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Truthlover
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Hello i just want to know if it's possible to do 5V with a 1.5V battery without any capacitor
Thanks
Thanks
Truthlover said:Hello i just want to know if it's possible to do 5V with a 1.5V battery without any capacitor
Thanks
Truthlover said:I have to run a 4.8V DC motor with a 1.5V battery. The motor is used to propulse a little car.
Truthlover said:In example: is it possible to use this boost converter without the cpacitor if not what will happen
chaoseverlasting said:And isn't this http://en.wikipedia.org/wiki/Image:B...onventions.svg circuit a half wave rectifier?
'Puzzle', 'non-standard', and 'challenge', and the fact that you have specifically not specified 'DC', just 5 V, lead me to believe that your tasker intended some kind of pulse waveform be used which is plausible w/ a motor load. You can drive the motor with some kind of 5V pulse waveform. The DC/DC boost converter (referenced above) with no output capacitor with give you a pulse waveform, and the duty cycle of the converter would control the motor speed.Truthlover said:it is posed as an advanced puzzle by someone who knows of an elegant non-standard solution. It's like a challenge. so i have to find a way to do 5V with a 1.5V battery without any capacitor.
A voltage booster without capacitor is an electronic circuit that is used to increase the voltage of a power source without using a capacitor. It is designed to provide a stable and regulated output voltage that is higher than the input voltage.
A voltage booster without capacitor works by using an inductor and a switching device, such as a transistor or a diode, to convert the input voltage into a series of high-frequency pulses. These pulses are then smoothed and regulated to provide a higher output voltage.
Some of the advantages of using a voltage booster without capacitor include a smaller and more compact circuit design, higher efficiency, and lower cost. It also eliminates the need for a bulky and expensive capacitor, making it ideal for portable and low-power applications.
One of the main limitations of a voltage booster without capacitor is that it can only provide a voltage boost, not a voltage step-down. It also has a limited output current capacity and may not be suitable for high-power applications. Additionally, it may generate more noise and electromagnetic interference compared to boosters with capacitors.
A voltage booster without capacitor can be used in various electronic devices, such as battery-operated devices, portable electronic devices, and low-power sensors. It is also commonly used in renewable energy systems, such as solar panels and wind turbines, to boost the output voltage for charging batteries or powering low-voltage devices.