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compare: ChTheo:1252bcbdbf72d7f09240c0b872330adad9d0f39a
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ChTheo:master ChTheo:laser_controller ChTheo:web_V

3 Commits
web_V ... 1252bcbdbf

Author SHA1 Message Date
Ayzen
1252bcbdbf added AD9833 and DS1809 support 2026-02-09 10:29:52 +03:00
Ayzen
0d6a73d835 added sram saw 2026-02-03 19:29:40 +03:00
Ayzen
fd1095c50a ad9102 prestored saw done 2026-02-03 18:57:30 +03:00
13 changed files with 522 additions and 108 deletions
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4
.gitignore vendored
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@ -1,4 +0,0 @@
*.venv
*.pyc
__pycache__/
.env

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84
_device_main.py
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@ -44,6 +44,31 @@ def get_float(values, strId):
window['-StartCycle-'].update(disabled = True) window['-StartCycle-'].update(disabled = True)
return value return value
def parse_optional_int(value):
if value is None:
return None
s = str(value).strip()
if s == "":
return None
try:
return int(s, 0)
except Exception:
print(f"Invalid integer value: {s}")
return None
def parse_optional_float(value):
if value is None:
return None
s = str(value).strip()
if s == "":
return None
s = s.replace(",", ".")
try:
return float(s)
except Exception:
print(f"Invalid float value: {s}")
return None
def shorten(i): def shorten(i):
return "{:.2f}".format(round(i, 2)) return "{:.2f}".format(round(i, 2))
@ -73,6 +98,19 @@ def set_initial_params():
params['Delta_Current_2'] = 0.05 params['Delta_Current_2'] = 0.05
params['Delta_Time'] = 50 params['Delta_Time'] = 50
params['Tau'] = 10 params['Tau'] = 10
params['RampFreq'] = ''
params['RampDuty'] = ''
params['RampSawStep'] = ''
params['RampPatPeriod'] = ''
params['RampPatBase'] = 2
params['RampDacClk'] = ''
params['RampTriangle'] = True
params['RampSramMode'] = False
params['RampSramSamples'] = ''
params['RampSramAmp'] = ''
params['Ad9833Freq'] = ''
params['Ad9833Mclk'] = '25'
params['Ad9833Triangle'] = True
return params return params
def update_data_lists(): def update_data_lists():
@ -423,6 +461,46 @@ if __name__ == "__main__":
params['Iset_2'] = float(values['-InputI2-']) params['Iset_2'] = float(values['-InputI2-'])
dev.send_control_parameters(prt, params) dev.send_control_parameters(prt, params)
#print(sending_param) #print(sending_param)
elif event == '-StartRamp-':
freq_hz = parse_optional_float(values.get('-RampFreq-'))
duty = parse_optional_float(values.get('-RampDuty-'))
if duty is not None:
if duty > 1.0:
duty = duty / 100.0
if duty <= 0:
duty = None
saw_step = parse_optional_int(values.get('-RampSawStep-'))
pat_period = parse_optional_int(values.get('-RampPatPeriod-'))
pat_period_base = parse_optional_int(values.get('-RampPatBase-'))
dac_clk_mhz = parse_optional_float(values.get('-RampDacClk-'))
dac_clk_hz = dac_clk_mhz * 1e6 if dac_clk_mhz is not None else None
triangle = values.get('-RampTriangle-', True)
sram_mode = values.get('-RampSramMode-', False)
sram_samples = parse_optional_int(values.get('-RampSramSamples-'))
sram_amp_val = parse_optional_float(values.get('-RampSramAmp-'))
sram_amplitude = None
if sram_amp_val is not None:
if sram_amp_val <= 1.0:
sram_amplitude = int(round(sram_amp_val * 8191.0))
elif sram_amp_val <= 100.0:
sram_amplitude = int(round((sram_amp_val / 100.0) * 8191.0))
else:
sram_amplitude = int(round(sram_amp_val))
dev.start_ramp_max(prt, freq_hz=freq_hz, duty=duty, saw_step=saw_step,
pat_period=pat_period, pat_period_base=pat_period_base,
dac_clk_hz=dac_clk_hz, triangle=triangle,
sram_mode=sram_mode, sram_samples=sram_samples,
sram_amplitude=sram_amplitude)
elif event == '-StartRamp9833-':
freq_hz = parse_optional_float(values.get('-AD9833Freq-'))
mclk_mhz = parse_optional_float(values.get('-AD9833Mclk-'))
mclk_hz = mclk_mhz * 1e6 if mclk_mhz is not None else None
triangle = values.get('-AD9833Triangle-', True)
dev.start_ad9833_ramp(prt, freq_hz=freq_hz, mclk_hz=mclk_hz, triangle=triangle, enable=True)
elif event == '-DS1809UC-':
dev.send_ds1809_pulse(prt, uc=True, dc=False)
elif event == '-DS1809DC-':
dev.send_ds1809_pulse(prt, uc=False, dc=True)
elif event == '-StopCycle-': elif event == '-StopCycle-':
window['-StopCycle-'].update(disabled = True) window['-StopCycle-'].update(disabled = True)
current_and_temperature_settings_available = True current_and_temperature_settings_available = True
@ -434,8 +512,8 @@ if __name__ == "__main__":
window['-TOUT_1-'].update(gui.READ_TEMPERATURE_TEXT+' 1: '+shorten(data['Temp_1'])+' C') window['-TOUT_1-'].update(gui.READ_TEMPERATURE_TEXT+' 1: '+shorten(data['Temp_1'])+' C')
window['-TOUT_2-'].update(gui.READ_TEMPERATURE_TEXT+' 2: '+shorten(data['Temp_2'])+' C') window['-TOUT_2-'].update(gui.READ_TEMPERATURE_TEXT+' 2: '+shorten(data['Temp_2'])+' C')
window['-IOUT_1-'].update(gui.READ_CURRENT_TEXT+' 1: '+shorten(data['I1'])+' мА') window['-IOUT_1-'].update(gui.READ_CURRENT_TEXT+' 1: '+shorten(data['I1'])+' мА (raw '+str(data.get('I1_raw', ''))+')')
window['-IOUT_2-'].update(gui.READ_CURRENT_TEXT+' 2: '+shorten(data['I2'])+' мА') window['-IOUT_2-'].update(gui.READ_CURRENT_TEXT+' 2: '+shorten(data['I2'])+' мА (raw '+str(data.get('I2_raw', ''))+')')
window['-DateTime-'].update(data['datetime'].strftime('%d-%m-%Y %H:%M:%S:%f')[:-3]) window['-DateTime-'].update(data['datetime'].strftime('%d-%m-%Y %H:%M:%S:%f')[:-3])
window['-TTerm1-'].update('T терм 1: '+shorten(data['Temp_Ext_1'])+' C') window['-TTerm1-'].update('T терм 1: '+shorten(data['Temp_Ext_1'])+' C')
window['-TTerm2-'].update('T терм 2: '+shorten(data['Temp_Ext_2'])+' C') window['-TTerm2-'].update('T терм 2: '+shorten(data['Temp_Ext_2'])+' C')
@ -465,5 +543,3 @@ if __name__ == "__main__":
window.close() window.close()
dev.close_connection(prt) dev.close_connection(prt)

310
device_commands.py
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@ -1,7 +1,7 @@
from enum import IntEnum from enum import IntEnum
from serial import Serial from serial import Serial
from serial.tools import list_ports from serial.tools import list_ports
from . import device_conversion as cnv import device_conversion as cnv
from datetime import datetime from datetime import datetime
#### ---- Constants #### ---- Constants
@ -10,6 +10,28 @@ GET_DATA_TOTAL_LENGTH = 30 # Total number of bytes when getting DATA
SEND_PARAMS_TOTAL_LENGTH = 30 # Total number of bytes when sending parameters SEND_PARAMS_TOTAL_LENGTH = 30 # Total number of bytes when sending parameters
TASK_ENABLE_COMMAND_LENGTH = 32 # Total number of bytes when sending TASK_ENABLE command TASK_ENABLE_COMMAND_LENGTH = 32 # Total number of bytes when sending TASK_ENABLE command
AD9102_CMD_TOTAL_LENGTH = 10 # Total bytes when sending AD9102 saw command
AD9102_CMD_HEADER = "8888"
AD9833_CMD_TOTAL_LENGTH = 10 # Total bytes when sending AD9833 command
AD9833_CMD_HEADER = "9999"
DS1809_CMD_TOTAL_LENGTH = 10 # Total bytes when sending DS1809 UC/DC pulse command
DS1809_CMD_HEADER = "AAAA"
AD9102_SAW_STEP_DEFAULT = 1
AD9102_PAT_PERIOD_DEFAULT = 0xFFFF
AD9102_PAT_PERIOD_BASE_DEFAULT = 0x02
AD9102_DAC_CLK_HZ = None # set to actual DAC clock if you want freq->SAW_STEP conversion
AD9102_FLAG_SRAM = 0x0004
AD9102_FLAG_SRAM_FMT = 0x0008
AD9102_SRAM_SAMPLES_DEFAULT = 16
AD9102_SRAM_HOLD_DEFAULT = 1
AD9102_SRAM_AMP_DEFAULT = 8191
AD9833_FLAG_ENABLE = 0x0001
AD9833_FLAG_TRIANGLE = 0x0002
AD9833_MCLK_HZ_DEFAULT = 25_000_000
DS1809_FLAG_UC = 0x0001
DS1809_FLAG_DC = 0x0002
DS1809_PULSE_MS_DEFAULT = 2
class TaskType(IntEnum): class TaskType(IntEnum):
Manual = 0x00 Manual = 0x00
ChangeCurrentLD1 = 0x01 ChangeCurrentLD1 = 0x01
@ -148,26 +170,51 @@ def send_STATE(prt):
pass pass
def send_AD9102(prt, bytestring):
''' Start/stop AD9102 output with saw/triangle (0x8888 + ...).
Expected device answer: STATE.
'''
if len(bytestring) != AD9102_CMD_TOTAL_LENGTH:
print("Error. Wrong parameter string for AD9102 command.")
return None
prt.write(bytestring)
print("Sent: AD9102 ramp command.")
def send_AD9833(prt, bytestring):
''' Start/stop AD9833 output with triangle (0x9999 + ...).
Expected device answer: STATE.
'''
if len(bytestring) != AD9833_CMD_TOTAL_LENGTH:
print("Error. Wrong parameter string for AD9833 command.")
return None
prt.write(bytestring)
print("Sent: AD9833 ramp command.")
def send_DS1809(prt, bytestring):
''' Pulse DS1809 UC/DC control lines (0xAAAA + ...).
Expected device answer: STATE.
'''
if len(bytestring) != DS1809_CMD_TOTAL_LENGTH:
print("Error. Wrong parameter string for DS1809 command.")
return None
prt.write(bytestring)
print("Sent: DS1809 pulse command.")
# ---- Getting data # ---- Getting data
def get_STATE(prt): def get_STATE(prt):
''' Get decoded state of the device in byte format (2 bytes). ''' Get decoded state of the device in byte format (2 bytes).
''' '''
import time
# Wait a bit more if data hasn't arrived yet print("Received "+str(prt.inWaiting())+" bytes.")
waiting_bytes = prt.inWaiting() if prt.inWaiting()!=2:
if waiting_bytes != 2: print("Error. Couldn't get STATE data. prt.inWaiting():", prt.inWaiting())
# Give device a bit more time to respond print("Flushing input data:", prt.read(prt.inWaiting()))
time.sleep(0.05) # print("Flushing input data:", prt.read(2), prt.read(2))
waiting_bytes = prt.inWaiting()
print("Received "+str(waiting_bytes)+" bytes.")
if waiting_bytes != 2:
print("Error. Couldn't get STATE data. prt.inWaiting():", waiting_bytes)
if waiting_bytes > 0:
print("Flushing input data:", prt.read(waiting_bytes))
return None return None
out_bytes = prt.read(2) out_bytes = prt.read(2)
@ -270,6 +317,183 @@ def create_TaskEnableCommand(sending_param):
return bytearray.fromhex(data) return bytearray.fromhex(data)
def calc_saw_step_for_freq(freq_hz: float, dac_clk_hz: float, triangle: bool):
if freq_hz <= 0 or dac_clk_hz is None or dac_clk_hz <= 0:
return AD9102_SAW_STEP_DEFAULT
n = 2 if triangle else 1
step = int(round(dac_clk_hz / (freq_hz * n * 16384.0)))
if step < 1:
step = 1
if step > 63:
step = 63
return step
def calc_pat_period_for_duty(saw_step: int, duty: float, pat_period_base: int, triangle: bool):
if duty is None or duty <= 0 or duty > 1.0:
return AD9102_PAT_PERIOD_DEFAULT
n = 2 if triangle else 1
base_cycles = 16 if pat_period_base == 0 else pat_period_base
ramp_cycles = n * 16384 * max(1, min(63, saw_step))
pat_period = int(round(ramp_cycles / (duty * base_cycles)))
if pat_period < 1:
pat_period = 1
if pat_period > 0xFFFF:
pat_period = 0xFFFF
return pat_period
def calc_sram_samples_for_freq(freq_hz: float, dac_clk_hz: float, hold: int = None):
if hold is None or hold <= 0:
hold = AD9102_SRAM_HOLD_DEFAULT
if freq_hz is None or freq_hz <= 0 or dac_clk_hz is None or dac_clk_hz <= 0:
return AD9102_SRAM_SAMPLES_DEFAULT
samples = int(round(dac_clk_hz / (freq_hz * hold)))
if samples < 2:
samples = 2
if samples > 4096:
samples = 4096
return samples
def create_AD9102_ramp_command(saw_step: int = None,
pat_period: int = None,
pat_period_base: int = None,
enable: bool = True,
triangle: bool = True,
sram_mode: bool = False,
sram_samples: int = None,
sram_hold: int = None,
sram_amplitude: int = None):
flags = 0
if enable:
flags |= 0x0001
if triangle:
flags |= 0x0002
if sram_mode:
flags |= AD9102_FLAG_SRAM
if sram_mode:
flags |= AD9102_FLAG_SRAM_FMT
if sram_samples is None:
sram_samples = AD9102_SRAM_SAMPLES_DEFAULT
if sram_samples < 2:
sram_samples = 2
if sram_samples > 4096:
sram_samples = 4096
if sram_amplitude is None:
sram_amplitude = AD9102_SRAM_AMP_DEFAULT
if sram_amplitude < 0:
sram_amplitude = 0
if sram_amplitude > AD9102_SRAM_AMP_DEFAULT:
sram_amplitude = AD9102_SRAM_AMP_DEFAULT
param0 = int(sram_amplitude) & 0xFFFF
param1 = int(sram_samples) & 0xFFFF
else:
if saw_step is None:
saw_step = AD9102_SAW_STEP_DEFAULT
if pat_period is None:
pat_period = AD9102_PAT_PERIOD_DEFAULT
if pat_period_base is None:
pat_period_base = AD9102_PAT_PERIOD_BASE_DEFAULT
if saw_step < 1:
saw_step = 1
if saw_step > 63:
saw_step = 63
if pat_period < 0:
pat_period = 0
if pat_period > 0xFFFF:
pat_period = 0xFFFF
if pat_period_base < 0:
pat_period_base = 0
if pat_period_base > 0x0F:
pat_period_base = 0x0F
param0 = ((pat_period_base & 0x0F) << 8) | (saw_step & 0xFF)
param1 = pat_period
crc_word = flags ^ param0 ^ param1
data = flipfour(AD9102_CMD_HEADER) # Word 0 (header)
data += flipfour(int_to_hex(flags))
data += flipfour(int_to_hex(param0))
data += flipfour(int_to_hex(param1))
data += flipfour(int_to_hex(crc_word))
return bytearray.fromhex(data)
def create_AD9833_ramp_command(freq_hz: float,
mclk_hz: float = None,
enable: bool = True,
triangle: bool = True):
if mclk_hz is None or mclk_hz <= 0:
mclk_hz = AD9833_MCLK_HZ_DEFAULT
if mclk_hz is None or mclk_hz <= 0 or freq_hz is None or freq_hz < 0:
freq_word = 0
else:
freq_word = int(round((freq_hz * (1 << 28)) / float(mclk_hz)))
if freq_word < 0:
freq_word = 0
if freq_word > 0x0FFFFFFF:
freq_word = 0x0FFFFFFF
lsw = freq_word & 0x3FFF
msw = (freq_word >> 14) & 0x3FFF
flags = 0
if enable:
flags |= AD9833_FLAG_ENABLE
if triangle:
flags |= AD9833_FLAG_TRIANGLE
crc_word = flags ^ lsw ^ msw
data = flipfour(AD9833_CMD_HEADER) # Word 0 (header)
data += flipfour(int_to_hex(flags))
data += flipfour(int_to_hex(lsw))
data += flipfour(int_to_hex(msw))
data += flipfour(int_to_hex(crc_word))
return bytearray.fromhex(data)
def create_DS1809_pulse_command(uc: bool = False,
dc: bool = False,
count: int = 1,
pulse_ms: int = None):
flags = 0
if uc:
flags |= DS1809_FLAG_UC
if dc:
flags |= DS1809_FLAG_DC
if count is None or count <= 0:
count = 1
if count > 64:
count = 64
if pulse_ms is None:
pulse_ms = DS1809_PULSE_MS_DEFAULT
if pulse_ms < 1:
pulse_ms = 1
if pulse_ms > 500:
pulse_ms = 500
param0 = int(count) & 0xFFFF
param1 = int(pulse_ms) & 0xFFFF
crc_word = flags ^ param0 ^ param1
data = flipfour(DS1809_CMD_HEADER) # Word 0 (header)
data += flipfour(int_to_hex(flags))
data += flipfour(int_to_hex(param0))
data += flipfour(int_to_hex(param1))
data += flipfour(int_to_hex(crc_word))
return bytearray.fromhex(data)
def encode_Input(params): def encode_Input(params):
if params is None: if params is None:
@ -303,24 +527,38 @@ def encode_Input(params):
def decode_STATE(state): def decode_STATE(state):
st = flipfour(state) st = flipfour(state)
if st == '0000': if st is None or len(st) != 4:
return "Error: invalid STATE length."
hi = int(st[0:2], 16)
lo = int(st[2:4], 16)
errors = []
if lo & 0x01:
errors.append("SD Card reading/writing error (SD_ERR)")
if lo & 0x02:
errors.append("Command error (UART_ERR)")
if lo & 0x04:
errors.append("Wrong parameter value error (UART_DECODE_ERR)")
if lo & 0x08:
errors.append("Laser 1: TEC driver overheat (TEC1_ERR)")
if lo & 0x10:
errors.append("Laser 2: TEC driver overheat (TEC2_ERR)")
if lo & 0x20:
errors.append("Resetting system error (DEFAULT_ERR)")
if lo & 0x40:
errors.append("File deletion error (REMOVE_ERR)")
if lo & 0x80:
errors.append("AD9102 status check failed (AD9102_ERR)")
if not errors:
status = "All ok." status = "All ok."
elif st == '0001':
status = "SD Card reading/writing error (SD_ERR)."
elif st == '0002':
status = "Command error (UART_ERR)."
elif st == '0004':
status = "Wrong parameter value error (UART_DECODE_ERR)."
elif st == '0008':
status = "Laser 1: TEC driver overheat (TEC1_ERR)."
elif st == '0010':
status = "Laser 2: TEC driver overheat (TEC2_ERR)."
elif st == '0020':
status = "Resetting system error (DEFAULT_ERR)."
elif st == '0040':
status = "File deletion error (REMOVE_ERR)."
else: else:
status = "Unknown or reserved error." status = "; ".join(errors)
if hi != 0:
status += f" | AD9102_PAT_STATUS=0x{hi:02X}"
return status return status
@ -333,8 +571,12 @@ def decode_DATA(dh):
data = {} data = {}
data['datetime'] = datetime.now() data['datetime'] = datetime.now()
data['Header'] = get_word(dh, 0) data['Header'] = get_word(dh, 0)
data['I1'] = cnv.conv_I_N_to_mA(get_int_word(dh, 1)) #LD1_param.POWER i1_raw = get_int_word(dh, 1)
data['I2'] = cnv.conv_I_N_to_mA(get_int_word(dh, 2)) #LD2_param.POWER i2_raw = get_int_word(dh, 2)
data['I1_raw'] = i1_raw
data['I2_raw'] = i2_raw
data['I1'] = cnv.conv_I_N_to_mA(i1_raw) #LD1_param.POWER
data['I2'] = cnv.conv_I_N_to_mA(i2_raw) #LD2_param.POWER
data['TO_LSB'] = get_int_word(dh, 3) #TO6_counter_LSB data['TO_LSB'] = get_int_word(dh, 3) #TO6_counter_LSB
data['TO_MSB'] = get_int_word(dh, 4) #TO6_counter_MSB data['TO_MSB'] = get_int_word(dh, 4) #TO6_counter_MSB
data['Temp_1'] = cnv.conv_T_N_to_C(get_int_word(dh, 5)) #LD1_param.LD_CURR_TEMP data['Temp_1'] = cnv.conv_T_N_to_C(get_int_word(dh, 5)) #LD1_param.LD_CURR_TEMP
@ -349,7 +591,3 @@ def decode_DATA(dh):
data['CRC'] = get_word(dh, 14) data['CRC'] = get_word(dh, 14)
return data return data

2
device_conversion.py
View File

@ -13,7 +13,7 @@ R4 = 30000 # Ohm
R5 = 27000 # Ohm R5 = 27000 # Ohm
R6 = 56000 # Ohm R6 = 56000 # Ohm
RREF = 10 # Ohm (current-setting resistor) @1550 nm - 28.7 Ohm; @840 nm - 10 Ohm RREF = 30 # Ohm (current-setting resistor) @1550 nm - 28.7 Ohm; @840 nm - 10 Ohm
R7 = 22000 # Ohm R7 = 22000 # Ohm
R8 = 22000 # Ohm R8 = 22000 # Ohm

114
device_interaction.py
View File

@ -3,7 +3,7 @@
import time import time
from datetime import datetime from datetime import datetime
from . import device_commands as cmd import device_commands as cmd
#### ---- Constants #### ---- Constants
@ -68,41 +68,20 @@ def create_port_connection():
def reset_port_settings(prt): def reset_port_settings(prt):
# Reset port settings and check status # Reset port settings and check status
# First, flush any pending data in the input buffer
if prt.inWaiting() > 0:
flushed = prt.read(prt.inWaiting())
print(f"Flushed {len(flushed)} bytes before reset: {flushed.hex()}")
cmd.send_DEFAULT_ENABLE(prt) cmd.send_DEFAULT_ENABLE(prt)
time.sleep(WAIT_AFTER_SEND)
# Try multiple times with increasing delays to get response status = cmd.get_STATE(prt).hex()
max_attempts = 3 if status is not None:
for attempt in range(max_attempts):
wait_time = WAIT_AFTER_SEND * (attempt + 1) # Increase wait time with each attempt
time.sleep(wait_time)
status_bytes = cmd.get_STATE(prt)
if status_bytes is not None:
status = status_bytes.hex()
print("Received: STATE. State status:", cmd.decode_STATE(status), "("+cmd.flipfour(status)+")") print("Received: STATE. State status:", cmd.decode_STATE(status), "("+cmd.flipfour(status)+")")
print("") print("")
return # Success
if attempt < max_attempts - 1:
print(f"Attempt {attempt + 1} failed, retrying with longer delay...")
# If all attempts failed, print warning but don't raise exception
print("Warning: Could not get STATE response after reset, but device may still be reset.")
print("")
def request_state(prt): def request_state(prt):
# Request data # Request data
cmd.send_STATE(prt) cmd.send_STATE(prt)
time.sleep(WAIT_AFTER_SEND) time.sleep(WAIT_AFTER_SEND)
status_bytes = cmd.get_STATE(prt) status = cmd.get_STATE(prt).hex()
if status_bytes is not None: if status is not None:
status = status_bytes.hex()
print("Received: STATE. State status:", cmd.decode_STATE(status), "("+cmd.flipfour(status)+")") print("Received: STATE. State status:", cmd.decode_STATE(status), "("+cmd.flipfour(status)+")")
print("") print("")
@ -112,9 +91,8 @@ def send_control_parameters(prt, params):
hexstring = cmd.encode_Input(params) hexstring = cmd.encode_Input(params)
cmd.send_DECODE_ENABLE(prt,hexstring) cmd.send_DECODE_ENABLE(prt,hexstring)
time.sleep(WAIT_AFTER_SEND) time.sleep(WAIT_AFTER_SEND)
status_bytes = cmd.get_STATE(prt) status = cmd.get_STATE(prt).hex()
if status_bytes is not None: if status is not None:
status = status_bytes.hex()
print("Received: STATE. State status:", cmd.decode_STATE(status), "("+cmd.flipfour(status)+")") print("Received: STATE. State status:", cmd.decode_STATE(status), "("+cmd.flipfour(status)+")")
print("") print("")
else: else:
@ -125,22 +103,86 @@ def send_task_command(prt, sending_param):
hexstring = cmd.create_TaskEnableCommand(sending_param) hexstring = cmd.create_TaskEnableCommand(sending_param)
cmd.send_TASK_ENABLE(prt,hexstring) cmd.send_TASK_ENABLE(prt,hexstring)
time.sleep(WAIT_AFTER_SEND) time.sleep(WAIT_AFTER_SEND)
status_bytes = cmd.get_STATE(prt) status = cmd.get_STATE(prt).hex()
if status_bytes is not None: if status is not None:
status = status_bytes.hex()
print("Received: STATE. State status:", cmd.decode_STATE(status), "("+cmd.flipfour(status)+")") print("Received: STATE. State status:", cmd.decode_STATE(status), "("+cmd.flipfour(status)+")")
print("") print("")
else: else:
print("") print("")
def start_ramp_max(prt, freq_hz=None, duty=None, saw_step=None, pat_period=None, pat_period_base=None, dac_clk_hz=None, triangle=True, sram_mode=False, sram_samples=None, sram_hold=None, sram_amplitude=None):
# Start AD9102 sawtooth with configurable frequency/duty or SRAM ramp mode
if sram_mode:
if sram_hold is None:
sram_hold = cmd.AD9102_SRAM_HOLD_DEFAULT
if sram_samples is None and freq_hz is not None:
if dac_clk_hz is None:
dac_clk_hz = cmd.AD9102_DAC_CLK_HZ
sram_samples = cmd.calc_sram_samples_for_freq(freq_hz, dac_clk_hz, sram_hold)
hexstring = cmd.create_AD9102_ramp_command(enable=True, triangle=triangle, sram_mode=True,
sram_samples=sram_samples, sram_hold=sram_hold,
sram_amplitude=sram_amplitude)
else:
if pat_period_base is None:
pat_period_base = cmd.AD9102_PAT_PERIOD_BASE_DEFAULT
if saw_step is None and freq_hz is not None:
if dac_clk_hz is None:
dac_clk_hz = cmd.AD9102_DAC_CLK_HZ
saw_step = cmd.calc_saw_step_for_freq(freq_hz, dac_clk_hz, triangle)
if saw_step is None:
saw_step = cmd.AD9102_SAW_STEP_DEFAULT
if pat_period is None and duty is not None:
pat_period = cmd.calc_pat_period_for_duty(saw_step, duty, pat_period_base, triangle)
if pat_period is None:
pat_period = cmd.AD9102_PAT_PERIOD_DEFAULT
hexstring = cmd.create_AD9102_ramp_command(saw_step, pat_period, pat_period_base,
enable=True, triangle=triangle)
cmd.send_AD9102(prt, hexstring)
time.sleep(WAIT_AFTER_SEND)
status = cmd.get_STATE(prt).hex()
if status is not None:
print("Received: STATE. State status:", cmd.decode_STATE(status), "("+cmd.flipfour(status)+")")
print("")
else:
print("")
def start_ad9833_ramp(prt, freq_hz=None, mclk_hz=None, triangle=True, enable=True):
if freq_hz is None:
freq_hz = 0.0
hexstring = cmd.create_AD9833_ramp_command(freq_hz=freq_hz, mclk_hz=mclk_hz,
enable=enable, triangle=triangle)
cmd.send_AD9833(prt, hexstring)
time.sleep(WAIT_AFTER_SEND)
status = cmd.get_STATE(prt).hex()
if status is not None:
print("Received: STATE. State status:", cmd.decode_STATE(status), "("+cmd.flipfour(status)+")")
print("")
else:
print("")
def send_ds1809_pulse(prt, uc=False, dc=False, count=1, pulse_ms=None):
hexstring = cmd.create_DS1809_pulse_command(uc=uc, dc=dc, count=count, pulse_ms=pulse_ms)
cmd.send_DS1809(prt, hexstring)
time.sleep(WAIT_AFTER_SEND)
status = cmd.get_STATE(prt).hex()
if status is not None:
print("Received: STATE. State status:", cmd.decode_STATE(status), "("+cmd.flipfour(status)+")")
print("")
else:
print("")
def request_data(prt): def request_data(prt):
# Request data # Request data
cmd.send_TRANS_ENABLE(prt) cmd.send_TRANS_ENABLE(prt)
time.sleep(WAIT_AFTER_SEND) time.sleep(WAIT_AFTER_SEND)
data_bytes = cmd.get_DATA(prt) data = cmd.get_DATA(prt).hex()
data_dict = [] data_dict = []
if data_bytes is not None: if data is not None:
data = data_bytes.hex()
data_dict = cmd.decode_DATA(data) data_dict = cmd.decode_DATA(data)
return data_dict return data_dict

97
gui.py
View File

@ -38,6 +38,27 @@ SET_TEXT_WIDTH_NEW = 40
SET_START_BUTTON_TEXT = 'Пуск' SET_START_BUTTON_TEXT = 'Пуск'
SET_STOP_BUTTON_TEXT = 'Стоп' SET_STOP_BUTTON_TEXT = 'Стоп'
SET_RAMP_BUTTON_TEXT = 'Пила'
SET_RAMP_SECTION_TEXT = 'Настройка пилы (AD9102)'
SET_RAMP_FREQ_TEXT = 'Частота (Гц):'
SET_RAMP_DUTY_TEXT = 'Скважность (%):'
SET_RAMP_SAWSTEP_TEXT = 'SAW_STEP (1-63):'
SET_RAMP_PATPERIOD_TEXT = 'PAT_PERIOD (1-65535):'
SET_RAMP_PATBASE_TEXT = 'PAT_PERIOD_BASE (0-15):'
SET_RAMP_DACCLK_TEXT = 'DAC clk (МГц):'
SET_RAMP_TRI_TEXT = 'Треугольник'
SET_RAMP_SRAM_MODE_TEXT = 'SRAM режим'
SET_RAMP_SRAM_SAMPLES_TEXT = 'SRAM точки (samples):'
SET_RAMP_SRAM_AMP_TEXT = 'SRAM амплитуда (%):'
SET_AD9833_SECTION_TEXT = 'Настройка пилы (AD9833)'
SET_AD9833_FREQ_TEXT = 'Частота AD9833 (Гц):'
SET_AD9833_MCLK_TEXT = 'MCLK AD9833 (МГц):'
SET_AD9833_TRI_TEXT = 'Треугольник AD9833'
SET_AD9833_BUTTON_TEXT = 'Пила AD9833'
SET_DS1809_SECTION_TEXT = 'DS1809 (UC/DC)'
SET_DS1809_UC_BUTTON_TEXT = 'UC импульс'
SET_DS1809_DC_BUTTON_TEXT = 'DC импульс'
GRAPH_POINTS_NUMBER = 100 # Number of most recent data points shown on charts GRAPH_POINTS_NUMBER = 100 # Number of most recent data points shown on charts
GRAPH_CANVAS_SIZE = (0, 0) GRAPH_CANVAS_SIZE = (0, 0)
@ -70,31 +91,31 @@ def get_screen_size():
screen_width, screen_height = window.get_screen_size() screen_width, screen_height = window.get_screen_size()
window.close() window.close()
COMPACT_LAYOUT = True COMPACT_LAYOUT = screen_width <= 1280 or screen_height <= 800
margin_w, margin_h = WINDOW_MARGIN margin_w, margin_h = WINDOW_MARGIN
min_w, min_h = MIN_WINDOW_SIZE min_w, min_h = MIN_WINDOW_SIZE
window_width = min(screen_width, max(min_w, screen_width - margin_w)) window_width = min(screen_width, max(min_w, screen_width - margin_w))
window_height = min(screen_height, max(min_h, screen_height - margin_h))//2 window_height = min(screen_height, max(min_h, screen_height - margin_h))
WINDOW_SIZE = (window_width, window_height) WINDOW_SIZE = (window_width, window_height)
if COMPACT_LAYOUT: if COMPACT_LAYOUT:
SET_TEXT_WIDTH = 30 SET_TEXT_WIDTH = 30
SET_TEXT_WIDTH_NEW = 34 SET_TEXT_WIDTH_NEW = 34
graph_width = min(int(screen_width / 7.2), int(window_width / 5.6)) graph_width = min(int(screen_width / 3.6), int(window_width / 3.1))
graph_height = max(90, int(screen_height / 16)) graph_height = max(110, int(screen_height / 6.5))
H_SEPARATOR_PAD = (1, 8) H_SEPARATOR_PAD = (1, 12)
OUTPUT_TEXT_PAD = (5, (8, 3)) OUTPUT_TEXT_PAD = (5, (12, 5))
else: else:
SET_TEXT_WIDTH = 34 SET_TEXT_WIDTH = 34
SET_TEXT_WIDTH_NEW = 40 SET_TEXT_WIDTH_NEW = 40
graph_width = int(screen_width / 4) graph_width = int(screen_width / 3.5)
graph_height = int(screen_width / (3 * 3.5)) graph_height = int(screen_width / (3 * 2.75))
H_SEPARATOR_PAD = (1, 15) H_SEPARATOR_PAD = (1, 20)
OUTPUT_TEXT_PAD = (5, (15, 5)) OUTPUT_TEXT_PAD = (5, (20, 5))
graph_width = max(180, graph_width) graph_width = max(220, graph_width)
GRAPH_CANVAS_SIZE = (graph_width, graph_height) GRAPH_CANVAS_SIZE = (graph_width, graph_height)
return WINDOW_SIZE return WINDOW_SIZE
@ -195,9 +216,61 @@ def setup_gui(params):
[sg.Text(SET_TAU_T_TEXT, size=(SET_TEXT_WIDTH_NEW,1)), [sg.Text(SET_TAU_T_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Input(params['Tau'], size=(SET_INPUT_WIDTH,1), key='-InputTau-', disabled=True, disabled_readonly_background_color="Gray")], sg.Input(params['Tau'], size=(SET_INPUT_WIDTH,1), key='-InputTau-', disabled=True, disabled_readonly_background_color="Gray")],
[sg.Text(SET_RAMP_SECTION_TEXT, size=(SET_TEXT_WIDTH_NEW,1))],
[sg.Text(SET_RAMP_FREQ_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Input(params.get('RampFreq', ''), size=(SET_INPUT_WIDTH,1), key='-RampFreq-')],
[sg.Text(SET_RAMP_DUTY_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Input(params.get('RampDuty', ''), size=(SET_INPUT_WIDTH,1), key='-RampDuty-')],
[sg.Text(SET_RAMP_SAWSTEP_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Input(params.get('RampSawStep', ''), size=(SET_INPUT_WIDTH,1), key='-RampSawStep-')],
[sg.Text(SET_RAMP_PATPERIOD_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Input(params.get('RampPatPeriod', ''), size=(SET_INPUT_WIDTH,1), key='-RampPatPeriod-')],
[sg.Text(SET_RAMP_PATBASE_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Input(params.get('RampPatBase', ''), size=(SET_INPUT_WIDTH,1), key='-RampPatBase-')],
[sg.Text(SET_RAMP_DACCLK_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Input(params.get('RampDacClk', ''), size=(SET_INPUT_WIDTH,1), key='-RampDacClk-')],
[sg.Text(SET_RAMP_TRI_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Checkbox('', default=bool(params.get('RampTriangle', True)), key='-RampTriangle-')],
[sg.Text(SET_RAMP_SRAM_MODE_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Checkbox('', default=bool(params.get('RampSramMode', False)), key='-RampSramMode-')],
[sg.Text(SET_RAMP_SRAM_SAMPLES_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Input(params.get('RampSramSamples', ''), size=(SET_INPUT_WIDTH,1), key='-RampSramSamples-')],
[sg.Text(SET_RAMP_SRAM_AMP_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Input(params.get('RampSramAmp', ''), size=(SET_INPUT_WIDTH,1), key='-RampSramAmp-')],
[sg.HSeparator(pad=H_SEPARATOR_PAD)], [sg.HSeparator(pad=H_SEPARATOR_PAD)],
[sg.Button(SET_START_BUTTON_TEXT, key='-StartCycle-', disabled_button_color=("Gray22", "Blue"), disabled=True), sg.Button(SET_STOP_BUTTON_TEXT, disabled_button_color=("Gray22", "Blue"), key='-StopCycle-', disabled=True)]] [sg.Text(SET_AD9833_SECTION_TEXT, size=(SET_TEXT_WIDTH_NEW,1))],
[sg.Text(SET_AD9833_FREQ_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Input(params.get('Ad9833Freq', ''), size=(SET_INPUT_WIDTH,1), key='-AD9833Freq-')],
[sg.Text(SET_AD9833_MCLK_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Input(params.get('Ad9833Mclk', ''), size=(SET_INPUT_WIDTH,1), key='-AD9833Mclk-')],
[sg.Text(SET_AD9833_TRI_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
sg.Checkbox('', default=bool(params.get('Ad9833Triangle', True)), key='-AD9833Triangle-')],
[sg.HSeparator(pad=H_SEPARATOR_PAD)],
[sg.Text(SET_DS1809_SECTION_TEXT, size=(SET_TEXT_WIDTH_NEW,1))],
[sg.Button(SET_DS1809_UC_BUTTON_TEXT, key='-DS1809UC-', disabled_button_color=("Gray22", "Blue")),
sg.Button(SET_DS1809_DC_BUTTON_TEXT, key='-DS1809DC-', disabled_button_color=("Gray22", "Blue"))],
[sg.HSeparator(pad=H_SEPARATOR_PAD)],
[sg.Button(SET_START_BUTTON_TEXT, key='-StartCycle-', disabled_button_color=("Gray22", "Blue"), disabled=True), sg.Button(SET_STOP_BUTTON_TEXT, disabled_button_color=("Gray22", "Blue"), key='-StopCycle-', disabled=True), sg.Button(SET_RAMP_BUTTON_TEXT, key='-StartRamp-', disabled_button_color=("Gray22", "Blue")), sg.Button(SET_AD9833_BUTTON_TEXT, key='-StartRamp9833-', disabled_button_color=("Gray22", "Blue"))]]
layout = [[sg.Column(layout_input_col1, pad=(0,0)), sg.VSeparator(pad=(4,0)), sg.Column(layout_input_col2, pad=(0,0)), sg.VSeparator(pad=(4,0)), sg.Column(layout_input_col3, pad=(0,0))], layout = [[sg.Column(layout_input_col1, pad=(0,0)), sg.VSeparator(pad=(4,0)), sg.Column(layout_input_col2, pad=(0,0)), sg.VSeparator(pad=(4,0)), sg.Column(layout_input_col3, pad=(0,0))],

11
init_params.json
View File

@ -1,11 +0,0 @@
{
{INITIAL_TEMPERATURE_1 = 28 # Set initial temperature for Laser 1 in Celsius: from -1 to 45 C ??
INITIAL_TEMPERATURE_2 = 28.9 # Set initial temperature for Laser 2 in Celsius: from -1 to 45 C ??
INITIAL_CURRENT_1 = 33 # 64.0879 max # Set initial current for Laser 1, in mA
INITIAL_CURRENT_2 = 35 # 64.0879 max # Set initial current for Laser 2, in mA
GUI_TIMEOUT_INTERVAL = 5#505 - dev.WAIT_AFTER_SEND*1000 # GUI refresh time in milliseconds
SAVE_POINTS_NUMBER = 1000 # Number of most recent data points kept in memory
}

4
run
View File

@ -1,7 +1,7 @@
#!/usr/bin/bash #!/usr/bin/bash
#reset generator PCB #reset generator PCB
# pinctrl set 26 op dl # drive PCB NRST LOW -> reset stm32 #pinctrl set 26 op dl # drive PCB NRST LOW -> reset stm32
# pinctrl set 26 op dh # turn stm32 back ON #pinctrl set 26 op dh # turn stm32 back ON
source .venv/bin/activate source .venv/bin/activate
python3 _device_main.py python3 _device_main.py