Table of contents
- 1. Prerequists R2DBE
- 2. Prerequisits DBBC3
- 3. System initialization
- 3.1.1. Module initialization
- 3.1.2. Configure the backends (R2DBE only)
- 3.1.3. Configure the DBBC3
- 3.1.4. Check signal routing
- 3.1.5. Check time synchronization
- 3.1.6. Adjust power levels (R2DBE)
- 3.1.7. Setting 2Bit Threshold (R2DBE)
- 3.1.8. Adjust power levels (DBBC3)
- 3.1.9. Do test recording
- 3.1.10. Load and execute the schedule
- 3.1.11. Start logging of total power
- 3.1.12. Start the Mark6 monitoring client
- 3.1.13.
- 4.
- 5.
- 6.
Prerequists R2DBE
- Go through the setup instructions and verify that the system is up and running.
- Make sure that the modules have been initialized, grouped and labeled.
Prerequisits DBBC3
- Go through the system setup procedure for the DBBC3 and verify that the system is in a working condition.
- Make sure that pv-mark6-3 and pv-mark6-4 are up and running
System initialization
More detailed information can be found also on the EHT-wiki
Module initialization
ONLY IF REQUIRED: Initialise the modules using the following command. It has to be repeated separately for each Mark6 that has modules that need initialising (example below references the Mark6 using hostname 'recorder1'). This command will erase all existing data on the modules. If you are unsure whether to initialise a set of modules, request guidance from AOC.
backendctl mark6 recorder1 modules 1,2,3,4 init-fresh
if the modules are still in "open" state they must be unmounted before
backendctl mark6 recorder1 group unmount
Repeat for all recorders
Configure the backends (R2DBE only)
backendctl whole configure
Configure the DBBC3
make sure the DBBC3 client is not running
cd /home/oper/rottmann/dbbc3/utilities ./setupDBBC3_OCT_D.py dbbc3 -n 4
Check signal routing
backendctl chain all check routing
Check time synchronization
backendctl chain all check timesync
Adjust power levels (R2DBE)
best: bring antenna to 45 deg elevation
Execute:
r2dbeview
This will bring up the r2dbe-monitor. Adjust the power by setting the BDC attenuators until the distribution matches the grey curve.
Obtain current BDC attenuator levels
backendctl bdc bdc1 get attn
To set the attenuators, e.g.:
backendctl bdc bdc1 set attn sbb_pol1_hi 4
Setting 2Bit Threshold (R2DBE)
backendctl r2dbe all run 2bit-cal all
Check in the r2dme monitor that 2-bit levels are OK (16/33/33/16)
Adjust power levels (DBBC3)
Basically low/high power levels should have been reported by setup script (see above).
In DBBC3 client:
check attenuators, e.g. for board A:
dbbcifa
attenuator settings should be within 20-40, agc should be on
if reported attenuator level is out of range 20-40 the IF power must be decreased/increased.
Do test recording
backendctl mark6 all run test-recording 20 30
Recording starts with a delay of 20 seconds. Visually check if all recorders are actually recording.
Load and execute the schedule
Scedules are located under /srv/vexstore
load the schedule that has been triggered by the AOC:
backendctl mark6 all schedule load trigger
Follow the schedule:
backendctl whole schedule follow trigger
Start logging of total power
nohup pwrlogger &
Start the Mark6 monitoring client
copy the vex file (e.g. from /srv/vexstore/trigger) to /home/oper/shared/schedules
vex2xml.py -f {vexfile} -s Pv
check the contents of the generated {schedule}.xml if it contains scans
m6schedulemon.py recorder1 {schedule}.xml &
repeat for all recorders you want to monitor
