for processing tp and seacat pressure sensors for ca10 at 0,140w
from TP files made
pres010c.ram   temp010c.ram   ! my labeling of 010c indicates ca10

then average data to half hourly values
$bcprog/scalv4_ram2 < avtp_ca10.in


note: *.ps files are postscript files 
make histogram of tp pressure
$bcprog/scalplt_ram2 < scalplt_1_ram.in
makes popfil.dat  then to show on screen:
mypop
to make postscript file: 
mypop ps
rampres_hist.ps
printer_name

repeat for temperature


to make seacat ca10egr.250sc file:
$bcprog/scread4 < scread_ca10.in
note that the last calibration of the seacat pressure was in 2002.
    need to check if a later one exists

to make seacat ca10b.250sc file:
$bcprog/scedit2 < scedit_ca10.in
edit ca10b.250sc to add 1920 with -99.999s by adding the following
   line to the end this allows the averaging program to compute an 
   average at 1900 since need 2 out of 3 good data to make a half 
   hourly average.

 1920 21 9 5 -99.999 -99.999 -99.999 -99.999 53930

average seacat data to make ca10hlf.250sc file:
$bcprog/scalv3 < avsc_ca10.in

make histograms of seacat pressure,temperature and salinity
$bcprog/scalplt < scalplt_1.in
makes popfil.dat  then
mypop ps
seacat_hist.ps
printer_name


convert pressure sensor data to depth of transducer in meters for 
       comparison with target_strength3 results
$bcprog/convert_pres_to_depth < convert_pres_to_depth.in
makes pres010chlf_meters.date and ca10hlf_meters.250sc 

make temp regression plots of tp vs sc and tp vs adcp and sc vs adcp

$bcprog/uniplt2k < tempreg.indat

tempreg_sc_tp.ps
tempreg_tp_adcp.ps
tempreg_sc_adcp.ps

make pres regression plots of tp vs sc and tp vs adcp and sc vs adcp
$bcprog/uniplt2k < regtpsctg.indat

regpres_sc_tp.ps
regpres_tp_adcp.ps
regpres_sc_adcp.ps