import  ch.psi.pshell.epics.ControlledVariable as ControlledVariable

latency = 1.3


SECTION = "SINSB02"
start = -170.0
stop = 180.0
step = 10.0





print "SECTION = ", SECTION
print "Start = ", start
print "Stop = ", stop
print "Step = ", step

# controlled variabales
#cv_rf_phase = Channel(SECTION + "-RLLE-DSP:PHASE-REFERENCE")
#cv_rf_amplt = Channel(SECTION + "-RLLE-DSP:AMPLT-REFERENCE")


# measured variables
#mv_ref_jit_amplt = Channel(SECTION + "-RLLE-REF10:SIG-AMPLT-JIT-P2P-REL")
#mv_ref_jit_PHASE = Channel(SECTION + "-RLLE-REF10:SIG-PHASE-JIT-P2P")

#mv_iqm_jit_amplt = Channel(SECTION + "-RIQM-DCP10:FOR-AMPLT-JIT-P2P-REL")
#mv_iqm_jit_PHASE = Channel(SECTION + "-RIQM-DCP10:FOR-PHASE-JIT-P2P")

#mv_pre_jit_amplt = Channel(SECTION + "-RPRE-DCP10:FOR-AMPLT-JIT-P2P-REL")
#mv_pre_jit_PHASE = Channel(SECTION + "-RPRE-DCP10:FOR-PHASE-JIT-P2P")

#mv_kly_jit_amplt = Channel(SECTION + "-RKLY-DCP10:FOR-AMPLT-JIT-P2P-REL")
#mv_kly_jit_PHASE = Channel(SECTION + "-RKLY-DCP10:FOR-PHASE-JIT-P2P")



#r = lscan(cv_rf_phase, (mv_ref_jit_amplt,mv_ref_jit_PHASE,mv_iqm_jit_amplt,mv_iqm_jit_PHASE,mv_pre_jit_amplt,mv_pre_jit_PHASE,mv_kly_jit_amplt,mv_kly_jit_PHASE), start, stop, step , latency=latency)


elogllrf("Hallo Test", "Das ist meine Nachricht...","LLRF", "General", "SINEG01")