Team:EPF-Lausanne/Tools/Microfluidics/HowTo2

From 2011.igem.org

(Difference between revisions)
(Details of connections)
(Details of connections)
 
Line 41: Line 41:
== Details of connections ==
== Details of connections ==
-
Below are three images detailing how the tubing and electronics in our setup are connected, and the role of each component.
+
Below are four images detailing how the tubing and electronics in our setup are connected, and the role of each component.
A printed circuit board (PCB) is used to connect the solenoid valves to the relays on the easyDAQ, and power them. The solenoids are connected to the PCB via two flat cables, one soldered to the red wires, one soldered to the black wires (they are 14-wire cables, with two wires removed). The other end of each cable is fitted with a 14-pin connector. The PCB is powered by a 24 V power supply, and distributes the power to each solenoid through the relays on the EasyDAQ. Therefore, when a relay is open, a 24 V load is applied to the corresponding solenoid (wich opens it). When the relay is closed, both leads of the solenoid are grounded (which closes it).
A printed circuit board (PCB) is used to connect the solenoid valves to the relays on the easyDAQ, and power them. The solenoids are connected to the PCB via two flat cables, one soldered to the red wires, one soldered to the black wires (they are 14-wire cables, with two wires removed). The other end of each cable is fitted with a 14-pin connector. The PCB is powered by a 24 V power supply, and distributes the power to each solenoid through the relays on the EasyDAQ. Therefore, when a relay is open, a 24 V load is applied to the corresponding solenoid (wich opens it). When the relay is closed, both leads of the solenoid are grounded (which closes it).

Latest revision as of 12:36, 23 October 2011