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LRF3000A1 3000m 905nm Laser Rangefinder Module for Handheld Optics, Survey Instruments and UAV Payloads

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Product Model:LRF3000A1

The LRF3000A1 is a compact 905nm Class 1 laser rangefinder module that delivers ≥3000m maximum range on 70% reflectivity building targets, with ±0.7m accuracy up to 100m and ±(0.7 + 0.003 × d) m beyond 100m. It supports adaptive 3–10Hz or 1–10Hz output, runs from 3.3–5V, communicates over UART‑TTL, and fits into a corrected mechanical envelope of about 13.5 × 25.1 × 27.8 mm at 12g. That makes it a strong fit for handheld optics, surveying tools, UAV payloads and embedded electro-optical systems.

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Senior Engineer, Yilin

Tel : +86 28 81076698

WhatsApp : +86 18000520222

ERDI Pre-Sales Notice & Customer Information

(Please Read Before Purchase or Inquiry) Thank you for your interest in ERDI TECH LTD. We are committed to providing customers worldwide with high-precision, high-reliability laser products and technical solutions. Before placing an order, please read the following information carefully to better understand our company, services, and purchasing policies.

  • About ERDI​

     ERDI is a professional manufacturer specializing in the research, development, and production of laser modules, laser measurement systems, and related optoelectronic components.
    We integrate design, R&D, production, and sales, with a focus on safety, innovation, and precision.

    Our products are widely used in:

    • Industrial measurement and alignment systems
    • Scientific research and educational applications
    • Optical instrumentation and laser testing
    • Consumer and OEM laser solutions

    ERDI operates certified facilities and maintains rigorous quality control to ensure that every product meets international standards.

  • Global Presence and Trade Reliability​

    ERDI has established official stores on leading global platforms including Amazon, Alibaba International Station, and Made-in-China.com, allowing customers worldwide to purchase safely and conveniently. We are a verified and trusted factory, not a reseller, and we ensure that all transactions, quotations, and logistics follow transparent and secure trade practices.
  • Sample and Lead Time​

    To help customers evaluate our products and performance, we offer sample orders for most product categories.

    • Standard samplesare typically delivered within one week after order confirmation.
    • Customized modulesmay require additional processing time depending on design complexity and optical requirements.
      Our logistics team will provide real-time tracking and documentation for every shipment.
  • OEM / ODM / OBM Services​

     ERDI supports full-range customization including:

    • OEM (Original Equipment Manufacturing)– Products manufactured under your brand or part number.
    • ODM (Original Design Manufacturing)– Custom optical or mechanical design based on your specifications.
    • OBM (Original Brand Manufacturing)– Private-label solutions with our in-house R&D and branding support.

    We provide technical co-development, logo engraving, packaging customization, and batch production services to meet both small-scale and mass-production requirements.

  • Technical Support and Service System​

    ERDI maintains technical service centers and distribution partners worldwide, enabling rapid customer response.
    We provide:

    • Comprehensive technical consultation and project evaluation
    • One-on-one on-site technical assistanceat the customer’s facility when required
    • Lifetime after-sales supportand technical maintenance guidance

    Each laser product is delivered with a full set of user documentation, including Laser Module Usage Precautions and Safety Guidelines.

  • Quality Assurance and Warranty​

    ERDI implements strict multi-stage quality control throughout production:

    • Incoming material inspection
    • Optical alignment verification
    • Output power and wavelength calibration
    • Safety and durability testing under standard conditions

    We guarantee that all products leaving our factory meet design and performance specifications.
    Except for man-made damage, we will replace any defective unit within one year free of charge and provide lifetime maintenance support thereafter.

    For more details, please refer to our After-Sales Service & Warranty Policy.

  • Important Safety Reminder

    Before using any ERDI laser product:

    • Carefully read and follow the Laser Module Usage Precautions.
    • Always use appropriate laser protective eyewear.
    • Operate only in controlled environmentsunder trained personnel supervision.
      Failure to observe safety instructions may result in injury or equipment damage.
  • Communication and Order Confirmation​

    To ensure efficient service, please confirm the following before placing an order:

    • Product model, wavelength, output power, and working voltage/current
    • Whether you require custom mechanical dimensions, optical configurations, or driver circuitry.
    • Packaging, labeling, and shipping preferences.
    • Any specific export or compliance documentation needed for your country.

    Our sales engineers will provide an official quotation and delivery schedule upon confirmation of all specifications.

  • Final Statement​

    ERDI upholds the values of safety, integrity, and precision. We sincerely welcome customers from all over the world to visit our facilities, discuss cooperation, and experience our advanced laser technologies firsthand. Your satisfaction and trust are our highest pursuit.

After-Sales Service & Warranty Policy

We strive to provide high-quality laser modules and excellent customer service. Please read the following terms carefully to understand your rights and our responsibilities.

  • Product Origin and Quality Assurance​

    • All ERDI products are manufactured directly by the factory, ensuring consistent quality and full traceability.
    • We provide a diverse rangeof laser modules and laser distance measurement modules to suit various industrial, educational, and research applications.
    • Every product is tested and inspectedbefore shipment to guarantee that it meets specification standards.
  • Return and Exchange Policy​

    • Customers may request a return or exchange within 30 daysof receiving the goods, provided that:
    • The product remains in original condition, unused, and without affecting secondary sales.
    • A valid reason for return or exchangeis provided.
    • Upon approval, we will replace or refund according to our service policy.
    • The buyer is responsible for shipping costsassociated with returns, exchanges, or repairs, based on international freight cost rules.
  • Warranty Coverage​

    • The main functional componentsof ERDI laser products are covered by a 2-year warranty from the date of purchase, excluding cosmetic appearance.
    • Within the first 12 months, if a verified manufacturing defect occurs, we will replace the item with a brand-new productfree of charge.
    • Replacement of cosmetic or housing components (e.g., enclosure, labeling, or exterior parts) may incur a reasonable cost feebased on material expenses.
    • Warranty does not cover:
    • Damage due to misuse, improper installation, or modification.
    • Operation outside the recommended power supply or temperature range.
    • Accidental or physical damage, including drops, fire, or liquid ingress.
  • Receiving Inspection​

    • Upon delivery, please inspect the parcel immediately in the presence of the courier.
    • If there is any quantity discrepancy, visible damage, or mismatch, do not signthe delivery receipt.
    • Once the package is signed for (by you, family, or colleagues), it is considered accepted as correct and complete.
  • Customer Support

    For technical assistance, warranty claims, or safety inquiries, please contact our official service team through the contact information listed on erdicn.com.
    Our support engineers will provide professional guidance on installation, alignment, safety, and maintenance procedures.

Laser Module Usage Precautions

(Important – Buyers Must Read Before Use)

Operating laser modules involves potential optical and thermal hazards. To ensure safe and proper use, please read the following precautions carefully before powering on your laser product.

  • General Safety Warnings​

    • Invisible Radiation Warning– Some laser modules emit infrared (IR) or ultraviolet (UV) radiation that is invisible to the human eye. Never assume the laser is malfunctioning simply because you cannot see the beam. Always confirm that the power is disconnected before inspecting the module.
    • Do Not Look Directly into the Laser Aperture– Even when wearing certified laser safety goggles, never stare directly into or near the beam exit of a working laser module.
    • Avoid Reflected Beams from High-Power Lasers– Reflection from Class IV lasers (output power > 500 mW) can cause severe and permanent eye damage. Always wear wavelength-specific safety goggles when operating or aligning high-power laser systems.
    • Keep Away from Flammable Materials– Do not place flammable or explosive items (such as paper, cloth, leather, or plastics) in the laser path. Black or dark-colored materials absorb laser energy more easily and may ignite. (Exception: controlled material-burning experiments with proper fire protection.)
    • Avoid Direct Human Exposure– Class IIIa or higher lasers (≥ 5 mW) can burn skin or eyes. Never point a laser beam at any part of a person’s body.
    • Restrict Access to Trained Personnel Only – Keep all laser devices out of reach of untrained individuals, children, and pets.
  • Optical Path and Reflection Safety​

    • Never Aim Toward Glass Surfaces– Ordinary glass reflects roughly 4 % of incident light, which can redirect dangerous laser radiation into your eyes. Avoid operating lasers in front of mirrors or reflective windows.
    • Working Plane Awareness– When setting up an experimental platform, note the laser emission height. Do not position your head or eyes near this level during operation. Lenses and mirrors may reflect or refract light unexpectedly. Always align optical components downward or horizontally—never angle a beam upward.
    • Remove Reflective Accessories– Watches, jewelry, and other shiny objects can reflect laser light unpredictably. Remove them before use.
    • Infrared Beam Detection– IR lasers (wavelength > 800 nm) are almost completely invisible. Use a beam-viewing card, IR detector, or up-conversion screen to visualize the beam path safely.
    • Visual Brightness Misjudgment– Some wavelengths (below 430 nm or above 700 nm) appear much dimmer than their actual power output. Do not rely on visual brightness to judge beam intensity.
    • Pulsed Laser Caution– Pulsed lasers can have extremely high peak power even at modest average power levels. Verify that all optical elements and samples in your experiment exceed the laser’s damage threshold before exposure.
    • Prohibited Uses– It is strictly forbidden to point laser beams at moving vehicles, aircraft, or any area where light could distract or endanger others.
    • End-of-Beam Safety Stop– Always place a black anodized or matte metal plate at the end of your optical path to absorb residual energy and prevent laser leakage into surrounding areas.

    Low-Power Modules – ERDI laser modules rated below 1 mW are considered eye-safe under normal operating conditions and can be used without hazard when handled properly.

  • Recommended Protective Measures​

    • Protective Eyewear– Always wear certified laser safety goggles designed for the specific wavelength and power level of your module.
    • Appropriate Clothing– Light-colored or white long-sleeved clothing reduces the risk of heat absorption or ignition if stray laser light contacts the fabric.
    • UV Laser Protection– For ultraviolet lasers, apply broad-spectrum sunscreen (SPF 30 or higher) to exposed skin areas to minimize UV radiation effects.
    • Environmental Safety– Operate lasers in a controlled laboratory or industrial environment with minimal reflective surfaces. Ensure that all personnel nearby are informed of ongoing laser use and have received proper training.

Technical Specifications

Maximum Ranging Distance
(clear weather, visibility ≥ 4 km)

≥ 3000 m @ 70% reflectivity, building target

Minimum Ranging Distance

1 m @ 90% reflectivity, white board

Ranging Accuracy
(building target)

d≤100m:±0.7m

d>100m:±(0.7+0.003*d)m

(d represents distance, in meters)

Measurement Frequency

Normal Mode: 3–10 Hz, adaptive
Long-Range Mode: 1–10 Hz, adaptive

Valid Measurement Rate

≥98%

False Alarm Rate

≤1%

Baud Rate

115200 bps (factory default) / 9600 bps

Interface Type

UART(TTL_3.3V)

Supply Voltage

DC 3.3 V–5 V (ripple < 0.1 V)

Standby Power Consumption

≤ 350 mW (Power on pulled low)

 

≤ 1 mW (Power on pulled high)

Operating Power Consumption
(+3.3 V in)

≤1.8W@25℃

≤2.1W@70℃

≤1.6W@-20℃

Response Time
(System Startup + First Ranging)

Minimum: ≤ 160 ms + 100 ms
(short range)

Maximum: ≤ 160 ms + 517 ms
(long range)

Laser Wavelength

905±10nm

Class 1(IEC 60825-1)

Typical Beam Divergence

≤10mrad

Average Laser Power

7.63mW

Receiver Field of View

≈8mrad

Weight

12±0.5g

Dimensions

13.5mmÍ25.1mm Í27.8mm

Shock

1000 g/ms (10 times/s along the optical axis)

Vibration

5–50–5 Hz, 1 octave/min, 2.5 g

Operating Temperature

-20~+60℃

Storage Temperature

-25~+75℃

Reliability

MTBF≥1500h

Protection Rating

IP67

Communication Interface Definition

Connector Model: A1002WV-S-6P

LRF3000A

Pin

Definition

Description

1

GND

Ground

2

Power Supply

3.3 V–5 V DC Power Supply

3

NC

Reserved Pin

4

TTL_TXD

Serial TX, TTL_3.3 V level

5

TTL_RXD

Serial RX, TTL_3.3 V level

6

Enable Pin

Power ON at low level

Low-Power Mode:
In this mode, the device consumes extremely low power. The MCU is turned off and does not respond to any commands.

When measurement is required, pull the Enable pin low to switch the device into normal operating mode.
After the measurement is completed, pull the Enable pin high to return the device to low-power mode, where power consumption is less than 1 mW.

Mechanical Dimension Plan

LRF3000A1

Product Description

The LRF3000A1 is a lightweight 905nm laser rangefinder module built for OEM integration where long reach matters but size and power still have to stay civilized. It is well suited to handheld optical instruments, surveying and geology tools, UAV payloads, aviation and communications equipment, law-enforcement devices and outdoor sports products, which matches both the factory specification and the way compact 905nm OEM rangefinder modules are commonly positioned in public product listings.

In its reference condition—clear weather, visibility ≥4km, 70% reflectivity building target—the module reaches ≥3000m. The minimum distance is 1m on a 90% reflectivity white board. Accuracy is specified as ±0.7m up to 100m, and ±(0.7 + 0.003 × d) m above 100m, where d is the measured distance in meters. The module also maintains a valid measurement rate ≥98% with a false alarm rate ≤1%. In the field notes, ERDI further states that medium-reflectivity targets can reach about 3000m, high-reflectivity targets can exceed 3500m, while low-reflectivity targets may fall to around 2000m, especially when the target is small, oblique or not diffusely reflective.

Measurement rate is handled more cleverly than on many fixed-output modules. In Normal Mode the LRF3000A1 runs at adaptive 3–10Hz, while Long-Range Mode supports adaptive 1–10Hz. That lets integrators trade refresh rate against range stability depending on the scene. Optical parameters include a 905±10nm Class 1 laser, ≤10mrad typical beam divergence, ≈8mrad receiver field of view and 7.63mW average laser power, which places it firmly in the compact 905nm pulsed ranging class used for embedded electro-optical products rather than large stand-off designators.

Electrically, the module runs from DC 3.3–5V with UART (TTL_3.3V) communication. Factory baud rate is 115200bps, with 9600bps listed in the main specifications and a wider command-set menu that supports additional baud-rate settings up to 230400bps after reboot. Operating power is ≤1.8W @25°C, ≤2.1W @70°C and ≤1.6W @−20°C. The power-management logic is worth getting right: the Enable pin is active low. Pulled low, the module enters normal working mode; pulled high, it returns to a low-power state where consumption is <1mW. Startup plus first-ranging response is specified from ≤160ms + 100ms at short range to ≤160ms + 517ms at long range.

Mechanically, the module is small enough for compact housings and payload bays. The datasheet formatting drops the multiplication marks, but the size should be read as about 13.5 × 25.1 × 27.8 mm, with a weight of 12±0.5g. Environmental specifications include −20 to +60°C operating temperature, −25 to +75°C storage, 1000g/ms shock, 5–50–5Hz vibration at 2.5g, IP67 protection, and MTBF ≥1500h. That gives it enough ruggedness for portable optics and embedded outdoor equipment without drifting into the chunky, overbuilt world of larger vehicle-grade modules.

Integration is straightforward. The module uses a 6-pin A1002WV-S-6P connector with GND, 3.3–5V power, reserved pin, TTL_TXD, TTL_RXD and Enable. The UART protocol uses 8-byte frames with 0x55 0xAA header bytes, function code, four data bytes and checksum. Supported functions include single ranging, continuous ranging, stop ranging, optional angular measurement for versions equipped with an angle sensor, power-on self-test, baud-rate setting, and external-circuit enable/disable for its secondary low-power mode. Distance data is returned in hexadecimal as actual value ×10, so the host reconstructs the reading with one decimal place.

In practical deployment, this kind of 905nm module is most attractive when the product needs more reach than a small short-range sensor can provide, but still has to fit inside portable optics, compact survey instruments, UAV payloads or embedded electro-optical devices. Public OEM listings in the same segment repeatedly pair 905nm rangefinder modules with handheld optics, telescopes, small payloads and portable distance-measurement systems, which is exactly where the LRF3000A1 makes the most sense.

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