FCC ID: ZBW-MPHAC006A Access Control Terminal with biometric

VisionPass Installation guide Copyright 2019 Idemia October 2019 | 2019_2000045728 Copyright 2019 Idemia October 2019 | 2019_2000045728 Warning COPYRIGHT 2019 Idemia. All rights reserved. Reproduction in whole or in part in any form or medium without the express written permission of Idemia is prohibited. The trademarks identified herein are the trademarks of registered trademarks of Idemia, or other third party. This legend is applicable to all pages of this document. Information in this document is subject to change without notice and do not represent a commitment on the part of Idemia. This manual makes reference to names and products that are trademarks of their respective owners. 3 VisionPass - 2019_2000045728 Revision history Version Date Reference Description 01 October 2019 2019_2000045728 Document creation 4 VisionPass - 2019_2000045728 Table of content 5 1 / Introduction 1.1 > VisionPass terminal 1.2 > Scope of the document 1.3 > Safety Instructions 1.4 > Wiring Recommendations 1.5 > Regulatory, safety and Environmental notices 1.5.1 > European Union (CE) regulatory notices 1.5.2 > USA (FCC) regulatory notices 1.5.3 > Canada (IC) regulatory notices 1.6 > Others recommendations 1.7 > Recommendations for terminal implementation 2 / General description 2.1 > Box opening 2.2 > Components of the initial package 2.3 > Terminal's front view description 2.4 > Terminal's rear view description 2.5 > VisionPass Technical Characteristics 3 / Installation procedure 3.1 > Before proceeding to the installation 3.2 > Installation 3.3 > Step by step procedure 3.3.1 > Drill the mounting holes 3.3.2 > Make the connections 3.3.3 > Attach the base plate on the wall 3.3.4 > Attach the device on the base plate 3.3.5 > Connect the connector assembly on the device 3.3.6 > Close the device on the base plate 4 / Electrical interface 4.1 > Wiring overview 4.2 > Power Supply 8 9 10 11 12 13 13 14 15 17 18 21 22 23 24 25 26 29 30 31 32 33 34 37 38 39 40 43 44 45 VisionPass - 2019_2000045728 4.3 > Output Relay 4.4 > Tamper Switch 4.5 > Wiegand wiring 4.6 > Wiegand output 4.7 > Serial port wiring 4.8 > GPIO wiring 4.9 > Ethernet connection 4.10 > Internal USB connection 4.11 > Wi-Fi dongle installation 5 / User interface 5.1 > Modes for controlling access rights 5.1.1 > Introduction 5.1.2 > Identification mode 5.1.3 > Authentication (verification) mode 5.1.4 > Multi-factor mode 5.1.5 > Proxy mode 5.1.6 > External database mode (also called polling mode) 5.1.7 > Anti-tamper / anti-pulling switches 46 47 48 49 51 53 54 55 57 59 60 60 60 60 61 61 62 62 6 / Accessories, Software Licenses and PC Applications 63 64 6.1 > Compatible Accessories, Licenses and Software 6.2 > Compatible PC applications 7 / Recommendations 8 / Annex 1 : finger placement recommendations 8.1 > Main principles 8.2 > Capture recommendations 8.2.1 > Proper Use 8.2.2 > Improper Use 9 / Annex 2 : Bibliography 9.1 > How to get the latest versions of documents 9.2 > Documents about the MorphoWave Compact terminal 10 / Annex 3 : Support 10.1 > Troubleshooting 10.2 > Technical Support and Hotline 65 66 69 70 71 71 72 73 74 75 76 77 77 VisionPass - 2019_2000045728 6 7 VisionPass - 2019_2000045728 1 / Introduction 8 VisionPass - 2019_2000045728 1.1 > VisionPass terminal Congratulations for choosing VisionPass Automatic Face Recognition Terminal!

VisionPass provides an innovative and effective solution for access control applications using very fast acquisition of the face. Among a range of alternative biometric technologies, the use of face has significant advantages: very fast acquisition just facing the terminal, and no physical contact between the applicant and the terminal. VisionPass integrates Idemia image processing and feature matching algorithms. This technology is based on lessons learned during 25 years of experience in the field of biometric identification. We believe you will find the VisionPass fast, accurate, easy to use and suitable for physical access control. The VisionPass offers the following advantages:

High quality optical sensor with anti-spoofing option, Supports multiple input/output interfaces used in the physical access control industry, Local Area Network interface for easy interaction with other host systems; LAN and WLAN possibilities

(Wi-Fi as an option), Intuitive man machine interface with touch panel and display, that is easy to use in both setup and operational modes, Sturdy wall mounting with easy holding of product during cabling or maintenance. To ensure the most effective use of your VisionPass terminal, we recommend that you read this Installation Guide completely. 9 VisionPass - 2019_2000045728 1.2 > Scope of the document This guide deals with the installation of VisionPass, which is made up of the following list of products:

VisionPass Marketing Name Biometrics Contactless smartcard reader iCLASS MIFARE DESFire NFC Prox Water Resistant Regulatory Model Number

(*) VisionPass MD VisionPass MDPI MPH-AC006A MPH-AC006B

(*) The Regulatory Model Number is the main product identifier in the regulatory documentation and test reports associated to the product 10 VisionPass - 2019_2000045728 1.3 > Safety Instructions means Direct Current (DC) The installation of this product should be made by a qualified service Person and should comply with all local regulations. It is strongly recommended to use a class II power supply at 12V-24V and 3 A min (at 12V) in conformity with Safety Electrical Low Voltage (SELV). The power supply cable length should not exceed 10 meters. This system must be installed in accordance with the National Electrical Code (NFPA 70), and the local authority having jurisdiction. This product is intended to be installed with a power supply complying with IEC60950-1, in accordance with the NEC Class 2 requirements; or supplied by a listed IEC60950-1 external Power Unit marked Class 2, Limited Power source, or LPS and rated 12VDC, 3 A minimum or 24VDC, 1.5 A minimum. Note that all connections of the VisionPass terminal described hereafter are of SELV (Safety Electrical Low Voltage) type. 11 VisionPass - 2019_2000045728 1.4 > Wiring Recommendations Idemia recommends using a AWG16 gauge and 24V power supply. voltage The 12V-24V (-15% / +10%). specified is the one measured on the product block connector:

The voltage drop due to the cable shall be taken into account. The following table shows the maximum distance between power supply and one (1) unique device, depending on cable gauge and power supply rating:

Gauge AWG 16 18 20 22 Section

(mm2) 1.31 0.82 0.52 0.32 Maximum distance (meters) vs power source rating 12V+/-10%

12V+/-5%

24V+/-10%

9 m 6 m 3 m 2 m 20 m 12 m 8 m 5 m 300 m 200 m 120 m 75 m V1 V2 L Figure: Power supply voltage dropout considerations Drop voltage = loss of power due to wire resistance and its length: V2 = V1 Drop voltage 12 VisionPass - 2019_2000045728 1.5 > Regulatory, safety and Environmental notices 1.5.1 > European Union (CE) regulatory notices Declaration of Conformity Products bearing the CE marking comply with one or more of the following EU Directives as may be applicable:

Radio Equipment Directive (RED) 2014/53/UE Ecodesign Directive 2009/125/EC RoHS Directive 2011/65/EU. Compliance with these directives is assessed using applicable European Harmonised Standards. VisionPass terminals are intended to be used for professional application only (buildings, airport...). The full Declaration of Conformity is available on demand to your reseller. Please, provide him the product model name or its Regulatory Model Number (Model on the label). Products with wireless features (EMF) This product meets the provisions of the EU's Council recommendation 1999/519/EC on the limitation of the exposure of the general public to electromagnetic fields (0 Hz to 300 GHz). 13 VisionPass - 2019_2000045728 1.5.2 > USA (FCC) regulatory notices This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. This device complies with FCC radiation exposure limits set forth for general population

(uncontrolled exposure). This device must not be collocated or operating in conjunction with any other antenna or transmitter. Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Responsible Party:

Idemia Identity & Security FRance 2 place Samuel de Champlain 92400 Courbevoie France NOTA : This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of the following measures:

Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Shielded cables must be used with this unit to ensure compliance with category B FCC restrictions. MPH-AC006B product model includes a module tested under the FCC rules for a Modular Approval. FCCID: JQ6-SE3210 14 VisionPass - 2019_2000045728 1.5.3 > Canada (IC) regulatory notices WARNING TO USERS IN THE CANADA / ATTENTION POUR LES UTILISATEURS AU CANADA This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication. This device complies with IC radiation exposure limits set forth for general population (uncontrolled exposure). This device must not be collocated or operating in conjunction with any other antenna or transmitter. Note : UL LLC has not verified this product for compliance in respect to Canadian standards. MPH-AC006B product model includes a module compliant with limits set by Industry Canada o IC: 2236B-SE3210 This device complies with Industry Canada's RNCs for unlicensed radio devices. Exploitation is permitted under the following two conditions:

1) The device must not cause interference. 2) The user of the device must accept any radio interference, even if the interference may compromise its operation. In accordance with Industry Canada regulations, this radio transmitter may operate with a specific antenna and maximum gain (or lower) approved for the transmitter by Industry Canada. In order to reduce the risk of radio interference for other users, The type of antenna and its gain must be chosen so that the equivalent radiated isotropic power (p.i.r.e.) does not exceed the intensity necessary to establish satisfactory communication. MPH-AC006B product model incorporates a module that meets Industry Canada's requirement set limits. o IC: JQ6-SE3210 15 VisionPass - 2019_2000045728 ATTENTION POUR LES UTILISATEURS AU CANADA Cet appareil est conforme aux normes RSS exemptes de licence d'Industrie Canada. Son fonctionnement est soumis aux deux conditions suivantes:

(1) cet appareil ne doit pas provoquer d'interfrences, et

(2) cet appareil doit accepter toute interfrence, y compris les interfrences pouvant entraner un fonctionnement indsirable de l'appareil. Conformment aux rglementations d'Industry Canada, les metteurs radio de cet appareil ne peuvent fonctionner qu' l'aide d'une antenne dont le type et le gain maximal (ou minimal) pour ces metteurs - transmetteurs sont approuvs par Industry Canada. Pour rduire le risque d'interfrence ventuelle pour les autres utilisateurs, le type et le gain de l'antenne doivent tre choisis de manire ce que la puissance isotrope rayonne quivalente (p.i.r.e.) minimale ncessaire une bonne communication soit fournie. Cet appareil est conforme aux limites d'exposition aux rayonnements IC tablies pour la population gnrale (exposition non contrle). Cet appareil ne doit pas tre colocalis ou fonctionner en conjonction avec une autre antenne ou un autre metteur. Remarque: UL LLC n'a pas vrifi la conformit de ce produit aux normes canadiennes. Le modle de produit MPH-AC006B comprend un module conforme aux limites tablies par Industrie Canada o IC: 2236B-SE3210 16 VisionPass - 2019_2000045728 1.6 > Others recommendations Potential safety conditions notice If you notice any of the following conditions (or if you have other safety concerns), do not use the product:

crackling, hissing, or popping sound, or a strong odor or smoke coming from the product. It is normal for these conditions to appear when an internal electronic component fails in a safe and controlled manner. However, these conditions may also indicate a potential safety issue. Do not assume it is a safe failure. Turn off the product, disconnect it from its power source, and contact technical support for assistance. Disposal of waste equipment by users This symbol means do not dispose of your product with your other household waste. Instead, you should protect human health and the environment by handing over your waste equipment to a designated collection point for the recycling of waste electrical and electronic equipment. 17 VisionPass - 2019_2000045728 1.7 > Recommendations for terminal implementation Every installation is unique. Sometimes the issues are well defined and can be handled in a standard fashion; sometimes the issues are very specific and may not be immediately recognizable. Idemia recommends following these steps for a successful installation:

Plan the installation - Choose the type of hardware required, decide if a network is required, and decide on the location and number of required terminals. Unpack all items - Unpack all items and check against the packing list. Install network hardware components - Install the cabling and components needed to run the system. Install software - Install the software needed to set up the terminals. Pre-configure device - Connect the terminals to the Ethernet, supply power to the terminals, and pre-

configure the terminals. Mount devices - Mount the terminals in their final locations Power distribution and device hook up - Connect the terminals wiring via the back panel. Power-up procedure - Check the power connections, and then start the system safely. First Boot Assistant screen is displayed, where you can perform fundamental configuration. 18 VisionPass - 2019_2000045728 To secure properly an access, Idemia recommends installing the VisionPass terminal as a part of the typical Access Control environment described in the figure below. VisionPass Compact Terminal Figure: Implementation Recommendations This environment comprises:

The VisionPass terminal itself Its role is to perform one-to-many biometric identification or one-to-one biometric verification, i.e. to identify the individual who is presenting his face by comparing his biometric data with the references previously stored in the terminal database (in the form of biometric templates) or to verify his identity using the reference stored in a contactless card presented to the terminal. An Access Controller (3rd party product) The Controller is the element which controls the access rights of the individuals to the secured area. For that reason, it must be located in the secured area. The individuals who are authorized to access the secured area have their User ID listed in a so-called

"Authorized User List" (in contrast with a banned card list). 19 VisionPass - 2019_2000045728 The VisionPass terminal and the Controller are communicating according to one of the TCP/IP, Wiegand, Dataclock or RS485 protocols:

The VisionPass terminal sends User ID to the Controller The Controller sends its decision to the VisionPass terminal (which displays access granted or access denied depending on the answer) The VisionPass terminal sends an alarm signal to the Controller as soon as a malicious operation is detected (terminal pulled out from the wall or opened for maintenance operations); refer the paragraph dealing with anti-pulling and anti-tamper switches for more explanations. The Controller is part of the global Access Control System of the secured area, which can provide useful features such as manage:

Authorized user lists (i.e. for VIP), Banned card lists (i.e. for lost user cards), An access request log (who and when, access granted or denied,..), An event log (i.e. tamper detection, access control for evacuation of the building,...). The VisionPass terminal is able to work alone, without Controller, but the protection level of the secured area is lower. An Alarm (3rd party product) This element is connected to the VisionPass terminal through a dry contact. The VisionPass terminal sends the command to activate the Alarm as soon as a malicious operation

(terminal pulled out from the wall or having its bottom cover opened out of maintenance operations) is detected; refer the paragraph dealing with anti-pulling and anti-tamper switches for more explanations. A Door Electric Latch or equivalent (3rd party product) This element once activated opens the access. The Controller is the one which sends the command to activate the latch if access is granted (i.e. if the individual's User ID is listed in the Controller Authorized User List). Connection between these two elements is done through a dry contact. 20 VisionPass - 2019_2000045728 2 / General description 21 VisionPass - 2019_2000045728 2.1 > Box opening At the box opening, components shall be extracted from the protection casing as depicted in the pictures below. Extract the wall plate (which is not screwed to the terminal) and keep it separate until the installation of the terminal is completed. The screwing of the product to the wall plate is the last stage of the installation. Figure 1: Box Opening 22 VisionPass - 2019_2000045728 2.2 > Components of the initial package Figure 2: Box Content 1. One (1) Terminals body 2. One (1) Wall frame 23 VisionPass - 2019_2000045728 2.3 > Terminal's front view description IR light LED (power-on) microphone Figure 3: VisionPass terminal front view NIR camera Visible camera 3D cameras 7 WVGA touchscreen LCD speaker contactless area 24 VisionPass - 2019_2000045728 2.4 > Terminal's rear view description USB port (for configuration and settings with a USB mass storage key, or installation of a Wi-FiTM dongle Power supply Relay Tamper switch RS485 / RS422 GPIO Wiegand RJ45 Figure 4: VisionPass terminal rear view 25 VisionPass - 2019_2000045728 2.5 > VisionPass Technical Characteristics Description Item Access control modes Identification (search for faces in a local database) Authentication with contactless smartcard, with or without face check Multi-factor: identification or authentication Proxy: the access control check is fully driven by a remote system Man Machine Interface 7 WVGA color capacitive Touchscreen Powerful Loudspeaker & Microphone Biometrics Face acquisition :

Visible light and infra-red light 3D reconstruction False Acceptance Rate (FAR) adjustable from 1% down to 10-

7%

Database capacity: 10 000 users (standard) and up to x0 000 users (with specific license) Log capacity 1 000 000 LAN/WLAN connection For terminal configuration and data transfer:

Ethernet 10/100 Base T (MDI, MDI-X) Or Wi-Fi Wireless LAN (option), WEP, WPA (PSK) and WPA2 (PSK) encryption available Either TCP, SSL or TLS protocol 26 VisionPass - 2019_2000045728 RFID cards (depending on product version) MIFARE Classic 1KB & 4KB (4b and 7b UID) MIFARE Plus SL1 cards DESFire 3DES legacy 2K, 4K and 8K (EV0 & EV1) DESFire AES 2k, 4k, 8k (EV1) All HID iClass cards (incl. iClass legacy, iClass SR and iClass SE), except 2K2 HID Prox 125 kHz whatever the format (26, 37 ....) Serial port The serial port supports WIEGAND, DATACLOCK (ISO2), RS422 and RS485 protocols GPIO 3 GPI, 3 GPO Output relay switches Access granted: 1 switch two outputs (normally open and normally closed) 30V 1A max (Resistive loads, 100 000 cycles) USB host port terminal configuration through a USB mass storage key connection with an external Wi-Fi USB dongle using an adapter cable Input signals LED1/LED2 to activate the access granted relay Power supply 12 to 24 V DC power supply (3A min @12V) Note for UL 294 Compliance power supply shall be UL 294 and UL 294B with power limited output Security of the terminal Anti-tamper-pulling switches Tamper-pulling detection: one switch closed when product wall mounted, open when pulled out Size and weight W x H x D: 330 mm x 145 mm x 61 mm

(13 x 5,7 x 2,4) Weight : ~ 2 kg 27 VisionPass - 2019_2000045728 Environmental conditions Operating temperature:

-10 C to + 50 C (14F to 122F) Operating humidity 10 % < RH < 80 % (non condensing) Storage temperature -25 C to + 70 C (-13F to 158F) Storage humidity 5% < RH < 95 %

The terminal should be installed in controlled lighting conditions Avoid direct exposure to sunlight or to UV lights Certification planned CE, IEC 60950-1, FCC Part 15, RSS210 - Issue 8 : 2010, RSS-102 - Issue 5 : 2015, RSS-Gen Issue : 2014, RoHS, REACh, WEEE 28 VisionPass - 2019_2000045728 3 / Installation procedure 29 VisionPass - 2019_2000045728 3.1 > Before proceeding to the installation Make sure that you have all the components described in Components of the initial package section at your disposal. Remove the wall plate. Keep this element at hand. Figure 5: Removing wall frame It is then possible to fix the terminal on the wall. 30 For an optimal use the terminal must be installed in an area where the lighting conditions are controlled. Avoid direct exposure of the sensor to the sun light and ensure good ambient lighting for face detection if used. VisionPass - 2019_2000045728 3.2 > Installation Required tools (not supplied) Four (4) raw plugs + four (4) screws 4mm max and length adapted to the wall material. One (1) screwdriver adapted to screws above. One (1) Drill (with a drill bit diameter adapted to raw plugs above). One (1) hole saw (depending on installation case). A (1) CHC H2 screwdriver A (1) CHC H2.5 screwdriver Deadbolt/door strike Snubber diode required to protect regulated DC power supply from inductive kickback (1N4007 diode or equivalent recommended) Separate power supply for the deadbolt/door strike based on supplier's recommendations. External relay (if required) Networking cable For UL-294 compliance, an earthed screen in the wire or around all wires to/from product is only required when the wires share space/compartment/tube with high voltage cables. Equipment from the initial package to use One (1) Terminals body. One (1) wall plate. 31 VisionPass - 2019_2000045728 3.3 > Step by step procedure 40 min l l a W m m 0 3 1 1 Floor Figure 6: Face camera viewing angle The recommended height for fixing of the terminal is 1.13 m (height of the bottom glass). For an optimal use the terminal must be installed in an area where the lighting conditions are controlled. Avoid direct exposure of the sensor to the sun light. Power supply from electrical source shall be switched off before starting the installation. The strength of the attachment depends on the solidity of the wall on which the terminal is mounted. 32 VisionPass - 2019_2000045728 3.3.1 > Drill the mounting holes Be sure that the wall behind the wall plate has a good flatness. m m 0 2 1 1 o t 0 2 0 1 g n i t n u o m d e d n e m m o c e R r o o l f e h t m o r f t h g e h i 67 mm Depth 40 mm Figure 7: Drilling template Floor If not present, drill in the wall a hole with a diameter adapted to the width of the terminal and the cable to be hosted in (see Figure 7: Drilling template. This template can be found in the Quick Installation Guide). The 67 mm diameter hole (cf. drilling template) should be at least 40 mm deep in order to fit the connections and cables. A deeper hole as recommended is possible, to make the connection process easier. Confirm the presence inside the hole of all the cables needed for the electrical installation. Drill in the wall 4 holes with a diameter adapted to screws and fit them with the raw plugs (see Figure 7:

Drilling template). Be sure that a sufficient space is reserved in the wall for the passage of cables, in particular for Ethernet. 33 VisionPass - 2019_2000045728 3.3.2 > Make the connections Unscrew the connector from the device:

Figure 8: Connection - Step 1 34 VisionPass - 2019_2000045728 Fit the cables through the mounting plate:

Figure 9: Connection - Step 2 Then connect the cables:

Figure 10: Drilling template and cable connection 35 VisionPass - 2019_2000045728 Before cabling the product, remove the connector by cutting cables in the middle of heat shrink tube. Please refer to section 4 / for explanations of how cables/wires should be connected, according to wire color code.

IP65 Figure 11: Cable preparation : cable position for water tightness Cable for wiring shall be AWG 20 to 24, length shall be adapted to the size of the hole in the wall, to terminal connections, and to the distance between the electric source and the terminal itself. For power supply, IDEMIA recommends using a 24V power supply and AWG16 gauge cable. To ensure water tightness, be sure to bend the cable downward. For test purpose, it is possible to use the existing connector without cutting it. This connector mates with Molex PCB header reference 5016452620. The pinout of this connector is described in this document in section 4 /. The pinout indications that you can see on the labels of the cable shall NOT be taken into account as they correspond to the OTHER connector on the device side. Please use only the pinout information given in this document in section 4 /. 36 VisionPass - 2019_2000045728 3.3.3 > Attach the base plate on the wall Fix the base plate on the wall with the 4 screws. 37 Figure 12: Base plate fixation on the wall VisionPass - 2019_2000045728 3.3.4 > Attach the device on the base plate 2x 38 VisionPass - 2019_2000045728 3.3.5 > Connect the connector assembly on the device Attach the connector assembly on the device with the 4 screws. Dont forget to screw (x5) Figure 13: Connector assembly on the device 4x 39 VisionPass - 2019_2000045728 3.3.6 > Close the device on the base plate Detach the device from the plate: first lift the device upwards, then pull it towards you, and hold it. 1 2 Figure 14: Product closure Do not try to turn the product directly while it is attached on the base plate, as this would definitely damage the plate and the device !

40 VisionPass - 2019_2000045728 Then rotate the device 90 to align it in the final position in front of the plate. Push the device towards the wall, then downwards until the device is locked on the plate. 1 2 Figure 15: Product fixation on wall frame 41 VisionPass - 2019_2000045728 Then to secure the device on the plate, attach the last screw on the bottom of the device:

Figure 16: Locking the product The hardware installation of the product on the wall is complete !

Power can be switched ON just after closing it. If the product has to be stored for a long time (more than 48 hours), dont forget to restore its configuration before use. 42 VisionPass - 2019_2000045728 4 / Electrical interface 43 VisionPass - 2019_2000045728 4.1 > Wiring overview Before proceeding, make sure that the person in charge of installation and connections is properly connected to earth, in order to prevent Electrostatic Discharges (ESD). Power supply ground shall not be used for peripheral ground. All other grounds can be used indifferently. Note that all connections of the VisionPass terminal described hereafter are of SELV (Safety Electrical Low Voltage) type. Figure 17: Cabling layout 44 VisionPass - 2019_2000045728 4.2 > Power Supply External Power supply 1-3 Red Power Supply 12-24V DC 2-4 Black Power ground In In Positive 12-24 Volts, power supply Ground power supply Figure 18: Power supply wiring The External power supply Must comply with IEC 60950-1 standard marked Class 2, Limited Power source (LPS) 12V to 24V DC (regulated and filtered) 3A min at 12V. If sharing power between devices, each unit must receive 3A (e.g. two units would require a 12vDC, 6A supply). IDEMIA recommends using a 24V power supply and AWG16 gauge cable. The voltage measured on the product block connector of the terminal must be equal to 12V-24V (-15% / +10%). The voltage drop due to the cable shall be taken into account. The table below shows as an example the maximum distance between power supply and one (1) unique device, depending on cable gauge and power supply rating. Gauge AWG 16 18 20 22 Section

(mm2) 1.31 0.82 0.52 0.32 Maximum distance (meters) vs power source rating 12V+/-10%

9 m 6 m 3 m 2 m 12V+/-5%

20 m 12 m 8 m 5 m 24V+/-10%

300 m 200 m 120 m 75 m If several terminals are powered by the same cable, make sure to select a wire gauge that complies with maximum voltage drop, cable length, and power source minimum voltage rating. 45 VisionPass - 2019_2000045728 4.3 > Output Relay 14 Yellow / White RLY_NO 12 Grey / White RLY_COM Contact relay (normally open) Contact relay common 13 Orange / White Nominal characteristics of relay Load characteristics:

RLY_NC Figure 19: Output relay wiring Contact relay (normally closed) 1 A max @ 30 VDC (according to the safety extra low voltage requirements independently of the power supply), Resistive load or inductive load; see warning information hereafter for inductive load, The internal relay is designed for at least 100 000 cycles (resistive load). Inductive load management requires a parallel diode for a better contact lifetime. Example of connection for electrical door locks MorphoWave Compact terminal 46 VisionPass - 2019_2000045728 Figure 20: Example of electric latch connection 4.4 > Tamper Switch 5 6 Light Blue SWITCH_PIN1 Pink SWITCH_PIN2 Tamper switch contact Strip on tamper switch Figure 21: Tamper switch wiring Operating principle for the switch Product installed on the wall plate: switch enabled (contact closed). Product opened (rear connectors accessible): switch disabled (contact open). Nominal characteristics of switch block 100 mA at 30 VDC max (Resistive load) according to the safety extra low voltage standard. This VisionPass terminal is part of security system; it is customers responsibility to connect the tamper switch (contact) to physical access controller, in order to prevent the access to the connector blocks. 47 VisionPass - 2019_2000045728 4.5 > Wiegand wiring Wiegand input 21 Green / Red WIEGAND_IN0 23 White / Red WIEGAND_IN1 16 Yellow GPO0 In In Wiegand IN D0

(Output type required: Open drain or 5V+/-5%) Wiegand IN D1

(Output type required: Open drain or 5V+/-5%) Out Wiegand LEDIN (typical = 5VDC)

(option) 27 Black / Red WIEGAND_GND Ground for Wiegand Figure 22: Wiegand input wiring If pull-ups to 12V have been added on Wiegand IN D0 and Wiegand IN D1 inputs on a previous installation with a MorphoAccess 500 Series terminal, these resistors must be removed to avoid any damage to the VisionPass terminal. VisionPass - 2019_2000045728 48 4.6 > Wiegand output The following figure shows how to cable the wires of the serial port of the terminal for the Wiegand protocol 24 Green WIEGAND _OUT0 Out Wiegand OUT D0 (5V TTL) 26 White WIEGAND _OUT1 Out Wiegand OUT D1 (5V TTL) 25 Blue WIEGAND_LEDOUT1 In 28 Blue / Red WIEGAND_LEDOUT2 In Wiegand LED IN 1 (option): panel feedback

(Output type required: Open drain or 5V+/-5%) Wiegand LED IN 2 (option): panel feedback

(Output type required: Open drain or 5V+/-5%) 27 Black / Red WIEGAND_GND Ground for Wiegand Figure 23: Wiegand output wiring The use of LED1 and LED2 wires is described in the paragraphs below. The controller supports neither LED1 nor LED2 signals When the access controller has no relay contact to provide an answer to the VisionPass terminal, then the decision to emit either the access granted signal or the access denied signal is taken by another way. It is either the VisionPass terminal itself that decide, or it waits for the access controller answer through the local area network (TCP), or on the serial port in (RS485 or RS422). It is strongly recommended to disable the LED IN feature, to avoid any interference on VisionPass terminal behavior. The controller supports only LED1 signal When the access controller has only one relay contact which is dedicated to the access granted answer, this one must be connected between the LED1 and GND wires. The LED1 wire is set to the low level by closing the contact between the LED1 and the GND wires, and it means access granted. The VisionPass terminal uses the timeout of the wait for a low level on the on LED1 wire or LED2 wire as access denied answer. To minimize at most the waiting time of the user, the VisionPass terminal timeout value, must be adjusted to a value a little bit higher than the maximal value of the controller response time. Warning: if the LED2 wire is connected, it must be constantly maintained in the high state. 49 VisionPass - 2019_2000045728 The controller supports LED1 and LED2 signals When the controller supports one relay contact for each of the possible answers then:

The access granted contact must be connected between the LED1 and the GND wires of the terminal The access denied contact must be connected between the LED2 and the GND wires of the terminal. The VisionPass terminal considers that:

The answer of the controller is "access granted", when the controller puts the LED1 wire to the low state (by closing a contact between the LED1 and the GND wires), and leaves the LED2 wire to the high state. The answer of the controller is "access denied", when the controller puts the LED2 wire to the low state

(by closing a contact between the LED2 and the GND wires), whatever is the state of the LED1 wire. The VisionPass terminal also considers that the answer of the controller is "access denied" in case of time-

out while expecting for a closure between LED1 and GND wires, or between LED2 and GND wires. 50 VisionPass - 2019_2000045728 4.7 > Serial port wiring DataClock Input 21 Green / Red WIEGAND_IN0 23 White / Red WIEGAND_IN1 16 Yellow GPO0 In In Out Data (Output type required: Open drain only) Clock (Output type required: Open drain only) Card present signal (if configured, only one selectable for Morpho Legacy) 27 Black / Red WIEGAND_GND Ground for Wiegand Figure 24: Serial port wiring DataClock Input DataClock Output 24 Green WIEGAND _OUT0 Out Data ( 5V TTL ) 26 White WIEGAND _OUT1 Out Clock ( 5V TTL ) 25 Blue WIEGAND_LEDOUT1 In 28 Blue / Red WIEGAND_LEDOUT2 In LED IN 1 (option): panel feedback

(Output type required: Open drain or 5V+/-5%) LED IN 2 (option): panel feedback

(Output type required: Open drain or 5V+/-5%) 27 Black / Red WIEGAND_GND Ground for Wiegand Figure 25: Serial port wiring DataClock Output VisionPass - 2019_2000045728 51 RS485 10 Green / Black RS485_RX_A In/Out RS485 Rx/Tx non inverting signal 8 Green / White RS485_RX_B In/Out RS485 Rx/Tx inverting signal 11 Black / Red RS485_GND Ground Figure 26: Serial port wiring RS485 RS485 implementation is limited to half-duplex communication. So only Tx+, Tx- and ground reference signals are necessary. Depending on the RS485 network, an impedance adaptation may be required. For farthest terminal, a 120-Ohms resistor termination may be added outside the terminal between TX+

and TX-. RS422 7 9 Blue / Black RS422_RX_A In RS422 non inverting Receive Blue / White RS422_RX_B In RS422 inverting Receive 10 Green / Black RS422_TX_Y Out RS422 non inverting Transmit 8 Green / White RS422_TX_Z Out RS422 inverting Transmit 11 Black / Red RS422_GND Ground Figure 27: Serial port wiring RS422 RS422 interface is a full duplex communication. 52 VisionPass - 2019_2000045728 4.8 > GPIO wiring 19 Orange / Black GPI2 In Digital Input (1,8V to 5V) 20 Yellow / Black GPO2 Out Digital Output (5V 5mA max) 17 Orange / Red GPI1 In Digital Input (1,8V to 5V) 18 Yellow / Red GPO1 Out Digital Output (5V 5mA max) 15 Orange GPI0 In Digital Input (1,8V to 5V) 16 Yellow GPO0 Out Digital Output (5V 5mA max) 22 Black / Red GPIO_GND Ground Figure 28: GPIO wiring Single Door Access Control (SDAC) implementation 53 Figure 29: SDAC wiring If door contact is not used, GPI1 and GPO1 shall be connected together VisionPass - 2019_2000045728 4.9 > Ethernet connection Use a category 6 shielding cable (120 Ohms) or better. It is strongly recommended to insert a repeater unit every 90 m. Recommendations for RJ45 wiring Pin 1 2 3 4 5 6 7 8 Signals Data pair 1 Data pair 1 EIA / TIA T568B Colors EIA / TIA T568A Colors White orange White green Orange White green Data pair 2 White green White green NC/POE NC/POE pin pin dedicated dedicated

(+) Data pair 2 Blue White blue Green White green White green White green Ground/

NC/POE pin pin dedicated dedicated

(-) White brown White green

(-) Brown White green Corel L120 Colors Grey White Pink Orange Yellow Blue Purple Brown RJ45 plug pinout is compliant with 10/100 base T, IEEE802.3 Specification. Product is compliant also with MDI or MDI-X. Figure 30: RJ45 wiring Ethernet cable shall be shielded Default Ethernet configuration By default, VisionPass terminal is configured in STATIC mode with the following configuration: IP Adress

: 192.168.1.10; Gateway Adress : 192.168.1.254; Subnet Mask : 255.255.254.0 54 VisionPass - 2019_2000045728 4.10 > Internal USB connection Remove the 4 screws of the cover, as shown on the following drawing. Then remove the cover. Figure 31: Cover removing Then you can see a Mini USB plug. Mini USB type B connector Figure 32: Internal USB connection VisionPass - 2019_2000045728 55 The internal Mini USB-type B can be used for administration only to connect a mass storage USB key

(with a standard Mini USB-type B / USB-type A female OTG adapter). Please refer to VisionPass Administration Guide for more information. USB connection is limited to USB key connection (power consumption shall not exceed 200mA) 56 VisionPass - 2019_2000045728 4.11 > Wi-Fi dongle installation Wi-Fi dongle shall be installed inside the product and connected to the internal USB Mini B (at the rear of the terminal) using Idemia adapter provided in the kit. Product integrating Wi-Fi dongle shall not be exposed to temperature exceeding 35C and shall not be exposed to direct sun. Only Wi-Fi USB dongle delivered by Idemia (kit reference 29xxxxxxxx, containing the dongle and the adapter) may be installed with the terminal for WLAN (Wireless Local Area Network) operation. Remove the cover on the rear panel:

Figure 33: Cover removing 57 VisionPass - 2019_2000045728 Then plug the Wi-FiTM described on the following picture:

dongle on the provided adapter, connect the adapter on the Mini-USB socket, as 1. connect the adapter to the dongle 2. connect the adapter+dongle to the USB internal connector 3. Attach the cover and tighten the screws Figure 34: Wi-Fi dongle installation Close the product with the cover and tighten the 4 screws. 58 VisionPass - 2019_2000045728 5 / User interface 59 VisionPass - 2019_2000045728 5.1 > Modes for controlling access rights 5.1.1 > Introduction The VisionPass terminal offers several methods for controlling access rights: it needs to be configured in one of the following four modes:

Identification mode, Authentication mode, Multi-factor mode, Proxy mode Refer to VisionPass Administration Guide for more information on Access Control. 5.1.2 > Identification mode The Identification process of the VisionPass terminal proceeds by comparison of the biometric data of the face placed on the biometric sensor, with all the biometric data stored in the database. It means that the biometric data of the allowed users must be stored in the internal database before they can request the access on the terminal. This biometric data is acquired either directly on the terminal (using the embedded fimware), or on an enrolment system using the same type of biometric sensor. The access control by identification process is started when a face is detected in front of the biometric sensor. When the user requests the access, his identity is unknown, and it is the terminal that searches for his identity. The terminal grants the access if a match is found (the user is identified); otherwise the access is denied (the user remains unknown). For further information, please see the "Identification mode" section in the VisionPass Administration Guide. 5.1.3 > Authentication (verification) mode Unlike the "identification" mode, the user identity must be known in order to execute the authentication process. Indeed, authentication is an identity verification process: the user provides his identity and the terminal checks it with the relevant process. This mode doesnt compare the users data to the data of several users: it compares the data provided by the user with the reference data provided by the same user during enrollment phase. The data can be on a card presented to the terminal or in a database and ID is provided by the user. Access is authorized if the terminal finds a correspondence. For further information, please see the "Authentication mode" section in the VisionPass Administration Guide. 60 VisionPass - 2019_2000045728 5.1.4 > Multi-factor mode In this mode, the "identification" and "authentication" modes are available simultaneously; the user decides which control method will be used:

by presenting his face to the sensor, thereby triggering the identification process, by placing his contactless card on the reader, thereby triggering the authentication process, This is the default mode for terminals fitted with a contactless smartcard reader. For further information, please see the "Multi-factors method" section in the VisionPass Administration Guide. 5.1.5 > Proxy mode The Proxy mode is an operating mode where the access control main application is located in a distant system. This is not a standalone mode like Identification and Authentication modes. It means that the terminal becomes a slave of the host system application. The access control application is running on the host system and uses VisionPass terminal high level functions:

Identification function Authentication function Read data on a contactless card Access control result signal command The VisionPass terminal is driven through an Ethernet (or Wi-Fi) link using TCP, SSL or TLS protocol. The VisionPass terminal acts as a server: it is either waiting for a command or executing a command. The commands allowed by the VisionPass terminal are described in the VisionPass Host System Interface Specification document. For further details about SSL or TLS on the VisionPass terminal, please refer to the VisionPass Administration Guide. 61 VisionPass - 2019_2000045728 5.1.6 > External database mode (also called polling mode) When external database mode is activated, the VisionPass terminal does not verify user template in its local database. This mode is useful when the user templates are stored in external database. When authentication is initiated on the terminal, the terminal will poll the user ID to external controller. On polling out the ID, the corresponding template (if exists) is fetched from the external database and is authenticated against users biometric on the terminal. Once the template request is posted to the external database, the terminal shall wait for the face template from the external database to start authentication. Further process shall be same as authentication. Polling Process using buffer:

The users input ID will be queued in the terminals queue, which is polled by external application. External application waits for the User ID by polling the buffer. After getting an ID, it will search the template in database and send template to terminal for further authentication. The user is authenticated by the external device and granted access accordingly. VisionPass terminal also has distant commands to retrieve polling buffer status and polling buffer data. Refer to the VisionPass Host System Interface Specification document. How to Activate?

External database mode can be activated by setting ucc.enable_external_database parameter to 1. Only an admin user can activate polling mode. You can refer to the VisionPass Host System Interface Specification document to know how to set this parameter. 5.1.7 > Anti-tamper / anti-pulling switches Please refer also to Tamper Switch section. These switches are activated as soon as there is enough pressure applied on the terminal against the wall. They are deactivated as soon as this pressure is not big enough, e.g. when the terminal is pulled out of the wall. Ignore the event (default): useful during normal maintenance operations. When the switches are deactivated, the VisionPass terminal acts as required by the related configuration key (see VisionPass Administration Guide for key configuration description):

Send an alarm message to the Central Access Controller, through the usual channel of the access control result messages (Wiegand, DataClock, RS485, Ethernet or Wi-Fi). An alarm switch (relay contact) is directly available on block terminal tamper switch pins. Please refer to Wiring overview and to Tamper Switch sections. Generate an audible alarm signal with the speaker and an alert message on the screen. 62 VisionPass - 2019_2000045728 6 / Accessories, Software Licenses and PC Applications 63 VisionPass - 2019_2000045728 6.1 > Compatible Accessories, Licenses and Software The following items can be ordered directly to Idemia or to an official distributor, so as to enjoy all the features of your VisionPass terminal:

Power supply units, Contactless smartcards: MIFARE 1k, 4k; DESFire 2k, 4k, 8k, WI-FI PACK: containing a Wi-Fi USB dongle and a Wi-Fi license to activate Wi-Fi capability on your terminal, User database size licenses MA_x0K_USERS : enabling database size upgrade from 10 000 to x0 000 users capacity at creation of the database. 64 VisionPass - 2019_2000045728 6.2 > Compatible PC applications VisionPass terminals are fully compatible with:

MorphoManager (version 1x or higher) Morpho Integrators Kit (MIK) software development kit (version X or higher). MorphoBioToolBox (version X or higher) 65 VisionPass - 2019_2000045728 7 / Recommendations 66 VisionPass - 2019_2000045728 Global warning The manufacturer cannot be held responsible in case of non-compliance with the following recommendations or incorrect use of the terminal. General precautions Do not attempt to repair your terminal yourself. The manufacturer cannot be held responsible for any damage/accident that may result from attempts to repair components. Any work carried out by non-

authorized personnel will invalidate your warranty. Do not expose your terminal to extreme temperatures. Use your terminal with original accessories. Attempts to integrate unapproved accessories to the terminal will void your warranty. Due to electrostatic discharge, and depending on the environment, synthetic carpet should be avoided in areas where the terminal has been installed. Do not tilt the product. Do not use blunt force on the product. Do not attach anything to the product. Do not place anything on the product. Switch off the device before unplugging it. Biometric performance Do not scratch the product, particularly on the glass, because the performance of the product depends of the state of the glass surface and its anti-reflective face. Clean the glass every day to optimize performance of the product. Avoid direct sun light on the product. Areas containing combustibles It is strongly recommended that you do not install your terminal in the vicinity of gas stations, petroleum processing facilities or any other facility containing flammable or combustible gasses or materials. Specific precautions for terminals equipped with a contactless smartcard reader It is recommended to install terminals equipped with a contactless smartcard reader at a certain distance (> 30cm) from metallic elements such as iron fixations or lift gates or radio product (such as contactless smartcard reader). Performances in terms of contactless badge reading distance will decrease when metallic elements are closer. Ethernet connection It is recommended to use a category 5 shielding cable (120 Ohms). It is also strongly recommended to insert a repeater unit every 90m. Extreme care must be taken while connecting Ethernet wire to the terminal block board since low quality connection may strongly impact Ethernet signal sensibility. It is recommended to connect Rx+ and Rx- with the same twisted-pair wire (and to do the same with Tx+/Tx- and the other twisted-pair wire). Date / Time synchronization The terminal clock has a +/-10 ppm typical time deviation at +25C (roughly around +/- 6 sec per 48 hours). At lower and higher temperature (but within normal operating temperatures), deviation may be more important (worst case: - 14 seconds per 48 hours). 67 VisionPass - 2019_2000045728 If the terminal is used in an application requiring high time precision, we recommend synchronizing regularly your terminal time with an external clock (using NTP). Every 24 hours is usually enough for most applications. Please note that the date/time of the terminal is protected from power failure during at least 24 hours. If the duration of the power failure or power down is longer, the date/time of the terminal will be lost. Cleaning precautions Use a dry cloth to clean the terminal, especially the front face. It is recommended that the product be cleaned daily to ensure the best performance level over its lifetime. The use of acid liquids, alcohol or abrasive materials is prohibited. Use dry air spray to remove the dust out of the sensor glass. 68 VisionPass - 2019_2000045728 8 / Annex 1 : placement recommendations 69 VisionPass - 2019_2000045728 8.1 > Main principles VisionPass is a biometric acquisition terminal which captures the face of the applicant. To acquire its face, the applicant... Figure 35: Typical 70 VisionPass - 2019_2000045728 8.2 > Capture recommendations 8.2.1 > Proper Use Below are several illustrations and guidelines on how to best use your new VisionPass device. Figure 36: Proper Use 71 VisionPass - 2019_2000045728 8.2.2 > Improper Use The following illustrations show what NOT to do when using VisionPass terminal. Do not Do not Figure 37: Improper Use Do not Do not touch the cover 72 VisionPass - 2019_2000045728 9 / Annex 2 : Bibliography 73 VisionPass - 2019_2000045728 9.1 > How to get the latest versions of documents For the latest firmware, software, document releases, and news, please check our web site :

www.biometric-terminals.com To get your log in and password please contact your sales representative. 74 VisionPass - 2019_2000045728 9.2 > Documents about the MorphoWave Compact terminal Documents about installing the terminal VisionPass Installation Guide, Ref. 2019_2000045728 This document describes terminal physical mounting procedure, electrical interfaces and connection procedures. This document is in English. Documents about administrating / using the terminal VisionPass Quick User Guide, Ref. 2019_2000045730 This document gives a quick overview of the product and the basics of configuration and use. This document is in English. VisionPass Administrator Guide, Ref. 2019_20000xxxxx This document describes the different functions available on the terminal and procedures for configuring the terminal. It also contains the full description of all the configuration parameters for the terminal. This document is in English. VisionPass Parameters Guide, Ref. 2019_20000xxxxx This document contains the full description of all the terminal configuration parameters. This document is in English. Documents for the developer VisionPass Host System Interface Specification, Ref. 2019_20000xxxxx This document describes the commands supported by the terminal. This document is in English. VisionPass Remote Message Specification, Ref. 2019_20000xxxxx This document describes the format of messages sent by the terminal to a distant system. This document is in English. Release note For each firmware version, a release note is published describing the new features, the supported products, the potential known issues, the upgrade / downgrade limitations, the recommendations, the potential restrictions 75 VisionPass - 2019_2000045728 10 / Annex 3 : Support 76 VisionPass - 2019_2000045728 10.1 > Troubleshooting The terminal IP address is unknown or it is not possible to connect to the terminal Use terminal interface to configure a valid set of network parameters in your terminal. The sensor is switched off Check that the database contains at least one record. Check that the identification mode is enabled. The terminal returns erratic responses to Ping commands Check the subnet mask. Ask the network administrator for the correct value. Check that each device connected to the network has a different IP address. 10.2 > Technical Support and Hotline North America:

Mail: support.bioterminals.us@idemia.com Tel: +1 888 940 7477 South America:

Mail: support.bioterminals.us@idemia.com Tel: +1 714 575 2973 South Africa:

Mail: support.bioterminals@idemia.com Tel: + 27 11 286 5855 India:

Mail: support.bioterminals.in@idemia.com Tel: 0120-4699900 Europe and rest of the world:

Mail: support.bioterminals@idemia.com Tel: +33 1 30 20 30 40

(9H00am to 5H30pm French Time, Monday to Friday) Web site For the latest firmware, software, document releases, and news, please check our website :

www.biometric-terminals.com To get your log in and password please contact your sales representative 77 VisionPass - 2019_2000045728 4 1 9 4 6 1 6 5 6

s e g a m I y t t e G

t o o h P

7 1 0 2 t 4 1 9 4 6 1 6 5 6

s e g a m I y t t e G

h g i r y p o C t o o h P

7 1 0 2 t h g i r y p o C

C Product label (29,6 x 100 mm) B A D LABELS Dimensions:

- Product label : 29,6 x 100 mm

- 2 x FCC labels : 10 x 40 mm

- Packaging label : 100 x 70 mm

- UL label : 25.4 x 12.7 mm

- BIS label : 14.5 x 18 mm A:

B:

C:

D:

IS XXXXX

(Part1) IEC xxxxx-x E:

G:

F:

XX-XXXX/XXX APPROVED n i

. E1513 i

. v o g s b w w w

. R-xxxxxxxx Material: Polyester White Adhesive on the back of the label

(3M 467 or equivalent). 02 Commercial name Designed by IDEMIA Identity & Security France 2 place Samuel de Champlain 92400 Courbevoie - France E VisionPass MD Model : MPH-AC006A P/N : 293740888 S/N : YYWWSMA00NNNNK MAC adr : XX:XX:XX:XX:XX:XX Licence ID : 123456789-12345678910-XXXXXXXXXXX Input : 12V - 24 V 3A MAX A B FCC ID : ZBW-MPHAC006A IC ID : 11472A-MPHAC006A D C F G Made in France Commercial name Security Equipment 02 2 x FCC labels (10 x 40 mm) Symbols to be place according table Product label

(location on BACK COVER) This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:

(1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Utiliser avec une alimentation puissance limite certifie UL ou IEC 60950-1. For use with UL or IEC 60950-1 certified limited power source. Designed by IDEMIA Identity & Security France 2 place Samuel de Champlain 92400 Courbevoie - France E ARGO xx Model : XXX-XX888X P/N : 29xxxxxxxxx S/N : YYWWSMA00NNNNK MAC adr : 88:88:XX:88:88:88 Licence ID : 123456789-12345678910-XXXXXXXXXXX Input : uuuuuuuuuuuuuuuuuuuu A B FCC ID : xxxxxxxxxxxxxx IC ID : xxxxxxxxxxxxxx F G D C Made in France Packaging label (100 x 70 mm) F Product picture or logo 02 VisionPass xxxx Model : XXX-XXXXXX Packaged Product : 29xxxxxxx Pack Number : 1234567890 Unit Product : 29xxxxxxx S/N : YYWWSMP00NNNNK MAC Adress : XX:XX:XX:XX:XX:XX Licence ID: 123456789-12345678910-XXXXXXXXXXX [x.y.z]

Made in France Software release Packaging UPC-A label (100 x 70mm) Commercial name 02 VisionPass XXXX Printing color : White for Product label Black for FCC and packagings labels P/N, Model, Symbols, Labels, Input and Commercial name : see table S/N : YYWWSMA00NNNNK YY : Year WW : Week S : Factory (S for SER) MA : ARGO Product 00 : Fixed NNNN : Serial number 4 characters

(generated by the production unit) K : Checksum 02 12V - 24V 3A MAX FCC labels location Pack Number is generated by the production unit. The labels are printed by thermal transfer process. To guarantee marking quality,

(according to UL969), use appropriate transfer ribbon with labels. For good reading: Let minimun distance between label edge and barcodes : 1 mm l

. s e u R C C F e h t f o 5 1 t r a P h t i w s e i l p m o c e c v e d i

s n o i t i e c n e r e d n o c o w t i g n w o l l o f e h t o f r e t n i l f u m r a h e s u a c t o n j t t c e b u s s i y a m e c v e d n o i e c n e r e f r e n e s u a c y a m t i y n a t a h t t p e c c a e c n e r e f r e t s u m e c v e d i s h i t n i i g n d u c n l i

, i t

) 2

d n a d e v e c e r i s h T

) 1

i t a r e p O i s h T

. n o i t a r e p o d e r i s e d n u d e t i m i l d e i f i t r e c UPC-A BARCODE See number in table e t i m i l e c n a s s u p i n o i t t a n e m i l a e n u c e v a r e s i l i t U 1

0 5 9 0 6 C E I r o L U h

. 1

0 5 9 0 6 C E I u o t i L U e i f i t r e c w e s u r o F

. e c r u o s r e w o p XXXXX XXXXX X Symbol is defined by Directive 2000/96/CE. Minimal dimensions are 4,9x7mm:

4,9 7 Symbols and additional Labels Input 12V - 24V 3A MAX 12V - 24V 3A MAX Model MPH-AC006A MPH-AC006B P/N ; Unit Product 293740888 293740891 Packaged product 293744571 293744604 xx-xxxx/xxxx APPROVED BIS UL Observations UPC-A Code ICASA FCC ID: ZBW-MPHAC006A // IC ID: 11472A-MPHAC006A 812 538 022 320 TA - XXXX/ XXXX FCC ID: JQ6-SE3210 // IC ID: 2236B-SE3210 812 538 022 337 TA - XXXX/ XXXX Not applicable 02 corrections done on this drawing revision The concentrations of the substances object of the directives European 2011/65/UE - RoHS and 1907/2006/CE - REACH must be lower than the specified thresholds:

. 2015/863/UE Annex II and 2011/65/UE Annex III & IV

. 1907/2006/CE - REACH: substances and threshold of communication of information to the customer specified in article 33 ETABLI DRAWN NOM / NAME AUSY DATE 15/07/2019 VERIFIE CHECKED NOM / NAME Rodolphe LEFEBVRE LIBELLE DENOMINATION Etiquette ARGO pour Produit et Emballage ARGO Label for Product and Packaging DATE 15/07/2019 1

REFERENCE ARTICLE PART NUMBER Adobe - ILLUSTRATOR A3 ECHELLE SCALE FORMAT SIZE 1/1 FEUILLE SHEET 6000036150 NUMERO DU DOCUMENT DRAWING NUMBER R40 000 02 TYPE PART VERS. REPRODUCTION ET DIVULGATION INTERDITES - ALL RIGHTS RESERVED REPRODUCTION AND DISCLOSURE PROHIBITED Commercial name VisionPass MD VisionPass MDPI 02 Important notes Export control 4 3 2

2, place Samuel de Champlain

(( ) IDEMIA 92400 Courbevoie, France To: Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046-1609 Bureau Veritas Consumer Products Services Inc. One Distribution Center Circle, #1 Littleton, MA 02702 Re: Confidentiality Request Gentlemen:

This letter is to comply with 47 CFR 0.457(d)(2) and 0.459 pertaining to confidential material. IDEMIA Identity &

Security France requests that the following documents regarding this submission for FCC ID ZBW-MPHACO06A be kept confidential:

Schematics Block Diagram Circuit/Technical Description Bill of materials

& Oo. Nos The material above contains technical data, which would customarily be guarded from competitors. Sincerely, Christophe SUEUR Electronics Design Office Manager Monon he, 26 a AAt

2, place Samuel de Champlain

(( ) | D I M IA 92400 Courbevoie, France To: Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046-1609 Date: 25/11/2019 To Whom It May Concern:

Ladies and Gentlemen:

We, the undersigned, hereby authorize LCIE Bureau Veritas to act on our behalf in all matters relating to application for equipment authorization FCC ID: ZBW-MPHACO06A including the signing of all documents related to this matter. Any and all acts carried out by LCIE Bureau Veritas on our behalf shall have the same effect as acts of our own. We also hereby certify that no party to this application is subject to a denial of benefits including FCC benefits, pursuant to Section 5301 of Anti-drug Abuse Act of 1988, 21 U.S.C 862. Sincerely, Christophe SUEUR Electronics Design Office Manager Hocenba , 26" Lol