Sensor de microforcio NH3B9
Obtener el último precioTipo de Pago: | L/C,T/T,Paypal |
Incoterm: | FOB,CFR,EXW |
Cantidad de pedido mínima: | 2 Piece/Pieces |
transporte: | Ocean,Land,Air,express |
Hafen: | Shenzhen China |
Tipo de Pago: | L/C,T/T,Paypal |
Incoterm: | FOB,CFR,EXW |
Cantidad de pedido mínima: | 2 Piece/Pieces |
transporte: | Ocean,Land,Air,express |
Hafen: | Shenzhen China |
Modelo: NH3B9
Marca: Nanhua
Lugar De Origen: porcelana
Utilizar: SENSOR DE PRESIÓN
Salida: SENSOR Analógico
Tipo De Amplificador: Estándar
Jack: Cosa análoga
Unidades de venta | : | Piece/Pieces |
Tipo de paquete | : | cada uno en carcasa de plástico, docenas en una caja de cartón externa |
The file is encrypted. Please fill in the following information to continue accessing it
About our productIntroducing our Micro Force Sensor, a groundbreaking innovation in the realm of load cells, specifically engineered to detect and measure infinitesimal forces with unparalleled accuracy. This sensor represents a remarkable fusion of load cell technology, drawing inspiration from the precision principles of single point load cells, platform load cells, and high accuracy load cells to achieve exceptional sensitivity and reliability in measuring minute forces.
Crafted with precision engineering, our Micro Force Sensor operates on the fundamental concepts of load cells but is tailored to detect forces at a micro-scale level, providing insights into forces previously beyond the reach of standard load cells. Its design incorporates elements reminiscent of single point load cells, enabling precise force measurement at specific locations, while embracing the principles of platform load cells to ensure uniform and consistent force detection across the sensor's surface. Where will Micro Force Sensor be useful?
This sensor serves as an invaluable tool across a multitude of industries and applications where measuring micro-level forces is essential. In biomedical research, it enables the study of cellular mechanics and delicate forces within biological systems, contributing to advancements in understanding cellular behavior. In microelectronics, our sensor facilitates the meticulous assessment of tiny forces critical in the assembly and functionality of microcomponents, ensuring the integrity of electronic devices.
Moreover, in robotics and materials science, the Micro Force Sensor plays a pivotal role in enhancing the sensitivity and accuracy of robotic systems while aiding in the characterization of material properties at the micro-level. Its exceptional precision and sensitivity offer researchers and engineers a window into previously imperceptible forces, enabling groundbreaking advancements and innovative applications.
Built with state-of-the-art materials and cutting-edge calibration techniques, our Micro Force Sensor guarantees durability, reliability, and sustained accuracy even under demanding conditions. Its miniature form factor and heightened sensitivity allow for unparalleled detection and analysis of forces at the micro-scale, opening new avenues for scientific exploration and technological breakthroughs.
In summary, our Micro Force Sensor represents the pinnacle of load cell innovation, harnessing the core principles of single point load cells, platform load cells, and high accuracy load cells to deliver unmatched precision in measuring micro-forces. Its versatility, reliability, and precision position it as an indispensable tool across industries, empowering researchers, engineers, and innovators to delve into the microscopic world of forces with unprecedented accuracy and insight.
Range: 5-200KGWidely used in automated force measuring devices such as robot hand grasping and fillingStructure: stainless steel material, micro structure
Appearance: waterproof and sealed
|
Wiring method: |
|
Technical parameter table: |
PARAMETERS | |||
Sensor Range | KG | 5-200 | Rated load |
Comprehensive error | FS | 0.10% | Comprehensive error |
sensitivity | mv/v | 1.0±0.2 | Rated output |
Zero point output | FS | ±1% | Zero balance |
creep | %FS/30min | 0.10% | Creep |
Zero temperature effect | %FS/10℃ | 0.10% | Temp.effect on zero |
Sensitivity temperature influence | %FS/10℃ | 0.10% | Temp.effect on span |
Nonlinear | %FS | 0.10% | Non-Linearity |
Hysteresis | %FS | 0.10% | Hysteresis |
Repeatability | %FS | 0.10% | Repeatability |
Input impedance | Ω | 750±5 | Input resistance |
Output impedance | Ω | 750±5 | output resistance |
insulation resistance | MΩ | ≥5000(100V) | Insulation resistance |
Temperature compensation range | ℃ | -10-40 | Compensated temp.range |
Operating temperature range | ℃ | -35-65 | Use temp.range |
Excitation voltage | V | 5-12(DC) | Excitation voltage |
Safe overload range | % | 150 | Safe overload |
Overall dimensions: |
|
Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.
Fill in more information so that we can get in touch with you faster
Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.