Home Robotics Omron’s systematic strategy to a greater PCB connector

Omron’s systematic strategy to a greater PCB connector

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Omron’s systematic strategy to a greater PCB connector

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Robotic controller utility with PLC. (Supply: Adobe)

A brand new design ensures excessive contact reliability with decrease insertion pressure

Connectivity is an intrinsic a part of in the present day’s industrial automation and robotic purposes. An ever-increasing variety of units and peripherals depend upon secure connections to transmit energy and indicators to the printed circuit board (PCB). Managing these connections is labor-intensive, main many OEMs away from conventional screw terminals. Push-in terminal block PCB connectors provide simpler set up and tool-free meeting that may scale back the wiring workload by greater than 50%. Nonetheless, as automation programs develop into extra advanced and labor shortages persist, engineers are searching for new methods to reinforce connector effectivity. This impressed Omron to take a contemporary take a look at their PCB connectors for alternatives to optimize. The result’s a brand new dual-spring construction that builds upon helpful options and minimizes the potential for missteps.

Typical connector construction vs. new dual-spring design

Typical push-in connectors have a single spring. Omron’s new PCB connector socket (XW4M) incorporates a second spring that, when related to the plug (XW4N), ensures contact reliability by means of the mixed contact pressure of each springs. The twin-spring design reduces the required insertion/removing pressure through a launch lever that opens the second spring when inserting and eradicating. By putting the blue launch lever in the identical route because the connector deal with, the person can simply insert or take away the connector with one hand. (See video and diagrams beneath.)

Designed for ease of use within the discipline

Eliminates torque errors. Improper torque is among the NEC’s most cited code violations. Whereas push-in connectors aren’t susceptible to over-torquing like screw terminal connectors, insufficient torque creates totally different issues. Free connections have an effect on sign high quality, impedance mismatch, sign attenuation, and EMI/RFI ranges, in addition to posing the chance {of electrical} hearth. The XW4N terminal connector eliminates the chance of improper torque. Wires are securely related by merely pushing them into the connector. No changes or particular instruments are vital.

Prevents unintentional wire removing. The person launch buttons in standard PCB connectors are supposed to simplify wire removing. As a result of the person should push and maintain the button with a screwdriver, it’s straightforward to press different buttons by accident. Omron changed launch buttons with holes designed to carry a slotted screwdriver in place, protecting the person’s arms free for cabling.

Omron XW4M-XW4N

XW4M/XW4N push-in terminal block PCB connectors. (Courtesy of Omron)

Hurries up upkeep. Many commonplace connectors require eradicating the socket throughout upkeep checks. This takes extra time and will increase put on on the terminals. The discharge holes permit technicians to conduct continuity checks with out disconnecting the socket from the plug. This straightforward function reduces time spent on upkeep and put on on account of repeated disconnections.

Be taught extra about Omron’s PCB terminal block connectors at XW4M/XW4N Push-in Terminal Block PCB Connectors.

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