High-dynamics motion hexapod microrobot, voice coil drives, 1 kg load capacity, 250 mm/s max. velocity, flexures, high-performance power adapter, 3 m cable set
H-860 6-Axis Motion Hexapod
Magnetic Direct Drive for High Velocity
- High velocity and dynamics
- Minimal moved mass and inertia
- Velocity up to 250 mm/s
- Precise path tracking
- Friction-free voice coil drive
Thanks to its excellent dynamic properties, the H-860 is ideally suited for motion simulation.
It is used in test systems, e.g., for image stabilization in cameras and mobile devices. Further fields of application include quality assurance of camera test systems and image stabilization software; vibration simulation, eye tracking, simulation of human and artificial motion.
The friction-free drive design is based on voice coils drives and flexure guides. The struts and platform are made of carbon fiber for minimal moved mass and inertia.
Parallel-kinematic 6-axis system
Parallel-kinematic design for six degrees of freedom, making it significantly more compact and stiffer than serial-kinematic systems, no moved cables.
Precise running of predefined motion profiles with high path accuracy: Sine curves and freely definable trajectories.
PIMag® voice coil
Voice coil drives consist of two essential components: A permanent magnet and a coil that are located in the air gap of the magnetic field. Thanks to their low weight and friction-free drive principle, voice coil drives are particularly suitable for applications that require high dynamics and high velocities at limited travel ranges. High scan frequencies and precision positioning are also possible with these drives, because they are free of the effects of hysteresis.
PIVirtualMove
The simulation software simulates the limits of the workspace and load capacity of a hexapod. Therefore, even before purchasing, you can check whether a particular hexapod model can handle the loads, forces, and torques occurring in an application. For this purpose, the simulation tool takes the position and motion of the hexapod as well as the pivot point and several reference coordinate systems into account.
Specifications
Specifications
Motion | H-860.S2H | Tolerance |
---|---|---|
Active axes | X ǀ Y ǀ Z ǀ θX ǀ θY ǀ θZ | |
Travel range in X | ± 7.5 mm | |
Travel range in Y | ± 7.5 mm | |
Travel range in Z | ± 7.5 mm | |
Rotation range in θX | ± 4 ° | |
Rotation range in θY | ± 4 ° | |
Rotation range in θZ | ± 4 ° | |
Maximum velocity in X | 250 mm/s | |
Maximum velocity in Y | 250 mm/s | |
Maximum velocity in Z | 250 mm/s | |
Maximum angular velocity in θX | 125 mrad/s | |
Maximum angular velocity in θY | 125 mrad/s | |
Maximum angular velocity in θZ | 125 mrad/s | |
Typical velocity in X | 20 mm/s | |
Typical velocity in Y | 20 mm/s | |
Typical velocity in Z | 20 mm/s | |
Typical angular velocity in θX | 10 mrad/s | |
Typical angular velocity in θY | 10 mrad/s | |
Typical angular velocity in θZ | 10 mrad/s | |
Amplitude-frequency product in X | 30 mm·Hz | |
Amplitude-frequency product in Y | 30 mm·Hz | |
Amplitude-frequency product in Z | 30 mm·Hz | |
Amplitude-frequency product in θX | 15 °·Hz | |
Amplitude-frequency product in θY | 15 °·Hz | |
Amplitude-frequency product in θZ | 15 °·Hz | |
Amplitude error | 10 % | max. |
Phase error | 60 ° | max. |
Maximum frequency | 30 Hz | |
Positioning | H-860.S2H | Tolerance |
Minimum incremental motion in X | 1 µm | typ. |
Minimum incremental motion in Y | 1 µm | typ. |
Minimum incremental motion in Z | 1 µm | typ. |
Minimum incremental motion in θX | 9 µrad | typ. |
Minimum incremental motion in θY | 9 µrad | typ. |
Minimum incremental motion in θZ | 9 µrad | typ. |
Unidirectional repeatability in X | ± 0.5 µm | typ. |
Unidirectional repeatability in Y | ± 0.5 µm | typ. |
Unidirectional repeatability in Z | ± 0.5 µm | typ. |
Unidirectional repeatability in θX | ± 9 µrad | typ. |
Unidirectional repeatability in θY | ± 9 µrad | typ. |
Unidirectional repeatability in θZ | ± 9 µrad | typ. |
Backlash in X | 0.2 µm | typ. |
Backlash in Y | 0.2 µm | typ. |
Backlash in Z | 0.06 µm | typ. |
Backlash in θX | 4 µrad | typ. |
Backlash in θY | 4 µrad | typ. |
Backlash in θZ | 4 µrad | typ. |
Integrated sensor | Absolute linear encoder | |
Drive Properties | H-860.S2H | Tolerance |
Drive type | Voice coil | |
Maximum power consumption | 300 W | |
Mechanical Properties | H-860.S2H | Tolerance |
Stiffness in X | 0.7 N/µm | |
Stiffness in Y | 0.7 N/µm | |
Stiffness in Z | 8 N/µm | |
Maximum load capacity, base plate in any orientation | 1 kg | |
Maximum load capacity, base plate horizontal | 1 kg | |
Overall mass | 30 kg | |
Material | Stainless steel, aluminum | |
Miscellaneous | H-860.S2H | Tolerance |
Operating temperature range | 0 to 50 °C | |
Connector | HD D-sub 78 (m) | |
Recommended controllers / drivers | C-887.5x |
Ask about customized versions.
When measuring position specifications, typical velocity is used. The data is included in the delivery of the product in the form of a measurement report and is stored at PI.
The maximum travel ranges of the individual coordinates (X, Y, Z, θX, θY, θZ) are interdependent. The data for each axis shows its maximum travel range when all other axes are in the zero position of the nominal travel range and the default coordinate system is in use, or rather when the pivot point is set to 0,0,0.
At PI, technical data is specified at 22 ±3 °C. Unless otherwise stated, the values are for unloaded conditions. Some properties are interdependent. The designation "typ." indicates a statistical average for a property; it does not indicate a guaranteed value for every product supplied. During the final inspection of a product, only selected properties are analyzed, not all. Please note that some product characteristics may deteriorate with increasing operating time.
Downloads
Product Note
Product Change Notification Motor Driven Products
Datasheet
Documentation
User Manual H860T0002
H-860 Hexapod with Magnetic Direct Drive for High Velocity