3-Component Quartz Force Sensor0 pages
Force
3-Component Quartz Force Sensor
Types 9017C, 9018C,
t
9016CA
16,5x16,5x10 mm, –3 … 3 kN
Fz
Quartz force sensors are able to measure the three perpendicular components of a dynamic or quasistatic force in any
direction.
•t Precise measurement regardless of the acting point of the
force
•t t arge useable frequency range
L
•t tCompact size
•t t ust free and sealed sensor case
R
•t t lug connection via robust multipole connector
P
9017C_000-960e-09.13
Description
The 3-component force sensor is mounted under preload between two mounting flanges. The quartz force sensor can therefore measure compression and tensile forces.
The force measurement of the sensor is based on the piezoelectric principle. The application of a force results in the quartz
washers in the sensor (one for each of the force components
to be measured) yielding a charge proportional to the force.
This is picked off by built-in electrodes and transferred to the
corresponding connector.
The contact faces of the sensor are covered with ceramic
discs to facilitate ground-isolated mounting of the sensor. The
straightforward and vibration-resistant design of the sensor
produces a very rigid structure. The resulting high natural frequency makes highly dynamic force measurements possible
over a large frequency range.
The cable connection of the sensors is made via a 3-pole connector V3 neg. (design patented). This is provided with a positioning aid for simple centering that also protects the plug and
receptacle connector against unintended rotation.
After correct mounting the sensor is immediately ready for use
without recalibration.
Application
Kistler 3-component quartz force sensors measure simply, directly and precisely. They are used in the measurement of:
•t t utting forces in metal cutting processes
C
•t t ollision forces in crash tests
C
•t t ecoil forces of rocket motors
R
•t t ibration and friction forces
V
•t t round reaction forces in biomechanics
G
•t t ehicle forces on the road and test bed
V
•t Forces on wind tunnel balances
Fx
Fy
Technical Data Types 9017C, 9018C
ttt
RangetFx, Fyt
kNt
–1,5 … 1,5t 1)
1)
tt
Fzt
kNt
–3 … 3t
tt
Fzt
kNt
0 … 12,5t 2)
1)
OverloadtFx, Fyt kNt–1,8/1,8t
1)
tt
Fzt
kNt–3,6/3,6t
1)
Calibrated ranget
Fxt
kNt
0 … 1,5t
1)
tt
Fyt
kNt
0 … 1,5t
1)
tt
Fzt
kNt
0 … 3t
tt
Fzt
kNt
0 … 12,5t 2)
1)
Permissible moment loadingt Mx, Myt N·mt–6,6/6,6t
1)
tt
Mzt
N·mt–6,6/6,6t
Thresholdtt
Nt<0,01
SensitivitytFx, Fyt
pC/Nt≈–25t 1)
tt
Fzt
pC/Nt≈–11t 1)
1)
Linearity incl. hysteresis, tt
%FSOt ≤±0,5t
each axis
CrosstalktFz → Fx, Fyt%t
≤±1,0t 1)
1)
tt
Fx ↔ Fyt%t ≤±2,5t
1) 3)
tt
Fx, Fy → Fzt%t
≤±2,5t
Operating temperature rangett
°Ct
–40 … 120
Insulation resistance at 20 °Ctt
Ωt
>1013
Ground isolationtt
Ωt
>108
Capacitance, each channeltt
pFt
35
Axial stiffnesstt
N/mmt
≈1 400
Shear stiffnesstt
N/mmt≈300
Connectorttt
V3 neg.
Weighttt
gt14,25
Degree of Protection EN60529
t with cable Type 1698AA/ABtt
IP65
t with cable Type 1698ACspttt
IP67
1)
t Standard mounting with 9,5 kN preload
t Without preload
t Crosstalk Fx, Fy → Fz is ≤±2 %, if e.g. four sensors are mounted in a
dynamometer.
2)
3)
Page 1/4
This information corresponds to the current state of knowledge. Kistler reserves
the right to make technical changes. Liability for consequential damage resulting
from the use of Kistler products is excluded.
©2013, Kistler Group, Eulachstrasse 22, 8408 Winterthur, Switzerland
Tel. +41 52 224 11 11, Fax +41 52 224 14 14, info@kistler.com, www.kistler.com
Kistler is a registered trademark of Kistler Holding AG.