from k2612B import run
import time
N = 1
group_path = 'asd'
plotFlag = 1
saveFlag = 0
for i in range(1, N + 1):
print(str(i))
run(i, group_path, plotFlag, saveFlag)
# time.sleep(60)
# 'led3': N = 50, wait_time = 0.01
N = 1
wait_time = 6 * P('m')
group_path = 'Auto calentamiento, dt = 6ms, NPLC = 0.1, espera 10s, datos=6 BIS'
#modes available: 'iv', 'led1', 'led2' (refer to help for specifics)
mode = 'led1'
NPLC = 0.001
iPolarization_led = "none"
plotFlag = 1
saveFlag = 0
for j in range(1, N + 1):
run(j, mode, group_path, plotFlag, saveFlag, wait_time, NPLC,
iPolarization_led)
#time.sleep(10)
#%% # ESTA FUNCION ES PARA MEDIR UNA CURVA ISIPM ILED EN FUNCION DEL WAIT TIME.
from k2612B import run
from functions import P
import time
wait_time = [1e-7, 1e-6, 1e-5, 0.0001, 0.001, 0.01, 0.025, 0.05, 0.075, 0.1]
N = 1
group_path = [
"1e-7", "1e-6", "1e-5", "0.0001", "0.001", "0.01", "0.025", "0.05",
"0.075", "0.1"
]
# 'led1': N = 50, wait_time < 0.01
# 'led2': N = 1, wait_time = 0.1, measurements = 10000
# (total time of measurement would be 1000s measured in [ms])
N = 1
wait_time = 10*P('m')
group_path = '10ms'
#modes available: 'iv', 'led1', 'led2' (refer to help for specifics)
mode = 'led1'
plotFlag = 1
saveFlag = 1
for j in range(1, N + 1):
run(j, mode, group_path, plotFlag, saveFlag, wait_time)
#%%
from k2612B import run
from functions import P
import time
N = 1
wait_time = [100*P('n'), 1*P('u'), 10*P('u'), 100*P('u'), 1*P('m'), 10*P('m'), 25*P('m'), 50*P('m'), 75*P('m'), 100*P('m')]
folders = ["1e-7", "1e-6", "1e-5", "0.0001", "0.001", "0.01", "0.025", "0.05", "0.075", "0.1"]
#modes available: 'iv', 'led1', 'led2' (refer to help for specifics)
mode = 'led1'
plotFlag = 1
saveFlag = 1
from k2612B import run
import time
#import winsound
N = 1
group_path = 'test'
test = ['LabOSat']
plotFlag = 1
saveFlag = 1
for i in range(1, N + 1):
print(str(i))
run(i, test[0], group_path, plotFlag, saveFlag)
time.sleep(0)
#winsound.Beep(750, 750)
#winsound.Beep(750, 750)
#winsound.Beep(750, 750)
#winsound.Beep(1000, 1000)