NLMU3000A 1535nm Low-Altitude Security Laser Sensor

The NLMU3000A is a specialized low-altitude security telemetry engine designed specifically for micro-UAV detection. By integrating a high-performance 1535nm DPSS core within an IP67-rated chassis, this 3km Anti-Drone Laser Sensor provides critical distance validation for electro-optical tracking systems and perimeter security networks.

  • 3KM MICRO-UAV DETECTION | Reliable tracking of DJI Phantom 4 (0.2×0.3m) or equivalent profiles at 3000 meters.
  • ≤1% FALSE ALARM RATE | Advanced signal processing ensures a ≥99% accuracy rate for critical airspace monitoring.
  • MULTI-FREQUENCY TRACKING | Programmable 1Hz to 5Hz continuous ranging to capture fast-moving aerial assets.
  • ≤660g PAYLOAD ARCHITECTURE | Robust 143×114×80mm design optimized for stabilized observation platforms.

I. NLMU3000A 1535nm Low-Altitude Security Telemetry Core

Precision Erbium-Glass Laser Integration for Advanced UAV Detection

Tracking micro-UAVs in complex low-altitude airspace requires specialized optical calibration far beyond standard distance measurement. Engineered exclusively to solve this challenge, the NLMU3000A functions as a dedicated 3km Anti-Drone Laser Sensor. Rather than generalized ranging, this 1535nm DPSS system is fine-tuned to capture exceptionally small radar cross-sections. It successfully locks onto 0.2×0.3m profiles (equivalent to a DJI Phantom 4) at distances of ≥3km, and 0.1×0.2m targets (DJI Mavic 3 Pro) at ≥2km. As the detection scale expands, the module captures human profiles (1.7×0.5m) at ≥5km, vehicular assets at ≥8km, and pushes its absolute limit to 12km for large infrastructure.To guarantee pristine data integrity for electro-optical payloads, this 3km Anti-Drone Laser Sensor leverages distance gating and first/last target logic to actively strip away environmental clutter. Validated under ≤60% relative humidity, it enforces a strict ≤1% False Alarm Rate (FAR) while maintaining a precision deviation of just ≤±1m. Packaged in a ruggedized, IP67-sealed chassis that weighs strictly ≤660g, this Class 1 eye-safe module performs continuous self-diagnostics during operation. Ultimately, this Low-Altitude Security Telemetry Core delivers the high-fidelity spatial data mandatory for automated perimeter defense and rapid-response tracking arrays.

3km Anti-Drone Laser Sensor
UAV Detection Module
1535nm Eye-Safe Core
Low-Altitude Security
Electro-Optical Payload

II. 3km Anti-Drone Laser Sensor Tracking Advantages

  • Micro-Target Acquisition: Specifically calibrated to detect cross-sections as small as 0.1×0.2m at 2km, making it an indispensable 3km Anti-Drone Laser Sensor for identifying stealthy consumer UAVs.
  • High-Fidelity Signal Processing: Achieves a measurement success rate of ≥99% alongside a highly restrictive ≤1% False Alarm Rate (FAR), ensuring reliable data for automated security protocols.
  • Dynamic Response Matrix: Supports adjustable continuous ranging frequencies (Single-shot, 1Hz, 2Hz, 3Hz, 4Hz, 5Hz) to maintain persistent locks on erratic, fast-moving aerial targets.
  • Environmental Resilience: Compliant with RoHS 2.0 standards, operating flawlessly between -40°C and +60°C, and fully sealed (IP67) against extreme outdoor industrial environments.

III. Strategic Deployment of the 3km Anti-Drone Laser Sensor

Electro-Optical Tracking Systems (EO/IR)

With its configurable RS422 interface and rapid baud rate switching, this 3km Anti-Drone Laser Sensor integrates seamlessly into stabilized observation platforms and drone payloads for precise target positioning.

Low-Altitude Airspace Security Arrays

Serves as the critical distance measurement backbone for perimeter security and border surveillance networks, providing early warning capabilities against unauthorized micro-UAV incursions.

Mobile Detection & Industrial Monitoring

The robust 660g architecture allows the module to be deployed on vehicle-mounted detection platforms, ensuring stable performance during field tracking missions and search-and-rescue operations.

IV. NLMU3000A 3km Anti-Drone Laser Sensor Specification Matrix

Performance ParameterTechnical Specification
Micro-UAV Range (0.1×0.2m Target)≥ 2 km (e.g., DJI Mavic 3 Pro equivalent)
Standard UAV Range (0.2×0.3m Target)≥ 3 km (e.g., DJI Phantom 4 equivalent)
Personnel Range (1.7×0.5m Target)≥ 5 km
Vehicle Range (2.3×4.6m Target)≥ 8 km
Maximum Ranging (Large Targets)≥ 12 km
Ranging Accuracy≤ ±1 m
Measurement Success Rate≥ 99%
False Alarm Rate (FAR)≤ 1%
Pulse Repetition FrequencySingle-shot, 1Hz, 2Hz, 3Hz, 4Hz, 5Hz
Laser Wavelength1535nm (Class 1 Eye-Safe)
Beam Divergence≥ 1 mrad
Distance Resolution≤ 38 m
Blind Zone≤ 100 m
Effective Aperture (Tx / Rx)Φ 29mm / Φ 66mm
Operating Temperature-40°C ~ +60°C
Storage Temperature-45°C ~ +70°C
Supply Voltage (DC)DC 22V ~ 34V
Power Consumption (Standby)≤ 1.5W
Power Consumption (Average)≤ 2.8W (@28V@1Hz) | ≤ 4.5W (@28V@5Hz)
Power Consumption (Peak)≤ 4.5W (@28V@1Hz) | ≤ 6.2W (@28V@5Hz)
Startup Peak Power Consumption≤ 50W
Communication InterfaceRS422
Baud Rate115200 bps (default) / 57600 / 38400 / 9600
Electrical ConnectorsHost: J30J-9TJL | Rangefinder: J30J-9ZKP
Environmental GradeRoHS 2.0
Protection GradeIP67
Physical Dimensions≤ 143mm × 114mm × 80mm
Module Weight≤ 660 g

V. Low-Altitude Security Communication & Electrical Interface

  • Optimized Power Management: Operates on DC 22V~34V with a standby consumption of ≤1.5W.
  • Dynamic Active Power: Average draw is ≤2.8W (@28V@1Hz) to ≤4.5W (@28V@5Hz), with peak consumption strictly controlled between ≤4.5W and ≤6.2W based on the operating frequency (Startup peak ≤50W).
  • High-Speed Data Protocol: Utilizes RS422 communication featuring programmable baud rates (115200 default, 57600, 38400, 9600 bps) to support firmware upgrades and real-time status feedback.
Host Connector: J30J-9TJL | Rangefinder Receptacle: J30J-9ZKP.
Pin No.Signal DefinitionFunctional Remarks
1RS-422 GNDCommunication ground
2RS-422 RXD+Laser serial port receive positive
3RS-422 RXD−Laser serial port receive negative
4RS-422 TXD−Laser serial port transmit negative
5RS-422 TXD+Laser serial port transmit positive
6, 7VIN+Power input positive
8, 9VIN−Power input negative

VI. Mechanical and Optical Interface Specifications for UAV Detection

The NLMU3000A is structurally reinforced to maintain strict optical alignment when deployed on dynamic stabilized tracking platforms, ensuring precise micro-target acquisition.

3km Anti-Drone Laser Sensor Dimensions, Optical Interface, and Electro-Optical Payload Blueprint
Aperture Layout: Effective Emission (Tx) Φ29mm, Effective Reception (Rx) Φ66mm. Secured via 4 × Φ5.6 mounting holes.
  • Tracking Stability: When mounted on a stabilized observation platform, the system must ensure smooth, continuous target tracking to guarantee stated range and accuracy parameters.
  • Atmospheric Dependency: Nominal performance metrics (including the 3km drone tracking) are validated at a relative humidity of ≤60%. Real-world ranging may vary dynamically with shifting environmental conditions.
  • Optical Protection: The IP67-rated lenses must be shielded from direct sunlight and electrostatic environments to preserve the integrity of the 1535nm receiving detector.

VII. 3km Anti-Drone Laser Sensor Universal Adaptability

The NLMU3000A redefines low-altitude spatial awareness by combining long-range detection with extreme micro-target precision. Engineered to comply with RoHS 2.0 standards and built to withstand harsh outdoor fluctuations (-40°C to +60°C), this 3km Anti-Drone Laser Sensor delivers uninterrupted telemetry for automated security networks. By integrating advanced distance gating, power-on monitoring, and a highly responsive 5Hz multi-frequency tracking mode, it provides systems integrators with a definitive, highly reliable non-contact measurement core for modern perimeter defense and UAV tracking solutions.

Additional information

Weight6098603 lbs

VIII. Elite 1535nm Er:Glass Ranging Solutions