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KLJF200 series
Piece
Features
Compact size
Accurate positioning in nm
High-speed response in ms
Large blocking force
High energy conversion efficiency, low power consumption and no electromagnetic noise
Easy to be controlled by voltage
Scope of applications
Precision mechanics and mechanical engineering
Life sciences,Medicine and Biology
Pneumatic&Hydraulic valves
Nano positioning/high-speed switching
Active and Adaptive optics
Dimension
Specification
Model | Dimensions | Nominal displacement | Blocking force | Stiffness | Electrical capacitance | Resonance Frequency |
A×B×H [mm] | [µm@200V] | [N@200V] | [N/µm] | [µF] | [kHz] | |
±0.05 | ±10% | ±20% | ±20% | |||
KLJF2000303051 | 3×3×6 | 5 | 330 | 66 | 0.11 | 250 |
KLJF2000303101 | 3×3×10 | 10 | 330 | 33 | 0.25 | 150 |
KLJF2000505051 | 5×5×6 | 5 | 900 | 180 | 0.35 | 250 |
KLJF2000505101 | 5×5×10 | 10 | 900 | 90 | 0.55 | 150 |
KLJF2000505121 | 5×5×12 | 12 | 900 | 75 | 0.57 | 125 |
KLJF2000505201 | 5×5×18 | 20 | 900 | 45 | 0.9 | 83 |
KLJF2000505301 | 5×5×28 | 30 | 900 | 30 | 1.5 | 53 |
KLJF2000505302 | 5×5×30 | 30 | 900 | 30 | 1.5 | 50 |
KLJF2000505401 | 5×5×36 | 40 | 900 | 23 | 1.8 | 42 |
KLJF2000505402 | 5×5×35 | 40 | 900 | 23 | 1.8 | 43 |
KLJF2000707101 | 7×7×10 | 10 | 1800 | 180 | 1.0 | 150 |
KLJF2000707201 | 7×7×18 | 20 | 1800 | 90 | 1.9 | 83 |
KLJF2000707301 | 7×7×28 | 30 | 1800 | 60 | 3 | 53 |
KLJF2000707381 | 7×7×32 | 38 | 1800 | 47 | 3.2 | 47 |
KLJF2000707401 | 7×7×36 | 40 | 1800 | 45 | 3.8 | 42 |
KLJF2000707501 | 7×7×42 | 50 | 1800 | 36 | 4.5 | 36 |
KLJF2001010101 | 10×10×10 | 10 | 3600 | 360 | 2.0 | 150 |
KLJF2001010201 | 10×10×18 | 20 | 3600 | 180 | 3.5 | 83 |
KLJF2001010301 | 10×10×28 | 30 | 3600 | 120 | 6.0 | 53 |
KLJF2001010401 | 10×10×36 | 40 | 3600 | 90 | 7.0 | 42 |
KLJF2001414101 | 14×14×10 | 10 | 7200 | 720 | 3.5 | 150 |
KLJF2001414201 | 14×14×20 | 20 | 7200 | 360 | 6.5 | 75 |
KLJF2001414301 | 14×14×30 | 30 | 7200 | 240 | 9.5 | 50 |
KLJF2001414401 | 14×14×40 | 40 | 7200 | 180 | 13 | 37 |
* Customize on request.
Features
Compact size
Accurate positioning in nm
High-speed response in ms
Large blocking force
High energy conversion efficiency, low power consumption and no electromagnetic noise
Easy to be controlled by voltage
Scope of applications
Precision mechanics and mechanical engineering
Life sciences,Medicine and Biology
Pneumatic&Hydraulic valves
Nano positioning/high-speed switching
Active and Adaptive optics
Dimension
Specification
Model | Dimensions | Nominal displacement | Blocking force | Stiffness | Electrical capacitance | Resonance Frequency |
A×B×H [mm] | [µm@200V] | [N@200V] | [N/µm] | [µF] | [kHz] | |
±0.05 | ±10% | ±20% | ±20% | |||
KLJF2000303051 | 3×3×6 | 5 | 330 | 66 | 0.11 | 250 |
KLJF2000303101 | 3×3×10 | 10 | 330 | 33 | 0.25 | 150 |
KLJF2000505051 | 5×5×6 | 5 | 900 | 180 | 0.35 | 250 |
KLJF2000505101 | 5×5×10 | 10 | 900 | 90 | 0.55 | 150 |
KLJF2000505121 | 5×5×12 | 12 | 900 | 75 | 0.57 | 125 |
KLJF2000505201 | 5×5×18 | 20 | 900 | 45 | 0.9 | 83 |
KLJF2000505301 | 5×5×28 | 30 | 900 | 30 | 1.5 | 53 |
KLJF2000505302 | 5×5×30 | 30 | 900 | 30 | 1.5 | 50 |
KLJF2000505401 | 5×5×36 | 40 | 900 | 23 | 1.8 | 42 |
KLJF2000505402 | 5×5×35 | 40 | 900 | 23 | 1.8 | 43 |
KLJF2000707101 | 7×7×10 | 10 | 1800 | 180 | 1.0 | 150 |
KLJF2000707201 | 7×7×18 | 20 | 1800 | 90 | 1.9 | 83 |
KLJF2000707301 | 7×7×28 | 30 | 1800 | 60 | 3 | 53 |
KLJF2000707381 | 7×7×32 | 38 | 1800 | 47 | 3.2 | 47 |
KLJF2000707401 | 7×7×36 | 40 | 1800 | 45 | 3.8 | 42 |
KLJF2000707501 | 7×7×42 | 50 | 1800 | 36 | 4.5 | 36 |
KLJF2001010101 | 10×10×10 | 10 | 3600 | 360 | 2.0 | 150 |
KLJF2001010201 | 10×10×18 | 20 | 3600 | 180 | 3.5 | 83 |
KLJF2001010301 | 10×10×28 | 30 | 3600 | 120 | 6.0 | 53 |
KLJF2001010401 | 10×10×36 | 40 | 3600 | 90 | 7.0 | 42 |
KLJF2001414101 | 14×14×10 | 10 | 7200 | 720 | 3.5 | 150 |
KLJF2001414201 | 14×14×20 | 20 | 7200 | 360 | 6.5 | 75 |
KLJF2001414301 | 14×14×30 | 30 | 7200 | 240 | 9.5 | 50 |
KLJF2001414401 | 14×14×40 | 40 | 7200 | 180 | 13 | 37 |
* Customize on request.
Instructions:
The product belongs to the large output, small displacement (relative to the millimeter level) electronic components. Due to the small displacement, the use of the product must pay attention to good contact with the load (preferably rigid connection). Soft connection is easy to make product displacement loss. It is generally not allowed to use no load, and a certain amount of prestress is required.
Prestress comparison table (rectangle):
Cross Sectional Area | Standard Pressure | Maximum Pressure | Suggested prestress | Maximum prestress | |
Length[mm] | Width[mm] | ||||
3 | 3 | 15 | 20 | 135 | 180 |
5 | 5 | 15 | 20 | 375 | 500 |
7 | 7 | 15 | 20 | 735 | 980 |
10 | 10 | 15 | 20 | 1500 | 2000 |
14 | 14 | 15 | 20 | 2940 | 3920 |
Using condition:
The product temperature range is -20~120°C, and the ambient humidity is ≤75%. If the temperature is too high, the product may be damaged or the performance may be degraded. In a high-humidity environment, the insulation resistance of the product may be lowered, which may affect the service life or damage of the product.Using condition:
Instructions:
The product belongs to the large output, small displacement (relative to the millimeter level) electronic components. Due to the small displacement, the use of the product must pay attention to good contact with the load (preferably rigid connection). Soft connection is easy to make product displacement loss. It is generally not allowed to use no load, and a certain amount of prestress is required.
Prestress comparison table (rectangle):
Cross Sectional Area | Standard Pressure | Maximum Pressure | Suggested prestress | Maximum prestress | |
Length[mm] | Width[mm] | ||||
3 | 3 | 15 | 20 | 135 | 180 |
5 | 5 | 15 | 20 | 375 | 500 |
7 | 7 | 15 | 20 | 735 | 980 |
10 | 10 | 15 | 20 | 1500 | 2000 |
14 | 14 | 15 | 20 | 2940 | 3920 |
Using condition:
The product temperature range is -20~120°C, and the ambient humidity is ≤75%. If the temperature is too high, the product may be damaged or the performance may be degraded. In a high-humidity environment, the insulation resistance of the product may be lowered, which may affect the service life or damage of the product.Using condition:
Cautions:
1. The material of the product is ceramic material and has brittleness. Therefore, when using this product, the contact method should be surface contact. Do not use point contact or line contact. When using this product, the output direction and the axial direction of the device must be consistent. As shown below:
2. When the product is powered on, it is strictly forbidden to use voltage which is over rated voltage. (Refer to the 5.0 coding rule for the rated voltage.) It is recommended that the input current does not exceed 15A.
3. The output at zero displacement is the maximum output. Conversely, the output at the maximum displacement will be close to infinitely small. It is recommended to select the correct model to meet normal use.
Cautions:
1. The material of the product is ceramic material and has brittleness. Therefore, when using this product, the contact method should be surface contact. Do not use point contact or line contact. When using this product, the output direction and the axial direction of the device must be consistent. As shown below:
2. When the product is powered on, it is strictly forbidden to use voltage which is over rated voltage. (Refer to the 5.0 coding rule for the rated voltage.) It is recommended that the input current does not exceed 15A.
3. The output at zero displacement is the maximum output. Conversely, the output at the maximum displacement will be close to infinitely small. It is recommended to select the correct model to meet normal use.
Test method:
1. The test table must be horizontal and the product must be perpendicular to the table.Test contacts must touch the center of the actuator's end face and must be placed perpendicular to the horizontal table before testing.
2. The power supply must be a DC regulated power.
3. Wiring method: the red wire is connected to the positive pole and the black wire is connected to the negative pole.
4. Specific installation: as shown in the figure below
Test method:
1. The test table must be horizontal and the product must be perpendicular to the table.Test contacts must touch the center of the actuator's end face and must be placed perpendicular to the horizontal table before testing.
2. The power supply must be a DC regulated power.
3. Wiring method: the red wire is connected to the positive pole and the black wire is connected to the negative pole.
4. Specific installation: as shown in the figure below
Materials performance:
Key Technical Index | Unit | Value |
Relative dielectric constant εr3T | - | 3500±20% |
Electromechanical coupling factor Kp | - | 70% |
Longitudinal piezoelectric strain coefficient d33 | 10-12C/N | ≥650 |
Piezoelectric voltage constant g33 | 10-3Vm/N | 17 |
Elastic flexible coefficient S11E | 10-12m2/N | 14.3 |
Elastic flexible coefficient S33E | 10-12m2/N | 18.5 |
Dielectric loss tgδ | 10-3 | ≤1.5 |
M quality factor Qm | - | 45 |
Curie temperature TC | ℃ | 240 |
Density ρ | g/cm3 | 7.9 |
Materials performance:
Key Technical Index | Unit | Value |
Relative dielectric constant εr3T | - | 3500±20% |
Electromechanical coupling factor Kp | - | 70% |
Longitudinal piezoelectric strain coefficient d33 | 10-12C/N | ≥650 |
Piezoelectric voltage constant g33 | 10-3Vm/N | 17 |
Elastic flexible coefficient S11E | 10-12m2/N | 14.3 |
Elastic flexible coefficient S33E | 10-12m2/N | 18.5 |
Dielectric loss tgδ | 10-3 | ≤1.5 |
M quality factor Qm | - | 45 |
Curie temperature TC | ℃ | 240 |
Density ρ | g/cm3 | 7.9 |
Changzhou Keliking Electronics Co., Ltd.
Contact:Mr. Yao
Mobile:13656128000
Tel:86 +519-88671999-801
Fax:86 +519-88671999-808
Add:1-1301 Hang Seng Science Park, Tianning District, Changzhou, Jiangsu, China