Project: Supanaut (The PSU has blown and I had to replace)
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I could be wrong but couldnt you just use an LM3914 or 2? would assume that would be easyer... lol like this kinda http://www.zen.pqsound.co.za/index.php? ... cts_id=245Samaya wrote:So you could in fact make a bar graph temperature display with it as well.
just my 1.3 cents....
Rob~!
You could buy this for R145 if you want but whats the fun in that? PLUS this design shouldn't cost you more than say R50 if you buy expensive componentsRobThePyro wrote:I could be wrong but couldnt you just use an LM3914 or 2? would assume that would be easyer... lol like this kinda http://www.zen.pqsound.co.za/index.php? ... cts_id=245Samaya wrote:So you could in fact make a bar graph temperature display with it as well.
just my 1.3 cents....
Rob~!
edit: Oh now I remember where that site comes from... LOL
ps: I just looked at the LM3914 and yes it would be easier to use but that is for lazy engineers LOL (Just kidding)
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Gotcha.Samaya wrote:Dude I forgot to change R1 to show that it is the 10k OHM NTC resistor. It says 2k because I was busy making sure that the voltages would change. So just remember R1 = 10k NTC ThermistorLithe_Joint wrote:Thanks Dude! I'm gonn go and burn my fingers a bit later
the pen is mighter than the sword, but the word is always final
I have made some more stuff this weekend.
I have almost finished the activity meter. There are just some small adjustments I need to make for it to work nicely but I have tested and it does work but only a limited margin. I'll fix it sometime during the week or next weekend.
I had to find somewhere to place the actual indicators (leds) So decided to make a cover for the bottom of the case. I then had a bright idea to actually use connectors to get the front panel and USB's connected.
You can see the ten LED leads sticking out on the right.
So for this to fit I will need to redrill some holes for some of the wiring. Which in turn means I have to remove the MoBo and drives. Not to much of a slep cause my case opens up so easily
I have almost finished the activity meter. There are just some small adjustments I need to make for it to work nicely but I have tested and it does work but only a limited margin. I'll fix it sometime during the week or next weekend.
I had to find somewhere to place the actual indicators (leds) So decided to make a cover for the bottom of the case. I then had a bright idea to actually use connectors to get the front panel and USB's connected.
You can see the ten LED leads sticking out on the right.
So for this to fit I will need to redrill some holes for some of the wiring. Which in turn means I have to remove the MoBo and drives. Not to much of a slep cause my case opens up so easily
I made some changes to my mod these last couple of days. I had LOTS of time you see cause I am between jobs at the moment... (Starting fresh on Monday )
So I decided to take this - specifically the wiring -
and fix it. The wires were stressing my board and we cant have that.
I fit some connectors to the ends of the wires to be plugged into the bottom of the panel.
I also finished the activity meter but still need test it. Will do that later tomorrow. It sits on the bottom of the panel.
And because I had a lot of time, I cleaned up the front panel wiring a bit. I added some nice LED holders aswell.
I also remade the LCD cover. The previous one didn't fit very nicely.
I'll do some more modding tomorrow. I still need to test the activity meter, connect up my LCD display and make sure this front panel is connected properly to my MoBo.
So I decided to take this - specifically the wiring -
and fix it. The wires were stressing my board and we cant have that.
I fit some connectors to the ends of the wires to be plugged into the bottom of the panel.
I also finished the activity meter but still need test it. Will do that later tomorrow. It sits on the bottom of the panel.
And because I had a lot of time, I cleaned up the front panel wiring a bit. I added some nice LED holders aswell.
I also remade the LCD cover. The previous one didn't fit very nicely.
I'll do some more modding tomorrow. I still need to test the activity meter, connect up my LCD display and make sure this front panel is connected properly to my MoBo.
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hehehe my secret... I'll post a circuit diagram here in a little while. Actually I'll give you guys guide on how to make it. But remember, its not going to be that easy if you have no electronics background. Plus one very essential piece of equipment you WILL need is a Multimeter. If you don't have that I wouldn't suggest you start this. [Going to make a guide now]
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You sell them...
The worst thing about this meter is that after I built it, RobthePyro showed me a device (lm3914)that does all this in one go. Except for the input ofcourse which makes all the difference.
What you need:
1) Vero board. This is the stuff I built the whole circuit with. Communica sells this in single sheets. Their about +-R20 each.
2) Resistros. You will need 100Ohm per LED(depending on the current drawn per LED) , 1000Ohm (1kilo Ohm) also as many as you have LEDS. Then you will need 1 x 10kOhm Variable resistor and 1 x 100kOhm Variable resistor.
3) Your LEDS. I used 3mm Green LEDs that use 15mA each. So I was safe driving them directly from my Op-amps. If you use the same circuit as I did but with LED’s that need more current, you will need to add Transistors.
4) Op-Amps. I used LM258 dual op-amps. 5 of them will give you 10 usable Op-amps. Be careful with these and do not short them. They are not that friendly. OR you could replace all the op-amps with a lm3914.
5) Optional transistors. You can use BC639-25 transistors if you want to drive up to about 100mA LEDs but then do not go over 5V per transistor. If you require more info just PM me.
To build:
1) There isn’t really a recipe to build this but just make sure you do not have any shorts on the board. THAT is why you need the multimeter. On your meter there needs to be a continuity test (the setting which beeps when you touch your probes together)
2) You will need to know which wire goes to which pin. You will need the circuit for that and the following: Pin 1 – Output A
Pin2 – Inverting Input A (-)
Pin 3 – Non-inverting input A (+)
Pin 4 – Ground
Pin 5 – Non-inverting input B (+)
Pin 6 – Inverting Input B (-)
Pin 7 – Output B
Pin 8 – Vcc
3) After you build this PLEASE test for shorts again. You might think you are the shiz but really even I still make this stupid mistake. Overlooking something is easy when you work with Vero board.
The worst thing about this meter is that after I built it, RobthePyro showed me a device (lm3914)that does all this in one go. Except for the input ofcourse which makes all the difference.
What you need:
1) Vero board. This is the stuff I built the whole circuit with. Communica sells this in single sheets. Their about +-R20 each.
2) Resistros. You will need 100Ohm per LED(depending on the current drawn per LED) , 1000Ohm (1kilo Ohm) also as many as you have LEDS. Then you will need 1 x 10kOhm Variable resistor and 1 x 100kOhm Variable resistor.
3) Your LEDS. I used 3mm Green LEDs that use 15mA each. So I was safe driving them directly from my Op-amps. If you use the same circuit as I did but with LED’s that need more current, you will need to add Transistors.
4) Op-Amps. I used LM258 dual op-amps. 5 of them will give you 10 usable Op-amps. Be careful with these and do not short them. They are not that friendly. OR you could replace all the op-amps with a lm3914.
5) Optional transistors. You can use BC639-25 transistors if you want to drive up to about 100mA LEDs but then do not go over 5V per transistor. If you require more info just PM me.
To build:
1) There isn’t really a recipe to build this but just make sure you do not have any shorts on the board. THAT is why you need the multimeter. On your meter there needs to be a continuity test (the setting which beeps when you touch your probes together)
2) You will need to know which wire goes to which pin. You will need the circuit for that and the following: Pin 1 – Output A
Pin2 – Inverting Input A (-)
Pin 3 – Non-inverting input A (+)
Pin 4 – Ground
Pin 5 – Non-inverting input B (+)
Pin 6 – Inverting Input B (-)
Pin 7 – Output B
Pin 8 – Vcc
3) After you build this PLEASE test for shorts again. You might think you are the shiz but really even I still make this stupid mistake. Overlooking something is easy when you work with Vero board.
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http://www.bit-tech.net/modding/2002/06 ... ty_meter/1
There's another one If you want me to remove it just say the word
There's another one If you want me to remove it just say the word
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That is actually a better circuit in that it uses the LM3914 IC. BUT half of the other stuff is not needed as it is not necessary. The opto-coupler and extra Opamps are not necessary. Your MoBo CAN drive an LED anyway so you have a bit of power to play with. So you could really just stick a high'ish resistor with a capacitor in there and you would have a frequency to voltage converter. No need to go complex here.WiK1d wrote:http://www.bit-tech.net/modding/2002/06 ... ty_meter/1
There's another one If you want me to remove it just say the word
All that you would need to do is put a 10kOhm variable in line with the LM3914 signal input and a 10uF cap to ground from the signal line. What happens is the capcitor "rectifies" the incoming voltage and literally creates a varying DC voltage with regards to the frequency. So the more the LED is on, the higher the comparing voltage will be.RobThePyro wrote:OH~! lol i thought it was a cpu activity meter. lol. yes im blind, i was wondering how that works! Wow im surprised the Hdd meter is PWM i though it was allways just on/off...
*Orders lm3914 from dad *
Thanks Samaya!!!! Woot
Rob~!