H-811.I2 Miniature Hexapod
Fast, Compact, and Highly Precise
- Travel ranges to ±17 mm / ±21°
- Payload to 5 kg
- Repeatability to ±0.06 µm
- Velocity to 20 mm/s
- Vacuum model available
Application fields
Thanks to its small footprint and its proven reliability in applications with high numbers of cycles, the H-811 is typically employed in photonics and in precision assembly. In such areas, it contributes to boosting the productivity of complex manufacturing processes and measuring procedures.
High dynamics combined with extreme reliability
The parallel-kinematic arrangement enables the hexapod to perform motion in 6 axes in an extremely compact design. Thanks to the use of brushless DC motors and its stiff mechanical design, the H-811 offers the dynamics required for active alignment applications, even if external interference (e.g., in the case of gluing processes) occurs. Extensive software tools provide support by simplifying the system tuning and making automatic routines available for alignment to an external analog control signal.
Motion simulation for protecting the overall system
The PIVirtualMove software, which can be downloaded free of charge, simulates the travel range, the alignment, and the permissible forces and torques of the H-811 to facilitate an optimum system configuration. In this context, both the chosen center of rotation and the center of gravity of the load are taken into consideration.
Work and tool coordinate systems and an emulation tool are included in the free software package belonging to the scope of delivery of the hexapod controller. The tools provided help to protect critical components such as optical or photonic parts.
Specifications
Specifications
| Parameter | Sub 1 | Sub 2 | DC 1mm | DC 2mm | DC 5mm | ST 1mm | ST 2mm | ST 5mm | ||
|---|---|---|---|---|---|---|---|---|---|---|
| ---------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | ||
| **Travel range [mm]** | 50 | 100 | 150 | 200 | 250 | 300 | ||||
| **Drive type** | **DC motor** | **DC motor** | **DC motor** | **Stepper motor** | **Stepper motor** | **Stepper motor** | ||||
| **Spindle Pitch [mm]** | **1** | **2** | **5** | **1** | **2** | **5** | ||||
| Maximum velocity in X, unloaded [mm/s] | ||||||||||
| Acceleration [mm/s²] | ||||||||||
| Minimum incremental motion in X [nm] | Encoder | 1 Vpp | ||||||||
| RS-422 | ||||||||||
| Rot. | ||||||||||
| None | ||||||||||
| Unidirectional repeatability in X [µm] | Encoder | 1 Vpp | ||||||||
| RS-422 | ||||||||||
| Rot. | ||||||||||
| None | ||||||||||
| Bidirectional repeatability in X [µm] | Encoder | 1 Vpp | ||||||||
| RS-422 | ||||||||||
| Rot. | ||||||||||
| None | ||||||||||
| Sensor resolution [µm] | Encoder | 1 Vpp | ||||||||
| RS-422 | ||||||||||
| Rot. | ||||||||||
| None | ||||||||||
| Drive force in direction of motion in X [N] | ||||||||||
| Holding force in X, passive [N] | ||||||||||
| Permissible force in X [N] | ||||||||||
| Permissible force in Y [N] | ||||||||||
| Permissible torque in θX [Nm] | ||||||||||
| Permissible torque in θY [Nm] | ||||||||||
| Permissible torque in θZ [Nm] | ||||||||||
| Permissible force in Z [N] | ||||||||||
| **Travel range in X [mm]** | **50** | **100** | **150** | **200** | **250** | **300** | ||||
| Flatness (Z crosstalk) [µm] | ||||||||||
| Straightness (Y crosstalk) [µm] | ||||||||||
| Yaw (θZ crosstalk) [µrad] | ||||||||||
| Pitch (θY crosstalk) [µrad] | ||||||||||
| Holding brake | Optional for DC motor – holding force XY | |||||||||
| Drive screw type | ||||||||||
| Guide | ||||||||||
| Connector | ||||||||||
| Operating temperature range | ||||||||||
| Degree of protection | ||||||||||
| Recommended controllers/drivers | Most cost effective | Most dynamic | Modular platform (E-713/E-500) | |||||||
| **Crosstalks** | ||||||||||
| Travel range in X [mm] | 50 | 100 | 150 | 200 | 250 | 300 | ||||
| Flatness (Z crosstalk) [µm] | ||||||||||
| Straightness (Y crosstalk) [µm] | ||||||||||
| Yaw (θZ crosstalk) [µrad] | ||||||||||
| Pitch (θY crosstalk) [µrad] |
CPQ
Application fields
Thanks to its small footprint and its proven reliability in applications with high numbers of cycles, the H-811 is typically employed in photonics and in precision assembly. In such areas, it contributes to boosting the productivity of complex manufacturing processes and measuring procedures.
High dynamics combined with extreme reliability
The parallel-kinematic arrangement enables the hexapod to perform motion in 6 axes in an extremely compact design. Thanks to the use of brushless DC motors and its stiff mechanical design, the H-811 offers the dynamics required for active alignment applications, even if external interference (e.g., in the case of gluing processes) occurs. Extensive software tools provide support by simplifying the system tuning and making automatic routines available for alignment to an external analog control signal.
Motion simulation for protecting the overall system
The PIVirtualMove software, which can be downloaded free of charge, simulates the travel range, the alignment, and the permissible forces and torques of the H-811 to facilitate an optimum system configuration. In this context, both the chosen center of rotation and the center of gravity of the load are taken into consideration.
Work and tool coordinate systems and an emulation tool are included in the free software package belonging to the scope of delivery of the hexapod controller. The tools provided help to protect critical components such as optical or photonic parts.
Downloads
Product Note
Product Change Notification Hexapod Cables
Product Change Notification Motor Driven Products
Product Change Notification H-811 Series
Product Change Notification H-811 Vent Holes
Product Change Notification H-811.D2, H-811.D11, H-811.D12
Datasheet
Documentation
User Manual MS235
H-811 Miniature Hexapods
3D Models
H-811.I2 3D Model
Software Files
PIVirtualMove
Come Ricevere un’Offerta
Clicca su OFFERTA / ORDINE
Aggiungi le alternative alla lista per l’offerta
Compila il modulo offerta
Invia una richiesta di prezzo a PI
Vi contatteremo al più presto
Applicazioni
Packaging nel campo della Fotonica
L'assemblaggio e il packaging dei dispositivi fotonici richiedono sistemi di produzione altamente efficienti. L'allineamento è uno dei maggiori fattori di costo nella produzione di questi componenti, poiché viene ripetuto più volte nel processo di produzione. La rivoluzionaria tecnologia Fast Alignment di PI è stata ineguagliabile in queste sfide.
Regolazione del Campione
Alla Diamond Light Source, nel Regno Unito, la beamline I07 è una linea di diffrazione di raggi X ad alta risoluzione dedicata allo studio della struttura delle superfici e delle interfacce.
Posizionamento in Alto Vuoto
Indagine sulle proprietà strutturali dei film sottili in condizioni di alto vuoto.
Nanotomografia
Presso la fonte di luce a raggi X PETRA III al centro di ricerca DESY di Amburgo opera la Imaging Beamline P05.
Sistemi Hexapod nell'Automazione
Gli Hexapod permettono una eccellente flessibilità per una varietà di campioni dei sistemi di automazione in linea riducendo al minimo lo spazio per la robotica di movimento.