VANGUARD® FTS 370d, 370w, 370r LED Medium Intensity Obstruction Lighting System Reference Manual Part Number F7913702 SERIAL NUMBER Flash Technology, 332 Nichol Mill Lane, Franklin, TN 37067 www.spx.
• • • Marker kit with Flash brand tray cable, no conduit required (SC 370d only) CAT5 communica on cable (Mul -unit systems only) Universal adapter plate & hardware (Op onal) Nut drivers: 1/4”, 5/16”, 3/8” Long-nose pliers Single Beacon Installa on kit (Part # F1370990) 9” or 12” #2 flathead screwdriver, 1/8” Flathead screwdriver Level • • • • • • Op onal: 1/2” & 3/4” flex conduit & connectors Cable Ties #2 Phillips® head screwdriver Wire strippers Digital volt-ohm meter Combina on wrenches to inc
Protect with 4 wraps of supplied 2” electrical tape. MKR 370 WIRING INSTRUCTIONS Single flashhead cable provides power and telemetry for flashhead and L810 markers. AMach the flashhead cable with tape provided. Use of cable es is not recommended. Apply tape per 2-3-4 method. NEC states ver cal cable runs should be secured with intervals not exceeding 5 feet. Allow 1” to 3” excess cable around tower leg flanges to avoid abrasion.
FTS 370d/w/r INSTALLATION CHECKLIST System Controller (SC) 370 The SC 370 is mounted away from radio frequency interference (RFI). The SC 370 is mounted upright. Lightning protection is grounded to the site grounding system. 2 AWG (min.) is used from the SC 370 grounding lug to the site lightning grounding system (tested for 1ohm or less). The bend radius for all ground wires is greater than 8" (avoid bending ground wires if possible).
Flashhead The LED beacon is wired correctly. The wires are positioned so no arcing can occur and wire colors match the terminal designations, and flashhead cable is secured in the terminal block. The dome nut of the beacon’s cable strain relief is tightened for cable support and to prevent moisture intrusion. Drip loop is present for the LED beacon. The LED beacon is securely closed with both latches in place.
Front Matter Abstract This manual contains information and instructions for installing, operating and maintaining the FTS 370d, 370w and 370r LED Medium Intensity Obstruction Lighting Systems with the following input voltages: 120-240V AC, 24V DC and 48V DC. All model variants support optional IR (infrared) output. Copyright Copyright © 2015, Flash Technology, Franklin, TN, 37067, U.S.A. All rights reserved.
Personnel Hazard Warning Dangerous Voltages Dangerous line voltages reside in certain locations in this equipment. Also, this equipment may generate dangerous voltages. Although Flash Technology has incorporated every practical safety precaution, exercise extreme caution at all times when you expose circuits and components, and when you operate, maintain, or service this equipment. Avoid Touching Live Circuits Avoid touching any component or any part of the circuitry while the equipment is operating.
Table of Contents Front Matter ........................................................................................................................................ i Personnel Hazard Warning ................................................................................................................ ii Table of Contents.............................................................................................................................. iii List of Figures .....................................
System X Firmware ......................................................................................................................67 USB Firmware Update..................................................................................................................68 Information Display Alarms .........................................................................................................68 Section 4– Web Interface..............................................................................
List of Figures Figure 1-1 – SC 370 (AC)......................................................................................................... 4 Figure 1-2 – PCB1 Controller Board ........................................................................................ 5 Figure 1-3 – Information Display and User Interface............................................................... 6 Figure 1-4 – Alarm Interface & Mode Indicator Connections .................................................
List of Tables Table 1-1 – Physical Specifications....................................................................................................2 Table 1-2 – Performance Specifications .............................................................................................3 Table 1-3 – Status & Alarm LEDs......................................................................................................7 Table 1-4 – Alarm Interface & Mode Indicator Connections...................................
Section 1 – Introduction and Operation Introduction FTS 370d and FTS 370w are LED Medium Intensity Obstruction Lighting Systems. FTS 370d series are Dual Lighting Systems (red/white) for L864/865 applications. FTS 370w series are White Lighting Systems for L-865 applications. FTS 370 series lighting systems may also be configured for Catenary operation. Catenary lighting systems require three levels (tiers) of lights.
Specifications Table 1-1 – Physical Specifications 2 Equipment Model Physical Specifications SC 370 System Controller (Standard): Dimensions H x W x D (millimeters) Weight (kilograms) 23.82 x 17.25 x 8.51 in (605 x 438.3 x 216.2) 39 lb (18.1) SC 370 System Controller (Stainless Option): Dimensions H x W x D (millimeters) Weight (kilograms) 23.00 x 17.13 x 6.44 in (584.2 x 435.1 x 163.6) 40 lb (18.1) Marker Interface (Standard): Dimensions H x W x D (millimeters) Weight (kilograms) 16.1 x 10.5 x 4.
Table 1-2 – Performance Specifications Parameter Flash Intensity (nominal): Day (White) Night (Red) Night (White), White Backup Flash Rate: Day (White) Night (Red) Night (White), White backup Primary Power FAA Lighting Type L-864 and L-865 L-866 and L-885 20,000 ± 25% ECD 2,000 ± 25% ECD 2,000 ± 25% ECD 20,000 ± 25% ECD 2,000 ± 25% ECD 2,000 ± 25% ECD 40 flashes per min. 20/30/40 flashes per min. 40 flashes per min. 60 flashes per min. 60 flashes per min. 60 flashes per min.
SC 370 Operation Overview An internal view of the SC 370 is shown in Figure 1-1. Component layout diagrams with part names and numbers are shown in Figures 6-1 (AC) and 6-2 (DC). Internal wiring diagrams are shown in Figures 2-22 – 2-26 (AC) and 2-27 – 2-31 (DC). the fuses or MOV. Fuse holders are hinged on the lower side. Pull down and open the side cover to access the fuse. Input power is connected to terminal block TB1.
PCB1 Controller Board PCB1 controls and monitors operation of the SC 370 and its associated flashhead. Each section of PCB1, outlined in the Status & Alarm LEDs photo below, is discussed in the following subheadings.
PCB1 Information Display and User Interface A multi-line OLED (Organic LightEmitting Diode) display provides system status, alarm and programming information. Three pushbuttons located to the immediate right of the display provide the user interface for the system. The top and bottom buttons move the cursor position (*) up and down on the display. The center button selects the action at the cursor position.
Table 1-3 – Status & Alarm LEDs LED DAY ALARM NIGHT ALARM MARKER ALARM PHOTODIODE COMM ALARM GPS SYNC DAY MODE RED NIGHT WHITE NIGHT Indication Red to indicate one or more of the following conditions: 1. The connected beacon is experiencing a failure in Day mode. 2. The beacon is not communicating with the SC 370. The Day Alarm will be accompanied by the Night Alarm and the Comm. Alarm in this instance. Red to indicate one or more of the following conditions: 1.
Alarm Interface & Mode Indicator Connections Dry contact alarm connections, located on PCB 1, are available regardless of any additional monitoring method used. The available dry contact alarm outputs are listed in Table 1-4 and shown in Figure 1-4. Each contact may be wired as normally open or normally closed. The contacts are labeled to indicate their state with the system powered on without an alarm present. Mode indicator contacts are available on P4 terminals 10 – 12.
P2 Auxiliary Input J4 Communication Cable Connection The Auxiliary Input (previously labeled LOW BAT) allows an external device, such as a radar system, to inhibit the output of the beacon. Control via the Auxiliary Input is limited to systems consisting of a single SC 370 power and control unit. Control is supplied by a dry contact in the external device and is connected to “Aux In” (P2 terminal 3) and “DC –” (P2 terminal 1).
PCB3 Smart Board The optional PCB3 “Smart Board” (PN 2424500) is installed on top of PCB1 of the SC 370 programmed as System 1. It provides an interface to the following advanced monitoring capabilities not available on the standard system: Cellular Eagle 2.0, RS 485 Modbus RTU, Ethernet SNMP, Ethernet Eagle 2.0 and Ethernet Modbus. The GPS enabled Smart Board (PN 2424501), shown in Figure 1-5, provides the same capabilities as the standard Smart Board with the addition of GPS synchronization.
FH 370d/w/r FH 370d/w/r, shown in Figure 1-6, is divided into two sections: light engine, and base assembly. The light engine is comprised of highly efficient LEDs which are focused by Fresnel optics to produce the required output per FAA specifications for the following types: L-864/865 (dual), L865 (white), L-866/885 (dual Catenary), L-885 (white Catenary) or L-866 (red Catenary) beacons.1 In the event service is required, the light engine is field replaceable as a single assembly.
Marker Interface Enclosure (SC 370d - L-864/865 only) Operation Overview The Marker Interface Enclosure mounting diagram is shown in Figure 2-14 (Stainless Steel option shown in Figure 2-15) and the wiring diagram is shown in Figure 232. Operational power for the Marker Interface PCB and connected L-810 markers is supplied by the flashhead cable.
MKR 370 (SC 370d L-864/865 only) MKR 370 DC, shown in Figure 1-8, is a 24V DC LED L-810 marker. The innovative design combines three highly efficient LED’s and Fresnel optics into a compact cast aluminum base which is easy to install; requiring minimal hardware. MKR 370 DC IR (Infrared), which is visually identical to MKR 370 DC, adds three IR LEDs. The addition of IR ensures visibility of the obstruction to pilots aided by NVG.
Section 2 – Mounting and Installation Unpacking Inspect shipping cartons for signs of damage before opening. Check package contents against the packing list and inspect each item for visible damage. Report damage for System 1 and each subordinate unit installed in the system. See Section 3 for a detailed description of the menu and all functions of the information display. claims promptly to the freight handler. SC 370 Access Note: Record equipment serial numbers for future reference.
Wiring Typical E1/D1 & E2/D2 component location diagrams are shown in Figures 2-16 and 217. A D1/D2 system wiring diagram is shown in Figure 2-19 and an E1/E2 wiring diagram is shown in Figure 2-20. A typical Catenary component location diagram is shown in Figure 2-18 with a wiring diagram shown in Figure 2-21. Installation notes for system types shown in Figures 2-19 - 2-21 are located after each figure. Installation instructions concerning MKR 370 L-810 marker fixtures are supplied with the marker kit.
Ensure that watertight. the installation is Note: See Cellular Antenna and GPS Antenna for additional information regarding the Antenna Mounting Bracket Kit. Cellular Antenna A Cellular antenna (Verizon magnetic mount or AT&T body mount) is required with either of the optional cellular modems shown in Figure 6-1. The supplied antenna mounting bracket’s top plate accommodates either the magnetic mount or body mount style antenna as shown in Figure 2-2.
6. Tighten the cable strain relief on the bottom of the SC 370 enclosure securely. GPS Antenna The GPS antenna, shown in Figure 2-1, is required with the GPS enabled PCB3 Smart Board shown in Figure 1-5. Follow the method below to install the GPS antenna. Important! The GPS antenna must be mounted outdoors with an unobstructed view of the sky. 1. Disconnect AC power to the SC 370 and wait 5 minutes for voltage to bleed off. 2.
Cellular Antenna PHD 512 GPS Antenna Figure 2-1 – Antenna Mounting Bracket with PHD 512, Cellular and GPS Antennas (Body Mount Antenna shown) Magnetic Mount Antenna Verizon Only Body Mount Antenna AT&T or Verizon Figure 2-2 – Antenna Types 18 Revision 10 – 1/09/2015 FTS 370d/w/r
Communication Cable Kit A CAT 5 cable provides the RS 485 communications link between the SC 370 designated as System 1 and all subordinate units installed in the system. Two connections at J4 on PCB1 allow multiple units to be daisy chained together. Either port may be utilized as an input to or output from PCB 1. The required number of Communication Cable Kits (P/N 4362039) is supplied with each complete SC 370 system.
SC 370c Enclosure (Bottom View) Conduit Hub (P/N 5991618) Conduit Nipple ¾” x 12” (P/N 5990290) Adjustable Clamp 1 1/16” – 2” SS (P/N 5990253) WiFi Antenna (P/N 5905231) Conduit Coupling ¾” (P/N 5991885) Cable Strain Relief ¾” NPT (P/N 4900156) with Custom Insert (P/N 5362009) Shielded CAT 5 Cable (P/N 4362028) Remove to Install GND wire. Install GND wire from Antenna to Site GND.
Dry Contact Alarm Outputs Dry contact alarm outputs, located on PCB1, are available regardless of any additional monitoring method used. The available dry contact alarm outputs are listed in Table 1-4 and shown in Figure 1-5. Each contact can be wired as normally open or normally closed. NOTE: The alarm relay contacts are labeled to represent their state with the unit powered on and with no alarms present.
Securing the Cable Flash Technology provides the material for securing the flashhead cable to a skeletal structure with the following technique. Always adhere to local electrical codes that could supersede this recommended technique: 3. Wrap four full turns of two-inch Scotchrap #50 tape, or the equivalent, over the Scotchrap Filament #890 tape. 1.
Marker Interface Enclosure (FTS 370d L-864/865 only) Note: Complete instructions for installing the Marker Interface Enclosure, marker mounting brackets and MKR 370 L810 markers are provided with the marker kit. Refer to “MKR 370 Wiring Instructions” (Part # 7119001) for specific information regarding cable connection to the MKR 370. Wiring information is provided in the following steps. Figure 2-5 shows the Marker Interface Enclosure with three markers connected.
Figure 2-5 – Marker Interface Wiring 24 Revision 10 – 1/09/2015 FTS 370d/w/r
Flashhead Installation base of the flashhead with the holes in the tower or pedestal’s mounting plate. Mounting Flash Technology recommends the installation of one or more lightning rods near the uppermost flashhead(s). The copper lightning rods should extend a minimum of 36” above the height of the flashhead and a minimum of 18” horizontally away from the flashhead. The flashhead is mounted to the tower pedestal utilizing ½ inch galvanized or stainless steel hardware.
Wiring NOTE: Install a 5’ service loop in the cable near the flashhead. 1. With the flashhead securely mounted to the tower, unfasten the two latches that secure the light engine (top assembly) to the base. 2. Lift the light engine assembly to expose the flashhead terminal block. 3. Prepare the flashhead cable: a. Remove 6 inches of the outer jacket. b. Remove the exposed aluminized Mylar shield and any filler material between conductors. 4.
17.25 (438.27) 15.00 (381.00) 7.50 (190.50) 12.25 (311.15) 8.51 (216.19) 23.82 (605.03) 22.67 (575.74) 22.57 (573.28) Ø0.50 (12.70) (2 PLACES) Ø0.42 (10.54) (3 PLACES) ENCLOSURE RIGHT VIEW ENCLOSURE FRONT VIEW HINGE KNOCKOUT TABLE (ALL HOLES KNOCKOUT FROM INSIDE) B B A B B B A A B B B A LETTER KNOCKOUT SIZE DIA A 0.875 (22.4) B 1.093 (27.8) QTY 4 8 SHADED HOLES REPRESENT FACTORY REMOVED KNOCKOUTS ENCLOSURE BOTTOM VIEW Note: All dimensions are in inches (millimeters).
12.25 (311.2) 6.44 (163.6) 2.25 (57.2) 0.62 (15.8) 21.75 (552.5) SEE DETAIL A O 0.88 (22.4) 6.00 (152.4) B B B B B A A B A B B B 0.00 DETAIL A SYM A B 16.75 (425.5) 0.00 0.88 (22.4) HOLE LEGEND QTY HOLE DIA. 0.88 (22.4) 3 1.093 (27.8) 9 Note: All dimensions are in inches (millimeters).
14.5 (368.3) 'OPTIONAL PANEL MTG.' 12.25 (311.2) 'DUAL LED PC' & 'XENON PC' A A B C B B B C C C 12.76 (324.1) 'FTW' 14.75 (374.7) 'FTM / SMALL FLC' 15.47 (392.9) 'XENON PC' & 'OPTIONAL PANEL MTG.' 21.75 (552.5) 'DUAL LED PC' B B B B C C C A C A 8.00 (203.2) 'FTW' 10.00 (254) 'FTM / SMALL FLC' HOLE CHART LETTER HOLE SIZE QTY A 0.50 (12.7) DIA THRU 4 B 0.38 (9.7) DIA THRU 8 C 0.44 (11.2) X 0.75 (19.1) LG SLOT THRU 8 Note: All dimensions are in inches (millimeters).
2.58 (65.5) 2.28 (57.8) 0.38 (9.5) 3.06 (77.7) 0.13 (3.3) HEX 1.00 (25.4) 1/2" NPT Note: All dimensions are in inches (millimeters).
15.75 (400) 7.5 (190.5) Note: All dimensions are in inches (millimeters).
2.00 (50.8) 8.00 (203.2) 1/4-20 UNC (TYP OF 3) 6.00 (152.4) 0.38 (9.7) 1.20 0.38 (9.7) (30.48) 2.06 (52.3) 1.20 (30.48) 0.87 (22.1) 0.45 (11.4) 3/4-14 NPS 1.26 (32.0) Note: All dimensions are in inches (millimeters).
10.50 (266.70) 5.00 (127.00) 3.00 (76.20) 16.10 (408.94) 14.92 (378.97) 4.91 (124.79) 13.78 (350.01) ENCLOSURE Ø0.50 (12.70) (2 PLACES) ENCLOSURE FRONT VIEW RIGHT VIEW HINGE KNOCKOUT TABLE (ALL HOLES KNOCKOUT FROM INSIDE) A A B B A A A LETTER KNOCKOUT SIZE DIA QTY A 0.875 (22.4) 5 B 1.093 (27.8) 2 SHADED HOLES REPRESENT FACTORY REMOVED KNOCKOUTS ENCLOSURE BOTTOM VIEW Note: All dimensions are in inches (millimeters).
8.50 (215.9) 13.75 (349.3) 13.00 (330.2) O1.13 (28.7) O 0.88 (22.4) TYP OF 2 TYP OF 5 4.36 (110.7) 10.00 (254) Note: All dimensions are in inches (millimeters).
LIGHTNING ROD MUST EXTEND 36" (MIN) ABOVE AND BE LOCATED 18" HORIZONTALLY AWAY FROM UPPERMOST FLASHHEAD(S) FLASHHEAD FH370d/w #8 AWG MIN GROUND WIRE FROM FLASHHEAD TO TOWER STEEL MARKER INTERFACE ENCLOSURE MKR 370 LED L-810 MARKERS 1/2 OVERALL TOWER HEIGHT #8 AWG MIN GROUND WIRE FROM MARKER INTERFACE ENCLOSURE TO TOWER STEEL PHOTODIODE GPS ANTENNA (OPTIONAL) SC 370d/w TO SITE POWER #2 AWG MIN TO SITE GROUNDING SYSTEM GROUND LEVEL Note: Markers and Marker Interface Enclosure are omitted for D1 Insta
LIGHTNING ROD MUST EXTEND 36" (MIN) ABOVE AND BE LOCATED 18" HORIZONTALLY AWAY FROM UPPERMOST FLASHHEAD(S) FLASHHEAD FH370d/w #8 AWG MIN GROUND WIRE FROM FLASHHEAD TO TOWER STEEL MARKER INTERFACE ENCLOSURE MKR 370 LED L-810 MARKERS 3/4 OVERALL TOWER HEIGHT #8 AWG MIN GROUND WIRE FROM MARKER INTERFACE ENCLOSURE TO TOWER STEEL FLASHHEAD FH370d/w FLASHHEAD 1/2 OVERALL TOWER HEIGHT FH370d/w (BUT NOT LOWER THAN 200') #8 AWG MIN GROUND WIRE FROM FLASHHEAD TO TOWER STEEL (TYP OF 2) MARKER INTERFACE ENCLO
Figure 2-18 – Typical Catenary Component Locations FTS 370d/w/r Revision 10 – 1/09/2015 37 SITE POWER TOP PHOTODIODE MIDDLE BOTTOM FTS 370d/w/r CATENARY BOTTOM BEACONS MID BEACONS TOP BEACON NATURAL CHASM, ABYSS, OR RIVER TO BE SPANNED BY CABLE. 1. FLASHING SEQUENCE: MID, TOP, BOTTOM. 2. TOP LIGHT MARKS HIGHEST POINT OF STRUCTURE. BOTTOM LIGHT MARKS LOWEST POINT OF CABLE. CABLE TO BE MARKED BY LIGHTS. DROOP EXAGERATED.
PHD 512 PHOTODIODE Figure 2-19 – Typical D1 & D2 System Wiring Diagram 38 Revision 10 – 1/09/2015 FTS 370d/w/r
System Wiring Diagram Notes (D1 & D2) 1. Input power conductor size depends on the service voltage, the distance from the source, and number of SC 370 units connected. Assume 340 VA per SC 370. Also see Note 5. 2. Use only Flash Technology PN 4370000 to connect the flashhead to the SC 370. Splicing of the cable is not permissible on D1 and D2 systems. A 5’ service loop should be placed at the base of the tower near the controller and just below the flashhead.
Figure 2-20 – Typical E1 & E2 System Wiring Diagram RED BLK DRAIN RED BLK DRAIN J5 MKR4 MKR2 Revision 10 – 1/09/2015 MKR 4 MKR 2 TO MARKER INTERFACE BOX TO FH 370D MKR 3 GND MKR 1 MARKER INTERFACE MKR3 MKR1 MARKER INTERFACE BOX GND 40 FTS 370d/w/r
System Wiring Diagram Notes (E1 & E2) 1. Input power conductor size depends on the service voltage, the distance from the source, the number of SC 370 units connected and number of L-810 marker lights served. Assume 340 VA per SC 370. Also see Note 5. 2. Use only Flash Technology PN 4370000 to connect the flashhead to the SC 370. Splicing of the cable is permissible only at the marker interface box (if installed).
Figure 2-21 – Typical Catenary System Wiring Diagram 42 Revision 10 – 1/09/2015 FTS 370d/w/r
System Wiring Diagram Notes (Catenary) 1. Input power conductor size depends on the service voltage, the distance from the source, and number of SC 370 units connected. Assume 340 VA per SC 370. Also see Note 5. 2. Use only Flash Technology PN 4370000 to connect the flashhead to the SC 370. Splicing of the cable is not permissible on Catenary systems. A 5’ service loop should be placed at the base of the tower near the controller and just below the flashhead.
NC NO COM NC COMM ALARM NO COM NC GPS SYNC ALARM NO COM NC PHOTO DIODE ALARM NO COM MODE NC NO COM NC NIGHT ALARM NO COM NC DAY ALARM NO COM WHT FROM EXTERNAL CONTROL INTERFACE (OPTIONAL) AC FAIL AUX IN + DC- GRN BLK PD+ PDVDC+ STATUS PLC VDC- MARKER ALARM VR1 Figure 2-22 – SC 370 (AC) Internal Wiring Standard System 44 Revision 10 – 1/09/2015 FTS 370d/w/r
NC PHOTO DIODEMODE ALARM NO COM NC COMM ALARM NO COM NC GPS SYNC ALARM NO COM NC PHOTO DIODE ALARM NO COM NC NO COM NC NIGHT ALARM NO COM NC DAY ALARM NO COM FROM EXTERNAL CONTROL INTERFACE (OPTIONAL) AC FAIL AUX IN + DC- BL K GRN BLK WHT PD+ PDVDC+ STATUS PLC VDC- MARKER ALARM VR1 Figure 2-23 – SC 370 (AC) Internal Wiring with Smart Board Option FTS 370d/w/r Revision 10 – 1/09/2015 45
NC NO COM NC COMM ALARM NO COM NC GPS SYNC ALARM NO COM NC PHOTO DIODE ALARM NO COM MODE NC NO COM NC NIGHT ALARM NO COM NC DAY ALARM NO COM BL K BLK AC FAIL AUX IN + DC- GRN WHT PD+ PDVDC+ STATUS PLC VDC- MARKER ALARM VR1 Figure 2-24 – SC 370 (AC) Internal Wiring with Modem Option 46 Revision 10 – 1/09/2015 FTS 370d/w/r
NC NO COM NC COMM ALARM NO COM NC GPS SYNC ALARM NO COM NC PHOTO DIODE ALARM NO COM MODE NC NO COM NC NIGHT ALARM NO COM NC DAY ALARM NO COM PD+ PDVDC+ STATUS PLC VDC- MARKER ALARM LAN POE AC FAIL AUX IN + DC- DC 12V EHTERNET 4 5 BL K GRN 3 BLK 2 WHT 1 VR1 Figure 2-25 – SC 370 (AC) Internal Wiring with Modem & WiFi Options FTS 370d/w/r Revision 10 – 1/09/2015 47
NC NO COM NC COMM ALARM NO COM NC GPS SYNC ALARM NO COM NC PHOTO DIODE ALARM NO COM MODE NC NO COM NC NIGHT ALARM NO COM NC DAY ALARM NO COM PD+ PDVDC+ STATUS PLC VDC- MARKER ALARM BL K BLK DC GRN POE WHT LAN FROM EXTERNAL CONTROL INTERFACE (OPTIONAL) AC FAIL AUX IN + DC- VR1 Figure 2-26 – SC 370 (AC) Internal Wiring with WiFi Option 48 Revision 10 – 1/09/2015 FTS 370d/w/r
P4 P3 P2 J4 BLK + RED BLK RED BLK RED BLK + RED BLK Figure 2-27 – SC 370 (DC) Internal Wiring Standard System FTS 370d/w/r Revision 10 – 1/09/2015 49
P4 J6 J5 ETHERNET TX/A RX/B GND +12V GND BATT GND NC P3 J4 J1 P2 J2 J3 BLK + J7 J4 RED BLK RED BLK BLK RED + RED BLK Figure 2-28 – SC 370 (DC) Internal Wiring with Smart Board Option 50 Revision 10 – 1/09/2015 FTS 370d/w/r
P4 J5 ETHERNET TX/A RX/B GND J4 J1 P2 J2 J3 J7 J4 RED BLK J6 +12V GND BATT GND NC P3 BLK + RED BLK RED BLK BLK RED + RED BLK Figure 2-29 – SC 370 (DC) Internal Wiring with Modem Option FTS 370d/w/r Revision 10 – 1/09/2015 51
NC NO COM NC COMM ALARM NO COM NC NO GPS SYNC ALARM COM NC PHOTO DIODE ALARM NO COM MODE NC NO COM NC NIGHT ALARM NO COM NC DAY ALARM NO COM PD+ PDVDC+ STATUS PLC VDC- MARKER ALARM - LAN POE DC IN + - DC + - BAT + DC AC FAIL AC FAIL AUX IN + DC- FROM EXTERNAL CONTROL INTERFACE (OPTIONAL) LOW BATT NC C NO NC C NO IN OUT 12V EHTERNET 1 2 3 4 5 Figure 2-30 – SC 370 (DC) Internal Wiring with Modem & WiFi Options 52 Revision 10 – 1/09/2015 FTS 370d/w/r
NC NO COM NC COMM ALARM NO COM NC NO GPS SYNC ALARM COM NC PHOTO DIODE ALARM NO COM MODE NC NO COM NC NIGHT ALARM NO COM NC DAY ALARM NO COM PD+ PDVDC+ STATUS PLC VDC- MARKER ALARM - LAN POE DC IN + - DC + - BAT + DC AC FAIL AC FAIL AUX IN + DC- FROM EXTERNAL CONTROL INTERFACE (OPTIONAL) LOW BATT NC C NO NC C NO IN OUT Figure 2-31 – SC 370 (DC) Internal Wiring with WiFi Option FTS 370d/w/r Revision 10 – 1/09/2015 53
J1 MKR1 BLK RED GRN J3 GND DC+ EARTH DC+ GND EARTH MARKER ALARMS J2 MKR2 GND DC+ EARTH BLK RED GRN GRN RED BLK MKR3 GRN RED BLK MKR4 J4 EARTH DC+ GND MKR 1 MKR 2 MKR 3 MKR 4 DC+ DC- PCB 1 MARKER INTERFACE (P/N 2422000) RED BLK J5 GND RED BLK DRAIN FH-OUT RED BLK DRAIN FH-IN ENCLOSURE BOTTOM VIEW HOLE DESIGNATION GND GND DC- DC- GND TB 1 (P/N 1362034) MKR4 BLK MKR2 FH-OUT DC+ FH-IN MKR3 RED MKR1 DC+ GND Figure 2-32 – Marker Interface Enclosure Wiring Diagram 54
Section 3 – Information Display Navigating the Information Display Three pushbuttons to the right of the information display provide access to navigate the system menus, configure the system and review diagnostic information. Table 3-1 describes the function of each button. The top level menu is described in Table 3-2. Each menu option is discussed in the headings following Table 3-2.
Ctrl Type Control Type allows any SC 370 in the system to be designated as the controlling unit for the entire system. The programming options are “System1” – “System 6”. System 1 is designated as the control unit and the remaining units are subordinate. Each unit must have a unique address. Typically, an uppermost flashhead is connected to the unit programmed as System 1. The photodiode is always connected to the unit designated as System1.
GPS Sync GPS Sync allows the FTS 370 system to wirelessly synchronize with other lighting systems without regard to distance. GPS Delay adds the flexibility to synchronize with lighting systems from other manufacturers by adding an adjustable delay (0 - 3000 ms) to the flash output. generating a photodiode alarm. This feature is particularly useful in areas that are prone to periods of light or darkness that would exceed the 19 hour mode timer. To activate this feature, select “ON” in the menu.
IR Enable IR Is Night Alarm This option allows the system to enable or disable IR (Infrared) output of IR capable beacons. Verify that the beacon(s) is an FH 370d IR before enabling this option. When set to “Yes”, a detected malfunction in the IR circuit of the FH 370d IR will be treated as a night alarm. When set to “No”, only an “IR Alarm” is generated and no dry contacts are activated. Note: IR Enable must be set to “Yes” for IR operation on FH 370d IR.
Tower Type Number of Beacons 1 Marker Mode 2 Red Flash Mode 3 Flashes Per Minute Red 4 GPS SYNC Load Default Value GPS Delay 5 Catenary 3 Dry Contacts PD (Photodiode) Alarm Disarm 6 Help Site Tower Configuration (System 1 only) Red White Dual 1-6 Steady Flashing Efficiency Legacy 20 FPM 30 FPM 40 FPM Enable/Disable Command Status 0000 ms Valid Range 0-3000 Yes /No Combined Separate On /Off A Secondary System Can Use The Auxiliary Input To Command Lights On/Off.
Local Tower Config The Local Tower Configuration menu simplifies system installation by allowing each SC 370 to discover and bind with its connected external components. The binding process allows the controller to assign an address to each of the connected external components without the need to manually address dipswitches or configure jumpers. Additional programming options in this menu include: AOL beacon selection, Catenary level selection and L810 marker programming.
Bind State Bound/Unbound (Status Only) Please Ensure All Other Systems Are Turned Off. Then Press Enter… Verify All Disabled Systems Twr Pwr Is Less Than 5V.
Monitoring Config The Monitoring Configuration option is only available on the unit programmed as System 1. This option selects the type of monitoring for the system. The options include Local Ethernet Configuration, Primary Data Monitoring and Alternate Data Monitoring. Note: Dry contact monitoring is available regardless of any additional method selected to monitor the system. Note: See Appendix A for complete a complete SNMP trap list.
Yes /No Yes Confirm? Default of Primary / Alternate Monitoring Static IP Address Mode Dynamic IP Address XXX.XXX.XXX.XXX Local Ethernet Configuration Subnet Mask XXX.XXX.XXX.XXX Default Gateway XXX.XXX.XXX.
Monitoring Status The Monitoring Status menu is only available on the unit programmed as System 1. This menu provides information such as signal strength, cell number, cell ESN and time since last poll. The Test Connect option allows the user to manually test the unit’s ability to connect to the monitoring system. All headings in the Monitoring Status menu, other than Test Connect, are informational only. Signal Bars (Cellular Eagle 2.
Mode Override Off Mode Override Off 0D 0h 15M Site Event History 1 Mode Override On Mode Override On 0d 0H 20M Days Operating Firmware Revision SB Control: Month Day Year Firmware [Version X.X] Temperature Controller Controller A2D (Values) Tower Voltage Photo Diode Value GPS Communications GPS (Status Only) 2 Antenna Satellites In View Local Diagnostics Last Sync. Days Operating Firmware Revision SB Beacon: Month Day Year Firmware [Version X.
Lighting Inspection (LI) The Lighting Inspection (LI) menu allows the user to test the alarm function of the beacon in all modes, markers and the photodiode dry contact. The Lighting Inspection can be performed as an automatic function (Auto Fast LI) or manually. The manual Lighting Inspection has three modes available: Manual Fast LI, Manual Staged LI and Manual LI. Manual LI modes require the unit to already be in the correct mode or manually placed in the correct mode before the test can be conducted.
Mode Override Mode Override allows the system to be manually placed in any capable mode for a user definable period of up to 24 hours. Once the mode override function has been activated, Override Mode will show the operating mode of the system. Override Left displays the amount of time remaining in the current Override Mode. Cancel Override returns the system to normal operation with mode control directed by the photodiode.
USB Firmware Update This feature allows any unit with an installed PCB3 Smart Board to be updated via a USB drive. Insert the drive into the USB port located on the lower edge of PCB3 (see Figure 1-5). Once the update package is located on the drive, the unit’s current firmware version will be displayed in a menu similar to “System X Firmware” and ask if you want to update the firmware. Select yes to update; once completed, the unit will reboot and the USB drive may be removed.
Table 3-3 – Information Display Status and Alarm Definitions (continued) Alarm STATUS: BIND ALARM STATUS: TWR SYNC STATUS: GPS ALARM Definition System 1 only. The “BIND ALARM” can be generated by either of the following conditions: • One or more controllers are not bound correctly. A “SYS COMM” alarm will accompany the “BIND ALARM”. • Two or more controllers are bound to the same connected equipment (beacon or marker tier). A “SYS COMM” alarm will not accompany the “BIND ALARM” in this instance.
Section 4– Web Interface Web Interface (Optional) The Web Interface provides a convenient way to configure the system, perform Lighting Inspections and temporarily control mode remotely. Additionally, useful information such as alarm and event history, cumulative runtime and component temperature may be viewed via the web interface.
Lighting Inspection (LI) The following three options are available via the Web interface to perform a Lighting Inspection: Auto Fast LI, Manual Fast LI and Manual Staged LI. A brief description of each LI type is provided onscreen beside the selection. The Test Page button displays previous LI results or displays the current LI in progress. mode, the user must press “Cont.” (Continue) before the system will restore the alarms and advance to the next test.
Mode Override Auxiliary Input The Force Mode Override menu, located below “Lighting Inspection” allows manual selection of the system’s mode. System control will return to automatic after 30 minutes. If enabled, Auxiliary Input is shown between “Force Mode Override” and “Beacon 1”. This menu is informational only and displays the configuration and current status of the interface. Note: Refer to Section 1 “P2 Aux. Input” and Section 3 “Site Tower Config.
Event Log The Event Log displays all events or alarms (up to 500) affecting the operation of the SC 370. A few examples of events that may be found in the event log are: The headings following the pictorial provide a brief overview of each top level Configuration menu option.
System “X” The System “X” Configuration menu is similar to the “Local Tower Config Menu” with one exception: the Bind and Unbind features are only available on single beacon systems (one SC 370 controller). Only the bind status will be displayed when more than one SC 370 is installed. Catenary Level programming will be displayed if Catenary is selected in Tower Lighting menu. Note: The “Discovery” and “Unbind Tower” options are available on single beacon systems only (one SC 370).
Monitoring SNMP Labels The Monitoring menu allows selection of the Primary and Alternate data monitoring methods discussed in Section 3 “Monitoring Configuration”. The SNMP Labels menu provides access for the end user to change the name and severity of the SNMP trap based on their needs. The label changes will not be reflected locally in the system menu.
Cellular Modem This menu will be displayed only if an AT&T HSPA modem is detected in the system. It allows selection of the installed SIM card type as AT&T Direct or AT&T ROW. This menu option is not displayed for Verizon modems. See Section 3 “Monitoring Configuration” for additional information. Note: The front of the AT&T Direct SIM card is blue / white and the back of the card is orange. The AT&T ROW card is solid white.
Section 5 – Maintenance and Troubleshooting Safety Storage Warning! Read the warning on Page ii now. Disconnect primary power before opening enclosures. When not in use, equipment should be stored indoors. Circuit boards (PCB’s), when not installed in the equipment, should be kept in antistatic bags or containers. Work safely, as follows: 1. Remove rings and watches before opening the equipment. RFI Problems 6. Shut off power to the equipment and disconnect the test equipment.
Troubleshooting Follow the troubleshooting steps in the tables below as applicable. Repair procedures are provided in Component Removal and Replacement. Table 5-1 – Troubleshooting – Initial Inspection Step 1.a Check/Test/Action Is the flashhead flashing? 1.b Is the failure related to a connected tier of L810 side markers (marker alarm)? Are alarms present on PCB1? 1.c Yes No Yes No Yes No Action Go to Step 1.b Go to Step 2.a Go to Step 4.a Go to Step 1.c Review Tables 1-3 and 3-3. System okay.
Table 5-3 – Troubleshooting - Flashhead. Step 3.a 3.b 3.c Check/Test/Action Is the correct voltage present in the flashhead? Measure at flashhead terminal block DC+ & DC(60 VDC). Note: If a marker tier is connected between the SC 370 and the flashhead, verify that the correct input and output voltage is present on TB1 of the marker interface box before proceeding to the flashhead.
Table 5-5 – Troubleshooting – Marker Interface Box Step 5.a Check/Test/Action Is the correct voltage present at TB1 in the Marker Interface box? Measure at TB1 DC+ & DC- (60 VDC). 5.b Are any marker alarm indicators (1-4) lit on the marker interface PCB located in the marker junction box? Is the correct voltage present on J5? Measure at J5 DC+ & DC- (60 VDC). Yes No Are the operational voltage status LEDs lit on the marker interface PCB? See Figure 1-7 for location.
Component Removal and Replacement Note the location and color of all wires that you disconnect when troubleshooting or replacing components. Verify that the wiring agrees with the applicable figure in Section 2 after testing or replacing any component. 2. Completely remove or relocate these components. Important! Review the Safety information at the beginning of Section 5 before removing or replacing any component. 5. Replace everything in the reverse order: first the component, then the wiring.
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Section 6 – Recommended Spare & Replaceable Parts Customer Service Customer Service: 1-800-821-5825 Telephone: (615) 261-2000 Facsimile: (615) 261-2600 Shipping Address: Flash Technology 332 Nichol Mill Lane Franklin, TN 37067 Ordering Parts To order spare or replacement parts, contact customer service at 1-800-821-5825. SC 370 Parts Table 6-1 “SC 370 (AC)” lists the major replaceable parts for the SC 370. Table 6-2 “SC 370 (DC)” lists the major replaceable parts for the SC 370 DC.
Figure 6-1 – SC 370 (AC) Component Locations 84 Revision 10 – 1/09/2015 FTS 370d/w/r
Table 6-1 – SC 370 (AC) Replacement Parts Reference Description Part Number PCB 1 PCB CONTROLLER SC 370X PCB 1 Assembly PCB CONTROL SC 370X w/CPU & DISPLAY PCB 2 PCB SURGE SC 370X 1 2420000 2420001 2 2420500 PCB SMART BOARD WITHOUT GPS 2424500 PCB SMART BOARD WITH GPS 2424501 PCB 4 POWER SUPPLY 12VDC 2.
DC IN + - DC BAT + + AC FAIL LOW BATT NC C NO NC C NO IN OUT - + - + V+ VVV+ EHTERNET 1 86 2 3 4 5 Figure 6-2 – SC 370 (DC) Component Locations Revision 10 – 1/09/2015 FTS 370d/w/r
Table 6-2 – SC 370 (DC) Replacement Parts Reference Description Part Number PCB 1 PCB CONTROLLER SC 370X PCB 1 Assembly PCB CONTROL SC 370X w/CPU & DISPLAY PCB 2 PCB SURGE SC 370X DC 1 2420000 2420001 2 2420501 PCB SMART BOARD WITHOUT GPS 2424500 PCB SMART BOARD WITH GPS 2424501 PCB 3 PCB 4 PCB 5 POWER SUPPLY DC/DC 12V 5370650 PCB PROCESSOR MITYARM PROGRAMMED 1 2370700 1 OLED DISPLAY 2370500 POWER SUPPLY DC/DC 48/60V 5370600 POWER SUPPLY DC/DC 24/60V 5370610 FILTER EMI 10A (48
Table 6-3 – FH 370 Replacement Parts Reference Description Part Number FH 370d L-864/L-865, L-866/L-885 LED FLASHHEAD 1370150 FH 370w L-865 & L-866 LED FLASHHEAD 1370140 FH 370r L-885 LED FLASHHEAD 1370130 FH 370d IR L-864/L-865, L-866/L-885 LED FLASHHEAD with IR 1370151 FH 370d FH 370d LIGHT ENGINE REPLACEMENT 1370155 FH 370w FH 370w LIGHT ENGINE REPLACEMENT 1370145 FH 370r FH 370r LIGHT ENGINE REPLACEMENT 1370135 FH 370d IR FH 370d IR LIGHT ENGINE REPLACEMENT 1370158 FH 370d/w/r
Table 6-5 – System Replacement Parts Reference Description Part Number FTS 370D/W/R INSTALLATION KIT, FTS 370 - SINGLE BCN 1370990 SC 370D/W/R CABLE KIT SC 370X RS-485 COMM UNSHLD, 6 FT 4362039 SC 370D/W/R CABLE SC 370X RS-485 COMM UNSHLD, 6 FT SC 370D/W/R CABLE SC 370X RS-485 COMM UNSHLD, 10 FT 2 4362026 SC 370D/W/R CABLE SC 370X RS-485 COMM UNSHLD, 15 FT 2 4362027 FTS 370D/W/R CABLE TC-ER RATED AWG 8 2 CONDUCTOR 4370000 SC 370 D/W/R PHD 512 PHOTODIODE W/20' PIGTAIL 1855512 SC 370
Appendix A: Vanguard (v3.1) SNMP V2c INFORM TRAPs Vanguard supports SNMP V2c INFORM TRAPs to notify SNMP managers of field events. Any INFORM that is not acknowledged within 20 minutes will be resent every 20 minutes until it is acknowledged; up to 24 hours. SNMP TRAPs do not require acknowledgement. This document describes the default severities for INFORMs. The severity setting and name for all INFORMs is configurable via the Vanguard web interface or SNMP sets.
Table A-1 – Critical INFORMs Name Default Severity whiteDayAlarmNotify Critical whiteNightAlarmNotify Critical redNightAlarmNotify Critical beaconCommunicationAlarmNotify Critical photodiodeAlarmNotify Critical systemPowerFailureAlarmNotify Critical towerLightingConfigurationAlarmNotify Critical towerLightingSyncAlarmNotify Critical plcBindingsAlarmNotify Critical FTS 370d/w/r Description White Day Alarm (DAY ALARM): The connected flash head is exhibiting a white day alarm.
Table A-2 – Warning INFORMs Name Default Severity infraredAlarmNotify Warning Infrared Alarm (IR ALARM): The connected flash head is exhibiting an IR alarm. .1.3.6.1.4.1.9882.1.2.1.1.27 systemGPSSyncAlarmNotify Warning System GPS Sync Alarm (GPS ALARM): System 1 only. GPS synchronization has not occurred for a period of one hour or more. Possible causes are: •GPS antenna is obstructed or does not have a clear view of the sky. •GPS antenna failure.
Table A-3 – Informational INFORMs Name Default Severity systemCommunicationAlarmNotify Info lightingInspectionTestModeNotify Info systemVoltageHighNotify Info systemVoltageLowNotify Info siteModeOverrideNotify Info communicationChangeNotify Info automaticUpdateNotify Info populationChangeNotify Info lowTowerLightingDCVoltageAlarm Notify Info photodiodeModeChangeNotify Info FTS 370d/w/r Description System Communication Alarm (SYS COMM): General communications failure indication.
Appendix B: Vanguard Modbus Specification Map (V8). Modbus RTU over RS485 The Vanguard system master controller (VSMC) is configured to be a Modbus slave device. It is statically configured as follows: Station ID Baud Rate Data Bits 2 9600 8 Parity Stop Bits Flow Control None 1 None Modbus RTU over TCP The Vanguard system master controller is configured to be a Modbus slave device. It is statically configured as Station 2 and host TCP socket # 502.
Tower Configuration Registers Register Address 9 10 11 Read/Write R/W R/W R/W 12 R 13 14 15 16 17 18 19 20 21 R/W R/W R/W R/W R/W R/W R R R/W Markers Per Tier 1 Markers Per Tier 2 Markers Per Tier 3 Markers Per Tier 4 Markers Per Tier 5 Markers Per Tier 6 Reserved Reserved IR Enable 22 R/W IR Alarm is Night Alarm 23 24 25 26 27 R/W R/W R/W R/W R/W FPM Red FPM White Marker Mode Red Flash Mode Catenary Enable 28 R/W AOL Beacons setting 29 R/W GPS Enable Register Name GPS Delay Tower Type Be
QLI Test and Results Registers (Continued) 96 Register Address Read/Write 31 R Register Name QLI Stage Description / Values 1 – QLI Inactive 2 – QLI Set Day Mode 3 – QLI Beacon Day Pretest 4 – QLI Beacon Day Alarm 5 – QLI Beacon Day Alarm Check 6 – QLI Beacon Day Restore 7 – QLI Beacon Day Restore Check 8 – QLI Set White Night Mode 9 – QLI White Night Pretest 10 – QLI White Night Alarm 11 – QLI White Night Alarm Check 12 – QLI White Night Restore 13 – QLI White Night Restore Check 14 – QLI Set Red N
QLI Test and Results Registers (Continued) Register Address Read/Write 31 R FTS 370d/w/r Register Name QLI Stage (Continued) Description / Values 81 – SEQQLI Beacon 5 Day Pretest 82 – SEQQLI Beacon 5 Day Alarm 83 – SEQQLI Beacon 5 Day Alarm Check 84 – SEQQLI Beacon 5 Day Restore 85 – SEQQLI Beacon 5 Day Restore Check 86 – SEQQLI Beacon 6 Day Pretest 87 – SEQQLI Beacon 6 Day Alarm 88 – SEQQLI Beacon 6 Day Alarm Check 89 – SEQQLI Beacon 6 Day Restore 90 – SEQQLI Beacon 6 Day Restore Check 91 – SEQQLI S
QLI Test and Results Registers (Continued) 98 Register Address Read/Write 31 R Register Name QLI Stage (Continued) Description / Values 146 – SEQQLI Beacon 5 Red Night Restore 147 – SEQQLI Beacon 5 Red Night Restore Check 148 – SEQQLI Beacon 6 Red Night Pretest 149 – SEQQLI Beacon 6 Red Night Alarm 150 – SEQQLI Beacon 6 Red Night Alarm Check 151 – SEQQLI Beacon 6 Red Night Restore 152 – SEQQLI Beacon 6 Red Night Restore Check 153 – SEQQLI Marker Tier 1 Red Night Pretest 154 – SEQQLI Marker Tier 1 Re
QLI Test and Results Registers (Continued) Register Address Read/Write 32 R System 1 Results 33 34 35 36 37 R R R R R System 2 Results System 3 Results System 4 Results System 5 Results System 6 Results Register Name System 1 Expanded Results 38 39 40 41 42 43 R R R R R R System 2 Expanded Results System 3 Expanded Results System 4 Expanded Results System 5 Expanded Results System 6 Expanded Results Description / Values Bit 0 – Beacon 1 not tested (0), was tested in White Day (1) Bit 1 – Beacon
Tower Monitoring Interface Register Address 100 Read/Write Register Name 70 R Tower Status State 71 R Tower Configuration State 72 R Controller Alarms/Indications 73 R 74 R 75 R 76 R 77 R 78 R 79 R 80 R 81 R 82 R Marker Alarms (MKR ALARM) 83 R Marker Alarms Changed 84 R 85 R 86 R 87 R 88 R Controller Alarms/Indications Changed Beacon White Day Alarms (DAY ALARM) Beacon White Day Alarms Changed Beacon White Night Alarms (WNIGHT ALARM) Beacon White Night Alarms C
Vanguard Controller Board Diagnostics Register Address Read/Write 90 R/W 91 W 92 – 122 R 123 – 138 R 139 R 140 R 141 R FTS 370d/w/r Register Name Vanguard Controller Select Register System wide reboot Vanguard Controller Board Firmware Revision String Vanguard Controller Board Universally Unique Identifier Vanguard Controller Board Input Power Voltage A2D Vanguard Controller Internal Temperature A2D Vanguard Controller Photodiode A2D Description / Values 1-6, indicates/selects which system
Beacon Settings and Diagnostics Register Address Read/Write 160 R/W 162 – 192 193 – 208 102 R R Register Name Beacon Select Register Beacon Firmware Revision String Beacon Universally Unique Identifier 209 R Beacon White String 0 Voltage A2D 210 R Beacon White String 0 Current A2D 211 R 212 R 213 R 214 R 215 R 216 R 217 R 218 R 219 R 220 R 221 R 222 R 223 R 224 R 225 R 226 R Beacon White String 1 Voltage A2D Beacon White String 1 Current A2D Beacon White String
Marker Settings and Diagnostics Register Address Read/Write 240 R/W 242 – 272 R 273 – 288 R 289 R 290 R 291 R 292 R 293 R 294 R 295 R 296 R FTS 370d/w/r Register Name Marker Tier Select Register Marker Board Firmware Revision String Marker Board Universally Unique Identifier Marker Output 1 Current Draw A2D Marker Output 2 Current Draw A2D Marker Output 3 Current Draw A2D Marker Output 4 Current Draw A2D Marker Drive Voltage A2D Marker Input Power Voltage A2D Marker Internal Tempera
Auxiliary Interface Registers 104 Register Address 300 301 Read/Write R/W R/W 302 R 303 R/W 304 W 305 R/W 306 R Last Beacon Status 307 R Last Marker Status Register Name Auxiliary Interface Control Type Command Lights On/Off Lights-On Confirmation ‘Heartbeat’ Configuration ‘Heartbeat’ Confirmation Relay Output Configuration Description / Values 0: Disabled, 1: Modbus, 2: DC Input 0: Lights on, 1: Lights off 0: Idle 1: Pending (Command has been sent to Beacon) 2: ON Success (Beacon has
Appendix C: Return Material Authorization (RMA) Policy IF A PRODUCT PURCHASED FROM FLASH TECHNOLOGY MUST BE RETURNED FOR ANY REASON (SUBJECT TO THE WARRANTY POLICY), PLEASE FOLLOW THE PROCEDURE BELOW: Note: An RMA number must be requested from Flash Technology prior to shipment of any product. No returned product will be processed without an RMA number. This number will be the only reference necessary for returning and obtaining information on the product’s progress.
• parts are not returned within 15 days of issue or if product received is diagnosed to be non-warranty. Advance replacements will be shipped ground unless the customer provides alternative shipping methods. 4. Product outside the Warranty Time Period a. For Xenon System board repair; a purchase order is required at time of request for a RMA # for a standard $350 repair bench fee • RMA # is generated with the PO attached • If the board is deemed non-repairable after diagnosis, the customer is notified.