🔵WEG is proud to introduce our product line extension of the #CWB series IEC #contactors 95-125A, NEMA contactor #CWBN size 3, and the associated RW117-3D thermal overload #relays 63 – 140A. Learn More: • CWB - CWBN Contactors flyer: https://ow.ly/9QnY50RPyKb • CWB – CWBN Contactors catalog: https://ow.ly/7yGx50RPyKj • RW Thermal Overload Relays flyer: https://ow.ly/F4Th50RPyKh • RW Thermal Overload Relays catalog: https://ow.ly/3lSA50RPyKi #WEG #contactor #CWBM #compactdesign #Automation #relay
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We're excited to showcase the latest product from Ω HTS – the ACSX-1 Heat Trace Power Connection Kit! Designed with advanced features and superior protection, this kit is set to revolutionize the way you handle power connections for self-regulating heating cables. Key Features: Versatility: Compatible with LXR, MXR, and HXR heating cables. Protection: Provides excellent mechanical protection and allows for up to 4” of thermal insulation. Easy Installation: Includes a cold-applied core sealer, eliminating the need for hot work permits. Ground-Fault Protection: Meets global electric codes with electronic heat trace controllers and compatible circuit breakers. Durability: Rated for extreme conditions with a minimum installation temperature of -40°C/-40°F and a maximum pipe temperature of 260°C/500°F. Why Choose ACSX-1? Safety First: Ensures grounding of heating cables quickly and easily without "pig-tailing." Efficiency: The J-Box offers ample space for ease of manipulation during installation. Certified: CSA/(CUS) certified component, ensuring reliability and safety. Whether you're in the industrial, commercial, or residential sector, the ACSX-1 is your go-to solution for efficient and safe heat trace power connections. #Innovation #PowerConnection #HeatTrace #SafetyFirst #Engineering #Technology #ACSX1 #HTS
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The #MAX3387E 3V powered TIA/EIA-232 and V.28/V.24 is a communications interface with low power require- ments, high data-rate capabilities, and enhanced elec- trostatic discharge (ESD) protection. The MAX3387E has three receivers and three transmitters. All RS-232 inputs and outputs are protected to ±15kV using the IEC 1000-4-2 Air-Gap Discharge method, ±8kV using the IEC 1000-4-2 Contact Discharge method, and ±15kV using the Human Body Model. A proprietary low-dropout transmitter output stage enables true RS-232 performance from a +3.0V to +5.5V supply with a dual charge pump. The charge pump requires only four small 0.1μF capacitors for operation from a +3.3V supply. The MAX3387E is capa- ble of running at data rates up to 250kbps while main- taining RS-232 compliant output levels. The MAX3387E has a unique VL pin that allows interop- eration in mixed-logic voltage systems. Both input and output logic levels are pin programmable through the VL pin. The MAX3387E is available in a space-saving TSSOP package.
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The installations wherein CTs and VTs are mounted to measure the normal and abnormal values of current and voltage, have many variations in key system parameters, including voltage class, insulation and short-circuit level, earthing type, rated current and burden, accuracy, ALF and size/design requirements, protection schemes, etc. This leads to the use of numerous varieties of CTs and VTs. It is possible that even a frequent user of CTs may not come across two identical CTs over a period of many years. It is this limitation which makes it difficult to standardise CT and VT specifications, thereby resulting in seemingly endless lists. This problem could also result in numerous inventories and create unmanageable stockpiling of CTs and VTs if one attempts to stock these transformers.
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LV & MV Switchgear Design & Estimation Engineer || Electrical Engineer (Power & Control) || Expert in Electrical PANELS Design || Expert in Estimation || BSC Electrical Technology From (University Of Technology) ||
Today, I've Design an Auto Transfer Switch (ATS) integrated with the advanced DSE-331 Module, ensuring seamless power transitions and enhanced control. This ATS is designed to facilitate smooth transitions between primary and backup power sources, guaranteeing uninterrupted power supply during critical moments. The DSE-331 Module serves as the brain of the ATS, offering intelligent monitoring and control functionalities. It enables real-time monitoring of power sources, voltage, frequency, and other essential parameters, ensuring optimal performance and reliability. Additionally, the module provides advanced protection features to safeguard the connected equipment against voltage fluctuations, overload conditions, and other potential risks. Incorporating cutting-edge technology, this ATS is equipped with state-of-the-art switchgear components, engineered for robustness and longevity. The switchgear ensures efficient power distribution and seamless transfer of electrical loads between different sources, minimizing downtime and maximizing operational continuity. Furthermore, the ATS panel features intuitive controls and a user-friendly interface, allowing operators to monitor system status, configure settings, and troubleshoot issues with ease. It is designed for versatility and compatibility, making it suitable for various applications across industries such as telecommunications, healthcare, data centers, and more. #ATS #AutoTransferSwitch #DSE331Module #Switchgear #PowerDistribution #BackupPower #ElectricalEngineering #ControlPanel #IndustrialAutomation
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What is the difference between ECB and recloser? A recloser is a type of automatic switching device used in power distribution systems to interrupt fault currents and restore power to unaffected portions of the network. It is designed to open and close automatically in response to fault conditions, typically using a combination of electromagnetic and mechanical mechanisms. Reclosers are commonly used in overhead distribution lines and can be configured to operate in coordination with other protective devices. An Electronic Circuit Breaker (ECB) is a more modern and sophisticated type of circuit breaker that uses electronic components for control and protection functions. ECBs offer advanced features such as digital communication, programmable trip settings, and real-time monitoring. They are commonly used in low-voltage and medium-voltage applications, providing enhanced protection and control capabilities over traditional electromechanical circuit breakers. In summary, the main differences between a recloser and an ECB are: Operation Mechanism: Reclosers rely on a combination of electromagnetic and mechanical principles, while ECBs use electronic components for control and protection. Functionality: Reclosers are primarily designed for automatic reclosing operations in response to faults, whereas ECBs offer a broader range of protection and monitoring features. Application: Reclosers are commonly used in overhead distribution lines, while ECBs are suitable for a variety of applications including industrial, commercial, and residential settings. Flexibility: ECBs offer greater flexibility in terms of programmability and integration with modern power management systems. Overall, the choice between a recloser and an ECB depends on the specific requirements of the power distribution system, with ECBs offering more advanced features but potentially higher costs. #xucky #ECB #RECLOSER #RECLOSING #SMARTCIRCUITBREAKER #CIRCUITBREAKER #MOTORIZEDCIRCUITBREAKER #REMOTECONTROL
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🌟 Revolutionizing Phase Comparison: Introducing the High Voltage Wireless Phase Comparator WPC1000! ⚡ Eliminating the need for connecting cables, the WPC1000 utilizes Transmitter and Receiver modules to determine Phase Relationship between energized conductors at the same voltage and frequency. Designed to IEC 61481 standards, it operates seamlessly on system voltages up to 36kV. 🔌 The Transmitter (TX) and Receiver (RX) units are battery-operated electronic contact devices, providing visible indications of the line's status under test. Using super-bright LEDs and a high-intensity buzzer, they ascertain phase relationship in various conditions, including bright sunlight and high background noise. ⚡ Voltage checking is initiated when the Transmitter touches the live conductor, automatically triggering a sequence for phase angle determination. The Receiver also performs voltage checks when in contact with the live conductor, providing essential insights. 🟢🔴 An IN PHASE condition is signaled by solid GREEN and RED LEDs along with a continuous buzzer. When the phase angle shift exceeds ±20°, a solid RED LED indicates an OUT OF PHASE condition. 🔒 Safety is paramount. Remember, each module must be paired with suitable insulating operating rods for a secure working distance from the HV source. 🚀 Embrace advanced phase comparison with the WPC1000 – enhancing efficiency, safety, and accuracy in high-voltage operations. Discover a new era in power testing! 💡⚙️ #highvoltage #safetyfirst #engineering
Wireless Phase Comparators
https://www.hvil.com
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Machine safety is a critically important issue as safety gaps are risk drivers for organizations as a whole. Control and protection system updates enhance not only machine safety but also contribute to higher and more robust reliability and economic efficiency. Today, simplex pneumatic-hydraulic speed control and hydraulic overspeed protection systems used in the past are often to be assessed as critical in risk analyses. To update legacy steam turbine units to most rigorous requirements for control and protection systems, we provide a fully redundant PLC based E/H speed control system with redundant control block and redundant position feedback sensors together with a fully electronic overspeed protection system with 2oo3 voting, TMR architecture, and SIL 3 capability. Get the full picture of your safety options: select #steamturbine and #safety in our PrimeServ SolutionAdvisor and download the flyer: https://bit.ly/4b1KFXu #steamturbine #safety
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⭐ The new era of alarm annunciators ⭐ AQ-S254 – The multifunctional alarm and indication device Check out our webinar to learn the full functionality of the AQ-S254 topped with hands-on examples. Our Sales and Marketing Manager, Robert Olander, is happy to answer any additional questions you may have in the comment section. Or visit our website for more information. Webinar (Youtube) 👉 https://lnkd.in/dRRbVYdn Website 👉 https://lnkd.in/ddXFiDDF The AQ-S254 in a nutshell: 💡 A multi-purpose IED for collecting alarms and indications on a MV/LV substation. 💡Can either be hardwired through max. 115 digital inputs or receive signals through IEC 61850 GOOSE. 💡The full color display can in addition to alarm displays, have up to 4 mimic displays, enabling control of e.g breakers and disconnectors in the substation. 💡Includes full set of communication protocols for connecting to devices on the substation or even connect directly to SCADA through IEC 101/104 protocol. 💡 Fully modular hardware construction gives a high level of flexibility; functionality can be added or changed at any point. #relayablepower #arcteq #AlarmAnnunciator #protectionrelays #webinarwednesday
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What is the difference between ECB and recloser? Follow us to know more
What is the difference between ECB and recloser? A recloser is a type of automatic switching device used in power distribution systems to interrupt fault currents and restore power to unaffected portions of the network. It is designed to open and close automatically in response to fault conditions, typically using a combination of electromagnetic and mechanical mechanisms. Reclosers are commonly used in overhead distribution lines and can be configured to operate in coordination with other protective devices. An Electronic Circuit Breaker (ECB) is a more modern and sophisticated type of circuit breaker that uses electronic components for control and protection functions. ECBs offer advanced features such as digital communication, programmable trip settings, and real-time monitoring. They are commonly used in low-voltage and medium-voltage applications, providing enhanced protection and control capabilities over traditional electromechanical circuit breakers. In summary, the main differences between a recloser and an ECB are: Operation Mechanism: Reclosers rely on a combination of electromagnetic and mechanical principles, while ECBs use electronic components for control and protection. Functionality: Reclosers are primarily designed for automatic reclosing operations in response to faults, whereas ECBs offer a broader range of protection and monitoring features. Application: Reclosers are commonly used in overhead distribution lines, while ECBs are suitable for a variety of applications including industrial, commercial, and residential settings. Flexibility: ECBs offer greater flexibility in terms of programmability and integration with modern power management systems. Overall, the choice between a recloser and an ECB depends on the specific requirements of the power distribution system, with ECBs offering more advanced features but potentially higher costs. #xucky #ECB #RECLOSER #RECLOSING #SMARTCIRCUITBREAKER #CIRCUITBREAKER #MOTORIZEDCIRCUITBREAKER #REMOTECONTROL
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DH1000 MV Variable frequency drive *Ultra-large redundancy design: All electronic devices are designed and evaluated at 120%, and the power unit is designed and evaluated at 120% load for long-term operation. *Excellent heat dissipation design: advanced independent cabinet S-shaped air duct, long-life, large air volume cabinet top cooling fan, low wind resistance, high dustproof, easy to remove air inlet filter. *AC 220V control power supply, dual-circuit power supply & built-in UPS: ensure the stability of the control power supply; *Speed tracking (flying start), low voltage compensation, instantaneous power failure restart, frequency jump function, etc. *Control mode: VF control, vector control with PG, vector control without PG *Communication expansion, standard Modbus communication, optional profibus, etc. *Friendly operation interface: ultra-large industrial-grade touch screen, more comprehensive parameter monitoring interface, wider storage space for software upgrades, and stronger human-machine adaptability. *Complete protection functions: complete fault monitoring circuit and precise fault alarm protection, which can fully meet the operation needs of the frequency converter and the entire system. Its basic protection functions include: overvoltage protection, overcurrent protection, undervoltage protection, overload protection, overheating protection, short circuit protection, etc.;
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