as the title suggests I am planning on using a mosfet driver to control a dc fan/motor, have no idea what kind I need to do the job, there are many different types
fan/motor will run 24/7 365 days ..possibly for several years
fan/motor will run continuously and vary between 10%-100% power
fan/motor speed will be auto controlled by an MC(Arduino/PWM) via the mosfet ......in response to temperature
if the mosfet can feedback motor info to the MC ...speed etc that would good also
1)how to choose a suitable driver: do I match the current rating of mosfet to the fan/motor current rating?
2)can I buy something off the shelf or do I have to build?
3)how exactly does the mosfet connect to the fan/motor ..is the fans power cable run through the mosfet or do I need to open up the fan housing and connect directly to the motor?
4)Are there any extra fire risks or other safety issues I have to consider?
engines
- Electronically commutated EC motors
- Power supply 230V, 50/60 Hz
- Protection class IP 44
- Insulation class B
- Rated motor continuous operation S1 - Integrated control electronics
- Integrated control potentiometer
- Signal input 0-10 V DC
- Output 10 V DC
- Output 24 V DC
- Closed ball bearings - maintenance-free
I can't look inside as I haven't bought the fan yet, & the information doesn't seem to be available in English, it says in bold the controller + potentiometer are integrated but looking at the table in your link it says the controller is a REB-ECOWATT ...which is an external controller ..so I'm a little confused..
does the REB-ECOWATT connect to the Integrated/internal potentiometer inside the motor connection box .. & are you saying I need to use an external potentiometer(5...10kohms) to control the potentiometer inside the motor connection box? .. basically the REB-ECOWAT is a potentiometer?
ahh I'v just noticed the wiring schematic for the REB-ECOWATT(external speed adjuster) wiring to the fan, from looking at the schematic the speed can be adjusted manually with screwdriver or remotely with the REB-ECOWATT
so bearing in mind I want to use my own micro-controller(Arduino) ...to adjust the fan speed to any setting in the range 10-100% ..how do I find out the type of input signal that changes the fan speed ...just like the REB-ECOWAT can do
REB-ECOWAT
Remote setpoint adjuster for brushless DC motors and
Frequency.
- Surface Mounting
- Protection class II
- 10 V DC input
- 0-10 V DC output
- Potential-free auxiliary contact
dimensions
80 mm D = 68 mm
interesting.. I like the idea of amplifying the pwm outputs(0-5v) to (0-10v) to get the necessary range
I'v just been reading about digipots **broken link removed** SPI is compatible with Arduino
the AD5206 Digital Potentiometer in the example(click the green above) is only 5v, but I found this one
AD3376
128 positions
10 kΩ, 50 kΩ, 100 kΩ
20 V to 30 V single-supply operation
±10 V to ±15 V dual-supply operation
3-wire SPI®-compatible serial interface
THD 0.006% typical
Programmable preset
Power shutdown: less than 1 μA
iCMOS™ process technology
also this one which has 256 positions...that means a potential 256 speed/volt settings for the fan right or?
AD5290
256 position
10 kΩ, 50 kΩ, 100 kΩ
+20 V to +30 V single-supply operation
±10 V to ±15 V dual-supply operation
3-wire SPI®-compatible serial interface
Low temperature coefficient 35 ppm/o
C typical
THD 0.006% typical
Midscale preset
Compact MSOP-10 package
Automotive temperature range: −40C to +125
I notice on the fan there is also a 25v/dc input as well as the 10v option ...what is the purpose of the 25v input ..does the higher voltage allow a wider range? or something else
Yes for example Maxim and Analog Devices produce digital potentiometers with SPI or I2C bus
If you like to use those, announce that they need buffer amplifier for protection and current amplification.
Pot.meter like those can handle only very small currents ( check from datasheet )
Thanks for all your help and guidance yesterday Kak , much appreciated
I am thinking of going with your schematic from that thread
..also looking at **broken link removed** ..the kind you build yourself ..could be useful for testing outputs etc on vera board, before committing to solder ..do you think or waste of money?