I secound what Paul said. Having a CV driver with a max current limitation isn´t the same like a real CC driver. It eventually can protect your diode from getting killed but due to temperature changes the the current will change and the output power of the diode as well. So all measurments of a...
Ok thanks for the clarification. So well, the FP6291 is almost a tuned SX1308 with a OC pin instead of NC. But like Paul stayed correctly in this configuration just a CV driver with a over current protection.
Beside this, the pinout for both ICs is identical and even the reference Voltage at...
This was not to you but to jnrpop. Hoever if you are having the driver, the better to reverse engeenier it. I´m just talking about what i can see on the pics. And the circuit looks exactly the same like a typical circuit for this IC exept the additional R3 resistor going from the voltage...
The IC as a quite popular boost driver IC sold by many manufaturers under different names. Most known as SX1308 or MT3608. Having here several SX and MT driver modules and all chips do have a different number on it. If you are unsure, measure the leads and compare to the datasheet. The one i...
I´m pretty sure it is a SX1308. Datasheet
The upper right pin is FB connected between R1&R2. The one below is GND and the one on the buttom is SW1. On the left you have EN and IN connected to Vin. The one on the buttom is NC. The Pot is connected through NC and further below the IC to the lead...
Exactly. If you want to make it a CC driver, you have to modify it the way i posted before. For e real CC driver the number of diodes doesn´t matter. Once the current is set, it will remain there. No matter there are 6 or 9 diodes. Just the voltage will differ. The 1 Ohm resistor is there as...
I did a closer look to the pics at OdicForce and it looks to me like it is a simple CV boost driver based on the SX1308. By trying to reverse engeenering the circuit, I only found and additional resistor going from the pot to Vin.
So if this is really a SX1308 based driver, there is no soft...
When I was looking with my nightvision at the IR dots my DPSS lasers are producing, they all were well collimated and not fading out like many are saying. It´s also true IR encompasses a broad spectrum, but this laser is using a 808nm diode, so it´s very close to the visible spectrum and almost...
Doesn´t make really sense, even if this would be just a 100mW laser. And it also doesn´t match the picture above.
If it were just 100mW total and 60% would pass the glasses, the 60mW IR would burn his retina permamently. And for the camera it would also apear way brighter than on the picture as...
You probably focused it to a pinpoint at this distance but not to infinite. Or you used a different collimating lens with a longer focal length, which gave you a bigger beam diameter and reduced the divergence.
Where did I say something about expencive? Nowhere, Just the adding a cap at the outputs doesn´t work for these buck drivers. Been there and tried it already. The spikes where still there and the cap only changed the characteristics of the driver which caused even more noise.
The cap trick only...
This driver will most likely kill the diode as it´s causing little spikes while turning on. These are ok for 445nm diodes as those can handle these spikes but not with the Mustubishi diodes. I´m talking from experience because such a driver killed a few for me.
You need a driver with a soft...
Gas lasers don´t require lenses, just perfectly aligned mirrors. There even exist TAE and DYE lasers with no mirrors at all.
Laserdiodes are also having microscopic mirrors and operate in principal the same way like gas lasers. Just because the whole laser is microscopic it´s RAW output has a...
You are ignoring one simple rule. The universe is not a cube and it´s expanding all the time. therefore you will never get a absolute linear beam and the photons to have always the same distance to each other, even after passing a few billion years of space.
The same for reducing this to be...
But you are measuring the voltage not the current. The current in this circuit is negligible. An yes, you can reach the phisical maximum and its different for every type of TEC.
C is a constant but the space-time isn´t. Gravity for example is bending it and the light isn´t traveling in a...