Sensor basic data | |
Diameter with collar | 80.0 mm |
Diameter without collar | 78.0 mm |
Housing height | 43.1 mm |
Height with socket | 56 mm |
Weight | 0.625 kg |
Housing material | Stainless steel 1.4305 |
Cover material | Stainless steel 1.4301 |
Wear plate material | Ceramic AI203 |
Process connection | Clamping flange |
Protection class | IPX9K/IP68 |
Sensor exchange without recalibration | Yes |
Technology | Streaming |
Sensor for moisture content | |
Measured variable | Electrical permittivity high resolution, depending on material moisture content and material density |
Frequency | 21-25 MHz |
Operating temperature | 5-70 °C |
Material penetration depth (depending on material) | 3-5 (measuring part influence decreasing exponentially with depth) cm |
Sensors for temperature | |
Measured variable | Open the 1st Oscillator temperature Open the 2nd Plate temperature |
Output temperature resolution | 0.01 K |
Measuring range | -10 to 80 °C |
Measurement value transfer | |
Bus type | CAN 2.0 B ISO 16845 certified |
Baud rate | 250,000 bit/s |
Transceiver | 3.3 V cross-circuit protection, overvoltage protection up to +/- 36 V, loss of ground protection, overheating protection (thermal shutdown) and common-mode transient protection of +/- 100 V |
Bus scheduling | External, internal possible |
Electrical connection | |
Supply voltage | 12 (min/max 6-36) V |
Power consumption | 0.3 Amax/17 mA@12V |
Reverse polarity protection | Yes |
Connection | |
Connection | DEUTSCH DT 15-4P |
0V/GND | Pin 1 |
CAN-Low | Pin 2 |
CAN-High | Pin 3 |
+12V | Pin 4 |
CAN messages | |
Format identifier | 29-Bit-Identifier, Extended frame format |
Number of bytes in the data field (DLC) | 8 |
Measured value identifier | 0x01505043 |
NTC1 | Electronics temperature: Integer with 2 decimal places Indication: °C + 40 °C |
NTC2 | Temperature behind ceramic plate: Integer with 2 decimal places Indication: °C + 40 °C |
C_value | Humidity sensor capacity value: Integer with 2 decimal places |
- Indirect measuring method: Capacity determination in the high frequency stray field. This method uses the different dielectric constant (permittivity) of water and different materials (solids and liquids).
- Fully reproducible sensors: If the plant is subsequently extended with sensors or if sensors are replaced, no recalibration is necessary thanks to the built-in microprocessor.
- Waterproof and dustproof: The sensor is also suitable for the harshest environments thanks to its IP68/IPX9K protection class.
- Process control and regulation: Thanks to extensive interfaces, the moisture measurement can be integrated into process control systems and controls.
- Cost saving: Time-consuming and costly laboratory analyses are no longer necessary or can be reduced.
- Temperature measurement/temperature compensation: The sensor can also be used to determine the temperature of the medium.
- Limit values: Maximum or minimum limits can be set using the software. Light or sound signals can be triggered if required.
- Median filter and mean value calculator: The sensor passes on already averaged values to the higher-level control.