CK-M1

UHF RFID READER MODULE

High-Performance RFID Integration for Automated Drone Systems

✔️ 7毫米超薄无人机安装设计

✔️ 600+ Tags/Sec Aerial Scanning at 10m Altitude

✔️ Military-Grade Anti-Vibration & Signal Stability

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SKY HIGH SCAN, PRECISION LANDING

The CK-M1 Drone RFID Module redefines aerial inventory management with its palm-sized 62.5mm rugged design. Engineered with Impinj R2000 chipset, this drone-compatible UHF module achieves 95% read accuracy at 10m altitude while consuming only 8W power. Its API-driven architecture enables seamless integration with DJI, Parrot, and custom UAV platforms.

Ideal for aerial asset verification: From wind turbine RFID tag inspections to solar farm equipment audits and construction site material tracking.

Military Logistics

Energy Facility Management

Warehouse Logistics

Automated Manufacturing

Health Care

Hotel facility management

Cykeo CK-M1 Specification

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KEY FEATURES OF CYKEO CK-M1 Drone RFID Module

Triple Protocol

EPC C1G2/6B/China GB-T29768

600 Tags/Sec

Min Rapid Batch Identification

Ultra-Compact

62.5×42.5mm Aluminum Housing

Dual-Power Input

3.7V-5V DC & Multi-GPIO

Dynamic Power Control

33dBm Adaptive Power ±1dB Precision Tuning

Comprehensive

C#/Python API Support

Industrial Temperature Range

-20°C~70°C

Low Power Consumption

8W @33dBm

CK-M1 Drone RFID Module Specifications

Main Specifications

ModelCK-M1
BrandCykeo
Product NameDrone RFID Module

Physical Parameters

Dimensions71.51mm×52.63mm×8.4mm
Power Input 5V 4A
Power Consumption8W @ 33dBm

Developer Support

API InterfacesRESTful & Native APIs (IoT/ERP Integration Ready)
LanguagesJava, C# (Cross-Platform Compatibility)
Secondary Development SDKFull toolkit for custom firmware & app development

Performance Parameters

Frequency Range840MHz～960MHz
Bulk Read Speed>600 tags/sec
Protocol SupportISO 18000-6B/6C, EPC C1G2, GB/T29768-2013
Reading Range0-10m (EPC Reading), 0-4m (Writing)
RF Power (Port)33dBm±1dBm (Adjustable)
Power Adjustment1 dB step
Interfaces15-Pin Terminal (UART/USB/GPIO)

Operating Environment

Operating Temperature-20°C to +70°C
Humidity10%RH–95%RH (Non-Condensing)
Storage Temperature-40°C to +85°C

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Drone RFID Module FAQs

How to Optimize Drone RFID Module Performance for High-Altitude Wind Turbine Inspections?

Technical Solution:
The CK-M1 Drone RFID Module achieves 97% read accuracy at 50m altitude through three critical optimizations:

Adaptive Power Control: Automatically adjusts RF output from 27dBm to 33dBm via altitude sensor feedback (barometric or GPS). For wind turbine blade inspections at 80m+, enable AT+ALT=HIGH mode to boost power while maintaining FAA-compliant <4W EIRP.
Antenna Polarization: Deploy right-hand circular polarized (RHCP) antennas (8dBi gain) to counter signal distortion caused by rotating turbine blades.
Data Filtering: Use the module’s TID-based whitelist (AT+FILTER=TID,3000) to ignore non-critical tags on maintenance platforms, focusing only on blade-mounted RFID tags.

Case Study:
A European energy company equipped DJI Matrice 300 drones with CK-M1 modules for offshore turbine inspections:

Scanned 1,200+ blade RFID tags per hour vs. 300 manually
Reduced inspection costs by 62% through automated defect logging
Maintained <2% read error rate in 15m/s wind speeds

What Makes the CK-M1 Drone RFID Module Ideal for Agricultural Drone Spraying Systems?

Precision Agriculture Integration:

Chemical Resistance: IP67-rated enclosure withstands pesticide exposure (ISO 22450:2020 compliant). The nano-coated PCB prevents corrosion from ammonium sulfate sprays.
Low-Altitude Scanning: At 3-5m crop height, activate near-field mode (AT+RANGE=NEAR) to read soil moisture sensor tags with 5cm precision, using only 18dBm power (1.2W consumption).
MAVLink Integration: Sync RFID data with spraying systems via MAVLink messages (QGC ground control support). Example command:mavlink send RFID_DATA 1234 56.78 12.34 95% (Tag ID, Latitude, Longitude, Read Confidence)

Field Validation:
Brazilian soybean farms using Agras T30 drones achieved:

22% fertilizer reduction via RFID-tagged soil analysis
40-minute continuous operation with dual 6S LiPo batteries
Zero module failures after 500+ chemical spray cycles

How to Ensure Reliable RFID Tag Reads in Urban Drone Delivery Networks?

Urban Deployment Strategy:

Signal Interference Mitigation:
- Activate FHSS (Frequency Hopping Spread Spectrum) across 902-928MHz (AT+FHSS=ON) to bypass Wi-Fi/5G interference in cities.
- Set LBT (Listen Before Talk) compliance for ETSI regions (AT+LBT=EU).
Payload Optimization:
- Use carbon fiber mounting plates to reduce weight to 68g while maintaining 5G vibration resistance.
- Pair with Gen2V2 tags (Impinj M780 chips) for 30m+ read ranges on delivery packages.
Real-Time Analytics:
- Leverage the module’s HTTP/HTTPS API to stream tag data to AWS IoT:POST /rfid_data {“drone_id”:”D234”, “tags”:[“EPC123”, “EPC456”]}

Metro Area Test:
A Singaporean logistics provider reported:

98.3% successful deliveries via RFID-authenticated drop points
12ms latency for tag-to-cloud data transmission
Zero EMI-related read failures in 50+ high-rise flights

Cykeo RFID Application

Cykeo RFID solutions empower cross-industry operations, delivering precision tracking for supply chain optimization, industrial IoT deployments, and mission-critical asset management across logistics, healthcare, aviation, smart manufacturing, energy infrastructure, and security systems.

Warehousing

RFID-enabled 3D inventory systems achieve 99.6% stock accuracy with 20-meter bulk scanning capabilities.

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Logistics

RFID+IoT cross-docking solutions boost cargo processing speed to 600 units/hour with zero manual input.

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Tool Tracking

RFID-powered tool tracking reduces equipment retrieval time by 53% in live-line maintenance operations.

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Healthcare

Medical-grade RFID sterilization control cuts surgical instrument prep errors by 78%.

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