It''s particularly required for automotive 12V applications, where typical 12V battery power may be increased to 19V for use as a laptop computer power supply, or to 18V or 24V for other applications that require greater voltages. With up to 150W output power and 6A current, this versatile DC-DC boost power supply/converter module converts any input voltage from 10V to 32V to any output voltage from 12V to 35V. Unlike AC voltages, which can be easily controlled with a transformer, DC voltages are more difficult to manage since they cannot be controlled with a transformer and instead require switching regulators. When you need to step up the DC voltage from a certain value to a greater value, a boost converter is needed. Use the T6 config software to configure your radio on a computer. It can be configured by connecting it to the computer. we received many happy and satisfactory feedback from our hobbyist buyers for the same. This remote is comes with FS-R6B receiver which is one of the best receiver we had in the class in very reasonable cost. It comes with a trainer port to help beginners learn flying. It can be powered by 8 x AA Size Batteries or a 12V Power Supply. This radio has very lightweight and handy design with two retract switches and proportional flap dials in easy reach for channels 5 and 6. CT6B FLYSKY 2.4GHZ 6CH TRANSMITTER radio is a value for money, entry level 6 channel transmitter, ideal for quadcopters and multicopters that require 6 channel operation. CT6B FLYSKY 2.4GHZ 6CH TRANSMITTER is an entry level 2.4 GHz radio system offering the reliability of 2.4 GHz signal technology and a receiver with 6 channels. The entire band width of he antenna bandwidth range.įlySky CT6B 2.4Ghz 6 Channel Transmitter and Receiver(FS-R6B) Remote is the popular 6 Channel Radio CT6B manufactured by FlySky. Spread of fine paragraph by excess antenna. Multirotors, RC Planes, RC Boats, Rc Helicopters, etc. Operating Temperature: Industrial grade (-40 to +85 ) (output power 10W or less).Short Circuit Protection: Current limiting, since the recovery.Module Properties: Non-isolated step-down module (buck).Rectifier: Non-Synchronous Rectification.Conversion Efficiency: Up to 92% (output voltage higher, the higher the efficiency).Because the LM2596 operates at a switching frequency of 150 kHz, it is possible to use smaller filter components than with lower frequency switching regulators. Example:Īgain not the simplest of projects to take on, put certainly could be a useful one if actually accomplishable with reasonable costs and size.As the LM2596 converter is a switch-mode power supply, it has far better efficiency than traditional three-terminal linear regulators, especially at higher input voltages. Perhaps an arduino controled 'motorized pot' as used in stereo equipment could be used with the motorized pot replacing the blue pot in that module? Of course the motorized pot variable resistor range would have to be of the same ohm range (and have a linear 'taper' Vs 'log taper') as the pot used in the regulator module and you probably would need a second pot 'gang' on the motorized pot to give position feedback to the arduino and of course finally you would need a motor H-drive to power the motor on the pot. So not saying it can't be done (arduino controlling output voltage value of this regulator) but it would be a project for someone with good experience in electronics. ![]() Using an arduino to read the output voltage of the module and apply a nominal (but adjustable) 1.23 adjustable voltage (say from a low pass filtered PWM output pin) to the regulator feedback pin might work in theory but I think you would have problems with the low resolution of the standard arduino PWM command (only 256 step values and only a few counts would be in the 'control range' of the module as there is most likely a high 'gain factor'. The current requirement to drive the feedback input pins is quite low so that is not a problem, but trying to replace the R2 component with a digital pot IC may run into a voltage limit size as the digital pot would have to be rated to handle the maximum rated output voltage you plan on running the regulator at. The bottom example in figure 8 shows the adjustable version and the calculation needed for the external voltage divider resistors (in your case one fixed R1, and one adjustable R2). The ebay module you linked too is of course the adjustable version and uses that multiturn pot to set the output voltage. Keep in mind that this regulator comes in either various fixed voltage output or an adjustable voltage output. Here is the datasheet for the voltage regulator:
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