netcdf D:\BOSTON\4691WH\4691WH dimensions: ensemble = UNLIMITED ; (26150 currently) bin = 14 ; variables: float D(bin), varid 0, shape = [ 14 ] D:units = m D:long_name = DEPTH (m) D:_FillValue = -999999.000 D:epic_code = 3 D:center_first_bin = 4.020 D:blanking_distance = 1.760 D:bin_size = 2.000 D:bin_count = 14 D:water_depth = 0.000 D:xducer_offset_from_bottom = 0.000 D:NOTE_14 = bin depths are relative to the transducer head double TIM(ensemble), varid 1, shape = [ 26150 ] TIM:units = decimal days TIM:long_name = JULIAN DAYS TIM:_FillValue = TIM:epic_code = 627 TIM:valid_min = 0 long Rec(ensemble), varid 2, shape = [ 26150 ] Rec:units = counts Rec:long_name = Records Rec:_FillValue = -999999 Rec:epic_code = 1207 Rec:valid_min = 0 long sv(ensemble), varid 3, shape = [ 26150 ] sv:units = m s-1 sv:long_name = sound velocity (m/s) sv:_FillValue = -999999 sv:epic_code = 80 sv:valid_range = 14001600 float vel1(ensemble, bin), varid 4, shape = [ 26150 14 ] vel1:units = mm s-1 vel1:long_name = Beam 1 velocity, mm/s vel1:epic_code = 1280 vel1:_FillValue = -999999.000 vel1:valid_range = -32768.000 32767.000 float vel2(ensemble, bin), varid 5, shape = [ 26150 14 ] vel2:units = mm s-1 vel2:long_name = Beam 2 velocity, mm/s vel2:epic_code = 1281 vel2:_FillValue = -999999.000 vel2:valid_range = -32768.000 32767.000 float vel3(ensemble, bin), varid 6, shape = [ 26150 14 ] vel3:units = mm s-1 vel3:long_name = Beam 3 velocity, mm/s vel3:epic_code = 1282 vel3:_FillValue = -999999.000 vel3:valid_range = -32768.000 32767.000 float vel4(ensemble, bin), varid 7, shape = [ 26150 14 ] vel4:units = mm s-1 vel4:long_name = Beam 4 velocity, mm/s vel4:epic_code = 1283 vel4:_FillValue = -999999.000 vel4:valid_range = -32768.000 32767.000 float cor1(ensemble, bin), varid 8, shape = [ 26150 14 ] cor1:units = counts cor1:long_name = Beam 1 correlation cor1:epic_code = 1294 cor1:_FillValue = -999999.000 cor1:valid_range = 0.000 255.000 float cor2(ensemble, bin), varid 9, shape = [ 26150 14 ] cor2:units = counts cor2:long_name = Beam 2 correlation cor2:epic_code = 1295 cor2:_FillValue = -999999.000 cor2:valid_range = 0.000 255.000 float cor3(ensemble, bin), varid 10, shape = [ 26150 14 ] cor3:units = counts cor3:long_name = Beam 3 correlation cor3:epic_code = 1296 cor3:_FillValue = -999999.000 cor3:valid_range = 0.000 255.000 float cor4(ensemble, bin), varid 11, shape = [ 26150 14 ] cor4:units = counts cor4:long_name = Beam 4 correlation cor4:epic_code = 1297 cor4:_FillValue = -999999.000 cor4:valid_range = 0.000 255.000 float AGC1(ensemble, bin), varid 12, shape = [ 26150 14 ] AGC1:units = counts AGC1:long_name = Echo Intensity (AGC) Beam 1 AGC1:epic_code = 1221 AGC1:_FillValue = -999999.000 AGC1:valid_range = 0.000 255.000 AGC1:norm_factor = 0.450 AGC1:NOTE_15 = normalization to db float AGC2(ensemble, bin), varid 13, shape = [ 26150 14 ] AGC2:units = counts AGC2:long_name = Echo Intensity (AGC) Beam 2 AGC2:epic_code = 1222 AGC2:_FillValue = -999999.000 AGC2:valid_range = 0.000 255.000 AGC2:norm_factor = 0.450 AGC2:NOTE_16 = normalization to db float AGC3(ensemble, bin), varid 14, shape = [ 26150 14 ] AGC3:units = counts AGC3:long_name = Echo Intensity (AGC) Beam 3 AGC3:epic_code = 1223 AGC3:_FillValue = -999999.000 AGC3:valid_range = 0.000 255.000 AGC3:norm_factor = 0.450 AGC3:NOTE_17 = normalization to db float AGC4(ensemble, bin), varid 15, shape = [ 26150 14 ] AGC4:units = counts AGC4:long_name = Echo Intensity (AGC) Beam 4 AGC4:epic_code = 1224 AGC4:_FillValue = -999999.000 AGC4:valid_range = 0.000 255.000 AGC4:norm_factor = 0.450 AGC4:NOTE_18 = normalization to db float PGd1(ensemble, bin), varid 16, shape = [ 26150 14 ] PGd1:units = counts PGd1:long_name = Percent Good Beam 1 PGd1:epic_code = 1241 PGd1:_FillValue = -999999.000 PGd1:valid_range = 0.000 100.000 float PGd2(ensemble, bin), varid 17, shape = [ 26150 14 ] PGd2:units = counts PGd2:long_name = Percent Good Beam 2 PGd2:epic_code = 1242 PGd2:_FillValue = -999999.000 PGd2:valid_range = 0.000 100.000 float PGd3(ensemble, bin), varid 18, shape = [ 26150 14 ] PGd3:units = counts PGd3:long_name = Percent Good Beam 3 PGd3:epic_code = 1243 PGd3:_FillValue = -999999.000 PGd3:valid_range = 0.000 100.000 float PGd4(ensemble, bin), varid 19, shape = [ 26150 14 ] PGd4:units = counts PGd4:long_name = Percent Good Beam 4 PGd4:epic_code = 1244 PGd4:_FillValue = -999999.000 PGd4:valid_range = 0.000 100.000 float Hdg(ensemble), varid 20, shape = [ 26150 ] Hdg:units = degrees Hdg:long_name = INST Heading Hdg:epic_code = 1215 Hdg:_FillValue = -999999.000 Hdg:valid_range = 0.000 359.990 float Ptch(ensemble), varid 21, shape = [ 26150 ] Ptch:units = degrees Ptch:long_name = INST Pitch Ptch:epic_code = 1216 Ptch:_FillValue = -999999.000 Ptch:valid_range = -20.000 20.000 float Roll(ensemble), varid 22, shape = [ 26150 ] Roll:units = degrees Roll:long_name = INST Roll Roll:epic_code = 1217 Roll:_FillValue = -999999.000 Roll:valid_range = -20.000 20.000 float Tx(ensemble), varid 23, shape = [ 26150 ] Tx:units = degrees Tx:long_name = ADCP Transducer Temperature Tx:epic_code = 3017 Tx:_FillValue = -999999.000 Tx:valid_range = -5.000 40.000 float xmitc(ensemble), varid 24, shape = [ 26150 ] xmitc:units = amps xmitc:long_name = transmit current xmitc:_FillValue = -999999.000 float xmitv(ensemble), varid 25, shape = [ 26150 ] xmitv:units = volts xmitv:long_name = transmit voltage xmitv:_FillValue = -999999.000 long dac(ensemble), varid 26, shape = [ 26150 ] dac:units = counts dac:long_name = DAC output dac:_FillValue = -999999 long VDD3(ensemble), varid 27, shape = [ 26150 ] VDD3:units = volts VDD3:long_name = battery voltage 3 VDD3:_FillValue = -999999 long VDD1(ensemble), varid 28, shape = [ 26150 ] VDD1:units = volts VDD1:long_name = battery voltage 1 VDD1:_FillValue = -999999 long VDC(ensemble), varid 29, shape = [ 26150 ] VDC:units = volts VDC:long_name = VDC VDC:_FillValue = -999999 //global attributes: :CREATION_DATE = 8-Nov-96 :INST_TYPE = RD Instruments ADCP :PROG_CMNT1 = Converted to netCDF via MATLAB by adcp2cdf.m :firmware_version = 8.090 :frequency = 300 :beam_pattern = convex :sensor_configuration = 1 :transducer_attached = 49 :orientation = UP :beam_angle = 20 :janus = 4 Beam :simulated_data = 0 :beams_in_velocity_calculation = 4 :pings_per_ensemble = 2 :profiling_mode = 1 :correlation_threshold = 64 :code_repetitions = 4 :minimum_percent_good = 25 :error_velocity_threshold = 1000 :time_between_ping_groups = 0050 :transform = BEAM :heading_alignment = 0 :heading_bias = 1610 :NOTE_1 = units for heading bias and alignment are centidegrees :NOTE_2 = Sound speed computed from ED, ES & ET :NOTE_3 = ED taken from depth sensor :NOTE_4 = EH taken from xducer heading sensor :NOTE_5 = EP taken from xducer pitch sensor :NOTE_6 = ER taken from xducer roll sensor :NOTE_7 = ES derived from conductivity sensor :NOTE_8 = ET taken from temperature sensor :NOTE_9 = depth sensor available :NOTE_10 = pitch sensor available :NOTE_11 = roll sensor available :NOTE_12 = temperature sensor available :transmit_pulse_length = 200 :NOTE_13 = transmit_pulse_length units are cm :starting depth cell = 0 :ending depth cell = 5 :false_target_reject_threshold = 50 :transmit_lag_distance = 51