VEX_rev = 1.5; * SCHED vers: Release near March 23, 2010 * VEX/SCHED: 1.5.87 * Other versions: Sched: 9.3 Plot: 1.06 JPL-ephem: 1.01 * log2vex vers: 3.0.8, Release 11 jan 2011 * Run by jops at 10:16:16 14 Mar 2011 *------------------------------------------------------------------------------ $GLOBAL; ref $EXPER = N11X1; ref $EOP = EOP072; * +------------+ * PI revision number: | 1.0000 | * +------------+ * mode: (1) 512-16-2, RCP & LCP. (2) 1024-16-2, RCP only. *** EF-DBBC inserted *------------------------------------------------------------------------------ $EXPER; * def N11X1; exper_name = N11X1; exper_description = "3.6cm NME and ftp fringe-test experiment"; PI_name = "Jun Yang"; PI_email = yang@jive.nl; * address: JIVE * Postbus 2, 7990 AA Dwingeloo * The Netherlands * * phone: +31 521 596 507 * during obs: * fax: +353 91 750501 * notes: See my cover letter. * * year, doy: 2011, 73 * date : Mon 14 Mar 2011 * MJD : 55634 exper_nominal_start=2011y073d12h00m00s; exper_nominal_stop=2011y073d15h00m00s; * *-------------------- cover letter -------------------- * *Dear EVN friends, * *N11X1 is 3.6cm (8.4GHz) NME and ftp fringe-test experiment. * *(1) Make sure that your auto-ftp setting is OK, please. * *(2) A test mode is used in last scan. The mode is: 1024 Mbps, *RCP ONLY,8 BBCs, USB & LSB, 16 MHz filter, 2 bit sampling. *Before the scan, I leave a long gap for ONSALA60 to insert *attenuators for several BBCs. Furthermore, ZELENCHK and SVETLOE *need to reconnect IF cables. * *(3) Note that the next user experiment EM085 will use both RCP and LCP *to observe at 1 Gbps recording rate. If you reconnect IF cables *because of the above test mode, you may need to get them back after N11X1. * *(4) The Kunming 40m radio telescope will participate in N11X1 to test *its MK4 backend. Via the backend donated by the Westerbork Observatory *and a new MK5B recorder, the new Chinese station is fully compatible *with the EVN and other VLBI networks now. * *Four ftp tests are scheduled: *~12:07 UT (scan 1, 2 sec, J0237+2848) *~13:09 UT (scan 7, 2 sec, J0530+1331) *~14:09 UT (scan 13, 2 sec, J0530+1331) *~15:59 UT (scan 18, 2 sec, J0530+1331) * *See you in skype group chat! * *Jun Yang *skype account: uaoagn * *------------------------- end ------------------------- * target_correlator = JIVE; * * integr_time : 2.000 s * number_channels: 32 * number_antenna : 12 * cross_polarize : Yes * weight_func : UNIFORM * distrib_medium : DAT * source_pos_cat : FROM SCHEDULE * distribute_to : * JIVE * enddef; *------------------------------------------------------------------------------ $MODE; * def kvsr.X512; ref $PROCEDURES = Mode_01; ref $FREQ = 8391.49MHz16x8MHz:Wb:Hh; ref $FREQ = 8391.49MHz16x8MHz#02:Ef:Ys:Mc:On:Sh:Ur:Km; ref $FREQ = 8391.49MHz16x8MHz#05:Bd; ref $FREQ = 8391.49MHz16x8MHz#06:Ed; ref $FREQ = 8391.49MHz16x8MHz#04:Zc; ref $FREQ = 8391.49MHz16x8MHz#03:Sv; ref $IF = LO@8080MHzDPolTone/1:Wb:Hh; ref $IF = LO@8260MHzDPolTone/1:Ef; ref $IF = LO@7700MHzDPolTone/1:Ed; ref $IF = LO@7650MHzDPolTone/1:Ys; ref $IF = LO@8080MHzDPolTone/1#02:Mc:On; ref $IF = LO@8080MHzDPolTone/1#04:Bd; ref $IF = LO@7600MHzDPolTone/1:Zc; ref $IF = LO@8080MHzDPolTone/1#03:Sv; ref $IF = LO@9100MHzDPolTone/1:Sh; ref $IF = LO@8100MHzDPolTone/1:Ur:Km; ref $BBC = 16BBCs:Wb:Hh; ref $BBC = 16BBCs#02:Ef:Mc:On:Ur:Km; ref $BBC = 16BBCs#03:Ys:Sh; ref $BBC = 16BBCs#06:Bd; ref $BBC = 16BBCs#07:Ed; ref $BBC = 16BBCs#05:Zc; ref $BBC = 16BBCs#04:Sv; ref $TRACKS = MKIV.16Ch2bit1to2:Wb:Ef:Ed:Ys:Mc:Bd:On:Zc:Sv:Hh:Sh:Ur:Km; * The following is only for scan 1-6 * ref $TRACKS = MKIV.16Ch2bit1to2EfEd:Ef:Ed; * ref $HEAD_POS = DiskVoid <= obsolete definition ref $ROLL = NoRoll:Wb:Ef:Ed:Ys:Mc:Bd:On:Zc:Sv:Hh:Sh:Ur:Km; * ref $PASS_ORDER = DiskVoid <= obsolete definition ref $PHASE_CAL_DETECT = DsbDetect:Wb:Ef:Ed:Ys:Mc:Bd:On:Zc:Sv:Hh:Sh:Ur:Km; enddef; * def X1024rcp; ref $PROCEDURES = Mode_02; ref $FREQ = 8340.49MHz16x16MHz:Wb:Ef:Ed:Ys:Mc:Bd:On:Hh:Sh:Ur:Km; ref $FREQ = 8340.49MHz16x16MHz#03:Zc; ref $FREQ = 8340.49MHz16x16MHz#02:Sv; ref $IF = LO@8080MHzRPolTone/1:Wb; ref $IF = LO@8110MHzRPolTone/1:Ef; ref $IF = LO@7650MHzRPolTone/1:Ys; ref $IF = LO@8080MHzRPolTone/1#02:Mc:On:Hh; ref $IF = LO@8080MHzRPolTone/1#03:Bd; ref $IF = LO@7700MHzRPolTone/1:Ed; ref $IF = LO@7600MHzRPolTone/1:Zc; ref $IF = LO@8080MHzRPolTone/1#04:Sv; ref $IF = LO@9100MHzRPolTone/1:Sh; ref $IF = LO@8100MHzRPolTone/1:Ur:Km; ref $BBC = 8BBCs:Wb; ref $BBC = 8BBCs#02:Ef:Mc:On:Hh:Ur:Km; ref $BBC = 8BBCs#03:Ys:Bd:Sh; ref $BBC = 8BBCs#05:Zc; ref $BBC = 8BBCs#06:Ed; ref $BBC = 8BBCs#04:Sv; ref $TRACKS = MKIV.16Ch2bit1to2#02:Wb:Ef:Ed:Ys:Mc:Bd:On:Zc:Sv:Hh:Sh:Ur:Km; * ref $HEAD_POS = DiskVoid <= obsolete definition ref $ROLL = NoRoll:Wb:Ef:Ed:Ys:Mc:Bd:On:Zc:Sv:Hh:Sh:Ur:Km; * ref $PASS_ORDER = DiskVoid <= obsolete definition ref $PHASE_CAL_DETECT = DsbDetect#02:Wb:Ef:Ed:Ys:Mc:Bd:On:Zc:Sv:Hh:Sh:Ur:Km; enddef; *------------------------------------------------------------------------------ $STATION; * def Wb; ref $TAPELOG_OBS = WB; ref $CLOCK = WB; ref $SITE = WSTRBORK; ref $ANTENNA = WSTRBORK; ref $DAS = 2MKIV+NONE