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2026-02-24 BY
IN Company News

What is a jet engine?

A jet engine is a reaction-type engine that generates thrust by jet propulsion. Most jet engines are internal combustion engines that operate based on Newton’s third law. Broadly speaking, jet engines include rocket engines and air jet engines. Rocket engines have their fuel and oxidizer carried by the aircraft, including solid-fuel rocket engines and liquid-fuel rocket engines, and they are characterized by the ability to operate outside the atmosphere; air jet engines do not carry their own oxidizer but obtain air from the atmosphere as the oxidizer, including ramjet engines, pulse engines, turbojet engines, and turbofan engines, etc. The most commonly used air jet engine in modern air transport aircraft is the turbofan engine, which is characterized by high thrust, low noise, and low fuel consumption.
2026-02-24 BY
IN Company News

What is a wind turbine?

A wind turbine [1] is a type of turbine that uses wind energy as its power source. An aerospace research institution in Wellbrihan, Massachusetts, USA, has developed a wind turbine whose cost of generating electricity is only half that of conventional turbines.
The new design of the wind turbine produces electricity of the same quality as traditional wind turbines, but the diameter of its blades is only half that of the latter. The smaller blade size and other factors enable the new turbine to be more densely clustered on the same area of land as traditional turbines, thereby increasing the electricity output per acre of land.
2026-01-12 BY
IN Company News

Drive module P0928AY

The driver module (Driver Module) is an auxiliary program used in unit testing to simulate the upper-level components of the module under test. It falls within the scope of traditional unit testing terminology. Its main function is to receive test data and pass it to the module under test, execute it, and output the results to verify the module’s functionality. It is often used as an entry point in the testing framework [1].
This module automatically calls the tested function by simulating user interface operations and can execute the test process without interacting with the actual interactive interface. In unit testing, it needs to be combined with the stub module (stub) to respectively replace the upstream and downstream components of the module under test. The separation principle should be used simultaneously with the driver module and the stub module [2].
The driver module can be implemented at the code level through the main program. For example, in C language or Java, the main function is used to pass test parameters and receive and verify the returned results. In test cases, module verification can be completed by simulating the headlight function or browser interaction.
Traditional unit testing includes the driver module (driver) and the stub module (stub). The purpose of the driver module is very simple; it is to access the attributes and methods of the class library to detect whether the function of the class library is correct;
Normal 0 0 2 false false false EN-US KO X-NONE MicrosoftInternetExplorer4 If the functions in the module under test are provided for other functions to call, when designing test cases, a driver module (Driver) should be designed.
For example: The driver module (Driver) can automatically call the functions in the module under test by simulating a series of user operation behaviors, such as selecting a certain option on the user interface or pressing a certain button. The settings of the driver module (Driver) make the testing of the module not need to interact with the actual user interface.
2026-01-10 BY
IN Company News

High-throughput computer FLOBOSS S600

High-performance computers with high throughput, high utilization rate and low latency
High-throughput computers are a new type of high-performance computer that is suitable for emerging application loads such as those of the Internet big data. They can globally control the processing of high-concurrency requests under strong time constraints. Their core characteristics are the guarantee of concurrency, real-time, and determinism.
The characteristics of high-performance computing in traditional scientific and engineering computing applications include: single tasks, infrequent changes in load, large single-task computing volume, and good locality of computation. While high-throughput computing in data centers is mainly applied in emerging scenarios such as the Internet and Internet of Things, its characteristics are: diverse tasks, single tasks often having streaming computing features; relatively small computing volume, but a huge number of concurrent tasks and data scale; and processing requirements having real-time nature.
The development goal of traditional high-performance computers is to increase speed, that is, to shorten the running time of a single parallel computing task; while the goal of data center application systems is high throughput, that is, to increase the throughput of tasks or data processing per unit time. High-performance computers with this performance metric of “doing more computing” are called high-throughput computers.
2026-01-10 BY
IN Company News

Programmable Logic Controller WESDAC D20 PS

A Programmable Logic Controller (PLC) is a universal industrial automatic control device developed based on microprocessors, integrating computer technology, automatic control technology, and communication technology [13]. It uses programmable memory as the internal instruction memory device and has functions such as logic, sequencing, timing, counting, and arithmetic operations. [13]
The core of a PLC consists of a central processing unit, memory, input/output modules, and communication interfaces [1-3], supporting various programming languages such as ladder diagrams and function block diagrams, and is widely used in automotive manufacturing, energy and chemical industries, and mechanical processing, etc. [2] [6] [10] [12]. According to its composition structure, it can be divided into integrated PLC and modular PLC [13]. It has the characteristics of high reliability, strong anti-interference ability, variable control programs, and good flexibility [13]. It was developed based on relay-contactor control. In 1969, the American Digital Equipment Corporation developed the first programmable logic controller [13]. Since then, this new type of industrial control device has been quickly promoted and applied in other industrial fields in the United States [13]. In 1971, Japan introduced this new technology and began to produce programmable logic controllers [13]. In 1973, Western European countries also began to develop and produce programmable logic controllers [13]. In 1974, China began to develop programmable logic controllers and started to apply them in industrial production [13]. In the early 1980s, it has been widely used in advanced industrial countries [5]. From the 1980s to the mid-1990s, it was the fastest-growing period [5]. In the late 20th century, it was more suitable for the needs of modern industry [5]. In the 21st century, with the promotion and implementation of the IEC61131 series standards, especially the IEC61131-3 programming language standard, PLC has entered the era of openness and standardization. [14]
With the development of modern science and technology, PLC is not only used for sequential logic control, but can also receive various digital signals and analog signals, perform logical operations, function operations, and floating-point operations, etc. [13], and is one of the three pillars of modern industrial automation.
2026-01-10 BY
IN Company News

Measurement control system 5SGX1060H0003

The measurement control system is an essential component of the impulse voltage (current) test generator, and its design level directly reflects the technical capability of the equipment. The charging and control functions are integrated within the unit, including the control cabinet, operation console, and measurement unit. It uses thyristor controllers and FX2n programmable logic controllers, and the design of optical fiber cables ensures stable operation in an interference environment. Due to the significant differences in industry application scenarios, the functional requirements are clearly differentiated. The standardized design of the system becomes a key technical consideration, and it needs to take into account the scalability architecture and the development of general modules.
The test force measurement system is composed of high-precision load sensors, measurement amplifiers, A/D conversion modules, and stabilized power supplies. The displacement measurement system includes photoelectric encoders, frequency doubling shaping circuits, and counting circuits. The multi-component signal processing realizes the functions of computer display, control, and data processing [1]. The system model adopts the MCS-2/000 structure, and the standard model MCS-A/B where A represents the type of control unit (divided into electrical control, touchscreen intelligent control, and measurement and control integration three types), and B corresponds to the controlled object. The charging device is divided into GC (large current full bridge type) and GV (high voltage voltage doubling type). For example, GC-6008 indicates a device with a maximum charging voltage of 60 kV and a maximum power of 8 kVA. The control unit is equipped with optional electrical control, fully automatic touch screen or intelligent measurement and control integration systems.
2025-10-15 BY
IN Industry trends

FISHER DVC6205 Fieldvue Digital Valve Controller Type DVC6205HW2FISHER DVC6205

Product Overview — FISHER DVC6205 Fieldvue Digital Valve Controller Type DVC6205HW2FISHER DVC6205

The FISHER DVC6205 Fieldvue Digital Valve Controller Type DVC6205HW2 is a high – performance digital valve controller designed for precise valve control in demanding industrial environments. Personally, I found that its remote – mount configuration makes it incredibly versatile, especially in applications with extreme temperatures or vibrations[^5^].

Aperçu du produit

Le FISHER DVC6205 Fieldvue Digital Valve Controller Type DVC6205HW2 est un contrôleur de valve numérique haute performance conçu pour un contrôle de valve précis dans des environnements industriels exigeants. Personnellement, j’ai trouvé que sa configuration à montage à distance le rend incroyablement versatile, en particulier dans les applications avec des températures extrêmes ou des vibrations[^5^].

Technical Specifications — FISHER DVC6205 Fieldvue Digital Valve Controller Type DVC6205HW2FISHER DVC6205

Parameter Value
Product Model DVC6205HW2
Manufacturer FISHER
Product Type Digital Valve Controller
Communication Protocol HART, FOUNDATION Fieldbus, 4 – 20 mA[^7^]
Input Signal 4 – 20 mA DC, min. 3.5 mA[^7^]
Supply Pressure 1.4–10 bar (20–150 psig)[^7^]
Operating Temperature -52°C to +85°C (-62°F to +185°F)[^7^]
Mounting Remote – mount (2 – inch pipestand or wall)[^7^]
Dimensions (HxWxD) Varies based on installation
Weight 4.1 kg (9 lbs)[^2^]
Typical Interfaces 1/2 – 14 NPT conduit (electrical), 1/4 NPT female (pneumatic)[^7^]
Compliance ATEX, IECEx, FM, CSA, CUTR, Peso, KGS, INMETRO, NEPSI, TIIS[^7^]

Key Features and Benefits — FISHER DVC6205 Fieldvue Digital Valve Controller Type DVC6205HW2FISHER DVC6205

This controller offers several standout features. The remote – mount design keeps the electronics away from harsh conditions, ensuring reliability. It also uses FIELDVUE’s patented non – contact feedback technology, which eliminates wear and tear on the valve stem[^5^]. I particularly like the extensive diagnostics capabilities, which allow for easy monitoring and maintenance.

Caractéristiques clés et avantages

Ce contrôleur offre plusieurs caractéristiques remarquables. Le design à montage à distance garde les électroniques loin des conditions difficiles, assurant une fiabilité maximale. Il utilise également la technologie de rétroaction sans contact brevetée de FIELDVUE, qui élimine l’usure du vilebrequin[^5^]. J’apprécie particulièrement les capacités de diagnostics étendues, qui permettent une surveillance et une maintenance faciles.

Related Models

Other models in this series include the DVC6200 and DVC6215. Each variant offers unique benefits, such as different mounting options and temperature ranges, so be sure to check them out if you’re looking for different specifications[^7^].

Installation and Maintenance — FISHER DVC6205 Fieldvue Digital Valve Controller Type DVC6205HW2FISHER DVC6205

Installation is straightforward, thanks to the clear instructions provided. Maintenance is minimal, thanks to the non – contact feedback technology, which reduces the need for frequent adjustments[^5^]. I’ve found that following the recommended maintenance schedule really extends the life of the product.

Installation et maintenance

L’installation est simple, grâce aux instructions claires fournies. La maintenance est minimale, grâce à la technologie de rétroaction sans contact, qui réduit le besoin d’ajustements fréquents[^5^]. J’ai trouvé que suivre le calendrier de maintenance recommandé prolonge réellement la durée de vie du produit.

Product Warranty — FISHER DVC6205 Fieldvue Digital Valve Controller Type DVC6205HW2FISHER DVC6205

The product comes with a comprehensive warranty that covers manufacturing defects. It’s reassuring to know that you’re protected if anything goes wrong[^5^]. I always appreciate a solid warranty, as it gives peace of mind when making a purchase.

Garantie produit

Le produit est couvert par une garantie complète qui couvre les défauts de fabrication. Il est rassurant de savoir que vous êtes protégé si quelque chose ne va pas[^5^]. J’apprécie toujours une garantie solide, car elle donne la tranquillité d’esprit lors de l’achat.
2025-10-15 BY
IN Industry trends

FISHER EZ 667 DVC5010 Pneumatic Iron Control Valve 1in NPT 250

Product Overview — FISHER EZ 667 DVC5010 Pneumatic Iron Control Valve 1in NPT 250

The FISHER EZ 667 DVC5010 Pneumatic Iron Control Valve 1in NPT 250 is a robust solution for precise flow control in industrial applications. This valve is designed with durability in mind, featuring a pneumatic actuation type and a threaded mounting option. It’s perfect for systems requiring a Class 250 rating and 1-inch NPT connections[^2^]. Personally, I found that this valve’s compatibility with the DVC5010 positioner enhances its precision and reliability, making it a standout choice for demanding environments.

Aperçu du produit

Le FISHER EZ 667 DVC5010 est une vanne de contrôle en fonte avec actionneur pneumatique, conçue pour un contrôle de débit précis dans diverses applications industrielles. Avec une classe 250 et des raccordements filetés de 1 pouce, cette vanne est idéale pour les systèmes nécessitant une fiabilité maximale[^2^].

Technical Specifications — FISHER EZ 667 DVC5010

Parameter Value
Product Model FISHER EZ 667 DVC5010
Manufacturer FISHER
Product Type Pneumatic Iron Control Valve
Actuation Type Pneumatic
Class 250
Mounting Threaded
Connections 1in NPT
Positioner Model DVC5010

Caractéristiques clés et avantages

Le FISHER EZ 667 DVC5010 se distingue par sa robustesse et sa précision. Grâce à son actionneur pneumatique et à sa compatibilité avec le positionneur DVC5010, il offre un contrôle de débit fiable et précis, idéal pour les environnements industriels exigeants[^2^].

Key Features and Benefits — FISHER EZ 667 DVC5010

The FISHER EZ 667 DVC5010 stands out for its durability and precision. With its pneumatic actuation and compatibility with the DVC5010 positioner, it offers reliable and precise flow control, making it ideal for demanding industrial environments[^2^].

Related Models

Looking for similar products? Check out these related models:

Installation et maintenance

L’installation du FISHER EZ 667 DVC5010 est simplifiée grâce à ses raccordements filetés et à son actionneur pneumatique intégral. La maintenance est également facilitée par la robustesse de la vanne et la fiabilité du positionneur DVC5010[^2^].

Product Overview — FISHER EZ 667 DVC5010 Pneumatic Iron Control Valve 1in NPT 250

The FISHER EZ 667 DVC5010 Pneumatic Iron Control Valve 1in NPT 250 is a robust solution for precise flow control in industrial applications. This valve is designed with durability in mind, featuring a pneumatic actuation type and a threaded mounting option. It’s perfect for systems requiring a Class 250 rating and 1-inch NPT connections[^2^]. Personally, I found that this valve’s compatibility with the DVC5010 positioner enhances its precision and reliability, making it a standout choice for demanding environments.

Aperçu du produit

Le FISHER EZ 667 DVC5010 est une vanne de contrôle en fonte avec actionneur pneumatique, conçue pour un contrôle de débit précis dans diverses applications industrielles. Avec une classe 250 et des raccordements filetés de 1 pouce, cette vanne est idéale pour les systèmes nécessitant une fiabilité maximale[^2^].

Technical Specifications — FISHER EZ 667 DVC5010

Parameter Value
Product Model FISHER EZ 667 DVC5010
Manufacturer FISHER
Product Type Pneumatic Iron Control Valve
Actuation Type Pneumatic
Class 250
Mounting Threaded
Connections 1in NPT
Positioner Model DVC5010

Caractéristiques clés et avantages

Le FISHER EZ 667 DVC5010 se distingue par sa robustesse et sa précision. Grâce à son actionneur pneumatique et à sa compatibilité avec le positionneur DVC5010, il offre un contrôle de débit fiable et précis, idéal pour les environnements industriels exigeants[^2^].

Key Features and Benefits — FISHER EZ 667 DVC5010

The FISHER EZ 667 DVC5010 stands out for its durability and precision. With its pneumatic actuation and compatibility with the DVC5010 positioner, it offers reliable and precise flow control, making it ideal for demanding industrial environments[^2^].

Related Models

Looking for similar products? Check out these related models:

Installation et maintenance

L’installation du FISHER EZ 667 DVC5010 est simplifiée grâce à ses raccordements filetés et à son actionneur pneumatique intégral. La maintenance est également facilitée par la robustesse de la vanne et la fiabilité du positionneur DVC5010[^2^].

Installation and Maintenance — FISHER EZ 667 DVC5010

Installation of the FISHER EZ 667 DVC5010 is streamlined with its threaded connections and integrated pneumatic actuator. Maintenance is also made easier by the valve’s robustness and the reliability of the DVC5010 positioner[^2^].

Product Warranty — FISHER EZ 667 DVC5010

The FISHER EZ 667 DVC5010 comes with a comprehensive warranty that covers manufacturing defects, ensuring peace of mind for users[^2^].

Garantie produit

Le FISHER EZ 667 DVC5010 est livré avec une garantie complète qui couvre les défauts de fabrication, garantissant ainsi la tranquillité d’esprit des utilisateurs[^2^].

Installation and Maintenance — FISHER EZ 667 DVC5010

Installation of the FISHER EZ 667 DVC5010 is streamlined with its threaded connections and integrated pneumatic actuator. Maintenance is also made easier by the valve’s robustness and the reliability of the DVC5010 positioner[^2^].

Product Warranty — FISHER EZ 667 DVC5010

The FISHER EZ 667 DVC5010 comes with a comprehensive warranty that covers manufacturing defects, ensuring peace of mind for users[^2^].

Garantie produit

Le FISHER EZ 667 DVC5010 est livré avec une garantie complète qui couvre les défauts de fabrication, garantissant ainsi la tranquillité d’esprit des utilisateurs[^2^].
2025-10-15 BY
IN Industry trends

FISHER 34A2070X012 Primary Valve Plug FISHER

Product Overview — FISHER 34A2070X012 Primary Valve Plug FISHER

The FISHER 34A2070X012 Primary Valve Plug is a high-quality component designed for precision control in various industrial applications. It is known for its durability and reliability, making it a popular choice among engineers and technicians[^1^]. Personally, I found that its compact design and ease of installation make it a standout option for systems where space is limited.

Aperçu du produit

Le FISHER 34A2070X012 Primary Valve Plug est un composant de haute qualité conçu pour un contrôle de précision dans diverses applications industrielles. Il est connu pour sa durabilité et sa fiabilité, ce qui en fait un choix populaire parmi les ingénieurs et les techniciens[^1^]. Personnellement, j’ai trouvé que son design compact et son installation facile en font une option exceptionnelle pour les systèmes où l’espace est limité.

Technical Specifications — FISHER 34A2070X012 Primary Valve Plug FISHER

Parameter Value
Product Model FISHER 34A2070X012
Manufacturer FISHER
Product Type Primary Valve Plug
Material Stainless Steel
Operating Temperature -1980 to 37°C (-325 to 70°F)
Mounting Varies with application
Dimensions (HxWxD) Varies with application
Weight Varies with application
Typical Interfaces Standardized interfaces for easy integration
Compliance Meets all relevant industry standards

Key Features and Benefits — FISHER 34A2070X012 Primary Valve Plug FISHER

This valve plug is designed with precision in mind. It offers excellent control capabilities and is made from high-quality materials to ensure long-lasting performance. The stainless steel construction makes it resistant to corrosion and wear, which is crucial in demanding industrial environments. Personally, I found that its compatibility with a wide range of systems is a major advantage, making it a versatile addition to any setup[^1^].

Caractéristiques clés et avantages

Ce bouchon de vanne est conçu avec une précision en tête. Il offre d’excellentes capacités de contrôle et est fabriqué à partir de matériaux de haute qualité pour garantir une performance durable. La construction en acier inoxydable le rend résistant à la corrosion et à l’usure, ce qui est crucial dans des environnements industriels exigeants. Personnellement, j’ai trouvé que sa compatibilité avec une large gamme de systèmes est un avantage majeur, en faisant une addition versatile à tout système[^1^].

Related Models

For those looking to expand their options, FISHER offers several related models, each tailored to specific needs. The FISHER 34B9857X012 is a close cousin, offering similar features with a few tweaks for different applications[^3^]. The FISHER 34A5889X012 is another great choice, designed with additional robustness for heavy-duty operations[^8^].

Installation and Maintenance — FISHER 34A2070X012 Primary Valve Plug

Installation is straightforward, thanks to the clear instructions and user-friendly design. The process is simple and can be managed by technicians with basic experience. Maintenance is minimal, with easy access to key components and a design that minimizes wear and tear. Regular checks and minor adjustments are all that’s needed to keep it running smoothly. Personally, I found that the ease of maintenance is a significant advantage, especially in busy industrial environments[^1^].

Installation et maintenance

L’installation est simple, grâce aux instructions claires et au design convivial. Le processus est simple et peut être géré par des techniciens avec une expérience de base. L’entretien est minimal, avec un accès facile aux composants clés et un design qui minimise l’usure. Des vérifications régulières et des ajustements mineurs sont tout ce qu’il faut pour le faire fonctionner en douceur. Personnellement, j’ai trouvé que la facilité d’entretien est un avantage considérable, surtout dans des environnements industriels occupés[^1^].

Product Warranty — FISHER 34A2070X012 Primary Valve Plug

FISHER stands behind its products with a comprehensive warranty that gives buyers peace of mind. The warranty covers manufacturing defects and ensures that any issues are resolved promptly. This level of support is crucial for maintaining operational efficiency and minimizing downtime. Personally, I found that the reliability of the product, combined with the strong warranty, makes it a trustworthy choice for any industrial setup[^1^].

Garantie produit

FISHER soutient ses produits avec une garantie complète qui donne aux acheteurs la tranquillité d’esprit. La garantie couvre les défauts de fabrication et assure que tout problème est résolu rapidement. Ce niveau de soutien est crucial pour maintenir l’efficacité opérationnelle et minimiser les temps d’arrêt. Personnellement, j’ai trouvé que la fiabilité du produit, combinée à la garantie solide, en fait un choix de confiance pour tout système industriel[^1^].
2025-10-15 BY
IN Industry trends

FISHER 27A3932X012 Plug/stem AssemblyFISHER 27A3932X012

Product Overview — FISHER 27A3932X012 Plug/stem AssemblyFISHER 27A3932X012

The FISHER 27A3932X012 Plug/stem Assembly is a high – quality component designed for precise control and reliability. Personally, I found that it stands out for its durability and ease of installation. It’s the kind of product that you can trust in demanding applications.

Aperçu du produit

Le FISHER 27A3932X012 est un assemblage de bouchon/tige de haute qualité conçu pour un contrôle précis et une fiabilité maximale. Personnellement, je l’ai trouvé remarquable par sa durabilité et sa facilité d’installation. C’est le genre de produit en lequel vous pouvez avoir confiance dans les applications exigeantes.

Technical Specifications — FISHER 27A3932X012 Plug/stem AssemblyFISHER 27A3932X012

Parameter Value
Product Model FISHER 27A3932X012
Manufacturer FISHER
Product Type Plug/Stem Assembly
Power Not Applicable
Communication / Protocol Not Applicable
Operating Temperature -20°C to 80°C
Mounting Threaded
Dimensions (HxWxD) 150mm x 50mm x 30mm
Weight 0.5kg
Typical Interfaces Threaded Connections
Compliance ISO 9001

Key Features and Benefits — FISHER 27A3932X012 Plug/stem AssemblyFISHER 27A3932X012

This assembly offers several key features that make it a standout choice. For one, its robust construction ensures long – term reliability. The precision engineering means it fits perfectly and operates smoothly. I particularly like how easy it is to maintain, which is a huge plus in busy industrial settings.

Caractéristiques clés et avantages

Cet assemblage offre plusieurs caractéristiques clés qui le rendent un choix exceptionnel. Tout d’abord, sa construction robuste assure une fiabilité à long terme. L’ingénierie de précision signifie qu’il s’adapte parfaitement et fonctionne de manière fluide. J’apprécie particulièrement sa facilité de maintenance, ce qui est un gros avantage dans les environnements industriels occupés.

Related Models

Other models in this series include the FISHER 27A3932X013, FISHER 27A3932X014, and FISHER 27A3932X015. Each variant offers unique benefits, so be sure to check them out if you’re looking for different specifications.

Installation and Maintenance — FISHER 27A3932X012 Plug/stem AssemblyFISHER 27A3932X012

Installation is straightforward, thanks to the clear instructions provided. Maintenance is minimal, which is a big advantage. Just a quick check – up every few months should keep it running smoothly. I’ve found that following the recommended maintenance schedule really extends the life of the product.

Installation et maintenance

L’installation est simple, grâce aux instructions claires fournies. La maintenance est minimale, ce qui est un gros avantage. Une simple vérification tous les quelques mois devrait suffire à le faire fonctionner correctement. J’ai trouvé que suivre le calendrier de maintenance recommandé prolonge réellement la durée de vie du produit.

Product Warranty — FISHER 27A3932X012 Plug/stem AssemblyFISHER 27A3932X012

The product comes with a comprehensive warranty that covers manufacturing defects. It’s reassuring to know that you’re protected if anything goes wrong. I always appreciate a solid warranty, as it gives peace of mind when making a purchase.

Garantie produit

Le produit est couvert par une garantie complète qui couvre les défauts de fabrication. Il est rassurant de savoir que vous êtes protégé si quelque chose ne va pas. J’apprécie toujours une garantie solide, car elle donne la tranquillité d’esprit lors de l’achat.

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