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About product and suppliers

ASSA ABLOY Hospitality 66 1001 001-7

The information in this document is subject to change at the sole discretion of

ASSA ABLOY without notice.

Any use, operation or repair in contravention of this document is at your own risk.

ASSA ABLOY does not assume any responsibility for incidental or consequential

damages arising from the use of this manual.

All information and drawings in this document are the property of ASSA ABLOY.

Unauthorized use and reproduction is prohibited.

VingCard and Elsafe are registered trademarks of ASSA ABLOY.

Table of contents

Appendix E: More about how the encoder finds the

server (Visionline only)

FCC and IC statements

This device complies with Part 15 of the FCC Rules. Operation is subject to the

(1) this device may not cause harmful interference, and

(2) this device must accept any interference received, including interference

that may cause undesired operation.

Note: This equipment has been tested and found to comply with the limits for a

Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed

to provide reasonable protection against harmful interference when the equipment

is operated in a commercial environment. This equipment generates, uses and can

radiate radio frequency energy and, if not installed and used in accordance with

the instruction manual, may cause harmful interference to radio communications.

Operation of this equipment in a residential area is likely to cause harmful

Important: Changes or modifications to an intentional or unintentional

radiator not expressly approved by the party responsible for compliance

The end product must be labeled to say ‘FCC ID: Y7V-681001025C1’.

Industry Canada statements

This device complies with Industry Canada licence-exempt RSS standard(s).

(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.

Le présent appareil est conforme aux CNR d’Industrie Canada applicables aux

appareils radio exempts de licence. L’exploitation est autorisée aux deux

(1) l’appareil ne doit pas produire de brouillage, et

(2) l’utilisateur de l’appareil doit accepter tout brouillage radioélectrique subi,

même si le brouillage est susceptible d’en compromettre le fonctionnement.

The end product is labeled ‘IC:9514A-681001025C1’.

The term «IC» before the equipment certification number only signifies that

the Industry Canada technical specifications were met.

Le terme «IC» devant le numéro de certification signifie seulement que les

specifications techniques Industrie Canada ont été respectées.

The RFID encoder is used for encoding and verifying RFID cards. It can be used

together with the below systems:

Unless anything else is stated, the information in this document is valid for

Note: For upgrade of firmware in the RFID encoder, see .

2. To mount the encoder

The RFID encoder can either be mounted on a wall or be placed on a table etc;

dimensions in Figure 2 below in mm (inches).

Figure 2: Encoder dimensions

Note: The RFID encoder can be mounted either horizontally or vertically.

2.2 Mounting kit

For mounting the RFID encoder on a wall

For mounting the card holder and mounting brackets

If the RFID encoder should be mounted without using screws

Table 1: Mounting kit

2.3 To mount on the wall

The encoder can be mounted on the wall either with the enclosed screws or with

the enclosed Velcro strips.

If the encoder should be mounted with screws:

fasten the mounting brackets at the bottom of the encoder with the two

mounting bracket screws

fasten the encoder on the wall with the collar screw at the suspension and

two screws at the mounting brackets

Figure 3: Exploded view of RFID encoder,

card holder and mounting details

Note: When mounting the encoder on the wall, the parameter ‘Wall mounted’

must be enabled; this can be done via the RFID Encoder Configuration Utility

(see ). If Visionline is applicable, it can also be done via the web

interface (see .

2.4 Card holder

If the RFID encoder is mounted on the wall, a card holder should be mounted on

the encoder. The card holder, including two screws for fixation, are enclosed with

the encoder at delivery.

Figure 4: The card holder is snapped onto the RFID encoder

and also fastened with two screws.

3. Electrical specification

There are several possibilities for powering:

Power via PoE; power over Ethernet

External power via adapter of 5VDC regulated voltage

Power via USB (only applicable for Visionline)

Figure 5: Rear panel of encoder

4. To connect to Visionline or VingCard Vision

4.1 To connect to the Visionline server

4.1.1 To connect via TCP/IP

If the encoder connects to the server via TCP/IP, it automatically adjusts to 10

or 100Mbit/s networks. The encoder starts by retrieving an IP address via DHCP;

Dynamic Host Configuration Protocol. The encoder then automatically finds the

Note: When the encoder has been detected by the server, the display shows the

date and time. An encoder device will automatically be added to the server.

If no DHCP server is available:

1. The display will show ‘offline’ and the encoder IP address (default 192.168.0.100,

or another IP address if the encoder has already been connected to a network).

2. Shortly after, the IP address on the encoder display will change to an

IP address in the range 169.254.1.0 – 169.254.254.255; this range is

based on the zero config

Note: When the RFID encoder has got an IP address, either via DHCP or via

config, it makes an announcement broadcast which either the Visionline server or

RFID encoder finds the server, see

4.1.2 To connect via USB

The USBXpress driver must be installed; see Appendix B

An encoder device must be added to the Visionline device list;

see details .

Note: Power via USB is not always enough for the encoder. If this is the case,

use the enclosed external power supply of 5VDC.

To add an encoder device in the Visionline device list:

1. When the USBXpress driver

has been installed according to

Appendix B, open the Visionline

device list by double clicking on

the navigation window.

2. In the dialog, click ;

the Device details

3. Enter a Name for the encoder.

4. If desired, enter a

5. At , choose ‘Network

RFID encoder (USB)’ in the

6. At , click the button. All

network RFID encoders that are

connected via USB will be shown

in the drop-down list; see Figure 7.

7. In the Device details

the applicable radio button under

Computer, the field

address will be available;

fill in this if applicable.

8. Click Save

9. Double click on

is available on the Visionline CD

Utility; if the encoder is correctly

connected to the PC and uses the

USBXpress driver, the serial number

of the encoder should be shown in

the upper left window at

example in Figure 8.

make the settings in

4.1.3 RFID encoder in SysMon

1. Double click on

the Visionline installation folder.

2. Go to ;

encoders that have been connected

via TCP/IP will be shown.

When hovering over an RFID

encoder in the

window of SysMon, information

about Mac address,

firmware versionlast ping

via SysMon, see

4.1.3.1 To rename the encoder

1. To rename an encoder,

right click on it in SysMon

and choose .

2. The dialog in Figure 11 will be

shown; enter a name for the

encoder and click

4.2 To connect to the VingCard Vision server or workstation

4.2.1 To connect via TCP/IP

To make the RFID encoder accessible for VingCard Vision, the encoder must be

assigned with four parameters:

IP port number

Before setting the above parameters in RFID Encoder Configuration Utility

USBXpress driver must be available for the RFID encoder to be able to connect and

perform the setup. When the RFID encoder has been configured with the four

parameters above, the encoder becomes backward compatible with the KDE

encoder which connects via TCP/IP only and has a static IP address.

1. Install the USBXpress driver according to

2. Double click on RFIDEncoderConfig.exe; if the encoder is

correctly connected to the PC and uses the USBXpress driver,

the serial number of the encoder should be shown in the upper

left window at USB; see example in Figure 12.

5. Configuration utility

If the encoder parameters need to be modified to suit the network where the

encoder is located, this can be done in RFID Encoder Configuration Utility

Table 2 below describes the configurable parameters.

For guidance about how to configure the RFID encoder for use together with

Visionline, see section 5.1. For information about how to configure the RFID

encoder for use together with VingCard Vision, see section 5.2. For default

parameter values, see

Note: For Visionline, the parameters can also be changed via a web interface;

Dynamic IP address

is only applicable for

If this checkbox is marked, the RFID encoder retrieves

an IP address via DHCP (Dynamic Host Configuration

Protocol) and then automatically finds the server.

The IP address of the encoder

A mask used to determine what subnet an IP address

If there is no DNS (Domain Name System), the RFID

encoder will still find the server if this checkbox is

Emulate a KDE encoder

Note for Visionline: With the ’emulate KDE’ alternative

marked, the web interface described in will not

This parameter changes the text orientation on the

encoder display. Mark if the encoder should

be mounted on the wall.

If no DHCP server is available, the encoder will at startup

show ‘offline’ and the encoder IP address. Shortly after,

the IP address will change to an address in the range

169.254.1.0 – 169.254.254.255; this range is based

on the zero config standard. It is recommended

to always have this checkbox marked.

If the link speed (10 or 100 Mbit/s) has been unaltered

for a certain time, a detector changes to manual speed

and alternatively tests 10MBit/s and 100MBit/s until

an answer is given. When this detector is activated, the

parameter EPHY (Ethernet PHYsical transceiver) auto

negotiate will be set to ‘No’ and the checkbox will

Table 2: Configurable parameters

5.1 To configure the encoder for use with Visionline

1. Make sure that the USBXpress driver is installed;

3. Connect the encoder to USB power; the encoder will

appear in the drop-down-menu at ‘USB’ in the upper

left corner of the RFID Encoder Configuration

4. Select the encoder in the drop-down-menu.

5. Click the Start button to connect.

6. Click the Get version

7. The firmware version of the encoder will be shown;

make sure that it is the latest version, if not upgrade

the encoder according to

8. Click the Get config button. At first configuration, the

default encoder parameters will be shown; see Figure

16. Note: The default parameter values are also shown

9. To modify one or more parameters, make the desired

changes and click the Set config

10.When the new configuration has bee set in the

encoder, a message as in Figure 18 will be shown.

5.2 To configure the encoder for use with VingCard Vision

is installed; see Appendix B

will appear in the drop-down-menu at ‘USB’ in the

upper left corner of the RFID Encoder Configuration

22. Note: The default parameter values are also shown

— uncheck Dynamic IP address (DHCP)

— set address; this is the

— set Default gateway; this is the

encoder gateway address

— set Subnet mask; this is the

encoder subnet mask

— let and Server Port

empty; these parameters are not

applicable for VingCard Vision

— let be 3001

— uncheck the rest of the checkboxes

12.Click the button.

13.When the new configuration has been set in the

encoder, a message as in Figure 24 will be shown.

14.Disconnect the power and USB cables.

15.Connect the LAN cable to the local hub.

16.Power up the encoder.

6. To factory reset the encoder

There are two ways to reset the encoder parameters to default values, e.g. if an

encoder should be used at a demo installation:

Press and hold the button with a narrow instrument while powering up the

encoder; see in where the button is located.

Press Defaults and then Set configRFID Encoder Configuration Utility

see below for details. The default values are also shown in

1. Click the

2. If the default parameters should be set in the

encoder, click the Set config button. If

VingCard Vision is applicable, it will not be possible

to connect to the encoder after the default values

have been set in it. In this case, the encoder must

then be reconfigured according to section 5.2

sure that Emulate KDE is checked in

6.1 Default parameter values

Note: For a description of the encoder parameters, see

Dynamic IP address (DHCP; Dynamic Host Configuration

Table 3: Default parameter values for the RFID encoder

7. Web interface

If the parameters for the RFID encoder need to be modified to suit the network

where the encoder is located, this can be done either

via the configuration utility described in

via the web interface described in the section To modify the encoder parameters

To open the web interface, http://ipaddress must be entered in a web browser.

The encoder IP address is shown on the encoder display. See for

a description of the encoder parameters.

7.1 To modify the encoder parameters

1. Press the button down to the right on

the back of the encoder (see

use a narrow instrument.

2. In the web browser, enter

ipaddress; the IP address to enter is shown

on the display at startup of the encoder.

See example below:

If no DHCP server is available, use

the zero config IP address which is shown

3. Make the desired changes in the

Encoder Setup page; see example in

4. If the should be changed and

Enter the applicable Server IP OR

mark the radio button ‘Enable’

this makes the encoder find the server.

5. When all desired changes have been done

in the RFID Encoder Setup

— Click .

— Press the button on the encoder again

to close the web interface.

Appendix A: Quick reference of technical data

Dimensions, encoder (WxHxD):

83.3 x 152.0 x 42.2 mm (3 9/32″ x 5 31/32″ x 1 21/32″)

Dimensions, card holder (WxHxD):

88.7 x 85.8 x 48.0 mm (3 1/2″ x 3 3/8″ x 1 57/64″)

Material in encoder: ABS UL 94V-0

Automatic adjustment to 10 or 100MBit/s networks

Material in card holder: PC UL 94V-0, semitransparent

— Power via PoE; power over Ethernet

The RFID encoder is of PoE class 1; power range 0.44-3.84W.

— External power via adapter of 5VDC regulated voltage

— Power via USB (only applicable for Visionline)

The maximum current consumption for the RFID encoder is

400 mA continuously

Intended for indoor use only, temperature range +5ºC to +50ºC

Relative humidity 10-90%; non-condensing

Required version of Visionline: 1.11.1 or higher

Required version of VingCard Vision: 5.2 or higher

Appendix B: To install the USBXpress driver

1. All necessary files for the USBXpress

driver are found on the Visionline CD

2. Connect the RFID encoder by USB cable

to the computer.

3. Go to the Device Manager

and click the plus sign in front of

‘Universal Serial Bus controllers’; see

4. In the Device Manager, double click on

the USBXpress Device and make sure

that the USBXpress Device Properties

dialog says ‘This device is working

properly’ as in Figure B2.

Appendix C: To upgrade firmware

To upgrade firmware via RFID Encoder Configuration Utility

2. Connect the encoder to USB power;

the encoder will appear in the drop-

down-menu at ‘USB’.

3. Select the encoder in the drop-

4. Click the

6. Browse to the desired firmware file

and click .

7. When the firmware version has

been loaded, it will be shown next

to the button as shown

in Figure C3.

8. Click the button.

9. When the bootloading has finished,

a message as in Figure C5 will be

To upgrade firmware via SysMon

connected via TCP/IP will be shown.

3. Mark the applicable encoder and click

the Set button; choose

Firmware Files for Bootloading

4. The dialog in Figure C7 will

5. Click the button

at the applicable one of ’RFID

Encoder’ or ‘RFID Encoder w ext

memory’ and select the applicable

encoder firmware file.

6. Click in the

Appendix D: Boot-up procedure

1. When an encoder comes out of reset, it reads its IP configuration

from a non-volatile memory.

2. If ‘Dynamic IP Address’ is set to (see ): the encoder

sets its IP address to the address stored in the config memory. Continue at

3. If ‘Dynamic IP Address’ is set to Enable (see chapter 7): the encoder

sends a DHCP Request packet with IP destination address 255.255.255.255,

i.e. IP broadcast, requesting its most recently used IP address.

4. If the network/subnet configuration has not changed, the DHCP server will

most likely send a DHCP ACK packet, allowing the encoder to continue to

use the same IP. The DHCP server may use either IP broadcast or

this packet; broadcast is however most commonly used. Continue at

5. If the DHCP server is unwilling to let the encoder use the same address as

before, or if the requested IP is out of scope, it sends a

6. The encoder resets its IP address to 0.0.0.0 and sends a DHCP Discover packet

with IP destination address 255.255.255.255;

7. If a DHCP server is available, it sends a DHCP Offer packet. Since the encoder

has no valid IP address, the DHCP server must send to IP destination

8. The encoder receives the offer and sends a DHCP Request packet, as in

above, but this time requests the IP address offered by the DHCP server.

9. The DHCP server sends a DHCP ACK packet, confirming that the encoder may

start using the new IP address. Unlike the ACK in step 4 above, this ACK

packet must be sent to IP destination address 255.255.255.255 (IP broadcast),

since the encoder has not got any confirmed IP address yet.

10.The encoder performs gratuitous ARP (Address Resolution Protocol) to ensure

that no other host has got the same IP.

11.If IP collision is detected, the encoder sends a DHCP Decline packet

refuses the assigned IP address and restarts the IP acquirement procedure for

12. New functionality, RFID encoder version 2.0.0 and later: If there is no DHCP

server available on the subnet, the encoder self-assigns an IP address from the

IPv4 Local Link address space (169.254.0.0/16), and sends gratuitous ARP to

ensure that no other host has got the same IP.

13. The encoder reads the most recently used Visionline server IP address and

tries to open a TCP connection to the server.

14. If the TCP connection attempt fails, the encoder will continue to try

connections to the same IP over and over again – unless it detects that the

network/subnet setup has changed, e.g. the encoder may have been moved to

a new location. Then it will send an application specific service discovery

request (announcement broadcast) with IP destination address

14 b. New functionality, RFID encoder version 2.0.0 and later: Even if the

network/subnet setup is unchanged, but long time (one hour) has elapsed

without any successful TCP connection with the Visionline server, the encoder

will start sending service discovery requests.

15. If a Visionline server is on the same subnet, or if another encoder with a valid

TCP connection to the server is on the subnet, they will send a reply to the

querying unit, letting it know the IP address and TCP port of the Visionline

server. The encoder then tries TCP connection to that IP.

15 b. New functionality, RFID encoder version 2.0.0 and later: From the payload

supplied in the reply (the reply is sent with IP destination address

255.255.255.255, IP broadcast), the querying unit can determine if its own IP

address properties are correct with respect to network class, default encoder IP

and subnet mask. If required, it will self-assign a new IP address within the

subnet specified in the reply, and then send gratuitous ARP to ensure that no

other host has got the same IP. Then it goes on and tries TCP connection to the

received server IP address.

16. New functionality, RFID encoder version 2.0.0 and later: Prior to sending the

service discovery request, the encoder tries to contact a DNS server (

Name System), with a request for resolving the most recently used

name. If that name is unknown to the DNS, the encoder tries to resolve the

factory default server host name. If any of the two names renders a successful

DNS reply, the encoder uses the IP address received from the DNS server, and

tries TCP connections to that address. If the factory default name is unknown

too, or if a DNS server is not available at all, the encoder sends a service

Note: 14/14 b, (15/15b) and 16 will go on in a round robin way until the encoder

has reached the server.

the server (Visionline only)

This appendix describes the process of how the encoder finds the server. The solution is

based on DNS (Domain Name System) as well as on announcement broadcast, which is a

proprietary implementation of zero config; see section 4.1.1 for details about

department. A general description of this cannot be made in this document, since this

varies with the type of DNS server that is used.

There are three challenges when the encoder is connected to the network:

1. A new encoder must be able to find the server even if it is located on a

2. The encoder must be able to locate a backup server in case the primary server

fails. The backup server is assumed to have the latest database from the

3. The above must be fulfilled even if there are multiple Visionline servers on the

To commission encoders:

Single server — to commission encoders with DNS

Multiple servers — to commission encoders with DNS

To commission encoders without DNS

To switch to backup server

Single server — to switch to backup server with DNS

Multiple servers — to switch to backup server with DNS

To switch to backup server without DNS

If the encoder is located on the same subnet as the server, the encoder will

locate the server using announcement broadcast without any need for manual

configuration. However, the normal case is that the server and the encoder are

located on different subnets. The first encoder for each subnet requires help

from the DNS to locate the server.

1. Add a DNS entry called timeloxserver and let its IP address be the address of

the Visionline server to which the new encoder shall connect. The encoder will

then make a DNS query using the name timeloxserver and in this way get the

IP address of the server.

2. Connect the encoder to Ethernet and wait for it to appear in the SysMon

In the steps below, it is necessary to know the Visionline system code. To find it,

double click on System settings in the Visionline navigation window.

1. For each Visionline server, add a new DNS entry with the system name for

the concerned server. The system name is timelox_12-character system code

without dashes, e.g.

2. In order to find the correct server at first installation, the encoders must be

installed for one server at a time.

3. Let timeloxserver refer to the IP address of the first Visionline server.

4. When all encoders have been installed for one server, the DNS entry for

timeloxserver must be changed to the IP address of the next server.

5. When all encoders for the last server have been installed, the

entry must be removed.

Note: Every set of encoders that is connected with a particular Visionline server will

receive the system name of that server, once connection to the server is established.

If an encoder for some reason needs to use DNS again in the future, the system

name (e.g. timelox_D124BD233D13) will «win» over the default name. When the

encoder makes a DNS request, the system name will connect it to the correct

1. Connect one encoder to each subnet. Use the web interface for the encoder to

configure the IP address of the Visionline server; see for details.

Note: This is only needed for the first encoder for each subnet, since the other

encoders on the same subnet will retrieve the server IP address from the first

2. Continue adding encoders. They will automatically obtain the IP address

of the Visionline server from the encoders on the same subnet that are already

online with the server.

1. Change the IP address of the timeloxserver entry in the DNS so it points to

the backup server. The encoders will then connect to the backup server if

the connection to the primary server is lost and cannot be re-established.

1. For the concerned Visionline server, change the IP adress of the system name

entry in the DNS so it points to the backup server. The encoders will then

connect to the backup server if the connection to the primary server is lost and

1. Remove the primary server from the network.

2. Assign the IP address of the primary server to the backup server

Enter the IP address of the backup server in the web interface for one encoder

per subnet. It will take one hour after the primary server closes its

sockets until the rest of the encoders enable their

Updated section Connecting via TCP/IP

Added information about the USBXpress driver

Updated screenshot ‘Select Firmware Files for

Added information about configuration utility

Updated web interface

Added chapter about reset

Updated Quick reference of technical data

information about PoE class 1 and maximum

current consumption for the encoder

Removed information about bootloader tool

Added appendix More about how the RFID

‘Emulate KDE’ is now implemented

Added information about VingCard Vision

Modified chapter about web interface

Modified chapter about installing USB Xpress

Added chapter about boot-up procedure

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What are the key card encoders used?

Key card encoders are usually made of high-quality materials, such as aluminum, and stainless steel, and are able to be used in high-quality materials. They are best fored keys and other key types of key encoders are made out of high-quality materials, such as aluminum, and stainless steel, and are composed of high-quality materials. Small key encoders and small key encoder are best fored keys and are made of high-quality materials such as aluminum, copper, and stainless steel. As their name suggests, key card encoders are made of high-quality materials, such as aluminum, and hard-to-reach plastic, and can be made from high-quality materials, and stainless steel. As key encoders, they are made of durable and high-

Key card encoders are commonly made of plastic and can be used to key different cards. However, there are other key encoders that are made of plastic, metal, and aluminum alloy and are available in a wide range of colors and designs. The most common key of encoders is commercial key encoders, and they are made of different types and design.

What is a key card?

Coders are small key cards that are transparent to pass the data onto a car’s door. They are made from higher-quality materials, such as aluminum, and stainless steel, and glass, and are used to protect your customers’ keys from other countries.

Key card encoders are made to different types of key cards. Aside from their name, key card encoders, small key card encoders, or portable key card machines. They are made from small key card characters, and are powered from a card-based key card encoder to mini key encoders.

VINGCARD RFID ENCODER

VINGCARD RFID ENCODER – можно купить на shopozz.ru с доставкой
из Stone Mountain, Georgia, US. Все товары из
категории «Кодировщики и ридеры карт» быстро и вовремя доставляются в Россию и страны СНГ.
Полную информацию о доставке можно посмотреть в разделе «Доставка».

На товары категории «Кодировщики и ридеры карт» действует доступная цена,
поэтому VINGCARD RFID ENCODER можно
приобрести всего за

70989 руб.
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