2D Barcode/NFC Reader With EMV Level 2 Capability

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Subject: TripTick ProductManualRevision: 1.4Issue Date: 16.02.2021Product names mentionedherein are for identificationpurposes only and may betrademarks and/orregistered trademarks oftheir respective companies. Copyright 2021ALL RIGHTS RESERVEDAccess-IS18 Suttons Business Park, ReadingBerkshire, RG6 1AZ, United KingdomTel: 44 (0) 118 966 3333Web: www.access-is.comEmail: support@access-is.comTripTick 2D barcode/NFC readerwith EMV Level 2 capabilityProduct Manual

WarningsThis manual contains important information regarding the installation and operation of the TripTick 2Dbarcode/NFC/EMV reader (ATR200, ATR210, ATR220). For safe and reliable operation of the imager,installers must ensure that they are familiar with, and fully understand, all instructions contained herein.WarrantyAccess Ltd warrants that this product shall be free from defects in workmanship and materials for a period ofone year from the date of original purchase. If the product should fail to operate correctly in normal use duringthe warranty period, Access will replace or repair it free of charge. No liability can be accepted for damagedue to misuse or circumstances outside Access' control. Access will not be responsible for any loss, damageor injury arising directly or indirectly from the use of this product. Access' total liability under the terms of thiswarranty shall in all circumstances be limited to the replacement value of this product.Radio Frequency EnergyEuropean EMC directive 89/336/EECThis equipment has been tested and found to comply with the limits for a class A computingdevice in accordance with the specifications in the European standard EN 55022. These limits aredesigned to provide reasonable protection against harmful interference. This equipmentgenerates, uses and can radiate radio frequency energy and if not installed and used inaccordance with the instructions may cause harmful interference to radio or television reception.However, there is no guarantee that harmful interference will not occur in a particular installation.If this equipment does cause interference to radio or television reception, which can be determined by turningthe equipment on and off, the user is encouraged to correct the interference with one or more of the followingmeasures: (a) Reorient or relocate the receiving antenna. (b) Increase the separation between the equipmentand the receiver. (c) Connect the equipment to an outlet on a circuit different from that to which the receiver isconnected. (d) Consult the supplier or an experienced radio / TV technician for help.FCC Compliance Statement (United States)This equipment generates, uses and can radiate radio frequency energy and if not installed and usedproperly, that is, in strict accordance with the manufacturer's instructions, may cause interference to radiocommunication. It has been tested and found to comply with the limits for a class A computing device inaccordance with the specifications in Subpart J of part 15 of FCC rules, which are designed to providereasonable protection against such interference when the equipment is operated in a commercialenvironment. Operation of this equipment in a residential area may cause interference, in which case the userat his own expense will be required to take whatever measures may be necessary to correct the interference.Changes or modifications not expressly approved by the manufacturer could void the user's authority tooperate the equipment.Canadian Department of Communications RFI statementThis equipment does not exceed the class A limits for radio noise emissions from digital apparatus set out inthe radio interference regulations of the Canadian Department of Communications.Le présent appareil numérique n'émet pas de bruits radioélectriques dépassant les limites applicables auxappareils numériques de la classe A prescrites dans le règlement sur le brouillage radioélectriques publié parle ministère des Communications du Canada.Page 2 of 80Copyright Access-IS 2021

Contents1.Overview . 6Product options. 7Architecture . 7Functions . 8Execution. 82.Specifications . 93.Drawings . 114.Installation . 13Unpack TripTick. 13Connection . 13Mounting. 15Barcode interface options . 15NFC interface options . 16Barcode module installation (serial device) . 17Barcode module installation (USB device) . 17Barcode module installation (Ethernet device) . 18NFC module installation (serial device) . 18NFC module installation (USB device) . 18NFC module installation (Ethernet device) . 19Test the device . 20Barcode configuration software . 20Communicate with the NFC module . 205.Troubleshooting . 216.Maintenance. 22Cleaning . 22Storage . 227.Barcode operating modes . 23Mode summary . 23Dumb mode . 24Host mode . 258.Barcode command reference . 27Basic configuration . 28Prefix and suffix solutions . 29Indicator control . 29Page 3 of 80Copyright Access-IS 2021

Development commands . 30Counter. 31Network configuration . 319.NFC operation. 32SMC reader (available only on PSAM versions) . 32Summary of operation . 32Serial communication . 34Notifications and data exchanges (serial connection) . 35MIFARE cards . 38Contactless microprocessor smartcards . 3810. MIFARE media commands and responses . 39MIFARE get media type. 39MIFARE load key. 40MIFARE authenticate block (key A or key B) . 41MIFARE read block (key A or key B) . 43MIFARE write block (key A or key B) . 44MIFARE create value block (key A or key B) . 45MIFARE increment value block (key A or key B). 47MIFARE decrement value block (key A or key B) . 48MIFARE Ultralight read block. 49MIFARE Ultralight write block . 50MIFARE Ultralight-C authenticate - part 1 . 51MIFARE Ultralight-C authenticate - part 2 . 53MIFARE transceive direct . 54MIFARE failure status codes . 5611. NFC module management interface commands . 57Get firmware version. 57Get bootloader version . 58Switch to bootloader . 59Get serial number . 59Set NFC timings . 60Get NFC timings . 61Enter sleep mode . 62Exit sleep mode . 63Get NFC kernel version . 64Get media serial number . 64Media type values. 65Disable media arrival and removal notifications . 66Page 4 of 80Copyright Access-IS 2021

Set serial interface baud rate . 66A.Model numbers . 68B.Part and host cable numbers. 69C.NFC module serial number matching . 71D.HID reports - barcode only. 72Receive data . 72Send commands. 73Trigger controls. 74E.NFC module example code and API functions . 75Initialise smartcard sub-system . 75Poll for card arrival . 75Connect to the card . 75Get ATR of the card . 76Communicate with card . 76Determine if ATR indicates MIFARE type . 76Disconnect the card . 76F.ASCII character reference . 77G.Document history . 80Page 5 of 80Copyright Access-IS 2021

1.OverviewThe Access-IS TripTick (ATR200, ATR210, ATR220) reads 2D barcodes from mobile devices andpaper, and optionally reads and writes to contactless smart cards, NFC labels and NFC-enabledmobile devices. As an option, TripTick is available with EMV Level 2 certification for use withapplications that require contactless payments.The device has a small-footprint and its low profile, slot-in design enables fast, easy integration intothird-party public access kiosks and gates. Its rugged, water-resistant construction with no movingparts, enables TripTick to withstand years of indoor and outdoor public access use.TripTick’s unique design, with optimised imaging ensures read reliability and high-speedperformance, capturing and decoding all popular linear, PDF417 and 2D symbologies, in less thanhalf a second.Figure 1: TripTick 2D barcode and optional NFC reader with EMV Level 2 capabilityOptional near-field communication (NFC)/radio-frequency identification (RFID) provides contactlessreading capability of all popular contactless cards.TripTick can also be specified with Europay, Mastercard and Visa (EMV) Level 2 capability andPayment Card Industry (PCI) secure reading and exchange of data (SRED) compliance forcontactless payments using VISA, Mastercard, AMEX and Discover schemes. Front-face sealed for integration into indoor or outdoor kiosks, podiums and gates. UltraGlass option for extreme environments. Reads both 2D barcodes and NFC cards, labels and devices from one point-of-presentation. Optional EMV Level 2 capability. Unique, optimised focal distance design improves read performance for all paper and electronicmedia. Intuitive operation with green and red LED lights to indicate good and bad reads. Reads on face-down presentation of 2D, PDF417 and linear barcodes. Single interchangeable cable connection to the host PC. An option for Power over Ethernet (PoE) allows installation without a dedicated power supplyand at a distance of up to 100 m from the host PC. RS232, RS485 and USB (serial or keyboard) interface options. Interfaces as USB composite or serial device, supporting both NFC and barcode readers.Page 6 of 80Copyright Access-IS 2021

Applications include: Integration into public-use kiosks and gates. Travel and transportation mobile-ticket reading. Retail voucher redemption and loyalty cards. Car park ticketing, turnstiles and automatic gates.Product optionsFlush bezelThe flush bezel option means that when installed, the reader is completely flush with the surfacearound it, allowing a smooth and fluid movement across the reader regardless of the media.Front-face sealed (IP67) for integration into indoor or outdoor kiosks, ticket machines, podiums,turnstiles and gates.Raised bezelA raised bezel can be specified providing a 2 mm raised lip above the glass. Front-face sealed(IP67) for integration into indoor or outdoor kiosks, ticket machines, podiums, turnstiles and gates,the raised lip can assist by directing users to the active area of the reader.UltraGlassFor environments with highly abrasive elements such as sand and grit, an innovative UltraGlassoption is available that delivers significantly enhanced scratch-resistance. This upgrade helpsalleviate the possibility of scratching which may, in severe circumstances, affect the barcodereading performance. This option also allows the use of tools such as metal scrapers to removepaints or adhesives from the window during maintenance or repair.SAM (Secure Access Modules)The option of installing up to four secure access modules within the device is available.ArchitectureTripTick consists of a ticket reader, a logic unit (running Linux software), a power-conditioning unit,LEDs, and an optional network port for network or internet connectivity.The ticket reader provides a single point of presentation for tickets and travel passes – whetherpresented on a card or mobile devices. The reader contains its own self-contained firmware. Datafrom the reader is sent over USB to the logic unit. This is an open architecture Linux board runningthird-party software.The software consists of: a bootloader, a Linux kernel including peripheral drivers, a Linux root file system, application software.Page 7 of 80Copyright Access-IS 2021

Functions1. The passenger presents a ticket to the TripTick reader. The ticket can be a barcode orRFID/NFC token. If a barcode, it can be a printed barcode, or one displayed on a mobile device.Ticket formats supported are listed in the Specifications (on page 9).2. The data is captured by the reader and decoded.The decoded information is sent via USB for processing by the logic unit. This information isthen used to validate the ticket. The ticket can be validated locally in the logic unit (usinginformation obtained from the image), or over an internet connection to a central computer.3. Information as to whether the ticket has been successfully validated or not is presented to thepassenger via the LEDs, typically green for a valid ticket and red for an invalid ticket.ExecutionTripTick will take typically 90s to boot.This is the time from power-up to being able to scan barcodes.During this time, the bootloader is loaded into RAM and run, then the Linux kernel is loaded and run,then the application code is loaded and run.At the start of the application code running, TripTick will perform a power-on self-check determinedby the third-party software.Once the application code has finished initialising, a passenger can present a printed barcode,mobile phone, or tablet and the reader will read the ticket.An indication that the ticket is valid will typically happen within a half a second. This readperformance is dependent on both hardware and software.Page 8 of 80Copyright Access-IS 2021

2.SpecificationsSpecificationDetailsDimensions (L x H x W)103.1 x 106.3 x 36.9 mm(Flush bezel and without SAM option)Weight250 g(Without SAM option)EnvironmentalOperating temperature: -20ºC to 60ºCStorage temperature: -30ºC to 80ºCHumidity: 95% RH, non-condensingBodyGlassBlack ABS4 mm Toughened White Soda Lime; BS EN60068-2-75 & IEC62262:2002, rated to 3.5 J impact5 V DC ATR200-xx-U (USB) can be powered from USB only or 5 VDC 2A power supply for full speed operationPower requirements Electrical interfaceInterfaceATR200-xx-P (PoE) is powered via EthernetPoE Ethernet port or power injector requiredIEEE 802.3af Type 1: 15.4W, 44.0V to 57.0VSupported modes: Alternative A (data pair) or B (spare pair) All other units require 5 V DC power supplySerial (RS232C) and 5 V USBUSB composite device, with: Human interface device (HID) interface for barcode reading Chip card interface device (CCID)/personal computer/smartcard (PC/SC) interface for NFCSerial device: Barcode, NFC reader as separate devicesBarcode readingLinear: EAN. UPC, Code 2 of 5, Interleaved 2 of 5, IATA 2 of 5,Code 39, Code 1282D: IATA resolution 792, PDF417, Aztec, DataMatrix and QRcodesMedia types: Reads smartphone, tablet and smartwatch displaysand paper documents and ticketsContactless reading (optional) Supported media:ISO14443 type A and B cards (Java cards); max baud 424K(extendable to 848K)Mifare UL, Classic 1K, Classic 4K, UL-C, UL-EV1, Mifare Plus;max baud 106K, mobile phone (PCE)Operating frequency: 13.56 MHzOperating distance: 20 mmContactless payment capability EMV Level 2 Certification (VISA, Mastercard, AMEX, Discover)(optional)PCI SRED - V5.0PSAM reading (optional)MTBFPage 9 of 80Supports SAM cards meeting the following specification: Compliant with BS ISO/IEC 7813-3:2006 Supporting protocol T0 and/or T1250,000 hoursCopyright Access-IS 2021

SpecificationDetailsApprovalsEMC approvals: FCC 47CFR Part 15 Subpart B Class A, EN 55032 Class B, EN 55024Radio: (NFC version only): FCC Part 15 Subpart C,SafetyIngressPage 10 of 80 CE: EN 301 489-1 v1.8.1 (2008-04), CE: EN 302 291-1 v1.1.1 (2005-07) IEC 62471: 2006 EN 60950-1:2006 A12:2011Front Face ONLY - IP67 certified to BS EN 60529:1992Copyright Access-IS 2021

3.DrawingsFigure 2: TripTick dimensionsPage 11 of 80Copyright Access-IS 2021

Figure 3: Reading platen and location of the connectors on the underside of the TripTick unitPage 12 of 80Copyright Access-IS 2021

4.InstallationUnpack TripTickUnpack TripTick and ensure that you have the following items: Advisory notice card. TripTick device with appropriate cables for connection to the host.Cables provided depend on the TripTick model. Refer to Model numbers (on page 68) and Partand host cable numbers (on page 69). External 5V 3A power supply (not provided for an ATR200 (USB) or models using a PoEconnection).Report any missing items or damage immediately to your Sales Representative.ConnectionConnect TripTick via USB, RS232/RS485 or Ethernet depending on the product version.Note: Cable length is 2 m for USB, Serial and Ethernet versions.USB connectionFigure 4: USB connectionFigure 5: USB plus DC connectionNote: When using the USB plus DC connection option, connect the 5 VDC 3 A power supplyprovided by Access-IS to the 3.5 mm DC socket within the cable mould.Page 13 of 80Copyright Access-IS 2021

Serial connectionFigure 6: Single serial connectionFigure 7: Dual-serial connectionNote: When using single and dual-serial connection options, connect the 5 VDC 3 A power supplyprovided by Access-IS to the 3.5 mm DC socket within the cable mould.Ethernet connectionFigure 9: Power over Ethernet (PoE) connectionFigure 8: Ethernet plus DC connectionNote: When using the Ethernet plus DC option, connect the 5 VDC 3 A power supply provided byAccess-IS to the 3.5 mm DC socket within the cable mould.Page 14 of 80Copyright Access-IS 2021

MountingMount TripTick into a kiosk, gate or similar, if required. Refer to the following drawing for TripTick'sdimensions (in millimetres) and mounting points.Important: To optimise the performance of your Access-IS device:DO NOT position TripTick in direct sunlight. Failure to observe this may lead to the scanperformance deteriorating or even failing completely.DO NOT install TripTick with its NFC/RFID antenna within 40 mm of a large metal or electricallyconductive component or structure. Failure to observe this instruction may lead to the NFCperformance deteriorating or even failing completely.Figure 10: TripTick dimensions and mounting pointsUse three M3 screws (not provided) to mount the unit. Maximum insertion depth is 5 mm; minimumrecommended insertion depth is 3 mm.Barcode interface optionsSerial connectionConnect a serial TripTick device using an RS232/RS485 interface directly into a COM port. Youmust specify the baud rate, parity, data bits and stop bits.Note: A serial TripTick communicates directly with the COM port and does not require anyadditional drivers to be loaded.USB connectionConnect a USB TripTick device using one of three possible options. These options are compatiblewith all Linux and Windows operating systems from XP onwards.Page 15 of 80Copyright Access-IS 2021

Keyboard interfaceVirtual keyboard using Windows or Linux driversThis option allows the device to operate without additional drivers, with TripTick emulating akeyboard. This is one-way communication; it is not possible to control the device directly in thismode.This mode will be slower than the other options as it adds an inter-character delay when typing thebarcode data. For higher throughput, consider using a HID or CDC interface.CDC interfaceVirtual serial mode using the Windows CDC driverThis option assigns a COM port, and the device communicates as a virtual serial device. Due to thenature of CDC serial port drivers, the COM port disappears if the unit is unplugged.HID interfaceAccess-IS recommends the use of the HID interface for reliability. A HID interface recovers properlyin the event of accidental disconnects or system power fluctuations; a CDC interface may notrecover in these situations.HID interface using the Access driver (Windows only)The Access Serial Ports Service (ASPS) driver is fully configurable and outputs data in virtual serialor virtual keyboard. The output itself can be parsed and reformatted. The serial port is permanentand does not disappear if you unplug or hot swap the unit. This is one-way communication and theonly command that you can send to the device is AIS BO to enable or disable barcode reading.Refer to Development commands (on page 30) for more information.HID interface without the Access driverThis method is only suitable if you are familiar with HID programming.It is possible to communicate directly with TripTick using the operating system’s built-in HID drivers.In this instance, HID reports, exactly 64 bytes in length, are sent between the host and TripTick.The implementation of this driver and the method of interaction will depend on the version of thehost operating system. You should refer to the HID programming guide for the operating system thatyou are using.Refer to HID reports (on page 72) for the details of the HID reports used with TripTick.NFC interface optionsSerial connectionConnect the NFC module using an RS232 interface directly into a COM port.Note: A serial TripTick communicates directly with the COM port and does not require anyadditional drivers to be loaded.USB connectionThe NFC module enumerates as a standard Chip Card Interface Device (CCID) smartcard reader.When you connect the device to the host, the NFC module uses the default Windows CCID drivers.It is not necessary to install custom drivers when running Windows XP and above.Page 16 of 80Copyright Access-IS 2021

Barcode module installation (serial device)A serial TripTick communicates directly with the COM port and does not require any additionaldrivers to be loaded. Serial connectors are labelled: CONN1 Barcode, CONN2 NFC module.1. Switch off the computer.2. Connect the serial cables to COM ports on the computer and finger-tighten the two thumbscrewsto secure the connectors to the port.3. If using a USB power injector cable, plug the injector cable into the coaxial power connector onthe splitter cable and then plug the USB connector into a powered USB port on the computer.If using an Access-supplied power supply, plug the power cable into th

1. The passenger presents a ticket to the TripTick reader. The ticket can be a barcode or RFID/NFC token. If a barcode, it can be a printed barcode, or one displayed on a mobile device. Ticket formats supported are listed in the Specifications (on pa

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