Do I need a resistor to wire my Pi Zero directly to a power source?

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I want to connect my Pi Zero directly to a 5V 10amp power adapter (shown below) which in turn connects to a wall outlet. I know that with LEDs you can't just connect it directly to the power source without sticking a resistor in between. Is that also the case when wiring up Raspberry Pis to an adapter or am I fine to just connect it directly to V+ and V- on the adapter?



enter image description here



Thanks!






power pi-zero wiring







share|improve this question

















  • 1




    How much adjustability does that supply have? I'd be more concerned about that than overcurrent. (absent-minded fiddling...poof!)
    – AaronD
    Sep 1 at 4:25










  • @AaronD I'm actually not even sure what you mean by adjustability, do you mean like the ability to adjust the output voltage?.. I don't think it has any adjustability
    – Matt
    Sep 1 at 4:30







  • 1




    There's an ADJ screw next to the PSU's terminal block that sets the exact output voltage. "5V" is more of a nominal figure, given that.
    – AaronD
    Sep 1 at 4:37










  • Ahh very interesting I'll check and report back tomorrow. I assume I need to wire up my multimeter and play around with the ADJ screw to see what it ranges between?
    – Matt
    Sep 1 at 4:41






  • 1




    Yep! That's the idea! I have to remember that myself when I use an adjustable DC-DC converter to power a Pi. The ones that I like are set way high by default, so I put a meter on it and turn it down to 5V before I hook up the Pi or anything else I might want to hang off of that rail. (maybe 5.1V to allow for some tiny-wire loss - datasheets for 5V parts typically have 5.25V as an absolute max, and my meter isn't actually calibrated)
    – AaronD
    Sep 1 at 4:49
















up vote
2
down vote

favorite












I want to connect my Pi Zero directly to a 5V 10amp power adapter (shown below) which in turn connects to a wall outlet. I know that with LEDs you can't just connect it directly to the power source without sticking a resistor in between. Is that also the case when wiring up Raspberry Pis to an adapter or am I fine to just connect it directly to V+ and V- on the adapter?



enter image description here



Thanks!






power pi-zero wiring







share|improve this question

















  • 1




    How much adjustability does that supply have? I'd be more concerned about that than overcurrent. (absent-minded fiddling...poof!)
    – AaronD
    Sep 1 at 4:25










  • @AaronD I'm actually not even sure what you mean by adjustability, do you mean like the ability to adjust the output voltage?.. I don't think it has any adjustability
    – Matt
    Sep 1 at 4:30







  • 1




    There's an ADJ screw next to the PSU's terminal block that sets the exact output voltage. "5V" is more of a nominal figure, given that.
    – AaronD
    Sep 1 at 4:37










  • Ahh very interesting I'll check and report back tomorrow. I assume I need to wire up my multimeter and play around with the ADJ screw to see what it ranges between?
    – Matt
    Sep 1 at 4:41






  • 1




    Yep! That's the idea! I have to remember that myself when I use an adjustable DC-DC converter to power a Pi. The ones that I like are set way high by default, so I put a meter on it and turn it down to 5V before I hook up the Pi or anything else I might want to hang off of that rail. (maybe 5.1V to allow for some tiny-wire loss - datasheets for 5V parts typically have 5.25V as an absolute max, and my meter isn't actually calibrated)
    – AaronD
    Sep 1 at 4:49












up vote
2
down vote

favorite









up vote
2
down vote

favorite











I want to connect my Pi Zero directly to a 5V 10amp power adapter (shown below) which in turn connects to a wall outlet. I know that with LEDs you can't just connect it directly to the power source without sticking a resistor in between. Is that also the case when wiring up Raspberry Pis to an adapter or am I fine to just connect it directly to V+ and V- on the adapter?



enter image description here



Thanks!






power pi-zero wiring







share|improve this question













I want to connect my Pi Zero directly to a 5V 10amp power adapter (shown below) which in turn connects to a wall outlet. I know that with LEDs you can't just connect it directly to the power source without sticking a resistor in between. Is that also the case when wiring up Raspberry Pis to an adapter or am I fine to just connect it directly to V+ and V- on the adapter?



enter image description here



Thanks!






power pi-zero wiring




power pi-zero wiring






share|improve this question













share|improve this question











share|improve this question




share|improve this question










asked Aug 31 at 21:44









Matt

838




838







  • 1




    How much adjustability does that supply have? I'd be more concerned about that than overcurrent. (absent-minded fiddling...poof!)
    – AaronD
    Sep 1 at 4:25










  • @AaronD I'm actually not even sure what you mean by adjustability, do you mean like the ability to adjust the output voltage?.. I don't think it has any adjustability
    – Matt
    Sep 1 at 4:30







  • 1




    There's an ADJ screw next to the PSU's terminal block that sets the exact output voltage. "5V" is more of a nominal figure, given that.
    – AaronD
    Sep 1 at 4:37










  • Ahh very interesting I'll check and report back tomorrow. I assume I need to wire up my multimeter and play around with the ADJ screw to see what it ranges between?
    – Matt
    Sep 1 at 4:41






  • 1




    Yep! That's the idea! I have to remember that myself when I use an adjustable DC-DC converter to power a Pi. The ones that I like are set way high by default, so I put a meter on it and turn it down to 5V before I hook up the Pi or anything else I might want to hang off of that rail. (maybe 5.1V to allow for some tiny-wire loss - datasheets for 5V parts typically have 5.25V as an absolute max, and my meter isn't actually calibrated)
    – AaronD
    Sep 1 at 4:49












  • 1




    How much adjustability does that supply have? I'd be more concerned about that than overcurrent. (absent-minded fiddling...poof!)
    – AaronD
    Sep 1 at 4:25










  • @AaronD I'm actually not even sure what you mean by adjustability, do you mean like the ability to adjust the output voltage?.. I don't think it has any adjustability
    – Matt
    Sep 1 at 4:30







  • 1




    There's an ADJ screw next to the PSU's terminal block that sets the exact output voltage. "5V" is more of a nominal figure, given that.
    – AaronD
    Sep 1 at 4:37










  • Ahh very interesting I'll check and report back tomorrow. I assume I need to wire up my multimeter and play around with the ADJ screw to see what it ranges between?
    – Matt
    Sep 1 at 4:41






  • 1




    Yep! That's the idea! I have to remember that myself when I use an adjustable DC-DC converter to power a Pi. The ones that I like are set way high by default, so I put a meter on it and turn it down to 5V before I hook up the Pi or anything else I might want to hang off of that rail. (maybe 5.1V to allow for some tiny-wire loss - datasheets for 5V parts typically have 5.25V as an absolute max, and my meter isn't actually calibrated)
    – AaronD
    Sep 1 at 4:49







1




1




How much adjustability does that supply have? I'd be more concerned about that than overcurrent. (absent-minded fiddling...poof!)
– AaronD
Sep 1 at 4:25




How much adjustability does that supply have? I'd be more concerned about that than overcurrent. (absent-minded fiddling...poof!)
– AaronD
Sep 1 at 4:25












@AaronD I'm actually not even sure what you mean by adjustability, do you mean like the ability to adjust the output voltage?.. I don't think it has any adjustability
– Matt
Sep 1 at 4:30





@AaronD I'm actually not even sure what you mean by adjustability, do you mean like the ability to adjust the output voltage?.. I don't think it has any adjustability
– Matt
Sep 1 at 4:30





1




1




There's an ADJ screw next to the PSU's terminal block that sets the exact output voltage. "5V" is more of a nominal figure, given that.
– AaronD
Sep 1 at 4:37




There's an ADJ screw next to the PSU's terminal block that sets the exact output voltage. "5V" is more of a nominal figure, given that.
– AaronD
Sep 1 at 4:37












Ahh very interesting I'll check and report back tomorrow. I assume I need to wire up my multimeter and play around with the ADJ screw to see what it ranges between?
– Matt
Sep 1 at 4:41




Ahh very interesting I'll check and report back tomorrow. I assume I need to wire up my multimeter and play around with the ADJ screw to see what it ranges between?
– Matt
Sep 1 at 4:41




1




1




Yep! That's the idea! I have to remember that myself when I use an adjustable DC-DC converter to power a Pi. The ones that I like are set way high by default, so I put a meter on it and turn it down to 5V before I hook up the Pi or anything else I might want to hang off of that rail. (maybe 5.1V to allow for some tiny-wire loss - datasheets for 5V parts typically have 5.25V as an absolute max, and my meter isn't actually calibrated)
– AaronD
Sep 1 at 4:49




Yep! That's the idea! I have to remember that myself when I use an adjustable DC-DC converter to power a Pi. The ones that I like are set way high by default, so I put a meter on it and turn it down to 5V before I hook up the Pi or anything else I might want to hang off of that rail. (maybe 5.1V to allow for some tiny-wire loss - datasheets for 5V parts typically have 5.25V as an absolute max, and my meter isn't actually calibrated)
– AaronD
Sep 1 at 4:49










2 Answers
2






active

oldest

votes

















up vote
4
down vote



accepted










Do NOT use a resistor; on the contrary the resistance of the leads on many power supplies is too high (even though a fraction of an ohm) which causes low voltage problems for many Pi users. Use generously sized leads to connect to the Pi.



The PSU you show is suitable - they have good regulation. I use a similar model to power up to 4 Pi.



NOTE the comments about current rating are an urban myth; it is a problem if the rating is too low, but there is no problem with higher rated supplies.



Similarly the comments about poly-fuses is misleading - the Pi Zero doesn't even have one!






share|improve this answer




















  • Thanks @Milliways you basically reiterated the conclusion I'd come to as well after further research :). One question for you on the polyfuse part. I will be connecting up a lot of raspberry pi Zeros to that power supply. Should I still in polyfuses of my own for safety if something shorts and 10amps accidentally gets sent into one Pi?
    – Matt
    Sep 1 at 3:45










  • still connect polyfuses in case something shorts**
    – Matt
    Sep 1 at 4:19










  • @Matt "10amps accidentally gets sent into one Pi" is meaningless. You supply a voltage. If you short 5V you will actually get a much higher current - the 10A is just the current the PSU can SAFELY supply. You will find it difficult to get polyfuses in small quantities and are invariably surface mount devices. If it worries you use a normal (fast blow) fuse - but the additional wiring increases the possibility of mishap.
    – Milliways
    Sep 1 at 5:10











  • thank you for the great explanations. With that in mind, if I somehow accidentally short the 5V with my given setup, do you see there being risk of fire or will it just fry the Pis and stop working? If risk of fire I'd be inclined to buy a fast blow fuse just in case.
    – Matt
    Sep 1 at 5:14


















up vote
3
down vote













Don't put any resistor in series with the Pi when connecting it to a voltage source. — Uh, and 10A is overkill. You can't run 10A through the 5V tracks on the Pi's board. These are for about 2A only. You can of course run another set of +5V/GND wires to the devices you want to control with the Pi.



The reason you use a series resistor for LEDs is that they have almost no internal resistance. So you have to limit the current, or the LED, and probably other components, will burn out or blow up.






share|improve this answer






















  • Gotcha, makes sense. I know 10amps is too much for 1 Pi but it's what I have lying around. Shouldn't it be fine since the Pi Zero will only draw whatever amps it needs to use?
    – Matt
    Aug 31 at 21:54











  • Yes. It will only draw as much it uses. The only problem you will run into is when you overload/short the +5V line on the GPIO connector or the USB. You will burn the polyfuse then because the power source just can. If you used a 1A power source, it will simply go into overcurrent and the fuse stays intact while the Pi is crashing.
    – Janka
    Aug 31 at 21:55







  • 1




    Huh? The problem is only about the possible overload through the tracks of an individual Pi board. That's why they have the polyfuse. Minimizing defective parts. But you can minimize that even more by not allowing the power source deliver more current than the polyfuse can handle.
    – Janka
    Aug 31 at 22:04







  • 1




    If your +5V power source can deliver 10A and you have a short on the USB or GPIO +5V pins, there will be 10A running through the +5V tracks of the Pi's board. That's too much, it would fry the tracks and your Pi would be gone then. That's why the polyfuse exists. It's still a hassle to replace it but at least the Pi not damaged beyond repair. If you used a power source that has a limit of e.g. 1A, it would not deliver +5V any more if you have a short on the GPIO +5V pins or USB. It either limits the current to 1A (at a lower voltage then) or goes into a complete, but recoverable failure.
    – Janka
    Aug 31 at 22:14






  • 1




    Either way, both the Pi and its polyfuse stay intact. No chance to shoot them. (The polyfuse is a tiny SMD fuse soldered on the backside of the Pi, near the Micro-USB connector.)
    – Janka
    Aug 31 at 22:15











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2 Answers
2






active

oldest

votes








2 Answers
2






active

oldest

votes









active

oldest

votes






active

oldest

votes








up vote
4
down vote



accepted










Do NOT use a resistor; on the contrary the resistance of the leads on many power supplies is too high (even though a fraction of an ohm) which causes low voltage problems for many Pi users. Use generously sized leads to connect to the Pi.



The PSU you show is suitable - they have good regulation. I use a similar model to power up to 4 Pi.



NOTE the comments about current rating are an urban myth; it is a problem if the rating is too low, but there is no problem with higher rated supplies.



Similarly the comments about poly-fuses is misleading - the Pi Zero doesn't even have one!






share|improve this answer




















  • Thanks @Milliways you basically reiterated the conclusion I'd come to as well after further research :). One question for you on the polyfuse part. I will be connecting up a lot of raspberry pi Zeros to that power supply. Should I still in polyfuses of my own for safety if something shorts and 10amps accidentally gets sent into one Pi?
    – Matt
    Sep 1 at 3:45










  • still connect polyfuses in case something shorts**
    – Matt
    Sep 1 at 4:19










  • @Matt "10amps accidentally gets sent into one Pi" is meaningless. You supply a voltage. If you short 5V you will actually get a much higher current - the 10A is just the current the PSU can SAFELY supply. You will find it difficult to get polyfuses in small quantities and are invariably surface mount devices. If it worries you use a normal (fast blow) fuse - but the additional wiring increases the possibility of mishap.
    – Milliways
    Sep 1 at 5:10











  • thank you for the great explanations. With that in mind, if I somehow accidentally short the 5V with my given setup, do you see there being risk of fire or will it just fry the Pis and stop working? If risk of fire I'd be inclined to buy a fast blow fuse just in case.
    – Matt
    Sep 1 at 5:14















up vote
4
down vote



accepted










Do NOT use a resistor; on the contrary the resistance of the leads on many power supplies is too high (even though a fraction of an ohm) which causes low voltage problems for many Pi users. Use generously sized leads to connect to the Pi.



The PSU you show is suitable - they have good regulation. I use a similar model to power up to 4 Pi.



NOTE the comments about current rating are an urban myth; it is a problem if the rating is too low, but there is no problem with higher rated supplies.



Similarly the comments about poly-fuses is misleading - the Pi Zero doesn't even have one!






share|improve this answer




















  • Thanks @Milliways you basically reiterated the conclusion I'd come to as well after further research :). One question for you on the polyfuse part. I will be connecting up a lot of raspberry pi Zeros to that power supply. Should I still in polyfuses of my own for safety if something shorts and 10amps accidentally gets sent into one Pi?
    – Matt
    Sep 1 at 3:45










  • still connect polyfuses in case something shorts**
    – Matt
    Sep 1 at 4:19










  • @Matt "10amps accidentally gets sent into one Pi" is meaningless. You supply a voltage. If you short 5V you will actually get a much higher current - the 10A is just the current the PSU can SAFELY supply. You will find it difficult to get polyfuses in small quantities and are invariably surface mount devices. If it worries you use a normal (fast blow) fuse - but the additional wiring increases the possibility of mishap.
    – Milliways
    Sep 1 at 5:10











  • thank you for the great explanations. With that in mind, if I somehow accidentally short the 5V with my given setup, do you see there being risk of fire or will it just fry the Pis and stop working? If risk of fire I'd be inclined to buy a fast blow fuse just in case.
    – Matt
    Sep 1 at 5:14













up vote
4
down vote



accepted







up vote
4
down vote



accepted






Do NOT use a resistor; on the contrary the resistance of the leads on many power supplies is too high (even though a fraction of an ohm) which causes low voltage problems for many Pi users. Use generously sized leads to connect to the Pi.



The PSU you show is suitable - they have good regulation. I use a similar model to power up to 4 Pi.



NOTE the comments about current rating are an urban myth; it is a problem if the rating is too low, but there is no problem with higher rated supplies.



Similarly the comments about poly-fuses is misleading - the Pi Zero doesn't even have one!






share|improve this answer












Do NOT use a resistor; on the contrary the resistance of the leads on many power supplies is too high (even though a fraction of an ohm) which causes low voltage problems for many Pi users. Use generously sized leads to connect to the Pi.



The PSU you show is suitable - they have good regulation. I use a similar model to power up to 4 Pi.



NOTE the comments about current rating are an urban myth; it is a problem if the rating is too low, but there is no problem with higher rated supplies.



Similarly the comments about poly-fuses is misleading - the Pi Zero doesn't even have one!







share|improve this answer












share|improve this answer



share|improve this answer










answered Sep 1 at 3:24









Milliways

25.9k1251105




25.9k1251105











  • Thanks @Milliways you basically reiterated the conclusion I'd come to as well after further research :). One question for you on the polyfuse part. I will be connecting up a lot of raspberry pi Zeros to that power supply. Should I still in polyfuses of my own for safety if something shorts and 10amps accidentally gets sent into one Pi?
    – Matt
    Sep 1 at 3:45










  • still connect polyfuses in case something shorts**
    – Matt
    Sep 1 at 4:19










  • @Matt "10amps accidentally gets sent into one Pi" is meaningless. You supply a voltage. If you short 5V you will actually get a much higher current - the 10A is just the current the PSU can SAFELY supply. You will find it difficult to get polyfuses in small quantities and are invariably surface mount devices. If it worries you use a normal (fast blow) fuse - but the additional wiring increases the possibility of mishap.
    – Milliways
    Sep 1 at 5:10











  • thank you for the great explanations. With that in mind, if I somehow accidentally short the 5V with my given setup, do you see there being risk of fire or will it just fry the Pis and stop working? If risk of fire I'd be inclined to buy a fast blow fuse just in case.
    – Matt
    Sep 1 at 5:14

















  • Thanks @Milliways you basically reiterated the conclusion I'd come to as well after further research :). One question for you on the polyfuse part. I will be connecting up a lot of raspberry pi Zeros to that power supply. Should I still in polyfuses of my own for safety if something shorts and 10amps accidentally gets sent into one Pi?
    – Matt
    Sep 1 at 3:45










  • still connect polyfuses in case something shorts**
    – Matt
    Sep 1 at 4:19










  • @Matt "10amps accidentally gets sent into one Pi" is meaningless. You supply a voltage. If you short 5V you will actually get a much higher current - the 10A is just the current the PSU can SAFELY supply. You will find it difficult to get polyfuses in small quantities and are invariably surface mount devices. If it worries you use a normal (fast blow) fuse - but the additional wiring increases the possibility of mishap.
    – Milliways
    Sep 1 at 5:10











  • thank you for the great explanations. With that in mind, if I somehow accidentally short the 5V with my given setup, do you see there being risk of fire or will it just fry the Pis and stop working? If risk of fire I'd be inclined to buy a fast blow fuse just in case.
    – Matt
    Sep 1 at 5:14
















Thanks @Milliways you basically reiterated the conclusion I'd come to as well after further research :). One question for you on the polyfuse part. I will be connecting up a lot of raspberry pi Zeros to that power supply. Should I still in polyfuses of my own for safety if something shorts and 10amps accidentally gets sent into one Pi?
– Matt
Sep 1 at 3:45




Thanks @Milliways you basically reiterated the conclusion I'd come to as well after further research :). One question for you on the polyfuse part. I will be connecting up a lot of raspberry pi Zeros to that power supply. Should I still in polyfuses of my own for safety if something shorts and 10amps accidentally gets sent into one Pi?
– Matt
Sep 1 at 3:45












still connect polyfuses in case something shorts**
– Matt
Sep 1 at 4:19




still connect polyfuses in case something shorts**
– Matt
Sep 1 at 4:19












@Matt "10amps accidentally gets sent into one Pi" is meaningless. You supply a voltage. If you short 5V you will actually get a much higher current - the 10A is just the current the PSU can SAFELY supply. You will find it difficult to get polyfuses in small quantities and are invariably surface mount devices. If it worries you use a normal (fast blow) fuse - but the additional wiring increases the possibility of mishap.
– Milliways
Sep 1 at 5:10





@Matt "10amps accidentally gets sent into one Pi" is meaningless. You supply a voltage. If you short 5V you will actually get a much higher current - the 10A is just the current the PSU can SAFELY supply. You will find it difficult to get polyfuses in small quantities and are invariably surface mount devices. If it worries you use a normal (fast blow) fuse - but the additional wiring increases the possibility of mishap.
– Milliways
Sep 1 at 5:10













thank you for the great explanations. With that in mind, if I somehow accidentally short the 5V with my given setup, do you see there being risk of fire or will it just fry the Pis and stop working? If risk of fire I'd be inclined to buy a fast blow fuse just in case.
– Matt
Sep 1 at 5:14





thank you for the great explanations. With that in mind, if I somehow accidentally short the 5V with my given setup, do you see there being risk of fire or will it just fry the Pis and stop working? If risk of fire I'd be inclined to buy a fast blow fuse just in case.
– Matt
Sep 1 at 5:14













up vote
3
down vote













Don't put any resistor in series with the Pi when connecting it to a voltage source. — Uh, and 10A is overkill. You can't run 10A through the 5V tracks on the Pi's board. These are for about 2A only. You can of course run another set of +5V/GND wires to the devices you want to control with the Pi.



The reason you use a series resistor for LEDs is that they have almost no internal resistance. So you have to limit the current, or the LED, and probably other components, will burn out or blow up.






share|improve this answer






















  • Gotcha, makes sense. I know 10amps is too much for 1 Pi but it's what I have lying around. Shouldn't it be fine since the Pi Zero will only draw whatever amps it needs to use?
    – Matt
    Aug 31 at 21:54











  • Yes. It will only draw as much it uses. The only problem you will run into is when you overload/short the +5V line on the GPIO connector or the USB. You will burn the polyfuse then because the power source just can. If you used a 1A power source, it will simply go into overcurrent and the fuse stays intact while the Pi is crashing.
    – Janka
    Aug 31 at 21:55







  • 1




    Huh? The problem is only about the possible overload through the tracks of an individual Pi board. That's why they have the polyfuse. Minimizing defective parts. But you can minimize that even more by not allowing the power source deliver more current than the polyfuse can handle.
    – Janka
    Aug 31 at 22:04







  • 1




    If your +5V power source can deliver 10A and you have a short on the USB or GPIO +5V pins, there will be 10A running through the +5V tracks of the Pi's board. That's too much, it would fry the tracks and your Pi would be gone then. That's why the polyfuse exists. It's still a hassle to replace it but at least the Pi not damaged beyond repair. If you used a power source that has a limit of e.g. 1A, it would not deliver +5V any more if you have a short on the GPIO +5V pins or USB. It either limits the current to 1A (at a lower voltage then) or goes into a complete, but recoverable failure.
    – Janka
    Aug 31 at 22:14






  • 1




    Either way, both the Pi and its polyfuse stay intact. No chance to shoot them. (The polyfuse is a tiny SMD fuse soldered on the backside of the Pi, near the Micro-USB connector.)
    – Janka
    Aug 31 at 22:15















up vote
3
down vote













Don't put any resistor in series with the Pi when connecting it to a voltage source. — Uh, and 10A is overkill. You can't run 10A through the 5V tracks on the Pi's board. These are for about 2A only. You can of course run another set of +5V/GND wires to the devices you want to control with the Pi.



The reason you use a series resistor for LEDs is that they have almost no internal resistance. So you have to limit the current, or the LED, and probably other components, will burn out or blow up.






share|improve this answer






















  • Gotcha, makes sense. I know 10amps is too much for 1 Pi but it's what I have lying around. Shouldn't it be fine since the Pi Zero will only draw whatever amps it needs to use?
    – Matt
    Aug 31 at 21:54











  • Yes. It will only draw as much it uses. The only problem you will run into is when you overload/short the +5V line on the GPIO connector or the USB. You will burn the polyfuse then because the power source just can. If you used a 1A power source, it will simply go into overcurrent and the fuse stays intact while the Pi is crashing.
    – Janka
    Aug 31 at 21:55







  • 1




    Huh? The problem is only about the possible overload through the tracks of an individual Pi board. That's why they have the polyfuse. Minimizing defective parts. But you can minimize that even more by not allowing the power source deliver more current than the polyfuse can handle.
    – Janka
    Aug 31 at 22:04







  • 1




    If your +5V power source can deliver 10A and you have a short on the USB or GPIO +5V pins, there will be 10A running through the +5V tracks of the Pi's board. That's too much, it would fry the tracks and your Pi would be gone then. That's why the polyfuse exists. It's still a hassle to replace it but at least the Pi not damaged beyond repair. If you used a power source that has a limit of e.g. 1A, it would not deliver +5V any more if you have a short on the GPIO +5V pins or USB. It either limits the current to 1A (at a lower voltage then) or goes into a complete, but recoverable failure.
    – Janka
    Aug 31 at 22:14






  • 1




    Either way, both the Pi and its polyfuse stay intact. No chance to shoot them. (The polyfuse is a tiny SMD fuse soldered on the backside of the Pi, near the Micro-USB connector.)
    – Janka
    Aug 31 at 22:15













up vote
3
down vote










up vote
3
down vote









Don't put any resistor in series with the Pi when connecting it to a voltage source. — Uh, and 10A is overkill. You can't run 10A through the 5V tracks on the Pi's board. These are for about 2A only. You can of course run another set of +5V/GND wires to the devices you want to control with the Pi.



The reason you use a series resistor for LEDs is that they have almost no internal resistance. So you have to limit the current, or the LED, and probably other components, will burn out or blow up.






share|improve this answer














Don't put any resistor in series with the Pi when connecting it to a voltage source. — Uh, and 10A is overkill. You can't run 10A through the 5V tracks on the Pi's board. These are for about 2A only. You can of course run another set of +5V/GND wires to the devices you want to control with the Pi.



The reason you use a series resistor for LEDs is that they have almost no internal resistance. So you have to limit the current, or the LED, and probably other components, will burn out or blow up.







share|improve this answer














share|improve this answer



share|improve this answer








edited 8 hours ago









svin83

1594




1594










answered Aug 31 at 21:52









Janka

1,06429




1,06429











  • Gotcha, makes sense. I know 10amps is too much for 1 Pi but it's what I have lying around. Shouldn't it be fine since the Pi Zero will only draw whatever amps it needs to use?
    – Matt
    Aug 31 at 21:54











  • Yes. It will only draw as much it uses. The only problem you will run into is when you overload/short the +5V line on the GPIO connector or the USB. You will burn the polyfuse then because the power source just can. If you used a 1A power source, it will simply go into overcurrent and the fuse stays intact while the Pi is crashing.
    – Janka
    Aug 31 at 21:55







  • 1




    Huh? The problem is only about the possible overload through the tracks of an individual Pi board. That's why they have the polyfuse. Minimizing defective parts. But you can minimize that even more by not allowing the power source deliver more current than the polyfuse can handle.
    – Janka
    Aug 31 at 22:04







  • 1




    If your +5V power source can deliver 10A and you have a short on the USB or GPIO +5V pins, there will be 10A running through the +5V tracks of the Pi's board. That's too much, it would fry the tracks and your Pi would be gone then. That's why the polyfuse exists. It's still a hassle to replace it but at least the Pi not damaged beyond repair. If you used a power source that has a limit of e.g. 1A, it would not deliver +5V any more if you have a short on the GPIO +5V pins or USB. It either limits the current to 1A (at a lower voltage then) or goes into a complete, but recoverable failure.
    – Janka
    Aug 31 at 22:14






  • 1




    Either way, both the Pi and its polyfuse stay intact. No chance to shoot them. (The polyfuse is a tiny SMD fuse soldered on the backside of the Pi, near the Micro-USB connector.)
    – Janka
    Aug 31 at 22:15

















  • Gotcha, makes sense. I know 10amps is too much for 1 Pi but it's what I have lying around. Shouldn't it be fine since the Pi Zero will only draw whatever amps it needs to use?
    – Matt
    Aug 31 at 21:54











  • Yes. It will only draw as much it uses. The only problem you will run into is when you overload/short the +5V line on the GPIO connector or the USB. You will burn the polyfuse then because the power source just can. If you used a 1A power source, it will simply go into overcurrent and the fuse stays intact while the Pi is crashing.
    – Janka
    Aug 31 at 21:55







  • 1




    Huh? The problem is only about the possible overload through the tracks of an individual Pi board. That's why they have the polyfuse. Minimizing defective parts. But you can minimize that even more by not allowing the power source deliver more current than the polyfuse can handle.
    – Janka
    Aug 31 at 22:04







  • 1




    If your +5V power source can deliver 10A and you have a short on the USB or GPIO +5V pins, there will be 10A running through the +5V tracks of the Pi's board. That's too much, it would fry the tracks and your Pi would be gone then. That's why the polyfuse exists. It's still a hassle to replace it but at least the Pi not damaged beyond repair. If you used a power source that has a limit of e.g. 1A, it would not deliver +5V any more if you have a short on the GPIO +5V pins or USB. It either limits the current to 1A (at a lower voltage then) or goes into a complete, but recoverable failure.
    – Janka
    Aug 31 at 22:14






  • 1




    Either way, both the Pi and its polyfuse stay intact. No chance to shoot them. (The polyfuse is a tiny SMD fuse soldered on the backside of the Pi, near the Micro-USB connector.)
    – Janka
    Aug 31 at 22:15
















Gotcha, makes sense. I know 10amps is too much for 1 Pi but it's what I have lying around. Shouldn't it be fine since the Pi Zero will only draw whatever amps it needs to use?
– Matt
Aug 31 at 21:54





Gotcha, makes sense. I know 10amps is too much for 1 Pi but it's what I have lying around. Shouldn't it be fine since the Pi Zero will only draw whatever amps it needs to use?
– Matt
Aug 31 at 21:54













Yes. It will only draw as much it uses. The only problem you will run into is when you overload/short the +5V line on the GPIO connector or the USB. You will burn the polyfuse then because the power source just can. If you used a 1A power source, it will simply go into overcurrent and the fuse stays intact while the Pi is crashing.
– Janka
Aug 31 at 21:55





Yes. It will only draw as much it uses. The only problem you will run into is when you overload/short the +5V line on the GPIO connector or the USB. You will burn the polyfuse then because the power source just can. If you used a 1A power source, it will simply go into overcurrent and the fuse stays intact while the Pi is crashing.
– Janka
Aug 31 at 21:55





1




1




Huh? The problem is only about the possible overload through the tracks of an individual Pi board. That's why they have the polyfuse. Minimizing defective parts. But you can minimize that even more by not allowing the power source deliver more current than the polyfuse can handle.
– Janka
Aug 31 at 22:04





Huh? The problem is only about the possible overload through the tracks of an individual Pi board. That's why they have the polyfuse. Minimizing defective parts. But you can minimize that even more by not allowing the power source deliver more current than the polyfuse can handle.
– Janka
Aug 31 at 22:04





1




1




If your +5V power source can deliver 10A and you have a short on the USB or GPIO +5V pins, there will be 10A running through the +5V tracks of the Pi's board. That's too much, it would fry the tracks and your Pi would be gone then. That's why the polyfuse exists. It's still a hassle to replace it but at least the Pi not damaged beyond repair. If you used a power source that has a limit of e.g. 1A, it would not deliver +5V any more if you have a short on the GPIO +5V pins or USB. It either limits the current to 1A (at a lower voltage then) or goes into a complete, but recoverable failure.
– Janka
Aug 31 at 22:14




If your +5V power source can deliver 10A and you have a short on the USB or GPIO +5V pins, there will be 10A running through the +5V tracks of the Pi's board. That's too much, it would fry the tracks and your Pi would be gone then. That's why the polyfuse exists. It's still a hassle to replace it but at least the Pi not damaged beyond repair. If you used a power source that has a limit of e.g. 1A, it would not deliver +5V any more if you have a short on the GPIO +5V pins or USB. It either limits the current to 1A (at a lower voltage then) or goes into a complete, but recoverable failure.
– Janka
Aug 31 at 22:14




1




1




Either way, both the Pi and its polyfuse stay intact. No chance to shoot them. (The polyfuse is a tiny SMD fuse soldered on the backside of the Pi, near the Micro-USB connector.)
– Janka
Aug 31 at 22:15





Either way, both the Pi and its polyfuse stay intact. No chance to shoot them. (The polyfuse is a tiny SMD fuse soldered on the backside of the Pi, near the Micro-USB connector.)
– Janka
Aug 31 at 22:15


















 

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