XMINNOV
Contains a 2.8-inch touch screen, 1300mAh battery, can be used offline for more than 6 hours
TX/RX mode measurement, can measure complete S11 and S21 parameters
If you need to obtain S12 and S22, you need to manually replace the wiring of the transceiver port.
PCB: 54mm x 85.5mm (excluding protruding parts such as connectors and switches)
ABS shell: 58.7mm x 91.3mm x 18mm (excluding protruding parts)
Measurement frequency: 10KHz ~ 1.5GHz
RF output: 0dbm (±2dB, fundamental wave)
Frequency accuracy:<2ppm
Frequency stability:<0.5ppm
Measuring range: 70dB(50kHz-300MHz),(60dB (300M-900MHz), 40dB (0.9G-1.5GHz));
Port SWR: < 1.1
Display: 2.8 inch TFT (320 x240)
USB interface: USB type-C Communication mode: CDC (serial)
Power supply: USB 5V 130mA, built-in 1300mAh battery, maximum charging current 300mA
Number of scanning points: up to 101 (optional), unlimited when connected to a PC
Scan point speed: >400 p/s
(RBW=4000Hz), Display Tracking: 4, Marker: 8, Setting Save: 5
An LF (Low Frequency) ID IC NFC tag performance tester is a device used to evaluate the performance and functionality of LF ID IC NFC tags. It helps verify the readability, data transfer, and other characteristics of these tags. The tester typically provides a range of tests and measurements to assess the tag's performance and ensure its compliance with relevant standards.
Here are some key features and capabilities of an LF ID IC NFC tag performance tester:
1. Frequency Range: LF ID IC NFC tags operate at low frequencies, typically around 125 kHz. The performance tester is designed to work within this frequency range to communicate with and evaluate the tags.
2. Readability and Range: The tester allows for the verification of tag readability by assessing the range at which it can be detected and read by an NFC reader. It helps determine the maximum distance at which the tag can be reliably detected and read.
3. Data Transfer Speed: The tester measures the data transfer speed between the tag and the reader, assessing the efficiency and reliability of data communication. It helps ensure that the tag can transmit data accurately and within an acceptable time frame.
4. Signal Strength and Quality: The tester evaluates the signal strength and quality of the communication between the tag and the reader. It measures parameters such as signal strength, signal-to-noise ratio, and bit error rate to assess the overall performance of the tag.
5. Protocol Compliance: The tester checks whether the LF ID IC NFC tag complies with relevant protocols and standards. It verifies if the tag operates within the defined frequency range, modulation schemes, and communication protocols, ensuring compatibility with NFC readers and other devices.
6. Data Integrity: The tester assesses the integrity of the data stored on the tag. It can perform read and write operations to verify that the data is accurately read from and written to the tag without errors or corruption.
7. Test Reporting: The tester typically provides test reporting capabilities, allowing users to generate reports summarizing the test results and performance metrics of the LF ID IC NFC tag. These reports can be used for documentation, quality control, and troubleshooting purposes.
An LF ID IC NFC tag performance tester is a valuable tool for manufacturers, developers, and quality control personnel working with LF ID IC NFC tags. It helps ensure the proper functioning, reliability, and compliance of these tags in various applications, including access control, asset tracking, and identification systems.
$6500
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$0.0
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$380
