ALLIED ELECTRONICS, INC STATION SITE CONTROLLER (SSC) Installation and Start Up Guide. Exxon Mobil / ANDI to Gilbarco

ALLIED ELECTRONICS, INC STATION SITE CONTROLLER (SSC) Installation and Start Up Guide Exxon Mobil / ANDI to Gilbarco ALLIED ELECTRONICS, INC 2210 FARRAGUT AVENUE BRISTOL, PA 19007-0624 PHONE: 215.785.6200 FAX: 215.785.0230 COPYRIGHT 2010 BY ALLIED ELECTRONICS, INC. Rev. July 27, 2010 Page I

Table of Contents 1 General Information... 1-1 1.1 Installation Environment... 1-1 1.2 Wiring... 1-1 1.2.1 Field Wiring... 1-1 1.2.2 Internal Wiring... 1-1 1.2.2.1 Introduction... 1-1 1.2.2.2 Planning... 1-1 1.2.2.3 Execution... 1-2 1.2.2.4 Testing... 1-2 1.3 Power and Data line protection... 1-3 1.4 Warranty... 1-3 1.5 FCC Warning... 1-3 1.6 Overview... 1-4 1.7 Installation Information... 1-5 1.7.1 Procedures... 1-5 1.8 Configuration Diagram... 1-6 1.8.1 SSC to Gilbarco... 1-6 1.9 Communication Cable Pin Assignments... 1-7 1.9.1 POS Communication Cables... 1-7 1.9.2 Gilbarco Pump and CRIND Control Cables... 1-8 1.9.3 Gilbarco Security Module Cable... 1-9 1.9.4 Tank Gauge Cable... 1-10 1.9.4.1 Veeder Root TLS... 1-10 1.9.4.2 Red Jacket ST... 1-10 1.9.4.3 Omntec OEL8000 II... 1-11 1.9.4.4 OPW EECO... 1-11 1.9.4.5 Incon Tank Sentinel... 1-11 1.9.5 Car Wash Communication... 1-12 1.9.5.1 Ryko Code A Wash III and Kesseltronics Standard... 1-12 1.9.5.2 Ryko Code A Wash IV (Serial number less than 166600), Unitec POS 4000 and Portal Ti... 1-12 1.9.5.3 Ryko Code A Wash IV (Serial number 166600 or greater )... 1-13 1.9.5.4 Unitec Enterlink... 1-13 1.9.5.5 PDQ... 1-13 1.9.5.6 Kesseltronics Advanced dual bay via the MUX PAP isolator box... 1-14 1.9.6 Fuel Price Sign Communication... 1-15 1.9.6.1 Daktronics Price Sign... 1-15 1.9.6.2 PWM Price Sign... 1-15 1.9.7 Exxon Mobil VSAT Cable... 1-16 2 Programming... 2-1 Rev. July 27, 2010 Page II

2.1 Gilbarco Addressing... 2-1 2.1.1 Gilbarco CRIND jumper settings... 2-1 2.1.2 Gilbarco Distribution box jumper settings... 2-2 2.1.3 Gilbarco Dispensers and CRINDs... 2-3 2.1.4 Gilbarco Blending Dispensers... 2-4 2.1.5 Gilbarco Security Module (GSM) for Debit... 2-7 2.2 SSC Parameters Values and Options... 2-7 2.3 Keypads... 2-8 2.4 Peripheral Devices... 2-28 2.4.1 Tank Gauge Systems... 2-28 2.4.2 Car Wash Controllers... 2-29 1.1.1. Fuel Price Signs... 2-30 Rev. July 27, 2010 Page III

1 General Information 1.1 Installation Environment 1.2 Wiring Exxon Mobil ANDI Gilbarco / Installation and Start Up Guide 1. The Allied Electronics ANDI Controller operates on 115 VAC @60Hz, 36 Watts. The ANDI controller is supplied with approximately 8 feet of 115 VAC power cord, and should be connected to an approved isolated ground receptacle on its own dedicated circuit. The ANDI must be installed in a temperature controlled environment (between 32 0 F and 100 0 F). 2. The controller must be installed in accordance with the National Electrical Code (NFPA 70), the Automotive and Marine Service Station Code (NFPA 30A), and all state and local electrical codes. 3. The controller must be installed indoors, above the Class 1, Division 2 Hazardous location. 4. The controller is designed for use with peripheral devices which are UL Listed. 1.2.1 Field Wiring All field wiring (that is, all wiring connected directly to dispensing devices) should be oil and gas resistant, as required by Paragraph 501-13 of the NEC, and should be sealed in accordance with Article 500 of the NEC. 1.2.2 Internal Wiring 1.2.2.1 Introduction a. The purpose of this section is to provide a list of installation practices that we feel are crucial to ensure error-free communications. b. All cabling must comply with Local, State, and Federal building codes. c. Data connections between the Forecourt Controller (SSC or NeXGen) are to be made with CAT-5 Cable compliant with TIA/EIA-568-B or better. d. Proper cable installation techniques go a long way to preventing data loss. 1.2.2.2 Planning a. Pull cables in continuous runs. b. Do not splice any communications cables. c. Separate all cables from fluorescent lighting ballasts and neon sign transformers by at least 4 feet. d. Separate all cables from electrical supply conductors by at least 2 feet. e. Provide extra wire for service loops at the termination points but do not leave more than is required. Rev. July 27, 2010 Page 1-1

1.2.2.3 Execution a. Maintain the natural twist of the cable. i. The cables have four pairs of twisted wires that can very easily lose their ability to reject electromagnetic interference when unraveled. ii. -out cable from spools so that the spool rotates. b. Avoid kinking and over-stressing the cable. i. Kinks not only pick up interference, but can cause the jacket to chafe and internal conductors to break. ii. Never exert more than 25 pounds of tension when pulling a communications cable. c. Provide a generous bend radius whenever the cable turns a corner. i. Never bend the cable more than 90 degrees. ii. Limit the bend to a 3 inch radius. iii. Use a 1 pound coffee can as a guide. d. Support all cabling in both horizontal and vertical planes. i. Unsupported horizontal cable runs, especially above drop ceilings, are problematic. ii. In the event that cable trays are not available, the cabling can be secured with zip-ties, hook clips, J-hooks, or plastic coated staples provided they are spaced no greater than 2 apart. iii. Do not use utility piping or drop ceiling grid-work to secure or support communications cables. e. Protect the cable from mechanical damage and install appropriate fire blocking whenever cables pass through floors or walls. f. Install carefully all zip-ties ensuring that they do not bite into the cable through excessive force. g. Label both ends of all cables. h. Use the proper punch down tool and ensure it is set properly. i. Remove as little of the jacket as possible. ii. Untwist the conductors as little as possible. 1.2.2.4 Testing a. Inspect thoroughly all cables for damage after they are pulled and before they are bundled or otherwise secured. b. Perform a continuity test of all pairs. Rev. July 27, 2010 Page 1-2

1.3 Power and Data line protection 1.4 Warranty 1.5 FCC Warning Allied Electronics recommends that the controller be installed with the appropriate power and data line protection devices in order to protect against power surges, transients, low voltage (brown outs), and lightning. Note: Due to the magnitude of power that s contained within a lightning strike it s impossible to totally eliminate the possibility of damage, but we feel with the introduction of high quality protection devices the incidence of failure can be greatly reduced. The SSC has a one year parts warranty only, from date of installation, which can either be phoned in or submitted using the warranty/registration card enclosed in every SSC. If the start up information is not registered with our office within thirty (30) days of installation, warranty will begin from the date of shipment. Allied will warrant all parts against defects but not against physical damage or improper installation. All parts being returned "under warranty" must be accompanied with a Allied RMA number. When calling Allied for RMA numbers for SSC main boards, you will be asked for the main board serial number, located on the upper left hand corner inside box, and a description of the problem. This equipment generates, uses, and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual, may cause interference to radio communications. It has been tested and found to comply with the limits for a Class "A" computing device pursuant to Subpart B of Part 15 of the FCC Rules, which are designed to provide reasonable protection against such interference when operated in a commercial environment. Operation of this equipment in a residential area is likely to cause interference, in which case the user, at his own expense, will be required to take whatever measures may be required to correct the interference. Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Rev. July 27, 2010 Page 1-3

1.6 Overview The SSC interfaces to the following devices: Gilbarco Dispensers & CRINDs 1. Gilbarco Dispensers via a 45 ma current loop board which is connected to the Blue/Black or the Universal Distribution Box. 2. Gilbarco Generic CRINDs, Monochrome / Info-Screen Graphics displays and Cash acceptors via a 45 ma current loop board which is connected to the Universal Distribution box. 3. GSM (Gilbarco Security Module) is required for CRIND systems with debit support. The SSC communicates to the GSM via a fully populated RS-232 board. Point - Of - Sale (POS) Generic PC Based Point -Of -Sale Computer via a fully populated RS-232 board. Supporting the ANDI protocol interface. Tank gauge 1. Veeder Root TLS 250, 350 & 350R or equivalent tank gauge system via a fully populated RS-232 board. 2. Any Tank Gauge system that uses the Veeder Root protocol. Car Wash 1. Ryko III, Ryko IV, Unitec POS 4000, Unitec/Enterlink, Unitec Portal Ti, Unitec Smart Terminal, PDQ and Kesseltronics Car Wash controllers via a fully populated RS-232 board. 1. All Ryko compatible controllers Fuel Price Sign 1. Daktronics and the PWM Price signs via a fully populated RS-232 board. VSAT Hughes satellite system used to communicate to the Card host via a fully populated RS-232 board. RFID Gilbarco TRIND system via a 45 ma current loop board which is connected to the CRIND Universal Distribution box. Rev. July 27, 2010 Page 1-4

1.7 Installation Information 1.7.1 Procedures 1. Hardware Installation a. Mount SSC unit onto wall. b. Route and connect all communication cables as labeled. Refer to Configuration Diagrams section. c. Apply AC power to unit. The SSC software will first initialize the hardware and then run some internal diagnostics before starting the application program. To indicate that the software is active, the SSC will display the following: d. The prompt will display, [SSC System Reset] [Initializing...] SSC will next show the following on the display for several seconds. [Software Version] [SSC Warm Start ] SSC will then show the following on the display when ready. [Software Version] [ Date & Time ] 2. Programming steps a. Program the dispensers*. b. Program the SSC via the POS**. Note* - Dispenser programming is not within the scope of this manual. Note** - It is not within the scope of this manual to supply complete step-by-step programming of the POS. Rev. July 27, 2010 Page 1-5

1.8 Configuration Diagram 1.8.1 SSC to Gilbarco Exxon Mobil ANDI Gilbarco / Installation and Start Up Guide POS # 1 POS # 2 CH1 CH2 CH3 CH9 CH10 CH11 POS #5 POS #6 POS # 3 POS # 4 Gilbacro 1 to 16 F.P. Gilbarco Dist. Box CH4 CH5 CH6 CH7 CH8 Station Site Controller CH12 CH13 CH14 CH15 CH16 POS #7 POS #8 Tank Gauge Car Wash Gilbarco 17 to 32 F.P. Gilbarco Dist. Box VSAT Host CRIND/TRIND & Cash, 1-32 Universal Dist. Box Debit GSM Remote Access This figure describes an SSC to Gilbarco with CRIND installation. Communication Boards CH1 (POS)......0399-1610-F (RS-232 Fully Populated board) CH2 (POS) Optional......0399-1610-F (RS-232 Fully Populated board) CH3 (POS) Optional......0399-1610-F (RS-232 Fully Populated board) CH4 (POS) Optional......0399-1610-F (RS-232 Fully Populated board) CH5 (Dispenser)......499-2410 (Current loop board) CH6 (Dispenser) Optional...499-2410 (Current loop board) CH7 (CRIND/TRIND & Cash)...499-2410 (Current loop board) CH8 (Debit) Optional......0399-1610-F (RS-232 Fully Populated board) CH9 (POS) Optional......0399-1610-F (RS-232 Fully Populated board) CH10 (POS) Optional......0399-1610-F (RS-232 Fully Populated board) CH11(POS) Optional......0399-1610-F (RS-232 Fully Populated board) CH12 (POS) Optional......0399-1610-F (RS-232 Fully Populated board) CH13 (Tank Gauge) Optional..0399-1610-F (RS-232 Fully Populated board) CH14 (Car Wash) Optional....0399-1610-F (RS-232 Fully Populated board) CH15 (VSAT)......0399-1610-F (RS-232 Fully Populated board) CH16 (Remote Access) Optional...0399-1610-F (RS-232 Fully Populated board) Rev. July 27, 2010 Page 1-6

1.9 Communication Cable Pin Assignments 1.9.1 POS Communication Cables The SSC supports up to 8 POSs. The POS is a PC Based computer which runs the Point-Of- Sale software. The serial port on the POS can be either a DB-25 or a DB-9 connector. SSC (CH1 - CH4 & CH9 - CH12) adapter to POS (Serial Port, DB25) (Part #HT9325-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) POS DB25 Female TXD 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 3 RXD RXD 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 2 TXD RTS 4 (Grn) 5 -------------- Wht/Blu -------------- 5 (Grn) 5 CTS CTS 5 (Red) 4 -------------- Blue -------------- 4 (Red) 4 RTS DSR 6 (Brn) 7 -------------- Wht/Brn -------------- 7 (Brn) 11 N/C 20 DTR GND 7 (Blu) 1 -------------- Wht/Org -------------- 1 (Blu) 7 GND DTR 11 (Org) 2 -------------- Orange -------------- 2 (Org) 6 DSR N/C 20 SSC (CH1 - CH4 & CH9 - CH12) adapter to POS (Serial Port, DB9) (Part #HT9359-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) POS DB9 Female TXD 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 2 RXD RXD 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 3 TXD RTS 4 (Red) 4 -------------- Blue -------------- 4 (Red) 8 CTS CTS 5 (Grn) 5 -------------- Wht/Blu -------------- 5 (Grn) 7 RTS DSR 6 (Brn) 7 -------------- Wht/Brn -------------- 7 (Brn) 4 DTR GND 7 (Blu) 1 -------------- Wht/Org -------------- 1 (Blu) 5 GND DTR 11 (Org) 2 -------------- Orange -------------- 2 (Org) 6 DSR Rev. July 27, 2010 Page 1-7

1.9.2 Gilbarco Pump and CRIND Control Cables Up to 16 fueling positions may be connected to the SSC on each dispenser communications Channel (CH5 and CH6). Up To 32 CRINDs may be connected to the SSC at CH7. Each Channel must have a 2-wire custom cable which terminates in either a 2 pin male CPC (circular plastic connector) a female DB-9 connector or a connector. Pump Control SSC CH5 and CH6 to Gilbarco D-Box CRIND Control SSC CH7 to Gilbarco D-Box The connections are as follows: Pin-1 is jumped to Pin-3 at the SSC end. Interface board switches should be set to 45 ma/2 wire. (1) Circular Plastic Connector SSC (CH5, or CH6) To the Gilbarco (CPC) SSC Gilbarco DB25 Female Circular Connector 1 3 5 -------------------- Red + -------------------- 1 + 7 -------------------- Black - -------------------- 2 - (2) DB-9 Connectors SSC (CH5, CH6 or CH7) adapter to the Gilbarco (DB9 Female) (Part #HT9323B-ADP Pump / Part #HT9323C-ADP CRIND ) SSC DB25 Female CAT 5 Cable (T568B Spec.) Gilbarco DB9 Female 1 3 + 5 (Red) 4 -------------- Blue -------------- 4 (Red) 7 + - 7 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 6 - Rev. July 27, 2010 Page 1-8

(3) RJ-45 Connectors SSC (CH5, CH6 or CH7) adapter to the Gilbarco () (Part #HT9385B-ADP Pump / Part #HT9385C-ADP CRIND ) SSC DB25 Female CAT 5 Cable (T568B Spec.) Gilbarco 1 3 + 5 (Brn) 7 -------------- Wht/Brn -------------- 7 + - 7 (Yel) 6 -------------- Green -------------- 6-1.9.3 Gilbarco Security Module Cable The SSC uses Channel 8 to interface to the GSM. The GSM (Gilbarco Security Module) is required for CRIND systems with debit support. The serial port on the GSM has a DB-9 connector which is to be connected to Channel 8 of the SSC. The cable pinouts are as follows: SSC (CH8) adapter to the GSM (Part #HT9330-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Gilbarco GSM DB9 Male TXD 2 (Red) 4 -------------- Blue -------------- 4 (Red) 3 RXD RXD 3 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 2 TXD RTS 4 (Grn) 5 -------------- Wht/Blu -------------- 5 (Grn) 9 CTS GND 7 (Wht) 8 -------------- Brown -------------- 8 (Wht) 7 GND 6 11 Note: The GSM cable supplied by Gilbarco will not work with the SSC. The Allied GSM cable shown above must be used. When the Gilbarco Debit option is ordered from Allied a standard 25 GSM/SSC cable will be supplied. See the Cable Part Numbers section for other available lengths. Rev. July 27, 2010 Page 1-9

1.9.4 Tank Gauge Cable The SSC uses Channel 13 to interface to the Veeder-Root or Equivalent tank gauge systems. Configure the tank gauge communication parameters as follows: Baud Rate: 9600 Parity: Odd Stop Bits: 1 Data Bits: 7 1.9.4.1 Veeder Root TLS On a TLS-250, the communication parameters are set using a rotary switch and DIP switches, (please refer to the TLS 250 manual). On a TLS-350, the communication parameters are programmed via the TLS keyboard (please refer to TLS 350/350R manual). SSC (CH13) adapter to the VR TLS (Part #HT9338-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) TLS DB25 Male TXD 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 3 RXD RXD 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 2 TXD RTS 4 CTS 5 DSR 6 DTR 11 GND 7 (Red) 4 -------------- Blue -------------- 4 (Red) 7 GND 1.9.4.2 Red Jacket ST SSC (CH13) adapter to the Red Jacket ST tank gauge SSC DB25 Female CAT 5 Cable (T568B Spec.) Modular Jack Red Jacket DB9 Female TXD 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 2 RXD RXD 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 3 TXD CTS 5 (Grn) 5 -------------- Wht/Blu -------------- 5 (Grn) 7 RTS GND 7 (Red) 4 -------------- Blue -------------- 4 (Red) 5 GND Rev. July 27, 2010 Page 1-10

1.9.4.3 Omntec OEL8000 II SSC (CH13) adapter to the OMNTEC Model OEL8000 II Tank / Leak detection system SSC DB25 Female CAT 5 Cable (T568B Spec.) Modular Jack OMNTEC DB9 Female TXD 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 3 RXD RXD 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 2 TXD GND 7 (Red) 4 -------------- Blue -------------- 4 (Red) 5 GND 1.9.4.4 OPW EECO SSC (CH13) adapter set to the OPW EECO #1500, 2000, 3000 (Part #HT9396-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Modular Jack EECO DB9 Male TXD 2 (Org) 2 -------------- Orange -------------- 2 (Org) 2 RXD RXD 3 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 3 TXD RTS 4 CTS 5 GND 7 (Grn) 5 -------------- Wht/Brn -------------- 5 (Grn) 5 TXD DSR 6 DTR 11 7 RTS 8 CTS 1.9.4.5 Incon Tank Sentinel SSC (CH13) adapter set to the Incon Tank Sentinel (Part #HT9389-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Modular Jack Incon/Comm 1 DB9 Male TXD 2 (Grn) 5 -------------- Wht/Blu -------------- 5 (Grn) 3 RXD RXD 3 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 2 TXD RTS 4 CTS 5 GND 7 (White) 8 -------------- Brown -------------- 8 (White) 5 Gnd DSR 6 DTR 11 Rev. July 27, 2010 Page 1-11

1.9.5 Car Wash Communication The SSC uses channel 14 to interface to the car wash controller. The following car wash controllers are supported. 1.9.5.1 Ryko Code A Wash III and Kesseltronics Standard SSC (CH14) adapter to the Ryko Code-A-Wash III and Kesseltronics Standard (Part #HT9348-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Modular Jack Car Wash DB9 Male TXD 2 (Wht) 8 -------------- Brown -------------- 8 (Wht) 8 RXD RXD 3 (Red) 4 -------------- Blue -------------- 4 (Red) 9 TXD RTS 4 CTS 5 DSR 6 DTR 11 1 4 CTS GND 7 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 7 Gnd 1.9.5.2 Ryko Code A Wash IV (Serial number less than 166600), Unitec POS 4000 and Portal Ti SSC (CH14) adapter to the Ryko Code A Wash IV (Serial number less than 166600), Unitec POS 4000 and Portal Ti (Part #HT9344-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Car Wash DB9 Female TXD 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 2 RXD RXD 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 3 TXD RTS 4 (Grn) 5 -------------- Wht/Blu -------------- 5 (Grn) 8 CTS CTS 5 (Red) 4 -------------- Blue -------------- 4 (Red) 7 RTS GND 7 (Brn) 7 -------------- Wht/Brn -------------- 7 (Brn) 5 GND DSR 6 (Org) 2 -------------- Orange -------------- 2 (Org) 4 DTR DTR 11 (Blu) 1 -------------- Wht/Org -------------- 1 (Blu) 6 DSR Rev. July 27, 2010 Page 1-12

1.9.5.3 Ryko Code A Wash IV (Serial number 166600 or greater ) SSC (CH14) adapter to the Ryko Code A Wash IV (S/N 166600 or greater) (Part #HT9352-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Modular Jack Car Wash DB9 Female TXD 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 2 RXD RXD 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 3 TXD RTS 4 CTS 5 DSR 6 DTR 11 GND 7 (Brn) 7 -------------- Wht/Brn -------------- 7 (Brn) 5 Gnd 1.9.5.4 Unitec Enterlink SSC (CH14) adapter to the Unitec/Enterlink (Part #HT9352-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Modular Jack Enterlink DB9 Female TXD 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 2 RXD RXD 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 3 TXD RTS 4 CTS 5 DSR 6 DTR 11 GND 7 (Brn) 7 -------------- Wht/Brn -------------- 7 (Brn) 5 Gnd 1.9.5.5 PDQ SSC (CH14) adapter to the PDQ (Part #HT9352-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Modular Jack PDQ DB9 Female TXD 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 2 RXD RXD 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 3 TXD RTS 4 CTS 5 DSR 6 DTR 11 GND 7 (Brn) 7 -------------- Wht/Brn -------------- 7 (Brn) 5 Gnd Rev. July 27, 2010 Page 1-13

1.9.5.6 Kesseltronics Advanced dual bay via the MUX PAP isolator box SSC (CH14) adapter to the Kesseltronics Advanced Dual bay via MUX PAP isolator box /DB9 (Part #HT9352-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Modular Jack Kesseltronics ADB DB9 Female TXD 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 2 RXD RXD 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 3 TXD RTS 4 CTS 5 DSR 6 DTR 11 GND 7 (Brn) 7 -------------- Wht/Brn -------------- 7 (Brn) 5 Gnd SSC (CH14) adapter to the Kesseltronics Advanced Dual bay via MUX PAP isolator box / (Part #HT9406-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Kesseltronics ADB TXD 2 (Org) 2 -------------- Orange -------------- 2 RXD RXD 3 (Blk) 3 -------------- Wht/Grn -------------- 3 TXD RTS 4 CTS 5 DSR 6 DTR 11 GND 7 (Red) 4 -------------- Blue -------------- 4 GND Rev. July 27, 2010 Page 1-14

1.9.6 Fuel Price Sign Communication The SSC uses channels 9, 10, 11 or 12 and to interface to Electronic price signs. The following price signs are supported. 1.9.6.1 Daktronics Price Sign SSC (CH9, 10 or 11) adapter set to the Daktronics Price Sign (Part #HT9359D-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Modular Jack Daktronics DB9 Female TXD 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 2 RXD RXD 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 3 TXD RTS 4 (Red) 4 -------------- Blue -------------- 4 (Red) 8 CTS CTS 5 (Grn) 5 -------------- Wht/Blu -------------- 5 (Grn) 7 RTS DSR 6 (Brn) 7 -------------- Wht/Brn -------------- 7 (Brn) 4 DTR GND 7 (Blu) 1 -------------- Wht/Org -------------- 1 (Blu) 5 GND DTR 11 (Org) 2 -------------- Orange -------------- 2 (Org) 6 DSR 1.9.6.2 PWM Price Sign SSC (CH9, 10 or 11) adapter set to the PWM Price Sign (Part #HT9428-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) PWM Connector TXD 2 (Grn) 5 -------------- Wht/Blu -------------- 4 RXD RXD 3 (Blk) 3 -------------- Wht/Grn -------------- 5 TXD RTS 4 (Red) 4 -------------- Blue -------------- 2 CTS CTS 5 (Yel) 6 -------------- Green -------------- 3 RTS GND 7 (Wht) 8 -------------- Brown -------------- 1 GND DSR 6 DTR11 Rev. July 27, 2010 Page 1-15

1.9.7 Exxon Mobil VSAT Cable The SSC uses Channel 15 to interface with the Exxon Mobil Host Network and with other remote computers via a Personal Earth Station that is connected to the VSAT. The Earth station has to be configured (baud-rate, parity, time-outs, etc.) to properly communicate with the SSC. This is done remotely by Exxon Mobil personnel. The SSC does not configure the Earth Station. SSC (CH15) To the VSAT Cable (Part #HT9383-ADP) SSC DB25 Female CAT 5 Cable (T568B Spec.) Modular Jack VSAT DB25 Male (TXD) 2 (Blk) 3 -------------- Wht/Grn -------------- 3 (Blk) 2 (RXD) (RXD) 3 (Wht) 8 -------------- Brown -------------- 8 (Wht) 3 (TXD) (CTS) 5 (Red) 4 -------------- Blue -------------- 4 (Red) 8 (DCD) (DSR) 6 (Grn) 5 -------------- Wht/Blu -------------- 5 (Grn) 6 (DTR) (GND) 7 (Brn) 7 -------------- Wht/Brn -------------- 7 (Brn) 7 (GND) (DTR) 11 (Blu) 1 -------------- Wht/Org -------------- 1 (Blu) 20 (DSR) Rev. July 27, 2010 Page 1-16

2 Programming 2.1 Gilbarco Addressing 2.1.1 Gilbarco CRIND jumper settings The following is a list of the jumper settings for the Gilbarco CRINDs Jumper Description Setting JP1 Watchdog Installed JP14 GEN/MOC Installed JP 16 Spare Input Installed- Sets the baud rate for the CRIND to 4800. JP13 Side A When appropriate JP11 Cold Start Installed on initial startup. The CRIND will prompt for this to be removed after a complete cold start. JP4 - JP8 CRIND Address Set for the appropriate address- one behind the pump address. ex: FP #1, C/R 0, etc. Rev. July 27, 2010 Page 2-1

2.1.2 Gilbarco Distribution box jumper settings The SSC communicates with the Gilbarco dispensers and CRINDs via two wire communications and uses 45ma current loop boards. Channels 5 and 6 on the SSC can each communicate with up to sixteen fueling positions. Channel 7 can communicate with up to 32 CRINDs. The following is a list of the Jumper settings for the Gilbarco universal distribution box for Pump and CRIND communications. Two wire configuration (45ma) Jumper Jumper setting for Boards 1 and 2 JP10 Horizontal JP12 Horizontal JP9 Horizontal (Pumps/CRINDs) JP14 Installed Single and dual board configurations 1) 1 board, 1 input, 8 loops for dispensers, CRINDs 2) 2 boards, 1 input, 16 loops for dispensers or CRINDs on boards 1 & 2 3) 2 boards, 2 inputs, 8 loops for dispensers on board 1 and 8 loops for CRINDs on board 2 or 8 loops for dispensers on board 1 and 8 loops for dispensers on board 2. Option Jumper setting for Board 1 Jumper setting for Board 2 1 JP11, set to B N/A 1 JP13, set to B N/A 2 JP11, set to B JP11, set to A 2 JP13, set to A JP13, set to B 3 JP11, set to B JP11, set to B 3 JP13, set to B JP13, set to B Rev. July 27, 2010 Page 2-2

2.1.3 Gilbarco Dispensers and CRINDs Two Channels (5 and 6) have been designated to communicate with the Gilbarco dispensers. Each Channel can accommodate up to 16 fueling positions. The address of the first fueling position on Channel 5 will be set to address 1, the second to address 2 etc. If Channel 6 is used, the address of the first fueling position connected on this Channel will also be set to address 1, the second to address 2 etc. See example. The SSC uses Channel 7 to communicate with the Gilbarco CRINDs. The CRIND device address must be one less than the fueling position number. Fueling Position Fueling Position Addres s SSC Channe l Advantage CRIND Address SSC Encore Channel 1 1 CH-5 0 32 CH-7 2 2 CH-5 1 1 CH-7 3 3 CH-5 2 2 CH-7 4 4 CH-5 3 3 CH-7 5 5 CH-5 4 4 CH-7 6 6 CH-5 5 5 CH-7 7 7 CH-5 6 6 CH-7 8 8 CH-5 7 7 CH-7 9 9 CH-5 8 8 CH-7 10 10 CH-5 9 9 CH-7 11 11 CH-5 10 10 CH-7 12 12 CH-5 11 11 CH-7 13 13 CH-5 12 12 CH-7 14 14 CH-5 13 13 CH-7 15 15 CH-5 14 14 CH-7 16 16 CH-5 15 15 CH-7 17 1 CH-6 16 16 CH-7 18 2 CH-6 17 17 CH-7 19 3 CH-6 18 18 CH-7 20 4 CH-6 19 19 CH-7 21 5 CH-6 20 20 CH-7 22 6 CH-6 21 21 CH-7 23 7 CH-6 22 22 CH-7 24 8 CH-6 23 23 CH-7 25 9 CH-6 24 24 CH-7 26 10 CH-6 25 25 CH-7 27 11 CH-6 26 26 CH-7 28 12 CH-6 27 27 CH-7 29 13 CH-6 28 28 CH-7 30 14 CH-6 29 29 CH-7 31 15 CH-6 30 30 CH-7 32 16 CH-6 31 31 CH-7 Rev. July 27, 2010 Page 2-3

2.1.4 Gilbarco Blending Dispensers Gilbarco Variable Blenders The ANDI interfaces to the following Gilbarco variable Blenders: 3+0 4+0 5+0 3+1 4+1 5+1 A variable blender without diesel, or 3+0, will have position 1, grade 1 on the left on both sides of the pump. Gilbarco products are mapped as positions 1, 3 and 5 (Advantage) and positions 1, 2 and 3 (Advantage with Optimized electronics), Low grade, Mid grade and High grade respectively, from left to right when facing each side of the dispenser. A 5+0 will have the products mapped as positions 1, 2, 3, 4 and 5. Low grade, blend grade 1, blend grade 2, blend grade 3 and High grade. The following is an example of a 3+0. B side product 3 position 5 position 3 product 2 position 3 position 2 product 1 position 1 position 1 Advantage Adv. w/ optimized & Encore A side product 1 position 1 position 1 product 2 position 3 position 2 product 3 position 5 position 3 Advantage Adv. w/ optimized & Encore An advantage variable blender with diesel, or 3 + 1, will always have the diesel product for each side mirrored with one another. The diesel will be on the right when facing side A, while diesel will be on the left when facing side B. Gilbarco maps the diesel product as product 6. The remaining grades are mapped the same as the 3 + 0 described above. The pump is shown below: B Side product 3 position 5 position 3 product 2 position 3 position 2 product 1 position 1 position 1 product 4 position 6 position 6 Advantage Adv. w/ optimized & Encore A Side product 1 position 1 position 1 product 2 position 3 position 2 product 3 position 5 position 3 product 4 position 6 position 6 Advantage Adv. w/ optimized & Encore Rev. July 27, 2010 Page 2-4

Product to Position Mapping for Gilbarco Variable Blenders In the Gilbarco system, the product type to product # assignment can be in any order. For the 3+0 and 3+1 variable blenders, the following will be used: POS Product #1: POS Product #2: POS Product #3: POS Product #4: Low grade Blended Product High grade Diesel Model 3 + 0 Variable blender The table below lists the proper product to position assignment for each blender type which is set via the POS fueling point configuration menu. The blender type setting is not used and should be set to zero (0). Position Advantage Product Adv. w/optimized & Encore Product 1 Low grade Low grade 2 Not assigned Blended product 3 Blended product High grade 4 Not assigned Not assigned 5 High grade Not assigned 6 Not assigned Not assigned 7 Not assigned Not assigned 8 Not assigned Not assigned * The low grade and the high grade products may be switched depending on the position of the dispenser and the installation of the product lines. Rev. July 27, 2010 Page 2-5

Model 3 + 1 Variable blender The table below lists the proper product to position assignment for each blender type which is set via the POS fueling point configuration menu. The blender type setting is not used and should be set to zero (0). Position Advantage Product Adv. w/optimized & Encore Product 1 Low grade Low grade 2 Not assigned Blended product 3 Blended product High grade 4 Not assigned Not assigned 5 High grade Not assigned 6 Diesel Diesel 7 Not assigned Not assigned 8 Not assigned Not assigned * The low grade and the high grade products may be switched depending on the position of the dispenser and the installation of the product lines. Product to Position Mapping Fixed Blenders (Advantage and Optimized) A Gilbarco fixed blender does not require any special product mapping. The table below lists the proper product to position assignment for this blender type and is programmed via the POS fueling point configuration menu. The blender type setting is not used and should be set to zero (0). Position Product 1 Low grade 2 Blended product 3 High grade 4 Not assigned 5 Not assigned 6 Not assigned 7 Not assigned 8 Not assigned * The low grade and the high grade products may be switched depending on the position of the dispenser and the installation of the product lines. Rev. July 27, 2010 Page 2-6

2.1.5 Gilbarco Security Module (GSM) for Debit The Gilbarco Security Module (GSM) must be ordered from Gilbarco for a specific Network application. It should be configured by Gilbarco for the location. There are no switches or jumpers to be set. 2.2 SSC Parameters Values and Options The SSC keypad is not used to configure the SSC. The SSC configuration is done by the POS. The POS has to download all required parameters to the SSC. The SSC will start polling the dispensers and/or card readres only after the POS has downloaded station configuration data. If the SSC has not receive the download from the POS the unit will display [CHXX Await Cnfg.] Parameters Downloaded from POS: DPT Configuration Fuel Information Product Information Car Wash Information Cash / Limits Mode of Service Default Price Level Sale Stacking Number of fueling points Configuration Rev. July 27, 2010 Page 2-7

2.3 Keypads Type 1 1 2 3 Cash 7 8 9 No Receipt Yes Clear 0 Enter Help Cancel Type 2 1 2 3 7 8 9 No Receipt Yes Clear 0 Enter Help Cancel Rev. July 27, 2010 Page 2-8

Type 3 1 2 3 Debit Cash 7 8 9 No Receipt Yes Clear 0 Enter Help Cancel Type 4 1 2 3 7 8 9 Yes Help Clear 0 Enter No Cancel Rev. July 27, 2010 Page 2-9

Type 5 Info Screen (Virtual only) Type 6 Info Screen (Virtual inside Cash & ) Note: Debit and Cash is also supported Advantage with Monochrome Soft key Left --- Here Soft key Right Soft key Left --- (keypad 5) --- (keypad 6) Soft key Right Soft key Left --- Cash (keypad 6) Soft key Right Soft key Left Soft key Right Help 1 2 3 Cancel 7 8 9 Clear 0 Enter Note: This type 5 and 6 keypad configuration will support the location of the Help, Cancel and ADA buttons on either side of the numeric keypad. Rev. July 27, 2010 Page 2-10

Type 5 (Encore) 1 2 3 Help Cancel 7 8 9 Clear 0 Enter ADA Type 7 1 2 3 Here 7 8 9 Yes No Clear 0 Enter Help Cancel Type 8 1 2 3 Yes No 7 8 9 Cancel Clear 0 Enter Rev. July 27, 2010 Page 2-11

Type 9 1 2 3 Debit 7 8 9 Cash Clear/No 0 Enter/Yes Cancel Type A 1 2 3 7 8 9 No Yes Clear 0 Enter Help Cancel Type B 1 2 3 Debit 7 8 9 No Yes Clear 0 Enter Help Cancel Rev. July 27, 2010 Page 2-12

Type C 1 2 3 Cash 7 8 9 No Yes Clear 0 Enter Help Cancel Type D 1 2 3 Debit Cash 7 8 9 No Yes Clear 0 Enter Help Cancel Type E 1 2 3 Yes No 7 8 9 Help Clear 0 Enter Cancel Rev. July 27, 2010 Page 2-13

Type F 1 2 3 Debit Cash 7 8 9 Cancel Help Clear 0 Enter No Yes Type G 1 2 3 Yes No Help Cancel 7 8 9 Debit Clear 0 Enter Rev. July 27, 2010 Page 2-14

Type H Soft key Left Soft key Right Soft key Left Soft key Right Customer Specific Prompts Soft key Left Soft key Right Soft key Left Soft key Right 1 2 3 Cancel Re-print Receipt 7 8 9 Clear 0 Enter Rev. July 27, 2010 Page 2-15

Type i (e-crind) 1 2 3 Yes No Help Cancel 7 8 9 Clear 0 Enter Type I 1 2 3 Cash 7 8 9 No Yes Clear 0 Enter Help Cancel Rev. July 27, 2010 Page 2-16

Type J (Canada) Soft key Left Soft key Right Soft key Left Soft key Right Customer Specific Prompts Soft key Left Soft key Right Soft key Left Soft key Right Cancel 1 2 3 Re-Print Receipt French English 7 8 9 Clear 0 Enter Rev. July 27, 2010 Page 2-17

Type L 1 2 3 YES ATM/ DEBIT NO 7 8 9 HELP Clear 0 Enter CANCEL Type M 1 2 3 Debit 7 8 9 Cash Clear/ No 0 Enter/ Yes HELP CANCEL Rev. July 27, 2010 Page 2-18

Type N 1 2 3 Debit 7 8 9 No Yes Clear 0 Enter Cancel Type O 1 2 3 Debit 7 8 9 No Yes Clear 0 Enter Help Cancel Type P 1 2 3 Cash Debit 7 8 9 YES NO Clear 0 Enter HELP CANCEL Rev. July 27, 2010 Page 2-19

Rev. July 27, 2010 Page 2-20

Type Q (EPP in T-DES - Graphics - Advantage and Encore 300 models) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 2. Column 4 does NOT exist on the physical keypad. It is included in this diagram only as a place holder. 3. Pushing the HELP key twice, functions as the ADA key. 1 2 3 Yes No 7 8 9 Cancel Auxiliary Keypad Debit Clear 0 Enter Help ADA Type R (EPP in T-DES Single-line - Advantage and Encore 300 models) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 2. Column 4 does NOT exist on the physical keypad. It is included in this diagram only as a place holder. 1 2 3 Yes No 7 8 9 Cancel Auxiliary Keypad Debit Clear 0 Enter Help Rev. July 27, 2010 Page 2-21

Type S (EPP in S-DES Graphics - Advantage and Encore 300 models) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 2. Column 4 does NOT exist on the physical keypad. It is included in this diagram only as a place holder. 3. Pushing the HELP key twice, functions as the ADA key. 1 2 3 Yes No 7 8 9 Cancel Auxiliary Keypad Debit Clear 0 Enter Help ADA Type T (EPP in S-DES Single-line - Advantage and Encore 300 models) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 2. Column 4 does NOT exist on the physical keypad. It is included in this diagram only as a place holder. 1 2 3 Yes No 7 8 9 Cancel Auxiliary Keypad Debit Clear 0 Enter Help Rev. July 27, 2010 Page 2-22

Type U (EPP in T-DES Graphics - Encore 500 models) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 2. Column 4 does NOT exist on the physical keypad. It is included in this diagram only as a place holder. 3. Pushing the HELP key twice, functions as the ADA key. 1 2 3 Yes No 7 8 9 Cancel Auxiliary Keypad Debit Clear 0 Enter Help ADA Type V (EPP in S-DES Graphics - Encore 500 models) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 2. Column 4 does NOT exist on the physical keypad. It is included in this diagram only as a place holder. 3. Pushing the HELP key twice, functions as the ADA key. 1 2 3 Yes No 7 8 9 Cancel Auxiliary Keypad Debit Clear 0 Enter Help ADA Rev. July 27, 2010 Page 2-23

Type W (EPP in T-DES Graphics - Encore 500 S ECIM models) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 2. Column 4 does NOT exist on the physical keypad. It is included in this diagram only as a place holder. 3. Pushing the HELP key twice, functions as the ADA key. 1 2 3 Yes No 7 8 9 Cancel Auxiliary Keypad Debit Clear 0 Enter Help ADA Type X (EPP in S-DES Graphics - Encore 500 S ECIM models) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 2. Column 4 does NOT exist on the physical keypad. It is included in this diagram only as a place holder. 3. Pushing the HELP key twice, functions as the ADA key. 1 2 3 Yes No 7 8 9 Cancel Auxiliary Keypad Debit Clear 0 Enter Help ADA Rev. July 27, 2010 Page 2-24

Type Y (EMV in S-DES Compatible mode) Notes: 1. EMV returns different values for CANCEL and ENTER when in buffered mode. The keys in this table reflect the "normal" returns. CRIND code is responsible for handling the special case when in buffered Auxiliary Keypad 1 2 3 Cancel Yes French 7 8 9 Shift 0 Help Clear No E N T E R Type Z (EPP in T-DES Graphics Advantage and Encore 300 models w/o Auxiliary keys) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 2. Column 4 does NOT exist on the physical keypad. It is included in this diagram only as a place holder. 3. Pushing the HELP key twice, functions as the ADA key. 1 2 3 Yes No 7 8 9 Cancel Clear 0 Enter Help ADA Rev. July 27, 2010 Page 2-25

Type a (EPP in S-DES Graphics Advantage and Encore 300 models w/o Auxiliary keys) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 2. Column 4 does NOT exist on the physical keypad. It is included in this diagram only as a place holder. 3. Pushing the HELP key twice, functions as the ADA key. 1 2 3 Yes No 7 8 9 Cancel Clear 0 Enter Help ADA Type b (CK Generic EPP w/o Auxiliary keys) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 1 2 3 7 8 9 No Yes Clear 0 Enter Help Cancel ADA Rev. July 27, 2010 Page 2-26

Type c (CK Shell branded EPP with Auxiliary keys) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 1 2 3 Debit 7 8 9 No Yes Clear 0 Enter Help Cancel ADA Type d (CK ExxonMobil branded EPP with Auxiliary keys) Notes: 1. Encrypting Pin Pads (EPP's) differ from other in the values that they return. 1 2 3 Debit Cash 7 8 9 No Yes Clear 0 Enter Help Cancel ADA Rev. July 27, 2010 Page 2-27

2.4 Peripheral Devices 2.4.1 Tank Gauge Systems The ANDI/SSC uses Channel 13 to interface to either the Veeder-Root tank gauge system or the Red Jacket ST Model tank gauge system. The SSC is connected to the Serial board on a Device and it may be connected to the DIM board on a TLS 350R. When the SSC is connected to the DIM board on a TLS 350R it will send real-time fuel transaction data i.e. sale started, sale complete, volume dispensed, meter reading etc. This is accomplished by implementing the Veeder-Root Dispenser Interface Protocol (a proprietary interface defined by Veeder-Root. to the TLS 350R). This will allow the TLS to utilize the AccuChart Automatic Tank Calibration feature for underground storage tank reconciliation. Configure the TLS-250/350/350R or the Red Jacket communication parameters as follows: Notes: Baud Rate - 9600, Parity - Odd, Stop Bits - 1, Data Bits - 7 On a TLS-250 the communication parameters are set using a rotary switch and some DIP switches, (please refer to the TLS 250 manual). On a TLS-350/350R the communication parameters are programmed via the TLS keyboard (please refer to the TLS 350/350R manual). No additional SSC configuration is needed, the SSC will automatically check if it is connected to a DIM card. If not, the SSC will not send any Dispenser Interface commands to the TLS. Communicating with other devices requires POS programming. To display the TLS link status press the D key on the SSC keyboard. CH-13 Link Up TLS RS-232 FP Once the SSC detects it is connected to a DIM board the device name changes to TLS-R CH-13 Link Up TLS-R RS-232 FP Rev. July 27, 2010 Page 2-28

2.4.2 Car Wash Controllers The following requirements must be met in order for the Car Wash controllers to communicate to the ANDI. Car Wash controller Software Version Ryko Code A Wash III 8B or newer Ryko Code A Wash IV V (1) Unitec POS 4000 6.50 or newer (2) Unitec/Interlink Any version PDQ Any version Notes: 1. The Ryko Code A Wash IV should communicate to the ANDI using any version of software. However, Ryko recommends that the controller be upgraded to the latest version. 2. The Unitec software must be able to support External POS 1, 2 or 3. This information may be found either on the PROM label which is located inside the controller, or via the configuration report printed from the controller. There will be a line on the report indicating the External POS type. The Unitec controller must be programmed to use the Ryko protocol. See section 6.2.10 in the External POS Menu of the Unitec manual. Set POS offset to 0, Down. Set External POS type to 2. Set baud rate to 9600. If the Unitec hardware version is 6.1, a (SA1606) 9 pin adapter (which can be ordered from Unitec, if required) must be used to connect the serial port to the communication cable. If the hardware version is 6.2 or higher, the communication cable must be connected directly to the 9 pin serial port. To distinguish 6.1 from 6.2 hardware, look at the label attached to the base of the unit. If the Model field has POS4000 then it is 6.1 hardware. If it has POS4000/2 (or /3 etc.) then it is 6.2 or higher hardware. The 6.2 and higher cable pinouts are standard for a 9-pin DTE serial port, which is not the case for 6.1units. 3. The Ryko Code A Wash II will not work with the ANDI system. It can be upgraded to a Code A Wash III. Rev. July 27, 2010 Page 2-29

1.1.1. Fuel Price Signs The ANDI controller supports electronic price sign controllers. The following signs communicate with the ANDI controller via the use of the ANDI protocol message set. These devices physically connect to an available POS RS232 for communications. PWM Daktronics For specific versions available with support for the FMD protocol, please visit the Allied Electronics, Inc. website and review the release notes for the system in question. The release notes can be found at the link noted below: http://www.alliedelectronics.com/software_release_notes.html The controllers noted above may have specific software version requirements for the support of the ANDI protocol interface. Please contact the respective manufacturer for specific details. Other sign integrations are currently under development. Please contact Allied Electronics, Inc. for up to date details regarding other possible signs that have integrated to the controller. Rev. July 27, 2010 Page 2-30