Precision Measurement

LM precision measurement sensor inspects IC chips seated in nests

Solve Applications with the Tightest Tolerances

Precise measurement applications can be some of the most challenging to solve. Extremely tight tolerance requirements demand a reliable solution that can measure parts in micrometers to detect the smallest variations in part size, thickness, orientation, placement, and more.

Ensuring parts meet strict quality standards can help reduce problems downstream and reduce the risk of product recall due to imperfect parts.

Challenges of Precision Measurement

Q4X laser measurement sensors inspect a metal bracket
Real World Conditions

Real world conditions—including variations in target color and reflectivity, fluctuations in ambient temperature, and vibration from improper mounting—can make precise measurement challenging, even for laser sensors that perform reliably in perfect laboratory conditions.

Even seemingly insignificant details, like pushing buttons on the sensor, can negatively impact the device's precision. 

Therefore, it is important to understand the factors that can impact measurement precision in order to identify a solution that can overcome these challenges.

Keep reading to learn several key considerations to help you find the right sensor for your most precise measurement applications, or contact us to discuss your application with an expert.

Considerations for Choosing Precision Measurement Sensor

Q4X sensors detect small washers in an engine block
Start with the Specifications

WHY resolution isn't everything

For precise applications, measurement in micrometers is essential. However, while resolution is very important for precise applications, resolution specifications only represent a sensor’s performance in “best case” conditions.

Because of this, resolution specifications often do not provide a complete picture of a sensor’s capabilities in the real world and sometimes overstate sensor performance. 

Therefore, it is important to consider the resolution specification in combination with other indicators of the sensor’scapabilities.

In discrete sensing applications, it is also important to consider the sensor’s repeatability (how reliably the sensor can repeat the same measurement in the same conditions) and the minimum object separation (the minimum distance a target must be from the background to be reliably detected).

For analog applications, it is important to consider both the sensor’s resolution and its linearity (how closely the analog output approximates a straight line across the measuring range) to ensure a reliable output across the full range of the sensor.

When combined with resolution, these additional specifications provide a more complete picture of sensor performance in the real world.

LM precision measurement sensor measures crankshaft runout
Understand Real World Challenges to Precision

Real World Targets and Temperature Fluctuation

Real world targets are often difficult to measure consistently. Depending on the industry and application, objects may be very dark (low reflectivity), glossy (high reflectivity), or contain multiple color transitions—all of which can significantly impact measurement reliability.

To mitigate this issue, some laser measurement sensors like the LM Series feature automatic gain adjustment, which means the sensor dynamically reduces or increases its power based on the reflectivity of the target. This ensures targets of varying colors and reflectivity are all measured reliably.

Precision measurement can also be greatly affected by changes in ambient temperature. For some sensors, temperature fluctuations of even a few degrees up or down throughout the day can cause the sensor’s measurement error to double, eliminating any benefit of a precision sensor. Therefore, it is essential to choose a sensor with high thermal stability for reliable measurement regardless of the surrounding temperatures.

LM precision measurement sensor measures crankshaft runout
LM precision measurement sensor monitors cardboard thickness
Choose the Right Configuration and Mounting

Remote Configuration & Monitoring for Precision

Finally, choosing the right configuration and mounting options can help ensure the precision of a sensor.

Mounting stability is crucial for a precision measurement sensor. Even with the best specifications, if a precision sensor isn’t mounted securely, measurements will not be reliable. To reduce the risk of measurement error, ensure that the sensor can be securely fastened to the mounting fixture and kept away from excessive vibration.

Remote configuration and monitoring options, via IO-Link or Banner's RSD1 remote sensor display, enable the sensor to be configured without pushing buttons directly on the device. This reduces the risk of button movement interfering with the sensor's precision. 

Remote configuration and monitoring options also enable users to gather health and performance data from the sensor, which allows manufacturers to predict maintenance requirements and make data-driven decisions.   

Featured Products

LM Series Precision Measurement Sensor
LM Series

Precision Measurement Sensor

The LM Series precision measurement sensor offers best-in-class performance and real-world stability in a compact device with an intuitive user experience.

  • Precise measurements with 0.002 - 0.004 mm resolution
  • Fast 0.5 ms response speed and 0.25 ms sampling rate
  • Compact housing designed to fit into small spaces
  • Best-in-class thermal and mechanical stability 
  • IP67 and Grade 316 stainless steel for chemical compatibility
  • Optional Remote Sensor Display (RSD) for remote monitoring and setup
  • Supports Industry 4.0/IIoT with IO-Link®, discrete, and analog outputs in one model
  • High resolution distance measurements with RS-232 digital export via communication cable
Q4X Series Laser Measurement Sensor
Q4X Series

Problem-Solving Laser Measurement Sensor

Versatile, rugged laser distance sensors offering superior performance and capable of detecting sub-millimeter changes in distance.

  • Discrete, analog (0 to 10 V or 4 to 20 mA), clear object, and IO-Link models available
  • Reliable sensing range from as close as 25 mm and as far as 610 mm
  • Detects across a variety of target colors, materials and surfaces based on distance
  • Dual teach mode (intensity + distance) is ideal for error-proofing applications and enables clear object detection with no retro-reflector required
  • Robust housing rated to IP69K with FDA-grade stainless steel
Q4X Series Laser Measurement Sensor

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