Configure Wiegand Parameters

Configure Wiegand Parameters

Based on the knowledge of uploading rule for the third-party Wiegand, you can configure Wiegand parameter to communicate between the device and the third-party card readers.

Wire the third-party card readers to the access control device.

Note:

  • By default, the device disables the custom Wiegand function. If the device enables the custom Wiegand function, all wiegand interfaces in the device will use the customized wiegand protocol.

  • Up to 5 custom Wiegands can be set.

  1. Click Physical View on the Home page, and then select Access Control Device.
  2. Click to enter the remote configuration page.
  3. Set the Custom Wiegand switch to on.

    The Wiegand parameters appear.

  4. Configure the Wiegand parameters.
    Total Length

    Wiegand data length.

    Parity Type

    Set the valid parity for Wiegand data according to property of the third party card reader. You can select Nothing,Odd Even Check or XOR Parity.

    If you select Odd Even Check, you can configure the followings:
    Odd Start, Length

    If the odd parity start bit is 1, and the length is 12, then the system will start odd parity calculation from bit 1. It will calculate 12 bits. The result will be in bit 0. (Bit 0 is the first bit.)

    Even Start, Length

    If the even parity start bit is 12, and the length is 12, then the system will start even parity calculation from bit 12. It will calculate 12 bits. The result will be in the last bit.

    If you select XOR Parity, you can configure the followings:
    XOR Parity Start Bit, Length per Group, Length for Parity

    Depending on the table displayed below, the start bit is 0, the length per group is 4, and the length for parity is 40. It means that the system will calculate from bit 0, calculate every 4 bit, and calculate 40 bits in total (10 groups in total). The result will be in the last 4 bits. (The result length is the same as the length per group.)

    Output Rule

    Set the output rule.

    Card ID Start Bit, Length, and Decimal Digit

    If you use the transformation rule, these items are available. Depending on the table displayed below, the card ID start bit is 0, the length is 32, and the decimal digit is 10. It represents that from bit 0, there are 32 bits represent the card ID. (The length here is calculated by bit.) And the decimal digit length is 10 bits.

    Site Code Start Bit, Length, and Decimal Digit

    If you use the transformation rule, these items are available. For detailed information, see the explanation of the card ID.

    OEM Start Bit, Length, and Decimal Digit

    If you use the transformation rule, these items are available. For detailed information, see the explanation of the card ID.

    Manufacturer Code Start Bit, Length, and Decimal Digit

    If you use the transformation rule, these items are available. Depending on the table displayed below, the manufacturer code start bit is 32, length is 8, and decimal digit is 3. It represents that from bit 32, there are 8 bits are manufacturer code. (The length here is calculated by bit.) And the decimal length is 3.

    Note:

    Take Wiegand 44 as an example, the setting values in the Custom Wiegand are as follows:

    Custom Wiegand Name

    Wiegand 44

    Total Length

    44

    Transformation Rule (Decimal Digit)

    byFormatRule[4]=[1][4][0][0]

    Parity Type

    XOR Parity

    Odd Parity Start Bit

    		  

    Length

    		  

    Even Parity Start Bit

    		  

    Length

    		      

    XOR Parity Start Bit

    0

    Length per Group

    4

    Total Length

    40

    Card ID Start Bit

    0

    Length

    32

    Decimal Digit

    10

    Site Code Start Bit

    		  

    Length

    		  

    Decimal Digit

    		  

    OEM Start Bit

    		  

    Length

    		  

    Decimal Digit

    		  

    Manufacturer Code Start Bit

    32

    Length

    8

    Decimal Digit

    3

Configure Wiegand Parameters

Based on the knowledge of uploading rule for the third-party Wiegand, you can configure Wiegand parameter to communicate between the device and the third-party card readers.

Wire the third-party card readers to the access control device.

Note:

  • By default, the device disables the custom Wiegand function. If the device enables the custom Wiegand function, all wiegand interfaces in the device will use the customized wiegand protocol.

  • Up to 5 custom Wiegands can be set.

  1. Click Physical View on the Home page, and then select Access Control Device.
  2. Click to enter the remote configuration page.
  3. Set the Custom Wiegand switch to on.

    The Wiegand parameters appear.

  4. Configure the Wiegand parameters.
    Total Length

    Wiegand data length.

    Parity Type

    Set the valid parity for Wiegand data according to property of the third party card reader. You can select Nothing,Odd Even Check or XOR Parity.

    If you select Odd Even Check, you can configure the followings:
    Odd Start, Length

    If the odd parity start bit is 1, and the length is 12, then the system will start odd parity calculation from bit 1. It will calculate 12 bits. The result will be in bit 0. (Bit 0 is the first bit.)

    Even Start, Length

    If the even parity start bit is 12, and the length is 12, then the system will start even parity calculation from bit 12. It will calculate 12 bits. The result will be in the last bit.

    If you select XOR Parity, you can configure the followings:
    XOR Parity Start Bit, Length per Group, Length for Parity

    Depending on the table displayed below, the start bit is 0, the length per group is 4, and the length for parity is 40. It means that the system will calculate from bit 0, calculate every 4 bit, and calculate 40 bits in total (10 groups in total). The result will be in the last 4 bits. (The result length is the same as the length per group.)

    Output Rule

    Set the output rule.

    Card ID Start Bit, Length, and Decimal Digit

    If you use the transformation rule, these items are available. Depending on the table displayed below, the card ID start bit is 0, the length is 32, and the decimal digit is 10. It represents that from bit 0, there are 32 bits represent the card ID. (The length here is calculated by bit.) And the decimal digit length is 10 bits.

    Site Code Start Bit, Length, and Decimal Digit

    If you use the transformation rule, these items are available. For detailed information, see the explanation of the card ID.

    OEM Start Bit, Length, and Decimal Digit

    If you use the transformation rule, these items are available. For detailed information, see the explanation of the card ID.

    Manufacturer Code Start Bit, Length, and Decimal Digit

    If you use the transformation rule, these items are available. Depending on the table displayed below, the manufacturer code start bit is 32, length is 8, and decimal digit is 3. It represents that from bit 32, there are 8 bits are manufacturer code. (The length here is calculated by bit.) And the decimal length is 3.

    Note:

    Take Wiegand 44 as an example, the setting values in the Custom Wiegand are as follows:

    Custom Wiegand Name

    Wiegand 44

    Total Length

    44

    Transformation Rule (Decimal Digit)

    byFormatRule[4]=[1][4][0][0]

    Parity Type

    XOR Parity

    Odd Parity Start Bit

    		  

    Length

    		  

    Even Parity Start Bit

    		  

    Length

    		      

    XOR Parity Start Bit

    0

    Length per Group

    4

    Total Length

    40

    Card ID Start Bit

    0

    Length

    32

    Decimal Digit

    10

    Site Code Start Bit

    		  

    Length

    		  

    Decimal Digit

    		  

    OEM Start Bit

    		  

    Length

    		  

    Decimal Digit

    		  

    Manufacturer Code Start Bit

    32

    Length

    8

    Decimal Digit

    3