Product Description
The X20BM32 is a power supply bus module that is ideal for use in industrial automation systems due to its high efficiency. It offers a continuous internal I/O power supply to guarantee that the power is well distributed in the system. This module stands out for its low power consumption on the bus with a power consumption of 0. 13 W which is a clear indication that it is very much energy efficient compared to the previous model.
With a nominal voltage of 24VDC for the I/O power supply, X20BM32 has a permissible contact load of up to 10A to enable it to supply power to a variety of industrial devices and components. To accommodate different installation requirements, the X20BM32 can be mounted in either a horizontal or vertical position to suit the particular industrial environment. The module is designed for a standard pitch of 25 with a tolerance of +0. 2mm which prevents incorrect positioning and spacing in the system racks or panels of the enclosure. The operational temperature ranges are designed to accommodate diverse environmental conditions: It is -25 to 60 degrees C when mounted horizontally and -25 to 50 degrees C vertically. These ranges guarantee the stability of the performance of the device under different conditions of temperature stress.
The module's reliability is enhanced by its compatibility with storage and transport temperatures of -40 degrees C to 85 degrees C and relative humidity during transport of 5 to 95%, non-condensing. This durability makes the module a suitable option for systems that may be exposed to extreme or changing environmental conditions while in use, storage, or transport. The X20BM32 bus module that can accommodate double-width 240 VAC I/O modules is ATEX Zone 2 compliant (II 3G Ex nA nC IIA T5 Gc) for use in hazardous areas. It supports installation up to 2000 m without limitation and needs 0. 5 degrees C ambient temperature reduction per 100m above 2000m and has a mass of about 1kg. The product is available at Wake Industrial with a one-year warranty period.