FCC ID: 2AF3I-BSTETRA460 Tetra Base Station

by: Electronique Telematique ETELM Canada Inc latest update: 2016-05-31 model: BSTETRA460

One grant has been issued under this FCC ID on 05/31/2016 (this is one of two releases in 2016 for this grantee). Public details available include manuals, internal & external photos, and frequency information. some products also feature user submitted or linked warrantee terms, password defaults, troubleshooting guides, drivers, & instructions.

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all	frequencies													exhibits	applications
		manuals							photos

all exhibits 19
1 ~ 2016-05-31 20

app s				submitted / available
1	Internal Photos 460.025-464.025 MHz	Users Manual	pdf	1.40 MiB
1	NetisB25 460.025-464.025 MHz Parts list	Users Manual	pdf	88.85 KiB
1	netis B maintenance guide V1.1.part1	Users Manual	pdf	3.45 MiB
1	netis B maintenance guide V1.1.part2	Users Manual	pdf	4.94 MiB
1	netis B maintenance guide V1.1.part3	Users Manual	pdf	4.43 MiB
1	netis B maintenance guide V1.1.part4	Users Manual	pdf	5.00 MiB
1	relevant regulatory warnings	Users Manual	pdf	48.97 KiB
1	External Photo P1010223	External Photos	pdf	741.36 KiB
1	External Photo P1010224	External Photos	pdf	622.02 KiB
1	External Photo P1010225	External Photos	pdf	717.76 KiB
1	External Photo P1010226	External Photos	pdf	622.30 KiB
1	External Photo P1010228	External Photos	pdf	698.77 KiB
1	External Photo P1010229	External Photos	pdf	684.71 KiB
1	Label and Position 460.025-464.025MHz	ID Label/Location Info	pdf	117.87 KiB
1		Test Setup Photos	pdf
1	75932976 Report 04 Issue 1	Test Report	pdf	789.12 KiB
1		Test Report	pdf
1		Cover Letter(s)	pdf
1		Cover Letter(s)	pdf

exhibit
download
text

Internal Photos 460.025-464.025 MHz

Users Manual

pdf

1.40 MiB

exhibit
download
text

NetisB25 460.025-464.025 MHz Parts list

Users Manual

pdf

88.85 KiB

Alim 48v-56 Parts list Location CONN1, CONN4 C9, C10, C11, C12 C5, C6, C7, C8 C1, C2, C3, C4 C13, C14 C15, C16, C17, C18 CTH1 CON1, CON2, CON3 CONN2 CONN3 D1, D2, D3, D4 L1, L2, L3, L4, L5, L6 PFUS1 R6, R7 R1, R5 R2 RV2 RV1 D5 A3 A4 Reference MKDS 1,5/2-5,08 C0805F103K1RACTU EEETG1J101UP+

MR-VJ1206Y104KX EEU-FC2A221 PHE850EA4470MA03R17 Rs Pro 307-935 62000211622 9051486951 Molex Male connector 24 Way 2 Row PCB Housing LED 2mm GN 150nH 40A SERDI 1221 0031.8231 1.8K 1206 18K 1206 R510 1206 Cermet Trimmer 100K BOURNS Cermet Trimmer 20K BOURNS VS-30CPF12PBF XL160 XL275-48 CPUBDT2_C Parts list Component location Reference D5,D6,D10 T2,T3 T1 IC11,IC17,IC21 IC22,IC23 IC24 IC100,U1, IC7 IC8,IC10 IC2,IC4,IC6,IC9 IC18,IC20 D8,D9,D17 D11,D12,D13,D14,D15,D16,D18,D19,D20 BZ1 C3,C8,C12,C14,C15,C16,C17,C18,C20,C21,C22,C23,C24,C25,C26,C41,C42,C43,C61,C62, C63,C64,C71,C72,C73,C88,C89,C90,C91 C9 C29,C81,C82,C83,C84,C98,C99,C100,C101,C102,C103 C33,C34,C35,C36,C37,C38,C39,C40,C92,C93,C94,C95,C96,C97 C28 C13,C74,C75,C76,C77,C78 C44,C45,C46,C47,C48,C49,C50,C51,C52,C53,C54,C55,C56,C57 C79 C80 C6,C10,C30,C65 C2 C85,C86,C87 C11 C1,C4,C5,C7,C19,C31,C32,C58,C59,C60,C66,C67,C68,C69,C70 C27 CON2 CON3 CON3 CON1 CON1 J1 IC5 FUS1,FUS2,FUS3 INT1 L2,L9 L1 L3,L5,L10 L4 IC15 D2 D1,D3,D4,D7,L6,L7,L8 IC14 IC16 IC19 IC12 GPS1 J5 IC30 TS2,TS3,TS4,TS5 TS1,TS7 P1 TP1,TP2,TP3,TP4,TP5,TP6,TP7,TP10 R20,R31 R4,R5,R18,R63,R64,R65,R66,R67,R68,R69,R70,R101,R106 R105 R8,R21,R22,R30 R6,R7,R32,R37,R72,R73,R74,R75,R76,R86,R87,R88,R132,R133,R134,R135,R136,R137,R 138,R139,R140,R141 R44,R46 R99,R102,R107 R1,R2,R9,R12,R13,R14,R15,R19,R23,R26,R27,R28,R33,R40,R41,R42,R77,R78,R79,R80, R81,R82,R83,R84,R90,R91,R92,R93,R94,R95,R96,R97,R100,R103,R104,R108,R109,R110

,R111,R112,R113,R114,R115,R116,R117,R118,R126,R127,R128,R129,R130,R131 R98 R10 R11 R25,R55,R56,R57,R58,R59,R60,R61,R62,R71 R36 R43 1N5615 2N2222 2N2907 74HC00D 74HC02D 74HC11D 74HC14D 74HC245D 74HC573D ADM3077E BAS16 BAS16VY KSTG931AP 100nF-0805-50V 100pF 0805 50V 20%

10nF 0805 50V 1nF 0805 50V 220nF 0805 50V 220pF 0805 50V 22nF 0805 50V 470pF 0805 50V NC 0805 50V 100F tantalum 2917 16V 20%

1F tantalum 1206 16V 20%

10F tantalum 1210 16V 20%

1F tantalum 1210 16V 20%

10F tantalum 1210 16V 20%

330F tantalum 2917 10V 10%

1655910131 62000211622 620002113322 64900411122 649004013322 09031966921 XCF02S SMF 5A TP33W0080 822LY101K+

LQH55DN100M03L LQH32MN100J23L ELJNA1R0JF LD1086-D2T25 LED 2mm GN LED 2mm YW LM317BD2T ICL232 MC78M05 369A MC79M05 369A CLP10402LDTR M20-6112045 PIC16F870 Test plot Test plot Test plug Test plot 10R 0805 0.25W 5%

100R 0805 0.25W 5%

100R 0805 0.25W 1%

100K 0805 0.25W 5%

10K 0805 0.25W 5%

150K 0805 0.25W 5%

180R 0805 0.25W 5%

1K 0805 0.25W 5%

2.2K 0805 0.25W 5%

270R 0805 0.25W 5%

390R 0805 0.25W 1%

5.1K 0805 0.25W 5%

51R 0805 0.25W 5%

510R 0805 0.25W 5%

R47 R45 R121,R122,R123,R124,R125 RJ1 R16,R17,R34,R35,R38,R39,R85,R89 R48 R24,R49,R50,R51,R52,R53,R54 RV2 IC25 J7,J8,J11,J13,J15,J18,J19,J23,J24 J2,J3,J4,J6,J10,J16,J17,J20,J21 J22 J9,J12,J14 S1 IC1,IC13 VCXO3 VCXO2 VCXO1 TCXO2 IC3 510K 0805 0.25W 5%

51K 0805 0.25W 5%

NC 0805 0.25W 5%

1840855-3 CAT16 x4 10k CAT16 x4 1k CAT16 x4 22k Trimmer cermet 10k 3266W SN74LVC1T45DBVR Jumper Jumper Solder jumper Solder jumper 1061 + CR2032 ULN2803AFWG VV-701-DAW-2EAE VTA7-A11B VVA1-A3E VT-803-DAW-107A XC2S200PQ208 DCTR_G 460-470 MHz Parts list Component location D5,D6 T7,T8,T9,T10,T12,T2,T3,T4,T5,T6 T1 IC25,U2 U1 IC13 IC12,IC17 IC1,IC4,IC5,IC6,IC7,IC11 IC2 IC19 IC24 IC28 IC10 D1,D2,D3 TR4,TR5 C100 C8,C13,C44,C46 C166,C196 C211,C222,C232,C233,C234 C98 C229 C190,C191 C134,C163,C164,C205,C213,C220 C170,C171,C172,C225,C226,C248,C249,C259,C274 C207 C94,C127 C215 C5,C182 C153,C155,C162,C165 C169,C185,C194,C204 C243 C160 C167 C161 C195,C197,C198,C202,C238 C7,C39,C83,C84 C235 C237 C97,C102,C103,C125,C128,C142,C143,C146,C188,C200

,C253,C254,C255 C72,C275 C109,C110,C114,C115 C41,C101,C105,C129,C203 C156,C158,C184 C1,C6,C9,C10,C11,C12,C14,C15,C16,C17,C18,C19,C23, C24,C25,C26,C27,C28,C29,C30,C31,C32,C33,C34,C35, C36,C37,C42,C43,C45,C47,C48,C49,C50,C51,C52,C53, C54,C59,C60,C61,C62,C65,C66,C69,C70,C71,C74,C75, C76,C77,C78,C79,C80,C81,C82,C88,C89,C104,C118,C1 19,C120,C121,C126,C132,C140,C141,C147,C148,C151, C152,C173,C209,C210,C212,C214,C216,C227,C230,C25 2,C262,C266,C267,C270,C271,C277 C55,C56,C130,C131,C145,C154,C174,C176,C177,C178, C180,C181,C199,C201,C223,C236,C239,C240,C241,C24 2,C244,C264,C268,C269,C272,C273 C107,C108,C112,C113,C136,C138,C183 C137,C139 C106,C111,C116,C117 C40 C95,C96 C38 C219 C208,C246 C224,C231,C247,C250,C256,C257,C258,C260,C261,C26 3,C276 Reference 1N4148 2N2222A 2N2907-SMC 74HC00D 74HC14 74HC245D5V 74HC541D 74LVC4245A AD7863-3 ADE-1 ADF4110BRUZ ADP3338AKCZ-3.3RL7 AM29LV0408 BAV99 BCX52 47F 6.3V SMD 100F 16V 10%

330F tantalum 10V 20% SMC 1nF 0402 GRM155R61A105KE15D 1nF 0402 10nF 0402 100nF 0402 100pF 0402 270pF 0402 470pF 0402 10F tantalum 16V 20% SMC 1nF 0805 1pF 50V 20% 0805 1F ceramic 16v 10% 0805 4.7nF 0805 4.7pF 50V 20% 0805 6pF 100V 20% 0805 8.2pF 50V 20% 0805 10nF 0805 10pF 100V 20% 0805 12pF 100V 20% 0805 15pF 100V 0805 22nF 35V 20% 0805 22pF 0805 27pF 35V 20% 0805 47pF 0805 82pF 50V 20% 0805 100nF 0805 100pF 100V 20% 0805 120pF 0805 220pF 0805 270pF 35V 20% 0805 330nF 0805 RS 723-5203 330pF 35V 20% 0805 NC 50V 20% 0805 4.7F 16V 20% 0805 10nF 35V 20% 1206 10F tantalum 16V 20% 1206 C57,C99,C135,C228 C2,C3,C4,C20,C21,C22,C73,C86,C87,C122,C123,C124, C133,C149,C150,C175,C179,C187,C189,C192,C193,C24 5,C251 CHF12 CHF9,CHF10,CHF11 CHF1 CHF6,CHF7,CHF8 CHF15 CHF13,CHF14 CHF4 U3 CL4,CL5 CL1,CL2,CL3 CX2 CX41,CX42 J1 CV2,CV8,CV9,CV11 CV1,CV3,CV4,CV5,CV6 CV12 CV7,CV10 IC18,IC20,IC23,IC34 IC26 F5 F1 F3,F4 F2 IC22 IC21 Y1 IC31 L1,L2,L3 L47,L50,L51 L12 L20 L18 L32 L24,L25,L39,L42,L43,L45,L46,L48,L49,L52 L31 L34 L23,L27,L33 L28 L16,L26 L13 L14,L15,L17,L19,L21,L22,L29,L30,L35,L36,L37,L38,L40, L41,L44 IC14 IC15 D8,D9,D10,D11,D12,D13,L4 IC16 IC33 IC3,IC30,IC32,IC39 IC37,IC40 IC27,IC38 BL2,BL3,BL4 TP6,TP10 Y2,Y3 R127 R120 R126 R23,R49,R121,R123,R134,R139 R140,R144,R145,R148 R69,R117,R130,R141 R114,R115,R118,R146 R116 R95,R155 R7,R8,R44,R45,R62,R64,R65,R111,R122,R124,R135 10F tantalum 35V 20% 1210 10F tantalum 16V 20% SMD 56pF 500V SQCB AVX 120pF 500V SQCB AVX 150pF 500V SQCB AVX 470pF 500V SQCB AVX CC1206JRNPO9BN821 1nF 500V SQCB AVX NC 500V SQCB AVX CD74AC14M96-5VL Shield Shield Coaxial local aera Coaxial local aera 4mm 1655910131 1.5-3pF trimmer capacitor 2-6pF trimmer capacitor 0.5-1PF trimmer capacitor MURATA 1.5-3pF trimmer capacitor ERA4 ERA5 crystal filter QF 23.1 VECTRON EMI filter NFM41P 5%

SMF 5A SMF 3A GVA84 ICS542MILF Crystal Oscillator 40 Mhz IOXO 57 JMS-2LH LQM21PN1R0MC0D 180nH 0805 NPI16W681MTRF LQM21PN1R0MC0D 7447600339A 10nH 0.25W 10% 0805 COILCRAFT 10H 0.25W 10% 0805 15nH 0.25W 10% 0805 COILCRAFT 145nH 0.25W 5%

220nH 0.25W 5%

270nH 0.25W 5% 0805 COILCRAFT 330nH 0.25W 5%

1uH 0.25W 5%

10uH 0.25W 5%

LD1086-D2T25 LD1086-D2T33 LED 2mm GN LM317BD2T LTC6945 MC78M05 MC33275ST-5 OP467 SMD Frame shielding 75x50 PERANCEA Test plot 5RDA24000123TF50Q3 3.9K 0402 0.25W 5%

5.1K 0402 0.25W 5%

6.8K 0402 0.25W 5%

10K 0402 0.25W 5%

15R 0402 51.1R 0402 100R 0402 200K 0402 0R 0805 1K 0805 0.25W 5%

R166,R167 R50,R55,R105 R108,R109,R136 R102,R133,R152,R160,R255 R9,R26,R85 R61,R80,R81,R82 R2,R3,R6,R11,R17,R28,R42,R48,R66,R67,R68,R83,R84, R86,R161 R88,R129 R35,R46,R47,R60 R38,R79 R75 R59,R137 R113 R56,R57,R58,R103,R106,R107 R18,R19 R1,R37,R91 R12,R14,R39,R72,R110,R119,R138,R150,R151,R153,R1 54 R16 R36 R29,R32,R33,R63,R92,R94 R15,R70,R71,R76,R78,R89,R90,R131,R132,R158 R73,R97,R98,R99,R101,R104 R162,R163,R164,R165 R96,R100 R147,R156,R157 R31 R74,R77 2.2K 0805 0.25W 5%

3.9K 0805 0.25W 5%

4.7K 0805 0.25W 5%

5.1K 0805 0.25W 5%

6.8K 0805 0.25W 5%

10R 0805 0.25W 5%

10K 0805 0.25W 5%

12R 0805 0.25W 5%

15K 0805 0.25W 5%

18R 0805 0.25W 5%

22R 0805 0.25W 5%

22K 0805 0.25W 5%

27R 0805 0.25W 5%

47R 0805 0.25W 5%

47K 0805 0.25W 5%

51R 0805 0.25W 5%

100R 0805 0.25W 5%

100K 0805 0.25W 5%

270R 0805 0.25W 5%

330R 0805 0.25W 5%

470R 0805 0.125W 5%

510R 0805 0.25W 5%

820R 0805 0.25W 5%

ADJ 0805 0.25W 5%

NC 0R 0805 27R 1206 0.25W 5%

R34,R40,R41,R43,R87,R93,R112,R125,R128,R143,R254 51R 1206 0.25W 5%

RC1,RC2,RC3,RC4,RC5,RC6,RC7 R51 R4,R5,R10,R13,R20,R21,R22,R24,R25,R27,R30,R52,R5 3,R54,R142,R149 RV7 RV2 RV3,RV4,RV5,RV6 D4,D7 L9 L8 L11 L5 L7 L10 L6 D14 IC29 J14,J15,J16,J17 J2,J3,J4 J5,J6,J7,J8,J9,J10,J11,J12,J21 IC9 VCXO1 IC8 SR9000SPQ0488BYE CAT16 x4 1k CAT16 x4 10k Trimmer 10K Trimmer 50K Trimmer 100R S3A 145H VAR NEOSIDE 170H VAR NEOSIDE 560H VAR NEOSIDE 670H VAR NEOSIDE 820H VAR NEOSIDE 47H VAR NEOSIDE 56H VAR NEOSIDE SMP1330-005LF SPF5043Z Jumper Solder jumper Solder jumper TMS320C6414 VV-701-DAE-SKAE-24M0000000 XC2S150-PQ208 PA2-25W_F 460-470 MHz Parts list Location D7 T1,T2,T4,T5 T3 IC8 IC5 IC2 D3,D12,D13 D1,D2 J2,J5 D4,D14,D15,D16 CHF3,CHF5,CHF7,CHF11,CHF12,CHF13,CHF20 CHF1,CHF4,CHF6,CHF10,CHF14,CHF18 CHF8 CHF2,CHF38,CHF39 C14,CHF17 C64,CHF19 CHF24,CHF32 CHF16,CHF28 CHF25 CHF23 C18 C9,C11,C13,C21,C23,C24,C27,C53,C62,C78 C6,C42,C43,C44,C46,C74 C7,C16,C22,C28,C29,C57,C60,C79 C3,C12,C32,C41,C54,C55,C67,C70,C71,C72,C80,C81 C35,C36,C39 C2 C4,C19,C31,C73 C20 C59 C10 C45,C48,C51 C15,C58 C8,C40 C63 C56 C25,C65 C5,C26,C30,C38,C47 C37,C66 C69,C75,C76,C82 C77 C33,C34,C49,C50,C52,C68 C17,C61 C1 CTH1 CIR1 CV1 FUS1 HE1 D10,D11 L10 L23 L5,L6,L7 L26 L28 L13,L20,L21,L25 L9 L14 L3,L4,L11,L16 L29 L12,L17 L2,L18 L15 L1,L8,L22,L24 Reference BAS16LT1G 2N2222A 2N2907 74HC00D 74HC04D AH312 DKB370-FDITR-ND BAT54 1715721 BYG21K 10PF HF 120PF HF 8,2pF HF 12PF HF 18PF HF 27PF HF 4.7PF HF 6.8PF HF 8.2PF HF NC 0805 CMS 1.5nF 0805 - 50v 100nF 0805 - 50v 100nF/100v 0805 100pF/100v 0805 10nF 0805 - 50v 10nF/100v 0805 10pF 0805 - 50v 1nF 0805 - 50v 1pF 0805 - 50v 2.7nF 0805 - 50v 220pF 0805 - 50v 220pF 100V 0805 22nF 0805 - 50v 22nF100v 0805 22pF 0805 - 50v 330pF 0805 - 50v EEEHB1E101AP EEETG1J101UP+

MCCA000626 10uF/16v CMS 1210 Tantalum 1uF/16v CMS 1210 Tantalum 12061C105KAT2A 293D225X9050D2TE3 RPS1C221MCN1GS RSpro 307935 ADC049GD 4-20pF Adj FUS CMS 10A HE10_16 Cts male HSMS-2822-TR1G self 1sp fil 50/100 D=3mm self 2sp 50/100 D=3.2mm self 2sp 80/100 D=3.2mm self 4sp 80/100 D=3.2mm self 2sp fil 80/100 D=3.2 self 5sp fil 80/100 D=3.2 36501J15NJTDG 36501J18NJTDG LQW2BHN22NJ03L 10uH CMS SELF ELJNA47NMF 36502C82NJTDG ELLCTV270M IHLP2525AHER4R7M01 D6,D9 CTH2 IC3 IC7 IC1,IC6 D8 TR1 IC4 TR4,TR7 PFL1,PFL2 PFL3 R49 R16 R50 R15,R20,R23,R30,R31,R53,R60 R5 R9,R14 R2,R3 R32 R17,R24,R34,R41,R42,R51 R18 R19,R33 R48 R38 R6,R43 R25 R7,R26,R35,R46 R40 R47,R54 R1,R12 R4 R22 R13,R44 R21,R28,R29,R36,R52 R55,R56 R11,R61 R57 R27 R45 R37,R58,R59 R39 R10 RV3,RV4 RV2 RV1,RV5,RV6 L19,L27 D5 J1,J3,J6,J7 Z2,Z3 Z1 LL1N4148 LM26CIM5-NPA LM393D LM5576MH LP2951 MMSZ5260BT1 MRF6V2010NBR1 MRF6V4300NR5 NDT2955 shielding 50X25 shielding 75X50 R TO126 10 0805 CMS 100 0805 CMS 10K 0805 CMS 12 0805 CMS 150 0805 CMS 180 0805 CMS 19.6K 0.1% 0805 CMS 1K 0805 CMS 1M 0805 CMS 2.2K 0805 CMS 2.7K 0805 CMS 20.5K 0805 CMS 22 0805 CMS 220K 0805 CMS 22K 0805 CMS 3.09K 0805 CMS 3.3K 0805 CMS 33 0805 CMS 39 0805 CMS 330 0805 CMS 470 0805 CMS 5.1K 0805 CMS NC TE 35211K3FT 18 ohms 1206 CMS 120 ohms 1206 CMS 2.2K 1206 CMS 330 1206 CMS ERJT06J512V 3520680RJT BRN3314G-1-103E BRN3314G-1-202E PVG5A202C03R00 742792151 STPS10L60CF STRAP A SOUDER ZENER 12V CMS ZENER 6.2V CMS UCM3_C 460-470 MHz Parts list Component location IC1 IC6 T2,T3,T4,T5,T6,T7,T8,T9,T10,T11 T1 IC3 IC15 IC5-IC18 IC20,IC22 IC12 IC39 IC21,IC49 IC4 IC2 IC81 IC26 IC24 IC28 D2 D7,D8,D9,D10 TR4,TR5 CHF1,CHF2,CHF3,CHF4 CHF5,CHF6,CHF7,CHF8 C66,C71,C80,C152,C180,C204 C158,C159,C248,C249,C257,C260 C142,C143 C111,C154 C155 C192,C193 C201 C62,C63 C112,C220 Reference M27C4002 M27C1001 2N2222 2N2907 74HC00D MC74HC04 MC74HC14D 74HC245 74HC32D TEXAS MC74HC4078D MC74HC573D 80C251SB AD768 AD7776AR ADE-1 ADF4110BRUZ ADP3338-3.3V BAS16 or 1N4148 BB833 BCX52 220pF 500V ADJ 100nF 0402 100pF 0402 10nF 0402 1nF 0402 GRM155R61A105KE15D 270pF 0402 3.9nF 100V 20% 0402 470pF 0402 10F tantalum 10V 20% 0603 AVX C2,C9,C14,C42,C48,C49,C50,C51,C61,C65,C85,C8 6,C88,C99,C100,C103,C128,C140,C141,C145,C151

,C164,C170,C175,C182,C188,C190,C191,C195,C19 6,C197,C198,C202,C213,C217,C233,C234,C236,C2 37,C238,C239,C240,C241,C268,C269 C22,C47,C54,C59,C60,C97,C98,C108,C109,C110, C119,C136,C137,C146,C161,C162,C168,C169,C17 1,C177,C184,C185,C186,C205,C206,C207,C208,C2 09,C214,C221,C222,C223,C225,C230,C231,C232,C 235,C245,C250 C8,C12,C13,C130,C135,C147,C148,C165,C247,C2 64 C173,C176,C183 C53 C56,C74 C75,C76,C121,C126,C131,C132,C133,C270 C96,C107,C144,C167 C77 C3,C174,C194 C1,C16,C17,C18,C19,C20,C21,C23,C24,C25,C26,C 27,C28,C29,C30,C31,C32,C33,C34,C45,C81,C82,C 89,C90,C92,C93,C94,C95,C104,C105,C106,C113,C 114,C115,C116,C117,C118,C120,C127,C129,C160, C163,C181,C224 C122,C123,C124,C125,C172,C179,C226,C227,C22 8,C229,C243,C244 C139 C78,C79 C10 100nF 0805 100pF 50V 20% 0805 10nF 0805 120pF 0805 12pF 50V 20% 0805 15pF 50V 20% 0805 1nF 50V 20% 0805 C0805C105K4RAC 2.2nF 0805 NPO 220pF 50V 20% 0805 22nF 0805 22pF 0805 330nF 0805 330pF 0805 33nF 50V 20% 0805 C70,C134,C178,C246 C149 C4 C11,C52,C166,C187,C189 C72 C73 C67,C68 C41,C43,C266,C267 C57,C58,C242 C15 C262 C261 C5,C6,C7,C36,C39,C55,C101,C102,C138,C153,C1 56,C157,C199,C200,C203,C219,C251,C252,C253,C 254,C255,C256,C258,C259,C263,C44-C46-C69-

C84-C210-C211-C212-C215-C216 C35,C37,C38,C40 C218 C150 C64 C83,C87,C265 C91 CL1,CL2,CL3,CL4,CL5,CL6 CLD1 CL7 CX4 J8 CV5,CV8,CV14,CV15 CV9,CV10,CV11 CV1,CV2,CV3,CV4 CV6,CV7 CV16 IC7 IC16,IC31,IC32,IC33 TR2 F2 F1 FSAW1 IC11 FUS1 IC34 IC41 INT1 SPLI1 L34 L31,L32 L33 L8 L47,L50,L51 L2,L5,L13,L18,L24,L26,L27,L28,L36,L41,L45,L46,L4 8,L49,L52,L53 L20 L17 L14 L19 L22 L21,L44 L40 L1 33pF 0805 4.7nF 0805 470pF 50V 20% 0805 47pF 0805 56pF 50V 20% 0805 68pF 50V 20% 080 82pF 50V 20% 0805 ADJ 0805 NC 50V 20% 0805 TPSD107K016R0150 100nF 50V 20% 1206 100pF 50V 20% 1206 10F tantalum 16V 20% 1206 1F tantalum 35V 20% 1206 4.7F tantalum 35V 20% 1206 1F tantalum 35V 20% 1210 1F ceramic capacitor X7R 100V 20% 1210 300uF tantalum 10V SMD Case Size E AVX 10F tantalum 6.3V 1210 Shield 50X50 Shield 24mm Shield PERANCEA Coaxial local aera 09031966921 4-20pF trimmer capacitor 9401-0SL1 9401-0SL1 0.5-1pF trimmer capacitor MURATA 2-6pF trimmer capacitor AVX CY62256 ERA4 ECT1-1-13 QF23.3-12500/06 EMI filter NFM41P 5%

B39471B5052Z810 XCF02S SMF 5A ICS542MILF IDT7204 Pushbutton TP33W0080 SCEME JYPQ-30 Inductor 1sp wire 50/100 D=3mm Inductor 3sp wire 10/10 D=3mm Inductor 4sp wire 50/100 D=3mm Inductor 50nH 4sp wire 50/100 D=3.2mm 180nH 0805 TE 36502AR18JTDG LQM21FN100N00L WE 7447905 LQW2BHNR22J03L LQW2BASR27J00L LQW2BHNR33J03L LQH32MN4R7K23L LQW2BHNR22J03L ADJ LQH55DN681M03L L3,L4,L9,L10,L15,L23,L29,L30,L35,L37,L38,L39,L43 LQH32MN100J23L L16,L42 L25 L54 IC19 D1-D11 D12 D3-4-16-17 D13-14-15 IC14 IC23 IC25 IC9 IC36 IC30,IC35 IC27 TR1 IC38 IC17,IC37 IC133 BL2 BL1,BL3,BL4,BL5 TS4,TS5,TS6 TS1,TS2,TS3 Y1,Y2 R17,R81,R85,R103 R24 R104 R39 R18 R6,R44,R105 R38 R59,R91,R94,R101 ELJNA1R0JF LQH32MN2R223L LQH55DN681M03L LD1086D2T25TR LED 2mm GN LED 2mm BL LED 2mm YW LED 2mm RD LM317BD2T LTC6945 MAV11 MAX232DW MC33275ST-5 MC78M05 MC78M08 MCT3-1 NJM78L05UA-TE1 NJM79L05UA-TE1 OP284 SOIC Frame shielding 50x25 PERANCEA Frame shielding 75x50 PERANCEA Test plot Test plot 5RDA24000123TF50Q3 100R 0402 15R 0402 200k 0402 3.9k 0402 0.25W 5%

5.1k 0402 0.25W 5%

51.1R 0402 6.8k 0402 0.25W 5%

0R 0805 R37,R71,R100,R114,R123,R127,R130,R131,R132, R133,R134,R135,R136,R141,R160,R161,R162 100R 0805 0.25W 5%

R51,R52,R53,R63 R19,R23,R29,R32,R46,R47,R49,R56,R57,R70,R72, R73,R102,R119 R40,R149 R82,R83,R84 R48,R148 R42,R64 R93 100R 0805 0.25W 5%

10k 0805 0.25W 5%

12R 0805 0.25W 5%

15R 0805 0.25W 5%

18R 0805 0.25W 5%

150R 0805 0.25W 5%

187k 0805 0.25W 1%

R8,R11,R12,R13,R20,R21,R33,R41,R76,R99,R108, R113,R126,R139,R144,R154,R155,R156,R157 150R 0805 0.25W 5%

R90,R106 R9 R26,R27,R109 R22,R80 R158 R15,R98,R122 R43,R45 R10 R30,R65 R28,R146,R147 R92 R31 2.2k 0805 0.25W 5%

220k 0805 0.25W 5%

22k 0805 0.25W 5%

27R 0805 0.25W 5%

39R 0805 0.25W 5%

51R 0805 0.25W 5%

68R 0805 0.25W 5%

220R 0805 0.25W 5%

270R 0805 0.25W 5%

330R 0805 0.25W 5%

374k 0805 0.25W 1%

390R 0805 0.25W 5%

R25,R66,R67,R74,R75,R78,R79,R86,R87,R137,R1 38 R54,R55,R112,R124,R150,R151 R153 R77,R118,R140 R1 R2,R3 R34,R36 R4 R88,R89,R107,R117 R129 R96,R152 R7,R14,R60,R61,R95,R110,R111,R159 R50,R58,R62,R68,R69,R97,R115,R116,R120,R121, R125,R128 IC13,IC29,IC115,IC122 RR4,RR5 RR1,RR2,RR3 R5,R16,R35,R214,R215 RV4 RV5 D5 L6,L7 IC10 IC55 J4,J11,J13,J16,J17,J18,J22 J14,J15 J1,J2,J3,J5,J6,J7,J10,J19,J20 VCO2 VCXO1 VCO1 IC8 D6 4.7k 0805 0.25W 5%

470k 0805 0.25W 5%

47k 0805 0.25W 1%

5.1k 0805 0.25W 5%

510R 0805 0.25W 5%

51k 0805 0.25W 5%

680R 0805 0.25W 5%

680k 0805 0.25W 5%

820R 0805 0.25W 5%

93.1k 0805 0.25W 1%

ADJ NC 0805 0.25W 5%

51R 1206 0.25W 5%

SR9000SPQ0565BYE Resistor Networks 8x 10k Resistor Networks 8x 22k CAT16 x4 10k BRN3314G-1-103E BRN3314G-1-201 S3A 100H VAR NEOSIDE SPF-5043Z STQ-1016Z Jumper Solder jumper Solder jumper CVCO55CC-0440-505 VCXO SMD 24MHz VECTRON VCO093MHZ XC2S200-5PQG208C FPGA MMSZ5228B-VG08

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Version 1.0 1.1 ETELM 9, avenue des Deux Lacs P.A de Villejust 91971 Courtaboeuf cedex Tel : +33.1.69.31.22.84 Fax : +33.1.69.31.22.61 Web site : www.etelm.fr RC : Evry 320 565 443 NNeeTTIISS MMAAIINNTTEENNAANNCCEE AASSSSIISSTTAANNCCEE GGUUIIDDEE Date Modifications CREATION 20/05/11 25/04/13 Add 2.6.7 Sign. LM/PM PM/LM NeTIS MAINTENANCE GUIDE Version 1.1 1/139 1. PRESENTATION OF A STANDARD TETRA NETWORK ................................................................. 5 2. NETIS -B ...................................................................................................................................................... 6 2.2.1 2.2.2 2.3.1 2.3.2 2.3.3 2.1 PRESENTATION OF THE BASE STATION ....................................................................................................... 6 2.2 DIFFERENT VERSIONS ................................................................................................................................ 8 NeTIS Box version ........................................................................................................................... 8 Rackable versions ............................................................................................................................ 9 2.3 REAR FACE .............................................................................................................................................. 11 NeTIS-B25 ..................................................................................................................................... 11 NeTIS B25C ................................................................................................................................. 11 NeTIS-B25D .................................................................................................................................. 11 2.4 NORMAL NETIS-B OPERATION ............................................................................................................... 12 2.5 HANDLING ............................................................................................................................................... 17 Plug-in modules ............................................................................................................................ 17 Rear face ....................................................................................................................................... 17 2.6 DIAGNOSIS / MAINTENANCE .................................................................................................................... 17 2.6.1 General power faults ..................................................................................................................... 18 2.6.2 Power fault on a module ............................................................................................................... 19 Switch interface fault ..................................................................................................................... 19 2.6.3 Clock fault ..................................................................................................................................... 19 2.6.4 Transmission fault ......................................................................................................................... 22 2.6.5 2.6.6 Correct transmission ..................................................................................................................... 25 Conflicts between NMT alarms and LED of BS ............................................................................ 26 2.6.7 2.5.1 2.5.2 3. NETIS-N ..................................................................................................................................................... 27 3.1.1 3.1.2 3.1.3 3.1 PRESENTATION OF THE SWITCH ............................................................................................................... 27 Number of COM 3 or 4 boards ..................................................................................................... 27 Number of CODEC board (CCT) .................................................................................................. 28 Number of COMS boards .............................................................................................................. 28 3.2 LAUNCHING ............................................................................................................................................. 30 3.3 NORMAL OPERATIONS ............................................................................................................................. 31 3.4 REMOVING SUBSETS ................................................................................................................................ 32 Plug-in modules ............................................................................................................................ 32 Rear face ....................................................................................................................................... 32 Ventilators ..................................................................................................................................... 32 3.5 DIAGNOSIS AND MAINTENANCE ............................................................................................................... 32 3.5.1 General power fault ...................................................................................................................... 33 Power fault on module .................................................................................................................. 33 3.5.2 3.5.3 Clock fault ..................................................................................................................................... 34 3.4.1 3.4.2 3.4.3 4. NETWORK FAILURE SCENARIOS ..................................................................................................... 36 4.1 NONE OF THE NETWORK EQUIPMENT IS OPERATIONAL ............................................................................ 36 4.2 THE NETWORK MANAGEMENT TERMINAL (NETIS-M) IS THE ONLY OPERATIONAL EQUIPMENT ON THE NETWORK .......................................................................................................................................................... 37 4.3 NO EQUIPMENT ON THE NETWORK IS OPERATIONAL EXCEPT FOR THE NETWORK MANAGEMENT TERMINAL

(NETIS-M) WHICH INDICATES THAT SWITCH IS OPERATIONAL AND ALL THE BSS OUT OF ORDER ..................... 37 4.4 BSS ANSWER CORRECTLY ON THE NMT, BUT MOBILES DO NOT REGISTER ONTO THE NETWORK. ........... 40 4.5 MOBILES REGISTER CORRECTLY TO THE NETWORK BUT ARE UNABLE TO COMMUNICATE ....................... 42 There is no operational phoning between the terminals ............................................................... 43 No communications between terminals ......................................................................................... 44 4.6 THERE IS NORMAL TRAFFIC BETWEEN MOBILES BUT NOT WITH THEIR DISPATCHING (OPERATOR STATIONS) 4.5.1 4.5.2 No phones between Dispatching and the terminals....................................................................... 45 No more signalling between Dispatching and the terminals ......................................................... 46 4.7 PABX LINK PROBLEM ............................................................................................................................. 47 45 4.6.1 4.6.2 NeTIS MAINTENANCE GUIDE Version 1.1 2/139 4.7.1 4.7.2 Signalling and phone out of order ................................................................................................. 47 Phone out of order ........................................................................................................................ 48 5. NETIS-B & NETIS-N SOFTWARE ........................................................................................................ 50 5.1 NETIS-B ................................................................................................................................................. 50 5.1.1 General .......................................................................................................................................... 50 Launching the Niveau 2.exe application ................................................................................. 50 5.1.2 5.1.3 NeTIS-B IP configuration .............................................................................................................. 52 5.2 NETIS-N ................................................................................................................................................. 53 5.2.1 General .......................................................................................................................................... 53 Launching the NeTIS N application ............................................................................................ 53 5.2.2 5.2.3 NeTIS-N IP configuration ............................................................................................................. 56 6. PUTTY (REMOTE CONNECTION) ...................................................................................................... 58 7. WINSCP SOFTWARE UPDATE ......................................................................................................... 61 8. NETWORKS ............................................................................................................................................. 68 8.1.1 8.1 STARS NETWORK ............................................................................................................................... 68 Settings .......................................................................................................................................... 69 8.2 RING NETWORK ................................................................................................................................. 71 8.2.1 Operating principles ..................................................................................................................... 72 8.2.2 Fault analyses and diagnosis ........................................................................................................ 73 8.3 ETHERNET LINK (IP) ................................................................................................................................ 84 8.3.1 General presentation ..................................................................................................................... 84 Communications between appliances ........................................................................................... 86 8.3.2 8.3.3 Customers ...................................................................................................................................... 88 8.3.4 Network setting .............................................................................................................................. 89 8.3.5 Declaration of the NeTIS-B addresses on the tetra cs side ........................................................... 94 Switch signalling and phone port .................................................................................................. 96 8.3.6 8.3.7 Secondary network management terminal .................................................................................... 96 8.4 MULTI-SITE AND MULTI NETWORK MANAGEMENT TERMINAL ............................................................... 100 Presentation ................................................................................................................................ 100 Network setting ............................................................................................................................ 101 8.4.1 8.4.2 9. CPUBDT SOFTWARE AUTHENTICATION (LEVEL 2) ................................................................. 106 9.3.1 9.3.2 9.1 THE AUTHENTICATION NETWORK MANAGEMENT TERMINAL ................................................................. 106 9.2 USE........................................................................................................................................................ 107 INTEGRATION ........................................................................................................................................ 108 9.3 Equipment ................................................................................................................................... 108 Software ...................................................................................................................................... 108 9.4 PRESENTATION ...................................................................................................................................... 109 9.4.1 Why authenticated? ..................................................................................................................... 109 9.4.2 What is authenticated? ................................................................................................................ 109 9.4.3 When to authenticate? ................................................................................................................. 109 New equipment ............................................................................................................................ 109 9.4.4 9.4.5 Validity period ............................................................................................................................. 109 9.4.6 Upgrade ...................................................................................................................................... 109 9.5 HOW TO AUTHENTICATE? ...................................................................................................................... 110 Authentication by phone .............................................................................................................. 110 Internet authentication ................................................................................................................ 110 9.6 HANDLING ............................................................................................................................................. 111 9.6.1 General ........................................................................................................................................ 111 9.7 MANUAL AUTHENTICATION (BY PHONE) ............................................................................................... 112 Serial equipment connection ....................................................................................................... 117 9.8 AUTOMATIC AUTHENTICATION (VIA INTERNET) .................................................................................... 118 Network connection to the equipment ......................................................................................... 118 9.8.1 9.8.2 Multiple authentications (IP network) ........................................................................................ 118 Serial equipment connection ....................................................................................................... 121 9.8.3 9.8.4 No connection to the equipment .................................................................................................. 123 9.5.1 9.5.2 9.7.2 NeTIS MAINTENANCE GUIDE Version 1.1 3/139 9.8.5 Diagnosing an authentication problem on a NeTIS-B ................................................................ 123 10. PABX GATEWAY .................................................................................................................................. 125 10.1 10.2 10.3 10.4 INTRODUCTION ................................................................................................................................. 125 EQUIPMENT....................................................................................................................................... 127 LED SIGNIFICATION ........................................................................................................................... 127 CONFIGURATION ............................................................................................................................... 128 Configuration to the IP PABX Gateway ................................................................................. 128 Configuration of the service network management terminal .................................................. 128 10.4.1 10.4.2 11. MODULE DESCRIPTION .................................................................................................................... 129 POWER SUPPLY BOARD: .................................................................................................................... 129 11.1 CPU-BDT BOARD ............................................................................................................................ 130 11.2 CCT2 BOARD .................................................................................................................................... 131 11.3 COM BOARD .................................................................................................................................... 132 11.4 COM3 BOARD .................................................................................................................................. 133 11.5 DCTR BOARD ................................................................................................................................... 134 11.6 SUPIP BOARD ................................................................................................................................... 135 11.7 UCM BOARD .................................................................................................................................... 136 11.8 11.9 UCM2 BOARD .................................................................................................................................. 137 11.10 POWER AMPLIFIER (PA) .................................................................................................................... 138 NeTIS MAINTENANCE GUIDE Version 1.1 4/139 1. PRESENTATION OF A STANDARD TETRA NETWORK System composition A system is composed of:

One or more NeTIS-Ns and one or more sites, each one composed of one or more base BS stations (NeTIS-B). Of a main NeTIS-M service network management terminal and eventually one or more secondary NeTIS-M service network management terminal Standard operator stations supplied by ETELM or supplied by other enterprises which form Dispatching Portable and mobile terminals SO, T2 links Specific applications: for example data transmission. NeTIS MAINTENANCE GUIDE Version 1.1 5/139 2. NETIS -B 2.1 Presentation of the base station NeTIS-B is a duplex TETRA transmitter receiver connected to the switch using an IP or G703 or V11 link or it can operate autonomously (TETRAG). It manages a TETRA carrier which includes a signal channel and three phone channels. The base station is composed of the following sub-sets:

A ventilation unit An electronic unit with a backplane that can receive the following plug-in modules:

Power supply (ALIM) CPU (CPUBDT) Demodulator/ Down converter (DCTR) 2 slots for the use of 1 or 2 channel diversities. Modulator/Up converter (UCM2) Power amplifier (PA) The synthetic view below is an example of 4 site architecture. NeTIS MAINTENANCE GUIDE Version 1.1 6/139 SWSW console d'administration BS ISI V24 64Kb/s I S I PSTN T2 SWSW 2Mb/s BS BS 2Mb/s 2Mb/s I S I T2 PABX IP 64Kb/s BS SWSW Dispatchings NeTIS MAINTENANCE GUIDE Version 1.1 7/139 2.2 Different versions 2.2.1 NETIS BOX VERSION 2 handled box NeTIS-B25 base station Locations for accessories

(duplexer, hub ) NeTIS MAINTENANCE GUIDE Version 1.1 8/139 2.2.1.1 NeTIS-Box front view 2.2.2 RACKABLE VERSIONS 2.2.2.1 NeTIS B-25 NeTIS MAINTENANCE GUIDE Version 1.1 9/139 2.2.2.2 NeTIS B25-C 2.2.2.3 NeTIS-B25-D NeTIS MAINTENANCE GUIDE Version 1.1 10/139 2.3 Rear face 2.3.1 NETIS-B25 2.3.2 NETIS B25C NeTIS MAINTENANCE GUIDE Version 1.1 11/139 2.3.3 NETIS-B25D 2.4 Normal NeTIS-B operation When powered on, the NeTIS normal behaviour is the following: Two phases should be observed. 1st phase:

All the power indicators light (all the power supply module indicators and the different power supply indicators on each other module) The CPUBDT board operates immediately and supplies all the clock signals the system needs; the 8 test signals (8Khz; 64 KHz; HT; ...) that are selectable using the

(blue) switch are available on the BNC connector of the BDT module. The INT indicator for the module flashes The module loads its software and then runs it in several phases If the CPUBDT is fitted with the GPS synchro module, the operation of this board is as follows:

The indicator flashes very slowly when the GPS module is present but reception is bad The flashing is per second when the GPS module is present and reception is correct. NeTIS MAINTENANCE GUIDE Version 1.1 12/139 The transmission command, lower power and TOS indicators for the UCM board are off. Only the ALC indicator flashes Verification of the state of the different modules and files - if a problem is detected the remaining operations may be halted. 2nd phase:

The CPUBDT board operates immediately and supplies all the clock signals the system needs; the 8 test signals (8 KHz; 64 KHz; HT; ...) that are selectable using the

(blue) switch are available on the BNC connector of the BDT module. The INT indicator for the module flashes The ACT indicator on the CPUBDT board starts flashing which means that the programme is running The EF/ indicator on the UCM board lights (the CPUBDT loads data into the module) and then the ALC and COR indicators light alternately The MCCH indicator on the CPUBDT board lights if the BS manages the MCCH channel The PLL and CTX indicators light and the ALC and COR indicators turn off => the BS is transmitting The programme itself runs The base station can be in one of the three following situations:

The base station has a correct link with the switch: the switch then uploads the base station configuration and the base station transmits. The link with the switch is not established (or the switch is stopped) and the base station is not programmed to switch to degraded mode: in this case the base station remains on standby The link with the switch is not established but the base station is programmed to switch to degraded mode: in this case the base station behaves as an automatic TRA-2M relay and transmits. It is important to note that TETRA mobiles synchronise on the signal received from the relay transmitter or the base station and that they immediately cease all transmissions if the signal is not correct it is therefore essential, when faced with a 'dumb' mobile, to start by checking the station transmission before checking anything on the mobile itself. NeTIS MAINTENANCE GUIDE Version 1.1 13/139 1 2 Power indicators - normally all on CPUBdT board indicators 2a power supply normally on 2b 'IRQ normally fast flashing 2c 'ACT (Activity):

Static (on or off): the software is not operating correctly Fast flashing: no reception board (DCTR) detected Slow flashing (1 second): the base station has received a configuration from a switch Very slow flashing (2 seconds): the base station has received a configuration from a switch but has switched to degraded mode (link with the switch has been cut) Very fast flashing: software fault (Authentication or other problem) 2d 'MCCH indicates that the base station is carrying the site MCCH 2f 'LOC on if the internal time base is in slave mode to the GPS or the G703 link or V11 link NeTIS MAINTENANCE GUIDE Version 1.1 14/139 2g 'REF Presence of a synchronisation by link (communications board) 2f 'GPS This indicator has different flashing frequencies, State 1: On 100ms / Off 100 ms No GPS module or defective GPS module State 2: On 100ms / Off 900 ms GPS module OK / Satellite acquisition in progress State 3: On 100ms / Off 5 s Module GPS OK / Antenna fault State 4: On 1 s / Off 1 s GPS module OK / Satellites OK State 5: On 2s / Off 2s GPS module OK / Satellites lost, synchronisation maintained for 8 min 30 s before switching to the internal reference The board's synchronisation source can be determined from the indicator states,

'LOC off whatever the state of the other indicators means synchronisation on the internal reference

'LOC and 'REF on mean synchronisation on the link

'LOC on and 'REF off and 'GPS state4 or state5 means synchronisation on the GPS The clock test connector is controlled by selector 4 3 Position 0: 8 KHz (used on G703) Position 1: 64 KHz (used on G703) Position 2: 10 MHz (internal reference clock) Position 3: TETRA multiframe Position 4: TETRA frame Position 5: TETRA time slot Position 6: 2,048 MHz (G703) Position 7: TETRA symbols Clock signal selector on test connector 3 GPS antenna connector Opening for access to the clock frequency internal reference fine tuning potentiometer for the base station Keyboard and mouse connector (diagnosis mode only) Reset push button - this push button is accessible using a pointed object. Launching this command triggers a restart of the software which is indicated by a tone on the restart COM1 serial connector RJ45 connector for LAN network Video connector for local screen connection (diagnosis mode only) NeTIS MAINTENANCE GUIDE Version 1.1 15/139 4 5 6 7 8 9 10 11 Location for board communications (option) or a COM4 board for network mode connection to a switch using a V11 or G703 link, or a COM S board for connection to a PABX in autonomous mode. Location for an optional DCTR board for a second diversity reception channel. DCTR operation indicators 14a ALIM Normally on 14b ACT Flashes at high speed (perceivable by the lessening of the Flashes once per second as soon as the software is running correctly 14c MFR brightness of the indicator) if the board is operating correctly On when a high level radio signal is received 14e D2 On when a block of high power radio data is received (threshold around -70dBm) 14f D3 Indication of the correct decoding of the TETRA block received as input When reception frequency of the board is changing the indicator flashes briefly. Local oscillator slave mode indicator (normally on) 12 13 14 14d D1 14g PL 15 UCM board operation indicators PA power supply: Normally on permanently Radio transmission indicator Transmission oscillator slave mode indicator: Normally on permanently Reception of messages from the BS software indicator. Power slave mode operation indicator: normally permanently on PA linearization indicator 15a ALIM Normally on permanently 15b 28V 15c CTX 15d PLL 15e IO 15f ALC 15g LINE 15h LOWPW Low power alarm: normally off 15i VSWR Too high reflected power alarm: normally off 15j TEMP PA temperature alarm: normally off 16 17 18 19

'11111' transmission command - this push button can be accessed using a sharp object. When it is activated, the TETRA modulation signal is replaced by a series of 1 symbol which correspond to a pure radio carrier offset from the nominal frequency by +2.25 KHz - this function is used to check the frequency of a base station using an analogue radio bench. Radio input - level between - 20 dBm and - 130 dBm COM2 serial connector used to connect a local network management terminal Radio output to the PA, nominal level - 5 dBm NeTIS MAINTENANCE GUIDE Version 1.1 16/139 2.5 Handling 2.5.1 PLUG-IN MODULES The different modules must be plugged in or removed when power is off. Before removing a module, disconnect the eventual coaxial connections from its front face To remove a module, first remove the screws from the four corners of the front face of the module before gently extracting it by pulling it forward using the extraction handles. The power supply module has an auxiliary connector (mains input) which must be disconnected before completely extracting the block. Plugging a block back in must be done gently but firmly; once the block is correctly engaged on its connector, push hard on the set to place it correctly. 2.5.2 REAR FACE Before any interventions inside the chassis, the mains or 48V input at the rear of the chassis must be disconnected. The rear face is removed by unscrewing the 4 screws at each corner of the rear face; the connection cables are long enough to be able to lay the face on a flat, cleared surface. 2.5.2.1 Ventilators Access to the ventilators differs depending on whether the NeTIS is the rack version or the box version:

Rack version:

The mains power input located to the rear must be disconnected and then the rack mounting screws must be removed in order to extract the entire block from the front. Box version:

Access to the ventilators is from the bottom: remove the screws on the sides and then lift the entire appliance; the lower part comes away. 2.6 Diagnosis / Maintenance WARNING: placing a base station in test on a site can cause major radio disruptions both on the network on which the station is working and on the other networks in the region NeTIS MAINTENANCE GUIDE Version 1.1 17/139

(frequency change) - it is therefore strongly recommended to disconnect the base station from the antenna and to reconnect it to a load before any tests. 2.6.1 GENERAL POWER FAULTS No indicators on Check the general fuse located to the rear on the main power input block Check that there is 220V Check the position of the switch located on the rear face If everything is correct:

Unplug the power supply module Disconnect the auxiliary mains supply cable from the module Check for 220V on this disconnected connector If everything is correct: the power supply module is out of order Otherwise the internal mains wiring or the switch or the mains filter are defective Only the 220v indicator is on, on the power supply module:

Unplug the power supply module Power off and on again If the indicators turn on again there is either a short circuit on a power supply, or all the circuits were put on stand-by following a general power surge One or mode indicators on the power supply module are off:

Turn off the TBS11 Wait for a few seconds Turn the appliance back on If the indicators are back on:

It indicates a power overload which caused the corresponding power supply circuit to go into safety mode Check consumption If the fault persists, Turn the appliance off and unplug all the modules using the defective voltage;

Turn the appliance back on If the fault persists, The power supply module is defective If the fault disappears, Plug the removed modules back in, one by one (turning power off each time) to isolate the defective module NeTIS MAINTENANCE GUIDE Version 1.1 18/139 2.6.2 POWER FAULT ON A MODULE The power supply indicator on the module stays off even though the 5 volt indicator is on the power supply module:

Each module has a fuse soldered to the 5 volt input, close to the 96 point Europe connector. If this fuse is broken, it is possible to replace it and closely watch when powering back on; if the fuse breaks again, the module must be returned for repair. Some modules also have fuses on other voltages; when these fuses break it is not shown by the power supply indicator (which only indicates the presence of a +5 volt power supply). 2.6.3 SWITCH INTERFACE FAULT The defect can come from the CPUBDT board, or from the IP link itself. WARNING: the fault diagnosis must be carried out taking into account the settings of the degraded mode with the following cases:

A base station not programmed for degraded mode with an interface fault ceases all radio transmission A base station programmed for degraded mode continues to transmit (as a TRA-2M) if there is an interface fault - the MCCH indicator is necessarily on (but the fact that it is on does not necessarily indicate a fault) The link between the switch and the BS is managed by the CPU board; this board should always show:

The 5 volts indicator on The yellow "ACT" indicator flashing slowly The red "INT" indicator flashing quickly The yellow "MCCH" indicator on if the BS is carrying the MCCH Refer to the authentication chapter in the event of an intervention of the CPUBDT in the following cases:

Compact flash replacement CPUBDT replacement LEVEL2 software upgrade When the link is correctly established the base station must synchronise on the link - i.e. the

'synchro signal present' and 'lock' indicators on the module should be on. 2.6.4 CLOCK FAULT A high number of defects can have their origin in a clock fault; they should therefore be checked systematically before any research on the other signals. NeTIS MAINTENANCE GUIDE Version 1.1 19/139

*Check according to your measurement bench:

With a digital TETRA bench measure the frequency error at the UCM or PA output; it should be less than +-100Hz. If this is not the case, check the clocks. With an analogue bench, check the frequency error at the UCM or PA output; it should be less than +-100Hz. To do this keep the 2.25 KHz test button on the face of the UCM pressed down in order to observe a pure offset carrier compared to the TX BS frequency of 2.25 KHz. If this is not the case, check the clocks:

If the BS is synchronised on the GPS signal, then check the rhythm of the GPS indicator on the CPUBDT board Or consult the GPS alarms on the network management terminal by zooming on the NeTIS and then viewing the BDT status by clicking on the resource (See below) NeTIS MAINTENANCE GUIDE Version 1.1 20/139 If the BS is synchronised on its own LO (local oscillator), then adjust the CPUBDT LO using the potentiometer on the face (small hole) NeTIS MAINTENANCE GUIDE Version 1.1 21/139 If the BS is synchronised with a G703 link, then:

Adjust the remote SWITCH reference if the CPUBDT is not synchronised with an external clock source If the SWITCH is synchronised with the GPS, the CPUBDT receives the GPS signal;

check the rhythm of the GPS indicator on the CPUBDT The general check of the clock signals is carried out from the front face of the CPU_BDT module using the selector located on the top. All the clock signals must be perfectly recurrent, stable and exempt from jitter. Check in the following order:

position 7: TETRA clock symbol 18 KHz position 5: clock time slot 70 Hz position 4: clock frame 70 / 4 Hz = 17.5 position 3: multiframe 1.02 second (18 frames) 2.6.5 TRANSMISSION FAULT 2.6.5.1 The transmission command indicator, CTX on the UCM stays off Check that the UCM is receiving data from the central processing unit - this traffic is viewed via the IO indicator on the UCM front face which should light. If data is being received, the UCM board is defective. Otherwise check the central processing unit and the settings. NeTIS MAINTENANCE GUIDE Version 1.1 22/139 The transmission command indicator, CTX on the UCM is on Measure the RF signal output from the UCM board On a spectrum analyser the signal should have the following form:

Central frequency Fo MHz / 10 KHz / division Fo: programmed radio frequency 1 KHz bandwidth 10dB/division If the spectrum only shows rays or if the spectrum overshoots the 25 KHz width, the UCM board is defective When a TETRA radio bench is available, the RF MHz signal will be analysed by the bench programmed on the RF frequency of your BS. The bench is configured as follows:

Base station test Duplex test, Tx test RF MHz carrier Synchronisation acquisition on 'normal and synchro burst'

Constellation measurement If the bench does not synchronise, check the spectrum as indicated previously. If the bench synchronises, it indicates the signal power and its frequency error; it should be less than +-100Hz. If this is not the case, check the clocks. (See 2.6.4) The output level of the UCM board: around - 5 dBm. Pay attention to the power regulation from a set point supplied by the PA (Power Amplifier) which can vary this level. A check of the power of the PA output must also be carried out. If no significant signal is present at this level, check that the UCM frequency band is compatible with the desired value - if so the UCM module is defective. NeTIS MAINTENANCE GUIDE Version 1.1 23/139 If the signal is correct but has a carrier on another channel, check the transmission channel programming and check the clocks; if these tests are correct, the UCM module is defective. If the signal is correct but on a carrier that is offset compared to the nominal value, check the clocks or the synchronisation sources. The complete constellation must comply with the diagram below:

If the constellation presents points that spread radially, check the level. If the constellation presents points that spread at a tangent, check the clocks. 2.6.5.2 Possible alarms on the transmission chain If the TOS indicator on the UCM board is on, disconnect the antenna and replace it with a 50 Ohms load. If the TOS indicator switches off, check the antenna connections. If the 'low power' indicator is on, disconnect the antenna and replace it with a 50 Ohms load. If the indicator stays on the PA is defective (check its power supply) If the indicator switches off there is probably an antenna connection problem which caused a fault on the PA If the 'low power' indicator is off, check the signal power output from the PA. NeTIS MAINTENANCE GUIDE Version 1.1 24/139 Also check the signal spectrum output from the PA; if the 'shoulders' lift, check the level at the PA input; if this level is correct and the spectrum at this access has no lifting, the PA is defective. 2.6.6 CORRECT TRANSMISSION 2.6.6.1 The mobiles do not attempt to register Check the network and mobile settings, especially:

The compliance of the channel declared on both sides The mandatory nature or not of the registration The type of services provided by the BS or the system (phone, data) The MCC and MNC network numbers The mobile's authorisation on the system 2.6.6.2 The mobiles attempt to register Place a reference mobile close to the BS receiver antenna on the site concerned in order that the receiver (or receivers for the diversity option) receive a very strong field. If the packet detection LED on the DCTR board briefly lights (each time a packet transmitted by the mobile is received), the receiving chain is apparently correct and the fault is more likely to be found before the BS or the site concerned; otherwise the receiver chain must be checked. Checking a receiver chain Place a reference mobile close to the BS receiver antenna on the site concerned in order that the receiver (or receivers for the diversity option) receive a very strong field. If the packet detection LED on the DCTR board briefly lights (each time a packet transmitted by the mobile is received), the receiving chain is apparently correct and the fault is more likely to be found before the BS or the site concerned; otherwise the receiver chain must be checked. Preliminary checks Connect the network management terminal in order to monitor the RSSI level (direct access to this data can also be obtained using a screen and keyboard connected to the central processing unit by launching the level measurement test (RSSI) by pressing the I key - this function is terminated by pressing the key again - the field measurements scroll permanently for each installed receiver channel). Make sure that this monitoring is correctly deactivated in order to avoid disrupting the BS. Disconnect the input to the antenna DCTR module (or to the duplexer). The indicated RSSI level corresponds to the sound level at the input of the DCTR module; this level is normally between -120 and -126 dBm If the sound level increases too much when the RF input of the DCTR is reconnected, the BS is probably correct and the pollution should be looked for upstream; it can NeTIS MAINTENANCE GUIDE Version 1.1 25/139 come from a disturbance or an incorrect adjustment of a duplexer or an incorrect separation of the transmission and receiver antennas; to refine the diagnosis stop the BS transmission by disconnecting the CPU from the PA. Checking a DCTR circuit Connect an RF generator to the DCTR input to be tested, adjusted to the programmed nominal receiver frequency on the BS; the RSSI level indications should correspond within 3 dB to the test generator level within the range of - 20 to - 90 dBm. Further, the D1 LED of the DCTR module lights progressively as the generator level exceeds - 70 dBm. Several faults can be detected at this level:

The viewed RSSI level is weak and almost constant whatever the generator level;

check the programmed receiver channel, check that the DCTR module is compatible with the frequency band, find out if it is responding on a neighbouring carrier; check the DCTR module The viewed RSSI level varies correctly either at a weak level (- 90 to - 50 dBm), or at a strong level (- 50 to - 20 dBm) but not over the entire range: the DCTR module is defective The viewed RSSI level varies correctly at a weak level but varies at levels greater than

- 40 dBm and the D1 LED does not light, the DCTR module is defective The viewed RSSI level varies correctly at a strong level but not at a weak level although the noise levels are correct: the DCTR module is probably defective, it should be checked 2.6.7 CONFLICTS BETWEEN NMT ALARMS AND LED OF BS If there are different alarms on NMT for the same base station concerning VSWR, PA or Tx and the LEDs on the base station do not correspond to this, thats means that there is an issue with the power alimentation of each board. In this case, the LED (+30v) on the supply board is very weak or off. 1 switch off the base station 2 disconnect on the PA board (rear of the rack), supply cable (2 pins, green connector) 3 disconnect the alarm connector (SubD 15pins) 4 start the base station If the LED +30v is ok, exchange the PA module If the LED is still not working, exchange the main supply board If both are not ok, check the different wire of supply NeTIS MAINTENANCE GUIDE Version 1.1 26/139 3. NeTIS-N 3.1 Presentation of the switch Each switch has the following modules:

Power supply (ALIM) CPU (CPUBDT) IP phone sequencing board (SUPIP) one or more communications boards (COM3 or 4) for the connection of the switch to remote sites one or more communications boards (COM3 or 4) for the connection of the switch to the PABXs one or more CCT boards (CODEC) one or more COMS boards for S0 link management 3.1.1 NUMBER OF COM 3 OR 4 BOARDS COM boards used for PABXs One Com board for the same T2 access should support 30 simultaneous communications COM boards used for radio sites: the number depends on the style of network:

Ring network Star network IP network => no need for boards NeTIS MAINTENANCE GUIDE Version 1.1 27/139 3.1.2 NUMBER OF CODEC BOARD (CCT) There should be as many CODECs as there are simultaneous phone communications exiting the TETRA world. One CCT board supports up to 16 CODECs. The phone communications exiting the TETRA world are:

Mobile to telephone and telephone to mobile communications Mobile group to telephone and telephone to mobile group communications Dispatching to mobile and mobile to dispatching communications Mobile group to dispatching and dispatching to mobile group communications Mobile(s)/Mobile(s) communications listened to by dispatching On the other hand, communications routed to another switch are not considered as exiting the TETRA world (however they need a CODEC channel if they are to be listened to by a local dispatching or if the telephone is a third party). The photo on the following page gives the position of the different boards in the chassis and the meaning of the indicators and their statuses during normal operation. 3.1.3 NUMBER OF COMS BOARDS The COMS board gives the possibility of having a S0 or T0 type phone connection. This type of link carries 1 signal channel (D) and 2 phone channels 'B). This board is therefore adapted to a small network wishing to limit resources dedicated to phone communications (max. 2) and the cost of the access to the phone network. The T0 or S0 access is processed in compliance with the VN4 and VN5 specifications of the EURO-RNIS network NeTIS MAINTENANCE GUIDE Version 1.1 28/139 NeTIS MAINTENANCE GUIDE Version 1.1 29/139 3.2 Launching When powering on, the power supply indicators light and the time base board operates immediately with the lighting of the following indicators:

TFB "synchronisation signal presence" if a synchronisation signal is configured and present, LOC indicating the internal reference oscillator is correctly locked. The CPU board initialises and loads its resident flash disk software; this software is then launched with:

1. The survey of available resources (COM and CCT boards). 2. The loading of the configuration for all the switch boards. At this time the link with the network management terminal is established and the standby screen for the network management terminal displays the representation of the link with the switch in green. The switch detects the presence of the base stations and uploads their configuration; each base station successfully uploaded is declared available in the resources and the representation of the link with them on the standby screen of the network management terminal changes to green. The traffic with the base station is established and it starts radio transmission. If it is selected to carry the site MCCH, the 'broadcast' data is transmitted and mobiles can register. As soon as the SUPIP board is initialised it transmits synchronisation packets on the IP network (rhythm of about 30 milliseconds). When a COM board is programmed as a T2 interface with a switchboard, it transmits connection data and, as soon as it receives data, the switch declares the resource as available -

the link representing this connection changes to green on the standby screen of the network management terminal . NeTIS MAINTENANCE GUIDE Version 1.1 30/139 3.3 Normal operations During normal operation the state of the indicators is as shown in the table below:

Indicators 220v 28v 12v 5v

-12V

+ 5v TLY LOC TFR

+ 5v INT ACT MCCH

+ 5v INT ACT

+ 5 v MFR D1 D2

+ 5v ACT RX A ERR A RX B ERR B

+ 5v ACT RX B1 B2 state On On On On On On Slow flashing Off Off On Fast flashing Slow flashing On for the active switch On Fast flashing Flashing if phone traffic (reception of phone blocks) On Slow flashing Off / flashes during communications (reception of phone blocks) - odd channels Off / flashes during communications (reception of phone blocks) - even channels On Slow flashing On = Frame locked in G703 or clock presence in V11 flashes if star network fixed if ring network Off bit error in G703 On if no link On Slow flashing On = Frame locked in G703 On Off Off On Slow flashing On = synchronisation with remote equipment On during communication On during communication Board ALIM CPUBDT SUPIP CCT2 COM3 or COM4 Site communication mode COM3 Site communication mode COM3 or COM 4 T2 mode COM S0 NeTIS MAINTENANCE GUIDE Version 1.1 31/139 3.4 Removing subsets 3.4.1 PLUG-IN MODULES The different modules must be plugged in or removed when power is off. Before removing a module, disconnect the eventual coaxial connections from its front face. To remove a module, first remove the screws from the four corners of the front face of the module before gently extracting it by pulling it forward using the extraction handles. Before any interventions inside the chassis, the mains or 48V input at the rear of the chassis must be disconnected. The power supply module has an auxiliary connector (mains input) which must be disconnected before completely extracting the block. Plugging a block back in must be done gently but firmly; once the block is correctly engaged on its connector, push hard on the set to place it correctly. 3.4.2 REAR FACE The rear face is removed by unscrewing the 4 screws at each corner of the rear face; the connection cables are long enough to be able to lay the face on a flat, cleared surface. 3.4.3 VENTILATORS Access to the ventilators differs depending on the rack or box versions: for the rack version, the mains power input located to the rear must be disconnected and then the rack mounting screws must be removed in order to extract the entire block from the front. In the box version, access to the ventilators is from the bottom: remove the screws on the sides and then lift the entire appliance; the lower part comes away. 3.5 Diagnosis and maintenance WARNING: putting a switch in test mode can cause major radio disturbances both on the network on which the station is working and on other networks in the region (frequency changes) - it is therefore strongly recommended to disconnect the base stations before any tests NeTIS MAINTENANCE GUIDE Version 1.1 32/139 3.5.1 GENERAL POWER FAULT No indicators on:

Check the general fuse located to the rear on the main power input block Check that there is 220V Check the position of the switch located on the rear face If everything is correct:

Unplug the power supply module Power off and on again If the indicators turn on again there is either a short circuit on a power supply, or all the circuits were put on stand-by following a general power surge. One or mode indicators on the power supply module are off:

Turn off the switch Wait for a few seconds Turn the appliance back on If the indicators are back on: it was a power overload that caused the corresponding power circuit to switch to safety mode, check consumption If the fault persists, turn the appliance off and unplug all the modules using the defective voltage;

Turn the appliance back on If the fault persists, the power supply module is defective. If the fault disappears, plug in the removed modules one by one (powering off between each one) in order to isolate the defective module 3.5.2 POWER FAULT ON MODULE The power supply indicator on the module stays off even though the 5 volt indicator is on the power supply module:

Each module has a fuse soldered to the 5 volt input, close to the 96 point Europe connector. If this fuse is broken, it is possible to replace it and closely watch when powering back on; if the fuse breaks again, the module must be returned for repair. Some modules also have fuses on other voltages; when these fuses break it is not shown by the power supply indicator (which only indicates the presence of a +5 volt power supply). NeTIS MAINTENANCE GUIDE Version 1.1 33/139 3.5.3 CLOCK FAULT A high number of defects can have their origin in a clock fault; they should therefore be checked systematically before any research on the other signals.

*Check on one BS in the network depending on your measuring bench:

-If the SWITCH is synchronised on the GPS signal, then check the rhythm of the GPS indicator on the CPUBDT board of the SWITCH

-If the SWITCH is synchronised on its own LO (local oscillator), then adjust the CPUBDT LO using the potentiometer on the face (small hole) The general check of the clock signals is carried out from the front face of the CPU_BDT module using the selector located on the top. NeTIS MAINTENANCE GUIDE Version 1.1 34/139 All the clock signals must be perfectly recurrent, stable and exempt from jitter. Check in the following order:

Position 7: TETRA clock symbol 18 KHz Position 5: clock time slot 70 Hz Position 4: clock frame 70 / 4 Hz = 17.5 Position 3: multiframe 1.02 second (18 frames) NeTIS MAINTENANCE GUIDE Version 1.1 35/139 4. NETWORK FAILURE SCENARIOS 4.1 None of the network equipment is operational The standby screen on the network management terminal indicates that the switch is no longer connected. The base stations are not transmitting or are in degraded mode. The dispatching stations are no longer operational. Telephone access is no longer operational. First check the position of the switching unit if the installation has one. If everything is normal the fault probably originates from the CPU board. Reset it by pushing a pointed object into the hole on the front face of the CPU board. If, after the reset, everything seems to operate correctly, check that the link with the service network management terminal is correct (view the network management terminal's standby screen). If the installation has a switch unit, check its correct operation because the switch may have occurred - this test is carried out by cutting the junction on the COM2 port of the active switch with the switch unit (the other switch must, of course, be operational for the test). If the installation does not seem to start up, connect a VGA screen to the front face of the CPU board and check its indications after resetting. The software loading and programme launch steps are indicated. After the software is loaded, indications are given of the resources detected by the CPU board - check that the displayed resources correspond to the various boards located in the chassis. If the run fails, carry out software reload. If the problem comes from the non-loading of the OS, change the flash board and reconfigure the network NeTIS MAINTENANCE GUIDE Version 1.1 36/139 If, after re launch, the service console indicates that the switch connection is correct, refer to the following case where only the network management terminal is operational on the network. Otherwise, after checking the correct operation of the network management terminal and the link, change the CPU board. 4.2 The network management terminal (NeTIS-M) is the only operational equipment on the network The network management terminals standby screen shows that the switch is connected and that no other equipment is connected (base station, telephone) or these indications are random. The base stations are not transmitting or are in degraded mode. The dispatching stations are no longer operational. Telephone access is no longer operational. This is probably a fault in the CPU board, or a problem with the switch internal bus; in order to find out, disconnect the switch extension unit if it has one and reset the CPU board:

If all the resources connected to the main switch unit are operational again, the fault comes from the extension (or the cable connecting it) Otherwise remove all the communications boards, the codec boards and the SUPIP board from the chassis. Reset the CPU board and check that it detects no resources

(except for the time base board); reconnect a communications board and check that it is detected; if it is not detected, the CPU board is defective. If the resource is detected, continue reconnecting the boards one by one and check each time that they are detected correctly. If a board is not detected or is detected with a wrong location number, that board is defective and may have caused a major disturbance to the entire equipment. 4.3 No equipment on the network is operational except for the network management terminal (NeTIS-M) which NeTIS MAINTENANCE GUIDE Version 1.1 37/139 indicates that switch is operational and all the BSs out of order The network management terminals standby screen shows that the switch is connected and that no other equipment is connected (base station, telephone ...) or these indications are random. NeTIS MAINTENANCE GUIDE Version 1.1 38/139 The resources are correctly detected by the CPU Check the state of the 'Rx and 'ERR indicators on the communications boards (COM) If all the indicators are in a normal state, the problem comes from a resource assignment error Reload the equipment configuration file from the network management terminal (download). NeTIS MAINTENANCE GUIDE Version 1.1 39/139 4.4 BSs answer correctly on the NMT, but mobiles do not register onto the network. The base stations reply normally to a 'zoom' request from the service network management terminal. Mobiles do not register into the network. In the event file there are no mobile registrations; the messages below cannot be found in the log. In this specific case there is necessarily a problem on the site due to the absence of registration. NeTIS MAINTENANCE GUIDE Version 1.1 40/139

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The first reflex is to assign the MCCH to BS n 2 using one of several methods:

-Deactivate BS N1 :

Then wait for the synopsis to be refreshed Activate BS N1 Two possible cases:

=> The number of registrations is no longer nil, showing that BS 1 has a fault

=> If the number of registrations is still nil:

Check the antenna system (coupling + antennas) Check the receiver chain (Preamplifier distributor, DCTR) The configuration parameters for the base stations may be incorrect (frequencies, network code, access mode). Download the correct equipment configuration file. NeTIS MAINTENANCE GUIDE Version 1.1 41/139

-Switch BS N 1 off and on again: Same as the previous case for analysis and results

-Reboot the BS N 1 CPU board: Same as the previous case for analysis and results 4.5 Mobiles register correctly to the network but are unable to communicate The base stations reply normally to a 'zoom' request from the service network management terminal NeTIS MAINTENANCE GUIDE Version 1.1 42/139 The mobiles register correctly to the network base stations

4.5.1 THERE IS NO OPERATIONAL PHONING BETWEEN THE TERMINALS Administration network management terminal (History/Tickets) Phone problems are not shown in the history. Here we can confirm that the establishment of communications is correct until they are freed. NeTIS MAINTENANCE GUIDE Version 1.1 43/139

4.5.2 NO COMMUNICATIONS BETWEEN TERMINALS

Administration network management terminal (History/Tickets)

*Station cannot be reached

*Call to a number unknown to the administrative database Terminal N 52 is not in the database

*Call to an engaged radio station NeTIS MAINTENANCE GUIDE Version 1.1 44/139 4.6 There is normal traffic between mobiles but not with their dispatching (operator stations) Initial conditions:

The base stations reply normally to a 'zoom' request from the service network management terminal The mobiles register correctly to the network base stations The mobile/mobile calls are correctly forwarded Definitions:

Definitions:

Signalling: Launching of calls, establishment of calls, liberation, alternate management etc Phone: conservation, voice, VOIP 4.6.1 NO PHONES BETWEEN DISPATCHING AND THE TERMINALS NeTIS MAINTENANCE GUIDE Version 1.1 45/139 4.6.2 NO MORE SIGNALLING BETWEEN DISPATCHING AND THE TERMINALS Initial conditions:

Signalling: Launching of calls, establishment of calls, liberation, alternate management etc Phone: conservation, voice, VOIP NeTIS MAINTENANCE GUIDE Version 1.1 46/139 4.7 PABX link problem 4.7.1 SIGNALLING AND PHONE OUT OF ORDER NeTIS MAINTENANCE GUIDE Version 1.1 47/139

4.7.2 PHONE OUT OF ORDER The base stations reply normally to a 'zoom' request from the service network management terminal The mobiles register correctly to the network base stations The mobile/mobile calls are correctly forwarded Check that the SUPIP board is operational:

The NT indicators flash and ACT is active during communications Alarms are sent from the SUP boards to the SWITCH resources on the network management terminal Connection of a screen + keyboard to the SUPIP:

*check that the supip.exe application is launched. To do this press the "Escape"

key on the keyboard in order to display the software version.

*check board detection on the PHONE (U_ plane) bus. If necessary reset the application by rebooting the SUPIP board or by disconnecting the PABX link interface board and reconnecting it to observe its detection as: "COM OK"

- The ACT indicators flash and D1 or D2 is active during communications Check that the CCT board is operational:

ASSESSMENT:

*If the SUPIP and CCT boards seem to be operational then:

=>The T2 or SO link interface board is out of order

*If the SUPIP board does not respond to the above conditions, then:

=>change the SUPIP board

*If the CCT board(s) do(es) not respond to the above conditions, then:

=> change the CCT board(s) in question NeTIS MAINTENANCE GUIDE Version 1.1 48/139 NeTIS MAINTENANCE GUIDE Version 1.1 49/139 5. NeTIS-B & NeTIS-N software A compact Flash board plays the role of the hard drive and equips the CPUBDT and SUPIP boards The installed operating system is DEBIAN LINUX. 5.1 NeTIS-B 5.1.1 GENERAL The 'Niveau2.exe" software is the ETELM application operating in a NeTIS-B. As for all computers, the board boots the operating system and loads niveau2. Total load time: ~40s 5.1.2 LAUNCHING THE NIVEAU 2.EXE APPLICATION As described in the three following chapters, there a several simple methods to make sure that the software is operational 5.1.2.1 Network management terminal monitoring The base station niveau2 is launched if the network management terminal displays the information below in a stable and durable manner. NeTIS MAINTENANCE GUIDE Version 1.1 50/139 NeTIS MAINTENANCE GUIDE Version 1.1 51/139 5.1.2.2 Rhythm of the ACT indicator on the CPUBDT board The slow rhythm of the ACT indicator shows that the niveau2.exe application is running 5.1.2.3 Display of the NeTIS-B software version Connect a screen and keyboard Then press the "Escape" key on the keyboard and eventually stop the screen from scrolling in order to find the following line:

******* TETRA BS L2P LINUX SOFTWARE FOR PC V 7.04/b (C) ETELM 2008 DJ

***72*****

Here the niveau2 version is: 7.04/b The display of the software version indicates that the niveau2.exe application is running and has not abounded. 5.1.3 NETIS-B IP CONFIGURATION Once the application is running you can check the settings for the network board. This is useful for updating versions or remotely controlling the board using PUTTY, WinSCP (See chapters) Press the ALT+F2 keys to scroll pages The data on the Ethernet interface board are displayed in red below NeTIS MAINTENANCE GUIDE Version 1.1 52/139

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--------------

--------- ETELM 2008-------Tetra SOCK------LINUX-------V1.2------DP WSOCK/LINUX module Version 1.2 Date :03/07/2006 P.DEVOS(ETELM) Type 'h for viewing options Thread_Time_event :OK Thread_SockScrut :OK The file /etc/network/interfaces was opened LocalHost 192.168.1.103 Netmask 255.255.255.0 Network 0.0.0.0 Broadcast 192.168.1.255 Gateway 0.0.0.0 Network gateway address Network broadcast Network address Network mask Card address 5.2 NeTIS-N 5.2.1 GENERAL The 'Niveau3.exe" software is the ETELM application operating in the CPUBDT. The "Supip.exe" software is the ETELM application operating in the SUPIP. As for all computers, the board boots the operating system and loads the application Total load time: ~40s 5.2.2 LAUNCHING THE NETIS N APPLICATION As described in the two following chapters, there a several simple methods to make sure that the software is operational NeTIS MAINTENANCE GUIDE Version 1.1 53/139 5.2.2.1 Rhythm of the ACT indicator on the CPUBDT board The slow rhythm of the ACT indicator shows that the application is running 5.2.2.2 Rhythm of the INT indicator on the SUPIP board The fast rhythm of the INT indicator does not indicate that the application is running. The real time module is only running but not necessarily the SUPIP.exe application Warning: The "ACT" indicator does not show application activity Only an alarm visible on the network management terminal or a direct check on the board

(screen + keyboard connection) can guarantee that the software is operating normally (See next chapter) 5.2.2.3 Display of the CPUBDT software version Connect a screen and keyboard NeTIS MAINTENANCE GUIDE Version 1.1 54/139 Then press the "Escape" key on the keyboard and eventually stop the screen from scrolling in order to find the following line:

----- ETELM 2007 ----------- L3P TETRA -------------- V1.65/a ----- DJ ----

Here the Niveau3 version is: 1.65/a The display of the software version indicates that the Niveau3.exe application is running and has not abounded 5.2.2.4 Display of the SUPIP software version Connect a screen and keyboard Keyboard Screen Then press the "Escape" key on the keyboard and eventually stop the screen from scrolling in order to find the following line:

--------- ETELM 2008 ------------ SUPIPV4 -----LINUX------ V0.79 ---- DJ ----

Here the SUPIP application version is: 0.79 The display of the software version indicates that the Supip.exe application is running and has not abounded. NeTIS MAINTENANCE GUIDE Version 1.1 55/139 5.2.3 NETIS-N IP CONFIGURATION 5.2.3.1 IP SUPIP Once the application is running you can check the settings for the network board. This is useful for updating versions or remotely controlling the board using PUTTY, WinSCP (See chapters). Press the ALT+F2 keys to scroll pages. The data on the Ethernet interface board are displayed in red below.

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. LocalHost 192.168.1.103 Netmask 255.255.255.0 NeTIS MAINTENANCE GUIDE Version 1.1 56/139 Network 0.0.0.0 Broadcast 192.168.1.255 Gateway 0.0.0.0

. NeTIS MAINTENANCE GUIDE Version 1.1 57/139 6. PUTTY (remote connection) This SSH client can be used to obtain a secure connection from Windows to Linux servers. It can be used to change the Network settings of the remote board, stop software, start software, reboot the PC, and remotely run software. NeTIS MAINTENANCE GUIDE Version 1.1 58/139 Launch putty.exe:

The factory setting for the Network board is 192.168.1.3, however, if this has been changed, use the new one. Then type Open If a security message appears, press on Yes NeTIS MAINTENANCE GUIDE Version 1.1 59/139 To the login request as: type root (in lower case) then Enter To the password request: type root (in lower case) then Enter You are now connected to the remote board and can run LINUX commands:

See chapter 7 NeTIS MAINTENANCE GUIDE Version 1.1 60/139 NeTIS MAINTENANCE GUIDE Version 1.1 61/139 7. WINSCP SOFTWARE UPDATE

*See also the "Authentication" chapter which only covers NeTIS-Bs. Use the "WINSCP3" software. This software is used for the secure transfer of files (version 2 of the SSH protocol) between a Windows station and a Linux server. It is used to update the versions of BS, SWITCH end LINUX SUPIP. Connection via Ethernet link and CPUBDT board. The factory setting for the Network board is 192.168.1.3, however, if this has been changed, use the new one:

To do this note down the network board configuration by installing a screen and keyboard on the CPUBDT board, the ETELM application running (ACT indicator flashing on the CPUBDT board) then press the [ALT] [F2] keys (Warning, a reset of the CPUBDT board may be needed to detect the screen.) Launch WINSCP3:

If WINSCP3 is being used for the first time a connection must be created:

NeTIS MAINTENANCE GUIDE Version 1.1 62/139 To save the WINSCP configuration for the 192.168.1.3 address press on Save. Then OK Choose the connection root@192.168.1.3 Click on Connect:

If it is the first connection, the following message is shown:

Answer Yes, a password is then requested NeTIS MAINTENANCE GUIDE Version 1.1 63/139 Type root (in lower case) then press OK. You are now connected. The left side corresponds to your local machine and the right side corresponds to the remote machine, i.e. one of the following boards: CPU BS, CPU SWITCH or SUPIP SWITCH. NeTIS MAINTENANCE GUIDE Version 1.1 64/139 Click on the usr directory NeTIS MAINTENANCE GUIDE Version 1.1 65/139 Next choose the directory that corresponds to the board's current operation:

If you are connected to a BS CPU board, select the BsLinux directory. If you are connected to a SWITCH SUP board, select the SupipLinux directory. NeTIS MAINTENANCE GUIDE Version 1.1 66/139 If you are connected to a SWITCH SUP board, select the SupipLinux directory. Next it is possible to run all the classical Windows Explorer commands Rename, delete ... using a right mouse click on the file to be modified. 7.1.1.1 Example of the update of a Bs Linux version:

Navigate to the directory usr/BsLinux as shown above:

Right mouse click the niveau2 file, the scroll down to rename:

Change the file name to niveau2v611 for example, if the BS version is a 6.11 Then select the new niveau2 file and drag it from left to right, i.e. from your local hard drive to the remote usr/BsLinux directory:

NeTIS MAINTENANCE GUIDE Version 1.1 67/139 To activate this version you must either turn off the BS (Front Face Reset for example), or using a software method using the putty software that we will examine in the second part of this document. NeTIS MAINTENANCE GUIDE Version 1.1 68/139 8. NETWORKS The objective of this chapter is to describe the configuration of the links between NeTIS equipment as well as fault diagnosis. There can be 3 types of link:

G703 Ethernet V11 A network can have a single type of link or several different types. 8.1 Stars network

NeTIS MAINTENANCE GUIDE Version 1.1 69/139 8.1.1 SETTINGS Communications between the NeTIS-N SWITCH and the NeTIS-B BSs are carried out on the ITs. The IT number is configured identically on both sides of the link and must be between 1 and 30. 8.1.1.1 IT configuration on the BS On the BS side you declare the IT on a DIP switch placed behind the BS:

They make it possible to define the type of link with the switch and the time slot number used for a G703 link G703 IT V11 The left switch is used to select the type of link:

G703 link at 2Mb/s in the top position V11 link in the bottom position G703 interface at 2Mb/s, IT n 1 The 5 switches to the right are used to select the IT number used by the base station on the 2Mb/s channel (lower weight to the right, level '1 at the bottom). The IT 0 for the 2Mb/s channels is not accessible (synchronisation IT) IT 16 can be used if the link operator authorises. G703 interface at 2Mb/s, IT n 15 G703 interface at 2Mb/s, IT n 2 V11 interface at 64 Kb/s NeTIS MAINTENANCE GUIDE Version 1.1 70/139

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8.1.1.2 IT configuration on the Switch We will use the network management terminal to identify the link it number to the SWITCH as well as the position in the SWITCH rack of COM3 in charge of the link: Position 1 to 12 for a standard chassis. In CONFIGURATION / SETTINGS. Right click on a BS then select Name Tc/Ts. The window below appears. The G703 link configuration has a red border:

Junction: Link type Voice/@IP: corresponds to the link it number Board: corresponds to the location of the COM3/4 board in the SWITCH (Counting from the SUPIP) The Tx=Rx check box means that the dialogue it is identical for both sides of the link. For the In and Out settings and the preferred direction refer to paragraph 9.1.2 Ring Network The In and Out list zones must be filled in as in the window:

Ins: for the link the SWITCH 0/1 SW precedes the BS for consultation Outs: for the link, no equipment succeeds the BS for consultation Fault analyses and diagnosis NeTIS MAINTENANCE GUIDE Version 1.1 71/139

8.2 Ring network NeTIS MAINTENANCE GUIDE Version 1.1 72/139 8.2.1 OPERATING PRINCIPLES Link type: always G703 Type of module in charge of the link: COM 3/4 Normal operations: (see 9.1.2.2) Each NeTIS-N appliance transmits data to the NeTIS-Bs on an it in both directions of the loop and extracts data from the NeTIS-Bs only from one direction at a time Each NeTIS-B appliance transmits data to the NeTIS-Ns on an it in both directions of the loop and extracts data from the NeTIS-Ns only from one direction at a time depending on the preferred direction selected in the settings More precisely, the COM3 or COM4 board plays the role of G703 interface on the BS side and the SWITCH side, it permanently transmits on both G703 junctions; The signal received at these junctions are analysed and the indicators on the front face make it possible to know the state of these junctions:

'ERR indicator: red indicator lighting when a line error is detected on the junction or if there is no 2Mb/s signal (disconnection for example). Yellow 'Rx indicator: flashes when a G704 synchronisation is detected; stays on when a synchronisation is detected and the link with the switch is established. SWITCH Carte(s) COM Carte COM Site 1 Carte(s) COM REBOUCLAGE Site i Carte COM Carte COM Site 3 Carte COM Site 2 NeTIS MAINTENANCE GUIDE Version 1.1 73/139 In the case of correct reception on both sides (A and B), the COM board only keeps the signals received from the side declared as preferred (settings on the network management terminal). The board injects signals corresponding to the TBS11 in the assigned time slot (programming on the rear face of the NeTIS-B see 9.1.1.1) on both junctions A and B at the same time and transparently retransmits the other time slots, in both directions from one junction to the next and vice versa. 8.2.2 FAULT ANALYSES AND DIAGNOSIS 8.2.2.1 Presentation We are going to study a network composed of:

A SWITCH A one BS SITE N 1 A one BS SITE N 2 The network architecture is shown below:

Here its operation is correct NeTIS MAINTENANCE GUIDE Version 1.1 74/139 8.2.2.2 NeTIS-B configuration Each NeTIS-B on the network must be configured to work on an it from the G703 link (see 9.1.1.1) 8.2.2.3 NeTIS-N configuration The SWITCH is configured via the network management terminal A double click on the SWITCH in monitoring mode displays the following window All the connected resources in the SWITCH are visible To find out the role of each of the COM3 or 4 boards, view the BS states To do this access the SYNOPSIS area of the network management terminal and double click on the BS NeTIS MAINTENANCE GUIDE Version 1.1 75/139 Click Double Click COM board location in the SWITCH in charge of direction A COM board location in the SWITCH in charge of direction B The COM3 and COM4 board locations in the SWITCH and it is used on the network are configured as follows:

Right click on the BS, and then click on Name TC TS and select the Communications link NeTIS MAINTENANCE GUIDE Version 1.1 76/139 NeTIS MAINTENANCE GUIDE Version 1.1 77/139 8.2.2.4 Fault N 1:

Link cut between the SWITCH and the BS for site 1 and the network is operational in the B direction. Network management terminal synopsis view NeTIS MAINTENANCE GUIDE Version 1.1 78/139 NeTIS MAINTENANCE GUIDE Version 1.1 79/139 Direct observation on the COM3 boards:

NeTIS MAINTENANCE GUIDE Version 1.1 80/139 Messages in the network management terminal history/tickets 8.2.2.5 Fault N2:

Link cut between the two radio sites Site 1 is connected to the Switch in direction A Site 2 is connected to the Switch in direction B Network management terminal synopsis view

NeTIS MAINTENANCE GUIDE Version 1.1 81/139

Direct observation on the COM3 boards:

#$%

NeTIS MAINTENANCE GUIDE Version 1.1 82/139 Messages in the network management terminal history/tickets 8.2.2.6 Fault N3 Link cut between the SWITCH and site 2 Both sites are connected to the Switch in direction A Network management terminal synopsis view

( NeTIS MAINTENANCE GUIDE Version 1.1 83/139

Direct observation on the COM3 boards

#$%

)

#$%

NeTIS MAINTENANCE GUIDE Version 1.1 84/139 Messages in the Network management terminal history/tickets 8.3 Ethernet link (IP) This chapter describes the different types of IP exchanges between the different BSs, Operator stations, Phone gateways, etc... for a TETRA IP network. 8.3.1 GENERAL PRESENTATION The general architecture of a TETRA network uses several elements:

Base stations communicating with mobiles and linked to the switch(es) One or more switches (that can be linked together) eventually interconnected to external networks (phone networks) One or more operator stations. Various applications (Recorder, phone gateways, etc ...) NeTIS MAINTENANCE GUIDE Version 1.1 85/139 B B IP SWITCH A SWITCH C IP B B IP B IP B SWITCH B PABX PSTN Others applicatif All the elements of the radio network are linked together through an IP network. The radio network clients (BS, Operator station, etc ...) have a minimum configuration, adding an element must not cause the reconfiguration of existing elements. NeTIS MAINTENANCE GUIDE Version 1.1 86/139 8.3.2 COMMUNICATIONS BETWEEN APPLIANCES NeTIS MAINTENANCE GUIDE Version 1.1 87/139 NeTIS MAINTENANCE GUIDE Version 1.1 88/139 8.3.3 CUSTOMERS 8.3.3.1 Phone applications Operator station These applications need to use signalling and phone.

(Operator stations, Phone gateways, etc.). UDP reception UDP reception Identification Signalisation TCP/IP links Customer to Customer Customer UDP UDP TCP highest priority SWITCH Reception of all switches present on the network and management of a dynamic switch table. Switch signalling channel reception with the highest priority for communications management. Link with the highest priority switch for communications management, it is the

"active" link. Phone UDP customer UDP broadcast Reception of transmission from the PHONE channel TCP customer to lower priority switch TCP/IP links Link with the lowest priority switch and connection with the highest priority switch that arrives on the network. IP NeTIS MAINTENANCE GUIDE Version 1.1 89/139 8.3.4 NETWORK SETTING 8.3.4.1 Role of the UDP Identification Server Each switch broadcasts an identification message on a UDP channel permanently (every 5 seconds). The UDP port number used for this broadcast is therefore part of the minimum information needed in the Clients (NeTIS-B, Operator Station etc...) wanting to connect to the radio network. This message makes it possible for the BSs to send information about themselves to the servers (NeTIS-N): CPU IP addresses, Switch N, SUP IP addresses Then the SWITCHES send the following information to the clients:

IP address and Port of the BS signalling server (see 9.3.4.4) IP address and Port of the BS Phone server (see 9.3.4.4) The port used to broadcast this message and the broadcasting address are set via the network management terminal and transmitted to the NeTIS-N by downloading. A file in the NeTIS-B is used to declare the identification port used by the NeTIS-N(s). 8.3.4.2 UDP identification server configuration The UDP identification server is in fact the NeTIS-N The server is configured from the network management terminal as shown below In NeTIS MAINTENANCE GUIDE Version 1.1 90/139 Select IGMP tab The broadcast of server information (NeTIS-N) to the clients (NeTIS-B) is carried out using a Broadcast address and is defined as shown below Select the "Configuration" tab NeTIS MAINTENANCE GUIDE Version 1.1 91/139 8.3.4.3 Port identification declaration on the NeTIS-B side A base station that wants to connect to the tetra network listens on its identification port in order to obtain the information from the different SWITCHES on the network with their priority level. To declare this port, a configuration file (Text) stored on the NeTIS-B must be read the path of which is /USR/BsLinux/nano CONFIGBS.CFG. Below the content of the CONFIGBS.CFG file shows that the identification port is "51114"

"Top of file

######### IP PARAMETERS PORT_IDENTIFICATION = 51114

[ Read 62 lines ]

^G Get Help ^O WriteOut ^R Read File ^Y Prev Page ^K Cut Text ^C Cur Pos

^X Exit ^J Justify ^W Where Is ^V Next Page ^U UnCut Txt ^T To Spell

"End of file IDENTIFICATION PORT N Commands to close the file for example:

CTRL X(^ X) 8.3.4.4 IP Network without using the identification port If the port is not filled in in the BS, then port "51114" is used as a default. It is not mandatory to use the identification port. If you know the SWITCH IP addresses

(CPU and SUPIP) and the signalling and phone ports that are used, then they can be added to the CONFIGBS.CFG file as shown below.

"Top of file

######### IP PARAMETERS IP_SWITCH = 192.168.1.100 PORT_SWITCH = 50020 IP_SUPIP = 192.168.1.3 PORT_SUPIP = 50021

[ Read 62 lines ]

^G Get Help ^O WriteOut ^R Read File ^Y Prev Page ^K Cut Text ^C Cur Pos

^X Exit ^J Justify ^W Where Is ^V Next Page ^U UnCut Txt ^T To Spell ACTIVE SW SUPIP+Phone port (9.3.4.5) ACTIVE SW CPU+signalling port NeTIS MAINTENANCE GUIDE Version 1.1 92/139

"End of file 8.3.4.5 Checking the IP configuration on the BS side Port used for maintenance

(Spy etc.) Bs connected to the switch BS Signalling port SWITCH CPU IP address Port used for maintenance

(Spy etc.) Once the Niveau2 software is running it is possible to activate different network management terminal using the ALT+Fx keys, without disturbing the current application Connect a screen and keyboard and press the "ALT F2" and "L" keys, the display below appears:

"start of display

* 0 client connected with server 4 on port 55555 , socket 16

*** NbClient=0 found=0

* Connected at server no 0 : 192.168.1.124 port=50400 with socket 14 (69s)

* Connected at server no 1 : 192.168.1.125 port=50401 with socket 15 (69s)

--> UDP Address UDP 0: 192.168.1.121 port : 50300 TX_ONLY socket=19

--> UDP Address UDP 3: 192.168.1.121 port : 50401 FULL_DUPLEX socket=12 BS Phone Port SWITCH CPU signalling port BS IP address BS IP address UDP Protocol UDP Protocol Bs connected to the switch Port open in TX and RX Port open in the TX Socket N Socket N SWITCH SUPIP IP BS Phone Port NeTIS MAINTENANCE GUIDE Version 1.1 93/139

--> UDP Address UDP 4: 192.168.1.121 port : 51111 FULL_DUPLEX socket=13

"end of display Default identification port BS IP address UDP Protocol Port open in TX and RX 8.3.4.6 Role and setting of the BS signalling and phone servers The role of the signalling server is to exchange the following information in TCP:

Base station operating parameters Communications management The role of the Phone server is to exchange the following information in TCP:

Phone in the communications The two ports are made known to the server (NeTIS-N) using a download of the equipment database from the network management terminal. Port configuration on the network management terminal side:

In NeTIS MAINTENANCE GUIDE Version 1.1 94/139 8.3.5 DECLARATION OF THE NETIS-B ADDRESSES ON THE TETRA CS SIDE The SWITCH has a view of all the BSs that are part of the network via their IP address configured as shown below. When a configuration request for a BS is received, the SWITCH can load its configuration using the BS IP address. This address is also used to route phone and network communications. In NeTIS MAINTENANCE GUIDE Version 1.1 95/139 IP-TCP: All Signalling and Phone exchanges use TCP/IP IP-UDP: All Signalling exchanges use TCP/IP All the Phone exchanges use UDP/IP NeTIS MAINTENANCE GUIDE Version 1.1 96/139 8.3.6 SWITCH SIGNALLING AND PHONE PORT These SWITCH CPU ports and addresses will be used by the DISPATCHING. The Operator Stations must know the CPU IP (Signalling) address and the associated Signalling Port. As well as the phone port used by the SUPIP board. The SUPIP IP address is not used by the operator stations because phone is broadcast directly onto the IP network (UDP protocol) whereas for signalling both the TCP and UDP protocols are used. The SWITCH is configured by a download from the equipment database from the network management terminal. 8.3.7 SECONDARY NETWORK MANAGEMENT TERMINAL 8.3.7.1 General A network always has a primary network management terminal connected using an RS232 link to the NeTIS-N. You can add secondary network management terminal connected using IP to the main network management terminal . The rights of the secondary network management terminal are limited to network monitoring and to the ticket history (Logging) and you cannot load configurations to the NeTIS-N from it. NeTIS MAINTENANCE GUIDE Version 1.1 97/139 NeTIS MAINTENANCE GUIDE Version 1.1 98/139 8.3.7.2 Secondary network management terminal installation Retrieve the TetraCs directory from the primary network management terminal and paste it under the C: root of the new PC. Create an application short cut add the word "secondary" as shown below:

and in the "Target" field of the tetraCs properties NeTIS MAINTENANCE GUIDE Version 1.1 99/139 Launch the application 8.3.7.3 Configuring the main network management terminal The main console is considered to be a server to which the secondary network management terminal will connect. To do this, just declare a port for exchanges between consoles. The server listens on the port defined below. NeTIS MAINTENANCE GUIDE Version 1.1 100/139

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8.3.7.4 Network management terminal configuration 8.4 Multi-site and multi network management terminal 8.4.1 PRESENTATION Our networks can have N independent sites interconnected using IP (Attention, here we are not talking about ISI protocol interconnection). Each site has its own SWITCH and the sites are linked together using IP. Each site has its own primary network management terminal connected using RS232 to the site SWITCH. The diagram representing this is shown below:

NeTIS MAINTENANCE GUIDE Version 1.1 101/139 Fig 1 SWITCHES have a priority n and the two SWITCHES are always active on the network. This priority level is broadcast over the identification channel (see 9.3.4.1). The highest priority SWITCH always manages the network. The others are secondary and backup. The interest is that if the link between the two sites is cut, both sites will operate independently. This architecture also allows for a remote refresh of the technical and administrative databases on each site using a basic download. Example: We modify the SWA-CSA site, we can either refresh the CSB or update the CSB-

SWB set. 8.4.2 NETWORK SETTING We are going to parameter the network shown in Fig1. The network management terminal synopsis will be the same whatever the site. Below is shown the synopsis for network management terminal NeTIS MAINTENANCE GUIDE Version 1.1 102/139 8.4.2.1 Sites configuration Below SWITCH A is parametered In conf/param right click,Name tc ts NeTIS MAINTENANCE GUIDE Version 1.1 103/139 Below SWITCH B is parametered In Conf/param right click,Nom tc ts NeTIS MAINTENANCE GUIDE Version 1.1 104/139 8.4.2.2 Starting up the different network management terminal Each network management terminal is started up depending on the connection site N (see previous chapter). The target of the Tetracs short cut properties must be modified for each site (See below). NeTIS MAINTENANCE GUIDE Version 1.1 105/139 NeTIS MAINTENANCE GUIDE Version 1.1 106/139 9. CPUBDT SOFTWARE AUTHENTICATION

(Level 2) 9.1 The authentication network management terminal The authentication network management terminal is software the purpose of which is to authenticate equipment manufactured by Etelm using different means of communication. Without this authentication the equipment cannot operate correctly. It consists in the retrieval of an encrypted key by the network management terminal software and its transmission to the equipment on order to unblock it. There are two authentication methods which are: automatic and manual. One uses internet and is automatic, the other involves calling Etelm and manually entering the encryption key. Once the software key is in the software network management terminal, it must be sent to the equipment to be identified either via a network cable or by a crossed serial cable. NeTIS MAINTENANCE GUIDE Version 1.1 107/139 9.2 Use The Etelm equipment authentication is needed in several situations:

New equipment Expired validity date Major upgrade The authentication procedure only concerns the equipment below. NeTIS MAINTENANCE GUIDE Version 1.1 108/139 9.3 Integration 9.3.1 EQUIPMENT The software is installed on any PC, preferably a laptop, so that it can be used close to the equipment to be authenticated (especially if a direct connection is to be made). The PC must have either a serial port or a network port (which is true for the majority of PCs, even older ones, see images) or, of course, both. Physical locations of the network and serial ports 9.3.2 SOFTWARE The authentication network management terminal software is compatible Windows 2000, XP, Vista and 7. It can be installed in any directory. It contains an executable (which must be authorised to dialogue on the network by the firewall) and a mandatory library file. NeTIS MAINTENANCE GUIDE Version 1.1 109/139 9.4 Presentation 9.4.1 WHY AUTHENTICATED?

The authentication of Etelm equipment is used to protect them from any unauthorised product copy. The referencing makes it possible to better control the distributed software especially with regards to quantities, versions, validity periods, sites... which brings special help for maintenance. To do this each appliance and software must be recognised and identified before operation becomes possible. 9.4.2 WHAT IS AUTHENTICATED?

Authentication only applies to base stations. Only recent versions are concerned. 9.4.3 WHEN TO AUTHENTICATE?

As explained above, authentication is needed for all new equipment, in order to renew a key or to carry out a major upgrade. 9.4.4 NEW EQUIPMENT Equipment can be delivered authenticated or not depending on the case. If an Etelm appliance has never operated and never been referenced it must be authenticated and unblocked in order to be fully and correctly operational. To do this the appliance must be installed in its environment and configured. Next the procedure should be launched using the authentication network management terminal using the correct settings. 9.4.5 VALIDITY PERIOD Etelm An installed Etelm appliance which is operational and referenced has an associated validity date key. When the date expires the equipment is blocked. The equipment must be re-

authenticated in order to be used again. To do this, run the procedure as if new equipment were being installed after having contacted Etelm to extend the expiry date. 9.4.6 UPGRADE When an upgrade is available its installation invalidates the authentication. A procedure must therefore be launched from the authentication network management terminal in order to unblock the equipment again (after the upgrade). NeTIS MAINTENANCE GUIDE Version 1.1 110/139 9.5 How to authenticate?

9.5.1 AUTHENTICATION BY PHONE TCP/IP or RS232 Technical Phoning Software authentication console Architecture of phone authentication As can be seen here, the authentication will be carried out by a technician in the authentication centre or at the customer site who, in exchange for a first software number supplied by the equipment to be authenticated, will receive a new number depending on the unblocking authorisation managed by Etelm. Compared to Internet authentication the procedure is exactly the same except that the serial number is supplied orally and not via internet. This liberates from network and router issues. Equipment 9.5.2 INTERNET AUTHENTICATION TCP/IP, WiFi, Logiciel console dauthentification TCP/IP or RS232 Web Equipment Technical Internet authentication architecture NeTIS MAINTENANCE GUIDE Version 1.1 111/139 As above, authentication is carried out by a technician from the authentication centre or the customer who will use another menu on the authentication network management terminal. It must be connected to Internet and the equipment at the same time. If this is not possible the new software key can be retrieved directly from the Internet and the equipment authenticated using the technique described in the previous paragraph. 9.6 Handling 9.6.1 GENERAL 9.6.1.1 Introduction The authentication network management terminal is used to authenticate via internet i.e. to reference and unblock equipment manufactured by Etelm. After having entered the parameters, either the network management terminal connects to the authentication centre and downloads a new key to replace the old one, or the new key is entered manually after having been exchanged for the old key by phone. The network management terminal then sends the key to the equipment via the network or the RS232 port (serial) depending on the user's choice. 9.6.1.2 Procedure When the network management terminal is launched the following window appears. A menu gives access to a few settings such as the language, help or the choice of the authentication technique. Clicking on the image either launches automatic authentication (the globe) or manual authentication (the telephone). Automatic or manual authentication choice menu Whatever the previous selection, the following window is displayed (except for what is outlined in red which only appears for automatic authentication):

NeTIS MAINTENANCE GUIDE Version 1.1 112/139 Menu to select the communications protocol between the network management terminal and equipment. The media used to communicate with the new equipment must be selected. The choice is made by clicking on the image and validating using OK. Cancel returns to the previous menu. Next, depending on the automatic or manual authentication choice, a different window appears. The "no connection to the equipment" menu specific to automatic authentication is used to retrieve a new key via internet in exchange for the old key without necessarily being connected to the equipment. The procedure is divided into several steps. 9.7 Manual authentication (by phone) 9.7.1.1 Network connection to the equipment This software will therefore make it possible to authenticate equipment by phoning Etelm (or downloading a key via internet). First the parameters must be configured. To do this, enter the equipment IP address (which should belong to the same sub-network as the authentication network management terminal if using a switch or a router...) and the communications port. NeTIS MAINTENANCE GUIDE Version 1.1 113/139 To finish click on the "connect" button and the network management terminal attempts to retrieve the key. A small window shows the status of events (connection, disconnection and error). The diagram shows a network management terminal and a BS connected by a cable. The cable is green when connected and red otherwise. In the following case the connection succeeded (in the window and the cable is green) and the old key is shown in the "previous key" field. Typically the authentication network management terminal waits for the new key in order to send it to the equipment. In the progress window (at the bottom) there are several items that can be very useful. The type of software that can be used to make sure there is no error, the version is used to know if the software is up to date and finally if the equipment is already authenticated. In the example below a TETRA version 2.0j switch has already been authenticated. Manual authentication menu using a network cable NeTIS MAINTENANCE GUIDE Version 1.1 114/139 In the following case the connection attempt has failed because the equipment has not responded at address 192.168.1.253:

Connection failed Once the old software key has been obtained either:

Communicate it (with the corresponding customer identifiers) by phone to the authentication centre (Etelm) which will supply a new key corresponding to the customer's remaining credit. Or send it via the automatic authentication menu without connecting to the equipment

(with the supplied customer identifiers). NeTIS MAINTENANCE GUIDE Version 1.1 115/139 Enter the new key NeTIS MAINTENANCE GUIDE Version 1.1 116/139 Confirm success Once the new key is entered (red circle figure 8), validate, and the network management terminal automatically disconnects. To check its success just test the equipment functions, look at the programme return in the window (red circle figure 9) or check the 'ACT' LED on the equipment. The LED should flash slowly (frequency of 2 or 4 seconds). NeTIS MAINTENANCE GUIDE Version 1.1 117/139 9.7.2 SERIAL EQUIPMENT CONNECTION The use of a serial cable instead of a network cable does not change the procedure, it is strictly identical. Parameter configuration changes only. Manual authentication using a serial cable As a parameter there is the communication speed and port number to be defined. It is preferable to leave the default configuration. If the connection fails it is possible to try again using another communications port. NeTIS MAINTENANCE GUIDE Version 1.1 118/139 9.8 Automatic authentication (via Internet) 9.8.1 NETWORK CONNECTION TO THE EQUIPMENT The software will make it possible to authenticate equipment automatically via internet. First the parameters must be configured. To do this enter the IP address on the authentication centre and the communications port (choose any one that your firewall authorises). If a router is used it must be configured to accept the TCP protocol on the appropriate port. Next the connection to the equipment should be configured. To do this, enter the equipment IP address (which should belong to the same sub-network as the authentication network management terminal if using a switch or a router...) and the communications port. To finish enter the login and password supplied with the equipment and click on the "OK"

button. The network management terminal connects to the centre and retrieves a valid key (if the customer credit is sufficient) and sends it to the equipment. Automatic authentication using a network cable At the end of the operation the network management terminal disconnects from the centre and the equipment should be tested to see whether the authentication was successful. 9.8.2 MULTIPLE AUTHENTICATIONS (IP NETWORK) It is possible to authenticate several appliances one after the other automatically without changing the configuration each time. To do this all the equipment must be on the same IP network and the network management terminal must have internet access. NeTIS MAINTENANCE GUIDE Version 1.1 119/139 To begin with, create a text file (for example right click on the desktop, new menu, text file) containing all the IP addresses of the equipment to be authenticated as follows:

IP address entry The IP addresses must be entered correctly and separated by carriage returns. The file is saved and closed. NeTIS MAINTENANCE GUIDE Version 1.1 120/139 Multiple authentications by IP network To authenticate several appliances connected to the same network, first check the

"authenticate several appliances on the same network" box (surrounded in red, N1), next click on the button showing a file in the window that has appeared (surrounded in red N 2), select the text file containing the IP addresses (in red N3) and finally click on the open button (in red N 4). The addresses appear in the "IP addresses of equipment to authenticate" window as shown below. If an address is not shown, it is because it is not correct. NeTIS MAINTENANCE GUIDE Version 1.1 121/139 Validate click on the OK button. Finally, to launch the procedure, carry on as if authenticating a single appliance. The procedure is exactly the same. IP address validation 9.8.3 SERIAL EQUIPMENT CONNECTION The use of a serial cable instead of a network cable does not change the procedure, it is strictly identical. The parameter configuration changes only. NeTIS MAINTENANCE GUIDE Version 1.1 122/139 Automatic authentication using a serial cable As for manual authentication, here the communications speed is set and the same steps as above are carried out. Multiple authentications are not possible because it would need a serial cable connection to all the BSs at the same time. NeTIS MAINTENANCE GUIDE Version 1.1 123/139 9.8.4 NO CONNECTION TO THE EQUIPMENT It is possible to authenticate equipment via Internet without being directly connected to them. In this case start by retrieving the old key using the method in the previous paragraph (see 4.2), send it via internet as explained below, then retrieve the new key and send it to the equipment using the previous method again. Automatic authentication without connecting to the equipment First enter the old key, enter the identifiers that were supplied and click on OK. The new key will appear. It must then be sent to the equipment. 9.8.5 DIAGNOSING AN AUTHENTICATION PROBLEM ON A NETIS-B Using the TETRA network management terminal you can see whether a BS is authenticated NeTIS MAINTENANCE GUIDE Version 1.1 124/139 In the monitoring you will see a red cross appear on the green background of the icon as shown below if the NeTIS-B has not been authenticated:

NeTIS MAINTENANCE GUIDE Version 1.1 125/139 10. PABX GATEWAY 10.1 Introduction The TETRA IP Gateway for PBX (phone switchboard) is used to open up a classic phone installation to the TETRA IP radio world. NeTIS MAINTENANCE GUIDE Version 1.1 126/139 B B IP SWITCH A IP B IP B SWITCH B GATEWAY IP TETRA Link T2, T0, S0, This gateway is used to interconnect a phone link to any location of an ETELM IP TETRA network having the TETRA UDP phone and signalling from the different TETRA SWITCHES. This IP / PABX Gateway, in the case of a "full IP" TETRA network with several switches each having phone access, makes it possible to route phone calls from anywhere on the network to the TETRA SWITCH managing the network at time t, without using external inter PABX links. And on the opposite, for a radio call to a phone, the TETRA SWITCH routes the call to the IP Gateway corresponding to the phone call. Communications from phone sets connected to the PABX are sampled, converted to binary data using MIC decoding (modulation by impulse coding), then encapsulated in IP packets by the TETRA IP Gateway for PABX. On the other hand, radio calls are sent to the TETRA IP Gateway for PABX which routes them to the PABX and, when the connection is made transforms the TETRA UDP IP phone blocks onto the MIC blocks needed for the phone link. NeTIS MAINTENANCE GUIDE Version 1.1 127/139 10.2 Equipment This TETRA_IP for PABX Gateway is composed of:

A BS chassis to access the UPlane and CPlane bus managing phoning and TETRA signalling from the CPU board A 220V or 48V power supply board A CPU board (need to have an 8k equipment signal) A BDT board (Time base) A COM2 or COM3 board configured with the T2 software (Version 2.05/) or a COMS board for an S0 or T0 access 10.3 Led signification Led 5V led for the CPU board:

On if 5V power supply is present on the CPU board Off if the 5V power supply is absent from the CPU board ACT led for the CPU board:

Very fast flashing if the IP PABX gateway has not received a configuration from the Switch CPU board. Slow flashing (once per second) if the IP PABX Gateway is configured INT led for the CPU board:

On if the 125 s interruption is supplied by the BDT board to the CPU board Off if the 125 s interruption is absent ACT/MCCH led for the CPU board:

On if the IP PABX Gateway is connected to the switch (TCP connection) Off if the IP PABX Gateway is not connected to the switch Add COM and BDT boards NeTIS MAINTENANCE GUIDE Version 1.1 128/139 10.4 Configuration 10.4.1 CONFIGURATION TO THE IP PABX GATEWAY Parameter the Gateway IP address (by modifying the file /etc/interfaces) 10.4.2 CONFIGURATION OF THE SERVICE NETWORK MANAGEMENT TERMINAL Creation of phone appliance with the IP address of the appliance and its number as the link. In the dialling plan, indicate the PABX type for the number range corresponding to the gateway followed by the corresponding equipment number. NeTIS MAINTENANCE GUIDE Version 1.1 129/139 11. MODULE DESCRIPTION 11.1 Power supply board:

NeTIS MAINTENANCE GUIDE Version 1.1 130/139 11.2 CPU-BDT board NeTIS MAINTENANCE GUIDE Version 1.1 131/139 11.3 CCT2 board NeTIS MAINTENANCE GUIDE Version 1.1 132/139 11.4 COM board NeTIS MAINTENANCE GUIDE Version 1.1 133/139 11.5 COM3 board NeTIS MAINTENANCE GUIDE Version 1.1 134/139 11.6 DCTR board NeTIS MAINTENANCE GUIDE Version 1.1 135/139 11.7 SUPIP board NeTIS MAINTENANCE GUIDE Version 1.1 136/139 11.8 UCM board NeTIS MAINTENANCE GUIDE Version 1.1 137/139 11.9 UCM2 board NeTIS MAINTENANCE GUIDE Version 1.1 138/139 11.10 Power amplifier (PA) This module amplifiers the RF signals sent by the CPU module in order to deliver 10 Watts RF. It is powered by +28 volts and can be checked on the front face of the UCM2. The PA alarms are present on the front face of the UCM2. The PA provides a set point for the regulation of its output power. The amplifier has an internal blocking mechanism if it does not receive the transmission command from the UCM. No measurements can be made if the BS is not in TETRA transmission. The module has an integrated circulator which protects it from accidental load disconnections and considerably minimises the risks of intermodulation with neighbouring transmitters. NeTIS MAINTENANCE GUIDE Version 1.1 139/139 NeTIS MAINTENANCE GUIDE Version 1.1 140/140

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CAUTION This product is restricted for occupational use and is not intended or authorised for use by the general population. It is the responsibility of the person operating the product to ensure that it is operated safely at all times, and that local laws and regulations governing the usage of Radio Frequency (RF) products are observed. Users must be trained to operate this product safely. Their personal safety could be affected if they do not understand how to operate this product correctly. Radio Frequency informations This product must be restricted to operations in an Occupational/Controlled RF exposure Environments. Users should be informed of the potential health risks associated with long term exposure to RF energy by their employer. Radio Frequency (RF) is a frequency of electromagnetic radiation in the range at which radio signals are transmitted. RF technology is widely used in communication, medicine, food processing and other fields. It may generate radiation during use. In order to ensure user health, experts from relevant industries including science, engineering, medicine and health work with international organizations to develop standards for safe exposure to RF radiation. Any transmission from this unit must be with a frequency allocated by local regulator. A carefull check must be provided before connecting an antenna to the unit. Servicing and accessories Only accessories approved by Etelm are recommended for use with this product. Always read the instructions supplied with the accessory for additional safety instructions. Unauthorised modifications to the product could cause the product to become non-operational and void any product warranty. The use of non-approved accessories may invalidate any product warranty and may compromise the product safety ratings Do not attempt to dismantle this product. Servicing and repairs of the product must be done by trained service technicians at Etelm. FCC Regulations Federal Communication Commission (FCC) requires that all radio communication products should meet the requirements set forth in the above standards before they can be marketed in the U.S, and the manufacturer shall post a RF label on the product to inform users of operational instructions, so as to enhance their occupational health against exposure to RF energy This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:

(1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. FCC Radiation Exposure Statement:

This equipment complies with FCC radiation exposure limits set forth for a controlled environment. The antenna should be installed and operated with minimum distance 1.0m from human body. This transmitter must not be colocated or operating in conjunction with any other antenna or transmitter. Safety Information Page 1 / 2 CAUTION IC Warning This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Installation and Operation Guide Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. The term IC: before the certification/registration numbers only signifies that the Industry Canada technical specifications were met. Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication. Le terme IC: plac avant les numros de certificat/enregistrement signifient que conformment la rglementation d'Industrie Canada. Le prsent metteur radio peut fonctionner avec une antenne d'un type et d'un gain maximal (ou infrieur) approuv pour l'metteur par Industrie Canada. Dans le but de rduire les risques de brouillage radiolectrique l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotrope rayonne quivalente (p.i.r.e.) ne dpasse pas l'intensit ncessaire l'tablissement d'une communication satisfaisante. This equipment complies with IC RF radiation exposure limits set forth for an controlled environment. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. The antenna should be installed and operated with minimum distance 1.0m from human body. Le prsent appareil est conforme aux normes dIC concernant les limites dexposition aux rayonnements RF tablies pour un environnement contrl. Cet metteur ne doit pas tre co-localis ou oprant en conjonction avec toutes autres antennes ou metteurs. L'antenne doit tre installe et utilise avec un minimum de 1,0 m de distance dun corps humain. Environmental Protection Electrical products should not be disposed of with household waste. Please recycle where facilities exist. Check with your Local Authority or retailer for recycling advice. By ensuring that this product and its packaging is disposed of correctly, you will help prevent potentially negative consequences for the environment and human health, and help conserve natural resources. EU Regulatory Conformance Etelm declares that the product is in compliance with the essential requirements and other relevant provisions of the Directive 1999/5/ EC. Please note that the above information is applicable to EU countries only. Safety Information Page 2 / 2

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External Photo P1010223

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Label and Position 460.025-464.025MHz

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75932976 Report 04 Issue 1

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		frequency	equipment class	purpose
1	2016-05-31	460.025 ~ 464.025	TNB - Licensed Non-Broadcast Station Transmitter	Original Equipment

Application Forms

app s	Applicant Information
1	Effective	2016-05-31
1	Applicant's complete, legal business name	Electronique Telematique ETELM Canada Inc
1	FCC Registration Number (FRN)	0024845661
1	Physical Address	1030 Cherrier
1		Montreal, Quebec, H2L 1H7
1		Canada

app s	TCB Information
1	TCB Application Email Address	a******@babt.com
1	TCB Scope	B2: General Mobile Radio And Broadcast Services equipment in the following 47 CFR Parts 22 (non-cellular) 73, 74, 90, 95, 97, & 101 (all below 3 GHz)

app s	FCC ID
1	Grantee Code	2AF3I
1	Equipment Product Code	BSTETRA460

app s	Person at the applicant's address to receive grant or for contact
1	Name	S** B****
1	Title	General Manager
1	Telephone Number	514 8********
1	Fax Number	514 5********
1	E-mail	s******@etelm.net

app s	Technical Contact
		n/a

app s	Non Technical Contact
		n/a

app s	Confidentiality (long or short term)
1	Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	Yes
1	Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	No
	if no date is supplied, the release date will be set to 45 calendar days past the date of grant.

app s	Cognitive Radio & Software Defined Radio, Class, etc
1	Is this application for software defined/cognitive radio authorization?	No
1	Equipment Class	TNB - Licensed Non-Broadcast Station Transmitter
1	Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant)	Tetra Base Station
1	Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application?	No
1	Modular Equipment Type	Does not apply
1	Purpose / Application is for	Original Equipment
1	Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization?	No
1	Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization?	No
1	Grant Comments	Power is conducted RF exposure assessment will be conducted at time of licensing.
1	Is there an equipment authorization waiver associated with this application?	No
1	If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded?	No

app s	Test Firm Name and Contact Information
1	Firm Name	TUV SUD Product Service
1	Name	M****** J****
1	Telephone Number	00-44********
1	Fax Number	00-44********
1	E-mail	m******@tuv-sud.co.uk

Equipment Specifications
	Line	Rule Parts	Grant Notes	Lower Frequency	Upper Frequency	Power Output	Tolerance	Emission Designator	Microprocessor Number
1	1	90		460.02500000	464.02500000	25.0000000	2.5000000000 ppm	22K0DXW

some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details