Successful vdc relay for High-Risk Applications
Reliable vdc relay Designs for Commercial and Industrial Applications
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24 vdc relay 3 vdc relay 5 vdc relay board
This is a 5V 2-Channel Relay interface board, Be able to control various appliances, and other equipments with large current. It can be controlled directly by Micro-controller (Arduino , 8051, AVR, PIC, DSP, ARM, ARM, MSP430, TTL logic. Features; 5V 2-Channel Relay interface board, and each one needs 15-20mA Driver Current; Equipped with high-current relay, AC250V 10A ; DC30V 10A; Standard interface that can be controlled directly by microcontroller (Arduino , 8051, AVR, PIC, DSP, ARM, ARM, MSP430, TTL logic); Indication LED's for Relay output status Package Content1x SainSmart 2-Channel 5V Relay Module
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teeteringtimetraveller asked How do i control a linear actuator from a microprocessor using infrared transmission?
this link shows you pretty much what i am trying to do: http://www.youtube.com/watch?v=XLodZGNvV9k it appears as the infrared receiver is embedded onto a microprocessor & the linear actuator is connected to one of the microprocessor's I/O terminals. I assume the modulated carrier signal from the infrared transmitted beam is 36 khz. However, I'm not sure how many volts it runs on & whether or not this is a DC operated circuit because i don't want to use household current. But this is basically the same kind of project i want to duplicate, & I have a linear actuator on hand like that. I also am not sure whether or not to use arduino or a pic controller? Can anybody help?
And got the following answer:
Like any problem you start at one end ond work it towards the other. Start with what you have which in this case it the actuator. What voltage oes it operate with? Start simple and progress in small steps . Attact power to that actuator and operate it. Note how it works, what happens when you turn the power on and off. How do you make it change direction. This may sound simplistic but if you don't understand how the actuator works, then how can you program a microcontroller to operate it. Micro controllers typically operate on 5VDC, but that actuator will most likely need an different voltage to operate. This meanc that you will need interface circuitry between the micro and the actuator so that the low voltage from the micro controller can control higher voltage used by the actuator. The easiest way to do this is with a relay that uses a 5vdc coil. The contacts of the relay are used to switch power to the actuator. Wire up relays, the actuator and the power supply for the actuator. Test the relay operation by using 5 VDC To operate the relay coil and make the actuator function. If you can't make this work there is no sense on going further until you can get this simple circuit to work... When this is done you can not progress to selecting a controller, pic, atmel, chipkit,basic stamp,propeller, arduino Whatever you choose.... Your preference , but i would select either an arduino or basic stamp as these are the easiest to use for a noob. Now you progress in small steps again but using the microcontroller to operate the relays. Hook up the relay coils to an output on the microcontroller. Then use the software to programit to turn the relay on when you power upbthe controller. Once that works you reprogram the controller to add complexity a little bit at a time. Power up wait a few seconds then operate the actuator, then add more complexity to make the actuator move back and forth. Then add an input switch and make the actuator work in response to pressing an input switch.... Get your project to this point before you worry about the ir control. If you can't get to this level in your project the IR remote is meaningless.
The vdc relay perform exceptionally properly with distinctive applications that happen to be particular to energy distribution and protection. The relays come with wide adjustment ranges with a scale that is certainly simple to study either in three or four digits in accordance with the model. These vdc relay help in growing the flexibility from the applications, lower the overall energy and upkeep charges. There are actually relays which are made use of for general purposes which are available in reliable designs with speedy replacement options. And there are models which can be utilized for industrial applications and heavier duty applications that work on large loads. These solutions are made to meet the lifetime industrial manage wants of your applications.
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