EX510-GDN1.eng Fieldbus system DeviceNet Compatible GW unit Operation Manual EX510-GDN1 URL http://www.smcworld.com Akihabara UDX 15F, 4-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021, JAPAN Phone: +81 3-5207-8249 Fax: +81 3-5298-5362 Note: Specifications are subject to change without prior notice and any obligation on the part of the manufacturer. 2010-2017 SMC Corporation All Rights Reserved EX-OMH0023-
O: Sensor: OFF 1: Sensor: ON 3 Input block connector Connects the Input block. 12 8 Output block connector Connects the solenoid valve, Output block etc. 4 SW 1 5 13 9 Safety Instructions SI unit 5 Display window LED display shows the SI unit status. 2 6 14 10 HW 6 Switch protective cover Sets the address etc. with the switch inside. 31 29 27 25 23 17 3 7 21 19 15 11 Address setting mode
. : EX500-AP Power supply connector Power supply connector 3 4 5 2 3 4 5 2 1 1 14 15 Cable connection For wiring with solenoid valves or input devices, connect the branch cable with M12 connector to communication ports A D. There are two types of cables different in connector shape ---straight type and angle type.
Communication connector for PROFIBUS DP Green Red Shield VP RxD/ TxD-N DGND RxD/ TxD-P SHIELD Green Red Shield Drawing 4 Drawing 1 15 14 Display/ Switch Setting Wiring (continued) Power supply wiring Connect power supply wiring to the two power supply 2-pin connectors.
No.EX-OME0011-H PRODUCT NAME SI unit for CC-Link MODEL / Series / Product Number EX140-SMJ1 Series Table of Contents Safety Instructions 2 Model Indication and How to Order 7 Summary of Product parts 7 Definition and terminology 7 Mounting and Installation 8 Communication wiring 8 Power supply wiring 10 Settings 10 Maintenance 14 Troubleshooting 15 Specifications 18 Specifications 18 Dimensions
DA DB DG SLD FG Yellow Blue White Shield Drawing 1 15 14 Wiring (continued) (4) Refer to Drawing 4 about how to connect to the unit. (2) Make sure to connect a "terminating resistor" to the units at the both ends of the system (Refer to Drawing 2).
Through the combination of parallel I/O inputs, 14 points of positioning are available.? The speed and acceleration of the positioning can be set by the switch for each operating direction.? A single signal sent to a dedicated terminal returns an actuator to the home position.?
MY1B25 MY1B32 MY40-16AStroke MY1B40 Qty. 1 Seal belt 14 MY32-16CStroke MY25-16CStroke Urethane Polyamide Dust seal band 15 MY1B25-16BStroke MY1B32-16BStroke MY1B40-16BStroke Stainless steel 1 KA00311 KA00320 KA00320 O-ring 28 NBR 2 (7.15 x 3.75 x 1.7) (7.15 x 3.75 x 1.7) (5.1 x 3 x 1.05) 14, 15, 28, 33 and 37 are not included in the seal kit.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.
Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to the home position.