See if you can generate a variable duty cycle dimmer signal with your micro. Interface between micro-controller and dimmer control. Simulate this circuit – Schematic created using CircuitLabįigure 3. I suggest that you do a quick test to see if option 2 above works on your lamps. Finally, if nothing is connected the 0.1 mA will charge C1 to 10 V and give 100% brightness.(Your system is using a 0.5 mA source so adjust R values accordingly.) So for five lamps in parallel on the one pot R = V/I = 10/0.5m = 2 kΩ. This makes sense as each PSU will drive 0.1 mA into the pot. This theory is supported by the fact that if you use one pot to control multiple fittings that the required pot value is 100/n where n is the number of lamps.
On the units I am familiar with 100 kΩ gives full brightness so that means the voltage drop across the 100 kΩ is 10 V and I = V/R = 10/100k = 0.1 mA.
If the PSU is able to sense a resistance connected to the input then it must be supplying a current to the input terminals as shown by the constant current source.PWM signal transitioning from high pulse width (75%) to low (25%) and back again.
This time R3 and C1 filter the PWM to obtain the average DC value. For PWM a pulse train would be used as shown in Figure 2.For DC voltage control we just apply the voltage, it gets to the controller with a slight lag depending on the R3/C1 delay and output power is set.To do this the controller input is probably something similar to the circuit below.
Many of the LED power supplies such as those by Mean Well, etc., offer three modes of control: output constant current level can be adjusted through the control input by connecting a resistance or 0 ~ 10Vdc or 10V PWM signal between DIM+ and DIM. Or do I need something like the MCP45HV31-104E to implement a dimmer? is there a different way to hook up a "standard" digital rheostat (one with a voltage range near 3.3V Vdd) such that I can get the full 0-10V range out of it? So my question is am I looking at this the wrong way? i.e.
I found another IC with two supply rails that looks like it might work, the MCP45HV31-104E but as far as similar devices in its product category there are very few, which makes me wonder if I'm approaching this problem from entirely the wrong way (I have a lot of software experience but very little electronics experience unfortunately). Since I'm looking at a Vdd of 3.3V, the maximum allowable voltage is around 3-3.6V, which is completely outside the 0-10V range I need to control. I've found a number of I☬ controllable rheostats at DigiKey and elsewhere, but almost without fail their datasheets say the maximum allowable voltage across the rheostat pins is very close to the Vdd that supplies the rheostat IC. This is where I'm running into a problem. There are many analogue controller options available for a dimmer, but I would like to create a digital dimmer using an ESP32 and I☬. The power supply (dimmable driver) is on the left, and the dimmer I would like to build (the controller) is on the right. The following diagram is representative of this circuit. The manufacturer says "the power supply is current sourcing, and is roughly 0.5mA."
I have an LED light with a power supply that follows the ISO 60929 0-10V standard for dimming.