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Data source: General Technical Principles of Laser Interferometer, Renishaw XL-80 Laser Interferometer Product Manual, General Specification for Machine Tool Calibration
Document version: V1.0
Applicable: Laser Interferometer System for CNC Machine Tool Accuracy Testing and Calibration (Renishaw XL-80/Keysight 5530/Other Similar Systems)
Compilation unit: Technical Department of Ningbo Jiangce Technology Co., Ltd.
Release date: June 20, 2026
Laser interferometer is the core tool for precision detection and calibration of CNC machine tools, used to measure key indicators such as machine tool positioning accuracy, repeat positioning accuracy, reverse clearance, and pitch error compensation. Renishaw XL-80, Keysight (formerly Agilent) 5530 and other models are mainstream laser interferometer systems on the market.
In practical use, laser interferometers are much more sensitive to the measurement environment than ordinary probes. Common issues include:
Common faults of laser interferometers can be divided into four categories based on system composition: environmental factors, optical path factors, electronic and electrical factors, and installation and operation factors.
A typical laser interferometer system consists of the following parts:
Laser emitter (frequency stabilized helium neon laser) ↓ Interferometer group (spectroscope/reflector/angle mirror) ↓ Environmental compensation unit (temperature/humidity/pressure sensor) ↓ Detector/photoelectric receiver ↓ Signal processing and interface ↓ Measurement software (computer)Any problem in any link will affect the final measurement result.
3、 Environmental factors (most common, accounting for about 50%)
Laser interferometers are extremely sensitive to the environment, which is a common feature of all brands and models.
3.1 Temperature fluctuations
The measurement accuracy of laser interferometers is directly affected by the refractive index of air, which varies with temperature, humidity, and air pressure.
Typical performance:Measurement data shows regular drift with workshop air conditioning or personnel movement..
Troubleshooting and Solution:
Inspection items normal range exceeding standard treatment Workshop temperature stability Within ± 0.5 ° C/hour Turn on the air conditioning in advance and stabilize for more than 2 hours Measure the temperature gradient of the optical path No local heat source Move away the motor and hydraulic station near the optical path Location of measuring head/environmental sensor Installed near the machine tool Do not stick tightly to the cutting fluid outlet Sunlight exposure The light path is not directly exposed to sunlight Pull the curtains or adjust the measurement time Key operating specifications:
Typical manifestations:Laser reading high-frequency jitter, with a frequency of about 1-10 Hz, and the amplitude increases with the length of the optical path..
Cause analysis:
Solution:
Typical manifestation: The reading fluctuates regularly at a certain frequency.
Troubleshooting method:
Solution:
The environmental compensation unit (ECU) is used to collect real-time temperature, air pressure, and humidity data, and calculate the correction value of air refractive index.
| Fault Symptoms | Possible reasons | handle |
|---|---|---|
| The temperature reading deviates significantly from room temperature | The sensor probe is covered or placed against a heat source | Check the installation position |
| The air pressure reading remains unchanged | Sensor malfunction or airway blockage | Clean the sensor vent hole |
| Humidity reading 100% | Sensor water ingress or condensation | Re test after drying |
| After compensation is turned on, the accuracy actually deteriorates | The sensor position is too far from the optical path | Move to near the center of the optical path |
Laser interferometers require precise alignment of the laser beam with the interferometer group, and the deviation angle is usually required to be within 30 arcseconds.
Typical manifestations: weak signal strength, signal loss, and large measurement deviation.
Remote Control Adjustment Tips (Renishaw XL-80, etc.):
Optical alignment checklist:
| Steps | operation | standard |
|---|---|---|
| 1 | Fix the laser head on the tripod and adjust the level | The bubble level is centered |
| 2 | Install the interferometer group on the spindle/worktable | Mirror perpendicular to the direction of the optical path |
| 3 | Use paper or visual inspection method for rough adjustment | The beam falls at the center of the mirror group |
| 4 | Enable software signal strength display | Signal strength ≥ 70% |
| 5 | Move the mirror group along the entire measurement process | Full signal ≥ 50% |
| 6 | Tighten all adjustment screws | Signal strength does not decrease |
The optical components of laser interferometers (spectrometers, mirrors, angle mirrors, etc.) have very precise surfaces, and any contamination can cause signal attenuation.
| Pollution type | Signal performance | Cleaning Method |
|---|---|---|
| Fingerprint/oil stains | Signal strength decreases by 30-50% | Gently wipe with anhydrous ethanol and lens paper |
| dust | Dark spots appear in the light spot | Blow it away with a balloon |
| Cutting fluid splashing | Intermittent signal loss | After disassembly, clean with ultrasonic waves |
| Condensed water mist | Signal flashing | Wipe dry and check the humidity of the environment |
Attention: ❌ Do not wipe optical mirrors with acetone, industrial alcohol, or paper towels ✅ Only use specialized lens paper+anhydrous ethanol (or specialized optical cleaning solution)
✅ The mirror surface has a coating, and when wiping, it must be lightly wiped in a spiral pattern from the center outward
Typical manifestation: The signal suddenly disappears.
Common reasons:
Solution:
Dead path error is a conceptual error source in laser interferometer measurement, which refers to the measurement drift caused by environmental influences on the static optical path of the laser beam from the beam splitter to the reflection mirror (the part not compensated for by differential within the measurement stroke).
Typical phenomenon caused by dead end error: The repeatability is good when measuring short strokes (<100mm), but the error significantly increases when measuring long strokes.
Control method:
HeNe lasers require sufficient preheating to achieve frequency stability.
| Brand/Model | Recommended preheating time | explanation |
|---|---|---|
| Renishaw XL-80 | 15-30 minutes | Automatic preheating after startup, the status indicator light turns green after preheating is completed |
| Keysight 5530 | 30-60 minutes | Stable frequency requires longer time |
| General HeNe laser | 15-60 minutes | Depending on the model and ambient temperature |
Obvious signal manifestation:When preheating is insufficient, the reading follows the temperature at an unusually sensitive speed - air conditioning switches or slight room temperature fluctuations can cause sudden changes in the reading..
| Problem | performance | troubleshoot |
|---|---|---|
| Poor cable contact | Intermittent loss of readings | Check BNC/SMA connector |
| Cable shielding layer fracture | Reading noise increases | Replacement method investigation |
| The cable is too long | signal attenuation | Not exceeding the recommended length of the original factory |
| Problem | performance | handle |
|---|---|---|
| Counter stuck | The reading does not change with movement | Restart the counter/software |
| USB communication interruption | Software reports connection error | Change USB port or restart computer |
| Driver conflict | Abnormal data collection | Reinstall the driver |
| Software parameter error | The measurement results deviate significantly | Check the compensation parameter settings |
Cause:The laser beam axis is not parallel to the machine tool motion axis..
Impact:The measured value is relatively small, with an error of L × (1 cos θ), where θ is the deviation angle and L is the measured length..
Typical Value Reference:
| Deviation angle θ | Measurement error per meter |
|---|---|
| 1 arcminute (1/60 degree) | 0.15 μm |
| 5 cents | 3.8 μm |
| 30 cents | 130 μm |
Solution:
Cause:There is an offset distance (Abbe offset) between the measurement axis and the machine tool motion axis..
Impact:Error=offset distance x angular motion error.. In the presence of pitch or yaw in the machine tool, even if the laser interferometer itself has extremely high accuracy, the measurement results will still contain Abbe error components.
Control method:
| Incorrect practice | The correct approach |
|---|---|
| The mirror group is directly screwed onto the machine tool by hand | Fix using magnetic seats or specialized fixtures |
| Not locked after installation, loose during measurement process | Confirm the signal strength again after locking |
| The distance between the spectroscope and the reflector is too small | Maintain a minimum safe distance (5-10mm) |
| Mirror assembly installed on workpieces with unstable temperature | Installed on structurally stable high-quality components |
| Indicator light status | meaning | handle |
|---|---|---|
| Green constantly on | Laser frequency locked, system ready | normal |
| orange flashing | Laser preheating in progress | Wait (about 15 minutes) |
| Red always on | Laser temperature too high or frequency locking failure | ① Check the cooling fan ② If the ambient temperature is too high ③ Contact for maintenance |
| flashing red | Abnormal current of laser diode | send for repair |
Renishaw XL-80 Frequently Asked Questions Special:
| Problem | reason | solve |
|---|---|---|
| Signal strength<30% | Mirror group dirty or light path offset | Clean the mirror assembly and realign it |
| Long distance (>5m) signal disappearance | Beam divergence exceeds the receiver aperture | Use a beam expander or relay lens group |
| Software Tip&# 8221; Counter overflow&# 8221; | Measurement speed exceeds maximum tracking speed | Reduce movement speed (XL-80 maximum tracking speed 60m/min) |
| The measurement result is inconsistent with the laser reading | Environmental compensation parameter error | Calibrate temperature/air pressure sensor |
| Typical problems | explanation | handle |
|---|---|---|
| Laser preheating is extremely long | The frequency stabilization mechanism is different and may take up to 1 hour | Start up early |
| Frequent signal loss | The optical components are older and have small alignment tolerances | Use fiber optic coupling output (if equipped) |
| Software compatibility | Old software may be abnormal on Windows 10/11 | Use virtual mode or upgrade software |
When there is a problem with the laser interferometer, troubleshoot in the following order:
Step 1: Environmental check ▽ - Temperature fluctuation ≤ 0.5 ° C/h? Does it have a direct airflow path without air conditioning? Does it have no vibration source (nearby machine tools/cranes)? └ - Is the location of the environmental sensor correct? Step 2: Laser Inspection ▽ - Is the preheating time sufficient? Is the host indicator light normal (green)? Is the laser power normal? └ - No overheating alarm? Step 3: Optical path inspection ▽ - Are all mirror groups cleaned? Is the optical path aligned and the signal strength ≥ 70%? Is the overall signal strength ≥ 50%? Does it have no obstruction (chips/cables/oil bands)? └ - Is the dead path as short as possible? Step 4: Electrical Inspection ▽ - Is the cable joint secure? Is the software/driver working properly? Does the counter not freeze? Is the computer USB port working properly? Step 5: Operation Check ▽ - Is the laser beam parallel to the motion axis (cosine error)? Does the optical path pass through the center of the motion axis (Abbe error)? Is the mirror assembly securely installed? └ - Is the software compensation parameter set correctly? Document version: V1.0
Editor: Ningbo Jiangce Technology Department
Release date: June 20, 2026
Reference Document:
| Document | Explanation |
|:&# 8212; -|:— – |
| Renishaw XL-80 Laser Interferometer Product Manual | Technical Specifications and Operating Procedures |
| Keysight 5530 Laser Calibration System User Guide | Installation and Debugging |
| ISO 230-2 Machine Tool Positioning Accuracy Testing Standard | Measurement and Evaluation Specification |
| ISO/TR 16015 Thermal Effects Guidelines | Environmental Compensation Specification|
The technical data in this article is quoted from the publicly available technical materials mentioned above. If you have any questions, please refer to the original manual.
JCE Industrial Technology specializes in CNC probe and tool setter repair, calibration, and technical support for all major brands including Renishaw, Marposs, and Blum. For inquiries or technical assistance, contact us at jcetech_info@jcetech.cn or visit jcetech.cn.