Yanzeo Ultra High Frequency RFID Reader User Manual

1. Product Introduction

1.1. Parameters

• ISO18000-6C (EPC C1G2) protocol
• 860~960MHz frequency band
• USB HID drive free
• Supports virtual disk and serial port
• Working voltage: USB interface 5V or (9-12) V power supply
• Current of operation: < 400mA
• Reading range: depending on the model
• Interface support:
  • Basic version: RS485, WG, USB, BLE
  • Network version: RS485, WG, USB, BLE, RELAY, RJ45

1.2. Applications

• Logistics and warehouse management: logistics, warehouse management, and flow management of mail, packages, and baggage.
• Intelligent Parking management: parking management and automatic charging.
• Production line management: fixed identification of production process.
• Product anti-counterfeit detection: identify the authenticity of the product by using the write protection function of the memory in the label.
• Other fields: widely used in club management, libraries, student schools, consumption management, time management, dinner management.

2. Wiring Definition

2.1 Basic version(1): RS485+WG+USB

Diagrams show pinouts for USB, +12V, GND, 485-, 485+, D0, D1, and Trig, along with corresponding USB cables.

2.2 Basic version(2): RELAY+WG+USB

Diagrams show pinouts for USB, NO, COM, Trig, +12V, GND, D0, D1, along with corresponding USB cables.

2.3 Web version (full function): RS485, WG, USB, BLE, RELAY, RJ45

Diagram shows standard configuration interfaces including USB/RS485/WG26/TCP/IP/RELAY. It also shows connections for DC 12V input, LAN, NO, COM, USB (D0, D1, Trig, +12V, GND, 485-, 485+), and RJ45.

3. Schematic Diagram of the Reader Connected to the Controller

TCP/IP Network Access Control B Series

Access Control System Provider

TCP/IP turnstile access controller wiring diagram explanation:

• Card Reader to Access Controller: Use 8-core multi-strand twisted-pair shielded cable. Connect 12V+, GND, GREEN for DO, White for D1, Blue for LED/BUZZER. Cable diameter > 0.5mm. Distance < 60 meters. Shield line for access control's GND.
• Release Button to Access Controller: Use 2-core line, diameter > 0.3mm. Can use 2 lines of 8-core network line.
• Turnstile to Controller: Use 2-core power supply line, diameter > 1mm. If distance > 50 meters, use thicker line or multiple lines for 12V and GND.
• Door Sensor to Access Controller: Use 2-core line, diameter > 0.3mm.

How to reset access controller:

1. Hardware reset: Use a sharp object to press the reset pole for 4 seconds. After hearing beeps, release and repower the controller.
2. Software reset: Open software, right-click controller icon, select device, then reset access controller.

Diagram shows a typical setup with a display, voice, management terminal, switch, turnstile entry/exit, DC 12V input, 12V power supply, 12V output, intelligent control system, fire alarm, stop button, reader output, and reader input. It details connections for USB, RS485, Ethernet (RJ45), and various input/output ports.

IP Address: The default IP address is on the controller's label. It reverts to default after a hardware reset.

How to modify the IP address:

1. Ensure the computer's IP address is on the same network as the controller.
2. Open a browser, enter the default IP address.
3. Log in with the default username (admin) and password (888888).
4. Modify the IP address and gateway in the network settings interface.
5. Save and restart the controller.

4. Installation Instructions

The reading head is installed on a rod or column using a fixed bracket. Adjust height and angle for optimal recognition. Recommended installation height is 2-2.5 meters, with an angle of 60-75 degrees. (See diagram showing UHF Reader, height adjustment, angle adjustment, and anti-passback with a car).

5. Operating Instructions

5.1 Card Reader Test

Connect the machine to a +12V power supply. Upon startup, the red light turns on, and the buzzer rings twice, indicating successful initialization.

Card Test: Place a user card in the machine's card area. The buzzer will sound once, and card data will be output via Wiegand, RS485, or network data line.

To modify the reader's working mode, RF power, or read card interval, connect the computer via USB to use the Demo software for customization.

5.2 Software Operation

5.2.1 Download Address

Download the software from www.yanzeo.com.

Notes:

• The software currently supports WINDOWS and Android systems.
• Do not place RFID tags within the device's identification range while setting parameters to avoid failure.
• When outputting RFID tag numbers, refer to the following for different forms:
  • Decimal (Dec) = 123456
  • Hexadecimal (Hex) = 1E240
  • Wiegand value = 001,57920 (split hexadecimal 1 E240 to decimal number 001,57920). If the output is too short, add a leading zero.

5.3 Operating Instructions

5.3.1 Connecting Devices

There are three connection methods: USB, serial port, and network port.

① USB Interface Connection

Plug the device into the computer's USB port. A driver installation prompt will appear. After successful installation, the device will be listed under the 'Keyboard' option in Device Manager.

Diagrams show the driver installation prompts and the Device Manager window listing the connected USB devices.

② Serial Port Interface Connection

The SA series has an RS485 port. If the computer has an RS485 port, direct connection is possible. Otherwise, use an RS485 to USB converter.

Diagrams show RS485 to RS232 and RS485 to USB converters.

When a converter is connected, the computer will prompt for driver installation. After installation, a serial port (e.g., COM3) will appear in Device Manager.

The serial port disappears when the converter is unplugged. If the computer has a built-in serial port, no driver installation is needed.

③ Network Port Interface Connection

Connect directly to the computer using a network cable or indirectly through a router.

5.3.2 Connection

Download and unzip the software (RFIDDemo). Double-click the software icon to open it. The main screen will appear.

The software interface shows options for USB, NET, and Serial interfaces, along with connection settings and a log window.

Attentions:

• Do not place RFID tags within the device's identification range when setting parameters, as it may lead to failure.
• If problems occur, try restoring factory settings first.

There are three types of communication parameter configurations: USB, serial, and network port. Choose the correct configuration for connection.

① USB Communication

After confirming the USB device is plugged in, select USB communication. If the USB device is empty, check the USB cable connection and press 'Refresh(F5)'. Select the USB device and click 'CONNECT'.

Software interface screenshot showing USB connection settings.

③ Network Port Communication

Ensure the network connection is stable (wired or wireless) and select network port communication.

Software interface screenshot showing NET Interface selection.

Select the correct remote IP address and port of the device. Click 'Ping'. A success message indicates a successful connection.

Screenshots show successful and timed-out ping results.

Causes of connection failure:

• Incorrect network connection.
• Wrong IP address or port. Use 'Search device' to find connected devices and reconfigure network parameters (IP address, TCPIP, UDPIP, gateway). Ensure IP address is on the same gateway and not duplicated.

Screenshots show device search and network parameter configuration.

④ CONNECT:

After configuring the communication method, click the 'CONNECT' button.

The software provides several function buttons: READ DEMO, BASE SETTINGS, SENIOR SETTINGS, CUSTOM SETTINGS, EPC(GEN2) READ&WRITE, ELSE SETTINGS.

Screenshot of the main software interface with various tabs and a log window.

5.3.3 Card Reading Demonstration

1. After connecting online, the 'Card Reading Demonstration' interface appears.
2. If using USB connection, change the communication mode to 'USB_HID' in the basic parameters page.
3. Place the RFID tag within the recognition range. Tag information will be displayed in the text field.

Screenshots show the 'Card Reading Demonstration' interface and the 'Basic Parameters Control' with 'USB_HID' selected. Another screenshot shows tag data being read.

5.3.4 Basic Parameter Setting

Click the 'BASE SETTINGS' button.

Screenshots show the 'Basic Parameters Control' interface with various settings like Byte Offset, Out Interval, Pulse Width, Pulse Period, Work Mode, Read Type, Read Interval, Output Mode, Same ID interval, and Buzzer.

Different communication modes have different configurations. For USB communication, set 'Output Mode' to 'USB_HID'.

5.3.4.1

Mode of communication: Select the communication mode between the device and the external device.

Mode of work: Three modes: response, active, and passive.

• Reply mode: Device does not actively read cards; requires commands.
• Active mode: Device actively reads cards when powered on and sends data to the interface.
• Passive mode: Device actively reads cards when powered on but does not send data; requires commands to receive data.

Same ID output interval: Time interval for uploading data of the same tag.

Buzzer: Can be turned on or off.

Automatic read type: Type of output tag data (EPC number or TID number).

Automatic read interval: Interval between two reads of tag data.

Automatic read delay: Delay time after reading tag data before sending it to the interface.

5.3.4.2 The reader WG26 communication sets the last 3 bytes of the read

1. Change output mode to WG26 (for card readers SA810, SR791, SR691, SR681, SR3308 etc.).
2. Set Byte offset to 11 bytes.

Screenshot of 'Basic Parameters Control' with WG26 output mode and 11-byte offset.

5.3.4.3 The reader WG26 communication is set to read the first 3 bytes

1. Change output mode to WG26.
2. Set Byte offset to 2 bytes.

Screenshot of 'Basic Parameters Control' with WG26 output mode and 2-byte offset.

5.3.4.4 The reader WG34 communication sets the last 4 bytes of reading

1. Change output mode to WG34.
2. Set Byte offset to 10 bytes.

Screenshot of 'Basic Parameters Control' with WG34 output mode and 10-byte offset.

5.3.4.5 The reader WG34 communication is set to read the first 4 bytes

1. Change output mode to WG34.
2. Set Byte offset to 2 bytes.

Screenshot of 'Basic Parameters Control' with WG34 output mode and 2-byte offset.

5.3.4.6 Modify the same ID output interval time

Screenshot showing settings for modifying the same ID output interval time.

5.3.4.7 Modify the card read interval time

Screenshot showing settings for modifying the card read interval time.

5.3.4.8 Modify the reading sound

Screenshot showing settings for modifying the reading sound (Enabled/Disabled).

5.3.4.9 Select the type of card to read

Screenshot showing options to select card read types like 6B, 6C, 6C+Data, etc.

5.3.5 Advanced Parameter Settings

5.3.5.1 Modify Operating Frequency

After connection, go to Advanced Settings - RF Settings.

Screenshots show the RF Settings interface with options for Region, RF Transmitter Control, and Out Power.

5.3.5.2 Modify the Transmit Power (Adjustment Distance)

Transmit power size ranges from 0-33DBM, affecting the RFID tag identification distance.

Screenshot shows the RF Settings interface with transmit power options.

5.3.6 Custom Parameters

5.3.6.1

Device ID: Unique ID, cannot be modified.

Protocol Address: Address used in RS485 communication, can be modified.

Screenshot of the 'Protocol Address Control' interface.

5.3.6.2 Turn on the Relay

After connecting, set it in ELSE SETTINGS -- GPIO Settings.

Screenshot of the 'GPIO Settings' interface showing relay control options.

5.3.6.3 Open Trigger Read Card

After connecting, set it in ELSE SETTINGS -- GPIO Settings.

5.3.6.4 The Card Reader is Encrypted

After connecting, set it in ELSE SETTINGS -- Encryption Settings, select 'CRC' Encryption.

Screenshots show the 'Encryption Settings' interface with options for DisEnable, Pair Encryption, CRC Encryption, and ACCESS Encryption.

Note 1: SA/SR series card readers can only encrypt the card reader. For tag encryption, use a card issuer like SR3308. Refer to other encrypted information.