HYDAC sensor HDA 4745-E-100-000 available.

Brand

HYDAC/Germany

Application Areas

Chemical, Petroleum, Mining, Road/Rail/Shipbuilding, Comprehensive

HYDAC pressure sensors are commonly used in industrial practice, widely applied in various industrial automation environments, including water conservancy and hydropower, railway transportation, intelligent buildings, production automation, aerospace, military, petrochemical, oil wells, power, shipbuilding, machine tools, pipelines, and many other industries. Below is a brief introduction to the principles and applications of some commonly used sensors. Medical pressure sensors are also available.

HYDAC pressure sensors come in many types, with significant differences in performance. Choosing the most suitable sensor for economic and rational considerations is crucial.

1. Rated Pressure Range

The rated pressure range is the pressure range that meets the standard specifications. That is, between the highest and lowest pressures, the sensor outputs pressure within the specified operating characteristics. In practical applications, the pressure measured by the sensor falls within this range. Currently, the highest measurement capacity of sensors can reach 300 MPa or higher.

2. Maximum Pressure Range

The maximum pressure range refers to the maximum pressure the sensor can withstand for an extended period without causing a change in its output characteristics. Especially for semiconductor pressure sensors, the rated pressure range is generally significantly reduced to improve linearity and temperature characteristics. Therefore, they will not be damaged even with continuous use above the rated pressure. The maximum pressure is typically 2-3 times the highest rated pressure.

3. Damage Pressure

Damage pressure refers to the maximum pressure that can be machined onto the sensor without damaging the sensor element or housing.

4. Linearity

Linearity refers to the maximum deviation from the linear relationship between the sensor output and the pressure within the operating pressure range.

5. Pressure Hysteresis

This is the difference in sensor output as the sensor approaches a certain pressure from the minimum and maximum operating pressures at room temperature and within the operating pressure range.

6. Temperature Range

The HYDAC sensor is a detection device that senses the measured information and transforms it into an electrical signal or other required form of information output according to a certain rule to meet the requirements of information transmission, processing, storage, display, recording, and control.

The characteristics of the HYDAC sensor include: miniaturization, digitization, intelligence, multifunctionality, systematization, and networking. It is a primary link in realizing automatic detection and automatic control. The existence and development of sensors have given objects senses such as touch, taste, and smell, gradually bringing them to life. Sensors are generally categorized based on their basic sensing functions, including thermal sensors, light sensors, gas sensors, force sensors, magnetic sensors, humidity sensors, sound sensors, radiation sensors, color sensors, and taste sensors.

HYDAC Technology GmbH, Germany, specializes in manufacturing components and devices for fluid filtration, hydraulic control, and electronic measurement technologies. It is a world-renowned manufacturer of hydraulic components, including filters, accumulators, hydraulic valves, electronic products, pipe clamps, electromagnets, and hydraulic system assemblies. HYDAC products have a wide range of applications, covering almost all industries, particularly in metallurgy, automotive, power equipment, chemical, construction machinery, papermaking, shipbuilding, and machine tool manufacturing.

(HYDAC sensor image compilation - 6 images) However, relying solely on human sensory organs is far from sufficient for studying natural phenomena and laws, as well as in production activities. To address this, sensors are needed. Therefore, it can be said that sensors are an extension of human senses, also known as electrical senses.

The arrival of the new technological revolution has ushered in the information age. In utilizing information, the first challenge is obtaining accurate and reliable information, and sensors are the primary means and method for acquiring information in the natural and industrial fields. From the particle world to observing celestial evolution spanning hundreds of thousands of years, and even instantaneous reactions lasting only seconds, sensors are crucial. Furthermore, various technological research areas have emerged that play a vital role in deepening our understanding of matter, developing new energy sources and materials, such as ultra-high temperature, ultra-low temperature, ultra-high pressure, ultra-high vacuum, magnetic fields, and ultra-weak magnetic fields. Clearly, acquiring a vast amount of information that cannot be directly obtained by human senses requires suitable sensors. Many obstacles in basic scientific research lie primarily in the difficulty of acquiring information about the object of study, and the emergence of new mechanisms and highly sensitive detection sensors often leads to breakthroughs in these fields. The development of some sensors often serves as a precursor to the development of interdisciplinary fields.

Sensors have long since permeated an extremely wide range of fields, including industrial production, space exploration, ocean exploration, environmental protection, resource surveys, medical diagnosis, bioengineering, and even cultural relic preservation. It is no exaggeration to say that from the vastness of space to the immensity of the ocean, and even to complex engineering systems, almost every modern project relies on various types of sensors.

HYDAC sensor

HDA 4745-A-0100-AH1-000 909817 Hydac 2973

HDA 4745-A-0100-AN1-000 922033 Hydac 2973

HDA 4745-A-016-000 907278 Hydac 2337

HDA 4745-A-0250-AH1-000 909818 Hydac 2973

HDA 4745-A-0250-AN1-000 909761 Hydac 2973

HDA 4745-A-0250-AN7-000 920330 Hydac 2973

HDA 4745-A-0250-S00 909291 Hydac 2551

HDA 4745-A-040-000 907612 Hydac 2337

HDA 4745-A-0400-AH1-000 909819 Hydac 2973

HDA 4745-A-0400-AN1-000 920729 Hydac 2973

HDA 4745-A-0400-CNB-000 920772 Hydac 2973

HDA 4745-A-0400-S00 909468 Hydac 2551

HDA 4745-A-060-000 907280 Hydac 2337

HDA 4745-A-0600-AH1-000 909820 Hydac 2973

HDA 4745-A-0600-AN1-000 922035 Hydac 2973

HDA 4745-A-0600-AN7-000 921682 Hydac 2973

HDA 4745-A-0600-S00 909098 Hydac 2551

HDA 4745-A-100-000 906729 Hydac 2337

HDA 4745-A-160-000 907746 Hydac 2337

HDA 4745-A-250-000 906392 Hydac 2337

HDA 4745-A-250-031(200bar) 906332 Hydac 2521

HDA 4745-A-400-000 906393 Hydac 2337

HDA 4745-B-006-000 907313 Hydac 2337

HDA 4745-B-016-000 907314 Hydac 2337

HDA 4745-B-060-000 907315 Hydac 2337

HDA 4745-B-100-000 907316 Hydac 2337

HDA 4745-B-160-000 909103 Hydac 2337

HDA 4745-B-250-000 907317 Hydac 2337

HDA 4745-B-250-031(200bar) 908291 Hydac 2521

HDA 4745-B-400-000 906507 Hydac 2337

HDA 4745-B-600-000 907318 Hydac 2337

HDA 4745-B-600-031(400bar) 907892 Hydac 2521

HDA 4745-B-600-031(500bar) 908128 Hydac 2521 The company mainly deals with 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, ROSS

British brands: Norgren

Italian brands: OMAL, ATOS, CAMOZZI, UNIVER, Camozzi