i plan on using a 12v battery for many of my portables
Since this is the n64 (i'm working on it first)
where can i get a dc-dc converter that will tone down that voltage to about 7.2~8v ?
Do i also need a 7808?
DC-DC conversion question
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DC-DC conversion question
I refuse to dignify myself with an intelligent and witty signature
you need one or the other
why are you using a 12v battery?
http://focus.ti.com/docs/prod/folders/p ... 8000w.html
why are you using a 12v battery?
http://focus.ti.com/docs/prod/folders/p ... 8000w.html
"Linux is only free if your time is worthless"
12v battery because the dc-dc converter will increase battery life
v=IR
r= constant
v goes down I goes down total a mAhours go up
Also, the twelve volt plug i would use would run off of the laptop wall warts
so the 12v battery will work with the 7808?
v=IR
r= constant
v goes down I goes down total a mAhours go up
Also, the twelve volt plug i would use would run off of the laptop wall warts
so the 12v battery will work with the 7808?
I refuse to dignify myself with an intelligent and witty signature
first of all, let me explain again why i dont think you should be using a 12v battery:
one way to measure capcity of batteries is the so-called "energy density", which is the total amount of power (in Joules), divided by the weight. this gives you a numer in J/kg.
so total energy is what we are concerned about when powering something. people always talk about "volts" or "amps", but the energy (in watts, or J/s) is the volts multiplied by the amps.
so. if you have a 7.2v, 3Ah battery that weighs 1kg, and a 12v, 1.8Ah battery, with the same energy density (and therefore also weighing 1kg), they both weigh the same, take up the same amount of space, and have the same amount of power.
now with the 7.2v battery, you dont need a dc-dc for the screen, and the linear regs in the n64 are close to their dropout voltage.
With a 12v battery, you do. But dc-dc converters are never more than about 93% efficient (meaning they waste 7% of all energy put into them), and linear regs are incresingly less efficnet the further you take them from their dropout voltage. So some of the energy in the 12v battery is wasted, that wouldnt be wasted with a 7.2v battery. Assuming they have the same energy density, this means you will actually need a 12v battery that is physically bigger (in weight and/or dimensions) to power your system for the same amount of time.
now if you happen to have found a 12v battery with a signifigantly higer energy density than 7.2v batteries, then that would justify using it.
anyways, if youre set with your 12v battery because you already bought it, then go with the link to the reg i posted earlier. if you go into the datasheets, you will find tables listing the efficiency at certain input/output voltages. each model has a "sweet spot" where it is most efficient. Lots of models would probably work, but only one is the most efficient for your purposes. the one i found (above link) is pretty good for you. for the 3.3v line, get a pth08000
one way to measure capcity of batteries is the so-called "energy density", which is the total amount of power (in Joules), divided by the weight. this gives you a numer in J/kg.
so total energy is what we are concerned about when powering something. people always talk about "volts" or "amps", but the energy (in watts, or J/s) is the volts multiplied by the amps.
so. if you have a 7.2v, 3Ah battery that weighs 1kg, and a 12v, 1.8Ah battery, with the same energy density (and therefore also weighing 1kg), they both weigh the same, take up the same amount of space, and have the same amount of power.
now with the 7.2v battery, you dont need a dc-dc for the screen, and the linear regs in the n64 are close to their dropout voltage.
With a 12v battery, you do. But dc-dc converters are never more than about 93% efficient (meaning they waste 7% of all energy put into them), and linear regs are incresingly less efficnet the further you take them from their dropout voltage. So some of the energy in the 12v battery is wasted, that wouldnt be wasted with a 7.2v battery. Assuming they have the same energy density, this means you will actually need a 12v battery that is physically bigger (in weight and/or dimensions) to power your system for the same amount of time.
now if you happen to have found a 12v battery with a signifigantly higer energy density than 7.2v batteries, then that would justify using it.
anyways, if youre set with your 12v battery because you already bought it, then go with the link to the reg i posted earlier. if you go into the datasheets, you will find tables listing the efficiency at certain input/output voltages. each model has a "sweet spot" where it is most efficient. Lots of models would probably work, but only one is the most efficient for your purposes. the one i found (above link) is pretty good for you. for the 3.3v line, get a pth08000
"Linux is only free if your time is worthless"
yeah, try wiki, its got good info on it 
Thank the Lord for Wiki
Thank the Lord for Wiki
Must we all die... eating pie?
http://www.freewebs.com/darth_big_andy
Chunk 64 Progress:
Design: 100%
Controller: 100%
Power: 2700mAh power
Case: 75%
Cartidge Slot: Decided against Relocation
Screen: 100%
http://www.freewebs.com/darth_big_andy
Chunk 64 Progress:
Design: 100%
Controller: 100%
Power: 2700mAh power
Case: 75%
Cartidge Slot: Decided against Relocation
Screen: 100%
ok then i'll get a dc-dc converter
I can request free samples....
Just try digikey type in "7808 regulator" I found many
and Nothing will every be 100% efficient Batteries are not even 100% efficient
which dc-dc converter on the page you sent me do you recommend?
I can request free samples....
Just try digikey type in "7808 regulator" I found many
and Nothing will every be 100% efficient Batteries are not even 100% efficient
which dc-dc converter on the page you sent me do you recommend?
I refuse to dignify myself with an intelligent and witty signature
all the converters on that page are the same. the ones that are in the EUS package have pins (that fall out easily when you solder to them 
), and the ones in EUT dont. click the links that say "DIP MODULE (EUS)" and "DIP MODULE (EUT)" to look at a pdf with a picture of it.
), and the ones in EUT dont. click the links that say "DIP MODULE (EUS)" and "DIP MODULE (EUT)" to look at a pdf with a picture of it."Linux is only free if your time is worthless"
No, lemme draw up a diagram...
EDIT: It'll be up soon, I gotta goto school.
http://focus.ti.com/lit/ds/symlink/ptn78000w.pdf
Go there (PDF Warning) and check out the Standard application. All you have to do is replace that resistor on Rset (the one that says RSET# 0.05W, %1 (Required)) with a 5.99k Ohm Resistor. That's not a common value, so a 6k Ohm (6,000 Ohm) Resistor will do also.
Ok, so just follow that diagram with the input and output capacitors, and for that 1st ceramic capacitor, use 2.2uF or MORE. It must be ceramic:
Then, for the output capacitor, just use 100uF. MUST BE ELECTROLYTIC:
And for the input, put it on pin 2 (on that diagram). Voltage output (8 volts) is pin 5, which should also have the positive side of the 100uF electrolytic capcitor on it already.
Hope this helps!
EDIT: It'll be up soon, I gotta goto school.
http://focus.ti.com/lit/ds/symlink/ptn78000w.pdf
Go there (PDF Warning) and check out the Standard application. All you have to do is replace that resistor on Rset (the one that says RSET# 0.05W, %1 (Required)) with a 5.99k Ohm Resistor. That's not a common value, so a 6k Ohm (6,000 Ohm) Resistor will do also.
Ok, so just follow that diagram with the input and output capacitors, and for that 1st ceramic capacitor, use 2.2uF or MORE. It must be ceramic:
Then, for the output capacitor, just use 100uF. MUST BE ELECTROLYTIC:
And for the input, put it on pin 2 (on that diagram). Voltage output (8 volts) is pin 5, which should also have the positive side of the 100uF electrolytic capcitor on it already.
Hope this helps!