def calc_Ctot():
if can_calc_Ctot():
global Ctot
Ctot = C1 * C2 / (C1 + C2)
setCapacitanceData("Ctot", Ctot)
else:
scpi("DISP:ERROR \"Enter C1 and C2\"")
def inputCapacitance(name, capacitance):
value = scpi('DISP:INPUT? "' + name + '",NUMBER,FARAD,-1E15,1E15,' +
(str(capacitance) if capacitance != None else "1E-6"))
if value != None:
capacitance = float(value)
scpi('DISP:DIALog:DATA "' + name + '",FLOAT,FARAD,' + str(capacitance))
return capacitance
def calc_C1():
if can_calc_C1():
global C1
C1 = C2 * Ctot / (C2 - Ctot)
setCapacitanceData("C1", C1)
else:
scpi("DISP:ERROR \"Enter C2 and Ctot\"")
def calc_C2():
if can_calc_C2():
global C2
C2 = C1 * Ctot / (C1 - Ctot)
setCapacitanceData("C2", C2)
else:
scpi("DISP:ERROR \"Enter C1 and Ctot\"")
def calc_Rtot():
if can_calc_Rtot():
global Rtot
Rtot = R1 * R2 / (R1 + R2)
setResistanceData("Rtot", Rtot)
else:
scpi("DISP:ERROR \"Enter R1 and R2\"")
def calc_R2():
if can_calc_R2():
global R2
R2 = R1 * Rtot / (R1 - Rtot)
setResistanceData("R2", R2)
else:
scpi("DISP:ERROR \"Enter R1 and Rtot\"")
def calc_R1():
if can_calc_R1():
global R1
R1 = R2 * Rtot / (R2 - Rtot)
setResistanceData("R1", R1)
else:
scpi("DISP:ERROR \"Enter R2 and Rtot\"")
def select_type():
global circuitType
value = scpi('DISP:SELECT? ' + str(circuitType + 1) +
',"R or L in parallel","C in series"')
if value != None and value != 0:
circuitType = value - 1
scpi("DISP:DIALog:DATA \"type\",INTEGER," + str(circuitType))
def select_device_type():
global deviceType
value = scpi('DISP:SELECT? ' + str(deviceType + 1) +
',"NPN BJT","PNP BJT","N-Ch MOSFET","P-Ch MOSFET"')
if value != None and value != 0:
deviceType = value - 1
scpi("DISP:DIALog:DATA \"device_type\",INTEGER," + str(deviceType))
def input_voltage():
global voltage, max_voltage
value = scpi('DISP:INPUT? "",NUMBER,VOLT,0.0,' + str(max_voltage) + '.0,' + str(voltage))
if value != None:
voltage = float(value)
scpi('DISP:DIALog:DATA "voltage",FLOAT,VOLT,' + str(voltage))
scpi('DISP:DIALog:DATA "can_set_voltage",INT,1')
def input_device_name():
global deviceName
value = scpi('disp:input? "Device name",TEXT,1,20,"' + (deviceName if deviceName != None else "") + '"')
if value != None:
deviceName = value
scpi('DISP:DIALog:DATA "device_name",STRING,"' + deviceName + '"')
scpi('DISP:DIALog:DATA "can_start",INTEGER,1')
def input_diode_name():
global diode_name
value = scpi('disp:input? "Diode name",TEXT,1,20,"' + (diode_name if diode_name != None else "") + '"')
if value != None:
diode_name = value
scpi('DISP:DIALog:DATA "diode_name",STRING,"' + diode_name + '"')
update_can_start()
def inputVoltage(name, voltage):
value = scpi('DISP:INPUT? "' + name + '",NUMBER,VOLT,-1E6,1E6,' +
(str(voltage) if voltage != None else "1"))
if value != None:
voltage = float(value)
scpi('DISP:DIALog:DATA "' + name + '",FLOAT,VOLT,' + str(voltage))
return voltage
def inputResistance(name, resistance):
value = scpi('DISP:INPUT? "' + name + '",NUMBER,OHM,-1E15,1E15,' +
(str(resistance) if resistance != None else "1E3"))
if value != None:
resistance = float(value)
scpi('DISP:DIALog:DATA "' + name + '",FLOAT,OHM,' + str(resistance))
return resistance
def main():
global charge_voltage
global charge_current
global termination_current
global datalog_filename
calc = calculator()
charge = charger()
scpi('DISP:DIAL:OPEN "/Scripts/CC-CV Battery Charge.res"')
try:
while True:
display_setup_pane()
action = scpi('DISP:DIALog:ACTIon?')
if action == 'input_charge_current':
charge_current = input_float('AMPER', 0, 5, charge_current)
elif action == 'input_charge_voltage':
charge_voltage = input_float('VOLT', 0, 40, charge_voltage)
elif action == 'input_termination_current':
termination_current = input_float('AMPER', 0, 5, charge_current)
elif action == 'input_filename':
datalog_filename = input_text(2, 30, datalog_filename)
elif action == 'view_calculator':
calc.loop()
elif action == 'start':
charge.loop()
elif action == 'close' or action == 0:
break
finally:
scpi('DISP:DIAL:CLOS')
def input_charge_current():
global charge_current
value = scpi('DISP:INPUT? "Charge current",NUMBER,AMPER,0.0,80.0,' +
str(charge_current))
if value != None:
charge_current = float(value)
scpi('DISP:DIALog:DATA "charge_current", FLOAT, AMPER,' +
str(charge_current))
def input_reform_time():
global reform_time
value = scpi('DISP:INPUT? "Reform duration",NUMBER,SECOND,10.0,7200.0,' +
str(reform_time))
if value != None:
reform_time = float(value)
scpi('DISP:DIALog:DATA "reform_time", FLOAT, SECOND,' +
str(reform_time))
def select_type():
global opAmpType
value = scpi(
'DISP:SELECT? ' + str(opAmpType + 1) +
',"Non-inverting","Inverting","Diff. simplified","Differential"')
if value != None and value != 0:
opAmpType = value - 1
scpi("DISP:DIALog:DATA \"type\",INTEGER," + str(opAmpType))
def input_cap_max_volt():
global cap_max_volt
value = scpi('DISP:INPUT? "Max Cap Voltage",NUMBER,VOLT,1.0,' +
str(module_max_volt) + ',' + str(cap_max_volt))
if value != None:
cap_max_volt = float(value)
scpi('DISP:DIALog:DATA "cap_max_volt", FLOAT, VOLT,' +
str(cap_max_volt))
def update_can_init(slot_index):
if slots[slot_index]["model"] != slots_orig[slot_index]["model"] or slots[
slot_index]["version_r"] != slots_orig[slot_index][
"version_r"] or slots[slot_index]["version_b"] != slots_orig[
slot_index]["version_b"]:
scpi("DISP:DIALog:DATA \"slot" + str(slot_index + 1) +
"_can_init\",INT,1")
else:
scpi("DISP:DIALog:DATA \"slot" + str(slot_index + 1) +
"_can_init\",INT,0")
def done_loop(self):
while True:
self.display_done_pane()
action = scpi('DISP:DIALog:ACTIon?')
if action == 'start':
break
elif action == 'view_datalog':
scpi('DISP:WINDOW:DLOG')
elif action == 'close' or action == 0:
# TODO this wont actually exit...
break
def inputAmperage(name, amperage, min, max):
value = scpi('DISP:INPUT? "' + name + '",NUMBER,AMPER,' + str(min) + ',' +
str(max) + ',' + str(amperage))
if value != None:
amperage = float(value)
updateData(name, 'AMPER', amperage)
return amperage
def select_version_b(slot_index):
value = scpi('DISP:INPUT? "",INT,0,255,' +
str(slots[slot_index]["version_b"]))
if value != None:
slots[slot_index]["version_b"] = value
update_model_and_version(slot_index)
update_can_init(slot_index)
def inputVoltage(name, voltage, min, max):
value = scpi('DISP:INPUT? "' + name + '",NUMBER,VOLT,' + str(min) + ',' +
str(max) + ',' + str(voltage))
if value != None:
voltage = float(value)
updateData(name, 'VOLT', voltage)
return voltage
def discharge_cap():
global channel
setU(channel, 0.0)
setI(channel, 0.1) # Must be >= 10mA otherwise Downprogrammer is off.
scpi("DISP:WINDOW:TEXT \"Discharging...\"")
scpi("OUTP 1")
sleep_ms(1000)
while getU(channel) > 0.5:
sleep_ms(100)
scpi("DISP:WINDOW:TEXT:CLEAR")
setI(channel, 0.1)
scpi("OUTP 0")
def select_model(slot_index):
model_names = ",".join(map(lambda x: '"' + x["name"] + '"', MODELS))
value = scpi('DISP:SELECT? ' + str(slots[slot_index]["model"] + 1) + ',' +
model_names)
if value != None and value != 0:
value = value - 1
slots[slot_index]["model"] = value
slots[slot_index]["version_r"] = MODELS[value]["r"]
slots[slot_index]["version_b"] = MODELS[value]["b"]
update_model_and_version(slot_index)
update_can_init(slot_index)
def get_slots_info():
num_channels = scpi("SYSTem:CHANnel?")
for channel_index in range(num_channels):
slot_index = scpi("SYST:CHAN:SLOT? CH" + str(channel_index + 1)) - 1
model = scpi("SYST:CHAN:MOD? CH" + str(channel_index + 1))
for i in range(len(MODELS)):
if MODELS[i]["name"] == model:
slots[slot_index]["model"] = i
version = scpi("SYST:CHAN:VERS? CH" + str(channel_index + 1))
i = version.index('R')
j = version.index('B')
slots[slot_index]["version_r"] = int(version[i + 1:j])
slots[slot_index]["version_b"] = int(version[j + 1:])
break
else:
slots[slot_index]["model"] = MODEL_NONE
slots[slot_index]["version_r"] = 0
slots[slot_index]["version_b"] = 0
global slots_orig
slots_orig = [
{
"model": slots[0]["model"],
"version_r": slots[0]["version_r"],
"version_b": slots[0]["version_b"]
},
{
"model": slots[1]["model"],
"version_r": slots[1]["version_r"],
"version_b": slots[1]["version_b"]
},
{
"model": slots[2]["model"],
"version_r": slots[2]["version_r"],
"version_b": slots[2]["version_b"]
},
]
def update_model_and_version(slot_index):
scpi("DISP:DIALog:DATA \"slot" + str(slot_index + 1) + "_model\",STR,\"" +
MODELS[slots[slot_index]["model"]]["name"] + "\"")
scpi("DISP:DIALog:DATA \"slot" + str(slot_index + 1) +
"_version_r\",INT," + str(slots[slot_index]["version_r"]))
scpi("DISP:DIALog:DATA \"slot" + str(slot_index + 1) +
"_version_b\",INT," + str(slots[slot_index]["version_b"]))
def get_slots_info():
for slot_index in range(3):
model = scpi("SYST:SLOT:MOD? " + str(slot_index + 1))
for i in range(len(MODELS)):
if MODELS[i]["name"] == model:
slots[slot_index]["model"] = i
version = scpi("SYST:SLOT:VERS? " + str(slot_index + 1))
i = version.index('R')
j = version.index('B')
slots[slot_index]["version_r"] = int(version[i + 1:j])
slots[slot_index]["version_b"] = int(version[j + 1:])
break
else:
slots[slot_index]["model"] = MODEL_NONE
slots[slot_index]["version_r"] = 0
slots[slot_index]["version_b"] = 0
global slots_orig
slots_orig = [
{
"model": slots[0]["model"],
"version_r": slots[0]["version_r"],
"version_b": slots[0]["version_b"]
},
{
"model": slots[1]["model"],
"version_r": slots[1]["version_r"],
"version_b": slots[1]["version_b"]
},
{
"model": slots[2]["model"],
"version_r": slots[2]["version_r"],
"version_b": slots[2]["version_b"]
},
]
def slot_init(slot_index):
try:
scpi("INST:MEMO " + str(slot_index + 1) + ",0,2," +
str(MODELS[slots[slot_index]["model"]]["id"]))
scpi("INST:MEMO " + str(slot_index + 1) + ",2,2,#H" +
to_hex_str(slots[slot_index]["version_r"]) +
to_hex_str(slots[slot_index]["version_b"]))
scpi("INST:MEMO " + str(slot_index + 1) +
",4,2,#HFFFF") # firmware is not installed
except:
error("Failed to write to module EEPROM.")
return
slots_orig[slot_index]["model"] = slots[slot_index]["model"]
slots_orig[slot_index]["version_r"] = slots[slot_index]["version_r"]
slots_orig[slot_index]["version_b"] = slots[slot_index]["version_b"]
update_can_init(slot_index)
global can_restart
if not can_restart:
can_restart = 1
scpi("DISP:DIALog:DATA \"can_restart\",INT,1")
