Carlo Gavazzi’s UA Series ultrasonicsensors are designed for both distance measurement and object detection in tough environments. The range consists of both M18 and M30 housings. Discrete output types are available for presence and absence detection, and are ideally suited for detecting objects,such as transparent objects, that cannot be reliably detected by other sensors. Analogue output types are available on our sensors for applications requiring a measurement of the target object, such as detecting the level of fluid in a tank. The analogue models have your choice of 0-10 VDC or 4-20 mA outputs. Our more advanced ultrasonic sensor models incorporate teach functions, which allow the set-points to be configured with the push of a button, and via Windows-based software for applications where greater control of sensor parameters and variables is required. The Windows version also allows for settings to be saved and downloaded to multiple devices. FAQ Library Cross Reference Product Brochure If you already know the series of sensor, you can click the list below to view the datasheet. Q. Please explain the difference between diffuse and through-scan. Diffuse mode is the standard mode of operation. In this mode, objects travelling in any direction into the operating range of the sound cone will cause the sensor to switch output states. The Thru-scan mode uses a "reflector" located in the preset operating range. This can be any good reflective background, such as a wall. The operating range is adjusted for the reflector. The pulses are bounced off the reflector and the echo pulses are returned to the sensor. When a target blocks the echo pulses, the output is activated. Q. Where can I get instruction manuals for Carlo Gavazzi ultrasonic sensors? Instruction manuals for all Carlo Gavazzi ultrasonicsensors are available online. From the GavazziOnline main page, click on the 'Information' menu button. You will see a menu item for User Manuals. Click on this and all user manuals for our products will be shown. Scroll down to the sensors section for the ultrasonicsensors manuals. GO Q. Please explain what a blind zone is. A blind zone exists directly in front of the sensor. It is the range in front of the sensor where objects cannot be reliably detected, or where an unstable output would occur. The blind zone will vary depending upon the size and sensing range of the sensor. Shorter range sensors will have smaller blind zones, while longer range sensors will have larger blind zones. Q. Please explain what mutual interference is, and how I can prevent this from occurring. Mutual interference occurs when ultrasonicsensors are mounted in close proximity to each other and the target is in a position to reflect echoes back to a sensor near the transmitting sensor. To reduce the chance of this occurring, mount adjacent sensors as far apart as possible, and test the sensors with the target object placed in the sensing range of one of the sensors. If any of the other sensors detect the echo from the originating sensor and target object, then re-position the sensors, either through spacing them further apart, or angling the sensors away from each other. Q. What effect does temperature and humidity have on ultrasonic sensors? Temperature: Sound wave speed increases with increase in air temperature. Humidity: Sound wave speed increases as humidity increases. Increases in temperature and humidity can cause targets to appear closer when using ultrasonic sensors. Q. What effect does the size and shape of the target have on the performance of ultrasonic sensors? The ideal target for an ultrasonic sensor is a flat surface, perpendicular to the sensor. As the flat surface area increases, thereby increasing the total reflective surface, more of the sound pulse can be reflected, which increases the sensing range. As the flat surface area decreases, or if the surface area is not flat, less of the sound pulse can be reflected, which decreases the sensing range. . using ultrasonic sensors. Q. What effect does the size and shape of the target have on the performance of ultrasonic sensors? The ideal target for an ultrasonic. adjacent sensors as far apart as possible, and test the sensors with the target object placed in the sensing range of one of the sensors. If any of the other sensors