HEIDENHAIN is a company that focuses on the development and manufacturing of control and measurement systems, operating within the technology and industrial sectors. The company's main offerings include linear and angle encoders, rotary encoders, digital readouts, and CNC controls, which are used for precise positioning tasks. These products are primarily sold to sectors such as the machine tool industry, automation, electronics, and robotics. It is based in Schaumburg, Illinois.
HEIDENHAIN has filed 3 patents.
Sensors, Gas sensors, Transducers, Motor control, Somatic motor system
Sensors, Gas sensors, Transducers, Motor control, Somatic motor system
Latest HEIDENHAIN News
Nov 8, 2023
Nov. 6, 2023 While OEMs can use several single-axis encoders to measure different directions, doing so is more complex than using pre-integrated and tested multiple degrees of freedom encoders. Figure 1. Diagonal graduation tracks. Source: Heidenhain There is an ever-increasing demand for accuracy in many manufacturing industries. Adding to this general need for higher accuracy is the fact that industry sectors such as semiconductors and electronics are moving to ever-smaller feature sizes. To achieve the high levels of precision increasingly required by a variety of manufacturer, machine builders need metrology designs with encoders that can deliver accurate, reproducible measurements. A limitation in traditional approaches is that conventional linear encoders can measure only one degree of freedom, which means they cannot detect errors in other directions. This includes the unavoidable effects of deviations from guideway error or thermal expansion, which would cause deflection along multiple axes. Simply improving an encoder’s accuracy in its primary axis is not enough to achieve the accuracy needed in many of today’s applications. Another issue is that, in multi-axis systems, an error in one axis carries over into the other axes, thereby affecting the entire motion system. A discrepancy in any encoder axis will change the position of the machine’s tool point–but these errors are typically not measured. To overcome this issue, Heidenhain has developed a technology that can simultaneously provide data across multiple degrees of freedom (Multi-DOF). By using multiple reader heads, and developing the encoder interface to effectively read them, errors in multiple axes can be measured and compensated for to increase overall system accuracy. Principles of multi-axis encoders Linear encoders consist of a scale with a grating and a scanning head. In Heidenhain’s latest encoders, for example, the scale or track has reflecting lines that are 0.2µm high and are spaced 4µm or less apart. The scanning head moves along the scale without mechanical contact and reads the grating. Although there are different methods in which an encoder can read a grating, the most precise method is to do so optically–using the refraction and interference of light to obtain exceptional accuracy. The Heidenhain Dplus Multi-DOF encoders, such as the LIP 6000 Dplus, have a carrier with two separate diagonal graduation tracks oriented at ±45°to the center line (see Figure 1). This enables direct, high-accuracy measurement of both the primary x-axis and secondary y-axis directions along the entire measuring length, with the secondary axis having a measurement range of ±2mm. To take out-of-plane measurements, Heidenhain has developed the GAP 1081. The encoder technology used here enables measurement of the gap between a mirrored scale and the scanning head. This way, out-of-plane measurements can be made in any other axis, depending on the setup of the metrology system. The GAP 1081 also features high drift stability with no subsequent electronics needed (it can interface with standard 1Vpp encoder inputs) which also makes it very cost effective. Using both LIP 6000 Dplus and GAP 1081 together allows for measurements across three degrees of freedom along x, y and z as shown in Figure 2. This concept can be expanded to include more encoder heads to reach a full six degrees of freedom. With a full six degrees being monitored, deviations can be detected in x, y and z directions along with angular displacement of roll (Rx), pitch (Ry) and yaw (Rz). Even in cases where all six degrees do not need to be monitored, the LIP 6000 Dplus and GAP 1081 allow for easier integration of the concept along three degrees. Simplifying cabling With two or more degrees of freedom being scanned at the same time, how can machine builders avoid the complexity of too many cables? The EnDat 3 serial interface from Heidenhain enables two or more streams of data to be forwarded to the controller over a single cable. Using EnDat3, data from multiple encoder cables can be routed to a single bus interface and transferred out through a single line. This can be done with position data as well as with data from other types of sensors such as acceleration and temperature. How multi-DOF encoders simplify calibration In practice, there are two ways to implement Multi-DOF technology and which way is used should be decided through discussions with the machine builder’s customer. The first option is to mount the Multi-DOF encoders directly into the machine similarly to how a regular encoder would be installed—using them to monitor the movement of interest across the lifespan. This way you’ll get constant real-time deviation readings which allows the machine to adjust to any thermal expansions and adapt to any duty cycle changes of the machine. An alternative approach is to use the Multi-DOF encoder as a calibration system. Here, the scale is mounted to a pre-calibrated carrier that is resistant to thermal or mechanical influences. This ensures the system preserves its high-end accuracy after repeated mounting/dismounting of the scale with minimal deviations. The scale would then be used on one machine at a time to detect mechanical deviations. The resulting data would then be used to create a machine mapping table for each individual machine, which is stored in the controller and then used to compensate for errors during regular operations using other axes on the system. To ensure that the calibration scale maintains its highly accurate measuring standard, it would undergo regular quality control and recalibration at a Heidenhain facility. 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HEIDENHAIN Frequently Asked Questions (FAQ)
Where is HEIDENHAIN's headquarters?
HEIDENHAIN's headquarters is located at 222 Remington Rd., Schaumburg.
Who are HEIDENHAIN's competitors?
Competitors of HEIDENHAIN include MKS Instruments and 4 more.
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