I'm looking to use some of the 4000 series logic chips at around 5MHz (mainly the 4017, AND gates and inverters) for a dot-matrix LED controller. I was wondering if these chips will work efficiently at these speeds? If so, what are their limits?
I'm looking to use some of the 4000 series logic chips at around 5MHz (mainly the 4017, AND gates and inverters) for a dot-matrix LED controller. I was wondering if these chips will work efficiently at these speeds? If so, what are their limits?
I'm looking to use some of the 4000 series logic chips at around 5MHz (mainly the 4017, AND gates and inverters) for a dot-matrix LED controller. I was wondering if these chips will work efficiently at these speeds? If so, what are their limits?
Looking at the datasheets, it would happily run at 5.5MHz at 15V. I was just wondering if anyone has had any experience running these chips are high frequency. If, so, what to look out for?
At 15V and at 5.5MHz then some of the ordinary Cmos logic chips might be hot.
They can't slew that fast so their Mosfets spend a lot of time in the linear region charging and discharging internal capacitance and getting hot, instead of being saturated where they are designed to be cool.
74HCxxxx high-speed-Cmos switch much quicker and have a lower supply voltage so they would be cool.
Sorry to bump again but I am not worried about the 74HC04. Will not be able to sink enough current for my application.
I need it to sink about 40mA (on the output pins). I'm assuming I will need to use a transistor to do the job, could anyone suggest to me how I could connect it up? I've attached a schematic to show how it's connected at the moment. The second attachment is just my idea.
The max allowed output current from a 74HCxx is 25mA and the max for a package is 50mA. Two inverters can be paralleled to drive 40mA. The LEDs need series current-limiting resistors. A single inverter can drive a PNP emitter-follower transistor and the LEDs still need series current-limiting resistors.
AG's right here, but parallel more than just two together. Our standard practice was to always use four; it's a bit more wiring but easier on the gates that way. Max current still 50mA...
Unfortuantly, because of size and cost requirements I cannot use more than one inverter per set of LEDs. Can anyone suggest to me a good transistor that would switch at around 1MHz? And recommend a good way to wire it?
One 74HC04 costs only $.47US at Digikey today. It has has six inverters inside. The inverter can switch quickly because its output is push-pull. A single transistor turns off slowly but a complimentary push pull pair can switch quickly.