Leidos NORMARC7013 7013 Dual Frequency Localizer User Manual General Description 7011
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Normarc 7013 ILS General Description
NORMARC 7013 INSTRUMENT LANDING SYSTEM GENERAL DESCRIPTION ©1999 Navia Aviation AS ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM TABLE OF CONTENTS DESCRIPTION OF NORMARC 7013 2-FREQUENCY LOCALIZER SYSTEM.1 1 GENERAL DESCRIPTION ..............................................................................1 1.1 Technical Specifications..................................................................................... 1 1.1.1 Signal Minimum Performance LLZ .............................................................. 1 1.1.2 Environmental Characteristics ..................................................................... 2 1.1.3 EMC Characteristics .................................................................................... 2 1.1.4 Mechanical Characteristics .......................................................................... 2 1.1.5 Power Supply............................................................................................... 3 1.2 General Information............................................................................................ 3 1.2.1 Introduction ................................................................................................. 3 1.2.2 Product Type Numbers................................................................................ 6 1.2.3 Abbreviations ............................................................................................... 6 2 PHYSICAL ORGANIZATION...........................................................................8 2.1 Module and Assembly Location ......................................................................... 8 2.2 Power Supply ..................................................................................................... 8 3 SYSTEM DESCRIPTION.................................................................................12 3.1 Overview ............................................................................................................ 12 3.2 Physical Description ........................................................................................... 12 3.3 Monitors.............................................................................................................. 13 3.4 Transmitters / Modulators................................................................................... 13 3.5 TX Control .......................................................................................................... 13 3.6 Remote Monitoring (RMS) Unit .......................................................................... 14 3.7 Remote Control Unit........................................................................................... 14 3.8 Remote Slave Panel........................................................................................... 14 3.9 Remote Maintenance Monitoring (RMM) ........................................................... 14 3.9.1 RMM Access................................................................................................ 16 3.9.2 Local Keyboard/Display Functions .............................................................. 16 3.9.3 Diagnostic functions..................................................................................... 17 4 ELECTRICAL INSTALLATION ........................................................................18 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 4.10 4.11 4.12 4.13 4.14 Connection Overview ......................................................................................... 18 Power and Battery.............................................................................................. 18 RF Inputs............................................................................................................ 20 RF Outputs ......................................................................................................... 20 DC Loop ............................................................................................................. 21 Remote Control .................................................................................................. 22 PC and Modem .................................................................................................. 23 DME ................................................................................................................... 24 Analog Inputs ..................................................................................................... 25 Digital Inputs and Outputs .................................................................................. 26 Battery Warning.................................................................................................. 27 Remote control connections............................................................................... 28 Remote slave connection ................................................................................... 30 Interlock switch connection ................................................................................ 31 ©1999 Navia Aviation AS Table of contents iii GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM Table of contents iv ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM LIST OF FIGURES Figure1-1 Figure1-2 Figure1-3 Figure1-4 Figure2-1 Figure2-2 Figure2-3 Figure3-1 Figure3-2 Figure3-3 Figure4-1 Figure4-2 Figure4-3 Figure4-4 Figure4-5 Figure4-6 Figure4-7 Figure4-8 Figure4-9 Figure4-10 Figure4-11 Figure4-12 Figure4-13 Figure4-14 Figure4-15 Typical ILS installation .......................................................................... 3 Localizer block diagram ........................................................................ 4 Localizer Antenna ................................................................................. 5 Localizer Cabinet Installation ............................................................... 5 NM 7013 Module Location - Front view. ............................................... 9 NM 7013 Module Location - Rear view of main section. ...................... 10 NM 7013 Module Location - Front view of wall-mounted section ......... 11 ILS block diagram. ................................................................................ 12 The NM 7000 series RMM/RMS systems. ........................................... 15 Local Control Panel .............................................................................. 17 ILS main cabinet connection overview. ................................................ 18 Power and backup battery connections. .............................................. 19 RF input connections. ........................................................................... 20 RF output connections. ........................................................................ 20 DC loop connections. ........................................................................... 21 Remote control connection. .................................................................. 22 PC and modem connections. ............................................................... 23 DME connections. ................................................................................ 24 Analog input connections. .................................................................... 25 Digital input/output connections. .......................................................... 26 Battery warning connections. ............................................................... 27 Remote control to ILS connection ........................................................ 28 Remote control power supply connections ........................................... 29 Remote slave connection ..................................................................... 30 Interlock switch connection .................................................................. 31 ©1999 Navia Aviation AS List of Figures GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM List of Figures vi ©1999 Navia Aviation AS NORMARC 7013 OPERATING MANUAL INSTRUMENT LANDING SYSTEM LIST OF TABLES ©1999 Navia Aviation AS 21446-3.4 List of tables vii OPERATING MANUAL NORMARC 7013 INSTRUMENT LANDING SYSTEM List of tables viii 21446-3.4 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM DESCRIPTION OF NORMARC 7013 2-FREQUENCY LOCALIZER SYSTEM General Description 1.1 Technical Specifications NM 7013 Dual-Frequency Localizer Cabinet. 1.1.1 Signal Minimum Performance LLZ Transmitter Frequency range Frequency tolerance Output power (CSB) Harmonic radiation RF difference frequency (2-freq. only) Spurious Output power stability CSB/SBO stability Modulator Modulation depth 90/150 Hz adjustable range SDM stability DDM stability Frequency tolerance Total harmonic dist. (90/150 Hz) Phase locking (90 Hz to 150 Hz) SBO phaser adjustment range 20% 10-25% + 0.3% SDM + 0.1% DDM + 0.05 Hz 1% maximum 5° maximum ref 150 Hz + 10° Identity Keyer Modulation frequency Modulation depth Distortion Speed of identification 1020 Hz + 10 Hz 5-15% adjustable 6% Maximum 7 Words/Min. approx. Monitoring Alarm Functions RF power reduction Change of nominal CL Change of nominal DS from nominal value Change of nominal CLR (2-freq only) Change of nominal NF Change of nominal SDM Difference frequency (2-freq. only) Total period of radiation out of tolerance ©1999 Navia Aviation AS 108-112 MHz + 0.002% 5-15 W adjustable 2.5 uW maximum 10 kHz + 2 kHz 25 uW maximum + 0.2 dB + 0.3 dB / +-5° Range (*) 1-5 dB + 4-25 uA + 10-50 uA + 10-60 uA + 4-25 uA + 2-6% SDM + 2-5 kHz 1-10 sec. GENERAL DESCRIPTION 1-1 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM Additional NF time delay Line break, ILS - Remote Control (disable optional) Identification lost or continuous (optional) Monitor input levels: Adjustment range, nominal level AGC range for less than 1% change in SDM Monitor stability at nominal levels: RF power values DDM values SDM values Warning Functions: RF power reduction Change of nominal CL Change of nominal DS Change of nominal CLR Change of nominal NF Change of SDM Difference frequency Mains failure Remote Control Data Transmission Medium Data modulation Transmitter level Receiver dynamic range 0-20 sec. -5 to –34 dBm 5 dB + 0,2 dB + 1 uA + 0,5% SDM 40-75% of Alarm limit 40-75% of Alarm limit 40-75% of Alarm limit 40-75% of Alarm limit 40-75% of Alarm limit 40-75% of Alarm limit 40-75% of Alarm limit 2-wire line, 600 ohm serial, FSK -10dBm + 2 dB -10dBm to -34dBm * asymmetrical limits are possible. 1.1.2 Environmental Characteristics Operating temperature Storage temperature 1.1.3 EMC Characteristics EMR: Spurious and harmonics: 1.1.4 EN 55022 class B CISPR 22 Mechanical Characteristics Dimensions: (H x W x D) ILS Rack: Remote control: Slave panels: 1020x600x500 mm 129x71x170 mm 129x41x170 mm Weight: 85 kg – 95 kg depending on model GENERAL DESCRIPTION 1-2 -10 to +55 °C -30 to +60 °C ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM The ILS rack is wall mounted. The remote control and slave panels fit a standard 3U (132mm) high 19" subrack. 1.1.5 Power Supply External supply: Input voltage: 230V +15%/-20%,45-65 Hz or120V +15%/-20%, 45-65 Hz 27,6V 20A max Output voltage: Output current: ILS cabinet Input voltage Current consumption: Stand-by Battery 1.2 22-28V DC 8A – 14A depending on configuration 24V DC nominal, 85 Ah-110Ah valve regulated lead-acid battery recommended General Information This paragraph gives a description of a typical ILS installation and the Normarc Localizer system. Conventions and abbreviations used in this manual are also given. 1.2.1 Introduction This is an overview of Normarc's NM701X ILS localizer systems 1.2.1.1 ILS Overview A complete Instrument Landing System comprises: • A LOCALIZER SYSTEM, producing a radio course to furnish lateral guidance to the airport runway. • A GLIDE PATH SYSTEM, producing a radio course to furnish vertical guidance down the correct descent angle to the runway. • MARKER BEACONS, to provide accurate radio fixes along the approach course. The layout of a typical ILS airport installation is shown below. Glide Path 330 MHz Marker Beacon 75MHz Localizer 110 MHz 3° HBK547-1 Figure1-1 Typical ILS installation ©1999 Navia Aviation AS GENERAL DESCRIPTION 1-3 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM 1.2.1.2 Localizer Overview The complete ILS Localizer system comprises: • A LLZ transmitter/monitor cabinet • An antenna distribution network • A monitor network • A LLZ antenna array • Near-field monitor antenna A block diagram is shown below: LOCALIZER ANTENNA ARRAY ILS LOCALIZER TRANSMITTER TRANSMITTER AND MODULATOR I and II SBO CL CSB CLR* ANTENNA DISTRIBUTION NETW. SBO CLR* ILS Localizer REMOTE CONTROL UNIT CSB CL MONITOR I and II CL MONITOR CLR* DS RUNWAY CL. NETWORK NF SLAVE PANEL 24V RMM SYSTEM BATTERY MONITOR OUTPUT PROBE POWER SUPPLY * CLR SIGNALS N/A on single-frequency equipment MAINS INPUT 220V/110V AC HBK204-1 Figure1-2 Localizer block diagram GENERAL DESCRIPTION 1-4 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM Figure1-3 Localizer Antenna Figure1-4 Localizer Cabinet Installation ©1999 Navia Aviation AS GENERAL DESCRIPTION 1-5 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM 1.2.1.3 Localizer Description The antenna array of the ILS localizer transmitter is located on the extension of the centerline of the instrument runway of an airfield, but is located far enough from the stop end of the runway to prevent it being a collision hazard. The localizer antenna radiates a field pattern directed along the centerline of the runway towards the middle and outer markers. The antenna also furnish information outside the front course area in the form of full fly-left or full fly-right indications (CLEARANCE). All localizer installations transmit a STATION IDENTIFICATION in morse code at periodic intervals. This is a 1020 Hz tone that is keyed to form the basic station identifier. The localizer is designed to provide a signal at a minimum distance of 25 miles within +/- 10 degrees, and at a minimum distance of 17 nautical miles between +/- 10 and +/- 35 degrees from the front course line. (Refer to ICAO Annex 10 Chapter 3.1.3.3.1) 1.2.2 Product Type Numbers The Normarc product numbering system is based on the following three levels: • System • Assembly • Module Systems have type numbers starting with NM, for example NM 7033. Systems consist of assemblies, modules and parts. Assemblies have type numbers consisting of three letters, a three- or four- digit number and a letter, for example LPA 1230A. LPA is an abbreviation of Localizer Power amplifier Assembly, 1230 is a running number, and the last letter is the variant designator. Assemblies can consist of assemblies, modules and parts. Modules have type numbers consisting of two letters, a three- or four- digit number and a letter, for example FD 1235A. FD is an abbreviation of Feedback Detector, 1235 is a running number, and the last letter is the variant designator. Modules consist of parts. ocalizer Cabinet External Label 1.2.3 Abbreviations GENERAL DESCRIPTION 1-6 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM AC ADC AGC CL CLR COU CPU CS DAC DC DDM DF DL DS DSP EEPROM EMC EMI EPROM FFT FIFO FPGA GPA I/F I²C IIC ILS LED LF LLZ LPA LRU MCU NAV NF PC RAM RF RMM RMS ROM RTC SC SDM SPA SRAM STB SW TRM TX Alternating Current Analog to Digital Converter Automatic Gain Control Course Line Clearance Course Central Processing Unit Course Sector Digital to Analog Converter Direct Current Difference in Depth of Modulation Difference Frequency Dc Loop Displacement Sensitivity Digital Signal Processor Electrically Erasable Progammable Read Only Memory ElectroMagnetic Compatibility ElectroMagnetic Interference Erasable Programmable Read Only Memory Fast Fourier Transform First-In-First-Out Field Programmable Gate Array Glidepath Power amplifier Assembly InterFace Inter Integrated Circuit Same as I²C Instrument Landing System Light Emitting Diode Low Frequency Localizer Localizer Power amplifier Assembly Line Replacable Unit Monitor Combiner Unit NAVigation signals Near Field Personal Computer Random Access Memory Radio Frequency Remote Maintenance Monitor Remote Monitoring System Read Only Memory Real Time Clock Station Control Sum in Depth of Modulation Same Parameter Alarm Static Random Access Memory Standby SoftWare TeRMinator Transmitter ©1999 Navia Aviation AS GENERAL DESCRIPTION 1-7 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM Physical Organization 2.1 Module and Assembly Location The figures on the following pages show the locations of the modules in the main cabinet. Figure 2-1 shows the main section of the LLZ cabinet from a front view, with indications of the plug-in board locations. Figure 2-2 shows the same section from a rear view, while Figure 2-3 shows the top half of the wall-mounted section. In addition, the Remote Control Assembly RCA1240C/D and Remote Slave SF 1344A are installed in the technical control room and the control tower, respectively. 2.2 Power Supply An External Power Supply, operating at 230V/120V mains input and providing 27V at 20A, is normally supplied with the equipment. In special cases, a second external power supply is supplied. PHYSICAL ORGANIZATION 2-8 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM PS 1227A OS1221A MF 1211A LF 1223A TCA 1218A MO 1212A RMA 1215A COA 1207B LPA 1230 HBK537-1 Figure2-1 NM 7013 Module Location - Front view. ©1999 Navia Aviation AS PHYSICAL ORGANIZATION 2-9 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM MB 1203 TX2 CLR TX1 CLR TX2 CL TX1 CL COA 1207B SBO 1 SBO 2 SBO SBO CSB CSB IN IN OUT DUMMY OUT DUMMY SBO 1 SBO 2 SBO SBO CSB CSB IN IN OUT DUMMY OUT DUMMY VIEW A-A HBK542-1 Figure2-2 NM 7013 Module Location - Rear view of main section. PHYSICAL ORGANIZATION 2-10 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM Terminal block for power and battery connection and decoupling capacitor CI 1210A HBK541-1 Figure2-3 NM 7013 Module Location - Front view of wall-mounted section ©1999 Navia Aviation AS PHYSICAL ORGANIZATION 2-11 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM System description This chapter gives a functional overview of the NM70xx ILS systems. 3.1 Overview The complete ILS electronic system is housed in a compact, wall mounted cabinet. The cabinet and the electronics, except for RF units, are common to the LLZ and GP systems Monitor input signals Monitor Transmitter Remote Control NAV signals out External sensors RMS TX control Comm. ports Changeover Section Data and diagnostics Monitor input signals Transmitter Monitor HBK573-1 Figure3-1 ILS block diagram. The ILS cabinets can be configured for Cat I, Cat II, or Cat III requirements with no basic changes. Eight models are available: NM 7011 Single frequency LLZ NM 7012 Single frequency LLZ with hot standby monitoring (Cat III) NM 7013 Two frequency LLZ NM 7014 Two frequency LLZ with hot standby monitoring (Cat III) NM 7031 Single frequency GP NM 7032 Single frequency GP with hot standby monitoring (Cat III) NM 7033 Two frequency GP NM 7034 Two frequency GP with hot standby monitoring (Cat III) The system is based on modern technology with extensive Remote Monitoring and Maintenance capabilities, and very high reliability and integrity. To meet this objective, the monitor comparator and station control are based on digital hardware, while the RMS interface is microprocessor based. 3.2 Physical Description The cabinet contains three sections: • The electronics card cage • The change-over section • The transmitter / PA section The electronics card cage contains the RF oscillators, the LF signal generators, the monitors, SYSTEM DESCRIPTION 3-12 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM the station control, the RMS processor, and the voltage regulators. The change-over section contains coaxial relays, attenuators and phasers for the RF outputs. The transmitter / PA section contains the PA blocks including couplers etc. for each output. The cabinet is divided in two parts, with the rear part fixed to a wall, and the front part hinged to give access to interior of the cabinet. All external connections are made to the rear part of the cabinet. 3.3 Monitors The ILS has duplicated monitors with inputs for Course Line (CL), Displacement Sensitivity (DS), Near Field (NF), and Clearance (CLR) (Dual Freq. only). The signals are detected by the input stage, and then digitized. In the next block they are filtered by a Fast Fourier Transform performed by a signal processor. The results for each parameter is then compared with stored limits in a digital hardware comparator. Each of the two monitors consists of two modules. For Cat III use, Hot Standby monitoring can be added by using one additional monitor and associated RF couplers and combiners. The design of the monitors ensures a very high integrity due to the use of digital hardware for the alarm comparators and a very simple Fast Fourier filtering with a signal processor. In addition, the monitor is checked by automatic self-tests. The alarm limits are stored locally in EEPROM, and can be updated from the RMS processor, with a separate hardware write protection to ensure that the integrity is not affected by the RMS system. 3.4 Transmitters / Modulators The transmitters are duplicated, either single frequency or dual frequency. Each transmitter consists of a RF oscillator, a LF generator, and one or two PA blocks (single or dual frequency). The RF oscillator uses a synthesizer for easy frequency changes and simple logistics. The oscillator has two outputs for use in dual frequency systems. The LF generator contains the generators for 90Hz, 150Hz and 1020Hz signals, the ident keyer / sequencer and interface for DME master or slave keying. All signals are generated by division from a common clock oscillator, ensuring very stable phase relations between the modulation signals. The modulation balance, modulation sum, RF level and Ident morse code are set in this module by means of multiplying digital to analog converters. The values are stored locally in EPROM and can be updated from the RMS processor with hardware write protection. The same LF generator is used for single and dual frequency systems. 3.5 TX Control The TX control unit controls the system dependent on alarms from the monitors and inputs ©1999 Navia Aviation AS SYSTEM DESCRIPTION 3-13 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM from the local control, the remote control and, optionally, the RMS system. It also generate status information to the same units. The local control and status indicators are a part of the TX Control unit. All functions in the TX Control are based on digital hardware to ensure the highest integrity. 3.6 Remote Monitoring (RMS) Unit The RMS unit contains the system microprocessor. It handles storage and read-out of monitor parameters, measurements for maintenance and fault finding, and performs fault analysis to isolate faults to line replaceable modules. It is also used to set monitor limits and transmitter adjustments. The RMM handles communication to local and remote RMS computers, and in addition it handles a small display and keyboard for parameter setting and readout. 3.7 Remote Control Unit The remote control unit is used in the tower or in the technical control room. It has indicators for operating status as well as detailed warnings and an aural alarm device with reset. It can control equipment on/off and change-over, and has an Access Grant-switch to allow remote control from the RMS system. The Remote Control Unit is connected to the ILS by one telephone pair cable. 3.8 Remote Slave Panel The slave panel is connected to the remote control by a multipair wire. It is intended for use in the control tower. It has indicators for normal / warning / alarm and has an aural alarm device. in addition it can turn the equipment on and off, and has an aural alarm reset. Optionally a slave panel with remote control functionality can be delivered. 3.9 Remote Maintenance Monitoring (RMM) The NM7000 series has a built-in Remote Maintenance Monitoring system. This system consists of the RMS system, remote PC terminals with the RMM program installed, and the local keyboard/display. Figure 3-2 illustrates the RMM/RMS systems SYSTEM DESCRIPTION 3-14 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM RMM program RMM program RMM program Modem Modem Modem Modem Local Remote 1 Remote 2 RMS data bus Local parameter storages Maintenance data bus Local measuring points RMS hardware RMS system RMS core program Local Keyboard/ Display NM70xx HBK 598-1 RMM system Figure3-2 The NM 7000 series RMM/RMS systems. The centre of the RMS system is a CPU with the RMS core program. The RMS collects measurements and diagnostic data, and makes them available to the user. The collected information allows easy and cost effective maintenance, fault finding and routine reporting. In addition, system settings are distributed and parameter readings are collected via the RMS/ CPU. External personal computers are used for a user-friendly interface to the RMM system. The equipment has three serial output ports, typically used to connect a local PC, a PC in the airport technical equipment room, and a modem for connection to a central maintenance facility. ©1999 Navia Aviation AS SYSTEM DESCRIPTION 3-15 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM The local keyboard/display allow readings and control through an LCD display and a sevenbutton keypad. This gives access to the RMM functionality without the need for a PC. 3.9.1 RMM Access Access to the RMM system is controlled by multiple hardware and software access controls. One password is required for each access level, i.e. one password for level 1, two for level 2 and three for level 3. Optional hardware controls may inhibit writing in the upper access levels. Access level 1 • Readout of all the monitor values, warning and alarm limits. • Readout of all the maintenance values and warning limits. • Readout of all the delays. • Readout of all the monitor DDM offsets. Access level 2 • TX1 and TX2: 90/150 Hz on/off. • TX1 and TX2: morse normal, continuous, TST or off. • TX1 and TX2: test-signal 90 Hz or 150 Hz dominance on/off. • Diagnostics. Access level 3 • Settings of all the monitor warning and alarm limits. • Settings of all the maintenance warning limits. • Settings of all the delays. • Settings of all the monitor DDM offsets. 3.9.2 Local Keyboard/Display Functions Through a menu-based interface all main commands, adjustments and monitor limits are accessible from the front panel keypad and LCD display. In addition a quick-read function gives read-out of all main monitor parameters in a glance. SYSTEM DESCRIPTION 3-16 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM Figure3-3 Local Control Panel 3.9.3 Diagnostic functions The system contains internal measuring points and diagnostic functions to isolate faults to failed modules. The values measured are referred to as maintenance parameters. Please refer to the NM70xx Operating Manual. ©1999 Navia Aviation AS SYSTEM DESCRIPTION 3-17 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM Electrical Installation This paragraph describes the external electrical connections of the NM 7013 main cabinet. 4.1 Connection Overview The ILS main cabinet consists of three connector sites, illustrated in Figure 4-1 • The ILS RF signals to and from the antenna system are connected at the top of the main cabinet. These connectors may be moved to the bottom, see Mechanical Installation. • The power supply (supplies) and the backup battery are connected to the power connector rail inside the cabinet back section. • All other external connections are sited on the Connection Interface board CI1210A inside the cabinet back section. POWER RAIL CONNECTIONS POWER +27V SUPPLY 0V +27V BATTERY 0V CI 1210A CONNECTIONS 4 DC LOOPS 3 RS 232 1 REMOTE CONTROL 1 DME 2 TEMP SENSORS 1 AC LEVEL MEASUREMENT 3 DIFFERENTIAL ANALOG CABLE FEEDTHROUGH 8 DIGITAL INPUT/OUTPUT RF CONNECTIONS NF IN DS CL CLR COU/CSB COU/SBO OUT HBK574-2 CLR/CSB CLR/SBO Figure4-1 ILS main cabinet connection overview. 4.2 Power and Battery The power supply and the backup battery are connected to the power connector rail inside the cabinet back section as shown in Figure 4-2. If two power supplies are used, these are parallel ELECTRICAL INSTALLATION 4-18 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM coupled outside the cabinet. The cables used should have 4mm2 intersection. Fuse 27AT 0V +27V 0V +27V +27V Modem Power Supply Battery HBK576-3 Figure4-2 Power and backup battery connections. A DC powered modem or other external equipment designed for 22V - 27V DC can be connected to the fused terminal block marked Modem. Maximum current consumption should be 1 A. ©1999 Navia Aviation AS ELECTRICAL INSTALLATION 4-19 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM 4.3 RF Inputs The RF inputs are: • Course Line - CL. • Near Field Antenna - NF. • Displacement Sensitivity - DS. • Clearance - CLR (two frequency applications only). These are connected as shown in Figure 4-3 (front view). HBK577-2 NF CL CLR DS Figure4-3 RF input connections. 4.4 RF Outputs The RF outputs are sited at the cabinet top as illustrated in Figure 4-4. The connections are: All applications: • COU SBO - COUrse Tx SideBand Only. • COU CSB - COUrse Tx Carrier and SideBand. Two frequency applications: • CLR SBO - CLeaRance Tx SideBand Only. • CLR CSB - CLeaRance Tx Carrier and SideBand HBK578-3 CLR SBO CLR CSB SBO CSB Figure4-4 RF output connections. ELECTRICAL INSTALLATION 4-20 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM 4.5 DC Loop The DC loops are connected to the Connection Interface board CI1210A in the cabinet back section. Location and pin out are illustrated in Figure 4-5 • DL_REF* are the reference voltages from the main cabinet. • DL_DETECT* are the return voltages from the antennas. • GND is main cabinet ground. Suitable female connectors are Weidemüller BLZ-5.08/6 or equivalent. TEMP OUTDOOR AC LEVEL ANALOG CH.1 ANALOG CH.2 ANALOG CH.3 DIGITAL PORT A DIGITAL PORT B DIGITAL PORT C DIGITAL PORT D TO MB1203 TEMP INDOOR RS232 RS232 RS232 BATTERY WARNING REMOTE CONTROL DC-LOOP DC-LOOP DME CI 1210A LOCAL REMOTE 2 CH.1&2 REMOTE 1 CH.3&4 HBK579-2 DC-LOOP 1 - Ch 1 In RADIO LINK DC-LOOP 1 - Ch 3 In 2 - Ch 1 Out 2 - Ch 3 Out 3 - GND 3 - GND 4 - Ch 2 In 4 - Ch 4 In 5 - Ch 2 Out 5 - Ch 4 Out 6 - GND CH.1&2 6 - GND CH.3&4 Figure4-5 DC loop connections. ©1999 Navia Aviation AS ELECTRICAL INSTALLATION 4-21 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM 4.6 Remote Control The remote control is connected to the Connection Interface board CI1210A as illustrated in Figure 4-6. The connection of the remote control, remote slave panel and interlock switch is done at the remote control site and covered in chapter 4.12 - 4.14 • FSK_[P,N] is the modem line pair. • GND is main cabinet ground. For normal FSK modem operation the straps S9-11 on CI1210A should be mounted. A suitable female connector is Weidemüller BLZ-5.08/4 or equivalent. TEMP OUTDOOR AC LEVEL ANALOG CH.1 TO MB1203 TEMP INDOOR ANALOG CH.2 ANALOG CH.3 DIGITAL PORT A DIGITAL PORT B DIGITAL PORT C DIGITAL PORT D S9-14 RS232 RS232 RS232 BATTERY WARNING REMOTE CONTROL DC-LOOP DC-LOOP DME CI1210A LOCAL REMOTE 2 REMOTE 1 CH.1&2 CH.3&4 REMOTE CONTROL HBK580-1 RADIO LINK 1 - GND 2 - FSK_P 3 - FSK_N 4 - GND Figure4-6 Remote control connection. ELECTRICAL INSTALLATION 4-22 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM 4.7 PC and Modem PC terminals and modems are connected to the standard pin out RS232, 9 pins DSUB connectors on the Connection Interface board CI1210A as illustrated in Figure 4-7 Recommended connections are: • LOCAL - the PC located at the ILS main cabinet site. • REMOTE 1 - the PC located at the airport technical maintenance site. • REMOTE 2 - distant PC terminals connected through a modem. TEMP OUTDOOR AC LEVEL ANALOG CH.1 ANALOG CH.2 ANALOG CH.3 DIGITAL PORT A DIGITAL PORT B DIGITAL PORT C DIGITAL PORT D TO MB1203 TEMP INDOOR RS232 RS232 RS232 BATTERY WARNING REMOTE CONTROL DC-LOOP DC-LOOP DME CI1210A LOCAL REMOTE 2 REMOTE 1 CH.1&2 RADIO LINK CH.3&4 1 - CD (REMOTE 2 only) 2 - RXD 3 - TXD 4 - DTR (REMOTE 2 only) 5 - GND 6 - DSR (REMOTE 2 only) 7 - RTS 8 - CTS 9 - Not connected HBK581-1 Figure4-7 PC and modem connections. ©1999 Navia Aviation AS ELECTRICAL INSTALLATION 4-23 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM 4.8 DME Distance Measurement Equipment DME is connected to the Connection Interface board CI1210A as illustrated in Figure 4-8 • ACT_DME[P,N] is the positive and negative terminal of the DME active signal from the DME, respectively. • IN_DME[P,N] is the positive and negative terminal of the morse code envelope signal from the DME, respectively. • OUT_DME[P,N] is the positive and negative terminal of the morse code envelope signal to the DME, respectively. A suitable female connector is Weidemüller BLZ-5.08/6 or equivalent. TEMP OUTDOOR AC LEVEL ANALOG CH.1 ANALOG CH.2 ANALOG CH.3 DIGITAL PORT A DIGITAL PORT B DIGITAL PORT C DIGITAL PORT D TO MB1203 TEMP INDOOR S1-8 RS232 RS232 RS232 BATTERY WARNING REMOTE CONTROL DC-LOOP DC-LOOP DME CI1210A LOCAL REMOTE 2 REMOTE 1 CH.1&2 CH.3&4 DME 1 - ACT_DMEP RADIO LINK 2 - ACT_DMEN 3 - IN_DMEP 4 - IN_DMEN 5 - OUT_DMEP 6 - OUT_DMEN HBK582-1 Figure4-8 DME connections. ELECTRICAL INSTALLATION 4-24 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM 4.9 Analog Inputs The analog inputs are connected to the Connection Interface board CI1210A as illustrated in Figure 4-9 The inputs are: • ANALOG CH.1-3 - three differential DC analog inputs, P is the positive and N is the negative terminal. Maximum voltage: ±15V Input impedance: 10kohms. • TINDOOR, TOUTDOOR - temperature measurement inputs with interface to an LM35 temperature sensor. Maximum voltage: ±15V. Input impedance: 10kohms. • AC LEVEL - AC level measurement input. Intended for use with a battery eliminator (i.e. 220/9VAC) to monitor the mains voltage. Maximum voltage: 24Vpp. Input impedance: 10kohms. Suitable female connectors are Weidemüller BLZ-5.08/4 or equivalent. TEMP INDOOR TEMP OUTDOOR AC LEVEL ANALOG CH.1 ANALOG CH.2 ANALOG CH.3 DIGITAL PORT B DIGITAL PORT C DIGITAL PORT D TO MB1203 DIGITAL PORT A RS232 RS232 RS232 BATTERY WARNING REMOTE CONTROL DC-LOOP DC-LOOP DME CI1210A LOCAL REMOTE 2 REMOTE 1 AC LEVEL TEMP RADIO LINK 1 - VDD V+ Vtemp GND 2 - T*DOOR LM35 Bottom view CH.1&2 3 - GND 4 - Not connected CH.3&4 ANALOG CH.* 1 - VACP 1 - ANLG*P 2 - GND 2 - GND 3 - VACN 3 - ANLG*N 4 - Not connected 4 - Not connected HBK583-1 Figure4-9 Analog input connections. ©1999 Navia Aviation AS ELECTRICAL INSTALLATION 4-25 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM 4.10 Digital Inputs and Outputs Eight bidirectional digital channels (numbered 0-7) are located on the Connection Interface board CI1210A as illustrated in Figure 4-10 Logic levels: TTL. Input impedance: 560ohms. Suitable female connectors are Weidemüller BLZ-5.08/4 or equivalent. TEMP OUTDOOR AC LEVEL ANALOG CH.1 ANALOG CH.2 ANALOG CH.3 DIGITAL PORT A DIGITAL PORT B DIGITAL PORT C DIGITAL PORT D TO MB1203 TEMP INDOOR RS232 RS232 RS232 BATTERY WARNING REMOTE CONTROL DC-LOOP DC-LOOP DME CI1210A LOCAL REMOTE 2 RADIO LINK REMOTE 1 CH.1&2 DIGITAL PORT A DIGITAL PORT B CH.3&4 DIGITAL PORT C DIGITAL PORT D 1 - USER_DIG1 1 - USER_DIG3 1 - USER_DIG5 1 - USER_DIG7 2 - GND 2 - GND 2 - GND 2 - GND 3 - USER_DIG0 3 - USER_DIG2 3 - USER_DIG4 3 - USER_DIG6 4 - GND 4 - GND 4 - GND 4 - GND HBK575-1 Figure4-10 Digital input/output connections. ELECTRICAL INSTALLATION 4-26 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM 4.11 Battery Warning Two inputs for main power supply failure (backup battery active) are sited on the CI1210A connection interface board as illustrated in Figure 4-11 Logic levels: Normally high 5V or 0V =battery warning. Input impedance: 10kohms. Suitable female connectors are Weidemüller BLZ-5.08/4 or equivalent. TEMP OUTDOOR AC LEVEL ANALOG CH.1 ANALOG CH.2 ANALOG CH.3 DIGITAL PORT A DIGITAL PORT B DIGITAL PORT C DIGITAL PORT D TO MB1203 TEMP INDOOR RS232 RS232 RS232 BATTERY WARNING REMOTE CONTROL DC-LOOP DC-LOOP DME CI 1210A LOCAL REMOTE 2 CH.1&2 REMOTE 1 CH.3&4 BATTERY WARNING RADIO LINK 1 - BATT.WARN. CHARGER 1 2 - GND 3 - BATT.WARN. CHARGER 2 HBK602-2 4 - GND Figure4-11 Battery warning connections. ©1999 Navia Aviation AS ELECTRICAL INSTALLATION 4-27 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM 4.12 Remote control connections The remote control is connected to the corresponding ILS by connecting the REMOTE CONTROL connector on Connection Interface CI1210 to P9 on Motherboard MB1346, as shown in Figure 4-12. Suitable female connectors are Weidemüller BLZ-5.08/4 or equivalent. 600 ohms cable should be used. REMOTE CONTROL NORMARC P9 MB1346 1 - GND 1 - TXOFF 2 - FSK_P 2 - ALARM TXOFF 3 - FSK_N 3 - LINE_A ALARM 4 - GND 4 - LINE_B J2 P3 P9 J1 LINE A LINE B P10 RX A CI1210 on corresponding ILS or CI 1376 on corresponding Marker Beacon RX B 10 TX A TX B SLAVE RS485 15 P8 INTERLOCK ALT.LINK SLAVE DIRECT AUX IN/OUT 20 P6 P7 25 P5 GND OPTO OUT P4 GND 1-ALARM (C) 30 2-ALARM (E) 5V 3-NORM (C) 5V 4-NORM (E) 5-WARN (C) 24V 24V 6-WARN (E) 7-STBAL (C) V_DIM V_DIM 8-STBAL (E) POWER OUT POWER IN HBK772-2 Figure4-12 Remote control to ILS connection The power supply to the remote control is connected according to Figure 4-13. The battery charger is connected to P2 on the MB1347 - power supply motherboard. Output connector P3 on MB1347 is connected to input connector P4 on MB1346 - remote control motherboard. Several MB1346's are serial linked by connecting P5 on one board to P4 on the next. Suitable female connectors are Weidemüller BLZ-5.08/4 or equivalent. ELECTRICAL INSTALLATION 4-28 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM NORMARC NORMARC MB1346 MB1346 J2 P3 P9 J2 P3 P9 J1 TXOFF ALARM ALARM LINE B LINE B P10 LINE A P10 RX A NORMARC LINE A MB1347 RX A RX B RX B 10 10 10 TX A TX A TX B GND SLAVE RS485 15 INTERLOCK 15 15 P8 From P2 TX B SLAVE RS485 ALT.LINK J1 J1 TXOFF P8 SLAVE INTERLOCK ALT.LINK DIRECT 24V SLAVE 24VDC power supply DIRECT 20 AUX IN/OUT AUX IN/OUT P6 20 20 P6 POWER IN S1 25 P7 P7 25 25 V_DIM=24V P5 GND OPTO OUT P5 P4 GND 1-ALARM (C) 30 GND 2-ALARM (E) 5V V_DIM POWER OUT P3 P4 GND 30 GND 30 2-ALARM (E) 5V 3-NORM (C) 5V 4-NORM (E) 24V OPTO OUT 1-ALARM (C) 5V 3-NORM (C) 5V 4-NORM (E) 5-WARN (C) 24V 6-WARN (E) 24V 24V 5-WARN (C) 24V 6-WARN (E) 7-STBAL (C) V_DIM 8-STBAL (E) POWER IN V_DIM POWER OUT 7-STBAL (C) V_DIM 8-STBAL (E) POWER IN V_DIM POWER OUT HBK773-1 Figure4-13 Remote control power supply connections ©1999 Navia Aviation AS ELECTRICAL INSTALLATION 4-29 GENERAL DESCRIPTION NORMARC 7013 INSTRUMENT LANDING SYSTEM 4.13 Remote slave connection The remote slave panel SF1344 is connected to the corresponding remote control's motherboard by connecting P3 on MB1346 to P1 on SF1344. P10 on MB1346 is not used. See Figure 4-14. Suitable connectors are standard 25 pins female DSUB (Harting 0967 025 0442 and 0967 225 4704 or equivalent), connected by a 10 wire 1:1 cable. NORMARC MB1346 J2 P3 P9 J1 TXOFF ALARM LINE A To P1 on SF1344 LINE B P10 1:1 RX A RX B 10 TX A TX B SLAVE RS485 15 P8 INTERLOCK ALT.LINK SLAVE DIRECT AUX IN/OUT 20 P6 25 P7 P5 GND OPTO OUT 13 25 P4 GND 1-ALARM (C) 30 2-ALARM (E) 5V 5V 3-NORM (C) 4-NORM (E) 5-WARN (C) 24V 24V 1 - GND 2 - ALARM 3 - WARNING 4 - NORMAL 7 - GND 15 - V24P 19 - ON_OFF 21 - SILENCE 23 - INTERLOCK (if used) 25 - BUZZER 6-WARN (E) 7-STBAL (C) V_DIM V_DIM 8-STBAL (E) POWER OUT POWER IN 14 HBK 774-1 Figure4-14 Remote slave connection ELECTRICAL INSTALLATION 4-30 ©1999 Navia Aviation AS NORMARC 7013 GENERAL DESCRIPTION INSTRUMENT LANDING SYSTEM 4.14 Interlock switch connection The interlock switch is either connected to P8 on MB1346 (remote control motherboard) or to P2 on SF1344 (remote slave panel), see Figure 4-15. MB1346 / P8 OR SF1344 / P2 INTERLOCK SWITCH RWYA RWYB 1 INTERLOCK 2 GND LLZ runway A LLZ runway B GP runway A GP runway B HBK775-2 Figure4-15 Interlock switch connection Note: When MB1346A is used with Remote Control Assembly RCA1240C or D and Interlock function is not used (connected), a jumper plug must be installed in P8 (or P2). ©1999 Navia Aviation AS ELECTRICAL INSTALLATION 4-31
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