Popular Encoder Family Gets A Facelift

After more than 10 years on the market, HEIDENHAIN’s LIF 400 family of encoders has been redesigned with several improvements. The revamped LIF 400 series has a position noise value of 0.6 nm at 1 MHz and an interpolation error down to ±12 nm.

 

One of the major updates is the incorporation of the HEIDENHAIN Signal Processor (HSP1.0) custom ASIC into the scanning unit. This ASIC helps lower the interpolation error, and also powers through contaminations on the scale as it adjusts the LED intensity every signal period while moving at up to 4 m/s. This compensation adjusts the amplitude and phase of the signals so that the control sees constant perfect signals even with contaminants such as large fingerprints, dust, and wafer pieces that may be on the glass scale. Checkout the video demo.

SENSORS MIDWEST

Sensors Midwest Hits Rosemont, IL October 16-17!

Sensors Midwest, the industry's largest event focusing on sensors, design, and IIoT in the Midwest region, is scheduled for October 16-17 at the Donald E. Stephens Convention Center in Rosemont, IL. Co-located with STMA, the event draws over 1,000 engineers and engineering professionals that are looking for access to the latest sensor advancements and will provide an opportunity to connect with the area's greatest technology leaders and suppliers.

 

Another addition is a status LED on the connector that indicates the status of the incremental signals and can also be used as a general mounting indication. It’s a simple red/green display for the signals and blue for a good reference mark signal. Also, the connector is now smaller versus the older version, which saves space and improves accessibility when plugged into tight spaces. This 15-pin male connector is 27 mm shorter than the previous version.

 

Like the previous version, the mechanics of the scanning head do not change, and scanning units can be ordered with the 1-volt peak-to-peak interface with 4-micron signal period, or TTL versions with resolutions down to 10 nanometers. The glass scale is also unchanged. For more details, visit HEIDENHAIN.

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