test1.py

####################################################################################################
#   This test is an example of how to write a test, and contains a few code lines                  #
#   for every module.                                                                              #
#   Notice that every test shoulld contain the next defines:                                       #
#   #Test ID:                                                                                      #
#    USER_NAME   - this variable is being used in the init.py file, to choose the right address.   #
#    FOLDER_PATH - the path for the test's log to be saved.                                        #
#    TEST_NAME   - the test's name.                                                                #
#                                                                                                  #
#   #defines:                                                                                      #
#    T32_APP_CMM_PATH or every define that is specific to this test.                               #
#                                                                                                  #
#   #import modules:                                                                               #
#    execfile(r"C:\Users\bar.kristal\Documents\GitHub\Python\init.py")                             #
####################################################################################################

## Test ID:
USER_NAME = 'Bar'
FOLDER_PATH = r"C:\\Users\bar.kristal\Documents\GitHub\Python\Tests\functionality_test"
TEST_NAME = "test1"

#defines:
T32_APP_CMM_PATH = r"T:\\barkristal\DVF101\SPI\scripts\dvf101_app.cmm"

#call the init.py module:
execfile(r"C:\Users\bar.kristal\Documents\GitHub\Python\init.py")
#######################################################################################



## Uart_Device:

# D6 = UartDevice('DBMD6', 'COM13', baudrate=912600, bytesize=8, parity='N', stopbits=1,timeout=1)
# D6.change_baudrate(115200)
# print D6.ser.baudrate
# D6.sync(10)
# D6.load_boot_file(r'T:\Barkristal\VT_D6_ver_293_Sen333.bin')
# print D6.read_IO_port('3000000')

D4 = UartDevice('DBMD4', 'COM9', baudrate=912600, bytesize=8, parity='N', stopbits=1,timeout=1)
D4.change_baudrate(115200)
print D4.ser.baudrate
D4.sync(10)
# D6.load_boot_file(r'T:\Barkristal\VT_D6_ver_293_Sen333.bin')
print D4.read_apb_reg('3000000')
print D4.read_apb_reg('3000008')


########################
## Lauterbach:

# DVF101 = Lauterbach("DVF101")
# DVF101.write_register("5300000", "5555")
# DVF101.set_bits("5300000", "410", "40")
# print DVF101.read_register("5300000")
# DVF101.execute_cmm_file(br"T:\barkristal\DVF101\SPI\clkout.cmm")
# DVF101.close()



########################
## Excel:

# wb1, path = create_excel_file(DIR_NAME, LOG_NAME_EXCEL)
# ws1 = wb1.create_sheet("new sheet is the new shit!")
# ws1.cell(row=1,column=1).value="write something"
# wb1.save(full_path)
# wb=open_excel_file(full_path)
# print wb.get_sheet_names()


########################
## Power Supply:

# pwr_sply = QL355TPPwrSply(POWER_SUPLLY_ADDRESS)
# print pwr_sply.name
# pwr_sply.channel_on('1')
# pwr_sply.set_volt(1,4.3)
# pwr_sply.read_current(1)
# pwr_sply.sense(2,1)
#
# pwr_sply.set_current_lim(1,1.32)
# pwr_sply.close()

########################
## Frequency counter:

# freq_counter = HP53131aFreqCounter(FREQUENCY_COUNTER_ADDRESS)
# print freq_counter.name
# freq_counter.meas("freqency")
# a= freq_counter.meas("volt_min_peak")
# freq_counter.meas("phase")


########################
## Electronc load:

# load = KikusuiPLZ70UA(ELECTRONIC_LOAD_ADDRESS)
# print load.name
# load.reset()
# load.load_on()
# load.load_off()
# load.set_resistance("0.234")
# load.read_current("1")
# load.read_voltage("2")


########################
## Small oven:

# fridg = VotschVT4002("COM19")
# fridg.stop_chamber()
# time.sleep(3)
# fridg.wait_for_temp(82)
# time.sleep(2)
# print fridg.read_error()
# fridg.close()


########################
## Blue oven:

# termotron = Termotron3800(TERMOTRON_TCP_IP)
# termotron.stop_chamber()
# termotron.set_temp(23)
# termotron.wait_for_temp(22)
# write_to_log(termotron.read_temp())
# time.sleep(1)
# termotron.stop_chamber()


########################
## DMM

# dmm = Agillent34401A(DMM_ADDRESS)
# dmm.meas("DCV")
# dmm.meas("ACV")
# dmm.meas("frequency")
# dmm.close()


########################
## Wave generator

# wave_gen = HP33120aWaveGen("GPIB0::12::INSTR")
# wave_gen.generate("SIN", '1000', "1", "0")


########################
## saleae
# logic = saleae.Saleae()
# logic.capture_to_file(r'c:\saleae_capture')