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1 | Usera manual(Installation) | Users Manual | 1.59 MiB |
7ZPRR0001 INSTALLATION MANUAL FOR THE NTG-420 SOLID STATE TRANSMITTER-RECEIVER Document No. 7ZPRR0001 APR. 2016 7ZPRR0001 Table of Contents 1. SELECTING THE INSTALLATION POSITION .................................................................. 2 2. INSTALLATION PROCEDURE.......................................................................................... 7 3. CONNECTING THE INSTALLATION CABLE ................................................................. 10 4. INSTALLATION OF SOLID STATE TRANSMITTER-RECEIVER (NTG-420) .................. 12 5. SOLID STATE TRANSMITTER-RECEIVER(NTG-420) WIRING ..................................... 13 6. INSTALLATION CABLE AND WAVEGUIDE ................................................................... 17 APPENDIX .......................................................................................................................... 20 MAXIMUM PERMISSIBLE EXPOSURE(MPE) CALCULATION.......................................... 29 FCC CAUTION .................................................................................................................... 31 IC (INDUTRY CANADA) ...................................................................................................... 31 1 7ZPRR0001
- Preface -
This instruction manual describes installation method of the NTG-420 Transmitter-Receiver. This manual describes radar system configuration with X-band Radar Antenna and NCD-2247-1B PC type radar monitor display as an example. 1. Selecting the installation position 1) Physical selection criteria Install the antenna at the center of the mast on the keel line. If the antenna cannot be installed at the above position for some reason, the amount of deviation must be minimized. And, reinforce the mount base and the platform and take precautions to protect the antenna from vibration and impact at the installation position. To avoid the radiating section coming in contact with other installed objects while it is rotating, ensure that there is at least 200 millimeters from the swing circle (turning radius) to other installed objects (Fig.1-1). The swing circle of the X-band Radar Antenna is as shown in Table 1-1. Over 200mm 200mm min-offset min-height reinforcing member Fig.1-1 Installation of antenna Table 1-1 Swing circle Antenna X-band Radar Antenna Swing circle 2825mm 2 7ZPRR0001 Avoid having a rope or signal flag from winding around the radiating section thereby preventing it from rotating. Avoid the effects of dust and heat caused by smoke from a chimney. When determining the appropriate antenna height and installation location, take into consideration the reduction of vibration, the strength of the hull and the antenna mount base, and maintenance properties. Provide for maintenance space: platform, safety link, hand rail, steps, etc. The lower edge of a radar antenna should be a minimum of 500 mm above any safety rail. When installing the antenna, select a location where there are the fewest structural objects in the surrounding area so that the capability to drive the motor will not be depressed by the non-equability wind which is likely to rotate the antenna. 2) Electrical selection criteria The installation height of the antenna relates to the maximum detection distance. The higher is the better. (However, if it is too high, radio wave energy greatly attenuates above the antenna's vertical beam width (the point -3dB from the peak of the main lobe). As a result, it is difficult to detect a close-in target. Sea clutter also increases. Determine the installation height by taking into consideration the weight, maximum length of the cable, and maintenance after installation. If the installation height of the antenna is low, it is difficult to detect a long distance target. The ship's mast, derrick, and construction objects interfere with radiating beam causing the range that cannot be viewed on the radar display to increase. Generally, the lowest antenna installation position is supposed to be on the A-B line shown in Fig.1-2. In the case of the radar antenna, 2 equals 20. Specifically, the antenna position is normally elevated so that the building etc do not interfere with radiating beam. The inside of A point might be blind area due to antenna beam does not propagation. So, if near distance should be covered, antenna installation position must be considered carefully.
= 10 L B Blind area Building etc. Sea surface A Fig.1-2 Antenna installation height vs Vertical beam width 3 7ZPRR0001 If it is considered that sufficient installation height cannot be provided when the antenna is installed directly on the roof of the building, use a mounting rack or radar mast (Fig.1-3). Normally, when the antenna installation height is less than 2 meters from the roof of the building, provide a mounting rack assembled at an angle frame to install the antenna. When the antenna installation height is 2 meters or higher from the roof of the building, provide a cylindrical radar mast to install the antenna. Consider the convenience of the service staff who take care of installation, maintenance, adjustment, and repair of the antenna by providing adequate footholds to the mounting rack and the radar mast. Installation Fig.1-3 Mounting rack and mast for the antenna When installing the antenna, select a location where there are the fewest structural objects in the surrounding area so that false images which interfere with target detection will not be generated by signal reflection from other antennas, equipments, and cargos. Only as a guide, note that structural objects should not exist within the range of the vertical beam width (Fig.1-4). Vertical beam width of X-band Radar Antenna: Approx. 20 (10.0 when the height of the radiating section is 0). Installation Beam width Fig.1-4 Antenna and the surrounding structural objects 4 7ZPRR0001 When installing two or more antennas, antennas in close proximity should have a minimum vertical elevation separation angle of 20 and a minimum vertical separation of 1m where possible, so that those antennas do not enter each other's vertical beam width range.
) n m i
(
m 1 20(min) Fig.1-5 Installing two or more antennas To avoid interference with other equipment and to prevent radio noise from generating, do not place the VHF antenna, AIS/GPS antenna, and VSAT/INMARSAT's dome within the range of the vertical beam width.
*
If there is a concern that structural objects existing within the vertical beam width may generate false images, equip the structural objects with a radio wave absorber. (There are two types of absorbers: broadband type having no specific resonant frequency and narrowband type which can absorb a band with a specific frequency. Use those where applicable.) Furthermore, it is effective to install a metal reflector, which reflects radio waves upwardly, between the antenna and a structural object so that the radar's radio wave will not directly come in contact with the structural object. When the structural objects exist in the surrounding area of Antenna unit, the false echo may appear. The sector blank function is effective to reduce the signal reflection from the structural objects. Because of it can stop transmission. Therefore, it may reduce the false echo appearance. Note: Because most radio wave absorbers have poor durability, some must be replaced every year. When installing a reflector, the area to the rear of the reflector becomes a blind sector. Therefore, minimize the size of the reflector. When the sector blank function set to on, ensure a sufficient view field in the surveillance area.
* The above procedures for selecting an antenna installation position are described based on the radar's antenna. Comprehensively select the antenna position by considering other antennas' installation procedure manual, building tower mast structure, strength of the selected position, and vibration. 3) Confirmation during test run 5 7ZPRR0001 If the antenna vibrates a lot during test run, try to reduce or prevent vibration by reinforcing the antenna mount base or using wire stays attached to the radar mast. 4) Others The design of the mounting platform for the antenna should take into account the vibration requirements defined by IEC 60945. Vibration Frequency Amplitude Acceleration 2 to 13.2Hz 13.2 to 100Hz
+/-1mm +/-10%
7m/s2 constant All installations should facilitate protection of equipment, including cabling, from damage. The cables should be kept as short as possible to minimize attenuation of the signal. Crossing of cables should be done at right angles(90) to minimize magnetic field coupling. Eliminating the interference on for marine communications due to operation of the radar. All cables of the radar are to be run away from the cables of radio equipment. (ex. Radiotelephone. Communications receiver and direction finder, etc.) Especially inter-wiring cables between antenna unit and display unit of the radar should not be run parallel with the cables of radio equipment. frequencies used Cable should not be exposed sharp bends. The grounding of equipment units should be carried out according to this manual. 5) After installation After you have completed the installation work, check and test the installation work with customer(s) and confirm with each other. 6 7ZPRR0001 2. Installation procedure 1) Precautions for transporting and storing the antenna An antenna is a heavy load. Be very careful about handling it. Do not allow the antenna fall on its side while it is stored or being installed. Do not apply rope to the antenna in the way that squeezes or deforms the radiating section. When hoisting the antenna by a crane, do not hoist it by attaching a belt or a rope only to the antenna's radiating section as shown in Fig.2-1. When lifting the antennaFig.2-2:
Wrap a cloth around the antenna's support section located at the bottom of the radiator, and then attach a belt to it to lift the antenna. Fig.2-1 Improper way to hoist Wrap a cloth Fig.2-2 Lifting the Antenna 2) Installation procedures a) Maintain a flat level surface on which to install the antenna. Use sufficiently thick steel material and reinforcement material for the antenna's installation surface (mount base) to reduce vibration and impact. Keep the mount base flat and smooth. If there is a partial gap between the mount base and the antenna chassis's legs, work on the installation surface so that it becomes flat and smooth. If a gap exists and the antenna is tightly clamped, the chassis will distort and become damaged by vibration. 7 7ZPRR0001 b) Avoid using vibration-proof rubber and resin Do not insert an elastic body, such as vibration-proof rubber or resin, between the mount base and the antenna chassis' legs. If rubber or resin is inserted, the amplitude of vibration increases, resulting in the possibility of damage to the antenna. Furthermore, if installation bolts become loose due to deterioration of rubber or resin, the antenna may be damaged or fall from its mount. 3) Installation and clamping method a) Installation direction Installation should be done so that the cable gland side is oriented accessibility by maintenance staffs. b) Bolts, nuts and tightening torque to be used Use stainless steel bolts for the antenna and uniformly tighten all of the bolts using double nuts for each bolt so that the antenna will not become loose (Table 2-1). Although the length of the bolt will differ according to the thickness of the mount base, use a bolt long enough so that more than 4 millimeters of thread protrudes beyond the double nuts after the double nuts have been tightened. Table 2-1 Length of antenna mounting bolts and tightening torque Antenna Unit Thickness of Mount Base
(mm) 12 Bolt Torque (N-m) M1055(mm) SUS304 40 c) Use of washer and corrosion-resistant measures At the location where a bolt's head or nut comes in contact with the antenna chassis' legs and the mount base, insert a plain washer which fits the bolt; and, at the location where the nut comes in contact with the plain washer, insert a spring washer, and then securely tighten the nuts
(Fig.2-3). To prevent corrosion due to the contacts between different metals, such as the antenna chassis' legs, installation surface, bolts, nuts, etc., cover the bolt's head and nuts with sealant (Fig.2-3). 8 7ZPRR0001 Fig.2-3 Use of washer and corrosion-resistant measures d) Grounding and corrosion-resistant measures Ground the antenna chassis and the installation surface (hull) by using an earth line. Apply sealant to the connection portion of the earth line to prevent corrosion and damage by vibration (Fig.2-4). Fig.2-4 Grounding and corrosion-resistant measures 9 7ZPRR0001 3. Connecting the installation cable 10 7ZPRR0001 11 7ZPRR0001 4. Installation of Solid State Transmitter-Receiver (NTG-420) required to secure a space for equipment and maintenance. The mounting place of NTG-420 Solid State Transmitter-Receiver is shown below. It is Min. 370 Min. 250 i e d u g e v a W 0 0 4
. n M i 0 5 2
. n M i Fig.4-1 NTG-420 Installation (Space for Mounting Place) 12 5. Solid State Transmitter-Receiver(NTG-420) Wiring Table 5-1 Connect Terminal of NTG-420 7ZPRR0001 Terminal No. Waveguide flange(UG-51/U) P1 P2 Not Used for this System P3 Not Used for this System P4 RJ-45JJ Optical Communication Board
(AGM-741 daughter board ) Earth Point Connect X-band 9ft Antenna DC Power Supply
(DC 48V) External Equipment
(ex. Radar Data Processor) External Equipment
(ex. Radar Data Processor) X-band Radar Antenna NCD-22471B Control/Monitoring PC NCE-5584-1B IQ Data Recording PC Radar Cable WRJ-9 Waveguide) Power Cable RE-422 cable or equivalent 14-core shield composite cable(2695110056). 14-core shield composite cable(2695110056) or equivalent LAN cable Cat.6a Optical Cable 2C Earth line IV-5.5 or equivalent PS I/F Circuit ANT I/F Circuit NFB Connector Board Cable Clamp Earth Point
(Chassis) Optical Fiber Cable below) inlet
(See Fig.5-1 Inside View of NTG-420 13 7ZPRR0001 Table 5-1 Signal Layout of each Terminal Table 5-1 (1) P1 Pin No. Table 5-1 (2) P2 Pin No. 1 2 3 1 2 3 4 5 6 7 8 9 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Pin Name
+48V
+48V RTN GND Pin Name MNT-TX-P MNT-TX-N MNT-RX-P MNT-RX-N MNT E NC NC NC NC VD VD_E TRIG TRIG_E BP BPE BZ BZE NMEA_P NMEA_N NMEA_E NC NC NC SHIELD Table 5-1 (3) P3 Pin No. Pin Name Table 5-1 (4) P4 Pin No. 1 2 3 4 5 6 7 8 9 10 11 Pin Name SAF SW-
SAF SW+
Z ZE A AE B AE NC NC NC In/Out In In
+48V
+48V Return Ground Description Description Maintenance Port RS-422 output-P Maintenance Port RS-422 output-N Maintenance Port RS-422 input-P Maintenance Port RS-422 input-N Shield (Ground) Reserved Reserved Reserved Description Radar Video Signal Radar Video Signal Return Radar Trigger Signal Radar Trigger Signal Return Antenna Bearing Pulse Signal Antenna Bearing Pulse Signal Bearing Reference Signal Bearing Reference Signal Return Control/Monitoring Signal(RS-485)-P Control/Monitoring Signal(RS-485)-N Return Reserved Reserved Reserved Description Antenna Safety Switch Return Antenna Safety Switch Signal Antenna Bearing Pulse (Z-Phase) Return Antenna Bearing Pulse (A-Phase) Return Antenna Bearing Pulse (B-Phase) Return Reserved Reserved Reserved In/Out Out Out In In In/Out
-
-
-
-
In/Out Out Out Out Out Out Out Out Out In/Out In/Out In/Out
-
-
-
-
In/Out In In In In In In In In
-
-
-
14 12 13 14 15
+12V ISO
+12V RET NC SHIELD 7ZPRR0001 Out Out
-
+12V Antenna Encoder Power Return Reserved 15 7ZPRR0001 Flange
(M4 x 4) Waveguide inlet for NTG-420
(UG-51/U) Fig. 5-2 Waveguide Flange (UG-51U) of NTG-420 16 7ZPRR0001 6. Installation Cable and Waveguide 6.1 CM14CXVBTBTV(2695110056) This is composite cable of 14 wires with shielded coaxial cable. This cable is using between Antenna and TRX. Also, equivalent cable can be used which is provided by customer. Fig.6-1 CM14CXVBTBTV(2695110056) Component Table 6-1 CM14CXVBTBTV(2695110056) material Core
(No.) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Cross Section
(m2) 0.5 0.5 0.5 0.5 5.5 5.5 5.5 0.3 0.3 2 2 1.25 1.25 0.5 No. of wire /
Color Remarks Black 1 19 / 0.18 Black 2 19 / 0.18 Black 3 19 / 0.18 Black 4 19 / 0.18 Yellow 35 / 0.45 Green 35 / 0.45 35 / 0.45 Brown 12 / 0.18 White 12 / 0.18 37 / 0.26 37 / 0.26 50 / 0.18 50 / 0.18 1 / 0.18 Orange Red Blue Black Purple Gray Coaxial Cable Coaxial Cable Coaxial Cable Coaxial Cable Twisted pair cable with Shield sheath white Shield wire Max. diameter: 23.0mm 17 7ZPRR0001 6.2 Waveguide and Cable Installation Fig.6-2 Waveguide and Cable Installation Diagram for NTG-420 with peripheral equipment 18
(No.) Table 6-2 Waveguide Materials List (for Example) WAVEGUIDE Flange A 7ZPRR0001 Flange B Remarks Tapered Transit Waveguide
(Flat): UG-51/U
(Flat) : UG-39/U
(Choke) : No.185BC (Choke) : No.185BC Flexible Waveguide ANDREW Model :Elliptical Waveguide TypeEW85 Frequency Range :
7.7-9.8GHz Tapered Transit Waveguide
(Flat): UG-39/U
(Choke) : UG-52B/U For detailed assembling method, please contact waveguide manufacturer(s) including Notes:
required special tools and materials 19 7ZPRR0001 APPENDIX Drawing OUTLINE DRAWING X-BAND RADAR ANTENNA NTG-420 X-BAND SOLID STATE TRANSMITTER-RECEIVER BLOCK DIAGRAM X-BAND RADAR ANTENNA NTG-420 X-BAND SOLID STATE TRANSMITTER-RECEIVER WIRING DIAGRAM INTERCONNECTION FOR NTG-420 X-BAND SOLID STATE TRANSMITTER-RECEIVER
(REFERENCE) WAVEGUIDE CATALOGUE 20 Outline Drawing of X-band Radar Antenna 7ZPRR0001 Note: Performance Monitor does not included in this system. 21 7ZPRR0001 Outline Drawing of NTG-420 X-Band Solid State Transmitter-Receiver 22 Block Diagram of X-band Radar Antenna Slotted Array Antenna 7ZPRR0001 Motor Driver Motor Rotary Joint Encorder Turning Unit Safety Switch AC100/110 or 220/230V 50/60, 1 Status Error RF Inlet Bearing Output(A,B,Z 23 7ZPRR0001 Block Diagram of NTG-420 X-Band Solid State Transmitter-Receiver RF Inlet r e c u d s n a r T R C I F R F P B N O M X T A P S S I X M P M A C O L C S O F I X T A
/
D m r o f e v a W
. n e G U P M A N L P M A C T S T T A M L I F I X R D
/
A l a n g S i r o s s e c o r P A
/
D e v a w o r c M i t i u c r i C t n e n o p m o C l e u d o M X R T t i u c r i C P
/
S 5 4
-
J R n o i t i a c n u m m o C l a c i t p O 1 4 7
-
M G A
(
) d r a o b r e t d r a o B h g u a d l a n g S i n o i t u b i r t s D i t i u c r i C t i u c r i C F
/
I T N A t i u c r i C F
/
I S P r e f f u B N A L a t a D r a d a R i t u o l a n g S g n i r a e B t n o C 2 2 4
-
S R t n o C 5 8 4
-
S R t u o o e d V i
. g i r T l e b a C r e b F l a c i t p O i t i u c r i c S P n i V 8 4 C D 24 r o t c e n n o c e p y T C L i n i l a n g S g n i r a e B h c t i w S y t e f a S O S I V 2 1
+
7ZPRR0001 Interconnection for NTG-420 X-Band Solid State Transmitter-Receiver (Reference)
(Confirm the antenna motor power before installation) For Antenna Motor AC100/110V or 220/230V Provided by User
(5.5sq or more) NFB Terminal Board 1 2 1 2 YEL GRN Transmitter Receiver NTG-420 Cable CM14CXVBTBTV
(2695110056) NC NC
(D-SUB 9P) P2 1 MNT_TX_N MNT_TX_P 2 3 MNT_RX_P 4 MNT_RX_N 5 MNT_E
(D-SUB 15S) BP BPE BZ BZE VD VD_E TRIG TRIG_E P3 1 2 3 4 5 6 7 8 9 10 1 11 21 31 4 15 SHIELD NMEA_P NMEA_N NMEA_E Radar Control/Monitoring PC display NCD-2247-1B Radar Data P4
(D-SUB 15P) Relay Terminal 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 SEF SW-
SAF SW+
Z ZE A AE B BE NC NC NC
+12V ISO
+12V RET NC SHIELD 12 BLK 13 PUR 1 2 3 9 ORG 8 WHT 5 6 7 8 9 10 11 12 1 2 4 16 FG JRC Standard X-Band Radar Antenna FG 1 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 10 TB103 U 1 V 1 W 1
+12V SAF SW-
ZE Z A E B TB104 PTI PTE LVR PMS E TXI TXE SAF SW+
VERR1 E FG NC NC NC NC NC NC NC NC NC NC RJ-45JJ RJ-45 J2 LAN LAN cable Cat.6a IQ Data Recording PC
(NCE-5584-1B) Signal Processor Board
(CDC-
1469) Optical Comm. Board
(APX-741A-1) PCI-ex Optical Fiber Cable Optical Comm. Board
(AGM-741) Waveguide WRJ-9 or equivalent 48V DC PS DC+48V
+48V_RTN FG P1
(JR13PK-3P(71)) 1 2 3
+48V
+48V_RTN GND Flange UG-52B/U Flange UG-51/U AC 25 7ZPRR0001 Waveguide Catalogue
(1) Taper Waveguide Elliptical Waveguide Side Antenna Side 26
(2) Elliptical Waveguide 7ZPRR0001 27 7ZPRR0001
(3)Taper Waveguide Elliptical Waveguide Side Transmitter Side 28 7ZPRR0001 Maximum Permissible Exposure(MPE) Calculation The MPE was calculated with the antenna used as the highest antenna gain which may be used. Radiofrequency radiation exposure limits.(Frequency: 10MHz to 300GHz) Limits for Occupational/Controlled Exposure(mW/cm2)=5.00 Limits for General Population/Uncontrolled Exposure(mW/cm2)=1.00 NTG-420 Performance characteristics Antenna gain(dB)=
Output Average Power(W)=
Frequency(MHz) =
Cable Loss(dB) =
38 4.6 9410 1 Calculated EIRP mW) =
23054613 Power Density(SmW/cm2)=EIRP/4r2 Assumed 22feet Slotted Array Antenna
(dBm)=
36.628 Assumed 10m Waveguide Lengh 73.628 (dBm)
(r=cm) Distance Distance Power Density (S) Feet mW/cm2 EIRP mW 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 cm 1500 1450 1355 1350 1300 1250 1200 1150 1100 1050 1000 950 900 850 800 750 700 650 610 550 500 450 400 49.21 47.57 44.46 44.29 42.65 41.01 39.37 37.73 36.09 34.45 32.81 31.17 29.53 27.89 26.25 24.61 22.97 21.33 20.01 18.04 16.40 14.76 13.12 29 0.81539 0.87259 0.99924 General population 1.00665 1.08558 1.17416 1.27405 1.38724 1.51622 1.66406 1.83463 2.03283 2.26497 2.53928 2.86661 3.26156 3.74414 4.34232 4.93047 Occupational 6.06489 7.33851 9.05989 11.46643 7ZPRR0001 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 23054612.7 350 300 250 200 150 100 50 11.48 9.84 8.20 6.56 4.92 3.28 1.64 Conclusion:
Frequency General population Limit Minimum Distance(feet) 14.97656 20.38476 29.35405 45.86570 81.53903 183.46282 733.85127 Occupational Limit Minimum Distance(feet) 10MHz-300GHz 44.46 20.01 The NTG-420 is radar system for operating at the land based services. The radiating structure for the radar is typically mounted as following diagram. The radar system will satisfy the requirements of RF exposure per rule. Typical Installation of radar system 30 7ZPRR0001 FCC Caution Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
1) Reorient or relocate the receiving antenna. 2) Increase the separation between the equipment and receiver. 3) Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. 4) Consult the dealer or an experienced radio/TV technician for help. This device complies with Part 80 and Part 90 of the FCC rules. 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. IC (Indutry Canada) This device complies with Industry Canadas licence-exempt RSSs. 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. Le prsent appareil est conforme aux CNR dIndustrie Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes :
1) lappareil ne doit pas produire de brouillage;
2) lutilisateur de lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. 31
1 | Users manual(Operation) | Users Manual | 2.40 MiB |
7ZPRR002 Operation Manual for THE NTG-420 SOLID STATE TRANSMITTER-RECEIVER Document No.7ZPRR0002 APR 2016 1 Revision Hsitory Revision 7ZPRR002 Issued Description 2 7ZPRR002 TABLE OF CONTENTS SAFETY INFORMATION ................................................................................................4 1. Overview ...................................................................................................................10 2. Operation ..................................................................................................................11 2.1 How to start the system .....................................................................................11 2.2 How stop the System. .......................................................................................13 2.3 Radar Control Module (N_Cont. exe) Main Window ........................................13 2.4 Solid State Radar Signal Input Module(N_Solid.exe) ......................................22 2.4.1 Icon ...............................................................................................................22 2.4.2 Start-up the Screen .....................................................................................23 2.4.3 Main Menu ....................................................................................................23 2.4.3.1 File ..........................................................................................................23 2.4.3.2 View ........................................................................................................24 2.4.3.3 Help ........................................................................................................24 2.4.4 Tree Menu and Functional Description ..................................................25 2.4.4.1 Radar Image ..........................................................................................26 2.4.4.2 Input Image ............................................................................................37 2.4.4.3 Failure history .......................................................................................43 2.4.4.4 Simulation ..............................................................................................43 2.4.4.5 Sweep Tag .............................................................................................44 2.5.5 Admin Menu .................................................................................................47 2.5.5.1 Radar Image ..........................................................................................47 2.5.5.2 On Error Reboot ....................................................................................48 2.5.5.3 Admin Password ...................................................................................48 2.5.5.4 Process ..................................................................................................48 2.5.5.5 Common Memory ..................................................................................49 2.5.5.6. Debug ....................................................................................................49 2.6 Startup parameter ..............................................................................................49 3. Specification ............................................................................................................50 FCC Caution .................................................................................................................52 IC (Indutry Canada)......................................................................................................52 3 7ZPRR002 SAFETY INFORMATION To prevent harm to those who use this product or other people and damages to property, safety precautions to be followed are described as follows. The degrees of harm and damages caused by misuse with neglecting indications are classified and described as follows. DANGER This indication means "Hazard can cause severe injury or WARNING This indication means "Hazard can cause injury or only physical damages."
Kinds of precautions to be followed are classified and described with the following icons.
(A few examples of icons are as follows.) This icon is to call attentions. This icon is to prohibit some actions This icon is to force some actions. 4 7ZPRR002 DANGER Plug in completely plugging may Incomplete generate heat to cause a shock or a fire. In case of malfunctions or abnormal conditions (smoke, foul odor, sound, etc.), turn the power off and turn off the breaker of the power distributor. Turn the power off and consult with our company. Do not repair the device by yourself because is dangerous. it Unplug Do not put the device on unstable places(a shaky stand, tilted place, etc.). Do not wet or water the device. Dropping or falling down of the device may cause injury. Wetting the device may cause a shock or a fire. Prohibition Do not wet Do not put things (containers with liquid, flower pots, etc.) or creatures on the device. Do not put liquid such as water, metals or inflammable objects inside the device. Prohibition of liquid Entering or excrement may cause a shock or a fire. In case of entering, unplug from the outlet and consult with our company. 5 Prohibition Entering may cause a shock or a fire. In case of entering, unplug from the outlet and consult with our company. 7ZPRR002 DANGER Do not drop or bump the device. Do not use the device under a voltage other than the indicated power-supply voltage. Physical shock may cause a s hock or a fire. Malfunction may occur cause a shock or a fire. to Prohibition Prohibition Do not remove the back lid, the cabinet or the cover, or do not modify the device. Consult with our company for internal inspection and repair. When thunder has started, do not touch the power cables, the signal cables and the device. Touching will cause a shock Do not decompose Do not touch Do not damage the power cord or the plug. Prohibition twisting Damaging, processing, forcedly or pulling may deteriorate insulation of coating, expose cores or break the cord to cause a shock or a fire. loading, heating, bending and In the case of damages, unplug from the outlet and ask our company 6 7ZPRR002 WARNINGS Carry the CRT monitor by more than one people since the monitor is heavy. Stumbling, etc. may cause injury. Disconnect the plug and the connection lines when moving the device. Damage of cords may cause a shock or a fire. Unplug Unplug with holding the plug. Unplug from the outlet for safety when maintaining Damage of cords may cause a shock or a fire. A shock may be caused. Unplug Unplug 7 7ZPRR002 WARNINGS Do not unplug with wet hands Do not block the ventilation holes of the cabinet. A shock may be caused. Prohibition Prohibition Heating up internally may cause malfunction or a fire. Pay attention to the following:
Do not turn over, lay down or set upside down the device our Ask inspection and cleaning periodically. company for internal Without cleaning for a long time, dust gathered inside the device may cause malfunction or a fire. Do not put the device where much moisture or dust exists, and greasy fumes or steam is generated. the device on a Putting cooking table or near a heater may cause a shock or a fire. Prohibition Unplug from the outlet when not using for a long time. Dust gathered on the plug may cause a fire or a shock. Unplug 8 7ZPRR002 CAUTIONS Ground the earth wire of the plug. A shock may be caused without grounding the earth wire. Furthermore, poor reception for TV's, radios, etc. may Do not use the device in a dark place at close range for a long time. Using the device in a dark place at close range for long time may weary eyes or weaken eyesight. Use the device at a distance of 40 or 50 cm in a bright place where newspaper can read easily. Take a rest for eyes every 30 minutes. near Do not put other devices (a TV, a display device, etc.) or magnetized objects the CRT monitor. Installing the CRT monitor near those may have an effect on the screen
(disturbing colors or swaying the screen). Move the device seemed to effect away as possible. the phenomenon does not stop even so, In case the device in direct the heat of heating Do not put sunshine or in apparatus. Heat may cause deformation of the cabinet or malfunction of parts. Do not contact the cabinet with rubber or plastic products for a long time. The quality of the cabinet may alter or the coating may come off. 9 7ZPRR002 1. Overview This manual describes operation function of the NTG-420 Solid State Transmitter-Receiver that is used for the land based radar surveillance system. Figure-1.1 shows total system illustration diagram of the NTG-420 and peripheral equipments. And Figure-1.2 shows functional data flow of the NTG-420. Figure-1.1 Total System Illustration Diagram of the Radar System. 10 7ZPRR002 X-band Radar Antenna SSPA TRX NTG-420
(Signal Processor CDC-1469) TCP Server TCP Client UDP (TCP/IP) Radar Control/Monitoring PC NCD-2247-1B Fig. 1.2 Functional Data flow of the Radar System Image Capture 2. Operation 2.1 How to start the system 1) Turn on the DC48V Power Supply by its switch or attached NFB. 11 7ZPRR002 2) Turn on the power switch on the NCD-2247-1B 3) Open the main menu Window (CDC-1469 control module by LAN (NMEA). 4) Confirm the no error indication on main menu. 5) Turn on Antenna motor NFB. (Before turn on, It checks that there are no people near the See paragraph 2.3 antenna. 6) Click the Transmit ON button on the main menu 7) Echo will appear on the Solid State radar Signal Input Module window. See paragraph 2.4 12 7ZPRR002 2.2 How stop the System. 1) Stop the system by reverse procedure of the how to start. 2.3 Radar Control Module (N_Cont. exe) Main Window The following indication will be displayed when NTG-420 and NCD-2247-1B are connected normally. SIGNAL MODE(1) window menu Control/Monitor Main Transmit Stagger Transmit : OFF: Stagger Transition turned off, ON: Stagger Transmission turned on Range Table : Selects Range Table shown as table below.
:TRX-1 displayed
: OFF: Transition turned off, ON: Transmission turned on 13 7ZPRR002 PRF
(Hz) 2280 2280 2280 1280 640 1864 1280 4100 Tm1
(us) 97.52 97.52 97.52 97.52 97.52 97.52 97.52 97.52 FM(MHz) PW(us) PW(us) FM(MHz) No.2 Transmit No1. Transmit 0.07 0.15 0.3 0.15 0.15 0.3 0.6 0.07 Table No. 1 2 3 4 5 6 7 8 Remarks;
PW: Pulse Width, FM: Frequency Modulation range, PRF: Pulse Repetition Frequency, TM1: Time interval between No.1 and No.2 transmission 2.8 4.6 9.1 18.3 28.0 9.1 9.1 2.8 30 30 20 30 30 30 30 30 0 0 0 0 0 0 0 0 No.1 Transmit No.2 Transmit PRF PW PW FM Tm1 FM: Frequency Modulation Shift Interference Rejection: Adjusts the interference rejection strength level Off / Low / Middle / High
: 00
: 2048 (Encoder pulse numbers)
: CDC-1469 (Signal Processor Model) TRX Information Encoder Type Unit Type Interface Revision CPU Software Version : 0000 FPGA Software Version : 0000 Request : Updated when click this button Failure State Initialization Failure PLL Lock Failure Antenna Switch Failure : Antenna Safety Switch turned ON. ARP Signal Failure ACP Signal Failure Direction of Rotation Failure : Antenna is reverse rotation. Trigger Signal Failure : Lacked the Radar trigger signal. Video Signal Failure : Lacked the radar video signal during specified period. Internal Power Supply Failure : TRX internal power supply became abnormal condition. TRX.
: FPGA initialization failure.
: PLL lock faiture on the master clock of signal processor.
: Lacked the Antenna encoder reference pulse.
: Lacked the Antenna encoder pulse. 14 7ZPRR002
: IF Optical Fiber signal Lost.
: AVAL Optical Board is Failure. IF Light Signal Failure High-speed IF Board Failure TRX Monitor FPGA Temperature SP-Board Temperature Communication State 1 192.168.1.32(50000) SD RD : Green :Normal condition, Red :Abnormal(See below)
: xxxshows temperature
: xxxshows temperature 15 Sector Blank window menu Transmission Sector blanking angle can be presentable. 7ZPRR002 This radar system has 7(seven) sector blanking area which are presentable individually. Input preset angle data Actual preset angle data(response from TRX) 16 7ZPRR002 The blanking data of an input is reflected by pushing a SET button. Advanced Setting window menu Input data Actual data(response from TRX) preset angle Fine Tuning : Reserved Function. Sweep Integration Mode : ON or OFF (Reduce the Noise and Clutter echo) CFAR : ON or OFF (Constant False Alarm Rate) Maker Setting window menu This menu is presented by manufactures factory, so that please do not change recklessly.. 17 7ZPRR002 A password input is required when open the maker setting window. Initial password is admin. Setting of Password The mask of the inputted password is canceled temporarily. Click the ENT button and password will be memorized.
* When a blank is set up, attestation with a password is not carried out.
* It is enciphered and the inputted password is saved at an initialization file. Operation Mode FD : Not used Single This system can be used Single only 18 7ZPRR002 Main TRX Not used in this system. Pulse Transmit Mode (Default is P+Q) TRX-1 : P+Q (Indicate current transmission mode) P+Q : Select Both P(non-chirp) and Q(chirp) transmission pulse P : Select P pulse only Q : Select Q pulse only Encoder Type 2048 : Select antenna encoder 2048 pulse type 4096 : Select antenna encoder 4096 pulse type 2048 Green indication (Indicate current selected encoder type) Communication Preset Window 19 7ZPRR002 TCP Client Open/Close a socket Socket open state Socket connection state Flashing at sending and receiveing Server IP address Server port number Indicate the communication event Communication Event Log indication Update of the log of a communication event is stopped. The log of a communication event is cleared. If you want to save the contents that are displayed in the file, copy it to the clipboard using such as Ctrl + A and Ctrl + C, please save the file using Memo-pad etc. 20 History of Failures Log Window indication 7ZPRR002 The history of failure window displayed. Click the here 21 7ZPRR002 2.4 Solid State Radar Signal Input Module(N_Solid.exe) This module captures in a radar picture using an UDP socket (TCP/IP) from a solid-state TRX signal processing circuit (CDC-1469). The captured radar picture is provided through a shared memory to other applications. Also, Radar PPI image can be monitored using this module. SSTRX S/P Circuit CDC-1469 Radar Signal UDP (TCP/IP) Display Application Capture module Shared Momory N_Solid.exe VTS,ATC etc 2.4.1 Icon 22 2.4.2 Start-up the Screen 7ZPRR002 Main Menu Tool Bar Tree Menu Radar Image Input Panel Status Bar 2.4.3 Main Menu 2.4.3.1 File
(1) Exit Exit the Application Note: When this application is started according to the launcher process (Stater2.exe) of exclusive use, a window is closed and it operates in the background. 23 2.4.3.2 View 7ZPRR002 Data LinkDisplay the Data Link Screen Tool BarDisplay on/off of the tool bar Tree MenuDisplay on/off of the tree menu Input PanelDisplay on/off the input panel Status BarDisplay on/off of the status bar
(1) Data Link screen Other applications and the state of InterProcess communication are displayed. 2.4.3.3 Help
(1) Version 24 7ZPRR002 2.4.4 Tree Menu and Functional Description The picture and input panel relevant to the selected function name are di d l A function name is displayed in tree form. When a function name is selected, a related picture and a related input panel are displayed. 25 7ZPRR002 2.4.4.1 Radar Image
(1) A Scope
: Image update is stopped when this switch turned ON. Range: Selects radar display range. 0.5 NM, 0.75 NM, 1.5 NM, 3 NM, 6 NM, 12 NM, 24 NM, 48 NM, 96 NM, 192 NM, Fixed: Fixed the display azimuth. Rng.: Displays distance of cursor position. Amp.: Displays echo level(amplitude) of the cursor position (reference value). Input Panel Radar Azimuth: Displays the radar antenna azimuth angle. Range Mark: Selects display on/off of the Range Marker. Amplitude Mark: Selects display on/off of the amplitude marker. Paint Out: : Selects painting out on/off. 26 7ZPRR002 Painting out off Painting out on
(Please select according to CPU load) 1) Scale Amplitude Scale: Selects amplitude scale.(Scale/Marker Interval) 0.5 / 0.1 V 1.0 / 0.2 V 2.0 / 0.5 V 5.0 / 1.0 V
(Amplitude(level) is reference value). 2) Display Interval Interval: Presets the update interval of radar picture. (Preset range:101000mS) Lap time: Displays the radar picture depiction lap time. If an updating cycle is shortened, the load of CPU will increase.
(Please preset according to CPU load) Depiction time Interval
(2) B-Scope 27 7ZPRR002
: Image update is stopped when this switch turned ON.
: Shows cursor position in the picture.
: Moves picture position. Range: Selects radar display range. Rng.: Displays distance of cursor position. Azi.: Displays azimuth angle of cursor position. Input Panel Radar Azimuth : Displays the radar antenna azimuth angle. Range Mark
: Selects display on/off of the Range Marker. Azimuth Mark : Selects display on/off of the azimuth marker. Histogram
: Selects display on/off of the histogram. 28 7ZPRR002
: Selects the histogram section width. 1 x 256, 4 x 64, 8 x 32, 16 x 16, 32 x 8 1 x 256 4 x 64 8 x 32 Split Color: Display on/off of the function to classify a radar picture by color to two gradation is changed. 3D ScopeSelects the 3D display on/off. 29 7ZPRR002 1) Scale Azimuth Scale: Selects azimuth scale. (Scale/Marker interval) 30 / 5 deg 60 / 10 deg 90 / 15 deg 120 / 20 deg 180 / 30 deg 270 / 45 deg 360 / 60 deg 2) Display Interval Interval: Presets the update interval of radar picture. (Preset range:101000mS) Lap time: Displays the radar picture depiction lap time. If an updating cycle is shortened, the load of CPU will increase.
(Please preset according to CPU load) Depiction time Interval 3) Color 30 7ZPRR002 White Button: Sets the radar picture display color to white monochrome. Green Button: Sets the radar picture display color to green monochrome. Yellow Button: Sets the radar picture display color to yellow monochrome. Red Slide Bar: Adjusts the red level of radar picture color. Green Slide Bar: Adjusts the green level of radar picture color. Blue Slide Bar: Adjusts the blue level of radar picture color. Reset Button: Resets the gradation curvature. Brightness Scroll Bar: Adjusts the brightness of gradation curvature. Contrast Scroll Bar: Adjusts the contrast of gradation curvature. Gamma Scroll Bar: Adjusts the gamma level of gradation curvature. Example of Adjusting of gamma level 4) Stretch Mode Stretch Mode: Selects the pixel composite method for B-scope conversion.
: Pixel composition is not carried out. None Peak Hold :Maximum value is used. Average : Average value is used. 31 7ZPRR002 Minimum : Minimum value is used. None Peak Hold Average Minimum
(3) PPI Scope 32 7ZPRR002
: Image update is stopped when this switch turned ON.
: Shows cursor position in the picture.
: Moves picture position. (Off-Center)
:Expand the position of cursor. (Zoom-in)
: Reduce the position of cursor. (Zoom-out) Rng. Azi. Input Panel
: Displays distance of cursor position.
: Displays azimuth angle of cursor position.
: Shows display range and range marker interval. Radar Azimuth : Displays the radar antenna azimuth angle. Range Mark
: Selects display on/off of the Range Marker. Azimuth Mark : Selects display on/off of the azimuth marker. 33 Histogram
: Selects display on/off of the histogram. 7ZPRR002
: Selects the histogram section width. 1 x 256, 4 x 64, 8 x 32, 16 x 16, 32 x 8 1 x 256 4 x 64 8 x 32 Split Color: Display on/off of the function to classify a radar picture by color to two gradation is changed. 3D ScopeSelects the 3D display on/off. 34 7ZPRR002 1) Scale Range: Selects the display range scale. (Range/Range Marker Interval) 0.25 / 0.05 NM 0.5 / 0.1 NM 1 / 0.2 NM 2 / 0.5 NM 4 / 1 NM 8 / 2 NM 16 / 5 NM 32 / 10 NM 64 / 20 NM 128 / 50 NM 2) Display Interval Interval: Presets the update interval of radar picture. (Preset range:101000mS) Lap time: Displays the radar picture depiction lap time. If an updating cycle is shortened, the load of CPU will increase.
(Please preset according to CPU load) Depiction time Interval 3) Color 35 7ZPRR002 White Button: Sets the radar picture display color to white monochrome. Green Button: Sets the radar picture display color to green monochrome. Yellow Button: Sets the radar picture display color to yellow monochrome. Red Slide Bar: Adjusts the red level of radar picture color. Green Slide Bar: Adjusts the green level of radar picture color. Blue Slide Bar: Adjusts the blue level of radar picture color. Reset Button: Resets the gradation curvature. Brightness Scroll Bar: Adjusts the brightness of gradation curvature. Contrast Scroll Bar: Adjusts the contrast of gradation curvature. Gamma Scroll Bar: Adjusts the gamma level of gradation curvature. Example of Adjusting of gamma level 4) Stretch Mode Stretch Mode: Selects the pixel composite method for B-scope conversion.
: Pixel composition is not carried out. None Peak Hold :Maximum value is used. Average : Average value is used. Minimum : Minimum value is used. 36 None Peak Hold 7ZPRR002 Average Minimum 2.4.4.2 Input Image Selectes the input source Radar (Socket) : Selects radar signal. Simple Pattern : Selects the Test Pattern. Cycle: Presets the test pattern rotation speed. Bitmap File: Makes the bitmap file.
: Selects the bitmap file. Noise++ : Superimpose the noise signal. (This setup is not saved.) 37
(1) Socket The TCP/IP UDP client socket for connecting with radar signal processing equipment (CDC-
1469) on NTG-420 SSTRX is set up. 7ZPRR002 Startup Auto Open: Automatically sets the socket to the application startup in the case to be open. Port No: Presets the receiving port number of UDP socket. Status : Status of UDP socket.
: Close
: Open
: Ready for Transmission
: Under transmission
: Waiting the receiving
: Under receiving Open(or Close) Button : Open (or close) the socket Receive Buff Size : Presets the receiving buffer size. (1 - 512MB) 1) Radar Information Azimuth ACP Resolution Rotational Period Azimuth Resolution]: Displays azimuth resolution. (The value which divided 360 degrees by the number
: Displays radar antenna azimuth angle. (Latest sweep message angle)
: Displays ACP resolution.
: Displays Antenna revolution period and rotation speed(rpm). of sweeps) 2) Message1 38 7ZPRR002 Display the header information of the receiving message. Format of Receiving Message Type Header Size 12 bytes Description Message ID (0x48) Message size(12) Sequence Number(0 255) Range bin size Antenna encoder bit number(0x00:11,0x01:12) Antenna Angle information CRC32c Message ID (0 x 44) Message size(Range bin size + 3) Data (Echo strength data) Sweep data Range bin size
+3bytes 3) Message2 & Counters Message ID Message Size :Displays the message size of sweep data.
:Displays the message ID of sweep data (0 x 44).
*Message size = Range bin size+3.
:Displays event counters of sweep message receiving process. Event Counters Contents of event counters Location Upper1 Outline It is interrupted 2 seconds or more during message reception. Upper2 Sequence number error Upper3 Azimuth error(skipping) Upper4 Invalid data before Header Upper5 Split receiving of header Lower1 Sweep data ID error Lower2 Mismatching of sweep data range bin number 1 Lower3 Mismatching of sweep data range bin number 2 Lower4 Occurrence of exception during sweep data receiving Detailed If received during the reception of the message is interrupted for two seconds, and discard the message received up to the middle of its sweep. The number of times. Number of times that the header sequence number is not correctly incremented. Number of times that the angle is open more than once of the orientation information in the header. In a state of waiting for reception of the header, bytes on read-and-discard mode of data is not recognized as a header. In a state of waiting for reception of the header, the header is received over a plurality of reception processing. The number of times. In a state of waiting for the reception of the sweep data, the number of bytes on read-and-discard mode when the message ID is not detected. Indicates the number of times the number of data of the range bins number and sweep data of the header do not match. Always 0. The counter to be detected above is always 0. Always 0. (Referred to debugging) that 39 7ZPRR002 Shows maximum sweep number in receved data at 1 time receving by appilication. Indication of whether it is processed smoothly. Lower5 Sweep number 4) Receiving Rate Read Size: : Display the maximum of the data size processed by one reception processing. Receive Rate: Display the maximum of the receiving data size per second. Counter Reset Button: Clear the maximum value of both Read Size and Receive Rate. 5) Error Status It will display an error of application definition that occurred during the receiving process. Error Code: Display the error number. Error File: Display the error of occurred location (source file name). Error Line: : Display the places that have occurred error (line number on the source file). Clear Button: Clear the error display.
(2) Video Gain Video Gain Scroll Bar: Adjust the radar video gain. (-1.00+1.00)
: Reset the Video Gain to default value. (+1.00) Video Offset Scroll Bar: Adjust the offset voltage of radar video. (-1.00+1.00)
: Reset the Video Offset to default value. (0.00) Profit Offset: Gain offset. This value is controlled by other module. 40 7ZPRR002 A/D Video Input Gain Offset Profit offset
(3) RangeRate Range Rate: Select the Range Rate (Resolution) 0 - 7.5m/pixel (20MHz) 1 - 15m/pixel (10MHz) 2 - 22.5m/pixel 3 - 30m/pixel (5MHz) 4 - 37.5m/pixel 5 - 45m/pixel 6 - 52.5m/pixel 7 - 60m/pixel (2.5MHz) 8 - 67.5m/pixel 9 - 75m/pixel (2MHz) 10 - 82.5m/pixel 11 - 90m/pixel 12 - 97.5m/pixel 13 - 105m/pixel 14 - 112.5m/pixel 15 - 120m/pixel (1.25MHz)
(4) Input Bin Size Input Bin Size: Specify the input range bin size. (512 8192)
*By shortening the capture range bin size(length), you can reduce the CPU load. 41
(5) 0m Adjustment 7ZPRR002 0m Adjustment: Adjust the radar echo start range bin. (-2500m - +2500m) This adjustment is for adjusting the center of the radar image and shift the radar image on the home side in pixels.
(6) Azimuth Adjustment Azimuth Adjustment: Adjust the radar azimuth angle. (0x0000 - 0xFFFF) This is for radar echo azimuth angle. Resolution is 360/65536(deg.) 42 2.4.4.3 Failure history Failure history will be displayed for the troubleshooting. 7ZPRR002 Update Button: Update the current logging information. All Clear Button: Clear the all logging information. Save to file Button: Save the current logging data with file name. 2.4.4.4 Simulation This function is to simulate the output of the message of the CDC-1469. It can not use that it has not Open the receiving socket so to send will use the socket for reception. Enabled: This is switch for simulation on/off. Period: Specify the radar antenna rotation speed for the simulation. IP Addr: Specify the output IP address. (127.0.0.1 is special IP which mean own IP address) Port No: Specify the output port number. Send one sweep Button: Outputs the message of one sweep data as single. Outputs the whether Enabled check box is off. 43 Err Sim 1 Button: Outputs the CRC32C of header with taking small interval. Err Sim 2 Button: Outputs any of the data before header. Err Sim 3 Button: Lack the message of 1 sweep length.
*These functions are for communication confirmation and debugging.
(1) Message1 7ZPRR002 Specify the header information of simulated sweep message. Type Header Size 12 bytes Sweep Data Range bin size
+ 3 bytes
(2) Message2 & Counters Description Message ID (0x48) Message size(12) Sequence Number(0 255) Range bin size Antenna encoder bit number(0x00:11,0x01:12) Antenna Angle information CRC32c Message ID (0 x 44) Message size(Range bin size + 3) Data (Echo strength data) Message ID Message Size : Specify the message size od simulated sweep data.
: Specify the message ID of simulated sweep data (0 x 44).
*Message size = Range bin size+3.
:Select the different. (Send Counter) (Receive Counter) Send Counter : Select the both sending data counter and sweep counter. Receive Counter: Select the both receiving data counter and sweep counter. Difference Number of bytes: Display the data counter. Number of sweeps: Display the sweep counter. Clear Button: Clear the above counter. 2.4.4.5 Sweep Tag Tag Format (Size):
44 None(0): No hardware Tag. Range bin 40804095 Padding data 16bytes Description 34079 Radar picture data 3 - 4079 Radar picture data 2 Radar picture data 1 Radar picture data 0 PciVdo(16): Pci Vdi format Range bin 164095 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Description Radar picture data 0 - 4079 Command register H Command register L End distance H End distance L Start distance H Start distance L Times of day H Times of day L Dummy PPS counter value H PPS counter value M PPS canter value L External Tag H External Tag L Radar antenna azimuth H [65536 / 360]
Radar antenna azimuth L [65536 / 360]
PciRvi(4) : Pci Rvi format Range bin 40844095 Padding data 12 bytes Description 44083 3 2 1 0 Radar picture data 0 - 4079 External Tag H External Tag L Radar antenna azimuth H [65536 / 360]
Radar antenna azimuth L [65536 / 360]
7ZPRR002 Remarks 0 Fixed Valid Valid Valid Valid Remarks Valid 0 Fixed 0 Fixed Valid Valid 0 Fixed 0 Fixed 0 Fixed 0 Fixed uncertainty 0 Fixed 0 Fixed 0 Fixed 0 Fixed 0 Fixed Valid Valid Remarks 0 Fixed Valid 0 Fixed 0 Fixed Valid Valid 45 PciRvi(16): Pci Rvi format + 12 bytes padding Range bin 164095 415 Description Radar picture data 0 - 4079 Padding data 12bytes External Tag H External Tag L Radar antenna azimuth H [65536 / 360]
Radar antenna azimuth L [65536 / 360]
Nams(10): Nams format Range bin Description 40904095 Padding data 6bytes (=0) 104089 Nams(16): Nams format + 6bytes padding Range bin 164095 1015 Radar picture data 0 - 4079 End distance H End distance L Start distance H Start distance L Radar antenna azimuth H [65536 / 360]
Radar antenna azimuth L [65536 / 360]
PPS times of day H PPS times of day MH PPS times of day ML PPS times of day L Description Radar picture data 0 - 4079 Padding data 6bytes End distance H End distance L Start distance H Start distance L Radar antenna azimuth H [65536 / 360]
Radar antenna azimuth L [65536 / 360]
PPS times of day H PPS times of day MH PPS times of day ML PPS times of day L 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 7ZPRR002 Remarks Valid 0 Fixed 0 Fixed 0 Fixed Valid Valid Remarks 0 Fixed Valid Valid Valid 0 Fixed 0 Fixed Valid Valid 0 Fixed 0 Fixed 0 Fixed 0 Fixed Remarks Valid 0 Fixed Valid Valid 0 Fixed 0 Fixed Valid Valid 0 Fixed 0 Fixed 0 Fixed 0 Fixed 46 7ZPRR002 2.5.5 Admin Menu This menu is a summary of the settings to be performed when the system is introduced. This is not used in normal. To display this menu, complete the following steps. i. Click the File of main menu with pushing the Ctrl key. ii. Select the Admin Menu of Menu. iii. Push the OK button after input the password.
(Initial password: Admin) Administrator menu 2.5.5.1 Radar Image
(1) A Scope It is an item holder for the A Scope display. 1) Double Buffered Double Buffered: In case a radar picture is updated, it carries out through a buffer. Flicker when moving the image will be reduced by this function.
(2) B Scope It is an item holder for the B Scope display. 1) Double Buffered 47 7ZPRR002 Double Buffered: In case a radar picture is updated, it carries out through a buffer. Flicker when moving the image will be reduced by this function.
(3) Ppi Scope It is an item holder for the Ppi Scope display. 1) Double Buffered Double Buffered: In case a radar picture is updated, it carries out through a buffer. Flicker when moving the image will be reduced by this function. 2.5.5.2 On Error Reboot If reboots, when an error occurs: Reboots the PC at error occurrence. Forced reboot: Reboots immediately. (Test use) 2.5.5.3 Admin Password Admin Password: Set the password to enter to display the Administrator menu. 2.5.5.4 Process Process Priority: Select the application process priority. 0 Real time 1 - High 2 - Above Normal 3 - Normal 4 - Below Normal 5 - Idle High priority Low priority Thread Priority: Select the priority of the application's main thread. 0 - Time Critical High priority 1 - Highest 2 - Above Normal 48 7ZPRR002 3 - Normal 4 - Below Normal 5 - Lowest 6 - Idle Low priority CPU Select: (Not using) 2.5.5.5 Common Memory It is an interface for providing other applications with a radar picture. Main output: Output for shared memory name to the image processing module. Group core: Shared memory name for the final output. 2.5.5.6. Debug For debugging (No discloser) 2.6 Startup parameter The format of the command line parameters Space Enclosed in a long file name is ""
N_Solid.exe /ini=aaa.ini /log=aadf dsa.log No space No space The following control is possible by the command line parameter. Command Line Parameter Description
/ini=(Initialization file name) Specify the initialization file. The default is to N_Solid.ini of module directory. Specify the failure log file name. The default is to N_Solid.log of module directory.
/name=(Instance distinguished name) Specify the unique identification name to create
/log=(Failure log file name)
/mem=( Shared memory name) multiple instances in the PC. Specify the name of the destination shared memory of the captured radar image. 49 3. Specification Transmitting power Transmitter Type Transmission pulse width Transmitting frequency 7ZPRR002
: Non-chirp pulse 9,410MHz(P0N) Chirp pulse 9,440 15MHz(Q0N) Non-Chirp/Chirp pulse (P0N/Q0N) *1
: 200W +1dB, -3dB
: Solid State Power Amplifier(SSPA)
: Refer to Transmission Table(1)
(100W~251W)*2 Pulse repetition frequency(PRF) : Refer to Transmission Table(1) Transmission Table(1) No. Non-chirp pulse Chirp pulse Non-chirp pulse /Chirp pulse Pulse width 0 1 2 3 4 5 6 7 0.07us 0.15us 0.3us 0.15us 0.15us 0.3us 0.6us 0.07us 2.8us 4.6us 9.1us 18.3us 28.0us 9.1us 9.1us 2.8us 0.07us/2.8us 0.15us/4.6us 0.3us/9.1us 0.15/18.3us 0.15us/28.0us 0.3us/9.1us 0.6us/9.1us 0.07us/2.8us PRF 2280Hz 2280Hz 2280Hz 1280Hz 640Hz 1864Hz 1280Hz 4100Hz Minimum Detection Signal(MDS) : -93dBm or less A/D Sampling rate Pulse compression Video Processing function Output signal Radar control/monitoring Power supply Power consumption Dimensions Operation temperature range
: 16bit/84MHz
: Provided
: Interference rejection, CFAR and Coherent integration
: Radar video and Trigger
: TCP/IP communication
: DC48V 10%
: Less than 130W
: 554mm(W) x 330mm(D) x 580mm(H)
(Including Mounting Plate)
: -15 ~ +50C, Non-condensing
: 93% @+40C
: -25 ~ +60C Storage temperature range Relative humidity
*1: Transmits both P0N and Q0N at simultaneously
*2: Transmitting power is fixed. 2) Radar Control/Monitoring PC display Hardware PC Model CPU Memory Hard Disk
: HP Z230 or equivalent/ 32 or 64bit Model
: Xeon 2.8GHz or more
: 4Gbyets or more
: 500GB or more 50 7ZPRR002 NIC#1 NIC#2 OS Software Feature
: Gigabit (1000Mbps) Jumbo Frame more than 9014bytes
: Ethernet (1000Mbps/100Mbps/10Mbps)
: Windows 7 Professional (32 or 64bit)
: Radar Control Radar Condition Monitoring Radar Echo Display NTP Time adjustment VNC Server 51 7ZPRR002 FCC Caution Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
1) Reorient or relocate the receiving antenna. 2) Increase the separation between the equipment and receiver. 3) Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. 4) Consult the dealer or an experienced radio/TV technician for help. This device complies with Part 80 and Part 90 of the FCC rules. 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. IC (Indutry Canada) This device complies with Industry Canadas licence-exempt RSSs. 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. Le prsent appareil est conforme aux CNR dIndustrie Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes :
1) lappareil ne doit pas produire de brouillage;
2) lutilisateur de lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. 52
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2016-08-18 | 9440 ~ 9440 | MRD - Marine Radar | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2016-08-18
|
||||
1 | Applicant's complete, legal business name |
Japan Radio Co., Ltd.
|
||||
1 | FCC Registration Number (FRN) |
0028126522
|
||||
1 | Physical Address |
226 Airport Parkway
|
||||
1 |
San Jose, California 95110
|
|||||
1 |
United States
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
L******@ul.com
|
||||
1 | TCB Scope |
B3: Maritime & Aviation Radio Services equipment in 47 CFR parts 80 & 87
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
CKE
|
||||
1 | Equipment Product Code |
NTG420
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
Y**** K********
|
||||
1 | Title |
General Manager
|
||||
1 | Telephone Number |
1-408********
|
||||
1 |
k******@jrc.co.jp
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
UL Japan, Inc.
|
||||
1 | Name |
A******** H********
|
||||
1 | Physical Address |
1-22-3 Megumigaoka, Hiratsuka-shi
|
||||
1 |
Kanagawa-ken, 259-1220
|
|||||
1 |
Japan
|
|||||
1 | Telephone Number |
81-46********
|
||||
1 | Fax Number |
81-46********
|
||||
1 |
A******@ul.com
|
|||||
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?: | Yes | ||||
1 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 08/26/2016 | ||||
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 | MRD - Marine Radar | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Solid State Transmitter-Receiver | ||||
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? | Yes | ||||
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 | Output power listed is Conducted(Peak). The antenna(s) used for this transmitter must be fixed-mounted on outdoor permanent structures and limited as shown in this filing. OEM integrators and end-users must be provided with specific operating instructions for satisfying RF exposure compliance. | ||||
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 |
UL Japan, Inc. Shonan EMC EMC Lab.
|
||||
1 | Name |
T**** H******
|
||||
1 | Telephone Number |
+81-5********
|
||||
1 | Fax Number |
+81 5********
|
||||
1 |
T******@jp.ul.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 80,9 | 9410 | 9410 | 211 | 1250 ppm | 37M2P0N | 5SGXEA9K1H40I2N | |||||||||||||||||||||||||||||||||
1 | 2 | 80,9 | 9440 | 9440 | 192 | 1250 ppm | 14M2Q0N | 5SGXEA9K1H40I2N | |||||||||||||||||||||||||||||||||
1 | 3 | 80,9 | 9410 | 9440 | 197 | 1250 ppm | 43M5V0N | 5SGXEA9K1H40I2N |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC