The sensor for precise thickness measurements of plastics
In its sensor housing, the combiSENSOR combines an eddy current displacement sensor and a capacitive displacement sensor. This unique sensor concept enables one-sided thickness measurement of electrically non-conductive materials on metallic objects. Its field of application is the thickness measurement of plastic film or of plastic coating on metal plates. Connected to the sensor via a cable, the controller processes and calculates the signals in order to put them out via interfaces.
In its sensor housing, the combiSENSOR combines an eddy current displacement sensor and a capacitive displacement sensor. This unique sensor concept enables one-sided thickness measurement of electrically non-conductive materials on metallic objects. Its field of application is the thickness measurement of plastic film or of plastic coating on metal plates. Connected to the sensor via a cable, the controller processes and calculates the signals in order to put them out via interfaces.
| Items |
KSH5(01) combiSENSOR 5 Millimeter (mm) Maximum Offset Measuring Range Non-Contact Position Sensor for Thickness Measurement of Plastics |
KSH10 combiSENSOR 10 Millimeter (mm) Maximum Offset Measuring Range Non-Contact Position Sensor for Thickness Measurement of Plastics |
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| Description |
The sensor for precise thickness measurements of plastics In its sensor housing, the combiSENSOR combines an eddy current displacement sensor and a capacitive displacement sensor. This unique sensor concept enables one-sided thickness measurement of electrically non-conductive materials on metallic objects. Its field of application is the thickness measurement of plastic film or of plastic coating on metal plates. Connected to the sensor via a cable, the controller processes and calculates the signals in order to put them out via interfaces. |
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| Controller Model | KSS6420 KSS6430 | KSS6420(01) KSS6430(01) | ||
| Maximum Offset Measuring Range1 | 5 mm | 10 mm | ||
| Static Resolution at 100 Hertz (Hz) Full Scale Output (FSO) for KSS6420 Controller | 0.0018 % | |||
| Static Resolution at 100 Hertz (Hz) Full Scale Output (FSO) for KSS6430 Controller | 0.0004 % | |||
| Static Resolution at 100 Hertz (Hz) Full Scale Output (FSO) for KSS6420(01) Controller | 0.0030 % | |||
| Static Resolution at 100 Hertz (Hz) Full Scale Output (FSO) for KSS6430(01) Controller | 0.0006 % | |||
| Dynamic Resolution at 3.9 Kilohertz (kHz) Full Scale Output (FSO) for KSS6420 Controller | 0.0075 % | |||
| Dynamic Resolution at 3.9 Kilohertz (kHz) Full Scale Output (FSO) for KSS6430 Controller | 0.0015 % | |||
| Dynamic Resolution at 3.9 Kilohertz (kHz) Full Scale Output (FSO) for KSS6420(01) Controller | 0.0120 % | |||
| Dynamic Resolution at 3.9 Kilohertz (kHz) Full Scale Output (FSO) for KSS6430(01) Controller | 0.0025 % | |||
| Note for Resolution | Difference signal of the digital output, measured with offset distance = 50% FSO | |||
| Analog Bandwidth2 | 1 kHz3 dB | |||
| Adjustable Digital Bandwidth | 2.6 to 3900 Sa/s | |||
| Linearity Full Scale Output (FSO) | ±0.05 % | |||
| Sensor Temperature Stability | 10 to 60 ºC± 50 ppm | |||
| Temperature Stability for KSS6420 and KSS6430 Controllers | ± 50 ppm | |||
| Temperature Stability for KSS6420(01) Controller | ± 50 ppm | |||
| Temperature Stability for KSS6430(01) Controller | ± 70 ppm | |||
| Controller Operating Temperature | 10 to 60 ºC | |||
| Sensor Operating Temperature | -10 to +85 ºC | |||
| Sensor Cable Operating Temperature | -10 to 125 ºC | |||
| Sensor Cable Storage Temperature Range | -10 to 100 ºC | |||
| Controller Storage Temperature | 0 to 75 ºC | |||
| Direct Current (DC) Power Supply | 12 to 36 V4.5 W | |||
| Analog Output | Capacitive, Eddy Current and Differential Signal: 0-10V (Short Circuit Proof) Internal Sensor Temperature Signal (Not Scaled) | |||
| Ethernet Output | Capacitive, Eddy Current, Differential and Internal Temperature Signal: 24Bit | |||
| EtherCAT Output | Capacitive, Eddy Current, Differential and Internal Temperature Signal: Float | |||
| Trigger Voltage | 5 V | |||
| Trigger Type | Transistor-Transistor Logic (TTL) | |||
| Target Geometry | Minimum Diameter 200 mm (Reference material ground electrode: VA steel (1.4571) or aluminum. Changes of the ground electrode (material or geometry) require a recalibration of sensor and controller by the manufacturer.) Straight Surface | |||
| Minimum Target Thickness3 | 40 µm | |||
| Maximum Target Thickness | 3 mm | 6 mm | ||
| Minimum Diameter Measurement Surface | 45 mm | 65 mm | ||
| Sensor Protection Class | Ingress Protection (IP54) | |||
| Controller Protection Class | Ingress Protection (IP40) | |||
| Sensor Weight | 80 g | |||
| Controller Weight | 750 g | |||
| Controller Width | 75 mm | |||
| Controller Length | 125 mm | |||
| Controller Height | 90 mm | |||
| Sensor Diameter | 30 mm | 45 mm | ||
| Sensor Height | 26 mm | |||
| Overall Sensor Height | 37 mm | |||
| SCAC3/5 Connector | Signal Output (5-Pole Plug) | |||
| Scope of Supply |
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| Accessories | SCAC3/5 signal output cable analog (3 m) | |||
| Features |
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| Application |
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| Web Interface | The web interface for sensor and controller configuration opens via Ethernet. | |||
| Calculation of the Dielectric Constant | If the thickness of the Insulator D and the offset distance from the ground electrode are known, the controller calculates the dielectric constant of the insulator. | |||
| Thickness Measurement | If the dielectric constant εr and the offset distance from the ground electrode are known, the controller calculates the insulator thickness D from the sensor signals. | |||
| Additional Information |
Calculation of the two sensor signals provides compensation of mechanical changes such as thermal expansion, deflections or eccentricity in the measurement device. Due to the redundancy of this combined sensor principle, the measured thickness value remains unaffected by any changes in the measurement setup. Due to the high temperature stability, the combiSENSOR provides high measurement accuracy even with fluctuating temperatures. Measuring principle The construction of the eddy current measurement coil and the capacitive measurement electrodes is concentric. Both sensors measure against the same spot. The signal of the capacitive displacement sensor is a function of the offset, the thickness of the insulator (D) and the dielectric constant of the insulator material (εr). At the same time the eddy current displacement sensor measures the distance to the ground electrode (e.g. metal sheet or metal roller positioned behind the film). The controller outputs both single signals as well as the difference between capacitive sensor and eddy current sensor. Also the dielectric constant can be calculated with known thickness and offset distance. |
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