VS- 2321-017
Yuanben
China
Product Description
Description
The speed sensors are suitable, in conjunction with a pole wheel, for generating square wave signals proportional to rotary speeds. They have a static behavior, i.e. the pulse generation is guaranteed down to a speed corresponding to a frequency of 0 Hz. The monitoring elements consist of magnetically biased differential hall-effect semiconductors. The internal two channel structure requires that the sensor must be oriented.
Technical data
The attention of sensor mounting
These sensors use Hall probes. Therefore, the housing has to be aligned to the Installation pole wheel according to the sensor drawing. Deviations in positioning may affect the performance and decrease the noise immunity of the sensor.
The sensor should be mounted with the middle of the face side over the middle of the pole wheel. Dependent upon the wheel width, a certain degree of axial movement is permissible. However, the middle of the sensor must be at minimum in a distance of 3mm from the edge of the pole wheel under all operating conditions.
A solid and vibration free mounting of the sensor is important.
Eventual sensor vibration relative to the pole wheel can induce additional output pulses.
During installation, the smallest possible pole wheel to sensor gap should be set.
The gap should however be set to prevent the face of the sensor ever touching the pole wheel. Within the air gap specified the amplitude of the output signals is not influenced by the air gap.
The sensors are insensitive to oil, grease etc. and can be installed in arduous conditions.
The protective cap has to be removed before installation. The sensor has to be handled with care to prevent damage of the front face.
Connection
The sensors must be connected according to electrical connecting diagram, Sensor wires are susceptible to radiated noise. Therefore, the following points have to be considered when connecting a sensor. The shield must be connected to the to 0 Volt of power supply or to specifically designated clamps
The sensor wires must be laid as far as possible from large electrical machines They must not run parallel in the vicinity of power cables. The maximum permissible cable length is dependent upon the sensor voltage, the cable routing, along with cable capacitance and inductance. However, it is advantageous to keep the distance between sensor and instrument as short as possible. The sensor cable may be lengthened via a terminal box located in an IP20 connection area in accordance with DIN40050.
The speed sensors are suitable, in conjunction with a pole wheel, for generating square wave signals proportional to rotary speeds. They have a static behavior, i.e. the pulse generation is guaranteed down to a speed corresponding to a frequency of 0 Hz. The monitoring elements consist of magnetically biased differential hall-effect semiconductors. The internal two channel structure requires that the sensor must be oriented.
Technical data
| Supply voltage | 9 V to 30 V, protected against reverse polarity and transient over-voltages |
| Current consumption | Max. 35 mA (without load) |
| Signal output · | 2 phase shifted square wave signals minimum edge shift with an involute gear wheel: 90°between output 1 (S1) and output 2 ( S2); |
| with pull-up resistor (for R=560 Ω), Ulow < 2.5 V, Uhigh > 0.95 * Usupply | |
| with pull-down resistor(for R=560 Ω), Ulow<0.1 V, Uhigh>Usupply-4.0 V | |
| The outputs are short circuit proof and protected against reverse polarity. | |
| Electromagnetic compatibility (EMC) | Electrostatic discharge according to IEC 61000-4-2,Up to ± 10 kV air discharge Up to ±8 kV contact discharge |
| Radiated electromagnetic field according to IEC 61000-4-3 Up to 30 V/m, 80% AM, 1 kHz in the range of 80 MHz ... 1000 MHz ·Up to 20 V/m, 80% AM, 1 kHz in the range of 900 MHz... 2700 MHz | |
| Electrical fast transients/bursts according to IEC 61000-4-4 coupled to sensor cable with a capacitive coupling clamp ·Up to ±2 kV peak ·Up to ±2 kV peak Surges according to IEC 61000-4-5 · ±2 kV on DC power ports | |
| Radio frequency injected current according to IEC 61000-4-6 ·Up to 15 V, 80% AM, 1 kHz, 1000 ms in the range of 0.15 MHz ~ 80 MHz with 50 Ohm load and 560 Ohm pull up resistance Power frequency magnetic field according to IEC 61000-4-8 ·100 A/m tested with 16 2/3 Hz, 50 Hz, 60 Hz in each axis | |
| Housing | Stainless steel 1.4305, front side sealed hermetically and resistant against splashing water, oil, conducting carbon- or ferrous dust and salt mist. Electronic components potted in chemical and age proof synthetic resin. Dimensions according to drawing. |
| Cable type: | armoured cable:8-wire,0.6 m(AWG 20),PEIC insulated, fire retardant, low smoke, PVC and halogen free, oil-proof, waterproof, outer Ø 7.3-8.2mm, Ø max. 13.0 mm, min. bending radius = 30 mm (static) and 65 mm (dynamic), -45ºC to+120ºC PCSG-17B,material: polyamide |
| High resistance to ultra violet rays and atmospheric corrosion, excellent flexibility, self-extinguishing, free from halogens and cadmium, black | |
| Connector | No connector |
| Toothed wheel | Toothed wheel of a magnetically permeable material (e.g. Steel 1.0036) Minimum tooth width 10 mm Side offset<0.2mm ·Eccentricity<0.2 mm |
| Air gap sensor/pole wheel | 0.5...2.5mm Air gap between pole wheel (optimized for involute gear, module 2.75) and sensor housing |
| Insulation | Housing and electronics galvanically separated (500 V/50 Hz/1 min) |
| Protection class | IP68 (head) and IP66 (cable outlet) |
| Vibration immunity | 30 g (peak) 10 Hz... 2000 Hz random noise for 5 hours per axis based on IEC 60068-2-27 |
| Shock immunity | 100 g for 6 ms according to IEC 60068-2-27 |
| Storage temperature | -40°...+125ºC |
| Operating temperature | -40°...+125ºC |
The attention of sensor mounting
These sensors use Hall probes. Therefore, the housing has to be aligned to the Installation pole wheel according to the sensor drawing. Deviations in positioning may affect the performance and decrease the noise immunity of the sensor.
The sensor should be mounted with the middle of the face side over the middle of the pole wheel. Dependent upon the wheel width, a certain degree of axial movement is permissible. However, the middle of the sensor must be at minimum in a distance of 3mm from the edge of the pole wheel under all operating conditions.
A solid and vibration free mounting of the sensor is important.
Eventual sensor vibration relative to the pole wheel can induce additional output pulses.
During installation, the smallest possible pole wheel to sensor gap should be set.
The gap should however be set to prevent the face of the sensor ever touching the pole wheel. Within the air gap specified the amplitude of the output signals is not influenced by the air gap.
The sensors are insensitive to oil, grease etc. and can be installed in arduous conditions.
The protective cap has to be removed before installation. The sensor has to be handled with care to prevent damage of the front face.
Connection
The sensors must be connected according to electrical connecting diagram, Sensor wires are susceptible to radiated noise. Therefore, the following points have to be considered when connecting a sensor. The shield must be connected to the to 0 Volt of power supply or to specifically designated clamps
The sensor wires must be laid as far as possible from large electrical machines They must not run parallel in the vicinity of power cables. The maximum permissible cable length is dependent upon the sensor voltage, the cable routing, along with cable capacitance and inductance. However, it is advantageous to keep the distance between sensor and instrument as short as possible. The sensor cable may be lengthened via a terminal box located in an IP20 connection area in accordance with DIN40050.
