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. 

Thomas Liquid Peristaltic Pump Flow Rate: 14 ml / min , 14 ml / min, Max Pressure: 10 m H20 , 10 m H20, Max Suction: 8 m H20 , 8 m H20, Voltage (50 Hz): 230, Frequency (Hz): 50, Phase: 1-phase, Item Dimensions: Length: 3.15 in / 80 mm Width: 3.39 in / 86 mm Height: 3.62 in / 92 mm , Length: 3.15 in / 80 mm, Width: 3.39 in / 86 mm, Height: 3.62

Thomas Oil-less Diaphragm Compressor / Vacuum Pump Flow Rate: .53 LPM , .53 LPM, Max Pressure: 8.4 PSIG / 580 bar , 8.4 PSIG / 580 bar, Voltage (DC): 3, DC Motor Type: Standard, Item Dimensions: Length: 1.3 in / 33 mm Width: .55 in / 14 mm Height: .91 in / 23 mm , Length: 1.3 in / 33 mm, Width: .55 in / 14 mm, Height: .91 in / 23 mm, Net Weight: .4 lbs

Thomas Oil-less WOB-L Piston Compressor Flow Rate: 14 LPM , 14 LPM, Max Pressure: 14.5 PSIG / 1000 mbar , 14.5 PSIG / 1000 mbar, Voltage (DC): 12, DC Motor Type: Standard, Item Dimensions: Length: 5.71 in / 145 mm Width: 2.48 in / 63 mm Height: 4.09 in / 104 mm , Length: 5.71 in / 145 mm, Width: 2.48 in / 63 mm, Height: 4.09 in / 104 mm, Net Weight: 2.43

Thomas Oil-less WOB-L Piston Compressor Flow Rate: 14 LPM , 14 LPM, Max Pressure: 14.5 PSIG / 1000 mbar , 14.5 PSIG / 1000 mbar, Voltage (DC): 24, DC Motor Type: Standard, Item Dimensions: Length: 5.71 in / 145 mm Width: 2.48 in / 63 mm Height: 4.09 in / 104 mm , Length: 5.71 in / 145 mm, Width: 2.48 in / 63 mm, Height: 4.09 in / 104 mm, Net Weight: 2.43

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.?

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.?