I have built a voltage boost circuit using the LMR64010 chip. With 7.5v input it gives 18.5v output at no load which is correct, but when I add a 390 ohm load the voltage doubles to 36v. Why?
Could you post a picture of the schematic? Might help diagnose it.
Here is the circuit. It is built on a piece of veroboard 1.5" x 0.5"
What's your layout? This circuit is sensative being high frequency.
Building high frequency circuits on perfboard is tricky. I would suggest trying deadbug or island construction on blank copper PCB for prototyping, it's likely to work much better. Study the datasheet for the IC carefully paying particular attention to layout guidelines.
I've tried several different layouts and at worst it went up to 57v! It should be 18v. Can anyone suggest a similar chip to boost 7.5v to 20v but at a lower frequency like 100kHz?
The chip you have will work fine if you get the layout right. The fact that you've tried several different layouts doesn't mean you've got it right. You can also get ready made modules both buck and boost types very cheaply from Chinese sellers. Most of the ones I've tried work fine.
OK. If I increased the 120p capacitor would the frequency drop?
I've tried several different layouts and at worst it went up to 57v!
I would eliminate the possibility that the meter is not given me the correct reading, by using another meter.
Can you put a closeup picture of it (with load included)?
You can also get ready made modules both buck and boost types very cheaply from Chinese sellers. Most of the ones I've tried work fine.
Can you give me a link? Thanks.
Thanks for those links. I'll probably have one more go at re-arranging it before I give up. My meter is OK. Here is the picture of the layout. Is the inductor too big? It is 10uH.
You'd have to look at the datasheet regarding the inductor, but those long spindly leads going to the IC are likely a big part of the problem. You need to have short relatively thick connections for the switching side. Stick the IC onto the board and run the wires across to it, might be easiest to stick it to the bottom.
I usually cut strips of polyamide tape to insulate under pins I want to isolate, there are a variety of different methods though. For prototyping don't be afraid to bend a pin up or down to clear other things.
Thanks for those links. I'll probably have one more go at re-arranging it before I give up. My meter is OK. Here is the picture of the layout. Is the inductor too big? It is 10uH.
Definitely parasitic inductance judging by the relatively large inductor and the long leads soldered to the chip.
I've been lucky enough in the past to have built RF circuits upwards of 400MHz on breadboard/perfboard, but usually anything above a few hundred kHz can get wonky quite easily. Some circuit configurations may work perfectly for a while then suddenly stop working. With HF in the circuit, it's all about getting the layout right.
Short lead lengths and
star ground configurations (if you don't have a solid ground plane) can help when prototyping. Manhattan style is quick and useful for prototyping if you're using leaded components (although mostly used for RF circuits).
I redesigned the layout roughly copying the data sheet and using a much smaller 10uH inductor (see picture) and now it works well
Good to hear. This is an excellent example of the importance of layout when dealing with high frequency circuits. Seemingly tiny amounts of inductance and capacitance that would be irrelevant at low frequencies can have huge effects.