There are low dropout regulators on the market, however you cant get 5v from 4.8v unless you use a boost circuit.
If you run your uC at a lower voltage it would be much easier. Like say 3 to 4 volts.
I run mine straight from 3xAA cells with no regulator sometimes.
Four alkaline battery cells in series make 6.4V only when they are brand new. Their total voltage continues to drop as they are used until the voltage is 4V or less.
Adding a voltage regulator will make the voltage drop more.
If there are 6.4 V. then you can use a zener diode of 5.1V and a 120Ω 1watt resistor to down the voltage in the supply pin, and it will aslo stable the voltage. If you want the circuit tell me i'll post it here.
hey bro just simply use LM2940-5v,The LM2940 positive voltage regulator features the
ability to source 1A of output current with a dropout voltage of
typically 0.5V
as the input voltage is only 6-6.4, the lm7805 will need minimum 7v to 7.5 volt to give output of 5 v,
to overcome this disadvantage lm2940-5v ,a low dropout regulater was invented,as its name state its a low dropout regulator ,it can give 5v output even from as low as 5.5v
so lm7805 wont solve the problem.
If you use Lithium Manganese Dioxide cells on the market due their near 3AH capacity, you get 1.75volts/cell All thrown away if you use a linear regulator.
as the input voltage is only 6-6.4, the lm7805 will need minimum 7v to 7.5 volt to give output of 5 v,
to overcome this disadvantage lm2940-5v ,a low dropout regulater was invented,as its name state its a low dropout regulator ,it can give 5v output even from as low as 5.5v
so lm7805 wont solve the problem.
Yep, it took me over a year to move from Utah to Northern Arizona. Selling a house, building a house, erecting ham radio tower, building a ham/hobby shack, the list goes on....
Yep, it took me over a year to move from Utah to Northern Arizona. Selling a house, building a house, erecting ham radio tower, building a ham/hobby shack, the list goes on....
The μc requires supply voltages between 1.8 and 5.5V.
Fresh alkaline batteries supply 1.6V for a short time. Using 3 batteries (4.8V) they could be connected for supply without any additional electronic trick.
They are considered depleted at 1.2V per cell which equals 3.6V battery voltage, still well within supply volt range of the the μc.
My suggestion: Do nothing unnecessary and just connect three Alkali batteries. Saves money and headaches.
I have several rechargeable Nickel-metal hydride batteries. My workplace encourages us to use them as a gesture for the environment. They produce 1.2 volts when fully charged. If you want to allow the end user to use rechargeables, you couldn't use the voltage as an indicator of charge status. Really, the cell is depleted when it produces 0 volts. It is useless when the combined output is less than the requirements of your components (in this case, 1.8 volts total). Assuming the microcontroller and all other components still work acceptably at 1.8 volts, then that's all you need the cells to produce.
No, I'm just an amateur mucking about at home. But I've built my own oscillator using RC components, and it occurs to me that the frequency of the oscillator will change depending on the voltage going into it. One way to counteract this is to ensure a constant, regulated, voltage.