Nedap Upass access User manual

2013-03-22 Doc.no.5281326

This information is furnished for guidance, and with no guarantee as to its accuracy or completeness; its publication conveys

no license under any patent or other right, nor does the publisher assume liability for any consequence of its use; specifica-

tions and availability of goods mentioned in it are subject to change without notice; it is not to be reproduced in any way, in

whole orin part,without the writtenconsent of the publisher.

uPASS Access

Installation Guide

uPASS Access

FCC ID: CGDUPASSACC

IC: 1444A-UPASSACC

Compliace statement:

This device complies with part 15 of the FCC rules and to RSS210 of Industrial Canada.

Operation is subject to thefollowing 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.

Déclaration conformitè:

Cet appareil se conforme aux normes RSS210 exemptés de license du Industry Canada.

L'opération est soumis aux deux conditions suivantes:

(1) cet appareil ne doit causer aucune interférence, et

(2) cet appareil doit accepter n'importe quelle interférence, y inclus interférence qui peut causer une opération

non pas voulu de cet appareil.

Warning:

Changes or modifications not expressly approved by the party responsible for compliance could void the user's

authority to operate the equipment.

This equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled environment.

This device shall be installed to provide a separation distance of at least 20 cm from all persons.

uPASS Access

CONTENTS

1INTRODUCTION.......................................................................................................................................................................................4

1.1 SUPPORTED TAGS........................................................................................................................................................................4

1.2 TAG SECURITY ...............................................................................................................................................................................5

2INSTALLATION.........................................................................................................................................................................................6

2.1 SAFETY INSTRUCTION ................................................................................................................................................................6

2.2 MOUNTING INSTRUCTIONS......................................................................................................................................................6

3CONNECTIONS.........................................................................................................................................................................................8

3.1 POWER SUPPLY.............................................................................................................................................................................9

3.2 COMMUNICATION.......................................................................................................................................................................9

3.2.1 RS485..................................................................................................................................................................................9

3.2.2 USB.......................................................................................................................................................................................9

3.2.3 WIEGAND / MAGSTRIPE............................................................................................................................................10

3.3 LED CONTROL.............................................................................................................................................................................11

3.4 TAMPER SWITCH........................................................................................................................................................................11

3.5 NEDAP ANTENNA INTERFACE..............................................................................................................................................11

4UHFFREQUENCIES..............................................................................................................................................................................12

4.1 RADIO REGULATIONS..............................................................................................................................................................12

4.2 FREQUENCY CHANNEL SELECTION....................................................................................................................................12

5READER CONFIGURATION................................................................................................................................................................13

5.1 UHFTOOL SOFTWARE..............................................................................................................................................................13

5.2 SETTINGS......................................................................................................................................................................................13

5.2.1 READ DATA....................................................................................................................................................................13

5.2.2 DECODE NEDAP XS.....................................................................................................................................................14

5.2.3 RELAY / TIMING............................................................................................................................................................15

5.2.4 LED CONTROL...............................................................................................................................................................15

5.3 EXPERT SETTINGS......................................................................................................................................................................16

5.3.1 OUTPUT...........................................................................................................................................................................16

5.3.2 OUTPUT MESSAGE FORMAT...................................................................................................................................16

5.3.3 EXTRA OUTPUT............................................................................................................................................................17

5.3.4 FREQUENCY...................................................................................................................................................................18

5.3.5 READ RANGE.................................................................................................................................................................18

ATECHNICAL SPECIFICATIONS ..........................................................................................................................................................19

BPARTNUMBERS....................................................................................................................................................................................19

uPASS Access

1INTRODUCTION

The uPASS Access reader offers a revolutionary and enduring solution for hands-free door access. The uPASS

Access has the dimensions of a conventionally access control reader but offers read range unmatched in the

industry. The uPASS Access offers identification up to 2 meter (6 feet) using the latest UHF technology.

The uPASS Access includes a RS485 interface, a wiegand/magstripe and a RF-modulation interface.

The uPASS Access can also be connected to NEDAP AEOS access control hardware such as the AP1001, using the

RF-modulationinterface.

The uPASS Access does not offer the TRANSITcompatibility features.

The uPASS Access is equipped with a fixed shielded cable pigtail, 12 x 0.14 mm2, length 5 meter (15 feet). The

cable shield shall be connected to the metal case of the external device or external devices.

In the case of extending this pigtail cable, ONLY shielded cables shall be used and all shields shall beconnected

to the metal case of the external device(s).

1.1 SUPPORTED TAGS

Any EPC Class 1 Gen 2 tag is supported by the uPASS Access.

NEDAP formatted UHF tags can have the following formats:

•NEDAP UHF wiegand tags

These tags will contain all wiegand information including facility code and parity bits. All wiegand formats

can be supported. The reader transparently sends this information via the wiegand outputs. There is no

need to change any DIP-switches or configuration settings. See chapter 3.2.3 for wiring details.

Note: The Wiegandoutput format is determined by the tag and not bythereader.

•NEDAP UHF magstripe tags

These tags will contain all magstripe information. The reader transparently sends this information onto the

magstripe interface. There is no need to change any DIP-switches or configuration settings. See chapter

3.2.3 for wiring details.

Note: The magstripe output formatis determinedby the tagand not by the reader.

•NEDAP UHF XS tag

These tags are especially programmed in the same format as our 2.45GHz AVI tags (Compact-Tag, Window-

Button and Heavy-Duty-Tag). The tags will also have a customer-code and id-number. The reader will

modulate the tag-info onto the Nedap antenna interface output, which can be connected to NEDAP AEOS

access control hardware such as the AP1001.

Note: See also the 'decode nedap xs'feature as described inchapter 5.2.2.

uPASS Access

1.2 TAG SECURITY

EPC (Electronic Product Code) tags were introduced as a possible successor to the barcode with added

functionalities. The tag emits its EPC in plain text. This makes the tags vulnerable to cloning and counterfeiting

attacks. Unlike many 13MHz smartcards, EPC tags do not supportany DES, 3DES or AES encryption.

EPC tags contain a data field known as the Tag Identifier (TID). At the discretion of the EPC manufacturer, the

value may be factory programmed and locked, ensuring that tags have a unique identity and (theoretically)

cannot be cross-copied. This TID based anti-cloning mechanism is notconsidered to be a strong protection.

NEDAP UHF tags support a locked serialized TID and the uPASS Access reader can be configured to read the TID

data field.

In addition NEDAP has also implemented an advanced anti-cloning and anti-counterfeiting method based upon

a two way authentication. This feature is supported in combination with all NEDAP UHF tags.

By default the uPASS Access reader is configured to read any EPC tag.

We encourage customers to enable the TID-check or the two way authentication. But also advise not to

completelyrelyon these methods in high-security applications.

uPASS Access

2INSTALLATION

2.1 SAFETY INSTRUCTION

The followingsafetyprecautions should be observed duringnormal use, service and repair.

•The uPASS Access may only be installed and serviced by qualified service personnel.

•Disconnect the power supply before (dis)connecting any wires, uPASS Access is NOT hot-swappable, so

when making or changing connections, power must be switched OFF.

•The cable shield shall be connected with safety ground and the metal case ofthe external device(s).

•To be sure of safety, do not modify or add anything to the uPASS Access other than mentioned in this

installation guide or indicated by NEDAP N.V.

2.2 MOUNTING INSTRUCTIONS

The uPASS Access can be mounted to any surface, including directly to metal. See the picture below for details

about the dimensions.

Figure1: uPASS Access dimensions (mm)

Mount the base-plate on the required location.

Ensure that it is placed correctly covering the cable entry hole. Properly fix the base-plate into its position using

the 2 screws. When mounting on a stone or concrete wall drill 5mm holes for the plugs. When mounting on

wood, drill with 2.5mm.

uPASS Access

Install the uPASS Access reader onto the base-plate.

1. Feed the cable through the cable entry hole. Important note: minimum bending radius 30mm.

2. Attach the top of the uPASS Access onto the base-plate.

3. Fix the assembly using the screw on the bottom.

Figure2: uPASS Access installation

uPASS Access

3CONNECTIONS

The uPASS Access is supplied with a 5 meter (15 feet) shielded cable pigtail with 12 multi-colorwires.

RED

Power supply 12- 24VDC.

BLACK

Power supply 0VDC, DC-Ground.

BROWN

RS485 A-

GREEN

RS485 A+

GRAY

Data-0 / Clock

PINK

Data-1 / Data

YELLOW

Tamper switch (normally closed)

GRY/PNK

Tamperswitch (common)

RED/BLU

Led_UL_IN*

WHITE

Led_NA_IN*

PURPLE

Nedap antenna interface. RFMOD antenna modulation. Connect to ANT.

BLUE

Beeper_IN*

SHIELD

Shield

Note: Cable shieldshall beconnected to the metalcase ofthe external device(s).

Cableextensionsshall only be made by means of shielded cable(s).

All shields of the shielded cableextensions shallbe connected together and to the metalcase of the external

device(s).

Led_UL_IN*, Led_NA_IN* and Beeper_IN* are inputs that are active LOW.

uPASS Access

3.1 POWER SUPPLY

The uPASS Access requires DC power supply in the range from 12 – 24V.

Maximum current consumption is 1A @ 12VDC, 0.5A @ 24VDC.

Connections:

RED

Power supply 12- 24VDC.

BLACK

Power supply 0V / DC-ground.

SHIELD

Shieldconnectedto DC-ground .

Note: Extending thisconnection beyond the 5 meter pig tail lengthshall ONLY be allowed using shielded cable.

The minimum voltage at the end of the fixed shieledpigtailcable shall be greather then 12VDC -10%

The shield shall be connectedto the metal case of the external device.

3.2 COMMUNICATION

3.2.1 RS485

The uPASS Access reader has a RS485 interface for communication with a host system or for configuring reader

settings. The RS485 interface is a 2-wire half-duplexserial communication interface using balancedlines.

Connections:

BROWN

RS485 A- Balanced RX/TX

GREEN

RS485 A+ Balanced RX/TR

SHIELD

Shieldconnectedto DC-ground.

Note: The RS485 interface isdisabledwhile theUSB interfaceis in use!

Extending thisconnection beyond the 5 meter pig tail length shall ONLY be allowed using shieldedtwistedpair

cable(2 x 2 x 0.25 mm2)as long as the total length is shorter then 1200meters, 6000 feet, cable capacity < 100

pF/meter.

The secondtwisted pair shallbe used for the DC power supply.

The shield shall be connectedto the metal case of the external device.

3.2.2 USB

The uPASS Access reader features an USB interface for service, installation and firmware upgrade purposes. The

Mini-USB connector is located on the bottom of the device and can only be reached when the bottom screw is

opened and the uPASS Access is lifted away from the base-plate. This ensures that unauthorized modifications

to the reader settings can be detected using the tamperswitch.

The USB interface can be used to configure the reader using the UHFTOOLsoftware.

Note: While the shielded USB cable is connected, the RS485interfaceis disabled!

The maximum shieldedcable length shall be < 2meter.

USB Driver installation

Make sure your computer is connected to the internet. The driver should install automatically via Windows

update when the uPASS Access reader is connected to your PC via the USB cable. Follow the driver installation

wizard. If you do not see the Windows update pop-up, you can manually install the driver. To manually install,

you need to go to FTDI’s website at www.ftdichip.com/Drivers/VCP.htm and download the VCP (Virtual Com

Port) drivers for your operating system. Drivers for MacOS and Linux are available as well.

uPASS Access

3.2.3 WIEGAND / MAGSTRIPE

The wiegand interface connections also support magstripe.

NEDAP UHF Wiegand tags will generate a wiegand message on the interface.

NEDAP UHF Magstripe tags will generate a magstripe message on the interface.

OtherUHF tags will not generate a message on this interface,unless the 'Extra output' settings are used!

The wiegand/magstripe output format is determined by the programmed format of the tag.

Make sure to order the correct tag formatting if you want to use the wiegand or magstripe interface. See also the

UHF tags order guide for more information.

Connections:

Wiegand connections Magstripeconnections

GRAY

Data-0 Clock

PINK

Data-1 Data

BLACK

Ground Ground

SHIELD

Shieldconnectedto DC-ground.

Note: Extending these connections beyondthe 5 meterpig tail lengthshall ONLY be allowed usingshielded cable (4 x

0.25 mm2) as long as the total length isshorter then 150 meters (500 feet).

The shieldshall be connected tothe metalcase of the external device.

3.2.3.1 WIEGAND TIMING

In the figure below the Wiegand protocol timingis specified.

Tpw

DATA-1

DATA-0

Tpi

Tpw

Timing constants:

Tpi Pulse interval time 1msec

Tpw Pulse width time 50µsec

Figure3: Wiegand protocol timing

3.2.3.2 MAGSTRIPE TIMING

The magstripe message length is determined by the tag. The first character will be a start-sentinel (0xB). The

message is terminated with an end-sentinel character(0xF) and an LRC character.

The figure below shows the timing for one magstripe character. Each bit consists out of one period low

(220µsec) and two periods high (440µsec). The Data-signal is valid and stable on the falling edge of the Clock-

signal. Before andafter the data 16 clock pulses are generated (postamble and preamble).

odd parity

msb

lsb

3300µsec

220µsec

660µsec

CLK

DAT

Timing constants:

Clock period 660µsec

Clock high 440µsec

Clock low 220µsec

Data pre-amble 16 clock periods

Data post-amble 16 clock periods

Figure4: Magstripe protocol timing one character

uPASS Access

3.3 LED CONTROL

The built-in high intensity LED provides visual feedback that the tag has been read or authorized. The LED and

buzzer can be controlled by the access control system.

Automatic mode:

Defaultthe uPASS Access will automaticallycontrol the LED.

During stand-by the LED will be RED and upon identification it will be GREEN. These colors can be changed!

Remote control:

The LED can be controlled remotely by a connected access control system. Digital inputs will determine the

color indicated on the LED. Use UHFTOOL to enable the Remote LED control mode.

RED/BLU

Led_UL_IN*

WHITE

Led_NA_IN*

BLUE

Beeper_IN*

BLACK

Ground

SHIELD

Shieldconnectedto DC-ground.

Note: Extending these connections beyondthe 5 meterpig tail lengthshall ONLY be allowed usingshielded cable (4 x

0.25 mm2) as long as the total length is shorter then150 meters (500 feet).

The shield shall be connectedto the metal case of the external device.

3.4 TAMPERSWITCH

An internal magnet provides tamper indication when the reader is dismounted. This contact may be connected

to an external alarm system. The contacts are normally closedwhen the reader is in place.

Tamper switches of multiple readers can be connected in series.

Connections:

YELLOW

Tamper switch (normally closed)

GRY/PNK

Tamperswitch (common)

SHIELD

Shieldconnectedto DC-ground.

Contact ratings:

Max. current 50 mA (0.5Voltvoltage drop)

Max. switching voltage +24 VDC

Note: Extending thisconnection beyond the 5meter pig tail length shallONLY be allowed usingshielded cable (2 x 0.25

mm2)as long as the total length is shorter then 150 meters (500feet).

The shield shall be connectedto the metal case of the external device.

3.5 NEDAP ANTENNA INTERFACE

The Nedapantenna interface is used to connect the uPASS Access to NEDAP AEOS access control hardware such

as the AP1001. Instead of proximityantenna the uPASS Access can be connected.

Connections:

PURPLE

Nedap antenna interface. RFMOD antenna modulation. Connect to ANT.

BLACK

Nedapantenna interface. Ground, shield. Connectto ANTGND.

SHIELD

Shieldconnectedto DC-ground.

Note: Extending thisconnection beyond the 5meter pig tail length shallONLY be allowed usingcoaxial cable, RG58U,

as long as the total length isshorter then 100 meters(350 feet).

The shield shall be connectedto the metal case of the external device.

uPASS Access

4UHF FREQUENCIES

4.1 RADIO REGULATIONS

The uPASS Access reader operates on the 860 – 960 MHz band. Regulations in this band are not standardized

world-wide. Generallythe regulations can be divided into several regions.

Per region a specific frequency band is available. This frequency band is divided into frequency channels. If local

radio regulations require frequency hopping (FHSS), then the uPASS Access automatically selects and uses the

available channels.

Region Technique Frequency Channels

Europe 865.6 - 867.6 MHz 4

Americas FHSS 902.7 - 927.2MHz 52

Brazil

FHSS

915.5 - 927.5MHz

China FHSS 920.5 - 924.5 MHz 20

Australia FHSS 920.7 - 925.2 MHz 12

Israel 915.0 - 917.0 MHz 4

Korea FHSS 917.7 - 920.1 MHz 5

New Zealand FHSS 917.7 - 920.1 MHz 8

Japan 917.3 - 920.3 MHz 6

Malaysia 919.8 - 922.2 MHz 5

Taiwan FHSS 922.6 - 927.4 MHz 9

Vietnam 920.7 - 924.3 MHz 7

Table 1: Region specificparameters

4.2 FREQUENCY CHANNEL SELECTION

If no frequency hopping is required, you should select an available frequency channel manually. This can be

realized asdescribed below.Select anavailable frequencychannel to achieve the bestperformance andto avoid

interference from other readers or equipment.

Use UHFTOOL to setupthe frequency channel selection.

uPASS Access

5READER CONFIGURATION

The uPASS reader settings can be configured easily using the UHFTOOL software. Software developers can find

the communication protocol description in the firmware manual.

5.1 UHFTOOLSOFTWARE

Figure5: UHFTOOL software

5.2 SETTINGS

Click 'View', 'Show config sidebar' or press F11 to show the configuration sidebar. In the sidebar the

configurationcategories are shown.Expand or collapse the setting panels by clicking on it.

5.2.1 READ DATA

Configure here which tags should be selected, how to access these tags, what data should be read from these

tags and if a security check should be performed.

By defaultthe reader is configured to select ANY TAG and read its EPC number.

Select NEDAP to read only Nedap tags.

NEDAP DUAL-ID (introduced in firmware version 2.29) enables the uPASS to search for Nedap vehicle-id tags.

When a vehicle-id tag is found, the uPASS searches for driver-id tags.

Example 1:Read onlyNEDAP UHF tags and use two way authentication:

Figure6: Read data example 1

uPASS Access

Example 2: Read only NXP UCODE tags (TIDstarts with E2006) and read 4 words from usermemory.

Figure7: Read data example 2

5.2.2 DECODE NEDAP XS

Enable decode Nedap XS formatted tags. Introduced in firmware version 2.54.

Figure8: Output settings

By default the data on NEDAP XS formatted tags will be transmitted to the TRANSITcompatible processor or the

the NEDAP antenna modulation interface. In this case the UPASS will not perform anydecoding.

Enable decode Nedap XS when you do not want to use the TRANSIT compatible processor or the antenna

modulation interface. The UPASS will decode the NEDAP XS tag data and output its plain tag-number. You can

also enable to output or verifythe customer code.

Enable the option 'Allow other tagformats' when you want the readerto support also otherformatted tags, such

as NEDAP UHF Wiegand formatted tags and others.

The decoded NEDAP XS output number contains:

Byte 1: 4E NEDAP UHF

Byte 2: <FMT> FMT=01: Nedap XS decoded hex tagno

FMT=02: Nedap XS decoded decimal tagno.

Byte 3-4: 00 Unused

Byte 5-7: CC CC=Customer code (zero if not transmitted)

Byte 8-12: TAGNO TAGNO=Tag number

Examples:

NEDAP UHF XS: Output: 4E10 3FFF C415 A87C BD51 8000

NEDAP UHF XS decoded: Output: 4E01 0000 0000 0000 0000 3039

NEDAP UHFXS decoded decimal: Output: 4E02 0000 0000 0000 0001 2345

NEDAP UHF XS decoded + custcode: Output: 4E01 0000 0415 A000 0000 3039

NEDAP UHFXS decoded decimal + custcode: Output: 4E02 0000 0415 A000 0001 2345

uPASS Access

5.2.3 RELAY / TIMING

Configure relayoutput and timing parameters.

Figure9: Relay /timing settings

Enable 'Automatic relay activation' to activate the relay upon identification. When disabled the relay can only be

activated manually.

The 'Relay hold time' setting is the minimum time the relay is activated.

The 'Vehicle holdtime' setting isthe time, after a vehicle-id tags has been found, for which the reader will search

for driver-id tags. This setting is only used in the NEDAP DUAL-ID mode. Introduced in firmware version 2.29.

The (random) RF off time parameter can be used to enable time sharing between multiple readers on the same

frequency.

5.2.4 LED CONTROL

Only for UPASS ACCESS: setup LED control mode.

Automatic mode:

Defaultthe uPASS Access will automatically control the LED.

During stand-by the LED will be BLUE and uponidentification itwill be GREEN.These colors can be changed!

Figure10: LED control

Remote control:

The LED can be controlled remotely by a connected access control system. Digital inputs will determine the

color indicated onthe LED.

uPASS Access

5.3 EXPERT SETTINGS

Click'Options', 'Usermode', 'Expert' to show additional configuration settingsfor advanced users.

5.3.1 OUTPUT

Configure communicationoutput settings.

Figure11: Output settings

Select 'Enable serial id-events' to enable the serial outputupon identification. Onlydisable the serial id-events to

optimize the identification speed when using the wiegand or magstripe interface or the TRANSIT compatible

processor.

When 'Fast repeat serial id-events' is selected (default) the serial output is repeated upon every identification.

When this option is disabled, the message is only sent once.

Enable 'Repeat using hold-time interval' to repeat id-events with hold-time interval. The repeating will be

enabled for the serial and also for the wiegand or magstripe interface.

'Enable vehicle id-events' allows enabling or disabling the id-event messages for vehicle-ids. This may be useful

in combination with the NEDAP DUAL-ID mode and an access control panel that does not support the dual-id

feature.

5.3.2 OUTPUT MESSAGE FORMAT

Configure output message format.

Figure12: Output message format

The output message format is configurable:

<prefix> [<tagstatus>] [<epclen>] [<epc>] [<datlen>] [<data>] <suffix> [ CR/LF ]

Note: When the output message format is changed, identified tags may no longer beshown in the UHFTOOL.

uPASS Access

5.3.3 EXTRA OUTPUT

Optionally enable wiegand or magstripe output for tags that are not programmed by Nedap in a wiegand,

magstripe or nedap-xs format. This feature is introduced in firmware version 2.13 or newer.

'Protocol':

Disabled Do not use the additional output feature.

Wiegand Enable additional wiegand output.

Magstripe Enable additional magstripe output.

'Data source':

EPC number Output the EPC numberusing the selected protocol.

Custom read data Output the custom data read using the selected protocol.

See for more information about how to setup custom read data chapter 5.2.1.

'Alignment':

Full Use the complete EPC number (or allcustom read data).

Left Truncate data. Keepleft.

Right Truncate data. Keep right.

'Data length': Data length in bits for wiegand (or in digits for magstripe).

'Offset': Data offset in bits for wiegand (or in digits for magstripe).

'Add constant': Enable to add a constantto the output before orafter the data read from the tag.

Example 1: Output a wiegand 26-bit message with

facility code 10:

Figure13: Additional output example 1

Example 2: Output the 13 rightmost digits from the

EPC number using the magstripe interface:

Figure14: Additional output example 2

uPASS Access

5.3.4 FREQUENCY

Here is shown the reader's operating frequency region.

Only for systems that do not use frequency hopping (e.g. in Europe):

You can select a frequency channel within the available frequency band.

Figure15: Frequency

5.3.5 READ RANGE

Enable the squelch to reduce the read range. This is useful to optimize lane separation.

When the squelch is enabled, you can set the squelch level. This level ensures that only tags with a returned

signal strength higher then the squelch level are identified.

When the squelch is enabled and the returned signal strength is lower then the squelch level, the SQ-ACT LED

indicates that the tag is rejected.

Figure16: Readrange

uPASS Access

ATECHNICAL SPECIFICATIONS

ITEM SPECIFICATION REMARK

Dimensions 150x50x40mm (5.9 x 1.9x 1.5 inch)

Weight 0.5 kg (1.1lbs)

Enclosure Polycarbonate (RAL7016)

Chassismaterial Aluminum(Zamak5) (RAL9006)

Protection class IP65 (Approx.NEMA4x)

Operational

temperature -30 °C … + 60 °C (-22°F … +140°F)

Relativehumidity 10 .. 93 % non condensing

Identification range Up to 2 meters (LineOff Site) (6feet) With passive NEDAP UHFtags

Power supply 12 … 24VDC ±10%linear powersupply

Currentconsumption 1A @ 12VDC, 0.5A @ 24VDC

Inputs 2 digital input for LED control

1 digital input for buzzer control Active low inputs

Tamperindication Yes bytamper switch Drycontact

Output Wiegand, magstripe (clock &data)

Cable Fixedshieldedcable length of 5 meter (16 feet)

included Cable extensions beyond the 5

meter shall ONLY be allowed

usingshieldedcable

Interfaces RS485 and USB USB local service only

Airinterface ISO18000-6C

Operatingfrequency

Europe: 865 … 868 MHz

Americas: 902 … 928 MHz (FHSS)

Brazil: 915 … 928 MHz (FHSS)

China: 920 … 928 MHz (FHSS)

Australia: 920 … 926 MHz (FHSS)

Polarization Horizontal + Vertical Switchedeveryqueryround

ERP / EIRP < 1W (30dBm) ERP (CE)

< 4 W (36 dBm) EIRP (FCC)

Safety EN 60950

Emission EN 302 208-1,-2 v1.3.1

FCC part 15.247 incl. SpreadSpectrum

Industry Canada RSS210

BPART NUMBERS

READERS

NEDAP uPASS Access (EUR)

NEDAP uPASS Access (USA) part number: 9958240

part number: 9206663

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