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40 Commits

Author SHA1 Message Date
JayC319 0afbe66229 [update] edc 1.5 library 2022-08-22 13:58:39 +08:00
peterlu14 612785f51a [update] EIS show data 2022-08-16 19:40:27 +08:00
peterlu14 7dbf09e9a5 [update] EIS show data 2022-08-16 19:39:06 +08:00
peterlu14 ee64d43de1 [update] ca instruction b0 -> D3 2022-08-16 19:31:33 +08:00
peterlu14 60b91f0c1e [update] EIS add show data 2022-08-16 19:15:04 +08:00
Roy 8ac01bdf54 [update] update eis library 2022-08-16 19:10:18 +08:00
JayC319 0f90b16b6e [update] library product number 2022-08-16 17:35:06 +08:00
Roy 76e0a150d1 Merge remote-tracking branch 'origin/dev/Cali_mode' into dev/cc_cp_separate 2022-08-15 18:11:20 +08:00
JayC319 ecd4b9325d [update] 2022-08-15 18:09:40 +08:00
peterlu14 978b1254f0 Merge branch 'dev/debug' into dev/cc_cp_separate 2022-08-11 13:53:13 +08:00
peterlu14 26e02f2d40 [update] add data_show function print device data 2022-08-11 00:58:30 +08:00
peterlu14 ead98fe8da [debug] fix running_task is None bug 2022-08-10 14:03:04 +08:00
Roy 257958768f [update] new ca mode instruvtion 2022-08-05 18:34:33 +08:00
peterlu14 dc4e1bd233 Merge branch 'dev/fix_final_data_loss' into dev/cc_cp_separate 2022-08-05 10:27:33 +08:00
peterlu14 42025d2243 [update] fix cp mode voltage problem 2022-08-05 10:26:13 +08:00
Roy b341dbf073 [update] update instruction of cp mode 2022-08-04 18:12:23 +08:00
Roy 20f6f126b0 [update] fix STEP_TIME para 2022-08-04 16:48:51 +08:00
Roy bf4a00db1a [update] remove CC_ZERO instruction 2022-07-29 11:24:29 +08:00
peterlu14 0b7a650b95 [debug] fix final data loss & flag stop after writer write 2022-07-29 11:11:46 +08:00
Roy 062613c681 [update] fix step time on IV & Cycle-IV mode 2022-07-28 16:36:34 +08:00
Roy bffaff310b [update] update file name of elite library 2022-07-26 13:14:37 +08:00
Roy 06bf262d59 [update] new device library for elite eis1.1 mini 2022-07-13 10:03:40 +08:00
Roy b2f9d98336 [update] update elite device library 2022-07-06 16:23:12 +08:00
Roy a6b523404b [update] update elite device library 2022-07-05 18:20:32 +08:00
peterlu14 6c232b3b07 [update] fix struct.pack type error support signed int & max number type 2022-06-22 15:23:44 +08:00
peterlu14 cfc2bf1d83 Merge remote-tracking branch 'origin/rel/v.1.6.4/read_ram_debug' into rel/v.1.6.5/restruct_data_format 2022-06-22 13:18:03 +08:00
Roy 2b60e68197 [update] update eis decoder code 2022-06-22 13:11:57 +08:00
peterlu14 efb5e9aeb6 [update] add list struct update in new way & fix list parameter not valid & collection nested error & fixed encoder struct bytes wrong (singed, unsigned) 2022-06-17 19:54:42 +08:00
peterlu14 b4d88a0e67 [update] change elite pulse sensing paramter in array 2022-06-17 19:51:05 +08:00
peterlu14 6029ff6fe1 [update] FREQ & DPV_curr_rec max_min to array and add update array format 2022-06-15 16:48:23 +08:00
Roy 6efc5e1097 [update] hide log message 2022-06-10 17:36:13 +08:00
Roy a23394d3d1 Merge branch 'dev/eis_parameter_bug' into rel/v.1.6.4/read_ram_debug 2022-06-10 17:31:45 +08:00
Roy c96f76f438 [update] read RAM data bug 2022-06-10 17:22:10 +08:00
Roy f0f1c9fc49 [update] update eis json 2022-06-10 17:20:58 +08:00
peterlu14 512c80af40 [update] add new info id,name,status,mac_address,memory_board 2022-06-06 18:52:12 +08:00
Roy 499964b287 [update] fix TIME_DURATION in eis devlib 2022-05-23 17:42:12 +08:00
Roy 16f12d40bf [update] improve cp and cc mode - speed and resistance value 2022-05-20 12:11:56 +08:00
peterlu14 63c1ba8efb [update] update decorder mode in I4V4Z4T4 2022-05-18 16:16:17 +08:00
Roy 4a28348db4 [update] fix cp mode instruction and decoder 2022-05-18 11:06:23 +08:00
peterlu14 64dfe87d05 [update] remove decorder rebuild problem & add new parameter to control time duration 2022-05-18 10:19:08 +08:00
30 changed files with 6556 additions and 1669 deletions
+2
View File
@@ -1,5 +1,7 @@
.DS_Store
*.cpython-37.opt-2.pyc
*.cpython-39-arm-linux-gnueabihf.so
*.
*.pyc
*/__pycache__
/.vscode
+3
View File
@@ -1585,6 +1585,9 @@ class ControlAPI(metaclass=Router):
def stop_project(self, project) -> bool:
raise NotImplementedError()
def show_device_data(self, device) -> bool:
raise NotImplementedError()
# noinspection PyAbstractClass
class ControlClient(SocketClient, ControlAPI, metaclass=SocketClientMacro(ControlAPI)):
+11
View File
@@ -130,6 +130,14 @@ class DataAPI(metaclass=abc.ABCMeta):
def hardware_test(self) -> JSON_OBJECT:
""""""
pass
@abc.abstractmethod
def show_data(self, device: Union[int, Device]):
"""show device data
:param device: device ID
"""
pass
# noinspection PyAbstractClass
@@ -191,6 +199,9 @@ class DataClient(SocketClient, DataAPI, metaclass=SocketClientMacro(DataAPI)):
def stop_sync(self, *device: Union[int, Device]):
self.send_command('stop_sync', *self._to_device_id(*device))
def show_data(self, device: int):
self.send_command('show_data', device)
@staticmethod
def _to_device_id(*device: Union[int, Device]) -> Tuple[int, ...]:
+52 -55
View File
@@ -853,7 +853,7 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
__slots__ = ('_message', '_cycle_number', '_start_return_data', '_time_stamp',
'_total_time_stamp', '_mode', '_cycle_start_time',
'_mode_stop')
'_mode_stop', '_show_data')
def __init__(self):
super().__init__()
@@ -868,6 +868,8 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
self._mode = 0
self._cycle_start_time = []
self._show_data = False
@property
def name(self) -> str:
return self.NAME
@@ -881,14 +883,12 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
def decode(self, data: bytes) -> Optional[RecordingData]:
if len(data) < 18:
return None
voltage = 0
mem_cnt = data[1]
time_stamp: float = struct.unpack('<I', data[4:8])[0] # unit: ms 0x18030000
current = struct.unpack('<i', data[8:12])[0] # unit: nA
voltage = struct.unpack('<i', data[12:16])[0] # unit: uV
impedance = struct.unpack('<i', data[16:20])[0] # unit: mOm
if self._mode == 16:
voltage = impedance - voltage
cycle_number = struct.unpack('<H', data[20:22])[0]
finish_mode_falg = data[22]
@@ -917,9 +917,10 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
print("error timeStamp full data:", list(data), datetime.now(), '\n')
return None
else:
# print('|', time_stamp, '|', delta, '|', int(time_stamp * 1000 / 2),
# '|', current, '|', voltage, '|', impedance,
# '|', cycle_number, '|', finishMode, '@', str(self.device))
if self._show_data:
print('|', time_stamp, '|', delta, '|', int(time_stamp * 1000 / 2),
'|', current, '|', voltage, '|', impedance,
'|', cycle_number, '|', finishMode, '@', str(self.device))
# print('|', '{:10}'.format(time_stamp),
# '|', '{:4}'.format(delta),
@@ -948,18 +949,18 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
ret.append_data(1, voltage)
ret.append_data(2, impedance)
ret.append_data(3, cycle_number)
ret.append_data(4, battery)
ret.append_data(5, elite_notify_times)
ret.append_data(6, mem_cnt)
# ret.append_data(4, battery)
# ret.append_data(5, elite_notify_times)
# ret.append_data(6, mem_cnt)
# memoryboard information
ret.append_data(7, ram_num)
ret.append_data(8, broken_flag)
try:
ret.append_data(9, mem_wrong_information)
# print('append_data success, mem_wrong_information:', mem_wrong_information, hex(mem_wrong_information))
except:
print('append_data fail, mem_wrong_information:', mem_wrong_information, hex(mem_wrong_information))
# # memoryboard information
# ret.append_data(7, ram_num)
# ret.append_data(8, broken_flag)
# try:
# ret.append_data(9, mem_wrong_information)
# # print('append_data success, mem_wrong_information:', mem_wrong_information, hex(mem_wrong_information))
# except:
# print('append_data fail, mem_wrong_information:', mem_wrong_information, hex(mem_wrong_information))
@@ -1337,7 +1338,7 @@ class EISZeroOneDataDecoder(RecDataDecoder):
'_total_time_stamp', '_mode', '_cycle_start_time',
'_mode_stop', '_last_time_stamp', '_last_delta', '_cali_coeff',
'cali_coeff', '_ac_amp', '_mode', '_freq_start', '_freq_stop',
'_freq_direction', '_last_phase', '_first_phase_flag')
'_freq_direction', '_last_phase', '_first_phase_flag', '_show_data')
def __init__(self, cali_coeff: bytes = None):
super().__init__()
@@ -1361,6 +1362,8 @@ class EISZeroOneDataDecoder(RecDataDecoder):
self._cali_coeff: Optional[bytes] = None
self.cali_coeff: Optional[List[Tuple[int, int]]] = None
self._show_data = False
if cali_coeff is not None:
self._cali_coeff = cali_coeff
self.cali_coeff = self._decode_cali_coeff(cali_coeff)
@@ -1399,39 +1402,33 @@ class EISZeroOneDataDecoder(RecDataDecoder):
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0]/1e8)
hsrtia_b.append(struct.unpack('>i', cali_coeff[index+5:index+9])[0]/1e8)
hsrtia_c.append(struct.unpack('>i', cali_coeff[index+9:index+13])[0]/1e4)
hsrtia_d.append(struct.unpack('>B', cali_coeff[index+13:index+14])[0])
#Lv[1] 20k
index = 80
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0]/1e8)
hsrtia_b.append(struct.unpack('>i', cali_coeff[index+5:index+9])[0]/1e8)
hsrtia_c.append(struct.unpack('>i', cali_coeff[index+9:index+13])[0]/1e4)
hsrtia_d.append(struct.unpack('>B', cali_coeff[index+13:index+14])[0])
#Lv[2] 5k
index = 100
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0]/1e8)
hsrtia_b.append(struct.unpack('>i', cali_coeff[index+5:index+9])[0]/1e8)
hsrtia_c.append(struct.unpack('>i', cali_coeff[index+9:index+13])[0]/1e4)
hsrtia_d.append(struct.unpack('>B', cali_coeff[index+13:index+14])[0])
#Lv[3] 200R
index = 120
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0]/1e8)
hsrtia_b.append(struct.unpack('>i', cali_coeff[index+5:index+9])[0]/1e8)
hsrtia_c.append(struct.unpack('>i', cali_coeff[index+9:index+13])[0]/1e4)
hsrtia_d.append(struct.unpack('>B', cali_coeff[index+13:index+14])[0])
# hsrtia_a.append(struct.unpack('>I', cali_coeff[index+1:index+5])[0])
# hsrtia_b.append(struct.unpack('>I', cali_coeff[index+5:index+9])[0]/1e6)
# hsrtia_c.append(struct.unpack('>I', cali_coeff[index+9:index+13])[0]/1e5)
# hsrtia_d.append(struct.unpack('>I', cali_coeff[index+13:index+17])[0]/1e6)
# print('cutoff_freq', cutoff_freq)
# print('hsrtia_a', hsrtia_a)
# print('hsrtia_b', hsrtia_b)
# print('hsrtia_c', hsrtia_c)
# print('hsrtia_d', hsrtia_d)
# print('phase_para_a', phase_para_a)
# print('phase_para_b', phase_para_b)
@@ -1551,34 +1548,34 @@ class EISZeroOneDataDecoder(RecDataDecoder):
imag_after_cal = impedance * math.sin(round(phase) * math.pi / 180)
real_after_cal = impedance * math.cos(round(phase) * math.pi / 180)
if (self._mode == 0):
# print('|', '{:10}'.format(time_stamp),
# '|', '{:5}'.format(delta),
# '|', '{:6}'.format(ch1),
# '|', '{:6}'.format(ch2),
# '|', '{:8}'.format(ch3 / 100),
# '|', '{:6}'.format(round(voltage_mag)),
# '|', '{:5}'.format(int(imag_after_cal)),
# '|', '{:5}'.format(int(real_after_cal)),
# '|', '{:5}'.format(round(impedance)),
# '|', '{:5}'.format(round(phase, 1)),
# '|', '{:5}'.format(round(current, 3)),
# '|', '{:1}'.format(gain),
# '|', '{:1}'.format(finishMode),
# '@', str(self.device), '|')
pass
else:
# print('|', '{:10}'.format(time_stamp),
# '|', '{:5}'.format(delta),
# '|', '{:5}'.format(ch1),
# '|', '{:5}'.format(ch2),
# '|', '{:5}'.format(ch3),
# '|', '{:5}'.format(cycle_number),
# '|', '{:1}'.format(gain),
# '|', '{:1}'.format(finishMode),
# '@', str(self.device), '|')
pass
if self._show_data:
if (self._mode == 0):
print('|', '{:10}'.format(time_stamp),
'|', '{:5}'.format(delta),
'|', '{:6}'.format(ch1),
'|', '{:6}'.format(ch2),
'|', '{:8}'.format(ch3 / 100),
'|', '{:6}'.format(round(voltage_mag)),
'|', '{:5}'.format(int(imag_after_cal)),
'|', '{:5}'.format(int(real_after_cal)),
'|', '{:5}'.format(round(impedance)),
'|', '{:5}'.format(round(phase, 1)),
'|', '{:5}'.format(round(current, 3)),
'|', '{:1}'.format(gain),
'|', '{:1}'.format(finishMode),
'@', str(self.device), '|')
pass
else:
print('|', '{:10}'.format(time_stamp),
'|', '{:5}'.format(delta),
'|', '{:5}'.format(ch1),
'|', '{:5}'.format(ch2),
'|', '{:5}'.format(ch3),
'|', '{:5}'.format(cycle_number),
'|', '{:1}'.format(gain),
'|', '{:1}'.format(finishMode),
'@', str(self.device), '|')
pass
if finishMode == True:
print("finishMode full data:", list(data), datetime.now())
@@ -1588,10 +1585,10 @@ class EISZeroOneDataDecoder(RecDataDecoder):
ret = RecordingData(self.device, int(time_stamp * 1000 / 2), 0)
if (self._mode == 0): #EIS Mode
ret.append_data(3, cycle_number)
ret.append_data(0, ch1) #Raw Imag
ret.append_data(1, ch2) #Raw Real
ret.append_data(2, ch3 * 10) #Frequency [mHz]
ret.append_data(3, cycle_number)
ret.append_data(4, round(imag_after_cal)) #Z_imag [Ohm]
ret.append_data(5, round(real_after_cal)) #Z_real [Ohm]
ret.append_data(6, round(impedance)) #Impedance [Ohm]
@@ -1600,10 +1597,10 @@ class EISZeroOneDataDecoder(RecDataDecoder):
ret.append_data(9, gain) #Gain Level
else: #CV Mode
ret.append_data(3, cycle_number)
ret.append_data(0, ch1) #Iin [nA]
ret.append_data(1, ch2) #Vset [nV]
ret.append_data(2, ch3) #Vout [nV]
ret.append_data(3, cycle_number)
if cycle_number != self._cycle_number:
# notify cycle_number change
-13
View File
@@ -651,17 +651,9 @@ class DeviceInstruction:
VIS_DEVICE_DONE = 0x20
"""identify device done"""
VIS_CC_ZERO = 0x40
VIS_ASK = 0x30
"""ask in virtual instruction"""
VIS_STI = 0xC0
"""stimulation on virtual instruction"""
VIS_FUH = 0x90
"""flush virtual instruction"""
VIS_INT = 0x60
"""interrupt virtual instruction"""
@@ -732,7 +724,6 @@ class DeviceCommonInstruction:
STOP_STIMULATE = "stop_stimulate"
VIS_DEVICE_DETECT = 'VIS_DEVICE_DETECT'
VIS_DEVICE_DONE = 'VIS_DEVICE_DONE'
VIS_CC_ZERO = 'VIS_CC_ZERO'
CIS_VOLT = 'CIS_VOLT'
CIS_VERSION = 'CIS_VERSION'
@@ -750,16 +741,12 @@ class DeviceCommonInstruction:
return '_sync(False)', '_notify(False)', 'VIS_INT'
elif instruction == cls.CLOSE:
return '_sync(False)', '_notify(False)', 'VIS_INT'
elif instruction == cls.FLUSH:
return 'VIS_FUH',
elif instruction == cls.CALL:
return 'VIS_CAL',
elif instruction == cls.VIS_DEVICE_DETECT:
return 'VIS_DEVICE_DETECT',
elif instruction == cls.VIS_DEVICE_DONE:
return 'VIS_DEVICE_DONE',
elif instruction == cls.VIS_CC_ZERO:
return 'VIS_CC_ZERO',
elif instruction == cls.RECORD:
return 'VIS_STARTR',
elif instruction == cls.RECORD_ALL:
+15 -2
View File
@@ -4,6 +4,7 @@ from biopro.util.text import part_suffix
from . import *
from .expression import *
import json
class DeviceParameterError(RuntimeError):
__slots__ = ()
@@ -309,6 +310,8 @@ class ParameterValueDomain(ParameterDomain, metaclass=abc.ABCMeta):
return f
def valid_para(self, value: Any) -> bool:
if isinstance(value, list):
return True
f, t = self.range
return f <= float(value) < t
@@ -489,8 +492,12 @@ class ParameterCollectionValueOperator(metaclass=abc.ABCMeta):
@classmethod
def parse(cls, expr: Union[int, str]) -> 'ParameterCollectionValueOperator':
# parse epression then create value_operator
if isinstance(expr, int):
return SingleValueOperator(None, expr)
elif isinstance(expr, list):
return CollectValueOperator((0, len(expr)), expr)
elif expr == '*':
return AddAllValueOperator
@@ -498,6 +505,10 @@ class ParameterCollectionValueOperator(metaclass=abc.ABCMeta):
elif expr == ':=':
return CollectValueOperator((None, None), [])
elif '[' in expr and ']' in expr:
v = json.loads(expr)
return CollectValueOperator((0, len(v)), v)
elif '=' in expr:
a, v = part_suffix(expr, '=')
@@ -508,6 +519,7 @@ class ParameterCollectionValueOperator(metaclass=abc.ABCMeta):
return CollectValueOperator((None, None), v)
else:
# get list length (old way)
a, b = part_suffix(a, ':')
a = int(a) if len(a) else None
b = int(b) if len(b) else None
@@ -602,8 +614,8 @@ class ParameterCollectionDomain(ParameterDomain, metaclass=abc.ABCMeta):
def __init__(self, domain: ParameterDomain):
super().__init__()
if isinstance(domain, ParameterCollectionDomain):
raise RuntimeError('cannot compose with parameter collection domain')
# if isinstance(domain, ParameterCollectionDomain):
# raise RuntimeError('cannot compose with parameter collection domain')
self._domain = domain
@@ -725,6 +737,7 @@ class ParameterListDomain(ParameterCollectionDomain):
if oper == AddAllValueOperator:
raise ValueError("list parameter cannot accept '*' (all) value")
# d: domain, sz: lsit length, i: slice(a, b), v: list value
d = self.element_domain
sz = len(target)
i = oper.index(sz)
+7 -3
View File
@@ -119,7 +119,10 @@ class DeviceConfigurationEncoder:
e.write(b'L\0')
else:
parameter_type = cls._value_type(value[0])
parameter_type = cls._value_type(max(value))
for v in value:
if isinstance(v, int) and v < 0:
parameter_type = parameter_type.lower()
e.write(b'L')
e.write(parameter_type.encode())
e.u8(sz)
@@ -153,7 +156,8 @@ class DeviceConfigurationEncoder:
if isinstance(value, bool):
e.u8(1 if value else 0)
elif isinstance(value, str):
elif isinstance(value, str) or isinstance(value, list):
value = str(value)
e.encode_string(value)
elif isinstance(value, int):
@@ -170,7 +174,7 @@ class DeviceConfigurationEncoder:
if isinstance(value, bool):
return '?'
elif isinstance(value, str):
elif isinstance(value, str) or isinstance(value, list):
return 'p'
elif isinstance(value, int):
+14 -3
View File
@@ -510,9 +510,10 @@ class DeviceParameter(JsonSerialize):
:param para: parameter name
:param oper: operator expression
"""
# parse operator return CollectValueOperator instance
if not isinstance(oper, ParameterCollectionValueOperator):
oper = ParameterCollectionValueOperator.parse(oper)
table = self._library.parameter_table
info = table[para]
domain = info.domain
@@ -528,6 +529,7 @@ class DeviceParameter(JsonSerialize):
old = list(target)
try:
# replace target with new oper
domain.oper_para(target, oper, self._context)
except RuntimeError as e:
raise IllegalParameterValueError(para, str(oper)) from e
@@ -1012,6 +1014,10 @@ class CompletedDevice(Device):
def device_id(self) -> int:
return self._device_id
@property
def memory_board(self) -> int:
return self._device_id
@property
def device_name(self) -> str:
return self._device.device_name
@@ -1274,15 +1280,20 @@ class CompletedDevice(Device):
def as_json(self) -> JSON_OBJECT:
return {
'id': self.device_id,
'name': self.device_name,
'status': self._status,
'device_id': self.device_id,
'device_name': self.device_name,
'device_address': list(self.mac_address),
'device_status': self._status,
'mac_address': self.mac_address_in_str,
'memory_board': self.memory_board,
'serial_number': self.serial_number.as_json(),
'version': self.device_version,
'battery': self.battery,
'parent': self.parent,
'recording_file_name': self.recording_file_name,
'device_version': self.device_version,
'serial_number': self.serial_number.as_json(),
'library_name': self._library.name,
'library_version': str(self._library.version),
'configuration': self.configuration.as_json(list_hide=True),
+2
View File
@@ -76,6 +76,8 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
def set_pin_mem_req(self, value: bool):
channel = self.select
# if self._pin_mem_req_value[channel] == value:
# print('last_req_sig[channel] == value', channel, self._pin_mem_req_value[channel], value, datetime.now())
self.pin_mem_req.output(value)
self._pin_mem_req_value[channel] = value
+4 -4
View File
@@ -118,13 +118,13 @@ class Selector:
self._p2.output(p[2])
# if (value == 4 and self._last_sel != 6):
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel)
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel, datetime.now())
# elif (value == 5 and self._last_sel != 4):
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel)
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel, datetime.now())
# elif (value == 7 and self._last_sel != 5):
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel)
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel, datetime.now())
# elif (value == 6 and self._last_sel != 7):
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel)
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel, datetime.now())
self._last_sel = value
+4 -1
View File
@@ -211,6 +211,9 @@ class Project(threading.Thread):
return True
def as_json(self):
running_task = None
if self._task_manager.running_task is not None:
running_task = self._task_manager.running_task.as_json()
data = {
'id': self._id,
'name': self._name,
@@ -219,6 +222,6 @@ class Project(threading.Thread):
'status': self._status,
'device': self._device,
'task': self.task_list,
'running_task': self._task_manager.running_task.as_json()
'running_task': running_task
}
return data
+8 -5
View File
@@ -1131,14 +1131,17 @@ class RecordingFileWriter:
self._splitting_size = 0
return None
def close(self):
# if self._recording_file is not None:
# self._recording_file.close()
# self._recording_file = None
print('close1')
def close(self, mqtt_thread):
self._close = True
if len(self._recording_file_dict) > 0:
for ch in self._data_db.keys():
if len(self._data_rl[ch]) > 0:
self._data_rl[ch].append(str(int(self._time_now)))
mes = ' '.join(self._data_rl[ch])
mqtt_thread[ch].on_message(mes)
self._data_rl[ch].clear()
self._send_data[ch] = False
if self._recording_file_dict[ch]._status:
_data = ' '.join(self._data_db[ch])
self._raw_save['data'][ch] = _data
+16
View File
@@ -117,6 +117,9 @@ class DataServer(SocketServer, DataAPI):
self.database_process = DataBaseProcess('data_server', self.log_verbose, self._queue_db, self._queue_ds_dict, self._queue_msg)
self.database_process.start()
# self._no_data_total_duration = 0
# self._recv_memory_cost_time = 0
@logging_info
def setup(self):
self._available_channel.clear()
@@ -666,7 +669,17 @@ class DataServer(SocketServer, DataAPI):
print("q size= ", self._configurations[device]._queue_rec.qsize())
self._configurations[device].put_rec_queue(data)
# self._no_data_total_duration = 0
ret = True
# else:
# time_diff = time() - self._recv_memory_cost_time
# self._no_data_total_duration += time_diff
# if self._no_data_total_duration > 1:
# print('data is None', device, datetime.now(), self._no_data_total_duration)
# print("sync.get_pin_mem_req() != sync.get_pin_ram_sel()")
# print("no~", sync.select, sync.get_pin_mem_req(), sync.get_pin_ram_sel(), datetime.now())
# print()
# self._recv_memory_cost_time = time()
return ret
@@ -686,6 +699,9 @@ class DataServer(SocketServer, DataAPI):
self.mqtt_thread.publish('device_instruction', json_stringify(content), inter = True)
return True
def show_data(self, device):
self._configurations[device].put_rec_queue('show_data')
class DataRuntime(metaclass=abc.ABCMeta):
__slots__ = ('_server', '_device', '_meta_file', '_data_format',
+7
View File
@@ -1339,6 +1339,13 @@ class ControlServer(SocketServer, ControlServerAPI):
def _hardware_send_test_set(self, options: Dict[str, str]) -> bool:
# TODO write options files
return False
@logging_info
def show_device_data(self, device: int):
client = self.data_server.client()
if client is not None:
with client:
client.show_data(device)
class _RandomCrashThread(ServerThread):
def __init__(self):
+32 -23
View File
@@ -105,6 +105,9 @@ class RecordingProcess(Process):
self._mem_tailer_len = 6
self._single_data_len = self._elite_data_len + self._mem_header_len + self._mem_tailer_len
self._decoder = self.data_format()
self._start_time = time()
def ensure_data_format(self) -> DataDecodeFormat:
if isinstance(self._data_format, (str, bytes)):
self._data_format = DataDecodeFormat.parse(self._data_format)
@@ -133,9 +136,9 @@ class RecordingProcess(Process):
decoder._prev_data = self._prev_data
decoder._prev_delta_time = self._prev_delta_time
decoder._prev_time_stamp = self._prev_time_stamp
# elif isinstance(decoder, I4V4Z4T4DataDecoder):
elif isinstance(decoder, I4V4Z4T4DataDecoder):
# get cycle_time from meta file
# decoder._mode = self._meta_file.configuration.MODE
decoder._mode = self._meta_file.configuration.get_parameter('MODE')
# decoder._cycle_start_time = self._cycle_start_time
elif isinstance(decoder, NeuliveThreeOneDataDecoder):
# get amp_gain from meta file
@@ -151,9 +154,8 @@ class RecordingProcess(Process):
decoder._prev_time_stamp = self._prev_time_stamp
elif isinstance(decoder, EISZeroOneDataDecoder):
# get amp_gain from meta file
decoder._ac_amp = self._meta_file.configuration.get_parameter('AC_AMP')
decoder._mode = self._meta_file.configuration.get_parameter('MODE')
decoder._ac_amp = self._meta_file.configuration.get_parameter('AC_AMP')
decoder._freq_start = self._meta_file.configuration.get_parameter('FREQ_START')
decoder._freq_stop = self._meta_file.configuration.get_parameter('FREQ_STOP')
@@ -183,6 +185,8 @@ class RecordingProcess(Process):
self.final_write()
self.is_closed = True
return False
elif q == 'show_data':
self._decoder._show_data = not self._decoder._show_data
else:
self.rec_update()
self.sync_data(q)
@@ -200,14 +204,13 @@ class RecordingProcess(Process):
self._isTimeOut = True
self._timer = current_time
decoder = self.data_format()
# print('sync_data')
# print('data',data)
# print('server/data', self._prev_delta_time,self._prev_time_stamp, self._prev_data)
if data is None or len(data) == 0:
result = decoder.decode(b'')
result = self._decoder.decode(b'')
if result is not None:
ret = result
@@ -221,26 +224,13 @@ class RecordingProcess(Process):
for offset, section in self._foreach_data_section(data):
# for section in self._neu_foreach_data_section(data):
result = decoder.decode(section)
result = self._decoder.decode(section)
# if self._isTimeOut:
# try:
# print('result: ', result.data_size)
# except:
# pass
try:
if isinstance(decoder, I4V4Z4T4DataDecoder) or isinstance(decoder, EISZeroOneDataDecoder):
if decoder.isFinishMode is not None and decoder.isFinishMode() == 1:
self._queue_msg.put(['ds', self._device, 'interrupt'])
# content = {}
# content['header'] = 'device_instruction/0'
# content['device'] = result.device
# content['instruction'] = 'interrupt'
# self._mqtt_thread.publish('device_instruction',json_stringify(content), True)
# self.server.stop_sync(self.device)
except RuntimeError as e:
print(e)
if result is not None:
##
if len(self._mqtt_send_data_ch_level) == 0:
@@ -257,9 +247,27 @@ class RecordingProcess(Process):
self._writer.channels_update(ret[0].channels())
self._writer.write(ret, self._mqtt_send_data_ch_level)
# print('write time: ', time() - ctime1)
# print(ret)
try:
time_duration = self._meta_file.configuration.get_parameter('TIME_DURATION')
if time_duration and time_duration is not 0 and time() - self._start_time >= time_duration:
self._queue_msg.put(['ds', self._device, 'interrupt'])
return None
if isinstance(self._decoder, I4V4Z4T4DataDecoder) or isinstance(self._decoder, EISZeroOneDataDecoder):
if self._decoder.isFinishMode is not None and self._decoder.isFinishMode() == 1:
self._queue_msg.put(['ds', self._device, 'interrupt'])
return None
# content = {}
# content['header'] = 'device_instruction/0'
# content['device'] = result.device
# content['instruction'] = 'interrupt'
# self._mqtt_thread.publish('device_instruction',json_stringify(content), True)
# self.server.stop_sync(self.device)
except RuntimeError as e:
print(e)
del ret
del data
return
@@ -350,7 +358,8 @@ class RecordingProcess(Process):
if colum_total == 1:
print('this ram data < 3 records, colum_total = ', colum_total)
print('raw_data[0]', list(raw_data[0]))
return save
save = True
# return save
elif colum_total == 2:
print('this ram data < 3 records, colum_total = ', colum_total)
@@ -599,7 +608,7 @@ class RecordingProcess(Process):
def final_write(self):
if self._writer is not None:
return self._writer.close()
return self._writer.close(self._mqtt_send_data_ch_level)
else:
return False
@@ -1,14 +1,15 @@
{
"name": "EliteZM15",
"name": "Elite_BAT_1.0",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 2,
"minor_product_number": 3,
"major_version_number": 1,
"minor_version_number": 6
"minor_version_number": 0
},
"constant": {
"TIME_MAX": 100000,
"VOLT_MAX": 65536,
"Const_Current_Range": 1500001,
"BLE_WRITE_MAX": 255
@@ -113,6 +114,20 @@
"expression": "VALUE"
}
},
"DPV_curr_rec": {
"description": "DPV current recording period start",
"record_meta": true,
"initial": [
25,
100
],
"domain": {
"list": [
101
]
},
"value": "VALUE"
},
"DPV_curr_rec_min": {
"description": "DPV current recording period start",
"record_meta": true,
@@ -138,11 +153,8 @@
"DPV_pulse_option": {
"description": "Invert of pulse option",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
"domain": "bool",
"initial": false
},
"DPV_mode": {
"description": "AUTO: 0 / ADVANCED: 1/ ENGINEERING: 2",
@@ -157,11 +169,24 @@
"DPV_engineering_enable": {
"description": "Engineering mode switch",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
"domain": "bool",
"initial": false
},
"V_initial": {
"description": "Pulse Mode Segment Voltage",
"record_meta": true,
"initial": [
50000,
25000,
25000,
25000
],
"domain": {
"list": [
50001
]
},
"value": "VALUE"
},
"V_initial_0": {
"description": "Pulse Mode Segment Voltage 0",
@@ -207,6 +232,22 @@
"expression": "VALUE"
}
},
"t_pulse": {
"description": "Pulse Mode Segment Duration",
"record_meta": true,
"initial": [
750,
9250,
1000,
1000
],
"domain": {
"list": [
1000001
]
},
"value": "VALUE"
},
"t_pulse_0": {
"description": "Pulse Mode Segment Duration 0",
"record_meta": true,
@@ -251,6 +292,36 @@
"expression": "VALUE"
}
},
"CURR_REC": {
"description": "Pulse Mode Current Recording Period",
"record_meta": true,
"initial": [
[
35,
90
],
[
35,
99
],
[
35,
95
],
[
35,
95
]
],
"domain": {
"list": {
"list": [
100
]
}
},
"value": "VALUE"
},
"CURR_REC_START_0": {
"description": "Pulse Mode Current Recording Period Start",
"record_meta": true,
@@ -339,6 +410,40 @@
"expression": "VALUE"
}
},
"segment_ui_order": {
"description": "Pulse Mode Segment Order",
"record_meta": true,
"initial": [
0,
1,
-1,
-1
],
"domain": {
"list": [
-1,
6
]
},
"value": "VALUE"
},
"segment_order": {
"description": "Pulse Mode Segment Order",
"record_meta": true,
"initial": [
0,
1,
-1,
-1
],
"domain": {
"list": [
-1,
6
]
},
"value": "VALUE"
},
"segment_ui_order_0": {
"description": "Pulse Mode Segment UI Order 0, value: segment ID + 1",
"record_meta": true,
@@ -686,6 +791,15 @@
"expression": "VALUE"
}
},
"CC_CP_SPEED": {
"description": "charge speed for CC and CP mode",
"initial": 1,
"value": [
"low",
"normal",
"high"
]
},
"ADC_LEVEL_I_15": {
"description": "ADC level",
"record_meta": true,
@@ -763,6 +877,17 @@
"s",
"ms"
]
},
"TIME_DURATION": {
"description": "Run duration",
"record_meta": true,
"initial": 0,
"domain": [
"TIME_MAX"
],
"value": {
"expression": "VALUE"
}
}
},
"instruction": {
@@ -849,7 +974,7 @@
"13": "curve_ocp",
"14": "curve_pulse_sensing",
"15": "curve_dpv",
"16": "curve_const_vscan"
"16": "curve_cp"
}
},
{
@@ -1047,6 +1172,7 @@
"vb": "Const_Current_value",
"vc": "VOLTSTOP_MAX",
"vd": "VOLTSTOP_MIN",
"ve": "CC_CP_SPEED",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
@@ -1058,7 +1184,31 @@
"B>va;4B>vb;2B>vc;2B>vd;",
"4b>pa;4b>pb;",
"4b>pc;4b>pd;",
"2B>pe"
"2B>pe;",
"4b>0b0001;4b>ve"
]
},
"curve_cp": {
"type": "RIS",
"parameter": {
"va": "Charge",
"vb": "Const_Current_value",
"vc": "VOLTSTOP_MAX",
"vd": "VOLTSTOP_MIN",
"ve": "CC_CP_SPEED",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE"
},
"data": [
"X0C;",
"B>va;4B>vb;2B>vc;2B>vd;",
"4b>pa;4b>pb;",
"4b>pc;4b>pd;",
"2B>pe;",
"4b>0b0000;4b>ve"
]
},
"curve_cv3": {
@@ -1184,39 +1334,39 @@
},
"curve_pulse_sensing": [
{
"expression": "segment_ui_order_0",
"expression": "segment_ui_order[0]",
"when": {
"1": "pul_sen_segment_0",
"2": "pul_sen_segment_1",
"3": "pul_sen_segment_2",
"4": "pul_sen_segment_3"
"0": "pul_sen_segment_0",
"1": "pul_sen_segment_1",
"2": "pul_sen_segment_2",
"3": "pul_sen_segment_3"
}
},
{
"expression": "segment_ui_order_1",
"expression": "segment_ui_order[1]",
"when": {
"1": "pul_sen_segment_0",
"2": "pul_sen_segment_1",
"3": "pul_sen_segment_2",
"4": "pul_sen_segment_3"
"0": "pul_sen_segment_0",
"1": "pul_sen_segment_1",
"2": "pul_sen_segment_2",
"3": "pul_sen_segment_3"
}
},
{
"expression": "segment_ui_order_2",
"expression": "segment_ui_order[2]",
"when": {
"1": "pul_sen_segment_0",
"2": "pul_sen_segment_1",
"3": "pul_sen_segment_2",
"4": "pul_sen_segment_3"
"0": "pul_sen_segment_0",
"1": "pul_sen_segment_1",
"2": "pul_sen_segment_2",
"3": "pul_sen_segment_3"
}
},
{
"expression": "segment_ui_order_3",
"expression": "segment_ui_order[3]",
"when": {
"1": "pul_sen_segment_0",
"2": "pul_sen_segment_1",
"3": "pul_sen_segment_2",
"4": "pul_sen_segment_3"
"0": "pul_sen_segment_0",
"1": "pul_sen_segment_1",
"2": "pul_sen_segment_2",
"3": "pul_sen_segment_3"
}
},
"pul_sen_start"
@@ -1240,11 +1390,11 @@
"pul_sen_segment_0": {
"type": "RIS",
"parameter": {
"va": "V_initial_0",
"vb": "t_pulse_0",
"vc": "CURR_REC_START_0",
"vd": "CURR_REC_END_0",
"ve": "segment_order_0 - 1",
"va": "V_initial[0]",
"vb": "t_pulse[0]",
"vc": "CURR_REC[0][0]",
"vd": "CURR_REC[0][1]",
"ve": "segment_order.index(segment_order[0])",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
@@ -1260,11 +1410,11 @@
"pul_sen_segment_1": {
"type": "RIS",
"parameter": {
"va": "V_initial_1",
"vb": "t_pulse_1",
"vc": "CURR_REC_START_1",
"vd": "CURR_REC_END_1",
"ve": "segment_order_1 - 1",
"va": "V_initial[1]",
"vb": "t_pulse[1]",
"vc": "CURR_REC[1][0]",
"vd": "CURR_REC[1][1]",
"ve": "segment_order.index(segment_order[1])",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
@@ -1280,11 +1430,11 @@
"pul_sen_segment_2": {
"type": "RIS",
"parameter": {
"va": "V_initial_2",
"vb": "t_pulse_2",
"vc": "CURR_REC_START_2",
"vd": "CURR_REC_END_2",
"ve": "segment_order_2 - 1",
"va": "V_initial[2]",
"vb": "t_pulse[2]",
"vc": "CURR_REC[2][0]",
"vd": "CURR_REC[2][1]",
"ve": "segment_order.index(segment_order[2])",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
@@ -1300,11 +1450,11 @@
"pul_sen_segment_3": {
"type": "RIS",
"parameter": {
"va": "V_initial_3",
"vb": "t_pulse_3",
"vc": "CURR_REC_START_3",
"vd": "CURR_REC_END_3",
"ve": "segment_order_3 - 1",
"va": "V_initial[3]",
"vb": "t_pulse[3]",
"vc": "CURR_REC[3][0]",
"vd": "CURR_REC[3][1]",
"ve": "segment_order.index(segment_order[3])",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
@@ -1365,8 +1515,8 @@
"parameter": {
"va": "DPV_step_time",
"vb": "DPV_notify_rate",
"vc": "DPV_curr_rec_min",
"vd": "DPV_curr_rec_max"
"vc": "DPV_curr_rec[0]",
"vd": "DPV_curr_rec[1]"
},
"data": [
"1X0E;",
@@ -1429,8 +1579,8 @@
"parameter": {
"va": "DPV_step_time",
"vb": "DPV_notify_rate",
"vc": "DPV_curr_rec_min",
"vd": "DPV_curr_rec_max"
"vc": "DPV_curr_rec[0]",
"vd": "DPV_curr_rec[1]"
},
"data": [
"1X10;",
@@ -1483,16 +1633,6 @@
"dpv_engineering_mode_advanced": [
"dpv_advanced_mode"
],
"VIS_CC_ZERO": [
"_data_format('I4V4Z4T4')",
"_disable_cache(False)",
"_notify(True)",
"set_adc_gain_I",
"set_adc_gain_Vin",
"VIS_CC_ZERO",
"_sync(True)",
"VIS_STI"
],
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
@@ -1,5 +1,5 @@
{
"name": "EliteZM02",
"name": "Elite_EDC_1.4",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
@@ -492,14 +492,6 @@
"1XC0;1X02;4B>ve;2B>vf;4B>vg;B>cn"
]
},
"VIS_CC_ZERO": [
"_data_format('I4V4Z4T4')",
"_disable_cache(False)",
"_notify(True)",
"VIS_CC_ZERO",
"_sync(True)",
"VIS_STI"
],
"curve_cv3_high_cycle": {
"type": "RIS",
"parameter": {
File diff suppressed because it is too large Load Diff
File diff suppressed because it is too large Load Diff
File diff suppressed because it is too large Load Diff
@@ -1,5 +1,5 @@
{
"name": "EliteEIS",
"name": "Elite_EIS_1.0",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
@@ -11,9 +11,21 @@
"constant": {
"FREQ_MAX": 4294967296,
"VOLT_MAX": 65536,
"BLE_WRITE_MAX": 255
"BLE_WRITE_MAX": 255,
"TIME_MAX": 100000
},
"parameters": {
"TIME_DURATION": {
"description": "Run duration",
"record_meta": true,
"initial": 0,
"domain": [
"TIME_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CHANNEL": {
"derzteription": "record channels",
"record_meta": true,
@@ -48,20 +60,35 @@
"description": "working mode",
"record_meta": true,
"value": [
"EIS CURVE",
"Cyclic Voltammetry",
"Dev Mode"
"EIS CURVE",
"Cyclic Voltammetry",
"Chronoamperometric",
"Dev Mode"
]
},
"FREQ": {
"description": "DPV current recording period start",
"record_meta": true,
"initial": [
13422819,
7
],
"domain": {
"list": [
"FREQ_MAX"
]
},
"value": "VALUE"
},
"FREQ_START": {
"description": "Start of Freq Scan",
"record_meta": true,
"initial": 13422819,
"domain": [
"FREQ_MAX"
"FREQ_MAX"
],
"value": {
"expression": "VALUE"
"expression": "VALUE"
}
},
"FREQ_STOP": {
@@ -69,10 +96,10 @@
"record_meta": true,
"initial": 7,
"domain": [
"FREQ_MAX"
"FREQ_MAX"
],
"value": {
"expression": "VALUE"
"expression": "VALUE"
}
},
"DELAY": {
@@ -91,21 +118,21 @@
"record_meta": true,
"initial": 8,
"value": [
2,
4,
8,
16
2,
4,
8,
16
]
},
"DC_BIAS": {
"description": "DC voltage bias in mV",
"record_meta": true,
"initial": 15000,
"initial": 25000,
"domain": [
35001
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
"expression": "VALUE"
}
},
"AC_AMP": {
@@ -113,7 +140,7 @@
"record_meta": true,
"initial": 25,
"domain": [
2048
2048
]
},
"SCALE": {
@@ -121,8 +148,8 @@
"record_meta": true,
"initial": 0,
"value": [
0,
1
0,
1
]
},
"PPD": {
@@ -130,7 +157,7 @@
"record_meta": true,
"initial": 10,
"domain": [
11
11
]
},
"RTIA": {
@@ -138,11 +165,11 @@
"record_meta": true,
"initial": 4,
"value": [
0,
1,
2,
3,
4
0,
1,
2,
3,
4
]
},
"ADC_VALUE_I": {
@@ -154,10 +181,10 @@
"record_meta": true,
"initial": 10000,
"domain": [
100001
100001
],
"value": {
"expression": "VALUE"
"expression": "VALUE"
}
},
"CTRL_HIGH_Z_15": {
@@ -239,12 +266,23 @@
"expression": "VALUE"
}
},
"VOLT_VSCAN": {
"description": "Voltage of VScan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"list": [
"BLE_WRITE_MAX"
]
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
@@ -259,7 +297,7 @@
{
"expression": "MODE",
"when": {
"*": "start_data"
"*": "start_data"
}
}
],
@@ -269,20 +307,23 @@
{
"expression": "MODE",
"when": {
"1": "set_adc_gain_I"
"1": "set_adc_gain_I",
"2": "set_adc_gain_I"
}
},
{
"expression": "MODE",
"when": {
"1": "set_adc_gain_Vin"
"1": "set_adc_gain_Vin",
"2": "set_adc_gain_Vin"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis",
"1": "curve_cv3"
"1": "curve_cv3",
"2": "curve_const_vscan"
}
},
{
@@ -339,8 +380,8 @@
"curve_eis": {
"type": "RIS",
"parameter": {
"fa": "FREQ_START",
"fb": "FREQ_STOP",
"fa": "FREQ[0]",
"fb": "FREQ[1]",
"dp": "DELAY",
"dc": "DC_BIAS",
"am": "AC_AMP",
@@ -356,8 +397,8 @@
"curve_eis_para2": {
"type": "RIS",
"parameter": {
"fa": "FREQ_START",
"fb": "FREQ_STOP",
"fa": "FREQ[0]",
"fb": "FREQ[1]",
"dp": "DELAY",
"dc": "DC_BIAS",
"am": "AC_AMP",
@@ -398,14 +439,23 @@
"1XD2;1X02;4B>ve;2B>vf;2B>cn"
]
},
"VIS_CC_ZERO": [
"_data_format('EISZeroOne')",
"_disable_cache(False)",
"_notify(True)",
"VIS_CC_ZERO",
"_sync(True)",
"VIS_STI"
],
"curve_const_vscan": {
"type": "RIS",
"parameter": {
"va": "VOLT_VSCAN",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE"
},
"data": [
"1XD3;",
"2B>va;",
"4b>pa;4b>pb;",
"4b>0;4b>pd;",
"2B>pe"
]
},
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
@@ -430,4 +480,4 @@
"_cdr('20X>ADC_VALUE_I')"
]
}
}
}
@@ -0,0 +1,483 @@
{
"name": "Elite_EIS_1.1",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 4,
"major_version_number": 1,
"minor_version_number": 1
},
"constant": {
"FREQ_MAX": 4294967296,
"VOLT_MAX": 65536,
"BLE_WRITE_MAX": 255,
"TIME_MAX": 100000
},
"parameters": {
"TIME_DURATION": {
"description": "Run duration",
"record_meta": true,
"initial": 0,
"domain": [
"TIME_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CHANNEL": {
"derzteription": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"CHANNEL_LABEL": {
"description": "channel label",
"record_meta": true,
"domain": "property",
"value": "['current', 'voltage', 'impedance']"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"initial": 1000,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"EIS CURVE",
"Cyclic Voltammetry",
"Chronoamperometric",
"Dev Mode"
]
},
"FREQ": {
"description": "DPV current recording period start",
"record_meta": true,
"initial": [
13422819,
7
],
"domain": {
"list": [
"FREQ_MAX"
]
},
"value": "VALUE"
},
"FREQ_START": {
"description": "Start of Freq Scan",
"record_meta": true,
"initial": 13422819,
"domain": [
"FREQ_MAX"
],
"value": {
"expression": "VALUE"
}
},
"FREQ_STOP": {
"description": "End of Freq Scan",
"record_meta": true,
"initial": 7,
"domain": [
"FREQ_MAX"
],
"value": {
"expression": "VALUE"
}
},
"DELAY": {
"description": "Wait x peroid before start taking measurements",
"record_meta": true,
"initial": 0,
"domain": [
101
],
"value": {
"expression": "VALUE"
}
},
"AVERAGE_NUM": {
"description": "Number of sample used for average funciton",
"record_meta": true,
"initial": 8,
"value": [
2,
4,
8,
16
]
},
"DC_BIAS": {
"description": "DC voltage bias in mV",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"AC_AMP": {
"description": "AC Amplitude in mV",
"record_meta": true,
"initial": 25,
"domain": [
2048
]
},
"SCALE": {
"description": "Point spacing pattern",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
},
"PPD": {
"description": "Point per decades",
"record_meta": true,
"initial": 10,
"domain": [
11
]
},
"RTIA": {
"description": "High speed tia gain",
"record_meta": true,
"initial": 4,
"value": [
0,
1,
2,
3,
4
]
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"Scan_Rate": {
"description": "Voltage Scan Rate",
"record_meta": true,
"initial": 10000,
"domain": [
100001
],
"value": {
"expression": "VALUE"
}
},
"CTRL_HIGH_Z_15": {
"description": "ctrl highZ level",
"record_meta": true,
"initial": 1,
"value": [
"On",
"Off"
],
"on_change": "set_ctrl_highZ"
},
"ADC_LEVEL_I_15": {
"description": "ADC level",
"record_meta": true,
"initial": 4,
"value": [
"0",
"1",
"2",
"3",
"auto"
],
"on_change": "set_adc_gain_I"
},
"ADC_LEVEL_V_IN_15": {
"description": "ADC level",
"record_meta": true,
"initial": 3,
"value": [
"0",
"1",
"2",
"auto"
],
"on_change": "set_adc_gain_Vin"
},
"VOLT_INITIAL": {
"description": "Initial Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"VOLT_MAX": {
"description": "Max Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"VOLT_MIN": {
"description": "Min Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"initial": 1,
"domain": [
65536
],
"value": {
"expression": "VALUE"
}
},
"VOLT_VSCAN": {
"description": "Voltage of VScan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"BLE_WRITE_MAX"
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
},
"BLE_READ": {
"description": "receive msg from elite",
"domain": "int"
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"*": "start_data"
}
}
],
"start_data": [
"data_format_cali",
"_notify(True)",
{
"expression": "MODE",
"when": {
"1": "set_adc_gain_I",
"2": "set_adc_gain_I"
}
},
{
"expression": "MODE",
"when": {
"1": "set_adc_gain_Vin",
"2": "set_adc_gain_Vin"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis",
"1": "curve_cv3",
"2": "curve_const_vscan"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis_para2",
"1": "curve_cv3_para2"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('EISZeroOne')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"data_format_cali": [
"_data_format_cali('EISZeroOne')"
],
"set_sample_rate": {
"type": "RIS",
"parameter": {
"va": "SAMPLE_RATE"
},
"data": [
"XE0;2B>va"
]
},
"set_adc_gain_I": {
"type": "RIS",
"data": [
"XE1;X05;B>ADC_LEVEL_I_15"
]
},
"set_adc_gain_Vin": {
"type": "RIS",
"data": [
"XE1;X06;B>ADC_LEVEL_V_IN_15"
]
},
"set_ctrl_highZ": {
"type": "RIS",
"data": [
"XE1;X03;B>CTRL_HIGH_Z_15"
]
},
"curve_eis": {
"type": "RIS",
"parameter": {
"fa": "FREQ[0]",
"fb": "FREQ[1]",
"dp": "DELAY",
"dc": "DC_BIAS",
"am": "AC_AMP",
"an": "AVERAGE_NUM",
"rt": "RTIA",
"pp": "PPD",
"sp": "SCALE"
},
"data": [
"1XD1;1X01;4B>fa;4B>fb;2B>dp"
]
},
"curve_eis_para2": {
"type": "RIS",
"parameter": {
"fa": "FREQ[0]",
"fb": "FREQ[1]",
"dp": "DELAY",
"dc": "DC_BIAS",
"am": "AC_AMP",
"an": "AVERAGE_NUM",
"rt": "RTIA",
"pp": "PPD",
"sp": "SCALE"
},
"data": [
"1XD1;1X02;2B>dc;2B>am;B>an;B>rt;2B>pp;B>sp"
]
},
"curve_cv3": {
"type": "RIS",
"parameter": {
"va": "VOLT_INITIAL",
"vb": "VOLT_MAX",
"vc": "VOLT_MIN",
"ve": "Scan_Rate",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1XD2;1X01;2B>va;2B>vb;2B>vc;"
]
},
"curve_cv3_para2": {
"type": "RIS",
"parameter": {
"va": "VOLT_INITIAL",
"vb": "VOLT_MAX",
"vc": "VOLT_MIN",
"ve": "Scan_Rate",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1XD2;1X02;4B>ve;2B>vf;2B>cn"
]
},
"curve_const_vscan": {
"type": "RIS",
"parameter": {
"va": "VOLT_VSCAN",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE"
},
"data": [
"1XD3;",
"2B>va;",
"4b>pa;4b>pb;",
"4b>0;4b>pd;",
"2B>pe"
]
},
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "RIS",
"data": [
"XFF;",
"1B>BLE_WRITE[0];1B>BLE_WRITE[1];1B>BLE_WRITE[2];1B>BLE_WRITE[3];",
"1B>BLE_WRITE[4];1B>BLE_WRITE[5];1B>BLE_WRITE[6];1B>BLE_WRITE[7];",
"1B>BLE_WRITE[8];1B>BLE_WRITE[9];1B>BLE_WRITE[10];1B>BLE_WRITE[11];",
"1B>BLE_WRITE[12];1B>BLE_WRITE[13];1B>BLE_WRITE[14];1B>BLE_WRITE[15];",
"1B>BLE_WRITE[16];"
]
},
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
]
}
}
@@ -0,0 +1,483 @@
{
"name": "Elite_EIS_MINI_1.0",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 4,
"major_version_number": 1,
"minor_version_number": 2
},
"constant": {
"FREQ_MAX": 4294967296,
"VOLT_MAX": 65536,
"BLE_WRITE_MAX": 255,
"TIME_MAX": 100000
},
"parameters": {
"TIME_DURATION": {
"description": "Run duration",
"record_meta": true,
"initial": 0,
"domain": [
"TIME_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CHANNEL": {
"derzteription": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"CHANNEL_LABEL": {
"description": "channel label",
"record_meta": true,
"domain": "property",
"value": "['current', 'voltage', 'impedance']"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"initial": 1000,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"EIS CURVE",
"Cyclic Voltammetry",
"Chronoamperometric",
"Dev Mode"
]
},
"FREQ": {
"description": "DPV current recording period start",
"record_meta": true,
"initial": [
13422819,
7
],
"domain": {
"list": [
"FREQ_MAX"
]
},
"value": "VALUE"
},
"FREQ_START": {
"description": "Start of Freq Scan",
"record_meta": true,
"initial": 13422819,
"domain": [
"FREQ_MAX"
],
"value": {
"expression": "VALUE"
}
},
"FREQ_STOP": {
"description": "End of Freq Scan",
"record_meta": true,
"initial": 7,
"domain": [
"FREQ_MAX"
],
"value": {
"expression": "VALUE"
}
},
"DELAY": {
"description": "Wait x peroid before start taking measurements",
"record_meta": true,
"initial": 0,
"domain": [
101
],
"value": {
"expression": "VALUE"
}
},
"AVERAGE_NUM": {
"description": "Number of sample used for average funciton",
"record_meta": true,
"initial": 8,
"value": [
2,
4,
8,
16
]
},
"DC_BIAS": {
"description": "DC voltage bias in mV",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"AC_AMP": {
"description": "AC Amplitude in mV",
"record_meta": true,
"initial": 25,
"domain": [
2048
]
},
"SCALE": {
"description": "Point spacing pattern",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
},
"PPD": {
"description": "Point per decades",
"record_meta": true,
"initial": 10,
"domain": [
11
]
},
"RTIA": {
"description": "High speed tia gain",
"record_meta": true,
"initial": 4,
"value": [
0,
1,
2,
3,
4
]
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"Scan_Rate": {
"description": "Voltage Scan Rate",
"record_meta": true,
"initial": 10000,
"domain": [
100001
],
"value": {
"expression": "VALUE"
}
},
"CTRL_HIGH_Z_15": {
"description": "ctrl highZ level",
"record_meta": true,
"initial": 1,
"value": [
"On",
"Off"
],
"on_change": "set_ctrl_highZ"
},
"ADC_LEVEL_I_15": {
"description": "ADC level",
"record_meta": true,
"initial": 4,
"value": [
"0",
"1",
"2",
"3",
"auto"
],
"on_change": "set_adc_gain_I"
},
"ADC_LEVEL_V_IN_15": {
"description": "ADC level",
"record_meta": true,
"initial": 3,
"value": [
"0",
"1",
"2",
"auto"
],
"on_change": "set_adc_gain_Vin"
},
"VOLT_INITIAL": {
"description": "Initial Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"VOLT_MAX": {
"description": "Max Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"VOLT_MIN": {
"description": "Min Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"initial": 1,
"domain": [
65536
],
"value": {
"expression": "VALUE"
}
},
"VOLT_VSCAN": {
"description": "Voltage of VScan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"BLE_WRITE_MAX"
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
},
"BLE_READ": {
"description": "receive msg from elite",
"domain": "int"
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"*": "start_data"
}
}
],
"start_data": [
"data_format_cali",
"_notify(True)",
{
"expression": "MODE",
"when": {
"1": "set_adc_gain_I",
"2": "set_adc_gain_I"
}
},
{
"expression": "MODE",
"when": {
"1": "set_adc_gain_Vin",
"2": "set_adc_gain_Vin"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis",
"1": "curve_cv3",
"2": "curve_const_vscan"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis_para2",
"1": "curve_cv3_para2"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('EISZeroOne')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"data_format_cali": [
"_data_format_cali('EISZeroOne')"
],
"set_sample_rate": {
"type": "RIS",
"parameter": {
"va": "SAMPLE_RATE"
},
"data": [
"XE0;2B>va"
]
},
"set_adc_gain_I": {
"type": "RIS",
"data": [
"XE1;X05;B>ADC_LEVEL_I_15"
]
},
"set_adc_gain_Vin": {
"type": "RIS",
"data": [
"XE1;X06;B>ADC_LEVEL_V_IN_15"
]
},
"set_ctrl_highZ": {
"type": "RIS",
"data": [
"XE1;X03;B>CTRL_HIGH_Z_15"
]
},
"curve_eis": {
"type": "RIS",
"parameter": {
"fa": "FREQ[0]",
"fb": "FREQ[1]",
"dp": "DELAY",
"dc": "DC_BIAS",
"am": "AC_AMP",
"an": "AVERAGE_NUM",
"rt": "RTIA",
"pp": "PPD",
"sp": "SCALE"
},
"data": [
"1XD1;1X01;4B>fa;4B>fb;2B>dp"
]
},
"curve_eis_para2": {
"type": "RIS",
"parameter": {
"fa": "FREQ[0]",
"fb": "FREQ[1]",
"dp": "DELAY",
"dc": "DC_BIAS",
"am": "AC_AMP",
"an": "AVERAGE_NUM",
"rt": "RTIA",
"pp": "PPD",
"sp": "SCALE"
},
"data": [
"1XD1;1X02;2B>dc;2B>am;B>an;B>rt;2B>pp;B>sp"
]
},
"curve_cv3": {
"type": "RIS",
"parameter": {
"va": "VOLT_INITIAL",
"vb": "VOLT_MAX",
"vc": "VOLT_MIN",
"ve": "Scan_Rate",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1XD2;1X01;2B>va;2B>vb;2B>vc;"
]
},
"curve_cv3_para2": {
"type": "RIS",
"parameter": {
"va": "VOLT_INITIAL",
"vb": "VOLT_MAX",
"vc": "VOLT_MIN",
"ve": "Scan_Rate",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1XD2;1X02;4B>ve;2B>vf;2B>cn"
]
},
"curve_const_vscan": {
"type": "RIS",
"parameter": {
"va": "VOLT_VSCAN",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE"
},
"data": [
"1XD3;",
"2B>va;",
"4b>pa;4b>pb;",
"4b>0;4b>pd;",
"2B>pe"
]
},
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "RIS",
"data": [
"XFF;",
"1B>BLE_WRITE[0];1B>BLE_WRITE[1];1B>BLE_WRITE[2];1B>BLE_WRITE[3];",
"1B>BLE_WRITE[4];1B>BLE_WRITE[5];1B>BLE_WRITE[6];1B>BLE_WRITE[7];",
"1B>BLE_WRITE[8];1B>BLE_WRITE[9];1B>BLE_WRITE[10];1B>BLE_WRITE[11];",
"1B>BLE_WRITE[12];1B>BLE_WRITE[13];1B>BLE_WRITE[14];1B>BLE_WRITE[15];",
"1B>BLE_WRITE[16];"
]
},
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
]
}
}
@@ -1,12 +1,12 @@
{
"name": "EliteZM_pulsefly",
"name": "Elite_MEGAFLY_0.1",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 2,
"minor_product_number": 6,
"major_version_number": 1,
"minor_version_number": 7
"minor_version_number": 0
},
"constant": {
"ADC_CHANNEL_NUMBER": [
@@ -1426,14 +1426,6 @@
"X80;X03;B>CTRL_HIGH_Z_15"
]
},
"VIS_CC_ZERO": [
"_data_format('I4V4Z4T4')",
"_disable_cache(False)",
"_notify(True)",
"VIS_CC_ZERO",
"_sync(True)",
"VIS_STI"
],
"pulse_fly": [
"sti_mode",
"gas1_mode",
@@ -1,5 +1,5 @@
{
"name": "Elite_TRI",
"name": "Elite_TRIG_0.1",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Trigger.*",
-221
View File
@@ -1,221 +0,0 @@
{
"name": "Elite",
"version": "0.1",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 1,
"major_version_number": 0,
"minor_version_number": 1
},
"constant": {
"REC_CHANNEL_COUNT": 16,
"STI_CHANNEL_COUNT": 15,
"ADC_SAMPLE_RATE_LIST": [
15,
25,
40,
50,
100,
250,
500,
1000,
2500,
4000,
5000
],
"STI_FREQ_LIST": [
15,
25,
40,
50,
100,
250,
500,
1000,
2500,
4000,
5000
]
},
"parameters": {
"MODE": {
"description": "working mode",
"value": [
"Recording Mode",
"Stimulation Mode",
"Artifact Mode"
]
},
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": {
"set": [
"REC_CHANNEL_COUNT"
]
}
},
"SAMPLE_RATE": {
"alias": "ADC_RATE",
"description": "sampling rate",
"record_meta": true,
"domain": [
"len(ADC_SAMPLE_RATE_LIST)"
],
"value": "ADC_SAMPLE_RATE_LIST[VALUE]"
},
"AMP_GAIN": {
"description": "",
"record_meta": true,
"value": [
400,
1000,
2000
]
},
"LOW_FREQ_BAND": {
"description": "",
"record_meta": true,
"domain": [
7
]
},
"STI_MODE": {
"description": "stimulation mode",
"value": [
"Positive Pulse",
"Negative Pulse",
"Pos to Neg Pulse",
"Neg to Pos Pulse",
"Arbitrary Waveform"
]
},
"STI_VOLT": {
"description": "stimulation voltage",
"domain": [
32
],
"value": "2 + 3 * VALUE / 31"
},
"STI_FREQ": {
"description": "stimulation frequency",
"domain": [
"len(STI_FREQ_LIST)"
],
"value": "STI_FREQ_LIST[VALUE]"
},
"STI_PMOS": {
"description": "stimulation PMOS channel",
"initial": 0,
"domain": [
"STI_CHANNEL_COUNT"
],
"guard": "STI_PMOS != STI_NMOS"
},
"STI_NMOS": {
"description": "stimulation NMOS channel",
"initial": "STI_CHANNEL_COUNT - 1",
"domain": [
"STI_CHANNEL_COUNT"
],
"guard": "STI_PMOS != STI_NMOS"
},
"CHOPPER": {
"description": "",
"domain": "bool"
},
"FAST_SETTLE": {
"description": "",
"domain": "bool"
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"0": "start_recording",
"1": "start_stimulation",
"2": "start_artifact"
}
},
"VIS_STI"
],
"start_recording": [
{
"expression": "len(CHANNEL) > 0",
"raise": "no recording channel"
},
"data_format",
"_notify(True)",
"start_recording0",
"_sync(True)"
],
"start_artifact": [
{
"expression": "len(CHANNEL) > 0",
"raise": "no recording channel"
},
"data_format",
"_notify(True)",
"start_artifact0",
"_sync(True)"
],
"data_format": [
"_data_format('TDC4VAF2')"
],
"start_recording0": {
"type": "RIS",
"foreach-parameter": {
"parameter": "CHANNEL",
"variable": [
"a",
"b",
"c",
"d"
]
},
"data": [
"3b110#recording header;2b<AMP_GAIN;3b<LOW_FREQ_BAND",
"4b>SAMPLE_RATE;1ba?;1bb?;1bc?;1bd?",
"4b<a?:0;4b<b?:0",
"4b<c?:0;4b<d?:0"
]
},
"start_artifact0": {
"type": "RIS",
"foreach-parameter": {
"parameter": "CHANNEL",
"variable": [
"a",
"b",
"c",
"d"
]
},
"data": [
"3b100#artifact mode header;2b0;3b001",
"4b>SAMPLE_RATE;1ba?;1bb?;1bc?;1bd?",
"4b<a?:0;4b<b?:0",
"4b<c?:0;4b<d?:0"
]
},
"start_stimulation": [
"start_stimulation0"
],
"start_stimulation0": {
"type": "RIS",
"guard": {
"expression": "STI_PMOS != STI_NMOS",
"raise": "same N/PMos channel"
},
"data": [
"3b111#stimulation header;2b0;3bSTI_MODE",
"4b>STI_FREQ;1bCHOPPER;1bFAST_SETTLE;2b0",
"4b<STI_PMOS;4b<STI_NMOS",
"5b<STI_VOLT;3b0"
]
}
}
}
@@ -1,220 +0,0 @@
{
"name": "Elite_Legacy",
"version": "0.0.0",
"match_rule": {
"major_product_number": 0,
"minor_product_number": 0,
"major_version_number": 0,
"minor_version_number": 0
},
"constant": {
"REC_CHANNEL_COUNT": 16,
"STI_CHANNEL_COUNT": 15,
"ADC_SAMPLE_RATE_LIST": [
15,
25,
40,
50,
100,
250,
500,
1000,
2500,
4000,
5000
],
"STI_FREQ_LIST": [
15,
25,
40,
50,
100,
250,
500,
1000,
2500,
4000,
5000
]
},
"parameters": {
"MODE": {
"description": "working mode",
"value": [
"Recording Mode",
"Stimulation Mode",
"Artifact Mode"
]
},
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": {
"set": [
"REC_CHANNEL_COUNT"
]
}
},
"SAMPLE_RATE": {
"alias": "ADC_RATE",
"description": "sampling rate",
"record_meta": true,
"domain": [
"len(ADC_SAMPLE_RATE_LIST)"
],
"value": "ADC_SAMPLE_RATE_LIST[VALUE]"
},
"AMP_GAIN": {
"description": "",
"record_meta": true,
"value": [
400,
1000,
2000
]
},
"LOW_FREQ_BAND": {
"description": "",
"record_meta": true,
"domain": [
7
]
},
"STI_MODE": {
"description": "stimulation mode",
"value": [
"Positive Pulse",
"Negative Pulse",
"Pos to Neg Pulse",
"Neg to Pos Pulse",
"Arbitrary Waveform"
]
},
"STI_VOLT": {
"description": "stimulation voltage",
"domain": [
32
],
"value": "2 + 3 * VALUE / 31"
},
"STI_FREQ": {
"description": "stimulation frequency",
"domain": [
"len(STI_FREQ_LIST)"
],
"value": "STI_FREQ_LIST[VALUE]"
},
"STI_PMOS": {
"description": "stimulation PMOS channel",
"initial": 0,
"domain": [
"STI_CHANNEL_COUNT"
],
"guard": "STI_PMOS != STI_NMOS"
},
"STI_NMOS": {
"description": "stimulation NMOS channel",
"initial": "STI_CHANNEL_COUNT - 1",
"domain": [
"STI_CHANNEL_COUNT"
],
"guard": "STI_PMOS != STI_NMOS"
},
"CHOPPER": {
"description": "",
"domain": "bool"
},
"FAST_SETTLE": {
"description": "",
"domain": "bool"
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"0": "start_recording",
"1": "start_stimulation",
"2": "start_artifact"
}
},
"VIS_STI"
],
"start_recording": [
{
"expression": "len(CHANNEL) > 0",
"raise": "no recording channel"
},
"data_format",
"_notify(True)",
"start_recording0",
"_sync(True)"
],
"start_artifact": [
{
"expression": "len(CHANNEL) > 0",
"raise": "no recording channel"
},
"data_format",
"_notify(True)",
"start_artifact0",
"_sync(True)"
],
"data_format": [
"_data_format('TC4VAF2')"
],
"start_recording0": {
"type": "RIS",
"foreach-parameter": {
"parameter": "CHANNEL",
"variable": [
"a",
"b",
"c",
"d"
]
},
"data": [
"3b110#recording header;2b<AMP_GAIN;3b<LOW_FREQ_BAND",
"4b>SAMPLE_RATE;1ba?;1bb?;1bc?;1bd?",
"4b<a?:0;4b<b?:0",
"4b<c?:0;4b<d?:0"
]
},
"start_artifact0": {
"type": "RIS",
"foreach-parameter": {
"parameter": "CHANNEL",
"variable": [
"a",
"b",
"c",
"d"
]
},
"data": [
"3b100#artifact mode header;2b0;3b001",
"4b>SAMPLE_RATE;1ba?;1bb?;1bc?;1bd?",
"4b<a?:0;4b<b?:0",
"4b<c?:0;4b<d?:0"
]
},
"start_stimulation": [
"start_stimulation0"
],
"start_stimulation0": {
"type": "RIS",
"guard": {
"expression": "STI_PMOS != STI_NMOS",
"raise": "same N/PMos channel"
},
"data": [
"3b111#stimulation header;2b0;3bSTI_MODE",
"4b>STI_FREQ;1bCHOPPER;1bFAST_SETTLE;2b0",
"4b<STI_PMOS;4b<STI_NMOS",
"5b<STI_VOLT;3b0"
]
}
}
}
-343
View File
@@ -1,343 +0,0 @@
{
"name": "EliteZM",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite-ZM.+",
"major_product_number": 0,
"minor_product_number": 2,
"major_version_number": 1,
"minor_version_number": 2
},
"constant": {
"ADC_CHANNEL_NUMBER": [
12,
13,
14,
15
],
"VOLT_MAX": 65536,
"STEP_MAX": 100,
"Const_Current_Range": 1500001
},
"parameters": {
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"CHANNEL_LABEL": {
"description": "channel label",
"record_meta": true,
"domain": "property",
"value": "['current', 'voltage', 'impedance']"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"value": [
100,
10,
5,
1,
0.1,
0.01
],
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"I-V Curve",
"Cyclic Voltammetry",
"Function Generator",
"R-T Curve",
"V-T Curve",
"I-T Curve",
"ADC test",
"Constant Current"
]
},
"VOLT_ORIGIN": {
"description": "Origin Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "(VALUE) * 0x0001"
}
},
"VOLT_FINAL": {
"description": "The last Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": " (VALUE) * 0x0001"
}
},
"VOLT_STEP": {
"description": "Voltage Step",
"record_meta": true,
"initial": 0,
"domain": [
"STEP_MAX"
],
"value": {
"expression": "(VALUE + 1) * 0x0001"
}
},
"STEP_TIME": {
"description": "How much time between two step",
"record_meta": true,
"initial": 1,
"value": [
0.5,
1.0,
2.0
]
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"initial": 0,
"domain": [
200
],
"value": {
"expression": "VALUE + 1"
}
},
"DAC_VOLT": {
"description": "DAC output Voltage",
"record_meta": true,
"initial": 25000,
"domain": [
65536
]
},
"ADC_CHANNEL": {
"description": "read ADC data",
"record_meta": true,
"value": [
"ANA0",
"ANA1",
"ANA2",
"ANA3"
]
},
"ADC_LEVEL": {
"description": "ADC level",
"record_meta": true,
"initial": 3,
"value": [
"200k",
"10k",
"200R",
"auto"
],
"on_change": "set_adc_gain"
},
"Resister_LEVEL": {
"description": "Resister_LEVEL",
"record_meta": true,
"initial": 3,
"value": [
"Small",
"Middle",
"Large",
"Auto"
],
"on_change": "set_Resister_level"
},
"ADC_VALUE_V": {
"description": "ADC value voltage value",
"domain": "int"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"Const_Current_unit": {
"description": "Constant Current unit Setting",
"initial": 1,
"value": [
"uA",
"mA"
]
},
"Const_Current_value": {
"description": "Constant Current value Setting",
"initial": 0,
"domain": [
"Const_Current_Range"
],
"value": {
"expression": "(VALUE) * 0x00000001"
}
},
"Charge": {
"description": "Charge battery or not",
"initial": 0,
"value": [
"Charge",
"Discharge"
]
},
"Const_Current_VStop": {
"description": "Constant Current Stopping Voltage",
"initial": 0,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "(VALUE) * 0x0001"
}
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"2": "start_fun_gen",
"6": "adc_test",
"*": "start_data"
}
}
],
"start_fun_gen": [
"data_format",
"func_gen",
"VIS_STI"
],
"adc_test": [
"adc_test0",
"_cdr('1X;4X>ADC_VALUE_I;4X>ADC_VALUE_V')"
],
"start_data": [
"data_format",
"_notify(True)",
"set_sample_rate",
{
"expression": "MODE",
"when": {
"0": "curve_iv",
"1": "curve_cv",
"3": "curve_zt",
"4": "curve_vt",
"5": "curve_it",
"7": "const_current"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('I4V4Z4T4')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"curve_iv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN) * 0x0001",
"vb": "(VOLT_FINAL) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12"
},
"data": [
"1X10;2B>va;2B>vb;2B>dv;B>dt"
]
},
"curve_cv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN) * 0x0001",
"vb": "(VOLT_FINAL) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12",
"cn": "CYCLE_NUMBER+1"
},
"data": [
"1X20;2B>va;2B>vb;2B>dv;B>dt;B>cn"
]
},
"func_gen": {
"type": "RIS",
"parameter": {
"v": "(DAC_VOLT) * 0x0001"
},
"data": [
"X30;2B>v"
]
},
"curve_zt": {
"type": "RIS",
"data": [
"X40"
]
},
"curve_vt": {
"type": "RIS",
"data": [
"X50"
]
},
"curve_it": {
"type": "RIS",
"data": [
"X60"
]
},
"adc_test0": {
"type": "RIS",
"data": [
"X90;B>ADC_LEVEL;B>ADC_CHANNEL"
]
},
"set_sample_rate": {
"type": "RIS",
"data": [
"X70;B>SAMPLE_RATE"
]
},
"set_adc_gain": {
"type": "RIS",
"data": [
"X80;B>ADC_LEVEL"
]
},
"set_Resister_level": {
"type": "RIS",
"data": [
"XE0;B>Resister_LEVEL"
]
},
"const_current": {
"type": "RIS",
"data": [
"XD0;B>Charge;2X>Const_Current_VStop;4X>Const_Current_value"
]
}
}
}
@@ -1,320 +0,0 @@
{
"name": "EliteZML",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite-ZM.+",
"major_product_number": 0,
"minor_product_number": 2,
"major_version_number": 1,
"minor_version_number": 4
},
"constant": {
"ADC_CHANNEL_NUMBER": [
12,
13,
14,
15
],
"VOLT_MAX": 65536,
"STEP_MAX": 100,
"Const_Current_Range": 3000001
},
"parameters": {
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"CHANNEL_LABEL": {
"description": "channel label",
"record_meta": true,
"domain": "property",
"value": "['current', 'voltage', 'impedance']"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"value": [
100,
10,
5,
1,
0.1,
0.01
],
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"I-V Curve",
"Cyclic Voltammetry",
"Function Generator",
"R-T Curve",
"V-T Curve",
"I-T Curve",
"ADC test",
"Constant Current"
]
},
"VOLT_ORIGIN": {
"description": "Origin Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "(VALUE + 1) * 0x0001"
}
},
"VOLT_FINAL": {
"description": "The last Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": " (VALUE + 1) * 0x0001"
}
},
"VOLT_STEP": {
"description": "Voltage Step",
"record_meta": true,
"initial": 0,
"domain": [
"STEP_MAX"
],
"value": {
"expression": "(VALUE + 1) * 0x0001"
}
},
"STEP_TIME": {
"description": "How much time between two step",
"record_meta": true,
"initial": 1,
"value": [
0.5,
1.0,
2.0
]
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"domain": [
200
],
"value": {
"expression": "VALUE + 1"
}
},
"DAC_VOLT": {
"description": "DAC output Voltage",
"record_meta": true,
"domain": [
65536
]
},
"ADC_CHANNEL": {
"description": "read ADC data",
"record_meta": true,
"value": [
"ANA0",
"ANA1",
"ANA2",
"ANA3"
]
},
"ADC_LEVEL": {
"description": "ADC level",
"record_meta": true,
"value": [
"200k",
"10k",
"200R",
"auto"
],
"on_change": "set_adc_gain"
},
"Resister_LEVEL": {
"description": "Resister_LEVEL",
"record_meta": true,
"value": [
"Small",
"Middle",
"Large",
"Auto"
],
"on_change": "set_Resister_level"
},
"ADC_VALUE_V": {
"description": "ADC value voltage value",
"domain": "int"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"Const_Current_unit": {
"description": "Constant Current unit Setting",
"value": [
"uA",
"mA"
]
},
"Const_Current_value": {
"description": "Constant Current value Setting",
"initial": 1500000,
"domain": [
"Const_Current_Range"
],
"value": {
"expression": "(VALUE) * 0x00000001"
}
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"2": "start_fun_gen",
"6": "adc_test",
"*": "start_data"
}
}
],
"start_fun_gen": [
"data_format",
"func_gen",
"VIS_STI"
],
"adc_test": [
"adc_test0",
"_cdr('1X;4X>ADC_VALUE_I;4X>ADC_VALUE_V')"
],
"start_data": [
"data_format",
"_notify(True)",
"set_sample_rate",
{
"expression": "MODE",
"when": {
"0": "curve_iv",
"1": "curve_cv",
"3": "curve_zt",
"4": "curve_vt",
"5": "curve_it",
"7": "const_current"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('I4V4Z4T4')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"curve_iv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN + 1) * 0x0001",
"vb": "(VOLT_FINAL + 1) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12"
},
"data": [
"1X10;2B>va;2B>vb;2B>dv;B>dt"
]
},
"curve_cv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN + 1) * 0x0001",
"vb": "(VOLT_FINAL + 1) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12",
"cn": "CYCLE_NUMBER+1"
},
"data": [
"1X20;2B>va;2B>vb;2B>dv;B>dt;B>CYCLE_NUMBER"
]
},
"func_gen": {
"type": "RIS",
"parameter": {
"v": "(DAC_VOLT) * 0x0001"
},
"data": [
"X30;2B>v"
]
},
"curve_zt": {
"type": "RIS",
"data": [
"X40"
]
},
"curve_vt": {
"type": "RIS",
"data": [
"X50"
]
},
"curve_it": {
"type": "RIS",
"data": [
"X60"
]
},
"adc_test0": {
"type": "RIS",
"data": [
"X90;B>ADC_LEVEL;B>ADC_CHANNEL"
]
},
"set_sample_rate": {
"type": "RIS",
"data": [
"X70;B>SAMPLE_RATE"
]
},
"set_adc_gain": {
"type": "RIS",
"data": [
"X80;B>ADC_LEVEL"
]
},
"set_Resister_level": {
"type": "RIS",
"data": [
"XE0;B>Resister_LEVEL"
]
},
"const_current": {
"type": "RIS",
"data": [
"XD0;4X>Const_Current_value"
]
}
}
}
@@ -1,320 +0,0 @@
{
"name": "EliteZMS",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite-ZM.+",
"major_product_number": 0,
"minor_product_number": 2,
"major_version_number": 1,
"minor_version_number": 3
},
"constant": {
"ADC_CHANNEL_NUMBER": [
12,
13,
14,
15
],
"VOLT_MAX": 65536,
"STEP_MAX": 100,
"Const_Current_Range": 3000001
},
"parameters": {
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"CHANNEL_LABEL": {
"description": "channel label",
"record_meta": true,
"domain": "property",
"value": "['current', 'voltage', 'impedance']"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"value": [
100,
10,
5,
1,
0.1,
0.01
],
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"I-V Curve",
"Cyclic Voltammetry",
"Function Generator",
"R-T Curve",
"V-T Curve",
"I-T Curve",
"ADC test",
"Constant Current"
]
},
"VOLT_ORIGIN": {
"description": "Origin Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "(VALUE + 1) * 0x0001"
}
},
"VOLT_FINAL": {
"description": "The last Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": " (VALUE + 1) * 0x0001"
}
},
"VOLT_STEP": {
"description": "Voltage Step",
"record_meta": true,
"initial": 0,
"domain": [
"STEP_MAX"
],
"value": {
"expression": "(VALUE + 1) * 0x0001"
}
},
"STEP_TIME": {
"description": "How much time between two step",
"record_meta": true,
"initial": 1,
"value": [
0.5,
1.0,
2.0
]
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"domain": [
200
],
"value": {
"expression": "VALUE + 1"
}
},
"DAC_VOLT": {
"description": "DAC output Voltage",
"record_meta": true,
"domain": [
65536
]
},
"ADC_CHANNEL": {
"description": "read ADC data",
"record_meta": true,
"value": [
"ANA0",
"ANA1",
"ANA2",
"ANA3"
]
},
"ADC_LEVEL": {
"description": "ADC level",
"record_meta": true,
"value": [
"200k",
"10k",
"200R",
"auto"
],
"on_change": "set_adc_gain"
},
"Resister_LEVEL": {
"description": "Resister_LEVEL",
"record_meta": true,
"value": [
"Small",
"Middle",
"Large",
"Auto"
],
"on_change": "set_Resister_level"
},
"ADC_VALUE_V": {
"description": "ADC value voltage value",
"domain": "int"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"Const_Current_unit": {
"description": "Constant Current unit Setting",
"value": [
"uA",
"mA"
]
},
"Const_Current_value": {
"description": "Constant Current value Setting",
"initial": 1500000,
"domain": [
"Const_Current_Range"
],
"value": {
"expression": "(VALUE) * 0x00000001"
}
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"2": "start_fun_gen",
"6": "adc_test",
"*": "start_data"
}
}
],
"start_fun_gen": [
"data_format",
"func_gen",
"VIS_STI"
],
"adc_test": [
"adc_test0",
"_cdr('1X;4X>ADC_VALUE_I;4X>ADC_VALUE_V')"
],
"start_data": [
"data_format",
"_notify(True)",
"set_sample_rate",
{
"expression": "MODE",
"when": {
"0": "curve_iv",
"1": "curve_cv",
"3": "curve_zt",
"4": "curve_vt",
"5": "curve_it",
"7": "const_current"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('I4V4Z4T4')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"curve_iv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN + 1) * 0x0001",
"vb": "(VOLT_FINAL + 1) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12"
},
"data": [
"1X10;2B>va;2B>vb;2B>dv;B>dt"
]
},
"curve_cv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN + 1) * 0x0001",
"vb": "(VOLT_FINAL + 1) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12",
"cn": "CYCLE_NUMBER+1"
},
"data": [
"1X20;2B>va;2B>vb;2B>dv;B>dt;B>CYCLE_NUMBER"
]
},
"func_gen": {
"type": "RIS",
"parameter": {
"v": "(DAC_VOLT) * 0x0001"
},
"data": [
"X30;2B>v"
]
},
"curve_zt": {
"type": "RIS",
"data": [
"X40"
]
},
"curve_vt": {
"type": "RIS",
"data": [
"X50"
]
},
"curve_it": {
"type": "RIS",
"data": [
"X60"
]
},
"adc_test0": {
"type": "RIS",
"data": [
"X90;B>ADC_LEVEL;B>ADC_CHANNEL"
]
},
"set_sample_rate": {
"type": "RIS",
"data": [
"X70;B>SAMPLE_RATE"
]
},
"set_adc_gain": {
"type": "RIS",
"data": [
"X80;B>ADC_LEVEL"
]
},
"set_Resister_level": {
"type": "RIS",
"data": [
"XE0;B>Resister_LEVEL"
]
},
"const_current": {
"type": "RIS",
"data": [
"XD0;4X>Const_Current_value"
]
}
}
}