DI-SORIC sensor OGWSD25N3K-TSSL in stock
$108.41
The low cost and ease of use of German-made DI-SORIC sensors have attracted machine designers and process engineers to integrate them into a variety of applications that previously relied on manual labor, multiple photoelectric sensors, or no inspection at all. Industrial applications of vision sensors include inspection, metrology, measurement, orientation, defect detection, and sorting. Here are just a few examples: in automobile assembly plants, inspecting the continuity and correct width of adhesive beads applied by robots to car door frames; in bottling plants, verifying that bottle caps are properly sealed, filling levels are correct, and no foreign objects have fallen into the bottle before sealing.
Brand
DI-SORIC/Germany
Application Areas
Chemical, Petroleum, Energy, Electrical, General
DI-SORIC Sensors, DI-SORIC Proximity Switches, DI-SORIC Cylinder Sensors, DI-SORIC Photoelectric Sensors, DI-SORIC Proximity Switches
Composition of DI-SORIC Sensors
DI-SORIC sensors generally consist of four parts: a sensing element, a conversion element, a conversion circuit, and an auxiliary power supply, as shown in Figure 1.
The sensing element directly senses the measured quantity and outputs a physical quantity signal with a definite relationship to the measured quantity; the conversion element converts the physical quantity signal output by the sensing element into an electrical signal; the conversion circuit is responsible for amplifying and modulating the electrical signal output by the conversion element; the conversion element and the conversion circuit generally require an auxiliary power supply.
The function of the DI-SORIC sensor is proposed by simulating the coordinated actions of human senses and the brain, combined with long-term research and practical experience in testing technology. It is a relatively independent intelligent unit. Its emergence has reduced the stringent requirements for hardware performance, while software assistance can significantly improve the sensor's performance.
1. Information Storage and Transmission – With the rapid development of fully intelligent distributed control systems (Smart Distributed Systems), intelligent units are required to have communication capabilities, enabling bidirectional digital communication via communication networks. This is also one of the key characteristics of intelligent sensors. Intelligent sensors achieve various functions by transmitting test data or receiving commands, such as setting gain, compensation parameters, internal detection parameters, and outputting test data.
2. Self-Compensation and Computation Functions – For many years, engineers and technicians engaged in sensor development have devoted considerable effort to compensating for sensor temperature drift and output nonlinearity, but without fundamentally solving the problem. The self-compensation and computation functions of intelligent sensors open up new avenues for compensating for temperature drift and nonlinearity. This allows for a relaxation of sensor manufacturing precision requirements; as long as the sensor's repeatability is guaranteed, a microprocessor can be used to calculate the test signal through software, employing multiple fitting and difference calculation methods to compensate for drift and nonlinearity, thereby obtaining more accurate measurement results for pressure sensors.
3. Self-testing, self-calibration, and self-diagnostic functions – Ordinary sensors require periodic inspection and calibration to ensure sufficient accuracy during normal use. This typically involves disassembling the sensor from the field and sending it to a laboratory or testing department. For online measurement sensors, malfunctions cannot be diagnosed promptly. Smart sensors significantly improve this. First, the self-diagnostic function performs a self-test upon power-on to identify component issues. Second, online calibration can be performed based on usage time, with the microprocessor using measurement characteristic data stored in the EPROM for comparison and calibration.
4. Composite sensing function – Observing surrounding natural phenomena, common signals include sound, light, electricity, heat, force, and chemical signals. Sensitive elements generally measure in two ways: directly and indirectly. Smart sensors, however, have composite functions, capable of simultaneously measuring multiple physical and chemical quantities, providing more comprehensive information reflecting the laws governing the movement of matter.
DI-SORIC is a professional company specializing in the development and production of standard and special sensors, dedicated to providing application solutions for industrial automation products. With over 29 years of successful industry experience, our company has become one of the largest sensor manufacturers.
About di-soric (Germany)
Today, over 180 people work for di-soric (Germany). Our headquarters are located in Urbach, a city east of Stuttgart, Germany. Research and development and production are handled at our factory in Lüdenscheid, a city south of Dortmund. Thousands of customers in Germany alone are using di-soric products.
DI-SORIC Product Range:
1. Proximity Switches
2. Ring Inductive Proximity Switches (IR/IRD Series)
3. Cylinder Sensors (Magnetic Switches)
4. Photoelectric Sensors (IP67, IP68, IP69K)
5. Photoelectric Ranging Sensors
6. Economical General-Purpose Sensors
7. High-Energy Photoelectric Sensors
8. Optical Displacement Sensors
9. Tag Sensors
10. Contact and Vibration Sensors
11. Radar Sensors
12. Special Sensor Applications in the Solar Energy Industry
13. Tilt Sensors
14. Color Sensors
15. Ultrasonic Sensors
16. Top-Tier Industry Applications
DI-SORIC (Germany)
OGWSD25N3K-TSSL
OGWSD70P3K-TSSL
DCC 04 V 1.0 PSK-K-TSL
DCC 04 V 1.0 PSLK
DCC 05 M 0.8 POK-TSL
DCC 05 M 0.8 POLK
DCC 05 M 0.8 PSK-TSL
DCC 05 M 0.8 PSLK
DCC 05 V 0.6 PSLK-E
DCC 05 V 1.5 POK-TSL
DCC 05 V 1.5 POLK
DCC 05 V 1.5 PSK-TSL
DCC 05 V 1.5 PSLK
DCC 08 M 02 POK-IBSL
DCC 08 M 02 POK-TSL
DCC 08 M 02 POK-TSL/29
DCC 08 M 02 POK-TSL/32
DCC 08 M 02 POK-TSL/40
DCC 08 M 02 POLK
DCC 08 M 02 POLK/16
DCC 08 M 02 POLK/22
DCC 08 M 02 POLK/30
DCC 08 M 02 PSK-IBSL
DCC 08 M 02 PSK-TSL
DCC 08 M 02 PSK-TSL/29
DCC 08 M 02 PSK-TSL/32
DCC 08 M 02 PSK-TSL/40
DCC 08 M 02 PSLK
DCC 08 M 02 PSLK/16
DCC 08 M 02 PSLK/22
DCC 08 M 02 PSLK/30
DCC 08 M 03 POK-IBSL
DCC 08 M 03 POK-TSL
DCC 08 M 03 POLK
DCC 08 M 03 PSK-IBSL
DCC 08 M 03 PSK-TSL
DCC 08 M 03 PSLK
DCC 08 M 04 AK
DCC 08 M 04 AK-IBS
DCC 08 M 04 AK-TSL
DCC 08 M 04 PSK-IBSL
DCC 08 M 04 PSK-TSL
DCC 08 M 04 PSLK
DCC 08 M 04/10 AK
DCC 08 M 04/10 AK-IBS
DCC 08 M 04/10 AK-TSL
DCC 08 M 06 POK-IBSL
DCC 08 M 06 POK-TSL
DCC 08 M 06 POLK
DCC 08 M 06 PSK-IBSL
DCC 08 M 06 PSK-TSL
DCC 08 M 06 PSLK
DCC 08 M 1.5 POK-IBSL DCC 08 M 1.5 POK-TSL
DCC 08 M 1.5 POK-TSL/32
DCC 08 M 1.5 POK-TSL/40
DCC 08 M 1.5 POLK
DCC 08 M 1.5 POLK/22
DCC 08 M 1.5 POLK/30
DCC 08 M 1.5 PSK-IBSL
DCC 08 M 1.5 PSK-TSL
DCC 08 M 1.5 PSK-TSL/32
DCC 08 M 1.5 PSK-TSL/40
DCC 08 M 1.5 PSLK
DCC 08 M 1.5 PSLK/22
DCC 08 M 1.5 PSLK/30
DCC 08 M 2.5 POK-IBSL
DCC 08 M 2.5 POK-TSL
The company primarily deals in European and American brands and can source brands from any European country. For example, our key German brands include: BURKERT, DEMAG, HAWE, REXROTH, HYDAC, PILZ relays, FESTO, IFM sensors, E+H, HEIDENHAIN, P+F sensors, SICK, TURCK, and HIRSCHMANN industrial switches. German brands: Hengstler, Murr, Schmersal, Samson, EPRO (Emerson Group)
American brands: MOOG, ASCO, MAC, NUMATICS, PARKER, Vickers, Helón (Norgren)
Italian brands: OMAL, ATOS, CAMOZZI, UNIVER, Camozzi