1 year warranty
The ERF150WJ751 is a high-performance 150W braking resistor with a resistance of 750 ohms, designed for efficient energy management in industrial applications. This component is categorized under resistors and is suitable for demanding operational settings, although it does not carry UKCA certification. Its reliable functionality makes it an essential choice for various control systems that require effective braking solutions.
The ERF150WJ751CCP braking resistor is engineered to offer superior braking performance in drive systems, with a specification of 150 watts and 750 ohms resistance. It plays a pivotal role in improving braking capabilities and ensuring consistent system functionality across diverse operational conditions. The carefully crafted design and specifications of this resistor make it an essential element for any application requiring efficient energy dissipation and robust system reliability.
The ETC507920, identified as the PC board YPCT11045-1-3 and belonging to the JPAC-C263 category, is engineered for superior performance in drive systems. Focused on the needs within the drives sector, this drive board exemplifies durability and optimal operation. Serving as a critical component for high-level drive applications, it guarantees robust and efficient performance, making it a key addition to sophisticated drive mechanisms.
Crafted for superior performance in drive applications, the ERF150WJ301CCP braking resistor stands out with its 300-ohm resistance and a 150-watt power capacity. It is engineered to provide exceptional energy dissipation, crucial for maintaining the operational integrity of motor control systems. This component is indispensable for industries requiring precise braking control and energy management, ensuring system longevity and peak performance without the risk of overload.
The ERF150WJ401CCP is an integral braking resistor optimized for use in various drive systems, with a powerful 150-watt output and a precise 300-ohm resistance. Its primary function is to augment system control and stability by efficiently dissipating energy throughout braking processes. Crafted for reliability, this component is a cornerstone in ensuring enhanced performance and durability within drive configurations.
The ERF150WJ301 is a high-performance braking resistor with a power rating of 150W and a resistance of 300 ohms, ideal for effective energy management in diverse applications. As part of the components category, it falls under the resistor subcategory, providing reliability and efficiency for various system requirements. Please note that this model does not include UKCE certification, making it essential for users to evaluate its compatibility with specific regulatory standards.
The ERF150WJ201CCP braking resistor is engineered to excel in energy dissipation tasks, providing a robust capacity of 150 watts and a resistance specification of 200 ohms. Tailored for seamless integration within drive systems, it plays a critical role in maintaining system performance and stability by efficiently handling regenerative energy. This makes it an essential component for ensuring enhanced operational control and safety within automated environments.
Designed to seamlessly integrate with V7 systems, the ERF150WJ201 braking resistor is engineered to facilitate superior braking efficiency through its 150W power rating and 200VAC operation in three-phase setups. With a specific resistance of 200 ohms and the capacity to manage loads as high as 1.1KW, this component is poised to deliver unmatched performance and durability in demanding industrial applications. Its primary function is to ensure optimized energy dissipation, contributing to the overall stability and responsiveness of the braking system.
The ERF150WJ101CCP is a high-quality braking resistor tailored for improving drive system operations. It boasts a substantial 150-watt power capability and a precise 100-ohm resistance, making it exceptionally suited for dynamic braking mechanisms. Classified under the drives category, its main function is to offer enhanced control and reliability to braking systems.
The ERF150WJ101 braking resistor is tailored for 200 VAC drives, delivering a power rating of 1.5 kW with a resistance of 100 ohms. This component, equivalent to the 3G3IV-PERF150WJ101, is engineered to optimize braking energy dissipation, enhancing the overall efficiency and reliability of drive systems across multiple industrial settings. Its robust design makes it an indispensable asset for ensuring smooth operation in demanding applications.
The ERCRNS00A200 model, though no longer produced by the manufacturer, stands out in the realm of robotic servo controllers. Its core attributes include a robust power specification, utilizing a single-phase 200/220 VAC at 1 KVA and compatibility with 50/60 Hz frequencies, tailored for high-demand robotics applications. This servo controller epitomizes precision and reliability, crafted to meet the rigorous needs of factory automation and robotic control sectors.
The ERAR100006VXH25B15 model, no longer in production, serves as a sophisticated robotic controller compatible with the 1-06VXH25-A00 robot. This unit functions on a three-phase AC power supply with specifications of 380 volts and 15 amps, suitable for frequencies of 50/60 Hz, featuring a significant fault current rating of 5 kA. Tailored for high-demand robotic applications, its design emphasizes precision and dependability, marking it as an essential element in advanced control and automation environments.
DB Unit
The ERCSUP50NAE00 is a discontinued robotic controller tailored for sophisticated automation tasks, functioning at 400/440VAC with a power output of 5KVA. This component, classified within the servo products category, is engineered to enhance the precision and performance of robotic systems in demanding industrial environments, ensuring effective control for various applications.
The EMR1-22P2B-EU12 embodies precision and efficiency, offering a 2.2kW power capacity and functionally designed to achieve 1450 RPM at a 200V operational voltage. This unit is tailored for optimal performance and durability, catering to an array of industrial automation needs within the Drives class. Renowned for its high reliability, it serves as a critical component for enhancing system productivity and efficiency.
The EJA110EFMS5G914DBKS26M01 differential pressure transmitter excels in delivering precise and dependable pressure measurements for hydraulic systems. With an operational output range of 4 to 20mA and a maximum working pressure (MWP) of 16MPa, it is suited for rigorous applications. Designed to operate on a 9-17.5VDC power supply, this transmitter, despite being discontinued by the manufacturer, is essential for accurate hydraulic flow and pressure gauge operations.
The EGSV3-DB-60ADG stands as the most recent update to the CACR-470-EE1VBD-00 retrofit series, offering exceptional capabilities in servo product applications. It necessitates programming to meet specific operational needs, and interested parties are encouraged to reach out for a programmable spec sheet. This model is specifically engineered for high precision in servo drive and servo control contexts, providing a sophisticated solution for those in need of advanced servo product functionalities.
The EEVA51KM spindle motor is engineered for demanding industrial applications, featuring a three-phase design that outputs 7.5 kW at a voltage of 176 V. With a current rating of 32 amps and a four-pole configuration, this servo motor delivers exceptional performance and reliability, making it suitable for advanced automation tasks. Its robust construction ensures it meets the rigorous requirements of various operational environments.
The EELQ51 three-phase induction motor delivers a solid performance with its 0.75 kW power output, designed for 200 V and 30 Hz operations. Despite being discontinued, it stands out in the Motors/GearBox/Clutch category for its durability and efficiency, making it an ideal option for rigorous industrial use. Its design emphasizes reliability, offering sustained performance in a wide range of applications.
The EELBQ5 model stands out for its high-efficiency three-phase brake motor, engineered for optimal performance with a supply voltage of 200/220VAC at both 50/60Hz, and an output power of 0.4kW. It operates efficiently with a current draw of 2.2/1.95 amps and boasts a versatile speed capability ranging from 1420 to 1730 RPM across its four poles. Designed to meet rigorous demands, this motor, however, has been discontinued by the manufacturer, making it a critical choice for users seeking dependable and powerful motor solutions before stocks deplete.
The EB11078 is a robust drive board coil engineered for seamless implementation in diverse drive applications. This essential component is designed to deliver high reliability and exceptional performance, making it a key player in industrial automation solutions. With its specifications tailored to meet a broad range of operational demands, the EB11078 significantly contributes to enhanced system efficiency and productivity.
The EEA-IKM servo motor is a powerful, foot-mounted unit engineered for high-demand environments, delivering an impressive 18.5 kW of power and achieving speeds of up to 6000 RPM. This three-phase motor operates at 180 VAC and has a maximum current draw of 70 amps, featuring four poles for enhanced efficiency. Although no longer available from the manufacturer, it continues to serve as a strong choice for industrial automation needs.
The EDF9201952A1 PC board, now discontinued, represents a significant addition to PLC and machine control systems, aiming to extend their functionality. Crafted for industrial automation, it promises easy integration and reliable operation across diverse environments. As a notable member of the PLC/Machine Control category, this add-on board stands out for its ability to bolster system performance efficiently, making it an essential component for enhancing system operations.
The EB13994 is a discontinued drive board tailored for speed control operations, providing essential functionality in diverse industrial applications. Known for its dependable performance, this drive board remains a relevant option for those in need of effective speed control solutions. Designed for seamless integration, the EB13994 continues to be recognized for its role in enhancing operational efficiency within drive systems.