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Yaskawa XRC ERCR-UP50-RB04

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ERCR-UP50-RB04

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The Yaskawa ERCR-UP50-RB04 is a versatile robot controller designed for various industrial automation tasks. This unit supports multiple axes of movement and operates effectively in environments such as assembly, painting, and inspection.

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Not an Authorized Distributor: DO Supply is not an authorized distributor for listed manufacturers or tradenames and therefore the manufacturer's warranty does not apply. All of our products come with DO Supply's 2-year warranty.
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Technical specifications for ERCR-UP50-RB04

ManufacturerYaskawa
Product TypeRobot Controller
Product LineXRC
Part NumberERCR-UP50-RB04
Storage Temperature−20 °C to 60 °C
Humidity≤ 95% RH non-condensing
EnvironmentIndoor industrial automation
Input Voltage100–240 VAC
Input CurrentMax 20 A
ApplicationAssembly, Painting, Inspection
Motion AxesMultiple robotic arms/axes
Communication InterfacesEthernet & DeviceNet (redundant)
Programming InterfaceIntuitive XRC environment
Cooling MethodForced air (typical)
Display InterfaceTeach pendant compatible
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Designed to meet the demands of indoor industrial automation, the Yaskawa part number ERCR-UP50-RB04 serves as an advanced robot controller. This unit is capable of managing multiple robotic arms or axes, offering flexibility for various applications, including assembly, painting, and inspection.

Operating temperature ranges extend from −20 °C up to 60 °C, allowing for reliable function in varied industrial conditions. Humidity tolerance is rated at up to 95% relative humidity (non-condensing), ensuring it can withstand standard environmental factors found in factory settings. The controller runs on an input voltage of 100–240 VAC, requiring a maximum current of 20 A for stable performance.

The communication systems are robust, featuring both Ethernet and DeviceNet connections, which provide redundant communication options to enhance reliability during performance. An intuitive programming interface within the XRC environment simplifies setup and usage for operators. Cooling is primarily managed through forced air, ensuring effective temperature regulation during operation. Furthermore, this model is compatible with a teach pendant, facilitating easy interaction and control of robotic functions.