Test report no. 22012524 EUT: cVEND PIN Page 1 of 2 FCC ID: PJMCVPIN FCC Title 47 CFR Part 15 Date of issue: 2022-06-14 Annex acc. to FCC Title 47 CFR Part 15 relating to FEIG ELECTRONIC GmbH cVEND PIN Annex no. 5 User Manual Functional Description Title 47 - Telecommunication Part 15 - Radio Frequency Devices Subpart C – Intentional Radiators ANSI C63.4-2014 ANSI C63.10-2013 Date: 2019-11-20 Created: Trepper Reviewed: Ftouhi TÜV NORD Hochfrequenztechnik GmbH & Co.
Test report no. 22012524 EUT: cVEND PIN FCC ID: PJMCVPIN Page 2 of 2 FCC Title 47 CFR Part 15 Date of issue: 2022-06-14 User Manual / Functional Description of the test equipment (EUT) Date: 2019-11-20 Created: Trepper Reviewed: Ftouhi TÜV NORD Hochfrequenztechnik GmbH & Co. KG LESKANPARK, Gebäude 10, Waltherstr. 49-51, 51069 Köln, Germany Released: Hittig-Rademacher Vers. No. 3.19 Tel.
PAYMENT INSTALLATION cVEND PIN Unattended PIN Entry Terminal with On-Board Contactless Reader M90113-10e-PY-B
Note PAYMENT Note Note © Copyright 2022 by FEIG ELECTRONIC GmbH Industriestraße 1a D-35781 Weilburg (Germany) Tel.: +49 6471 3109-0 http://www.feig.de Technical support: cvend-support@feig.de With the edition of this document, all previous editions become void. Indications made in this manual may be changed without previous notice. Copying of this document and giving it to others and the use or communication of the contents thereof are forbidden without express authority.
Contents PAYMENT Contents Contents 1 Warnings – Read Before Start-Up! 1.1 Safety Instructions ............................................................................................................ 5 1.2 Security Instructions ......................................................................................................... 5 2 Characterization 6 3 Functional Elements 7 3.1 Front Side..................................................................................................
Contents PAYMENT 6.2 Setup Activation .............................................................................................................. 30 6.3 User ID Setup ................................................................................................................... 31 6.4 Removal Protection Activation ....................................................................................... 32 7 Maintenance and Cleaning 7.1 Cleaning ...............................................
1 Warnings 1 Warnings – Read Before Start-Up! Warnings 1.1 ► ► ► ► ► ► ► ► ► 1.2 ► ► Safety Instructions The device may only be used for the intended purpose designed by the manufacturer. The operation manual should be conveniently kept available at all times for each user. Unauthorized changes and the use of spare parts and additional devices which have not been sold or recommended by the manufacturer may cause fire, electric shocks or injuries.
2 Characterization 2 Characterization Characterization The cVEND PIN terminal from FEIG ELECTRONIC combines contactless payment and PIN entry functionality in one compact and robust unit for unattended payment. The rugged stainless steel PIN PAD in combination with the integrated contactless reader simplifies the integration into various unattended applications and increases the user experience. It makes tap & go and chip & pin transactions easy and fast.
3 Functional Elements 3 Functional Elements Functional Elements 3.1 Front Side Fig.
3 Functional Elements Label Description 1 Contactless Reader Antenna Area for data exchange between cVEND PIN and a contactless payment card 2 4x green LED Indicators to show the transaction progress 3 Display Graphical display to guide the user during operations 4 PIN Pad Keys to control the operation and to enter a PIN 5 Sealing Lip – all around Sealing lip that prevents entering of water and dust in the machine Removal Protection Switches Switches which must be activated by the instal
3 3.3 Functional Elements Back Side Fig.
4 Label Description Mechanical Integration Intended Use 1 Hinged Cover See Table 4 2 Buzzer The buzzer is used to signal events to the user Table 3: Back side elements Fig.
4 Mechanical Integration Fig.
4 4.1 Mechanical Integration Dimensions Fig.
4 Mechanical Integration Fig.
4 Mechanical Integration Fig.
4 4.2 Mechanical Integration Privacy Shield The integrator ensures that the installation situation meets the requirements for the privacy shield for the PIN pad. Essential requirements for the installation situation are illustrated below. To prevent spying out the PIN entry and adequate privacy protection has to be provided by the vending machine. The horizontal observation range which has to be covered by the privacy shield is 270°.
4 Mechanical Integration Page 16 of 38
5 Connectors 5 Connectors Connectors The connector I/O PINs are described from the cVEND PIN view. A cVEND PIN input must be connected to one output or vice versa. 5.1 Connector X1 – Power Supply and MDB Interface Fig. 10: Connector X1 – Power/MDB Pin Label Direction 1 Power Supply – VCC (12 to 42 V DC) - 2 Power Supply – GND - 3 Wake-Up (see X.
5 5.2 Connectors Standby Mode / Wake-Up cVEND offers a software programmable standby mode. To activate the normal operation mode the following wake-up sources are provided. MDB wake-up by host: If standby is activated the bi-directional wake-up I/O is used for signaling a wake-up event by the cVEND and can be used by the host to activate the cVEND. The host controller can awake the cVEND by pulling down the wake-up line. Fig.
5 5.3 Connectors Connector X2 – USB Device Interface At connector X2 a USB device interface is provided where a USB host can be connected. The cVEND PIN is designed as a self-powered device. Power supply via USB interface is not possible. Fig. 12: Connector X2 – USB Device Pin Label Direction 1 DEV-VCC I 2 DEV-D– I/O 3 DEV-D+ I/O 4 N.C.
5 5.4 Connectors Connector X3 – COM 0 (RS232 V.24 Interface) X3 is the connector for an RS232 interface on V.24 level and is primarily intended as a cash register interface. Fig. 13: Connector X3 – COM 0 Pin Label Direction 1 Device RXD I 2 Device TXD O 3 Wake-Up I/O 4 GND - Remarks see 5.2 Table 7: Pin Assignment RS232 V.24 Interface (X3) Required Connector: The fitting complement for this connector consists of a 4-pole plug type Molex Micro Fit and the appending crimp contact.
5 5.5 Connectors Connector X4 – USB Host 2 Interface At connector X4 a USB host interface is provided where a USB device can be connected. The USB host function depends on the firmware / software version. Fig. 14 Connector X4 – USB 2 Host Required Connector: USB 2.0 type A: max. 500 mA NOTE: The USB interface is designed for max. 3 m (9.8 ft) cable length.
5 5.6 Connectors Connector X5 – Ethernet Interface Ethernet is provided on the RJ45 connector as 10/100 Base-T network with automatic polarity correction during auto-negotiation and 10 Base-T signal reception. CAT5 cables are recommended to ensure a reliable operation at 10 Mbps or 100 Mbps. Fig.
5 5.7 Connectors Connector X6 - Auxiliary On connector X6 an electrically isolated opto-coupler digital output and a connector for an external buzzer are provided. The opto-coupler digital output is controlled by software and can be used to control a parking barrier for example. The external buzzer output provides an PWM signal in parallel to the internal buzzer and can be used to connect a piezo speaker. Fig.
5 Connectors Fig. 17: X6 – AUX Schematic External Buzzer: The external buzzer can be powered by the 5 V DC voltage provided on X6.1. To increase the sound level and depending on the external buzzer it can also be powered by an external power supply. Observe the electrical parameters in Table 9: Pin Assignment Auxiliary Connector (X6). Fig. 18: X6 – Wiring External Buzzer Example Digital Output: The digital output is intended to trigger external electronic inputs (e.g. barrier control unit). Fig.
5 5.8 Connectors Connector X7 – USB Host 1 On connector X7 a USB host interface is provided, intended to be used for static connected interface devices. USB host function depends on firmware/software version. Fig. 20: Pin Assignment USB Host 1 on Connector X7 Pin Label Direction 1 5 V DC (max.
5 5.9 Connectors Connector X8 – cVEND SHCR Connector X8 is a COM port which is the connector for Secure Hybrid Card Reader cVEND SHCR. The related connection cable is included in the scope of delivery of cVEND SHCR. Fig.
5 Connectors 5.10 Connector X9 – COM 2 (RS232 V.24) At connector X9 a serial interface (UART#2) on RS232 V.24 level is provided which is used on development devices to access the Linux console. Fig. 22: Connector X9 – COM 2 Pin Label Direction 1 GND - 2 Device RxD I 3 Device TxD O Table 12: Pin Assignment Serial Debug Port Connector (X14) Required Connector: The fitting complement for this connector consists of a 3-pole plug type JST PH and the appending crimp contact.
5 Connectors 5.11 SAM Sockets (S1, S2) The cVEND PIN is equipped with 2 SAM sockets which are located behind the hinged cover on the back side of the device. Fig.
6 Installation and Setup 6 Installation and Setup Installation and Setup 6.1 Installation Before installing, visually inspect the device for any discrepancies to the official product data or unauthorized modifications. More details can be found in the cVEND PIN Security Policy. For installation follow these steps: 1. Make sure that the intended installation are is clean and even. 2. Place the cVEND PIN in the cut-out. 3. Screw the device tight at the four screw-on points.
6 6.2 Installation and Setup Setup Activation To activate the cVEND PIN setup menu the Service Mode Switch S3 (under the hinged cover) must be pressed. After activation please follow the display instructions. Fig.
6 6.3 Installation and Setup User ID Setup Factory new devices do not have any User ID stored except if User IDs are preconfigured on optional request. The cVEND PIN has an easy to use User ID administration function. Adding and removing of a User ID can be carried out either via secure host process or manually on the terminal. This chapter only describes the manual User ID setup process.
6 6.4 Installation and Setup Removal Protection Activation Removal protection activation is necessary to activate the PIN entry capability of the cVEND PIN each time after the removal protection switches were deactivated (after initial installation or reinstallation). This process can be carried out only if the cVEND PIN device is mounted into the enclosing housing and it is ensured the removal protection switches (S1, S2) are pressed. The same applies to the Secure Hybrid Card Reader cVEND SHCR.
7 Maintenance and Cleaning 7 Maintenance and Cleaning Maintenance and Cleaning Under usual conditions the cVEND PIN doesn’t need specific maintenance but should be visually inspected periodically. If the hybrid card reader cVEND SHCR is used in conjunction with cVEND PIN please follow the instructions in the cVEND SHCR manual. 7.1 Cleaning Use only a damp or soft cloth for housing cleaning and prevent the usage of chemical cleaning agents.
8 User Interface 8 User Interface User Interface This chapter describes the signals generated by the cVEND operating system. In normal operation mode the cVEND user interface is controlled by the respective application. 8.1 Boot Process After power-on a short beep indicates that the cVEND PIN is powered and has started the boot process. After a short time the “FEIG ELECTRONIC” logo and firmware as well as hardware version numbers are shown on the display.
9 Technical Data 9 Technical Data Technical Data • Stainless steel with glass and polycarbonate • Total: 92,5 x 141 x 47 mm • Visible: 82 x 120 x 14 mm • 450 g • Outside: IP 65 (if accurately installed) • Inside: IP20 Protection Class • DIN EN 61140: Class III Pollution Degree • DIN EN IEC 62368-1: Grade 2 • IEC 62262: IK10 (installed in equivalent robust housing) • EN 50155 • Operating: –25 °C to +70 °C • Storage: –30 °C to +80 °C Humidity • 5% to 95% (humidity protecte
9 • • 2,8” high-brilliance color display 320 x 240 pixel (500 cd/m²); impact, scratch and fire resistant front glass 4 high brightness green LEDs for contactless transactions internal multi-frequency buzzer and audio output Stainless steel key pad; 16 keys with from top illumination Function keys and 5 with embossments for easier operation by visually impaired persons RED 2014/53/EU BIS IS 13252(PART 1):2010/ IEC 60950-1 : 2005 • • • • • • • • • • EMV 2.6 Contactless Level 1 PCI PTS 5.x Common.
9 9.2 Technical Data Radio Approvals 9.2.1 Declaration of Conformity (CE) Hereby FEIG ELECTRONIC GmbH declares that the radio equipment type cVEND PIN is in compliance with Directive 2014/53/EU. The full text of the EU declaration of conformity is available at the following internet address: https://www.feig.de/en/service/eu-declarations-of-conformity/ 9.2.2 Declaration of Conformity (UKCA) Hereby FEIG ELECTRONIC GmbH declares that the radio equipment type cVEND PIN is in compliance with Directive No.
9 Technical Data Installation with FCC / IC Approval: FCC-/IC-NOTICE: To comply with FCC Part 15 Rules in the United States / with IC Radio Standards in Canada, the system must be professionally installed to ensure compliance with the Part 15 certification / IC certification. It is the responsibility of the operator and professional installer to ensure that only certified systems are deployed in the United States / Canada.