Hi.
I have an 4V logic circuit (two NAND-gates configured as an SR flip-flop) that I need to drive a mosfet output. To get from the logic gates to the mosfets, I were planning on using a Solid State Switch (SSS).
View attachment 60188
I have found this at digikey.com
Component: http://search.digikey.com/us/en/products/PVN012ASPBF/PVN012ASPBF-ND/1828163
Datasheet: https://www.electro-tech-online.com/custompdfs/2012/01/pvn012apbf.pdf
My question:
On the load side of the SSS there will be 7-12V DC supply.
Will the 4V DC at max 24mA from my logic circuit be sufficient to trigger the SSS, and hence drive the mosfets?
And where in the datasheet can I find the voltage levels for triggering the SSS (min /max)?
In the datasheed, a resistor is shown on the input/trigger side. Is this necessary when I use a logic NAND-gate to trigger it? And if it is, then how many Ohm?
Thanks in advance
Henrik
I have an 4V logic circuit (two NAND-gates configured as an SR flip-flop) that I need to drive a mosfet output. To get from the logic gates to the mosfets, I were planning on using a Solid State Switch (SSS).
View attachment 60188
I have found this at digikey.com
Component: http://search.digikey.com/us/en/products/PVN012ASPBF/PVN012ASPBF-ND/1828163
Datasheet: https://www.electro-tech-online.com/custompdfs/2012/01/pvn012apbf.pdf
My question:
On the load side of the SSS there will be 7-12V DC supply.
Will the 4V DC at max 24mA from my logic circuit be sufficient to trigger the SSS, and hence drive the mosfets?
And where in the datasheet can I find the voltage levels for triggering the SSS (min /max)?
In the datasheed, a resistor is shown on the input/trigger side. Is this necessary when I use a logic NAND-gate to trigger it? And if it is, then how many Ohm?
Thanks in advance
Henrik