905nm Laser Rangefinder Module 1000m
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PRODUCT DESCRIPTON
The ERDI LASER® LR1000C4 is a next-generation compact 905nm laser rangefinder module designed for high-precision distance measurement in size- and weight-constrained applications. Utilizing Time-of-Flight (ToF) technology, it delivers stable and accurate measurement from 4 m to 1000 m, with an adaptive refresh rate of 3–10 Hz tailored to dynamic application needs.
Its ultra-compact design, low power consumption, and lightweight construction make it ideal for UAV payloads, handheld electro-optical devices, and embedded industrial systems. The LR1000C4 includes a UART-TTL interface, test software, and a communication protocol document, facilitating fast system integration and secondary development. Engineered for reliability and environmental adaptability, it ensures consistent performance in challenging outdoor and industrial conditions.
Key Advantages
- Accurate Long-Range Measurement: Provides ±1 m accuracy within 500 m, and proportional precision for distances up to 1000 m.
- Compact & Lightweight Design: Small footprint (28.8 × 30.5 × 20.9 mm) and ≤16 g weight, ideal for UAVs and embedded systems.
- Adaptive Measurement Rate: Supports 3–10 Hz ranging frequency, configurable for static or dynamic applications.
- Energy-Efficient Operation: Optimized for battery-powered devices with ultra-low standby (<0.3 W) and sleep power (<1 mW).
- Easy Integration & Secondary Development: UART-TTL interface with full documentation and test software for quick deployment.
- Robust & Reliable: High valid measurement rate (≥98%), low false alarm rate (≤1%), and strong environmental resistance (shock, vibration, IP67 lens cavity).
TECHNICAL PARAMETERS
|
Parameter |
Specification |
|
Laser Wavelength |
905 nm ± 5 nm |
|
Laser Beam Divergence |
< 6 mrad |
|
Optical Material |
Resin aspheric lens |
|
Receiver Aperture |
9.2 mm × 14.5 mm |
|
Ranging Range |
4m – 1000 m |
|
Ranging Accuracy |
±1 m¹) (≤ 500 m) |
|
Ranging Frequency |
3 Hz – 10 Hz, adaptive |
|
Valid Measurement Rate |
≥ 98% |
|
False Alarm Rate |
≤ 1% |
|
Communication Interface |
UART-TTL, customizable |
|
Baud Rate |
115200 bps |
|
Supply Voltage |
3.3 V – 5 V |
|
Startup Time |
≤ 200 ms |
|
Startup Inrush Current |
≈ 350 mA |
|
Sleep Power Consumption |
< 1 mW |
|
Standby Power Consumption |
< 0.3 W |
|
Near-Range Power Consumption |
< 0.5 W |
|
Long-Range Power Consumption |
< 1.2 W |
|
Operating Temperature |
−20 °C to +55 °C (−40 °C optional) |
|
Storage Temperature |
−40 °C to +60 °C |
|
Protection Rating |
IP67 (inside lens cavity) |
|
Laser Safety Class |
IEC Class 1 |
|
Dimensions |
28.8mm*30.5mm*20.9mm (square) |
|
Weight |
≤ 16 g |
|
Shock |
1000 g/ms (10 times/s along the optical axis) |
|
Vibration |
5–50–5 Hz, 1 octave/min, 2.5 g |
|
Reliability |
MTBF ≥ 1500 h |
Notes:
1)The target size is 2.3m × 2.3m with a reflectivity of 90%.
2) The target size is 2.3m × 4.6m with a reflectivity of 90%.
3) The accuracy indicated in the table is the accuracy for the white board.
INTERFACE
|
Pin |
Definition |
Description |
|
1 |
SW-SHOT |
Function Enable (active high) Note: Compatible with active-low control requirements |
|
2 |
RXD |
Signal input port, Host → Ranging Module |
|
3 |
TXD |
Signal output port, Ranging Module → Host |
|
4 |
I/O (Reserved) |
Reserved for expansion |
|
5 |
VCC |
Power + |
|
6 |
GND |
Power − |
Information Download
-
PRODUCT DESCRIPTON
-
TECHNICAL PARAMETERS
-
INTERFACE
-
Information Download
The ERDI LASER® LR1000C4 is a next-generation compact 905nm laser rangefinder module designed for high-precision distance measurement in size- and weight-constrained applications. Utilizing Time-of-Flight (ToF) technology, it delivers stable and accurate measurement from 4 m to 1000 m, with an adaptive refresh rate of 3–10 Hz tailored to dynamic application needs.
Its ultra-compact design, low power consumption, and lightweight construction make it ideal for UAV payloads, handheld electro-optical devices, and embedded industrial systems. The LR1000C4 includes a UART-TTL interface, test software, and a communication protocol document, facilitating fast system integration and secondary development. Engineered for reliability and environmental adaptability, it ensures consistent performance in challenging outdoor and industrial conditions.
Key Advantages
- Accurate Long-Range Measurement: Provides ±1 m accuracy within 500 m, and proportional precision for distances up to 1000 m.
- Compact & Lightweight Design: Small footprint (28.8 × 30.5 × 20.9 mm) and ≤16 g weight, ideal for UAVs and embedded systems.
- Adaptive Measurement Rate: Supports 3–10 Hz ranging frequency, configurable for static or dynamic applications.
- Energy-Efficient Operation: Optimized for battery-powered devices with ultra-low standby (<0.3 W) and sleep power (<1 mW).
- Easy Integration & Secondary Development: UART-TTL interface with full documentation and test software for quick deployment.
- Robust & Reliable: High valid measurement rate (≥98%), low false alarm rate (≤1%), and strong environmental resistance (shock, vibration, IP67 lens cavity).
|
Parameter |
Specification |
|
Laser Wavelength |
905 nm ± 5 nm |
|
Laser Beam Divergence |
< 6 mrad |
|
Optical Material |
Resin aspheric lens |
|
Receiver Aperture |
9.2 mm × 14.5 mm |
|
Ranging Range |
4m – 1000 m |
|
Ranging Accuracy |
±1 m¹) (≤ 500 m) |
|
Ranging Frequency |
3 Hz – 10 Hz, adaptive |
|
Valid Measurement Rate |
≥ 98% |
|
False Alarm Rate |
≤ 1% |
|
Communication Interface |
UART-TTL, customizable |
|
Baud Rate |
115200 bps |
|
Supply Voltage |
3.3 V – 5 V |
|
Startup Time |
≤ 200 ms |
|
Startup Inrush Current |
≈ 350 mA |
|
Sleep Power Consumption |
< 1 mW |
|
Standby Power Consumption |
< 0.3 W |
|
Near-Range Power Consumption |
< 0.5 W |
|
Long-Range Power Consumption |
< 1.2 W |
|
Operating Temperature |
−20 °C to +55 °C (−40 °C optional) |
|
Storage Temperature |
−40 °C to +60 °C |
|
Protection Rating |
IP67 (inside lens cavity) |
|
Laser Safety Class |
IEC Class 1 |
|
Dimensions |
28.8mm*30.5mm*20.9mm (square) |
|
Weight |
≤ 16 g |
|
Shock |
1000 g/ms (10 times/s along the optical axis) |
|
Vibration |
5–50–5 Hz, 1 octave/min, 2.5 g |
|
Reliability |
MTBF ≥ 1500 h |
Notes:
1)The target size is 2.3m × 2.3m with a reflectivity of 90%.
2) The target size is 2.3m × 4.6m with a reflectivity of 90%.
3) The accuracy indicated in the table is the accuracy for the white board.
|
Pin |
Definition |
Description |
|
1 |
SW-SHOT |
Function Enable (active high) Note: Compatible with active-low control requirements |
|
2 |
RXD |
Signal input port, Host → Ranging Module |
|
3 |
TXD |
Signal output port, Ranging Module → Host |
|
4 |
I/O (Reserved) |
Reserved for expansion |
|
5 |
VCC |
Power + |
|
6 |
GND |
Power − |
Learn More
- Laser Type: 905 nm semiconductor pulse laser (Class 1 eye-safe)
- Measurement Principle: Time-of-Flight (ToF)
- Measurement Range: 4 m – 1000 m
- Accuracy: ±1 m (≤500 m), ±1 m + distance × 0.1% (500–1000 m)
- Refresh Rate: 3–10 Hz adaptive
- Interface: UART-TTL (115200 bps)
- Power Supply: 3.3 V – 5 V
- Weight: ≤16 g
- Dimensions: 28.8 × 30.5 × 20.9 mm
The LR1000C4 laser rangefinder module is widely used for:
- UAV & Drone Systems – distance measurement, navigation, obstacle detection
- Handheld Thermal Imaging & Night Vision Devices
- Laser Targeting & Optical Systems
- Perimeter & Border Security Monitoring
- Industrial Automation & Smart Infrastructure
- Railway, Aviation & Communication Systems
- Outdoor Sports & Portable Measurement Devices
- Specialist in laser ranging modules and electro-optical systems
- Proven solutions for UAV, defense, and industrial applications
- Support for OEM/ODM customization and integration
- Reliable performance in field and industrial environments
Q1: What is the main advantage of LR1000C4?
LR1000C4 combines compact size, low power, and high accuracy, making it ideal for embedded and portable applications.
Q2: Is it suitable for UAV integration?
Yes, its lightweight and low-power design makes it perfect for UAV and drone systems.
Q3: What interface does it use?
It features a UART-TTL interface, ensuring easy integration into embedded platforms.
Q4: How precise is this module?
Accuracy is ±1 m within 500 m and proportional for distances up to 1000 m.
Q5: Is the laser eye-safe?
Yes, it meets IEC Class 1 eye safety standards.