CS-YD-002 Piezoelectric
Built-in integration circuit
High sensitivity
Wide frequency response
CS-YD-004 Piezoelectric
Built-in integration circuit
Current output
CS-YD-005 Piezoelectric
Built-in integration circuit
General purpose
CS-CD-001 Magnetoelectric
Low frequency compensation circuit
Suitable for ultra-low frequency testing
Vertical and horizontal derivatives
CS-CD-010 Magnetoelectric
General purpose
Wide frequency response
Vertical and horizontal derivatives
Piezoelectric Velocity Transducers
Model
Sensitivity
Linear Range (mm/s)
Frequency Range
Temp. Range (°C)
Output
Weight
Mounting Method
Dimensions
CS-YD-002
400mV/mm/s
20
4Hz-4kHz
-10 to +70
±5V
130g
Screw (M5)
Φ30x55
CS-YD-004
4 - 20mA
0 - 25
10Hz-1kHz
-10 to +70
4-20mA
100g
Screw (M5)
Φ30x44
CS-YD-005
50mV/mm/s
5,000
4Hz-4kHz
-10 to +70
±5V
110g
Screw (M5)
Φ30x45
Magnetoelectric Velocity Transducers
Model
Sensitivity
Linear Range (mm/s)
Frequency Range
Temp. Range (°C)
Output
Weight
Mounting Method
Dimensions
CS-CD-001
1V/mm/s
10
0.3Hz-60kHz
-10 to +70
±5V
150g
Screw (M5)
Φ43x95
CS-CD-010
30mV/mm/s
50
10Hz - 1kHz
-10 to +70
±5V
140g
Screw (M5)
Φ30x62
Proximity (Displacement) Transducers
Proximity (Displacement) Transducers provide an output voltage directly proportional to the distance between the probe tip and the observed conductive surface. They are capable of both static (position) and dynamic (vibration) measurements, and are primarily used for vibration and position measurement applications on fluid-film bearing machines, as well as in speed measurement applications.
