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Added tc for the Ametek 7265

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Change-Id: Ifd8e55b2da14cb41391f72787cd726951192ec95
This commit is contained in:
Oksana Shliakhtun 2023-07-12 15:13:35 +02:00
parent 161fb7b2ca
commit dc59906c8a
1 changed files with 111 additions and 69 deletions
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180
frappy_psi/SR.py
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@ -29,7 +29,7 @@ from frappy.errors import RangeError
class SR_IO(StringIO): class SR_IO(StringIO):
end_of_line = b'\x00' end_of_line = b'\x00'
identification = [('ID', r'.*')] # Identification; causes the lock-in amplifier to respond with the number 7270 identification = [('ID', r'72.*')] # Identification; causes the lock-in amplifier to respond with the model number
def communicate(self, cmd): # remove dash from terminator def communicate(self, cmd): # remove dash from terminator
reply = super().communicate(cmd) reply = super().communicate(cmd)
@ -39,7 +39,7 @@ class SR_IO(StringIO):
class XY(HasIO, Readable): class XY(HasIO, Readable):
value = Parameter('X, Y', datatype=TupleOf(FloatRange(unit='V'), FloatRange(unit='V'))) value = Parameter('X, Y', datatype=TupleOf(FloatRange(unit='V'), FloatRange(unit='V')))
freq = Parameter('oscill. frequen. control', FloatRange(0.001, 250e3), unit='Hz', readonly=False) freq = Parameter('oscill. frequen. control', FloatRange(0, 250e3), unit='Hz', readonly=False)
amp = Parameter('oscill. amplit. control', FloatRange(0.00, 5), unit='V_rms', readonly=False) amp = Parameter('oscill. amplit. control', FloatRange(0.00, 5), unit='V_rms', readonly=False)
range = Parameter('sensitivity value', FloatRange(0.00, 1), unit='V', default=1, readonly=False) range = Parameter('sensitivity value', FloatRange(0.00, 1), unit='V', default=1, readonly=False)
autorange = Parameter('autorange_on', EnumType('autorange', off=0, soft=1, hard=2), autorange = Parameter('autorange_on', EnumType('autorange', off=0, soft=1, hard=2),
@ -52,53 +52,37 @@ class XY(HasIO, Readable):
)} )}
irange = Parameter('sensitivity index', EnumType('sensitivity index range', sen_range), readonly=False) irange = Parameter('sensitivity index', EnumType('sensitivity index range', sen_range), readonly=False)
time_const = {name: value for value, name in enumerate(
['10us', '20us', '50us', '100us', '200us', '500us', '1ms', '2ms', '5ms', '10ms',
'20ms', '50ms', '100ms', '200ms', '500ms', '1s', '2s', '5s', '10s', '20s', '50s',
'100s', '200s', '500s', '1ks', '2ks', '5ks', '10ks', '20ks', '50ks', '100ks']
)}
tc = Parameter('time const. value', FloatRange(0.00001, 100000), unit='s', readonly=False)
itc = Parameter('time const. index', EnumType('time const. index range', time_const), readonly=False)
nm = Parameter('noise mode on', BoolType(), readonly=False) nm = Parameter('noise mode on', BoolType(), readonly=False)
phase = Parameter('reference phase control', FloatRange(-360, 360), unit='deg', readonly=False) phase = Parameter('reference phase control', FloatRange(-360, 360), unit='deg', readonly=False)
vmode = Parameter('control mode', EnumType(both_grounded=0, A=1, B=2, A_B_diff=3), readonly=False) vmode = Parameter('control mode', EnumType(both_grounded=0, A=1, B=2, A_B_diff=3), readonly=False)
# filter = Parameter('line frequency filter', unit='Hz')
# dac = Parameter('output DAC channel value', datatype=TupleOf(IntRange(1, 4), FloatRange(0.0, 5000, unit='mV')),
# readonly=False, initwrite=True, default=(3,0))
# dac = Parameter('output DAC channel value', FloatRange(-10000, 10000, unit='mV'),
# readonly=False, initwrite=True, default=0)
ioClass = SR_IO ioClass = SR_IO
def string_to_value(self, value): def read_status(self):
value_with_unit = re.compile(r'(\d+)([pnumkMG]?)') pass
value, pfx = value_with_unit.match(value).groups()
pfx_dict = {'p': 1e-12, 'n': 1e-9, 'u': 1e-6, 'm': 1e-3, 'k': 1e3, 'M': 1e6, 'G':1e9}
if pfx in pfx_dict:
value = round(float(value) * pfx_dict[pfx], 12)
return float(value)
def comm(self, cmd): def comm(self, cmd):
reply, status, overload = self.communicate(cmd).split(';') reply, status, overload = self.communicate(cmd).split(';') # try/except
reply = reply.rstrip('\n') reply = reply.rstrip('\n')
if overload != '0': if overload != '0':
self.status = (self.Status.WARN, f'overload {overload}') self.status = (self.Status.WARN, f'overload {overload}')
self.status = (self.Status.IDLE, '') self.status = (self.Status.IDLE, '')
return reply return reply
def comparison(self, curr_value, new_value, value_dict): def string_to_value(self, value):
c_ind = None # closest index """
c_diff = None # closets difference This method is used for writing methods (sensitivity range and time constant in particular). As the dictionaries
with names were used (pop-up list in gui) this method transforms names into float values, that can be used
for index, value in value_dict.items(): further.
if c_diff is None or abs(new_value - value) < c_diff: :param value:
c_ind = index :return:
c_diff = abs(new_value - value) """
value_with_unit = re.compile(r'(\d+)([pnumkMG]?)')
if abs(curr_value - new_value) < c_diff: value, pfx = value_with_unit.match(value).groups()
return c_ind pfx_dict = {'p': 1e-12, 'n': 1e-9, 'u': 1e-6, 'm': 1e-3, 'k': 1e3, 'M': 1e6, 'G':1e9}
if pfx in pfx_dict:
value = round(float(value) * pfx_dict[pfx], 12)
return float(value)
def read_value(self): def read_value(self):
reply = self.comm('XY.').split(',') reply = self.comm('XY.').split(',')
@ -158,14 +142,13 @@ class XY(HasIO, Readable):
def write_range(self, target): def write_range(self, target):
cl_idx = None cl_idx = None
cl_diff = float('inf')
for name, idx in self.sen_range.items(): for name, idx in self.sen_range.items():
value = self.string_to_value(name) value = self.string_to_value(name)
diff = abs(value - target) if value < target < self.sen_range.get(idx + 1, float('inf')):
if diff < cl_diff: cl_idx = idx + 1
elif value == target:
cl_idx = idx cl_idx = idx
cl_diff = diff
self.write_irange(cl_idx) self.write_irange(cl_idx)
return self.read_range() return self.read_range()
@ -178,36 +161,6 @@ class XY(HasIO, Readable):
self.read_nm() self.read_nm()
return value return value
def read_tc(self):
reply = self.comm('TC.')
return float(reply)
def write_tc(self, target):
cl_idx = None
cl_diff = float('inf')
for name, idx in self.time_const.items():
value = self.string_to_value(name)
diff = abs(value - target) # range is the actual value, like SEN.
if diff < cl_diff:
cl_idx = idx
cl_diff = diff
if self.nm:
if cl_idx < 5 or cl_idx > 9:
idx = self.read_tc()
raise RangeError('Not allowed with noisemode=1')
self.comm(f'TC {cl_idx}')
return self.read_tc()
def read_itc(self):
return int(self.comm('TC'))
def write_itc(self, itc):
value = int(itc)
self.comm(f'TC {value}')
self.read_tc()
return value
# phase and autophase # phase and autophase
def read_phase(self): def read_phase(self):
reply = self.comm('REFP.') reply = self.comm('REFP.')
@ -230,3 +183,92 @@ class XY(HasIO, Readable):
value = int(vmode) value = int(vmode)
self.comm(f'VMODE {value}') self.comm(f'VMODE {value}')
return value return value
class XY70(XY):
time_const = {name: value for value, name in enumerate(
['10us', '20us', '50us', '100us', '200us', '500us', '1ms', '2ms', '5ms', '10ms',
'20ms', '50ms', '100ms', '200ms', '500ms', '1s', '2s', '5s', '10s', '20s', '50s',
'100s', '200s', '500s', '1ks', '2ks', '5ks', '10ks', '20ks', '50ks', '100ks']
)}
tc = Parameter('time const. value', FloatRange(0.00001, 100000), unit='s', readonly=False)
itc = Parameter('time const. index', EnumType('time const. index range', time_const), readonly=False)
ioClass = SR_IO
def comm(self, cmd):
reply, status, overload = self.communicate(cmd).split(';')
reply = reply.rstrip('\n')
if overload != '0':
self.status = (self.Status.WARN, f'overload {overload}')
self.status = (self.Status.IDLE, '')
return reply
def read_tc(self):
reply = self.comm('TC.')
return float(reply)
def write_tc(self, target):
cl_idx = None
cl_diff = float('inf')
for name, idx in self.time_const.items():
value = self.string_to_value(name)
diff = abs(value - target) # range is the actual value, like SEN.
if diff < cl_diff:
cl_idx = idx
cl_diff = diff
if self.nm is False or (self.nm is True and 5 <= cl_idx <= 9):
self.comm(f'TC {cl_idx}')
return self.read_tc()
raise RangeError('Not allowed with noisemode=1')
def read_itc(self):
return int(self.comm('TC'))
def write_itc(self, itc):
value = int(itc)
self.comm(f'TC {value}')
self.read_tc()
return value
class XY65(XY):
time_const = {name: value for value, name in enumerate(
['10us', '20us', '40us', '80us', '160us', '320us', '640us', '5ms', '10ms', '20ms',
'50ms', '100ms', '200ms', '500ms', '1s', '2s', '5s', '10s', '20s', '50s', '100s',
'200s', '500s', '1ks', '2ks', '5ks', '10ks', '20ks', '50ks', '100ks']
)}
def read_tc(self):
reply = self.comm('TC.')
return float(reply)
def write_tc(self, target):
cl_idx = None
cl_diff = float('inf')
for name, idx in self.time_const.items():
value = self.string_to_value(name)
diff = abs(value - target) # range is the actual value, like SEN.
if diff < cl_diff:
cl_idx = idx
cl_diff = diff
if self.nm is False or (self.nm is True and 5 <= cl_idx <= 9):
self.comm(f'TC {cl_idx}')
return self.read_tc()
raise RangeError('Not allowed with noisemode=1')
def read_itc(self):
return int(self.comm('TC'))
def write_itc(self, itc):
value = int(itc)
self.comm(f'TC {value}')
self.read_tc()
return value