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FrozenGate by Avery

Basic Buck Driver Help

shumon

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Joined
Sep 5, 2024
Messages
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Hello! I'm trying my hand at designing a simple buck driver, and this is what I have so far: I'm confused/looking for advice on a couple things (or anything you notice I did wrong, I'm still a noob so any advice is appreciated) if anyone would be willing to lend some time. Thank you all in advance!

Is a single capacitor to ground sufficient for output filtering? The datasheet sample application only had a single capacitor on the output for filtering, and when I google output filtering with capacitors it's usually a single capacitor connected to ground. But when I look at other buck drivers it's usually a system of 4-6 capacitors on the output (particularly giannis' open source buck driver with 6 capacitors for output filtering). If it isn't, how would I determine what capacitor values and types to use?

Are the two capacitors shown sufficient for input filtering, and how would I determine the value of C3 connected to GNDA?

Are there particular considerations I should take in capacitor placement (or just general part placement) when making the actual PCB design?

My current schematic:
1734735513113.png

Sample application circuit from datasheet:
1734735647845.png
 





Looks like you have a voltage regulator diagram here. You need a current regulator. The voltage is allowed to swing to keep the current constant.
The datasheet says that the output current is set by connecting a sensing resistor to the feedback pin. How is the diagram for a voltage regulator? It seems to me that in the application circuit that the current is set through the resistor labeled RD.

Or are you referring to my schematic?
 
Your feedback needs to be above the cathode side of the diode. What is usual is a sense resistor at the anode side. That resistor should be in series with the laser diode and the feedback should come off at the anode of the diode.
 
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What exactly do you mean by 'above the cathode side of the diode'? At the anode?

Also, all the circuit diagrams I can find for this IC does not have the resistor in series with the laser diodes, and instead has a junction where one branch has the resistor going to ground and the other branch goes back into input after the cathodes of the diodes. Should I ignore that and instead put the resistor in series on the anode side and take the feedback from that?

Sorry, I may not be fully understanding what you are saying due to my inexperience.
 
No you don't understand. Your circuit does have the sense resistor in series with the laser diode, it's just in the cathode side of the the circuit. This may work in this circuit. Most of the time and I've done this is was in the anode side. I just don't know and it's not worth my time to look it up.
 
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