microsonic IO-Link Ultrasonic Proximity Switch With One Switching Output Instruction Manual
- June 9, 2024
- microsonic
Table of Contents
Operating manual
Ultrasonic proximity switch with one switching output and IO-Link
cube-35/F
cube-130/F
cube-340/F
Product Description
The cube sensor offers a non-contact measurement of the distance to an object
which must be positioned within the sensor’s detection zone.
The switching output is set conditional upon the adjusted switching distance.
Safety Notes
- Read the operating manual prior to start-up.
- Connection, installation and adjustments may only be carried out by qualified staff.
- No safety component in accordance with the EU Machine Directive, use in the area of personal and machine protection not permitted.
Proper Use
cube ultrasonic sensors are used for non-contact detection of objects.
IO-Link
The cube sensor is IO-Link-capable in accordance with IO-Link specification
V1.1 and supports Smart Sensor Profile like Measuring and Switching Sensor.
The sensor can be monitored and parameterised via IO-Link.
Installation
Mount the sensor at the place of fitting, see »QuickLock mounting bracket«.
Connect a connection cable to the M12 device plug, see Fig. 2.
If necessary, use the alignment assistance (see »Using the Alignment
Assistance«).
Start-up
Connect the power supply.
Set the parameters of the sensor, see Diagram 1.
Controls of the cube sensor
The sensor can be operated using the push buttons T1 and T2. Four LEDs
indicate the operation and the state of the output, see Fig. 1 and Fig. 3.
| microsonic
notation| IO-Link notation| IO-Link Smart Sensor Profile| colour
---|---|---|---|---
1| +UB| L+| | brown
2| –| –| –| white
3| –UB| L–| | blue
4| F| Q| SSC| black
5| Com| NC| | grey
Fig. 2: Pin assignment with view onto sensor plug, IO-Link notation and colour coding of the microsonic connection cables
LED | Colour | Indicator | LED… | Meaning |
---|---|---|---|---|
LED1 | yellow | state of output | on | |
off | output is set |
output is not set
LED2| green| power indicator| on
flashing| normal operating mode
IO-Link mode
LED3| green| power indicator| on
flashing| normal operating mode
IO-Link mode
LED4| yellow| state of output| on
off| output is set
output is not set
Fig. 3: Description of the LED indicators
Diagram 1: Set sensor via Teach-in procedure
Operating Modes
-
Operation with one switching point
The switching output is set when the object falls below the set switching point. -
Window mode
The switching output is set when the object is within the window limits. -
Two-way reflective barrier
The switching output is set when the object is between sensor and fixed reflector.
Synchronisation
If the assembly distance of multiple sensors falls below the values shown in
Fig. 4, they can influence one another.
To avoid this, the internal synchronisation should be used (»sync« must be
switched on, see Diagram 1). Interconnect each pin 5 of the sensors to be
synchronised.
| |
---|---|---
cube-35…
cube-130…
cube-340…| ≥0.40 m
≥1.10 m
≥2.00 m| ≥2.50 m
≥8.00 m
≥18.00 m
Fig. 4: Minimal assembly distances without synchronisation
QuickLock mounting bracket
The cube sensor is attached using the QuickLock mounting bracket:
Insert the sensor into the bracket according to Fig. 5 and press until the
bracket audibly engages.
The sensor can be rotated around its own axis when inserted into the bracket.
Furthermore, the sensor head can be rotated so that measurements can be taken
in four different directions, see »Rotatable sensor head«.
The bracket can be locked:
Slide the latch (Fig. 6) in the direction of the sensor.
Remove the sensor from the QuickLock mounting bracket:
Unlock the latch according to Fig. 6 and press down (Fig. 7). The sensor
detaches and can be removed.
Rotatable sensor head
The cube sensor has a rotatable sensor head, with which the orientation of the
sensor can be rotated by 180° (Fig. 8).
Factory Setting
The cube sensor is delivered factory made with the following settings:
- Switching output on operating mode switching point
- Switching output on NOC
- Switching distance at operating range
- Input Com set to »sync«
- Filter at F01
- Filter strength at P00
Using the Alignment Assistance
With the internal alignment assistance the sensor can be optimally aligned to
the object during installation. To do this, proceed as follows (see Fig. 9):
Mount the sensor loosely at the place of mounting so that it can still be
moved.
Press T2 shortly. The yellow LEDs flash. The faster the the yellow LEDsflash,
the stronger the received signal.
Point the sensor at different angles to the object for about 10 seconds so
that the sensor can determine the maximum signal level. Afterwards align the
sensor until the yellow LEDs light constantly.
Screw the sensor in this position.
Press T2 shortly (or wait approx. 120 s) to exit the Alignment Assistance. The
green LEDs flash 2x and the sensor returns to normal operating mode.
Maintenance
microsonic sensors are maintenancefree. In case of excess caked-on dirt we recommend cleaning the white sensor surface.
Notes
-
The cube sensor has a blind zone, within which a distance measurement is not possible.
-
The cube sensor is equipped with an internal temperature compensation. Due to the sensors self heating, the temperature compensation reaches its optimal working point after approx. 3 minutes of operation.
-
The cube sensor has a push-pull switching output.
-
Choosing between output function NOC and NCC is possible.
-
In the normal operating mode the illuminated yellow LEDs signal that the switching output is set.
-
The flashing green LEDs indicate that the sensor is in IO-Link mode.
-
If a Teach-in procedure is not completed, all changes are deleted after approx. 30 seconds.
-
If all LEDs flash rapidly alternately for approx. 3 seconds during a teach-in procedure, the teach-in procedure was not successful and is discarded.
-
In the »Two-way reflective barrier« operating mode, the object has to be within the range of 0 to 92 % of the set distance.
-
In the »Set switching point – method A« Teach-in procedure the actual distance to the object is taught to the sensor as the switching point. If the object moves towards the sensor (e.g. with level control) then the taught distance is the level at which the sensor has to switch the output.
-
If the object to be scanned moves into the detection area from the side, the »Set switching point +8 % – method B« Teach-in procedure should be used. In this way the switching distance is set 8 % further than the actual measured distance to the object. This ensures a reliable switching behavior even if the height of the objects varies slightly, see Fig. 10.
-
The sensor can be reset to its factory setting (see »Further settings«, Diagram 1).
-
The cube sensor can be locked against unwanted changes in the sensor via function »Switch on or off Teach-in + sync«, see Diagram 1.
-
Using the LinkControl adapter (optional accessory) and the LinkControl software for Windows®, all Teach-in and additional sensor parameter settings can be optionally adjusted.
-
The latest IODD file and informations about start-up and configuration of cube sensors via IO-Link, you will find online at: www.microsonic.de/en/cube.
Scope of delivery
- 1x QuickLock mounting bracket
Technical data
| | |
---|---|---|---
blind zone| 0 to 65 mm| 0 to 200 mm| 0 to 350 mm
operating range| 350 mm| 1,300 mm| 3,400 mm
maximum range| 600 mm| 2,000 mm| 5,000 mm
angle of beam spread| see detection zone| see detection zone| see detection
zone
transducer frequency| 400 kHz| 200 kHz| 120 kHz
measurement resolution| 0.056 mm| 0.224 mm| 0.224 mm
digital resolution| 0.1 mm| 1.0 mm| 1.0 mm
detection zones
for different objects:
The dark grey areas represent the zone where it is easy to recognise the
normal reflector (round bar). This indicates the
typical operating range of the sensors. The light grey areas represent the
zone where a very large reflector – for instance a plate – can still be
recognised. The
requirement here is for an optimum
alignment to the sensor. It is not possible to evaluate ultrasonic reflections
outside this area.| | |
reproducibility| ±0.15 %| ±0.15 %| ±0.15 %
accuracy| ±1 % (Temperature drift internal compensated, may be deactivated
- , 0.17%/K without compensation)| ±1 % (Temperature drift internal compensated,
may
be deactivated -
, 0.17%/K without compensation)| ±1 % (Temperature drift internal compensated, may
be deactivated -
, 0.17%/K without compensation)
operating voltage UB| 9 to 30 V DC, reverse polarity protection (Class 2)| 9 to 30 V DC, reverse polarity protection (Class 2)| 9 to 30 V DC, reverse polarity protection (Class 2)
voltage ripple| ±10 %| ±10 %| ±10 %
no-load supply current| ≤50 mA| ≤50 mA| ≤50 mA
housing| PA, Ultrasonic transducer: polyurethane foam,
epoxy resin with glass content| PA, Ultrasonic transducer: polyurethane foam,
epoxy resin with glass content| PA, Ultrasonic transducer: polyurethane foam,
epoxy resin with glass content
class of protection to EN 60529| IP 67| IP 67| IP 67
norm conformity| EN 60947-5-2| EN 60947-5-2| EN 60947-5-2
type of connection| 5-pin initiator plug, PBT| 5-pin initiator plug, PBT| 5-pin initiator plug, PBT
controls| 2 push-buttons| 2 push-buttons| 2 push-buttons
indicators| 2x LED green, 2x LED yellow| 2x LED green, 2x LED yellow| 2x LED green, 2x LED yellow
programmable| Teach-in via push button, LinkControl, IO-Link| Teach-in via push button, LinkControl, IO-Link| Teach-in via push button, LinkControl, IO- Link
IO-Link| V1.1| V1.1| V1.1
operating temperature| –25 to +70 °C| –25 to +70 °C| –25 to +70 °C
storage temperature| –40 to +85 °C| –40 to +85 °C| –40 to +85 °C
weight| 120 g| 120 g| 130 g
switching hysteresis 1)| 5 mm| 20 mm| 50 mm
switching frequency 2)| 12 Hz| 8 Hz| 4 Hz
response time 2)| 64 ms| 96 ms| 166 ms
time delay before availability| <300 ms| <300 ms| <300 ms
order No.| cube-35/F| cube-130/F| cube-340/F
switching outputs| push pull, UB–3 V, –UB+3 V, Imax = 100 mA switchable NOC/NCC, short-circuit-proof| push pull, UB–3 V, –UB+3 V, Imax = 100 mA switchable NOC/NCC, short-circuit-proof| push pull, UB–3 V, –UB+3 V, Imax = 100 mA
switchable NOC/NCC, short-circuit-proof
microsonic GmbH / Phoenixseestraße 7 / 44263 Dortmund / Germany /
T +49 231 975151-0 / F +49 231 975151-51 /
E info@microsonic.de / W microsonic.de
The content of this document is subject to technical changes. Specifications
in this document are presented in a descriptive way only.
They do not warrant any product features.
References
- microsonic | ultrasonic sensors | Made in Germany
- cuboidal | ultrasonic distance sensors | microsonic
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