; This is linkit configuration file ; For options please refer to documentation [main] data_filename = dcl_10vdc_abc_abe_hulk1_11rng_resl8_nplc20_soak20.csv ; # Filename for DSV input reference_value = 12 ; # Reference for ppm delta calc on the vertical axis plot_out_filename = dcl_10vdc_abc_abe_hulk1_11rng_resl8_nplc20_soak20.png ; # Filename for output PNG plot plot_out_filename_small = dcl_10vdc_abc_abe_hulk1_11rng_resl8_nplc20_soak20_1.png ; # Filename for output PNG plot, small plot_w = 2000 ; # Width, px plot_h = 900 ; # Height, px plot_w_s = 1200 ; # Width, px plot_h_s = 540 ; # Height, px baseline_ref_column = 1 ; # Column used as baseline 0.0 ppm reference. Column 0 is date. if_debug = false ; (if true run all code w/o talking to real hardware) no_delays = false ; (don't use delays in code to run during debug) env_sensor = bme280 ; none or bme280 or f1620 - Environment sensor ;env_sensor = none ; none or bme280 - Environment sensor ;if_debug = true ; (if true run all code w/o talking to real hardware) ;no_delays = true ; (don't use delays in code to run during debug) verbose = true ; verbose outputs in terminal ci_str = Testing autocommit system ; Test string ci12_str = Calcheck autocommit system ; Test string interface = vxi ; (gpib = use linux-gpib binding, vxi = use E5810A gateway) vxi_ip = 192.168.1.125 alienated = true ; don't stop for user inputs lab_location = xdevs_hq ; (lab location id, available are xdevs_hq, xdevs_usfl, xdevs_idtw) report_filenm = results/hlk_34401_erik6.html raw_data_filelog = results/hlk_34401_erik6.log dataset_name1 = 3458A GPIB2 ; dataset_name2 = 3458A GPIB3 ; dataset_name3 = 3458A BE GPIB5 ; dataset_name4 = 3458A GPIB11 ; dataset_name5 = K2002 GPIB4 ; dataset_name6 = ; dataset_name7 = ; dataset_name8 = ; [plot] chart_title = 5720A-3458 Linearity test 10V range, +/-11V VDC sweep, NPLC20, 20s soak ; Name for the chart y_max = 0.2 ; # Maximum value for Y axis y_min = -0.2 ; # Minimum value for Y axis y_resolution = 0.01 ; # Y axis ticks resolution y_label = INL, ppm of best-fit poly of the range ; x_max = 12 ; # Maximum value for X axis x_min = -12 ; # Minimum value for X axis x_resolution = 1 ; # X axis ticks resolution x_label = Voltage, VDC ; dataset_color1 = 241ea1 ; dataset_color2 = 741edf ; dataset_color3 = 33cc22 ; dataset_color4 = a71eae ; dataset_color5 = ff3311 ; dataset_color6 = c56ac1 ; dataset_color7 = ff0000 ; dataset_color8 = 00ff00 ; dataset_color9 = 0000ff ; run_zcal_mfc = true ;true to Run 5700 Zero CAL before perf-test) [dut] dut_gpib_addr = 8 ; GPIB Address dut = hp34401a ; DUT device type secure_password = 0 ; DUT security password dut_terminal_side = 1 ; 1 - front, 0 - rear dut_serno = US36111998 dut_rh = N/A dut_idno = Erik-34401A dut_testmode = HLK5720 dut_ref_note = Direct MFC test, Fluke cables, post-calibration adjustment 1 dut_state_note = test dutnote = Check header_name = Agilent 34401A [standard] mfc_gpib_addr = 1 ; GPIB Address mfc = f5720 ; (MFC type) mfcs = none ; (MFC type) mfc_acal = true ;(Run Calcheck + reports prior to DUT perf-test) grd_gpib_addr = 3 ; GPIB Address for guard reference meter grd_type = hp3458a ; Guard reference meter type (used for DCV/ACV/ACI/DCI only) [siggen] rf_sg = none ; Signal generator [env] f1620_ip = 192.168.101.10 f1620_port = 10001