Model CCS-HF10 High-voltage Rated Capacitive Proximity Sensor
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- CCS-HF10 Download the CAD data (DXF / Parasolid / STEP / IGES)
Application
- Detection of grain
- Detection of the liquid in the paper pack
- Detection of insulating materials
- As it can be used to drive voltage 48 V DC (or less) following electric forklift, refrigeration car, freezer car, etc
Features
- High-sensitivity small electrostatic-capacity proximity sensor that can detect almost any target regardless of the material. (Can detect metal, wood, paper, plastic, water, powder, rice, etc.)
- Non-shielded type, perfect to detect liquids inside containers with low inductance. Shielded types (CDS series) that are not affected by metal or other objects approaching from the side are also available. Select the sensor according to your needs.
- It can be used in a wide range of supply voltage 15 V to 65 V DC.
- Because of the high power supply voltage specification, it can also be used in the battery voltage 48 V DC.
International Standards
- Our products do not have overseas safety regulations such as CE mark, UL standard, EN standard etc.
- Products is compliant to the RoHS directive.
* Please consult about "change of specification" and "request of specification" of the product.
Rating/Performance / Characteristics Graph
Rating / Performance
| Model | CCS-HF10 | CCS-HF101 |
|---|---|---|
| Detection Surface | Upper side detection | |
| Detection Distance | 10 mm ±10 % | |
| Hysteresis | 15% or less of the detection distance | |
| Set Distance | 0 to 7.5 mm | |
| Standard Detection Target |
Grounded metal of 50 × 50 mm and 1 mm in thickness | |
| Power Supply Voltage | 24 V to 48 V DC (Operating voltage range: 15 V to 65 V DC) | |
| Power Consumption | 10 mA DC or less | |
| Output | 65 V DC 200 mA DC or less Nch MOSFET open drain | |
| Output Residual Voltage | 0.5 V DC or less (when load current is 200 mA DC and a 1-meter cord) | |
| Operation Configuration | Normally open (On output with detection target) |
Normally closed (Off output with detection target) |
| Operation Indicator | Red LED (Lit when On output) | |
| Response Frequency | 100 Hz or more | |
| Operating Temperature Range |
-10 to 55 °C (-15 to 60 °C during storage) (Without dew condensation or freezing) |
|
| Operating Humidity Range |
35 to 95% RH (35 to 95% RH during storage)(Without dew condensation) | |
| Withstand Voltage | 1 min at 500 V AC 50/60 Hz (Between the live part and case) | |
| Insulation Resistance | 50 MΩ or more measured with an ohmmeter at 500 V DC (Between the live part and case) |
|
| Vibration Resistance | Durability: 2 hours in each X, Y, Z direction at 10 to 55 Hz and with peak-to-peak amplitude of 1.5 mm (At power off) | |
| Shock Resistance | Durability: 3 times at 500 m/s² (approx. 50 G) in each X, Y, Z direction (At power off) |
|
| Protection Rating | IP66 | |
| Case Material | Polyarylate | |
| Cable | ø3, 3-core round cord of 0.3 mm² and insulation ø1.0 mm and 1 m in length (Oil and heat resistant vinyl) | |
| Weight | Approx. 21 g | |
*For a detailed specification of the other, please refer to specifications.
Characteristics Graph (Typical Example)
External Dimensions Diagram / Output Circuit
External Dimensions Diagram
Output Circuit
Usage Precautions
About common mode noise prevention of capacitive type proximity sensors
According to its operating principles, the sensor detects the capacitance between the sensor electrode and ground. When a high-frequency voltage of several hundreds of kHz or higher (common mode noise) to ground is superimposed on the sensor power line, it will interfere with sensor operation, and the following malfunctions could result; higher detection sensitivity, detection stuck ON at all times, or deterioration of internal parts/components.
Typical sources of common mode noise are as follows (including wiring of each):
・Inverter devices (power supplies for inverter motors and pulse motors)
・Vibration generators
・Switching power supplies
・Wireless devices
・Microwave generators
・Large power transmission antennas
To prevent the generation of common mode noise, it is essential to ground near these noise sources.
To avoid common mode noise generation in the sensor power line, connect the sensor ground (GND, 0V) either directly to ground, or to ground via a 1,000 pF or higher capacitor of sufficient withstand voltage, or else to the frame ground (F.G.) with sufficient capacitance to ground. When connecting the sensor to ground via the sensor housing, ensure correct electrical bonding to avoid contact resistance.There is also another type of noise referred to as normal mode noise (or differential mode noise) which is generated in-between the power lines. If the current, cable loop area, and frequency are the same, common mode noise is much larger by around 100 times (100 MHz) to 10,000 times (1 MHz) compared to normal mode noise. Accordingly, a countermeasure of simply separating the line experiencing the common mode noise from the sensor wiring is insufficient and not recommended.To avoid common mode noise, use a shielded cable, or more effectively, adequate shield grounding should be used.
Typical sources of common mode noise are as follows (including wiring of each):
・Inverter devices (power supplies for inverter motors and pulse motors)
・Vibration generators
・Switching power supplies
・Wireless devices
・Microwave generators
・Large power transmission antennas
To prevent the generation of common mode noise, it is essential to ground near these noise sources.
To avoid common mode noise generation in the sensor power line, connect the sensor ground (GND, 0V) either directly to ground, or to ground via a 1,000 pF or higher capacitor of sufficient withstand voltage, or else to the frame ground (F.G.) with sufficient capacitance to ground. When connecting the sensor to ground via the sensor housing, ensure correct electrical bonding to avoid contact resistance.There is also another type of noise referred to as normal mode noise (or differential mode noise) which is generated in-between the power lines. If the current, cable loop area, and frequency are the same, common mode noise is much larger by around 100 times (100 MHz) to 10,000 times (1 MHz) compared to normal mode noise. Accordingly, a countermeasure of simply separating the line experiencing the common mode noise from the sensor wiring is insufficient and not recommended.To avoid common mode noise, use a shielded cable, or more effectively, adequate shield grounding should be used.
Influence of Surrounding Metal
If there are metal objects around the proximity sensor, leave at least the space indicated in the figure below between them and the sensor.
Mutual Interference
If you use two or more of the same product, separate them at least by the distances shown in the figure below to prevent reciprocal interference.
Installation
Always use plain washers to tighten the case and use a torque of 0.5 N.m or less.
Other
See proximity sensor general usage precautions for other precautions.
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| Model Name | Output configuration | Standard Price | Inventory Type | Select |
|---|---|---|---|---|
| CCS-HF10 | Normally open |
42 USD
39 EUR
|
STD | |
| CCS-HF101 | Normally closed |
42 USD
39 EUR
|
BTO |
STD Shipping is available immediately (on the day of order)
WIP Shipping is available within 1 to 3 weeks
BTO Shipping is available within 10 to 18 weeks
NOTE: The above information shows the typical delivery time. For actual delivery time, please confirm us as it depends on our business days and/or product quantities.
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