*Sirius i80(P)

Installation Manual | IM-20210309-TP-03

Access Control | Readers | Sirius Card Readers |

This manual represents the knowledge at the above-mentioned time. TKH security works non-stop to improve her products. For the most recent technical information please contact your consultant or dealer.


1 The product

The Sirius i-series card reader is a versatile card reader which supports multiple card technologies and communication protocols. In addition, this card reader is able to support different technologies simultaneously like Mifare classic and DESFire EV1.

This manual provides the necessary information concerning the installation instructions, mounting and use of the card reader which is supplied as standard.

The Sirius i-series card reader:

1.1 Sticker i-serie

On the back of the card reader a sticker placed.
This sticker features a QR code.
After scanning this QR code, all necessary information will be downloaded automatically.

 

1.2 Spacers

The spacer is designed for the following purpose. It can make the card reader more robust for external influences but it can also be useful when installing the Sirius card reader on existing plants.

801-6120: Sirius i80(p) Spacer
801-6121: Outside mounting spacer

1.3 Reader configuration

1.3 Reader configuration

When using the Sirius i-serie, the following LEGIC configuration is possible. The configuration is described in the paragraph below.

Remark: For more information about the additional options, please contact your contact at TKH Security.

Remark: The Sirius-i80/P (Pincode) card reader will only work in combination with a Polyx door controller.

1.3.1 Polyx/Orbit Mifare- MifareDesfire

Part number: 801-5101

Standard communication:

  • A Polyx based on RS485

  • An Orbit based on Clock/Data - MIFARE Classic & MIFARE DESFire EV1(coded)

Output length when using Clock/Data:

  • When using Mifare Classic, the output length is 8 digits

  • When using Mifare DESFire, the output length is 12 digits

Standard LED function:

  • When the reader is provided with power, the LED color is Red.

  • When the LED connection is switched to GND, the LED color is Green

Standard IO function:

  • When using Mifare Classic, the output length is 8 digits

  • A standard configured card reader does not use the extra IO functionality. When this function is needed, you need to order another card reader. See chapter 1.3.3 & 1.3.4

Programmable:

  • The card reader is not programmable.

1.3.2 Chip Serie nummer (CSN)

Part number:

  • I80 801-5112

  • I80p 801-5122

Default Card reader protocol:

  • An Orbit based on Clock/Data.

Output length based on Clock/Data:

  • The length of the Chip Serial Number (CSN) is 4 byte swapped (10 digits decimal)

Attention! When using a 7 byte (random) CSN, the card reader must communicate with a Polyxâ„¢. In this case you need to order another card reader. See chapter 1.2.3 & 1.2.4

Standard LED function:

  • When the reader is provided with power, the LED color is Red.

  • When the LED connection is switched to GND, the LED color is Green

Standard IO function:

  • A standard configured card reader does not use the extra IO functionality. When this function is needed, you need to order another card reader. See chapter 1.2.3 & 1.2.4

Programmable:

  • The card reader is not programmable.

1.3.3 Sirius i-80 programmable using configuration cardsv

Part number: 801-5113

  • After connecting the Power to the card reader, the LED turns blue / purple. A configuration card is needed to turn the reader in operational mode.

  • You can order a configuration card via TKH Security. To create 'custom' configuration cards extra costs will be calculated.

1.3.4 Sirius i-80 programmable using PS application and configuration cards

Part number: 501-5114

  • After connecting the Power to the card reader, the LED turns blue / purple. A configuration card is needed to turn the reader in operational mode.

  • The card reader is fully programmable using a PC application and you’re able to create your own configuration cards.


2 Installation and use

By the use of ferrite, the card reader is less sensitive to be installed on a metal surface. When the reading distance on a metal surface is not as whished, a Spacers can be placed.

2.1 Location

  • Determine the location where the Sirius card reader should be installed. There is a maximum cable length between the reader and door controller.

  • Exception: using an external power supply, you can increase the achievable distance between the door controller and card reader.

  • Install the reader with a minimum lateral distance of 20 cm from each other.

2.2 Mounting instructions

Mount the card reader preferably on an outlet

  • Pull the cable through the mounting plate of the Sirius reader.

  • The screw hole of the card reader should be placed on the underside.

  • Mount the back plate of the card reader to the outlet, using the existing screws.

  • When not removed, remove the orange colored film of the Buzzer

  • Click the front of the card reader at the top of the mounting plate

  • Attach the front of the card reader to the mounting plate with the supplied 'special mounting bolts.

2.3 Use of the i80/P

When entering the PIN code, the finger must be released at least 1 cm from the panel before the next digit is entered.


3 Connection

Remark! Depending on the configuration of the card reader, the inputs and outputs of the
card reader can be used.

Remark! Depending on the configuration of the card reader, the inputs and outputs of the
card reader can be used.

3.1 Sirius i80 connector lay-out

  • Connect the cable as shown in this chapter

The reader accepts a supply voltage of 5.0 - 16.0 VDC.
A higher input voltage results in a lower power consumption and provide cost-effective wiring with a smaller diameter of the conductor.
When using an external power supply, it must comply with the SELV guidelines.

3.2 If door controller Polyxâ„¢

The Sirius card reader can be connected in two ways with the Polyx â„¢: directly or by using an Adapterboard

For optimal communication, it is recommended to have the latest version of one of the following operating system

  • 2.6 JFSS2

  • 3.3 UbiFS

Remark! Browse to the polyx to see the version information.

3.2.1 Direct connection (RS485)

Recommended cable type between a Polyx and the Sirius card reader is: (see chapter 4.1 for more information)

  • CAT5 UTP four twisted pairs of 24AWG copper conductors

  • CAT6 UTP four twisted pairs of 24AWG copper conductors

A direct connection (without using an Adapterboard) between the Sirius card reader and a Polyxâ„¢ is NOT possible when:

  • Sirius and Polyxâ„¢ are installed in different buildings and thus the connection leaves the building or

  • the wiring is no UTP cable (CAT5 or CAT6) or

  • an existing (non UTP) cable is reused or

  • overvoltage protection for the card reader is required or

  • An external power supply is required for the card reader.

If any of the above conditions applies, see section 3.2.2.

Polyx, directly connected to a Sirius card reader:

3.2.2 Connection using an Adapterboard

Recommended cable type between a Polyx and the Sirius card reader, using an Adapterboard is:

  • Shielded cable with twisted pairs

If a direct connection is not possible, an Adapterboard must be placed between Polyx and the Sirius card reader.
Adapterboard and Polyx are connected with a default UTP cat5 cable (or higher) (plug connection).

Connecting wires as shown in the diagrams below.

  • Connect GND of the Adapterboard to the local Earth.

  • Connect the shield of the ground cable to the GND connection of the Adapterboard.

Do not place any jumpers! For more information see the Adapterboard manual.

Possible connections of the card reader Sirius on the Adapterboard

3.3 If door controller Orbit

Recommended cable type between the Orbit and Sirius card reader:

  • CKY 3x2x0,14mm²

  • CKY 4x2x0,14mm²

  • CAT5 UTP four twisted pairs of 24AWG copper conductors

  • CAT6 UTP four twisted pairs of 24AWG copper conductors

3.3.1 Connecting with UTP cable

3.3.2 Connection with CKY 3x2x0,14mm²


4 Technical data

4.1 Cabel specifications

Cable specifications (non-shielded)

4.1.1 Data signal Clock/Data

Cable specifications (non-shielded)

4.1.2 Data signal Wiegand

4.1.3 Data signal RS485

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