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Want to increase brightness of LED headlight

seanspotatobusiness

Sep 11, 2012
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I have one of these magnifiers and they're sort of almost useable at 2.5x but the light isn't very bright at all. I attached my bench power supply and determined that at 3.6 V a current of 20 mA would flow which is my guess at what the LEDs are rated for (maybe it's not; all I know for sure is that they're cheap, white and 5 mm). At 3 V it's 7 mA and at 2.7 V (batteries only a bit discharged) it's 2 mA!! I want to use a little wotzit to increase the current to 20 mA but I have a question regarding which wotzit to use.

It needs to be tiny to fit into this battery compartment and the current contenders are:

QX5252F available in TO-94 form
YX8018 available in TO-94 form
ZXSC380 available in SOT23 form
Alf available in pog form

The ZXSC380 has the advantage of a teeny tiny package whereas I think the QX5252F and YX8018 have a leg I could somehow connect to prevent overdischarging NiMh batteries. Basically a different solution is needed for alkaline versus rechargeable batteries, I think.

Could anyone tell me alternative ICs or how to connect the TO-94 parts to not discharge past 1.6 V (0.8 V per cell)?
 

Audioguru

Sep 24, 2016
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The low current solar garden light ICs are made for a single cell 1.25V input, not two cells that you have.
The ZXSC380 has a wide input voltage range with a mean output current of about 18mA which might be fine, but the peak current is 65mA with a 2.8V fully charged battery that might zap the cheap LEDs.
Do you have space for the inductor?

Ni-MH cells do not care if they are discharged very low. Rechargeable Lithium cells demand to be disconnected.

Wait a minute. Why are you using low voltage rechargeable battery cells? You should simply use Energizer L92 (Ultimate Lithium) disposable AAA battery cells that are more than 1.5V for the first half of their life and are above 1.4V for the second half.
 

seanspotatobusiness

Sep 11, 2012
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The low current solar garden light ICs are made for a single cell 1.25V input, not two cells that you have.
The ZXSC380 has a wide input voltage range with a mean output current of about 18mA which might be fine, but the peak current is 65mA with a 2.8V fully charged battery that might zap the cheap LEDs.
Do you have space for the inductor?

Ni-MH cells do not care if they are discharged very low. Rechargeable Lithium cells demand to be disconnected.

Wait a minute. Why are you using low voltage rechargeable battery cells? You should simply use Energizer L92 (Ultimate Lithium) disposable AAA battery cells that are more than 1.5V for the first half of their life and are above 1.4V for the second half.

I'm using cheap alkalines but I want to use rechargeables because then I don't need to keep remembering to switch it off when I don't need it, Fancy Energizer batteries sound relatively expensive but I already have a few rechargeable AAAs that aren't in use.

I think I can use an SMD inductor. I have access to a microscope to be able to solder the parts together,

Are you sure NiMH aren't damaged by discharge below 0.8 V? Many sources in my first couple pages of Google results suggest they would be.
 

Audioguru

Sep 24, 2016
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A SMD inductor might have a low maximum current then it will saturate.

The Ni-MH Battery Applications Manual from Energizer shows that a cell provides little power when discharged below about 0.9V per cell. The cell is damaged only when it is the lowest capacity one in series with a mismatched higher capacity one and the discharge continues until the stronger cell reverse charges the weaker cell.

Google has lies from people who think they know stuff.
 

seanspotatobusiness

Sep 11, 2012
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A SMD inductor might have a low maximum current then it will saturate.

The Ni-MH Battery Applications Manual from Energizer shows that a cell provides little power when discharged below about 0.9V per cell. The cell is damaged only when it is the lowest capacity one in series with a mismatched higher capacity one and the discharge continues until the stronger cell reverse charges the weaker cell.

Google has lies from people who think they know stuff.

Thanks! I'll be sure to check the inductor specifications for saturation currents; there's one series I'm thinking of using which have currents in excess of an amp.

It occured to me that the two LEDs must be in parallel in which case they might be able to take 40 mA total and not just 20 mA so that's cool. I wish the current-voltage curves of the ZXSC380 were flatter nonetheless.

Graph: http://imgur.com/QIf18jQ.png
QIf18jQ.png
 

Audioguru

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The current curves in the datasheet are for the peak current, but our vision sees the average current that is much lower because the LEDs are pulsed on and off. That is why a solar garden light is rather dim, the pulses are PWM dimming.
 

Audioguru

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The headlight has only two rechargeable AAA cells for a maximum of 2.8V that drops to about 1.6V during their discharge so a voltage boosting circuit is needed.
 

cjdelphi

Oct 26, 2011
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The low current solar garden light ICs are made for a single cell 1.25V input, not two cells that you have.
/QUOTE]

If the other models are similar to the qx5252f, you can feed up to (i think) 4 or 5v, i'm actually feeding 2nimh batteries in series supplying it to the qx5252f

Why? Because i then perfboarded a circuit with a 3-5uf home wound torroid which results in a 300ma output, but it was pulling .7amp/2.8v! So i switched for a 10uf inductor at 2.8v pulling 80ma (LED side) on a 1w (300ma rated) LED

It's illuminating the toilet closet nicely it's 4 or 5x brighter than 1 (5mm) led[/QUOTE]
 

Audioguru

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The circuit converts a low voltage to a higher voltage and the power must not change except to make up for loss of efficiency. If the LEDs need 3.6V at 80mA but the battery is only 2.4V then the battery current is 3.6/2.4= 1.5 times higher plus about 20% more for losses which is a total battery current of 144mA. This is probably the momentary peak current, the average current that you see is less.
 

seanspotatobusiness

Sep 11, 2012
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The current curves in the datasheet are for the peak current, but our vision sees the average current that is much lower because the LEDs are pulsed on and off. That is why a solar garden light is rather dim, the pulses are PWM dimming.

Oh I see, thanks. The frequencies seem really high so am I right in thinking a small ceramic capacitor would smooth out the peaks so the LEDs wouldn't see large currents? Also I think I would need to use two ZXSC380 chips in parallel to provide the current I want to both LEDs? Could they share a single inductor? Presumably they would get half the microHenrys each?


This is the circuit you need:

KeyHoleLightCct.gif

Does that boost voltage somehow? Or is it a low-battery cut-off?


If the other models are similar to the qx5252f, you can feed up to (i think) 4 or 5v, i'm actually feeding 2nimh batteries in series supplying it to the qx5252f

Why? Because i then perfboarded a circuit with a 3-5uf home wound torroid which results in a 300ma output, but it was pulling .7amp/2.8v! So i switched for a 10uf inductor at 2.8v pulling 80ma (LED side) on a 1w (300ma rated) LED

It's illuminating the toilet closet nicely it's 4 or 5x brighter than 1 (5mm) led

The only datasheet I can find for the QX5252 is this: http://www.mikrocontroller.net/attachment/158139/QX5252.pdf

The LEDs need 4.1 V to get 40 mA of current to them. That's 164 mW. I'm providing 2.4 V (dropping to ~1.6 V) .

Inductor needed at start = 2 x 2.4 V x 10E-6 / 0.164 W = 29 uH. Is that calculation correct?


Components are pretty cheap on AliExpress so I think I could try both approaches (in about two months when the components arrive!).
 

Audioguru

Sep 24, 2016
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The frequencies seem really high so am I right in thinking a small ceramic capacitor would smooth out the peaks so the LEDs wouldn't see large currents? Also I think I would need to use two ZXSC380 chips in parallel to provide the current I want to both LEDs? Could they share a single inductor? Presumably they would get half the microHenrys each?
No and no. If you add a smoothing capacitor then the IC will need extra output current to charge it.
You cannot parallel ICs because there is no way to sync their oscillators.
Use a separate circuit for each LED if one IC cannot drive enough current for two parallel LEDs.

Does that boost voltage somehow? Or is it a low-battery cut-off?
It has a 6V battery made from two 3V Lithium coin cells and feeds a constant current of 47mA until the battery voltage becomes so low that the LED does not light anymore.

The LEDs need 4.1 V to get 40 mA of current to them. That's 164 mW. I'm providing 2.4 V (dropping to ~1.6 V) .
How do you know if your LEDs will survive 40mA?

Inductor needed at start = 2 x 2.4 V x 10E-6 / 0.164 W = 29 uH. Is that calculation correct?
I did not check your calculation because the IC is Chinese.

Components are pretty cheap on AliExpress so I think I could try both approaches (in about two months when the components arrive!).
I think Alliexpress is Chinese and has bad reviews.
 

seanspotatobusiness

Sep 11, 2012
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I have the QX5252F IC and it's in a circuit where it increases the current to the LEDs up to 29 mA depending on the inductor used but there seems to be a lot of current bypassing the LEDs, going through the QX5252F. Is that normal? My inductors are cheap, low power, moulded axial ones. Are they appropriate or do I need lower resistance ones?

33 uH (0.9 Ω) = 27 mA through LEDs and 140 mA total consumed
68 uH (2.0 Ω) = 22 mA through LEDs and 160 mA total consumed
68 uH (1.1 Ω) = 29 mA through LEDs and 150 mA total consumed (higher power/lower resistance inductor)
100 uH (2.8 Ω) = 15 mA through LEDs and 160 mA total consumed

Image not showing for some reason: http://imgur.com/ml4OtBM.png

ml4OtBM.png
 

Audioguru

Sep 24, 2016
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The datasheet for the QX5252 IC shows only one rechargeable cell battery but you have two cells in series.
How are you measuring the output current? It is pulses that a meter cannot see.
Of course the input current is higher than the output current, the input is a low voltage and the output is a higher voltage and the powers must be similar (plus inefficiency).
I think you should try better and larger inductors.
 

seanspotatobusiness

Sep 11, 2012
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Thanks. I'll try to find larger inductors to test.

I forgot to include the capacitor in my diagram which I think helps stabilise the current measured (updated diagram attached). The current is measured immediately before the LED. Do I need to consider the frequency of the circuit to choose a suitable capacitor? What I have is some kind of ceramic capacitor that says:
104
0M0

It looks like this and I thought it was 104 uF but maybe I should find a bigger one.
thumbnail_93341_2.jpg
 

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Audioguru

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You should not put a capacitor in that switching circuit (the capacitor is a dead short to the high frequency) because it might burn out the Mosfet switch. You show a film capacitor, not a ceramic one. Its value is 10 followed by 4 zeros which is 100000 pF which is 100nF which is 0.1μF.

On my solar garden lights I removed the white LED and replaced it with a colors-changing LED in series with a Schottky diode. The colors-changing LED has a ceramic capacitor in parallel but the diode isolates the capacitor from the switch.

Your current meter cannot measure the high frequency pulses so it reads low. The pulses are on and off over and over which has a high short-duration current, but a fairly low average current.
 

seanspotatobusiness

Sep 11, 2012
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Thanks! I didn't think about the high frequency draining the capacitor. Is there nothing else I can do to smooth the current in lieu of a capacitor?

I might be able to use an oscilloscope at my local Hacklab/Maker space to measure the current.
 

Audioguru

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An oscilloscope looking at the voltage pulses in a resistor that is in series with the LED shows pulses, not the average current that creates the light that you see You do not see the peak light of the high frequency pulses, the low duty cycle dims the light (that is how a dimmer works). The resistor reduces the output current anyway.
 

seanspotatobusiness

Sep 11, 2012
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Is the current reading on the power supply affected by the frequency? I put a capacitor across the PSU and there was no change in the current displayed. I think I'm gonna use a 68 uH inductor since the LEDs are then plenty bright and the power supply reports a 40-50 mA consumption which is presumably fine. Thanks for your help. I'm pretty much all the way there now.
 
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