Innovative Components has been in business since 1992. We are a leading manufacturer of custom liquid level float switches and temperature sensors. We make a wide range of liquid level sensors, float switches, temperature sensors, and controls. Whether you need a high quality float switch for your OEM equipment, a custom multi level sensor designed to your specifications, or want to order a kit and build your own float switch, Innovative Components can get the job done! We also offer high level alarms, level control relays, digital panel meters and many other accessories. Our professional engineering and sales staff have more than 50 years of experience to ensure you get the best solution for your application. We are committed to excellent quality, customer service, and quick delivery. Click the link below to visit our website and browse our extensive online catalog.
That s great PRODUCT ! Thank you so so much ! Please let me know it take power for a water pump from my sump what I want to build it, the pump is 60W, 240 v AC ; or what is the maximum wattage ? Thank you so much !
That s great info ! Thank you so so much ! Please let me know it take power for a water pump from my sump what I want to build it, the pump is 60W ; or what is the maximum wattage ? Thank you so much !
same way, just take the one of the pump hot connections and connect that to the NO or NC contact on the relay (NO is if you want the pump to turn on when the float switch activates) (NC if you want the pump to turn off if the float switch activates) then connect the common the the hot from the power source then your other hot to directly to the pump.
I really needed this as I was drawing a ladder diagram for class for a water tank with 4 different sensors/depths and kept getting confused. Other videos I watched were so confusing.
Great explanation But you could demonstrate how the switch reacts as the magnet is moved across the switch from end to end. The switch reacts to the magnetic field and the switch can be more sensitive in some areas than others and at the mid point might not even work at all !
Yes, it seems with a lot of these reed switch videos the orientation of the magnetic field is not made clear. It is a bit counter intuitive that you bring the magnet poles alongside the reeds (parallel to them) not one pole directed at 90 degrees. In a reed relay where the reed is inside a solenoid the same is true - the magnetic field lines run parallel to the reeds. The very tips of the contacts are coated with a metal that is not chosen for magnetism but for good electrical conductivity. The reeds are made of a 'soft' magnetic material and when a magnetic field is near them they become magnetised and overcome the 'spring' force that keeps them separated, and stick together. Remove the magnet and they spring apart. Hope that helps a bit.
K so I’m using a sump electric float switch in a well reservoir, I need it to on the switch when the tank is low, but usually a sump switch will on the current when the basin is full, so I’m going to get inside this float switch and do what you just did, wish me luck
Are they susceptible to vibration? i was thinking of putting it on an ebike to make a speed limiter switch but im worried that the switch will vibrate during the ride.
thank you for this video. brings clarity on how door alarm sensors work; I am trying to figure out how it works so I can properly detail it in my product proposal.
