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Important note:
As there are limitations for the 868 Mhz wireless network, be aware that the network can be overloaded if
there are many wireless events at the same time. For example, access request using a card, reader state
changes, reader pulse requests and upload of calamity cards at the same time. This could lead to delays, in
some cases to no access after presenting a card and/ or reader error messages in the iProtect log. To prevent
this is advised to use this solution on doors that are not often used, like doors to an office room or closet. For
doors that are often used like main entrance or department doors we advise a solution with non-wireless
readers.

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4.1 Configuring SimonsVoss WO Line

  1. Click in iProtect on the menu item “Installation” > “Hardware” > “Line”.

  2. Right-click in the browse window and select ‘add line’. The detail window opens.

  3. Enter the following data.
    Name: “specify a logical name”
    Type: Network device
    Host Type: Pluto
    Active: check
    Active with nodes: check
    Function of the line: Keyprocessor
    IP-address: Enter the IP address of the Pluto

  4. Save the data.

4.2 Configuring SimonsVoss WO node (by import)

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NOTE Please see the SimonsVoss WO manual how to configure handles and cylinders with the
Smartintego Manager software.

  1. Click on configuration data at the SimonsVoss Smartintego Manager software at “file”> “export”.

  2. Save the .csv file.

  3. When using more than 1 Pluto the .csv file needs to be split into a separate import file per Pluto containing:
    a. The Gateway nodes for a specific Pluto
    b. The Lock nodes for a specific Pluto

  4. Click in iProtect at the menu item “installation” > “hardware” > “line”.

  5. Click on the desired Pluto created at chapter 5.1.

  6. Click on “upload” and select the saved .csv file.

  7. Click on “import”.

  8. When an AES encryption key is programmed in the SV gateway node the exact same key needs to be
    entered at the “password” section of the node details in iProtect.
    The import automatically generates programmed Gateway Nodes and Locks. Automatically the following
    names will be generated:

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4.3 Configuring card data interpretation

Depending on the card coding (chapter 4.2), the used card data interpretation needs to be modified for
SimonsVoss WO usage.

  1. Click in iProtect on the menu item “access”> “settings” > “card coding” > “card data presentation”.

4.3.1 If UID 4 Byte

For UID 4 byte, an extra card data interpretation is needed underneath the default UID 4 byte presentation.
Default card data interpretation name: “32 bit number DECIMAL”

  1. Enter the following data at format:
    · Reader communication protocol = Hexadecimal
    · Data length: 8

  2. Enter the following data at card number:
    · Start: 1
    · Length: 8

  3. Enter the following data at SV WO:
    · Length calamity card: 4
    · Calamity card setup number: 0
    · Byteswap:
    o checked for straight
    o unchecked for byteswap (default)

4.3.2 If UID 7 Byte

For UID 7 byte, an extra card data interpretation is needed underneath the default UID 7 byte presentation.
Default card data interpretation name: “32 bit number DECIMAL”

  1. Enter the following data at format:
    · Reader communication protocol = Hexadecimal
    · Data length = 14

  2. Enter the following data at card number:
    · Start 1
    · Length 14

  3. Enter the following data at SV WO:
    · Length calamity card = 7
    · Calamity card setup number = 0
    · Byteswap:
    o checked for straight
    o unchecked for byteswap (default)

4.3.3 If TKH Security Mifare Classic

For Mifare Classic, an extra card data interpretation is needed underneath the default KP Mifare classic
presentation.
Default card data interpretation name: “KP Magstripe”

  1. Enter the following data at format:
    · Reader communication protocol = Hexadecimal
    · Data length: 12

  2. Enter the following data at system code:
    · Start: 1
    · Length: 4
    · Code: Hexadecimal system code

  3. Enter the following data at card number:
    · Start: 9
    · Length: 4
    · Modulo and offset can be used if programmed on the card

  4. Enter the following data on SV WO:
    · Length calamity card: 6
    · Calamity card setup number: 0
    · Byteswap: checked

4.3.4 If TKH Security DESFire

IFor DESFire an adjustment of the default KP DESFire interpretation is needed.
Default card data interpretation name: “KP DESFire”

  1. Enter the following data at SV WO:
    · Whitelist bytes = 6
    · Calamity card setup number:

  • When the “TKH_security_default_cardconfig_MF_DES.ikt” is used: 1

  • When the cardcoding is manually entered: 0
    · Byteswap = checked

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