im looking for a circuit that can remove access power from a battery, but i can not find it anywhere.
im not that competent in designing circuits so i wil try in forum.
maybe someone have a circuit that i can use.
i did not ask about safety, i did not ask about other ways of doing this, i only ask for circuit and discussing about discharge circuit please respect that.
ok i have a few "requirements" for way of function
no programming
pwm based discharge
pwm 0-100% (not critical can be for example 10 - 90%)
pwm start voltage adjustable if batteryvoltage 5v over start voltage =100% pwm
pwm start voltage adjustable dc240v - dc265v (example start 265,05=1%pwm 270=100%pwm
pwm ramp up and down slowly
pwm is limited by a current shunt adjustable from 1A to 100A
pwm frequency not critical about 3khz
explaining of circuit work:
start voltage adjusted to 240vdc
current limit set to 10A
voltage increase to 240,1vdc
pwm start 2%
voltage increase to 241vdc
pwm adjust slowly to 20%
voltage increase to 242vdc
pwm try to adjust slowly to 40% but the current limit stop and hold the pwm at 30%
voltage increase to 243vdc
current limit still hold the pwm at 30%
voltage decrease to 240,5
pwm adjust slowly to 10%
A forum is not meant to do others jobs. It is meant to help to rectify mistakes.
If you want others do your job you should post in the "jobs section" and consider to pay for the job.
Um, no we don't - we looked inside, 64 mosfets, with drivers, control card, fan drive ( varies with power/temp ), over temp protection, reverse input protection, etc ...
they made a mod on their board to accept 0-10VDc for 0 - 100A, via BNC connector on back, metal case is fully isolated from inputs ( to 500V )
Um, no we don't - we looked inside, 64 mosfets, with drivers, control card, fan drive ( varies with power/temp ), over temp protection, reverse input protection, etc ...
they made a mod on their board to accept 0-10VDc for 0 - 100A, via BNC connector on back, metal case is fully isolated from inputs ( to 500V )
here is a drawing to show what i was thinking,
offcorse it do not work bechause i do not have the knowlege to make it correct but the design or how to do should be possible this way.
240v is stepped down to 0v and 245v wil then be 5v, potentiometer is there to adjust the 0v from 240 to 265v and the 5v wil be 5v higher as in the first example.
0-5v is amplified by opamp, zener is there to pull down the voltage if the 0-5v should be higher than 5v.
0-5v pwm circuit 0v=0%duty 5v=100%duty.
pwm output have a pull down resistor to shut the SCR off when pulse is low.
shunt feedback the current via transistor and pull down the 0-5v if current is over setpoint by the potentiometer close to the shunt
then finally the battery and load is connected to the SCR input and output.
an SCR is made for AC operation (at least the current needs to go down to zero periodically), it can´t be used for DC this way.
And an SCR can´t be (usefully) controlled by a PWM signal.
an SCR is made for AC operation (at least the current needs to go down to zero periodically), it can´t be used for DC this way.
And an SCR can´t be (usefully) controlled by a PWM signal.
what is your load exactly? as above if SCR gated on it will stay on until current falls to essentially zero, i.e. you cannot turn an SCR off once gated on ...
what is your load exactly? as above if SCR gated on it will stay on until current falls to essentially zero, i.e. you cannot turn an SCR off once gated on ...