDO Voltage Sensitivity at 20°C
-100.0 / 24.738
49.936 / 100.0
uV/°C
15/100.0%/0.0%/0.0%
LDO Voltage Curvature vs Temperature (Monte Carlo) [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.759
1.783 / 1.9
V
498/100.0%/0.0%/0.0%
LDO Voltage Curvature
0.0 / 1.206
9.628 / 250.0
mV
498/100.0%/0.0%/0.0%
LDO Voltage at 20°C
1.7 / 1.76
1.782 / 1.9
V
399/100.0%/0.0%/0.0%
LDO Voltage Sensitivity at 20°C
-100.0 / 4.395
51.362 / 100.0
uV/°C
498/100.0%/0.0%/0.0%
LDO Voltage Curvature vs VDD [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.772
1.779 / 1.9
V
15/100.0%/0.0%/0.0%
LDO Voltage Curvature
0.0 / 12.369
18.387 / 25.0
mV
15/100.0%/0.0%/0.0%
LDO Voltage at 3.3V
1.7 / 1.771
1.778 / 1.9
V
15/100.0%/0.0%/0.0%
LDO Voltage Sensitivity at 3.3V
-20.0 / 3.797
5.022 / 20.0
mV/V
15/100.0%/0.0%/0.0%
LDO Voltage Curvature vs VDD (Monte Carlo) [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.763
1.787 / 1.9
V
500/100.0%/0.0%/0.0%
LDO Voltage Curvature
0.0 / 13.682
14.746 / 25.0
mV
500/100.0%/0.0%/0.0%
LDO Voltage at 3.3V
1.7 / 1.762
1.786 / 1.9
V
500/100.0%/0.0%/0.0%
LDO Voltage Sensitivity at 3.3V
-20.0 / 4.099
4.32 / 20.0
mV/V
500/100.0%/0.0%/0.0%
LDO Voltage Curvature vs Load [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.777
9.262 / 1.9
V
15/93.3333%/6.6667%/0.0%
LDO Voltage Curvature
0.0 / 0.845
4.031 / 25.0
mV
15/100.0%/0.0%/0.0%
LDO Voltage at 100uA
1.7 / 1.778
9.263 / 1.9
V
15/93.3333%/6.6667%/0.0%
LDO Voltage Sensitivity at 100uA
-10 / -8.061
-2.232 / 10
V/A
15/100.0%/0.0%/0.0%
Show specification violation details...
FAIL: Specification violation for parameter "Mean LDO Voltage":FAIL: group:ll file:work/sim/ldo/ldo_tb.3_ldo_ext/batch_0/ll/ldo_tran_iload.csv Index:0
FAIL: Specification violation for parameter "LDO Voltage at 100uA":FAIL: group:ll file:work/sim/ldo/ldo_tb.3_ldo_ext/batch_0/ll/ldo_tran_iload.csv Index:0
LDO Voltage Curvature vs Load (Monte Carlo) [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Mean LDO Voltage
1.7 / 1.768
1.796 / 1.9
V
498/100.0%/0.0%/0.0%
LDO Voltage Curvature
0.0 / 1.16
1.36 / 25.0
mV
498/100.0%/0.0%/0.0%
LDO Voltage at 100uA
1.7 / 1.768
1.797 / 1.9
V
498/100.0%/0.0%/0.0%
LDO Voltage Sensitivity at 100uA
-10 / -3.655
-3.08 / 10
V/A
498/100.0%/0.0%/0.0%
LDO Voltage Noise Specification [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Output Noise at 10 Hz
0.0 / 1.789
1.92 / 100.0
uV/sqrt(Hz)
5/100.0%/0.0%/0.0%
Output Noise at 10 kHz
0.0 / 0.092
0.098 / 50.0
uV/sqrt(Hz)
5/100.0%/0.0%/0.0%
PSRR+ Specification [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
PSRR+ at 10 Hz
-80 / -43.793
-42.596 / -40
dB
5/100.0%/0.0%/0.0%
PSRR+ at 10 MHz
-10 / 5.562
6.112 / 20
dB
5/100.0%/0.0%/0.0%
PSRR+ Specification (Monte Carlo) [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
PSRR+ at 10 Hz
-120 / -43.894
-42.467 / 10
dB
498/100.0%/0.0%/0.0%
PSRR+ at 10 MHz
-100 / 5.342
6.422 / 20
dB
498/100.0%/0.0%/0.0%
Line Transient Specification [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Output Ripple
0.0 / 22.021
26.395 / 50.0
mV
5/100.0%/0.0%/0.0%
Ripple from 1V Input Voltage Step
Line Transient Specification (Monte Carlo) [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Output Ripple
0.0 / 21.082
27.717 / 50.0
mV
500/100.0%/0.0%/0.0%
Ripple from 1V Input Voltage Step
Load Transient Specification [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Output Ripple
0.0 / 2.209
2.642 / 50.0
mV
5/100.0%/0.0%/0.0%
Ripple from 50->250 uA Load Step
Load Transient Specification (Monte Carlo) [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Output Ripple
0.0 / 1.64
2.769 / 50.0
mV
500/100.0%/0.0%/0.0%
Ripple from 50->250 uA Load Step
AC Loopgain PM Specification [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Loopgain PM
45 / 38.864
51.298 / 180
deg
5/80.0%/20.0%/0.0%
Show specification violation details...
FAIL: Specification violation for parameter "Loopgain PM":FAIL: group:ll file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_0/ll/ldo_ac_loop.csv Index:0
AC Loopgain PM Specification (Monte Carlo) [PEX]
Parameter
Min (Spec. / Sim.)
Max (Sim. / Spec.)
Unit
Checks (total/pass/fail/NaN)
Comment
Loopgain PM
45 / 38.312
52.047 / 180
deg
500/64.0%/36.0%/0.0%
Show specification violation details...
FAIL: Specification violation for parameter "Loopgain PM":FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:0 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:1 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:2 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:3 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:4 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:5 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:6 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:7 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:8 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:9 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:10 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:11 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:12 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:13 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:14 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:15 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:16 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:17 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:18 FAIL: group:tt_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/tt_mm/ldo_ac_loop.csv Index:19 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:0 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:1 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:2 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:3 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:4 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:5 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:6 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:7 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:8 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:9 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:10 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:11 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:12 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:13 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:14 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:15 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:16 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:17 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:18 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_4/ll_mm/ldo_ac_loop.csv Index:19 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:0 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:1 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:2 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:3 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:4 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:5 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:6 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:7 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:8 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:9 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:10 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:11 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:12 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:13 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:14 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:15 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:16 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:17 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:18 FAIL: group:ff_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ff_mm/ldo_ac_loop.csv Index:19 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:0 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:1 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:2 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:3 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:4 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:5 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:6 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:7 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:8 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:9 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:10 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:11 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:12 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:13 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:14 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:15 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:16 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:17 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:18 FAIL: group:ss_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ss_mm/ldo_ac_loop.csv Index:19 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:0 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:1 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:2 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:3 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:4 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:5 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:6 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:7 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:8 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:9 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:10 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:11 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:12 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:13 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:14 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:15 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:16 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:17 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:18 FAIL: group:ll_mm file:work/sim/ldo/ldo_tb.8_ldo_ext/batch_1/ll_mm/ldo_ac_loop.csv Index:19
LDO Output Voltage vs Temperature
LDO Output Voltage vs Temperature (Monte Carlo)
LDO Output Voltage vs VDD
LDO Output Voltage vs VDD (Monte Carlo)
LDO Output Voltage vs Load Current
LDO Output Voltage vs Load Current (Monte Carlo)
1V Line Transient
200uA Load Transient
AC Loopgain PM (Monte Carlo)
v(vdd)_('tt',_-2)__744781268f63d499334ec11aa5b1bf9b.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__77a6f9ffbaae0c36f9d4f7a926eec6b5.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__77a6f9ffbaae0c36f9d4f7a926eec6b5.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__77a6f9ffbaae0c36f9d4f7a926eec6b5.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__77a6f9ffbaae0c36f9d4f7a926eec6b5.png)
v(vldo)group_('ff',_-2),_('hh',_-2),_('tt',_-2),_('ll',_-2),_('ss',_-2)__4a17ff07c51788f19fb3341308999003.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__5cd2f1d25c91f5294677a6ef5dabe2aa.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__5cd2f1d25c91f5294677a6ef5dabe2aa.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__5cd2f1d25c91f5294677a6ef5dabe2aa.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__5cd2f1d25c91f5294677a6ef5dabe2aa.png)
v(vldo)group_('ff',_-2),_('hh',_-2),_('tt',_-2),_('ll',_-2),_('ss',_-2)__d136f91180b00a3b70cbdba575b1ae03.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__636d0f72c10ab35bab2e8af2bcd5c61d.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__636d0f72c10ab35bab2e8af2bcd5c61d.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__636d0f72c10ab35bab2e8af2bcd5c61d.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__636d0f72c10ab35bab2e8af2bcd5c61d.png)
,_('hh',_-2),_('tt',_-2),_('ll',_-2),_('ss',_-2)__520cd1a858bc5d1a4c1e1d95f8ef7de5.png)
,_('hh',_-2),_('tt',_-2),_('ll',_-2),_('ss',_-2)__277b066cc3d6ff8a4a7d32220f2eff36.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__0e3d9af6f82b5589de22ed9ff81f69a8.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__0e3d9af6f82b5589de22ed9ff81f69a8.png)
group_('ff',_-2),_('hh',_-2),_('tt',_-2),_('ll',_-2),_('ss',_-2)__c6f1621216fbf421e184df6be2d356ef.png "1V Line Transient")
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__a34d1f938e10ffd2848a430b6d198282.png)
group_('ff',_-2),_('hh',_-2),_('tt',_-2),_('ll',_-2),_('ss',_-2)__03f831caf24373c04bd4aea9b49bca52.png "200uA Load Transient")
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__338688c165618838860906e4c55bdf86.png)
,_('hh_mm',_-2),_('tt_mm',_-2),_('ll_mm',_-2),_('ss_mm',_-2)__77965deb46de4493edb6d9f80a1da658.png)