A. Test equipment summary Annex A Test equipment # description type identification VDL analyser / Generator Attingimus UAIS Test unit S/N BSH PC9 SW AISterm V.rev7 AISmain V.7R Target simulator Simutech BSH PC7 SW BSHSIM7T Presentation Interface Monitor BSH BSH PC 8 BSH PC SW NewMoni V. DSC Testbox DEBEG 87 DEBEG 68 S/N 7 Auxiliaries: Digital Multimeter Voltcraft S/N 66 6 Fluke Scopemeter BSH 7/ 7 Converters RS to RS 8 fixed voltage power supply ( V/A) 9 adjustable power supplies ( V/ A) active retransmitting GPS antenna for a description of pos. - see below A.. VDL analyser / generator The VDL analyser/generator: receives the radio data telegrams transmitted by the AIS under test, slotwise evaluates their radio parameters (field strength, SNR, etc.) and provides a transparent display of the decoded radio data telegrams (VDL messages). transmits radio data telegrams which have been entered/edited via a control panel. The AIS under test receives these messages and either passes the received data to it s presentation interface and/or responds as appropriate. records all data contained in the received radio telegrams and radio parameters in a data base for offline evaluation and documentation purposes. simulates AIS targets by transmitting position reports of virtual targets up to the maximum channel capacity. A.. Target simulator The target simulator consists of a standard PC with special Radar and Target Simulator software extension boards for generation of Radar signals and RS serial output signals Test Report No.. 7./66/ / S Date:.. page of 6
Connection of AIS Test system For tests of AIS transponders the data of 6 moving targets defined in the Radar Simulator are transferred to the VDL Generator and transmitted on VHF. Thus the AIS VHF data link is loaded with simulated AIS targets. Connection of display systems Radar systems as well as ECDIS systems will have the ability to receive, process and display AIS information in the near future. In order to test this feature the data of moving targets defined in the Radar Simulator are transferred to the RADAR (together with video, sensor data etc as known). Connection of AIS under Test The AIS under test can be connected to the own ship sensor outputs in order to provide full control over own ships dynamic data (for tests of reporting rates, channel management...). A.. Presentation Interface Monitor The Presentation Interface Monitor is a PC software running on two standard PCs. It is used to simulate Sensor inputs analyse the AIS high speed input / output analyse the AIS long range function generate DSC calls for the DSC test box and to display, log and evaluate the received DSC calls from EUT. For that purpose it includes the functions: coding / decoding of NMEA 6-bit data fields online AIS message filtering online AIS message editing load and transmit predefined sequences online modification of transmitted sequences A.. DSC Testbox The DSC test box includes: A standard VHF DSC controller DEBEG 87 with open interface A standard VHF radiotelephone DEBEG 68 The software modification of the DSC controller comprises a remote control input/output facility to transmit DSC calls according to ITU 8- generated in an external device on DSC channel 7 and to output received DSC calls from the EUT to the external device. The Presentation Interface Monitor is used to generate the DSC calls and to display, log and evaluate the received DSC calls. Test Report No.. 7./66/ / S Date:.. page of 6
GPS Antenna GPS Antenna EUT Equipment under test A. Test environment overview VDL VHF Data Link VDL analyser/ generator DSC- Test box RS or RS RS RS RS or RS PC with Presentation Interface Monitor PC with Radar and Target- Simulator PC User interface of VDL analyser/generator Network for exchange of sensor- and evaluation Test Report No.. 7./66/ / S Date:.. page 6 of 6 GPS Antenna Other AIS transponder RS or RS PC with Presentation Interface Monitor
Annex B Test sentences B. IEC 66 test sentences Many of the test sentences are modified manually during the test according to the requirements of the actual test items. Mainly the MMSI in all addressed sentences are adapted to the actual MMSI of the EUT or of the unit the EUT communicates with. In addition the files containing these sentences contain also some control information used by the monitor program like: <UTC> is replaced by the actual UTC time at time of output <WAIT EVENT> waiting for user action before next output <WAIT xxxx> waiting xxx ms before next output This control information is not shown in the following sentence examples because it is not sent to the EUT. B.. Sensor input Sensor input sentences File name Sentences Description AIS_gll_vtg_hdt_rot.sst Standard sensor input sentences $GPGLL,.,N,.,E,8.,A,A $GPVTG,.,T,,M,.,N,,K,A $TIHDT,9.9,T $TIROT,.,A AISd_dtm_gll_vtg_hdt_rot.sst Standard sensor input with DTM Similar files with an additional DTM sentence are also available for the other position sentence sets and not listed explicitely $GPDTM,w8,,,,,,,P9 $GPGLL,.,N,.,E,8.,A,A $GPVTG,.,T,,M,.,N,,K,A $TIHDT,9.9,T $TIROT,.,A AISg_gll_vtg_gbs_hdt_rot.sst Standard sensor input with GBS sentence $GPGLL,.,N,.,E,8.,A,A $GPVTG,.,T,,M,.,N,,K,A $GPGBS,8.,.6,.8,.,,,, $TIHDT,9.9,T $TIROT,.,A AISx_gll_vtg_hdt_rot_8.sst Standard sensor input at Longitude of 8 Test Report No.. 7./66/ / S Date:.. page 7 of 6
$GPGLL,.,N,799.,W,8.,A,A $GPVTG,.,T,,M,.,N,,K,A $TIHDT,9.9,T $TIROT,.,A AIS_gga_vtg_hdt_rot.sst Sensor Input set with GGA position $GPGGA,98,.,N,.,E,,,.,6.,M,.,M,,, $GPVTG,.,T,,M,.,N,,K,A $TIHDT,9.9,T $TIROT,.,A AISd_dtm_gga_vtg_hdt_rot.sst Sensor Input set with GGA position and DTM $GPDTM,999,,,,,,,P9 $GPGGA,98,.,N,.,E,,,.,6.,M,.,M,,, $GPVTG,.,T,,M,.,N,,K,A $TIHDT,9.9,T $TIROT,.,A AIS_gns_vtg_hdt_rot.sst Sensor input set with GNS position $GNGNS,.,.,N,.,E,AA,,.,.,.,, $GNVTG,.,T,,M,.,N,,K,A $TIHDT,9.9,T $TIROT,.,A AIS_rmc_hdt_rot.sst Sensor input set with RMC position and speed $GPRMC,.,A,.,N,.,E,.,.,,.,E,A $TIHDT,9.9,T $TIROT,.,A AIS6_gll_vtg_vbw_hdt_rot.sst Sensor input set with speed by VBW and VTG $GPGLL,.,N,.,E,8.,A,A $GPVTG,.,T,,M,.,N,,K,A $VDVBW,.,.,A,.,.,A,,V,,V $TIHDT,9.9,T $TIROT,.,A AIS7_osd.sst Single OSD sentence $INOSD,9.9,A,.,B,.6,B,.,.,N AIS8_gll_vbw_hdt_rot.sst Standard sensor input with VBW instead of VTG $GPGLL,.,N,.,E,8.,A,A $VDVBW,.,.,A,.,.,A,,V,,V $TIHDT,9.9,T $TIROT,.,A AIS9_gll_osd.sst Sensor input set with GLL and OSD $GPGLL,.,N,.,E,8.,A,A $INOSD,9.9,A,.,B,.6,B,.,.,N AIS_gll_vtg.sst GPS receiver sentences (GLL and VTG) $GPGLL,.,N,.,E,8.,A,A $GPVTG,.,T,,M,.,N,,K,A AIS_vbw.sst Log sentence VBW $VDVBW,.,.,A,.,.,A,,V,,V AIS_hdt_rot.sst Gyro sentences (HDT and ROT) $TIHDT,9.9,T $TIROT,.,A Test Report No.. 7./66/ / S Date:.. page 8 of 6
B.. Settings (VSD,SSD) Settings (VSD,SSD) File name Description Sentences AISSD_transpondertype.sst Settings of static data, specific set for each transponder type $AISSD,callsign,name,,,,,,GP AIVSD_Hamburg.sst Settings of voyage related data $AIVSD,,.,6,HAMBURG,,,,, B.. Messages (ABM,BBM) The addressed messages include a MMSI number which is changed according to the actual MMSI number of the EUT Messages (ABM,BBM) File name Sentences AIABM_bin.sst!AIABM,,,,,,6,6Ptest, AIABM_safety.sst!AIABM,,,,,,,DCD, AIABM bin.sst!aiabm,,,,8,,6,6ptest,!aiabm,,,,8,,6,6ptest,!aiabm,,,,8,,6,6ptest,!aiabm,,,,8,,6,6ptest, AIABM safety.sst!aiabm,,,,,,,dcd,!aiabm,,,,,,,dcd,!aiabm,,,,,,,dcd,!aiabm,,,,,,,dcd, AIBBM_bin.sst!AIBBM,,,6,,8,6Ptest, AIBBM_safety.sst!AIBBM,,,6,,,DCD, AIBBM bin.sst Description Standard addressed binary message Standard addressed safety related message Set of addressed binary messages Set of addressed safety related messages Standard binary broadcast message Standard safety related broadcast message Set of binary broadcast messages Test Report No.. 7./66/ / S Date:.. page 9 of 6
!AIBBM,,,7,,8,6Ptest,!AIBBM,,,8,,8,6Ptest,!AIBBM,,,9,,8,6Ptest,!AIBBM,,,,,8,6Ptest,!AIBBM,,,,,8,6Ptest, AIBBM safety.sst Set of safety related broadcast messages!aibbm,,,6,,,dcdi,!aibbm,,,7,,,dcdj,!aibbm,,,8,,,dcdk,!aibbm,,,9,,,dcdl,!aibbm,,,,,,dcdm, AIBBM_bin_stuffing.sst Special message for bit stuffing test!aibbm,,,6,,8,6qv>khvop, AIBBM_multi_bin.sst Long slot binary broadcast message!aibbm,,,6,,8,6p6789678967896789,!aibbm,,,6,,8,6789678967896789,!aibbm,,,6,,8,6789678967896789,!aibbm,,,6,,8,6789678967896789, AIBBM_multi_safety.sst Long slot safety related broadcast message!aibbm,,,6,,,6789678967896789,!aibbm,,,6,,,6789678967896789,!aibbm,,,6,,,6789678967896789,!aibbm,,,6,,,6789678967896789, AIBBM_multi_bin_.sst Longer than slots binary broadcast message, all bits!aibbm,,,,,8,wwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwww,!aibbm,,,,,8,wwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwww,!aibbm,,,,,8,wwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwww,!aibbm,,,,,8,wwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwww, AIBBM_ABM_7_.sst Set of long messages 8 and for message priority test!aibbm,,,6,,8,6p6789678967896789,!aibbm,,,6,,8,6789678967896789,!aibbm,,,6,,8,6789678967896789,!aibbm,,,6,,8,6789678967896789,!aiabm,,,,,,,6789678967896789,!aiabm,,,,,,,6789678967896789,!aiabm,,,,,,,6789678967896789,!aiabm,,,,,,,6789678967896789, AIBBM_.sst broadcast message to check slots per frame rule Test Report No.. 7./66/ / S Date:.. page of 6
!AIBBM,,,6,,8,6Ptest,!AIBBM,,,6,,,DCD,!AIBBM,,,7,,8,6Ptest,!AIBBM,,,7,,,DCD,!AIBBM,,,8,,8,6Ptest,!AIBBM,,,8,,,DCD,!AIBBM,,,9,,8,6Ptest,!AIBBM,,,9,,,DCD,!AIBBM,,,,,8,6Ptest,!AIBBM,,,,,,DCD,!AIBBM,,,,,8,6Ptest6,!AIBBM,,,,,,DCD6,!AIBBM,,,,,8,6Ptest7,!AIBBM,,,,,,DCD7,!AIBBM,,,,,8,6Ptest8,!AIBBM,,,,,,DCD8,!AIBBM,,,,,8,6Ptest9,!AIBBM,,,,,,DCD9,!AIBBM,,,,,8,6Ptest,!AIBBM,,,,,,DCD,!AIBBM,,,6,,8,6Ptest,!AIBBM,,,6,,,DCD,!AIBBM,,,7,,8,6Ptest,!AIBBM,,,7,,,DCD,!AIBBM,,,7,,8,6Ptest, AIAIR_.sst Simple interrogation for msg $AIAIR,,,,,,,, AIAIR.sst Interrogation of msg and from ID and msg from ID $AIAIR,,,,,,7,,, AIS_DSI.sst Test that EUT ignores command to send a DSC msg $AIDSI,,,99,,,,,,,, B.. Regional operational settings (ACA) Regional operational settings (ACA) File name Sentences Description AIACA_Region_in_ch86.SST Region around standard position with test channels $ECACA,,.,N,.,E,.,N,9.,E,,86,,86,,,,,, AIACA_Region_out_ch7_76.SST Region not including standard position with channels 7 and 76 $ECACA,,.,N,9.,E,.,N,8.,E,,7,,76,,,,,, AIACA_Region_7 SW.SST adjacent regions in SW quadrant, for test 7. Test Report No.. 7./66/ / S Date:.. page of 6
$ECACA,,.,S,.,W,.,S,.,E,,8,,8,,,,,, $ECACA,,.,S,.,W,.,S,.,E,,8,,8,,,,,, AIACA_8_Regions_7_7_.SST 8 different regions to fill quickly the complete list, for test 7.7. $ECACA,,.,N,.,E,.,N,9.,E,,7,,7,,,,,, $ECACA,,.,N,7.,E,.,N,6.,E,,6,,6,,,,,, $ECACA,,.,N,9.,E,.,N,8.,E,,6,,6,,,,,, $ECACA,,.,N,.,E,.,N,.,E,,6,,6,,,,,, $ECACA,,.,N,.,E,.,N,.,E,,6,,6,,,,,, $ECACA,,.,N,.,E,.,N,.,E,,6,,6,,,,,, $ECACA,,.,N,8.,E,.,N,7.,E,,6,,6,,,,,, $ECACA,,.,N,.,E,.,N,9.,E,,66,,66,,,,,, AIACA_Region_7_7 c.sst Region for test 7.7. c $ECACA,,.,N,.,E,.,N,.,E,,8,,8,,,,,, AIACA_Region_7_7 f.sst Region for test 7.7. f $ECACA,,.,N,.,E,.,N,.,E,,8,,8,,,,,, AIACA_Region_7_7_.SST adjacent regions for test 7.7. f $ECACA,,8.,N,8.,E,7.,N,7.,E,,8,,8,,,,,, $ECACA,,8.,N,9.,E,7.,N,8.,E,,8,,8,,,,,, $ECACA,,7.,N,8.,E,6.,N,7.,E,,8,,8,,,,,, $ECACA,,7.,N,9.,E,6.,N,8.,E,,8,,8,,,,,, AIACA_Region_lon8.SST Special region at longitude = 8 $ECACA,,.,N,79.,W,.,S,79.,E,,7,,76,,,,,, AIACA_Set_channel.SST Set channel command, without area co-ordinates $ECACA,,N,,W,,N,,W,,7,,76,,,,,,, Request_ACA.SST Request of ACA sentences from EUT $ECAIQ,ACA B.. Long range requests The of long range requests include a MMSI number which is changed according to the actual MMSI number the EUT Long Range (LRI, LRF) Test Report No.. 7./66/ / S Date:.. page of 6
File name Sentences Description LRI_LRF_MMSI_all.sst Request of all data addressed by MMSI $LRLRI,,,,,,,,,,,, $LRLRF,,,VTS,ABCEFIOPUW, LRI_LRF_area_CEF.sst Request of some data addressed by area $LRLRI,6,,,,6.,N,.,E,.,N,.,E $LRLRF,6,,VTS,CEF, LRI_LRF_out_area_CEF.sst Request of some data addressed by area, standard position not in area $LRLRI,6,,,,6.,N,.,E,.,N,8.,E $LRLRF,6,,VTS,CEF, LRI_LRF_area_at_8_CEF.sst Request of some data addressed by area, area around longitude of 8 and latitude of $LRLRI,6,,,,.,N,7.,W,.,S,7.,E $LRLRF,6,,VTS,CEF, LRF_ack_all.sst For external confirmation of request $LRLRF,,,VTS,ABCEFIOPUW, B. DSC sentences The sentences are listed as they are applied to the DSC Testbox for transmission of DSC test calls. There is a special format used based on an earlier definition of NMEA private sentences. The frame for transmitting a DSC call is: $PDEBT,CCDSC,T,6<call content>ff The <call content> has to be entered in Hex code, hex numbers for each 7 bit DSC symbol, without spaces, beginning with the format specifiere which included only ones. The DSC coding and addition of redundance ( bit symbol redundance and symbol repetition) are done by the test box. The content description of the calls is available on request. The DSC sentences include MMSI number which is changed according to the actual MMSI number the EUT DSC Sentences File name Sentences Description Test Report No.. 7./66/ / S Date:.. page of 6
Test_Signal_.sst Standard test signal no, selective position and name request. $PDEBT,CCDSC,T,67867A77E676F7FF area_pos_name_rq.sst Position and name request addressed to an area, standard position inside $PDEBT,CCDSC,T,66789ECC67A77E676F7FF area_pos_name_rq_8.sst Position and name request addressed to an area around a longitude of 8 and latitude of. $PDEBT,CCDSC,T,667FECC67A77E676F7FF sel_set_region.sst Selective regional setting by DSC, standard pos. outside, channel 6 $PDEBT,CCDSC,T,67867A77E689AD68AD68CC68 DA7FF sel_set_region_in.sst Selective regional setting, standard position inside, channel 7, 7,. khz $PDEBT,CCDSC,T,67867A77E6898A68A9A68C868 DED7FF sel_set_ais_channel_ch6.sst Setting AIS channel to 6 $PDEBT,CCDSC,T,67867A77E689A68A7FF sel_check_channel.sst Test of channel use in. $PDEBT,CCDSC,T,67867A77E687FF $PDEBT,CCDSC,T,66789ECC67A77E676F7FF area_set_region.sst Area addressed regional setting, standard position inside address, but not inside area, Ch 6 $PDEBT,CCDSC,T,66789ECC67A77E689AC68AC68C A68DA7FF area_set_region.sst Area addressed regional setting for test. $PDEBT,CCDSC,T,667FEAA67A77E68968AA68CF EE68DF87FF $PDEBT,CCDSC,T,667FEAA67A77E68968AA68CF E68DFA87FF Sequence sst Area addressed regional setting, standard position inside address, but not inside area, Ch 6 $PDEBT,CCDSC,T,67867A77E676F7FF $PDEBT,CCDSC,T,6666AA6A77E66EA87E7E7E7FFF $PDEBT,CCDSC,T,67867A77E676F7FF $PDEBT,CCDSC,T,67867A77E66EA87E7E7E7FF $PDEBT,CCDSC,T,67867A77E676F7FF Test_sequence.sst Sequence of an area addressed call and continues transmission of other call for test of free channel check $PDEBT,CCDSC,T,6679ECC67A77E676F7FF $PDEBT,CCDSC,T,867867A77E676F7FF Sel_act_alt_system.sst Activate an alternative system $PDEBT,CCDSC,T,678A67A77E68787FF Test Report No.. 7./66/ / S Date:.. page of 6
Annex C test diagrams C. GMSK modulation. and khz bandwidth.. Ba - McMurdo M-, khz, RX A, ch 8 Modulation 7 9 6 7 8 97 9 7 69 8 9 7 9 6 77 89 7 9 6 7 8 97 Ref. (Hz) Mod (Hz) - - - - - Samples.. Ba - McMurdo M-,. khz, RX A, ch 8 Modulation 7 9 6 7 8 97 9 7 69 8 9 7 9 6 77 89 7 9 6 7 8 97 Ref. (Hz) Mod (Hz) - - - - - Samples Test Report No.. 7./66/ / S Date:.. page of 6
C. Network entry phase.. - McMurdo M- - 6.6. - Slot allocation at Network entry 6 8 7 9 67 Slots Msg type.. ::.. :6:.. :7:.. :8:.. :9:.. ::.. ::.. ::.. ::.. ::.. - McMurdo M- - 6.6. - Slot offsets at Network entry 6 Offset Msg type.. ::.. :6:.. :7:.. :8:.. :9:.. ::.. ::.. ::.. ::.. :: Test Report No.. 7./66/ / S Date:.. page 6 of 6
C. Sync Jitter 7.. - McMurdo M- - 6. - Sync jitter deviation vs. time in sync mode T in us T - - - 6.. :: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :6: 6.. :7: 6.. :8: 6.. :9: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :6: 6.. :7: 6.. :8: 6.. :9: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :6: 6.. :7: 6.. :8: 6.. :9: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :6: 6.. :7: 6.. :8: 6.. :9: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :: 6.. :6: 6.. :7: Time in s 7.. - McMurdo M- - 6. - Sync jitter deviation histogram in sync mode 8 Number of samples 6 Reihe -6 - - - -8-6 - - 6 8 6 T in us Test Report No.. 7./66/ / S Date:.. page 7 of 6
7.. - McMurdo M- - 6. - Sync jitter deviation vs. time in sync mode T in us T EUT T Other - - - 7.. 9:: 7.. 9:: 7.. 9:: 7.. 9:: 7.. 9:: 7.. 9:: 7.. 9:6: 7.. 9:7: 7.. 9:8: 7.. 9:9: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :6: 7.. :7: 7.. :8: 7.. :9: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :6: 7.. :7: 7.. :8: 7.. :9: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :6: 7.. :7: 7.. :8: 7.. :9: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :: 7.. :6: 7.. :7: Time in s 7.. - McMurdo M- - 6. - Sync jitter deviation histogram in sync mode Number of samples EUT Other - -8-6 - - - -8-6 - - - -8-6 - - 6 8 T in us 6 8 6 8 Test Report No.. 7./66/ / S Date:.. page 8 of 6
C. Reporting rate by speed 6.. - McMurdo M- -.. - Reporting rate by speed - Slots 6 8 7 9 67 Slot Speed Msg Type 6.. 6:8:8 6.. 6:9:8 6.. 6::8 6.. 6::8 6.. 6::8 6.. 6::8 6.. 6::8 6.. 6::8 6.. 6:6:8 6.. 6:7:8 6.. 6:8:8 6.. 6:9:8 6.. 7::8 6.. 7::8 6.. 7::8 6.. 7::8 6.. 7::8 6.. 7::8 6.. - McMurdo M- -.. - Reporting rate by speed - Slot offset 7 8 6 Slot dist. Speed Msg Type 7 6.. 6:8:8 6.. 6:9:8 6.. 6::8 6.. 6::8 6.. 6::8 6.. 6::8 6.. 6::8 6.. 6::8 6.. 6:6:8 6.. 6:7:8 6.. 6:8:8 6.. 6:9:8 6.. 7::8 6.. 7::8 6.. 7::8 6.. 7::8 6.. 7::8 6.. 7::8 Test Report No.. 7./66/ / S Date:.. page 9 of 6
C. Report rate by heading 7.. - McMurdo M- -.. - Reporting rate change by heading at kn - Slots 6 8 7 9 67 Slot Heading Msg Type 6.. 7:: 6.. 7:: 6.. 7:: 6.. 7:6: 6.. 7:7: 7.. - McMurdo M- -.. - Reporting rate change by heading at kn - Slot offset 6 6 7 Slot dist. Heading Msg Type 6.. 7:: 6.. 7:: 6.. 7:: 6.. 7:6: 6.. 7:7: Test Report No.. 7./66/ / S Date:.. page of 6
7.. - McMurdo M- -.. - Reporting rate change by heading at kn - Slots 6 8 7 9 67 Slot Heading Msg Type 6.. 7:9: 6.. 7:: 6.. 7:: 6.. 7:: 6.. 7:: 7.. - McMurdo M- -.. - Reporting rate change by heading at kn - Slot offset 7 Slot dist. Heading Msg Type 7 6.. 7:9: 6.. 7:: 6.. 7:: 6.. 7:: 6.. 7:: Test Report No.. 7./66/ / S Date:.. page of 6
C.6 Assigned mode / rate assignment 6.. - McMurdo M- - 6.6.. - Rate assignment - Slots 6 8 7 9 67 Slot Msg Type 6.. 7:: 6.. 7:: 6.. 7:: 6.. 7:: 6.. 7:6: 6.. 7:7: 6.. 7:8: 6.. - McMurdo M- - 6.6.. - Rate assignment - Slot offset 6 7 Slot dist. Msg Type 7 6.. 7:: 6.. 7:: 6.. 7:: 6.. 7:: 6.. 7:6: 6.. 7:7: 6.. 7:8: Test Report No.. 7./66/ / S Date:.. page of 6
C.7 Assigned mode / slot assignment.6. - McMurdo M- - 6.6.. - Slot assignment - Slots 6 8 7 9 67 Slot Msg Type.6. 9::.6. 9:6:.6. 9:7:.6. 9:8:.6. 9:9:.6. 9::.6. 9::.6. 9::.6. 9::.6. - McMurdo M- - 6.6.. - Slot assignment - Slot offset 6 7 Slot dist. Msg Type.6. 9::.6. 9:6:.6. 9:7:.6. 9:8:.6. 9:9:.6. 9::.6. 9::.6. 9::.6. 9:: Test Report No.. 7./66/ / S Date:.. page of 6
C.8 Area entry through transitional zone.8. - McMurdo M- - 7. - Area Entry - Slots 6 8 7 9 67 Slot Channel Channel Channel Channel Msg Type.8. 7::.8. 7:6:.8. 7:7:.8. 7:8:.8. 7:9:.8. 7::.8. 7::.8. 7::.8. 7::.8. 7::.8. 7::.8. 7:6:.8. 7:7:.8. 7:8:.8. - McMurdo M- - 7. - Area Entry - Slot offset 87 6 7 6 7 Slot dist. Msg Type.8. 7::.8. 7:6:.8. 7:7:.8. 7:8:.8. 7:9:.8. 7::.8. 7::.8. 7::.8. 7::.8. 7::.8. 7::.8. 7:6:.8. 7:7:.8. 7:8: Test Report No.. 7./66/ / S Date:.. page of 6
C.9 High speed output performance 8.6. - McMurdo M - 9.7 PI output performance Result: Average = % Ch A: 8 Ch B: 86, 9, 8, 7, Rx messages 6,,, Rx msg,,,, 6 7 8 9 6 7 8 9 Minutes 8.6. - McMurdo M - 9.7 PI output performance Result: Average = A= %, B=% Ch A: 8 Ch B: 86, 9, 8, 7, Rx messages 6,,, Rx msg A Rx msg B,,,, 6 7 8 9 6 7 8 9 Minutes Test Report No.. 7./66/ / S Date:.. page of 6
C. DSC response time see test clause 8. 8.6. - McMurdo M - Area call response delay time Delay (s) Delay 7 9 7 9 7 9 7 9 Request no 8.6. - McMurdo M - Area call response time 8 7 6 no of calls Calls 6 7 8 9 6 7 8 9 Response time (s) Test Report No.. 7./66/ / S Date:.. page 6 of 6
Annex D Photos of equip m ent under test D. Transponder Unit Test Report No.. 7./66/ / S Date:.. page 7 of 6
Test Report No.. 7./66/ / S Date:.. page 8 of 6
Test Report No.. 7./66/ / S Date:.. page 9 of 6
D. MKD unit Test Report No.. 7./66/ / S Date:.. page 6 of 6
Test Report No.. 7./66/ / S Date:.. page 6 of 6
D. GPS antenna Test Report No.. 7./66/ / S Date:.. page 6 of 6