Certification Exhibit FCC ID: N6SLFSQR IC: 827B-LFSQR FCC Rule Part: 15.209 IC Radio Standards Specification: RSS-210 ACS Project Number: 13-0072 Manufacturer: Gilbarco, Inc. Model: LFSQR 5015 B.U.
The Advantage® Series, MPD® -3, Encore®, and Eclipse® Units TRIND® Start-up, Service, and Parts Manual MDE-3664B
Computer Programs and Documentation All Gilbarco Inc. and/or Veeder Root Company computer programs (including software on diskettes and within memory chips) and documentation are copyrighted by, and shall remain the property of, Gilbarco Inc. and/or Veeder Root Company. Such computer programs and documents may also contain trade secret information.
Table of Contents Table of Contents 1 – Introduction 1-1 TRIND® Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . About TRIND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . How TRIND Works . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Related Documents . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents Light/Micro Reader PCB (T20446-G1, T20601-GX, M01580A001, and M01580A002). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-31 M01218A001 and M01218A002 Light/Micro Reader PCB . . . . . . . . . 4-32 Hand-held Antenna PCB (T20143-G1) . . . . . . . . . . . . . . . . . . . . . . . . 4-33 TRIND Antenna PCA (T20524-G1). . . . . . . . . . . . . . . . . . . . . . . . . . . 4-33 System Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents Co-axial Cable Tool (Q13628-01) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Field Strength Sensor Board (Q13626-01) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Q13630-01 and Q13630-02 Test Tags. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Tuning Tool (Q13631-01 and Q13631-02) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents Data Read Rate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-9 Data Programming Options. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-9 Physical Form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-9 Costs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-10 Reader/Interrogator. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TRIND® Overview Introduction 1 – Introduction TRIND® Overview The Transmitter/Receiver IN Dispenser (TRIND) system is similar to the technology successfully used by many toll ways. It uses an electronic system located in the pump or register to “talk” with a miniature radio-like device (a tag). Together, these electronic devices provide “cashless” access to gasoline, food, and merchandise by charging purchases to a credit card, check card, or other account you already have.
Introduction How TRIND Works How TRIND Works TRIND utilizes Radio Frequency (RF) waves to communicate with a customer’s transponder. Transmitters located on overhead assemblies transmit radio waves that serve as a “wake up” call. As a car mounted transponder or hand-held transponder enters the transmitter’s effective read zone, the transponder is activated. The transponder then transmits a code which is received by the TRIND antennas mounted overhead or on the option doors.
Related Documents Introduction Related Documents Document Number Title GOLD Library MDE-2530 Pump and Dispenser Installation Manual Advantage & Legacy® Models MDE-2531 Start-up and Service Manual for The Advantage Series Service Manual MDE-2540 The Advantage, Legacy & MPD Series Owners Manual Advantage & Legacy Models MDE-2562 CRIND Service Manual CRIND and TRIND MDE-3425 CRIND Retrofit Kit and CRIND Kit Selection Guide CRIND and TRIND MDE-3591 TRIND Retrofits Kits C00011-002-XXXX CRIN
Introduction Page 1-4 Abbreviations and Acronyms Term Description ISM Industrial, Scientific, and Medical LED Light Emitting Diode LF Low Frequency MOC Major Oil Company MOSFET Metal-oxide-semiconductor Field-effect Transistor MPD Multi Product Dispensers PCA Printed Circuit Assembly PCB Printed Circuit Board POS Point of Sale PSK Phase Shift Keying RAM Random Access Memory RFDC Radio Frequency Data Communication RFID Radio Frequency Identification RFM Radio Frequency Model
TRIND Kit Coverage Introduction TRIND Kit Coverage Following table provides TRIND kit numbers and the relative system coverage that applies to each: Kit Number Product Coverage Frequencies Interface Type Tag System C00011-001 The Advantage Series, MPD-3 LF/UHF T20229-G1 Card Cage Hand-held/Car Mounted C00011-002 The Advantage Series, MPD-3 LF/UHF (see note 2) T20606-G2 Card Cage Hand-held/Car Mounted C00011-005 The Advantage Series, MPD-3 LF (see note1) T20606-G3 Card Cage Hand-held C0
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Important Safety Information 2 – Important Safety Information Notes: 1) Save this Important Safety Information section in a readily accessible location. 2) Although DEF is non-flammable, Diesel is flammable. Therefore, for DEF cabinets that are attached to Diesel dispensers, follow all the notes in this section that pertain to flammable fuels. Read the Manual Read, understand and follow this manual and any other labels or related materials supplied with this equipment.
Important Safety Information No Open Fire Open flames from matches, lighters, welding torches or other sources can ignite fuels and their vapors. No Sparks - No Smoking Sparks from starting vehicles, starting or using power tools, burning cigarettes, cigars or pipes can also ignite fuels and their vapors. Static electricity, including an electrostatic charge on your body, can cause a spark sufficient to ignite fuel vapors.
Important Safety Information Hazards and Actions ! WARNING Spilled fuels, accidents involving pumps/dispensers, or uncontrolled fuel flow create a serious hazard. Fire or explosion may result, causing serious injury or death. Follow established emergency procedures. DEF is non-flammable. However it can create a slip hazard. Clean up spills promptly.
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Full Systems Systems Overview 3 – Systems Overview Full Systems The Full System product is an option available as a retrofit kit or factory installed equipment on The Advantage Series, Multi Product Dispenser (MPD-3), Encore, and Eclipse lines of fuel dispensers. The TRIND device is connected to the CRIND through a gateway or serial interface board. In this application TRIND is a software slave to the CRIND and the associated POS controller/host.
Systems Overview Full Systems Figure 3-2: The Advantage Series Full System Block Diagram 115 VAC (FROM Dispenser AC POWER DISTRIBUTION) AC Power EMC Filter Q10895-01 Power Supply POWER REGULATING Circuit Board P178 T20314-G1 24 VAC P175 P176 Light Board Assembly (T20601-GX or M01560A00X) on Dispenser Bezel Face (Side A) Light Board Assembly (T20601-GX or M01560A00X) on Dispenser Bezel Face (Side A) 5VDC, GND P185 Gateway Board T20128 P250 RS-232, Digital Control and Light Control Circuit Micro
Full Systems Systems Overview Figure 3-3: Encore Full System Block Diagram 115 VAC (FROM Dispenser AC POWER DISTRIBUTION) AC Power EMC Filter Q10895-01 Power Supply POWER REGULATING Circuit Board P178 T20314-G1 24 VAC P175 P176 P179 P177 Light Board Assembly M01218A00X on Dispenser Bezel Face (Side A) Light Board Assembly M01218A00X on Dispenser Bezel Face (Side A) X is color of LEDs 5VDC, GND Micro-Reader Q13551-01 (134 KHz Intentional) P185 Gateway Board T20128 P250 RS-232, Digital Contro
Systems Overview Hand-held Only Tag System Overview Hand-held Only Tag System Overview This product is an option available as a retrofit kit or factory installed equipment in The Advantage Series, MPD-3, and Encore lines of fuel dispensers. The TRIND Enhanced Gateway Board (T20678) manages RFID processing and provides simple, generic event messages to the pump electronics via Transistor-Transistor Logic (TTL).
Card Cage Assemblies Major Hardware Components 4 – Major Hardware Components Card Cage Assemblies There are four main Card Cage versions used for the TRIND system. These four Card Cages are T20229-G1, T20606-G2, T20606-G3, and T20606-G5. The T20229 Card Cage is no longer available and is discussed in this manual simply for the service and support of the installed base. There are other G-levels of the T20606 Card Cage, but these are variations of the -G2 and -G3.
Major Hardware Components Card Cage Assemblies T20229-G1 Card Cage Assembly Parts List Following table lists the T20229-G1 Card Cage Assembly parts: Item Description Part Number 1 Power Supply PCB T20138-G1 2 Transmitter PCB Assembly Q13579-01 3 DCB Q13563-01 4 UHF Receiver Assembly on DCB Q13564-01 5 Gateway Board T20128-G1 T20606-G2 Card Cage Assembly T20606-G2 Card Cage is the updated version of the T20229-G1 Card Cage.
Card Cage Assemblies Major Hardware Components T20606-G2 Card Cage Assembly Parts List Following table lists the T20606-G2 Card Cage Assembly parts: Item Description Part Number 1 TRIND Gateway PCB T20128-G3 2 Circuit Board Support Q10651-16 3 TRIND PCB Bracket M00624A001 4 Multi-port DCB Q13563-04 5 Radio PCB Shield R20545-G1 6 PCB Insulator Board R20590-01 7 Low Frequency Transmitter Module Q13579-01 8 24 VAC Transformer R20719-G1 9 Recessed Power Receptacle R20206-G14 10
Major Hardware Components Card Cage Assemblies T20606-G3 Card Cage Assembly Parts List Following table lists the T20606-G3 Card Cage Assembly parts: Item Description Part Number 1 Regulator PCB T20314-G1 2 Regulator PCB Shield T20198-01 3 24 VAC Transformer R20719-G1 4 Enhanced Gateway PCB T20678-G1 5 10 A EMI Filter Q10895-01 T20606-G5 Card Cage Assembly T20606-G5 Card Cage is a variation of the T20606-G2 Card Cage required for many international “full system” TRIND applications (Euro
Card Cage Assemblies Major Hardware Components T20606-G5 Card Cage Assembly Parts List Following table lists the T20606-G5 Card Cage Assembly parts: Item Description Part Number 1 TRIND Gateway PCB T20128-G3 2 Circuit Board Support Q10651-16 3 TRIND PCB Bracket M00624A001 4 ETSI DCB Q13563-07 5 Radio PCB Shield R20545-G1 6 PCB Insulator Board R20590-01 7 Low Frequency Transmitter Module Q13579-01 8 24 VAC Transformer R20719-G1 9 Recessed Power Receptacle R20206-G14 10 10 A E
Major Hardware Components Card Cage Assemblies AC EMI Line Filter (Q10895) AC Electromagnetic Interference (EMI) Line Filter, is a Corcom dual T section RFI power line filter. These filters are well suited for low impedance loads where noisy RFI environments are present. They control pulsed, continuous and/or intermittent interference, insuring protection of the TRIND equipment from power line noise in addition to protecting the line from equipment noise.
Card Cage Assemblies Major Hardware Components T20314 Power Supply Board This board must be used in conjunction with the R20719 Transformer. Figure 4-7: T20314 Power Supply Board GND GND GND 5V 22 V 5 V 22 V 5V 22 V GND Note: P176, P177, and P178 are identical. Q13563 Data Control Boards Q13563-01 and Q13563-02 Data Control Boards are used in T20229-G1 Full System Card Cage assembly. The Q13563-04 Board is used in T20606-G2 Full System Card Cage assembly.
Major Hardware Components Card Cage Assemblies Figure 4-9: Q13563-04 DCBs and Above Heart Beat RS-485 TX Read ANT 1 Read ANT 3 Bezel I/0 Error Bit Restore Bit Fail RS-485 RX +12 VDC +5 VDC UHF Receiver Board (Q13564) Mounted on the DCB, the UHF Receiver Board receives 12 VDC from the DCB. The board also receives information from UHF antennas over J2A or J2B and processes the UHF signal. This receiver has to comply with FCC and in-country communication protocols such as ETSI.
Card Cage Assemblies Major Hardware Components The UHF Receiver Module contained on the DCB, handles the uplink signal from the vehicle tag. It receives the signal from the vehicle tag that transmits data on a UHF carrier, and down converts and demodulates this signal to binary data. The UHF Receiver also includes the master oscillator for the DCB and provides all clock signals for other elements within the DCB to keep signal paths as short as possible.
Major Hardware Components Card Cage Assemblies T20128 and T20678 Gateway Boards T20128-GX Gateway Board is used in the Full System T20229-G1 and T20606-G2 Card Cages. The T20678 Gateway Board is used in the T20606-G3 Card Cage. These boards manage events and message processing to/from the Controller (CRIND, POS, host controller) and the readers.
Card Cage Assemblies Major Hardware Components Card Cage Cable Harness (T20662-G2) The Card Cage Cable Harness Assembly provides power and data distribution to/from the Card Cage and the Light/Micro Reader Printed Circuit Assembly (PCA). It comes already installed on the T20606-G2 Card Cage from the factory.
Major Hardware Components Card Cage Assemblies Full System TRIND RS-485 Communication Cable (R20525-G1) The Communication Cable is a 4-pin and 5-pin connector cable that is connected between the Q13563 DCB and T20128 Gateway Board. Figure 4-15: RS-485 Communication Cable To Gateway Board To Data Control Board Full System TRIND Power Supply Cables (R20763-GX) The Power Supply Cables connect the LF Transmitter (-G1), the DCB (-G2), and the Gateway (-G3) Boards to the T20314 Power Supply.
Card Cage Assemblies Major Hardware Components Hand-held TRIND System Ribbon Cable (M00507) The Ribbon Cable is a 14-pin cable routed between T12678 Gateway Board and R20773 TRIND Option Door Data and Power Cable. The R20773 Cable leads to the Light/Micro Reader Board (T20601). The -A001 Cable is used for Side A (or Side 1 based on the dispenser). The -A002 Cable is used for Side B (or Side 2 based on the dispenser).
Major Hardware Components TRIND Overhead Antennas TRIND Overhead Antennas Full System TRIND has six antennas, four active and two passive. The active antennas can further be divided as transmit only (overhead antennas), and transmit and receive [option door/Customer Interface Module (CIM) door antennas]. All four operate in the LF band at 134.2 kHz.
TRIND Overhead Antennas Major Hardware Components Figure 4-20: Mobil Overhead Antenna Bracket Assemblies and Hardware Antenna Top Cover Bracket, Universal Antenna Bracket, Antenna Mounting Screw, 10-32 Black Antenna Assembly 1/4-20 Bolt X 4” Black Over Head Antenna Cables Connector, Tube Fitting 1/4-20 Nut, Black Conduit, Flexible Black Plastic Note: For units with logo display cabinets, universal antenna brackets are installed with flat side up.
Major Hardware Components TRIND Overhead Antennas Mobil Overhead Antenna Bracket Assemblies (T20231) and Hardware for The Advantage Series Following table lists the Mobil Overhead Antenna Bracket Assemblies and hardware for The Advantage Series: Wide Frame Single-sided Item Description Wide Frame Narrow Frame Narrow Frame Double-sided Single-sided Double-sided 1 Antenna Top Cover T20213-01 T20213-01 T20215-01 T20215-01 2 Bracket, Universal Antenna T20212-01 T20212-01 T20212-01 T20212-01 3
TRIND Overhead Antennas Major Hardware Components Single-loop Overhead Antenna Assembly (T20632) The Single-loop Overhead Antenna Assemblies (T20632-GX) are made up from a single turn (loop) antenna; a high-efficiency tuning board, and a UHF receive antenna. These parts are all mounted in a molded polycarbonate set of boxes and then mounted with brackets on top of the dispenser. These parts are discussed in further in the following sections.
Major Hardware Components TRIND Overhead Antennas Figure 4-21: Single-loop Overhead Antenna Assembly Top Left Antenna Box Lock Washer Hex Nut Antenna Tuner PCA UHF Receiver Antenna Screw Thread Form # 6-19 Neoprene Adhesive Tape Bottom Left Antenna Box Antenna Top Right Antenna Box Bottom Right Antenna Box Single-loop Overhead Antenna Assembly (Domestic) Following table lists the Single-loop Overhead Antenna Assembly (Domestic) parts: Page 4-18 Item Description T20632-G1 T20632-G2 T20632-G3
TRIND Overhead Antennas Major Hardware Components Single-loop Overhead Antenna Assembly (International) Following table lists the Single-loop Overhead Antenna Assembly (International) parts: Item Description T20632-G5 T20632-G6 T20632-G7 T20632-G8 1 Bottom Right Antenna Box T20615-04 T20615-04 T20615-04 T20615-04 2 Top Right Antenna Box T20615-02 T20615-02 T20615-02 T20615-02 3 Antenna W03889-01 W03889-02 W03889-03 W03889-04 4 Bottom Left Antenna Box T20615-03 T20615-03 T20615-
Major Hardware Components TRIND Overhead Antennas Single-loop Antenna Assembly Bracket Kits for The Advantage Series Following table lists the Single-loop Antenna Assembly Bracket Kits for The Advantage Series parts: Item Description W/F & N/F RID Plus Exxon (K96647-01) With Canopy (K96647-02) With Or With Out Blue Hats (K96647-03) With Milwaukee Light Box (K96647-06) 1 Antenna Bracket, Left T20623-01 T20624-01 - - 2 Antenna Bracket, Right T20623-02 T20624-02 - - 1 Antenna Bracket, W/F
TRIND Option Doors with Antennas Major Hardware Components UHF Antenna (Q13851-01 and Q13851-02) This antenna is specifically used to receive the UHF response from the vehicle mount tag. It has a “pigtail” RG-316 co-axial cable with a SMA jack on the other end connected to it for ease of manufacture and installation purposes. Q13851-01 is intended for domestic use and is found in the T20632-G1 Card Cage through Single Loop Antenna Assemblies (T20632-G4).
Major Hardware Components TRIND Option Doors with Antennas MPD-3 Bezel Assemblies (T20616) The following sections provide parts information for the MPD-3 Bezel Assemblies.
TRIND Option Doors with Antennas Major Hardware Components Figure 4-24: MPD-3 Bezel Assembly (T20616-G2) Bezel Panel Assembly Self Locking Hex Nut Washer MPD-3 Housing Inside Cover Gasket Split Space Inside Cover Gasket Light Micro Reader PCA Cable Access Gasket TI/RFID Antenna Assembly Neoprene Sponge Tape Interface Hand-held Antenna Cable TRIND Option Door Data and Power Cable MPD-3 Housing MPD-3 Bezel Assembly Following table lists the MPD-3 Bezel Assembly parts: Item Part Description Part N
Major Hardware Components TRIND Option Doors with Antennas Figure 4-25: MPD-3 Bezel Assembly Bezel Panel Assembly MPD-3 Housing Inside Cover Inside Cover Gasket Cable Access Gasket TI/RFID Light/Micro Reader PCB TI/RFID Antenna PCB Assembly Lock Plate Lens Retainer Bracket Diffuser Mobil Lens O-ring Hand-held Antenna Interface Cable Neoprene sponge Tape Light Micro Leader Cable Cable Interface/Micro Reader MPD-3 Housing MPD-3 Bezel Assembly Following table lists the MPD-3 Bezel Assembly parts: It
TRIND Option Doors with Antennas Major Hardware Components Advantage Wide Frame Option Door Assemblies This section provides parts data for The Advantage Series Wide Frame Option Doors Assemblies.
Major Hardware Components TRIND Option Doors with Antennas Figure 4-27: Advantage Wide Frame (48 inches) Option Door Assembly Right Option Door Door Gasket TRIND Antenna PCB RFID Light/Micro Reader PCA Wide Frame Shield Solid Strip Grommet Advantage Wide Frame Option Door Assembly Parts List Following table lists the Advantage Wide Frame Option Door Assembly parts: Item Part Description Part Number 1 Wide Frame Shield T20570-G1 2 Solid Strip Grommet Q10315-06 3 RFID Light/Micro Reader PCA (
TRIND Option Doors with Antennas Major Hardware Components Advantage Narrow Frame Option Door Assemblies This section provides parts data for The Advantage Series Narrow Frame Option Doors.
Major Hardware Components TRIND Option Doors with Antennas Figure 4-29: The Advantage Series Narrow Frame (36 inches) Option Door Assembly O-ring N/F Option Door Mobil lens Diffuser Lens Retainer Bracket TI/RFID Light/Micro Reader PCB Access Door Gasket Antenna Shield Cable, Hand-held Interface TI/RFID Antenna PCB Display Lens Gasket Display Lens Display PCB Assembly Display Lens Mounting Bracket Narrow Frame Option Door Assembly Following table lists the Narrow Frame Option Door Assembly parts: I
TRIND Option Doors with Antennas Major Hardware Components Encore CIM Door Option Assembly This section provides the parts for the Encore CIM Door Option Assembly.
Major Hardware Components TRIND Option Doors with Antennas Eclipse Ovendoor Option Assembly This section provides the parts for the Eclipse Ovendoor Option Assembly. Figure 4-31: Eclipse Ovendoor Option Assembly TRIND Light and Indicator Assembly Slotted 6-20 X 0.
TRIND Option Doors with Antennas Major Hardware Components Light/Micro Reader PCB (T20446-G1, T20601-GX, M01580A001, and M01580A002) Note: T20446 replaced Light/Micro Reader PCB T20182-G1 and T20295-G1. M01580A001 and M01580A002 replaced Light/Micro Reader PCB T20601-G1 and G2. The PCB is mounted on the right options door on The Advantage Series units or in an enclosure mounted on the bezel for MPD-3 units.
Major Hardware Components TRIND Option Doors with Antennas Figure 4-34: M01580A00X Light/Micro Reader PCB Note: Used with T20606-GX Card Cage in C00011-002 Kit and above. M01218A001 and M01218A002 Light/Micro Reader PCB Mounted on the CIM Door on Encore and Eclipse units, this PCB processes information received from hand-held transponder (only), as well as provides indicator lights for the TRIND system. The PCB requires both 5 VDC and 22.5 VDC supplied at P182 plug.
TRIND Option Doors with Antennas Major Hardware Components Hand-held Antenna PCB (T20143-G1) Hand-held PCB is used on the original system and is connected to Light/Micro Reader PCB (T20182) at P181 plug and mounted on options or bezels doors. Figure 4-36: Hand-held Antenna PCB TRIND Antenna PCA (T20524-G1) The PCAs are 47uH antennas that work with the Micro Reader. They are energized by the Micro Reader at 132 kHz to generate the exciter frequency of 134.2 kHz.
Major Hardware Components System Cables System Cables This section provides a description and parts information for the TRIND system cables. These cables are used to make connections between the various TRIND and dispenser components that comprise the TRIND system. Note: To ensure compliance with EMC® standards, do not remove the ferrite beads from cable assemblies provided with them.
System Cables Major Hardware Components R20437-G01 TRIND to CRIND Logic Cable (The Advantage Series and MPD-3) The R20437-G01 TRIND to CRIND Logic Cable connects the TRIND Gateway Boards (T20128 and T20678) to CRIND Logic Boards. Figure 4-40: R20437-G01 TRIND to CRIND Logic Cable M00515A002 TRIND to CRIND Logic Cable for Encore 500 and Eclipse The M00515A002 TRIND to CRIND Logic Cable for Encore 500 and Eclipse connects the Gateway Boards to the CRIND Logic Boards.
Major Hardware Components System Cables M001804A001 TRIND to CRIND Logic Cable for Encore 300 The M001804A001 TRIND to CRIND Logic Cable for Encore 300 connects the Gateway Boards to the CRIND Logic Boards. Figure 4-42: M001804A001 TRIND to CRIND Logic Cable AC Power Cables (R20580 and M00811A001) The AC Power Cables are used to provide system power to the TRIND Card Cage assembly. Connections for these cables are unit specific. Use appropriate connector to intercept power on existing unit power cable.
System Cables Major Hardware Components Full System Cable Connections on Legacy and Advantage Series Dispensers For all single-sided units, install Dummy Load Connector (R20526-01) on JB on transmitter PCB and skip all Side B connections. Note: If power is applied to Card Cage without the antenna cables or dummy load connected, the transmitter board will be damaged.
Major Hardware Components System Cables Full System Cable Connections on MPD-3 Dispensers For all single-sided units, install Dummy Load Connector (R20526-01) on JB on transmitter PCB and skip all Side B connections. Note: If power is applied to Card Cage without the antenna cables or dummy load connected, the transmitter board will be damaged.
System Cables Major Hardware Components Full System Cable Connections on The Advantage Series and MPD-3 Dispensers For all single-sided units, install Dummy Load Connector (R20526-01) on JB on transmitter PCB and skip all Side B connections. Note: If power is applied to Card Cage without antenna cables or dummy load connected, the transmitter board will be damaged.
Major Hardware Components System Cables Hand-held System Cable Connections on The Advantage Series and MPD-3 Dispensers For all single-sided units, install Dummy Load Connector (R20526-01) on JB on transmitter PCB and skip all Side B connections. Note: If power is applied to Card Cage without antenna cables or dummy load connected, the transmitter board will be damaged.
System Cables Major Hardware Components Full System Cable Connections on Encore 500 Dispensers For all single-sided units, Dummy Load Connector (R20526-01) is installed on JB on transmitter PCB and eliminates all Side B connections. Note: If power is applied to Card Cage without antenna cables or dummy load connected the transmitter board will be damaged.
Major Hardware Components System Cables Hand-held System Cable Connections on Encore 500 and Eclipse Dispensers Following table lists the Hand-held System Cable Connections on Encore 500 and Eclipse Dispensers: On Cable Connect To On M00515A002 J3110 P3110 CRIND Control Node PCA M00089 J250 P250 Gateway PCB T20678 P1 J1 M00806A001 Power Distribution Cable 3 Prong M P3 3 Prong F, R20206 Power Input Cable P1/2 J1 Side A Overhead Antenna (LF) PA/B *JA Transmitter PCB Q13564 P1/2 J2 S
System Cables Major Hardware Components Antenna Cable Pin-to-Pin Connections (M00878A001 and M00878A002) P1B To J1 Pin # on Side 1 Overhead LF Antenna P1A To J1 Pin # on Side 2 Overhead LF Antenna P3B To J2 Pin # on Side 1 Overhead HF Antenna P3A To J2 Pin # on Side 2 Overhead HF Antenna PB To JB for Side 1 Pin # on Q13579 Transmitter Board PB To JB for Single-side Units Only With R20526-G1 Power Resistor PA To JA for Side 2 Pin # on Q13579 Transmitter Board P2A To J2A for Side A Pin # on Q13564 UH
Major Hardware Components System Cables Light/Micro Reader Cables Pin-to-Pin Connections (R20519-G1, R20519-G2, and R20519-G3) To J7/J8 Pin # on Data To P182 on Light/Micro Control Board (Q13563) Reader PCB (T20182) Function 1 1 TX 232 2 2 GPO 232 3 3 AX 232 4 4 Light 232 5 5 RDEN 6 6 GND R20521-G1 and R20521-G2 Interface Micro Reader Cables Pin-to-Pin Connections To P176/P177 Pin # on Power Supply Board To P180 Pin # on Light/ Micro Reader PCB (T20182) Function 1 1 +22v 2 2 +5v
System Cables Major Hardware Components R20437-G01 TRIND to CRIND Logic Cable Pin-to-Pin Connections Pin # on T20128 Gateway PCB Pin # Side A P258 of CRIND Logic Board Pin # on Side B P258 of CRIND Logic Board Function 1 1 - RX-A 2 2 - GND-A 3 3 - TX-A 4 4 - +5V-A 5 5 - Spare-In-A 6 6 - N.C. 7 7 - Spare-Out-A 8 - 1 RX-B 9 - 2 GND-B 10 - 3 TX-B 11 - 4 +5V-B 12 - 5 Spare-In-B 13 - 6 N.C.
Major Hardware Components System Cables R20773-G2 Encore Option TRIND Data and Power Cable Pin-to-Pin Connections To Pin # on Side A and Side B T20601 Light/Micro Reader PCB Plug P182 To Pin # on TRIND Card Cage Harness Function Cable (T20662-G2 Plug P1 and P2 1 1 TX 2 2) RX 3 3 GPO 4 4 GND 5 5 VCC 6 6 N.C. 7 7 - 8 8 ILLUM 9 9 GND 10 10 +22V 11 11 RDEN 12 12 N.C.
ASC TRIND Tool Kit (K94577-01) System Accessories 5 – System Accessories ASC TRIND Tool Kit (K94577-01) The ASC TRIND Tool Kit contains specialized tools required for installation and service of TRIND equipped units. Kit Contents The Tool Kit contains the following items.
System Accessories Standalone Jumper Cables Note: If Standalone Jumper or 9 V battery is not available, unit can be put in standalone using the jump jack on JP3.
Standalone Jumper Cables System Accessories Standalone Jumper Cable (R20602-G2) for Enhanced Gateway This cable is used for installation or troubleshooting, and for placing a unit in the “standalone” mode. The hand-held key tag units contain the T20606-G3 Card Cage Assembly and the Enhanced Gateway PCB (T20678-G1). After powering down unit, the P1 end of the M00507A001 Cable coming out of the Card Cage on Side A is disconnected.
System Accessories Dummy Load Transmitter (R20526) Dummy Load Transmitter (R20526) Dummy Load Transmitter must be installed on JB of Transmitter PCB. Figure 5-4: Dummy Load Transmitter To JB Co-axial Cable Tool (Q13628-01) Co-axial Cable Tool is a hex-socket tool with a slit down its length. Co-axial cables are (M00878A001, M00878A002, and Q13578-01) are used for transmission from TRIND overhead antennas and come with hex connectors at either end.
Field Strength Sensor Board (Q13626-01) System Accessories Field Strength Sensor Board (Q13626-01) TRIND installation manuals and this document details the installation test for positioning of the Field Strength Sensor Board during antenna field tuning. Figure 5-6: Field Strength Sensor Board Red and Black Leads Set the multimeter to DC voltage. Connect the red and black leads of the standard multimeter to the field strength sensor board leads.
System Accessories Tuning Tool (Q13631-01 and Q13631-02) Hand-held Test Tag During testing, the Hand-held tag is placed against the TRIND target on either the right options door on The Advantage Series, or on the faceplate target located on the right side of MPD-3 bezel doors. Note: Use of the test tags will cause a properly installed and operating TRIND system’s target logo to light, indicating successful reading. An actual sale is not possible with these tags.
Positioning Overhead Antennas Procedures for Factory Installed TRIND 6 – Procedures for Factory Installed TRIND Positioning Overhead Antennas TRIND overhead antennas are shipped mounted to the unit in the down position. Figure 6-1 shows the TRIND antenna hardware and final antenna positioning on the unit.
Procedures for Factory Installed TRIND Positioning Overhead Antennas 4 Slide the antenna back towards the unit until the bolts stops in the slots and the molded part of the antenna bracket is secure inside the bracket fork. Note: Before tightening the bolts, ensure that the cables coming from the antenna are securely positioned inside the stamped groove part of the bracket and are not trapped under the bracket.
Addressing Dither Sync Address for LF/UHF Full System Dispenser Setup 7 – Dispenser Setup Addressing Dither Sync Address for LF/UHF Full System Each dispenser on the G-SITE® system controller must be addressed differently; no two dispensers may have the same address. Addresses are at discretion of the installer. Note: Before installing the Card Cage inside the dispenser, locate the dip switches on the DCB inside the Card Cage assembly (see Figure 7-1).
Dispenser Setup Setting Baud Rate Setting Baud Rate For Major Oil Company (MOC) TRIND installations, there is no requirement to set or change baud rate. Addressing Gateway/Enhanced Gateway Board Addresses for the TRIND device must match the addresses on CRIND Logic Board. 1 Access the unit’s CRIND Logic Board. Refer to MDE-2562 CRIND Service Manual. 2 Locate jump jacks on A and B side CRIND Logic Boards [T17764-XX (see Figure 7-3 on page 7-3)].
Addressing Gateway/Enhanced Gateway Board Dispenser Setup Figure 7-3: CRIND Logic Board (T17764-XX) T17764-XX CRIND Logic Board (-G3 shown) Chip Orientation Notch U7 JP1-16 MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013 Page 7-3
Dispenser Setup Addressing Gateway/Enhanced Gateway Board CRIND Address Table Following table provides a cross-reference between addresses on the T17764 CRIND Logic Board and the Gateway Boards.
Preparation for Tuning Antennas Dispenser Setup Preparation for Tuning Antennas Antenna tuning requires use of Field Strength Sensor Board supplied with the ASC TRIND Tool Kit. For information on using Field Strength Sensor Board, refer to “Field Strength Sensor Board (Q13626-01)” on page 5-5. 1 For units without G-SITE, put unit in ‘standalone’ mode.
Dispenser Setup Tuning Antennas 3 On the Card Cage, move the three position “tune” toggle switch (see Figure 7-5) from center position to “A”. Figure 7-5: Tuning Toggle Switch Locations Tune Toggle Switch Location B A A B 4 Connect the leads to field strength sensor. Position the multimeter selector switch to DC voltage. 5 By fine adjustments to tuning pot, set to highest DC voltage reading. 6 Voltage will peak at a point, and then decrease with turns in either direction. Set at peak.
Tuning Antennas Dispenser Setup Mobil Antennas To tune a Mobil Antenna, proceed as follows: 1 Locate variable inductor on PCB in the over-head antenna connection box. The variable inductor, similar to a tuning pot, has a slot for the tuning tool. For more information on Mobil Antennas, refer to “Mobil Overhead Antenna Assembly (T20231)” on page 4-14. 2 The variable inductor on the Side A overhead antenna connection box should be turned out five to six turns as a starting point.
Dispenser Setup Tuning Antennas 4 On Card Cage, move the three position “tune” toggle switch from the center position to “A”. Figure 7-8: Tune Toggle Switch Location “Tune” toggle switch location 5 Connect the leads on the multimeter to field strength sensor. Set the meter to the DC voltage range. 6 By fine adjustments to variable inductor, set to the highest DC voltage reading. Note: Voltage will peak at a point between 12 VDC and 20 VDC, and then decrease with turns in either direction. Set at peak.
Status Indicators Testing and Troubleshooting 8 – Testing and Troubleshooting Following sections provide testing and troubleshooting information for the TRIND system. The status indicator section describes the characteristics of key TRIND indicators when the TRIND system is operating properly. The troubleshooting flow chart section provides a graphical guide to assist in troubleshooting the TRIND system. Note: The majority of failures that occur are attributed to insufficient initial setup detail.
Testing and Troubleshooting Status Indicators The Gateway Board will have the following indicator characteristics when operating properly: • +5 VDC LED on solid (CR8). • Blinking Central Processing Unit (CPU) LED (CR6). A dimly lit LED can also indicate proper operation because the blink rate becomes so fast that the LED appears dimmer than the +5 VDC LED (CR8). • Rapidly Blinking CRIND A and B LEDs. Side A is CR4 (TX), CR5 (RX), Side B is CR9 (TX). These LEDs indicate good communication with the CRIND.
Status Indicators Testing and Troubleshooting Enhanced Gateway Board will have the following indicator characteristics when operating properly: • +5 VDC LED on solid (CR8). • Blinking CPU LED (CR6). A dimly lit LED can also indicate proper operation because the blink rate becomes so fast that the LED appears dimmer than the +5 VDC LED (CR8). • Rapidly Blinking CRIND A and B LEDs. Side A is CR4 (TX), CR5 (RX), Side B is CR9 (TX). These LEDs indicate good communication with the CRIND.
Testing and Troubleshooting Status Indicators Figure 8-4: Q13563-04 DCB Indicators J8 Bezel B J7 Bezel A Heart Beat (CPU) RS-485 (TX) Read Ant 1 (Overhead) Read Ant 3 (Overhead) Bezel I/O Error RS-485 (RX) +12 VDC Vcc (+5 VDC) The Q13563 DCB will have the following indicator characteristics when operating properly: • VCC and +12 VDC LEDs on solid (D14 and D13, respectively). • Heartbeat LED (CPU) blinking (D9). • RS-485 LED’s strobbing rapidly (D2 and D3).
Status Indicators Testing and Troubleshooting T20601/M01560 Light/Micro Reader Boards The Light/Micro Reader Boards (see Figure 8-5) will exhibit the following characteristic when operating properly: Note: The M01560 is a subassembly of Light and Inductor PCB Assembly (M01218). • SYNC LED blinking (CR1). • OKT LED on solid (CR2) until a tag is presented, then it will flicker while a key tag is in the field. • STAT LED (CR3) blinking in unison with the SYNC LED.
Testing and Troubleshooting Isolating TRIND from CRIND Isolating TRIND from CRIND To isolate the TRIND system from CRIND, proceed as follows: 1 Shut off all power to unit. 2 Disconnect either Side A or B Light Micro Reader Cable (R20519-G3) from either J8 (Side B) or J7 (Side A) on the DCB in the TRIND Card Cage, and insert the standalone jumper in-line (between J8 and P8 or between J7 and P7). For jumper details, refer to “Standalone Jumper Cable (R20602-G1) for LF/UHF Full System” on page 5-1.
Tag Testing Testing and Troubleshooting Hand-held Test Tags To test the Hand-held Tags, proceed as follows: 1 Place the unit into the standalone mode. For the appropriate standalone cable connection, refer to “Standalone Jumper Cable (R20602-G2) for Enhanced Gateway” on page 5-3. 2 From Side A of the unit, point the Hand-held Test Tag, from the ASC TRIND Tool Kit at the TRIND target graphic (see Figure 8-6).
Testing and Troubleshooting Tag Testing Alternative Testing Using Laptop To implement the TRIND testing using the Laptop Tool, proceed as follows: 1 Connect laptop to RS-232 port on DCB. Note: The directory paths shown in steps 2 through 4, are representative of a directory structure that may be found on a laptop or personal computer. Some directory paths may differ depending upon the computers software setup and hardware configuration. 2 Go to: “C:\windows program(hyperterminal)\Accessories\Terminal\S
Troubleshooting T20229-G1 PCB on Card Cage Assembly Testing and Troubleshooting Troubleshooting T20229-G1 PCB on Card Cage Assembly Following tables provide indications and steps to verify board operation and troubleshoot problems. Light/Micro Reader Board (T20295-G1) Light/Micro-reader PCA LEDs provide the best starting point for TRIND troubleshooting (see following table), whether TRIND is in standalone mode or connected to CRIND and G-SITE.
Testing and Troubleshooting Troubleshooting T20229-G1 PCB on Card Cage Assembly Gateway PCB (T20128-G1) Normal Operation Abnormal Operation/Failure Cause/Action Required PWR LED (CR8) constant on; indicates 5 V supplied No LED activity. Check TI/RFID Power Supply PCB for 5 V output. CPU LED (CR6) continuous rapid No LED activity (indicates pulse. Blinking CPU LED (CR6). software not running).
Troubleshooting T20229-G1 PCB on Card Cage Assembly Testing and Troubleshooting DCB (Q13563-01) Normal Operation Abnormal Operation/Failure Cause/Action Required • LED CR2 (+5 V) on solid. • LED CR3 (+12 V) on solid. • CR10 (RS-485 RX) and CR11 (RS-485 TX) pulsing synchronously. • CR5 (heartbeat) pulsing. • CR6 (Read ANT) will light when tag is read. CR10 and CR11 not pulsing. Check RS-485 serial connection (J4)*. CR7 lit (Bezel I/O error).
Testing and Troubleshooting Troubleshooting Flowcharts for T20606 Card Cage System Troubleshooting Flowcharts for T20606 Card Cage System Following flowcharts are used to assist in troubleshooting TRIND Systems. Use these flowcharts as an aid in performing maintenance on TRIND devices.
Troubleshooting Flowcharts for T20606 Card Cage System Testing and Troubleshooting Figure 8-8: TRIND Troubleshooting Flowchart (Sheet 2 of 4) KEY AND CAR TAG PROBLEMS KEY AND CAR TAG NOT WORKING ARE GATEWAY BOARD A-SIDE/B-SIDE TX/RX LED's STROBING PROPERLY? (REFER TO MDE-3664) Yes Yes Yes DOES SYSTEM READ KEY OR CAR TAGS ON EITHER SIDE? ARE LIGHT/ MICROREADER BOARD LED'S STROBING PROPERLY? (REFER TO MDE3664) No ARE DCB LED'S STROBING PROPERLY? (REFER TO MDE3664) IS R20525-G1 CABLE UNPLUGGED OR
Testing and Troubleshooting Troubleshooting Flowcharts for T20606 Card Cage System Figure 8-9: TRIND Troubleshooting Flowchart (Sheet 3 of 4) CAR TAG PROBLEMS CAR TAG NOT WORKING Yes No No Yes ARE SYNC AND STATUS LIGHTS STROBING ON T20601 LIGHT/ MICROREADER BOARD? (REFER TO MDE-3664) Yes TUNE ANTENNAS DO ANTENNAS RESPOND TO PROPER CAR MOUNT TAG PRESENTATION? Yes No ARE SYNC AND STATUS LED's ON SOLID? Yes DID ANTENNAS TUNE? Yes IS D6 (BEZEL I/O ERROR) LED (ON DCB) ILLUMINATED? IS THERE ANY V
Troubleshooting Flowcharts for T20606 Card Cage System Testing and Troubleshooting Figure 8-10: TRIND Troubleshooting Flowchart (Sheet 4 of 4) KEY TAG PROBLEMS KEY TAG NOT WORKING Yes No Yes Yes IS ANTENNA CABLE (R20522-G2 DAMAGED OR DISCONNECTED? (ADVANTAGE/MPD-3 ONLY) ARE LIGHT/MICROREADER (T20601) SYNC AND STATUS LED's STROBING PROPERLY? (REFER TO MDE-3664) IS KEY TAG BEING PRESENTED PROPERLY? Yes PLUG IN OR REPLACE R20522-G2 CABLE ARE DCB LED'S STROBING PROPERLY? (REFER TO MDE3664) No No
Testing and Troubleshooting Field Problem Survey Field Problem Survey In the event of a problem requiring technical support from Gilbarco, make a copy of this form, gather the following survey information before calling (1-800-743-7501), and fax the form to 336-547-5359. This will facilitate delivery of the assistance you need. Do not write on this form. Make copies to ensure that a clean copy is available for future field problem surveys.
Glossary 9 – Glossary A Alignment - The orientation of the tag to the reader in pitch, roll, and yaw. Antenna - Any structure or device used to collect or radiate electromagnetic waves. C Car Key Tag - The transmitter/receiver pair or transceiver plus the information storage mechanism attached to the object is referred to as the tag, transponder, electronic label, code plate and various other terms. D Dipole Antenna - Usually a straight, center-fed, one-half wavelength antenna.
Glossary LF - Low Frequency - portion of the frequency spectrum from 30kHz to 300kHz. M Magnetic Field - Field of Force to which magnetic materials and permanent or electromagnets respond. Surrounds any magnet or electric current. May be most easily visualized as the force exerted by the field on a tiny magnet placed in the path of a radio wave or moved about within the field of another magnet.
Glossary T TIRIS - Texas Instruments Registration and Identification Systems - This is the group name of the fine folks at Texas Instruments that produce and market RFID products, including two boards in the vehicle-mounted/key-tag Speedpass system. This group is now known as TI*RFID Systems (www.tiris.com). TRIND - Transmitter/Receiver in Dispenser - This is Gilbarco Inc. trademarked name for the product also known as Speedpass.
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Overview Appendix A - Radio Frequency Identification Defined Appendix A - Radio Frequency Identification Defined Overview IMPORTANT INFORMATION The information in this appendix was obtained from Association for Automatic Identification and Mobility (AIM). A basic RFID system consists of three components: 1. An antenna or coil. 2. A transmitter/receiver. 3. A tag that is electronically programmed with unique information. The antenna emits radio signals to activate the tag and read and write data to it.
Appendix A - Radio Frequency Identification Defined Overview Passive RFID tags operate without a separate external power source and obtain operating power generated from the reader. Passive tags are consequently much lighter than active tags, less expensive, and offer a virtually unlimited operational lifetime. The trade off is that they have shorter read ranges than active tags and require a higher-powered reader.
What is RFID? Appendix A - Radio Frequency Identification Defined What is RFID? The object of any RFID system is to carry data in suitable transponders, generally known as tags, and to retrieve data, by machine-readable means, at a suitable time and place to satisfy particular application needs. Data within a tag may provide identification for an item in manufacture, goods in transit, a location, and the identity of a vehicle, an animal or individual.
Appendix A - Radio Frequency Identification Defined Wireless Communication and Air Interface Wireless Communication and Air Interface Communication of data between tags and readers is accomplished using wireless communication. Two methods distinguish and categorize RFID systems, one based upon close proximity electromagnetic or inductive coupling and one based upon propagating electromagnetic waves. Coupling is via “antenna” structures forming an integral feature in both tags and readers.
Wireless Communication and Air Interface Appendix A - Radio Frequency Identification Defined Three carrier frequencies receiving early attention as representative of the low, intermediate, and high ranges are 125 KHz, 13.56 MHz, and 2.45 GHz. However, there are eight frequency bands in use around the world, for RFID applications. Not all of the countries in the world have access to all of the frequency bands listed above, as some countries have assigned these bands to other users.
Appendix A - Radio Frequency Identification Defined Wireless Communication and Air Interface Range and Power Levels The range that can be achieved in an RFID system is essentially determined by: • The power available at the reader/interrogator to communicate with the tag(s). • The power available within the tag to respond. • The environmental conditions and structures, the former being more significant at higher frequencies including signal to noise ratio.
Wireless Communication and Air Interface Appendix A - Radio Frequency Identification Defined Transponders/Tags The word transponder, derived from TRANSmitter/resPONDER, reveals the function of the device. The tag responds to a transmitted or communicated request for the data it carries, the mode of communication between the reader and the tag being by wireless means across the space or air interface between the two.
Appendix A - Radio Frequency Identification Defined Wireless Communication and Air Interface Powering Tags Tags require power in order to work, even though the levels are invariably very small (microwatts to milliwatts). Tags are either passive or active, the designation being determined entirely by the manner in which the device derives its power. Active tags are powered by an internal battery and are typically read/write devices.
Wireless Communication and Air Interface Appendix A - Radio Frequency Identification Defined Devices characterized by data storage capacities up to 128 bits are sufficient to hold a serial or identification number together, possibly, with parity check bits. Such devices may be manufacturer or user programmable.
Appendix A - Radio Frequency Identification Defined Wireless Communication and Air Interface Costs The cost of tags obviously depends upon the type and quantities that are purchased. For large quantities (tens of thousands), the price can range from less than a few tens of pence for extremely simple tags to tens of pounds for the larger and more sophisticated devices.
Wireless Communication and Air Interface Appendix A - Radio Frequency Identification Defined RFID System Categories RFID systems may be roughly grouped into four categories: • EAS systems • Portable Data Capture systems • Networked systems • Positioning systems EAS systems are typically a one-bit system used to sense the presence/absence of an item.
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R20515 Cable Block Diagram, Revision F Appendix B - Cable Block Diagrams and Interconnects Appendix B - Cable Block Diagrams and Interconnects R20515 Cable Block Diagram, Revision F MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013 Page B-1
Appendix B - Cable Block Diagrams and Interconnects R20516 Interconnect Diagrams, Sheet 1 of 3, Revision E R20516 Interconnect Diagrams, Sheet 1 of 3, Revision E Page B-2 MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013
R20516 Interconnect Diagrams, Sheet 2 of 3, Revision C Appendix B - Cable Block Diagrams and Interconnects R20516 Interconnect Diagrams, Sheet 2 of 3, Revision C MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013 Page B-3
Appendix B - Cable Block Diagrams and Interconnects R20516 Interconnect Diagrams, Sheet 3 of 3, Revision E R20516 Interconnect Diagrams, Sheet 3 of 3, Revision E Page B-4 MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013
R20762 Cable Block Diagrams, Sheet 1 of 2, Revision J Appendix B - Cable Block Diagrams and Interconnects R20762 Cable Block Diagrams, Sheet 1 of 2, Revision J MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013 Page B-5
Appendix B - Cable Block Diagrams and Interconnects R20762 Cable Block Diagrams, Sheet 2 of 2, Revision J R20762 Cable Block Diagrams, Sheet 2 of 2, Revision J Page B-6 MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013
T20607 Interconnect Diagrams, Sheet 1 of 4, Revision H Appendix B - Cable Block Diagrams and Interconnects T20607 Interconnect Diagrams, Sheet 1 of 4, Revision H MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013 Page B-7
Appendix B - Cable Block Diagrams and Interconnects T20607 Interconnection Diagrams, Sheet 2 of 4, Revision H T20607 Interconnection Diagrams, Sheet 2 of 4, Revision H Page B-8 MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013
T20607 Interconnection Diagrams, Sheet 3 of 4, Revision H Appendix B - Cable Block Diagrams and Interconnects T20607 Interconnection Diagrams, Sheet 3 of 4, Revision H MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013 Page B-9
Appendix B - Cable Block Diagrams and Interconnects T20607 Interconnection Diagrams, Sheet 4 of 4, Revision H T20607 Interconnection Diagrams, Sheet 4 of 4, Revision H Page B-10 MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013
R20775 Cable Block Diagrams, Sheet 1 of 2, Revision D Appendix B - Cable Block Diagrams and Interconnects R20775 Cable Block Diagrams, Sheet 1 of 2, Revision D MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013 Page B-11
Appendix B - Cable Block Diagrams and Interconnects R20775 Cable Block Diagrams, Sheet 2 of 2, Revision D R20775 Cable Block Diagrams, Sheet 2 of 2, Revision D Page B-12 MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013
T20663 Interconnect Diagrams, Sheet 1 of 3, Revision C Appendix B - Cable Block Diagrams and Interconnects T20663 Interconnect Diagrams, Sheet 1 of 3, Revision C MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013 Page B-13
Appendix B - Cable Block Diagrams and Interconnects T20663 Interconnection Diagrams, Sheet 2 of 3, Revision C T20663 Interconnection Diagrams, Sheet 2 of 3, Revision C Page B-14 MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013
T20663 Interconnection Diagrams, Sheet 3 of 3, Revision C Appendix B - Cable Block Diagrams and Interconnects T20663 Interconnection Diagrams, Sheet 3 of 3, Revision C MDE-3664B TRIND® Start-up, Service, and Parts Manual · June 2013 Page B-15
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