; This is calkit configuration file ; For options please refer to documentation [calkit] ;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 = f1620 ; 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 = HP3458KS test ; Test string ci12_str = Calcheck autocommit system ; Test string interface = gpib ; (gpib = use linux-gpib binding, vxi = use E5810A gateway) vxi_ip = 192.168.1.125 dut_ip = 192.168.1.125 alienated = true ; don't stop for user inputs lab_location = xdevs_usfl ; (lab location id, available are xdevs_hq, xdevs_usfl, xdevs_idtw) logfilenm = results/4808_ks3458b_pre_cal.html report_filenm = results/4808_ks3458b_pre_cal.html raw_data_filelog = results/4808_ks3458b_boost_precal.log [testset] testmode = dcv_w4808 ; fast - run only RES,DCV, normal - run RES,DCV,DCZ,ACVA,DCI, full - run everything, dconly ; Specific test modes: ; * 2182_full = DCV CH1+CH2 + DCL + DCZ ; * 2182_lv = low voltage only ; * 2182_262 = DCV CH1+CH2 full test with Keithley 262 divider (10mV/100mV) ; * full_boosted = Full test with use of Fluke 5725 amplifier ; * dcv_w4808 = DCV/ACV/RES test with use of Wavetek 4808 MFC ; * dci_w4808 = DCI/ACI test with use of Wavetek 4808 MFC ; * full_w4808 = Full test with use of Wavetek 4808 MFC (non aliented only) all_test_disable = true ; Run bogus data if true enabled_dcz = true ;(DC Zero test active) enabled_dcv = true ;(FS/-FS DC Voltage test active) enabled_dclin = false ;(DC Linearity test active) enabled_dci = true ;(DCI test active) enabled_acz = false ;(AC Zero test active) enabled_acva = true ;(AC Analog test active) enabled_acvs = true ;(AC Sync test active) enabled_aci = true ;(ACI test active) enabled_rez = true ;(Resistance zero test active) enabled_res = true ;(Resistance 4W test active) enabled_res1g = true ;(1G Resistance test active) enabled_res2w = false ;(Resistance 2W test active) enabled_freq = false ;(Frequency test active) enabled_period = false ;(Period test active) [mode] run_selftest = true ;true to Run self-diag tests before perf-test) run_acal = true ;true to Run 3458 ACAL before perf-test) run_zcal_mfc = false ;true to Run 5700 Zero CAL before perf-test) [specification] cal_spec = 24h ; (24h or 90d or 180d or 1y or 2y) confidence = 0.95 ; 95% (guardbanding) read_unc_dcz = false ; Read uncertainty from MFC read_unc_dcv = false ; Read uncertainty from MFC read_unc_dclin = false ; Read uncertainty from MFC read_unc_dci = false ; Read uncertainty from MFC read_unc_acz = false ; Read uncertainty from MFC read_unc_acva = false ; Read uncertainty from MFC read_unc_acvs = false ; Read uncertainty from MFC read_unc_aci = false ; Read uncertainty from MFC read_unc_rez = false ; Read uncertainty from MFC read_unc_res = false ; Read uncertainty from MFC read_unc_res1g = false ; Read uncertainty from MFC read_unc_res2w = false ; Read uncertainty from MFC read_unc_freq = false ; Read uncertainty from MFC read_unc_period = false ; Read uncertainty from MFC [dut] dut_gpib_addr = 22 ; GPIB Address dut = hp3458a ; DUT device type secure_password = 0 ; DUT security password dut_terminal_side = 1 ; 1 - front, 0 - rear dut_serno = 22815 dut_rh = N/A dut_idno = 3458KS-22 dut_testmode = First dut_ref_note = Direct MFC test, short cables, verification, no DCI dut_state_note = W4808 dutnote = Test front ports, V/R only header_name = 3458KS [standard] mfc_gpib_addr = 2 ; GPIB Address mfc = w4808 ; (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 [uplot] chart_title = MM4808, Integral linearity, +/-20V sweep, 100V range, NPLC50 soak10 ;Name for the chart y_max = 0.50 ; # Maximum value for Y axis y_min = -0.50 ; # Minimum value for Y axis y_resolution = 0.05 ; # Y axis ticks resolution y_label = Measured value ; y2_label = Error, ppm ; x_max = 20 ; # Maximum value for X axis x_min = -20 ; # Minimum value for X axis x_resolution = 1 ; # X axis ticks resolution x_label = Samples, number ; dataset_color1 = #000000 ; dataset_color2 = #ff3333 ; dataset_color3 = #3333ff ; dataset_color4 = #ff0000 ; dataset_color5 = #0000ff ; dataset_color6 = #0088ff ; dataset_color7 = #ff0000 ; dataset_color8 = #ffcc22 ; dataset_color9 = #0000ff ; dataset_color10 = #ff0000 ; dataset_color11 = #ffcc22 ; dataset_color12 = #0000ff ; dataset_name1 = Measured DUT ; dataset_name2 = DUT Spec, max ; dataset_name3 = DUT Spec, min ; dataset_name4 = REF Spec, max ; dataset_name5 = REF Spec, min ; dataset_name6 = Fluke 8508A vs 3458AB ; dataset_name6 = Fluke 8508A vs 3458AB ; dataset_name7 = 3458A (peak) ; dataset_name8 = 3458B (peak) ; dataset_name9 = 3458C (peak) ; dataset_name10 = 3458D (peak) ; dataset_name11 = 8508A (peak) ; dataset_name12 = K182-M (peak) ; plot_w = 2000 ; # Width, px plot_h = 900 ; # Height, px plot_w_s = 1200 ; # Width, px plot_h_s = 540 ; # Height, px