User Manual
Table Of Contents
- Legal Information
- Available Model
- Regulatory Information
- Safety Instruction
- Chapter 1 Preventive and Cautionary Tips
- Chapter 2 Product Description
- Chapter 3 Main Board Description
- Chapter 4 Terminal Description
- Chapter 5 Terminal Wiring
- Chapter 6 Settings
- Chapter 7 Activation
- Chapter 8 Client Software Configuration
- 8.1 Operation on Client Software
- 8.1.1 Add Device
- 8.1.2 Select Application Scenario
- 8.1.3 Configure Other Parameters
- 8.1.4 Manage Organization
- 8.1.5 Manage Person Information
- 8.1.6 Configure Schedule and Template
- 8.1.7 Manage Permission
- 8.1.8 Configure Advanced Functions
- Configure Access Control Parameters
- Configure Individual Authentication
- Configure Card Reader Authentication Mode and Schedule
- Configure Multiple Authentication
- Configure Opening Door with First Card
- Configure Anti-Passback
- Configure Cross-Controller Anti-passing Back
- Configure Multi-door Interlocking
- Configure Authentication Password
- Configure Custom Wiegand Rule
- 8.1.9 Search Access Control Event
- 8.1.10 Configure Access Control Alarm Linkage
- 8.1.11 Manage Access Control Point Status
- 8.1.12 Control Door during Live View
- 8.1.13 Display Access Control Point on E-map
- 8.2 Remote Configuration (Web)
- 8.3 Time and Attendance
- 8.1 Operation on Client Software
- Appendix A. Tips for Scanning Fingerprint
- Appendix B. DIP Switch Description
- Appendix C. Custom Wiegand Rule Descriptions
Even Parity Start Bit, and Length
If you select Even Parity, these items are available. If the even parity start bit is 12, and the length is
12, then the system will start even parity calculaon from bit 12. It will calculate 12 bits. The result
will be in the last bit.
XOR Parity Start Bit, Length per Group, and Total Length
If you select XOR Parity, these items are available. Depending on the table displayed above, the
start bit is 0, the length per group is 4, and the total length 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.)
Card ID Start Bit, Length, and Decimal Digit
If you use the transformaon rule, these items are available. Depending on the table displayed
above, 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 transformaon rule, these items are available. For detailed informaon, see the
explanaon of the card ID.
OEM Start Bit, Length, and Decimal Digit
If you use the transformaon rule, these items are available. For detailed informaon, see the
explanaon of the card ID.
Manufacturer Code Start Bit, Length, and Decimal Digit
If you use the transformaon rule, these items are available. Depending on the table displayed
above, 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.
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