Thanks to its small dimensions, the miniature force sensor is easy to use on hard-to-reach measuring points. The height in particular is something special with this force sensor. With a diameter of only 10 mm, this force sensor is smaller in diameter than a 1 cent coin.
The miniature force sensor can be used in many applications due to its compact dimensions. With a small force application surface, the miniature force transducer enables force measurement at small contact surfaces.
A force sensor made of stainless steel with a measurement uncertainty of only 0.5%. With the dimensions of Ø 13 mm and a height of 7 mm, the force sensor is very versatile.
This is a pressure cell as a force sensor with a high measuring range with small dimensions. The dimensions of the force sensor are only 9 mm in height and 19 mm in diameter.
The flat miniature force sensor has a height of only 4 mm. With a diameter of 12 mm, this miniature force sensor is very compact. This force sensor achieves a measurement uncertainty of only 0.5%.
The flat miniature force sensor has a height of only 11 mm. With a diameter of 20 mm, this miniature force sensor is very compact. This force sensor achieves a measurement uncertainty of only 0.5%.
Due to its ball bearing, the load cell has a special resistance against lateral forces. The load cell has a strong output signal of approx. 4 mV / V and works with a measurement uncertainty of 0.03% F.S.. The load cell is used especially in harsh environments such as truck scales, train scales, machine weighing, etc..
Force sensor nominal load selectable! If require 50 t or 100 t please select variant.
Due to its ball bearing, the load cell has a special resistance against lateral forces. The load cell has a strong output signal of approx. 4 mV / V and works with a measurement uncertainty of 0.03% F.S.. The load cell is used especially in harsh environments such as truck scales, train scales, machine weighing, etc..
Other force sensor nominal loads available - see variants!
A tension dynamometer is based on the principle that the force acting on the pressure adapter is measured hydraulically. The hydraulic pressure generated is displayed by the tension dynamometer on a scale in Newtons.
A tension dynamometer is based on the principle that the force acting on the pressure adapter is measured hydraulically. The hydraulic pressure generated is displayed by the tension dynamometer on a scale in Newtons.
A tension dynamometer is based on the principle that the force acting on the pressure adapter is measured hydraulically. The hydraulic pressure generated is displayed by the tension dynamometer on a scale in Newtons.
A tension dynamometer is based on the principle that the force acting on the pressure adapter is measured hydraulically. The hydraulic pressure generated is displayed by the tension dynamometer on a scale in Newtons.
A tension dynamometer is based on the principle that the force acting on the pressure adapter is measured hydraulically. The hydraulic pressure generated is displayed by the tension dynamometer on a scale in Newtons.
A tension dynamometer is based on the principle that the force acting on the pressure adapter is measured hydraulically. The hydraulic pressure generated is displayed by the tension dynamometer on a scale in Newtons.
A tension dynamometer is based on the principle that the force acting on the pressure adapter is measured hydraulically. The hydraulic pressure generated is displayed by the tension dynamometer on a scale in Newtons.
A tension dynamometer is based on the principle that the force acting on the pressure adapter is measured hydraulically. The hydraulic pressure generated is displayed by the tension dynamometer on a scale in Newtons.