Multilayer Piezo Rectangular Actuators, linear actuator, piezoelectric actuator
Features
1 Compact size, accurate positioning in nm, high-speed response and large blocking force
2 High energy conversion efficiency, low power consumption and no electromagnetic noise
3 Easy to be controlled by voltage
Applications
1 Precision mechanics and mechanical engineering
2 Life sciences, Medicine and Biology
3 Pneumatic & Hydraulic valves
4 Nano positioning/High-speed switching
5 Active and Adaptive optics
Part Numbering
Outer Dimensions
Specifications
PTJ150 Series *Max. driving voltage=150VDC
Model | Dimensions | Nominal displacement | Blocking force | Stiffness | Electrical capacitance | Resonance Frequency |
A×B×H [mm] | [um@150V] | [N@150V] | [N/um] | [uF] | [kHz] |
| ±10% | | | ±20% | ±20% |
PTJ1500303041 | 3×3×5 | 4 | 330 | 80 | 0.14 | 300 |
PTJ1500303051 | 3×3×6 | 5 | 330 | 66 | 0.18 | 250 |
PTJ1500303101 | 3×3×10 | 10 | 330 | 33 | 0.3 | 150 |
PTJ1500303181 | 3×3×18 | 18 | 330 | 18 | 0.5 | 83 |
PTJ1500505051 | 5×5×6 | 5 | 900 | 180 | 0.44 | 250 |
PTJ1500505101 | 5×5×10 | 10 | 900 | 90 | 0.8 | 150 |
PTJ1500505201 | 5×5×18 | 20 | 900 | 45 | 1.5 | 83 |
PTJ1500505202 | 5×5×20 | 22 | 900 | 41 | 1.8 | 74 |
PTJ1500505301 | 5×5×28 | 30 | 900 | 30 | 2.4 | 53 |
PTJ1500505401 | 5×5×36 | 40 | 900 | 28 | 3 | 42 |
PTJ1500505402 | 5×5×34 | 40 | 900 | 28 | 2.9 | 44 |
PTJ1500505403 | 5×5×40 | 44 | 900 | 20 | 3.6 | 37 |
PTJ1500505601 | 5×5×54 | 60 | 900 | 15 | 4.5 | 28 |
PTJ1500707101 | 7×7×10 | 10 | 1800 | 180 | 1.6 | 150 |
PTJ1500707201 | 7×7×18 | 20 | 1800 | 90 | 3 | 83 |
PTJ1500707301 | 7×7×28 | 30 | 1800 | 60 | 4.7 | 53 |
PTJ1500707361 | 7×7×30 | 36 | 1800 | 50 | 5 | 50 |
PTJ1500707362 | 7×7×30 | 36 | 1800 | 50 | 5 | 50 |
PTJ1500707381 | 7×7×32 | 38 | 1800 | 47 | 5.3 | 47 |
PTJ1500707401 | 7×7×36 | 40 | 1800 | 45 | 6.1 | 42 |
PTJ1500707501 | 7×7×42 | 50 | 1800 | 36 | 6.9 | 36 |
PTJ1501010101 | 10×10×10 | 10 | 3600 | 360 | 3.2 | 150 |
PTJ1501010201 | 10×10×18 | 20 | 3600 | 180 | 6 | 83 |
PTJ1501010301 | 10×10×28 | 30 | 3600 | 120 | 9.2 | 53 |
PTJ1501010401 | 10×10×36 | 40 | 3600 | 90 | 12 | 42 |
PTJ1501010501 | 10×10×46 | 50 | 3600 | 72 | 15.2 | 33 |
PTJ1501010601 | 10×10×54 | 60 | 3600 | 66 | 18 | 28 |
PTJ1501414101 | 14×14×10 | 10 | 7200 | 720 | 6.2 | 150 |
PTJ1501414201 | 14×14×20 | 20 | 7200 | 360 | 13.1 | 75 |
PTJ1501414301 | 14×14×30 | 30 | 7200 | 240 | 19.3 | 50 |
PTJ1501414401 | 14×14×40 | 40 | 7200 | 180 | 26.2 | 37 |
* Customize on request.
Testing method
1 The actuator shall be placed vertically on the table must be kept level before testing. The test contactor must be set vertically
to the table and kept in contact with the center of top of the actuator during testing.
2 only DC voltage shall be applied.
3 Connect the yellow lead to the positive (+) and the black lead to the negative(-).
4 See Fig below for fixing method detail.
Performance by measured value
Guide to use
1 The actuator shall be connected exactly with the element which to be driven by rigid connection.
2 Use the actuator without load is prohibited so that preload is necessary before use.
3 Do not apply a voltage exceeding Max. driving voltage value to the actuator.
4 The actuaor shall be used in dry atmosphere below 60% RH and in a range of temperature -20~85 °C. Otherwise, Insulation resistance droppong or shortened working life may occur.
5 The actuator of resin-coated type is weak to a tensile force because of its structure so direction of generated force must be same with the center axis of the actuator.Please see the examples shown below.