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Hi there fellow experimenters!
Below is my latest project.
the leads on the right ar for charge and run batteries, and the three leads on the top are for using different coils. There are three leads because in forced oscillation there is a common positive for the trigger and the drive coil
I will do my best to upload a schematic of the exact parts. For now all I can say is that it is hooked up close to the circuit I posted in http://www.energyscienceforum.com/showthread.php?t=3329. The two controls on the front are to vary the trigger resistance. The top one is a 5k potentiometer, and the bottom is a 6 position switch wired in a way that each click adds 5k to the resistance allowing me to vary the resistance from 0 to 30k ohms. The meter is a simple panel mount with 0-2A range. and at the moment I am using MJE3055's because I simply have hundreds.
What I am planning on doing is using the computer monitor feature of my Radioshack multi-meter to graph the charging and discharging of batteries to see the difference over time and to also see the difference between charge rates (hence the variable setup). I also have a cap dump setup using an arduino relay shield that i want to try and record. I will be doing this with three or four different batteries just for learning sake
....I have a 12v 9ahr.... 12v 7ahr.... 12v 100ahr car battery and egc2 6v golf cart batteries. Though I do not know if this is able to charge the golf cart batteries ...would probably take months, but we will see.
Anybody out there that has done some discharge test... what is the best rate for accuracy? I figure discharging a 100 amp hour battery in one hour would probably not be a good representation of the battery. I was thinking aiming for a 24 hour discharge would be ok. But i do not know for sure so if there is a recommended rate to accurately gauge the capacity without harming the battery please let me know.
Below is my latest project.
the leads on the right ar for charge and run batteries, and the three leads on the top are for using different coils. There are three leads because in forced oscillation there is a common positive for the trigger and the drive coil
I will do my best to upload a schematic of the exact parts. For now all I can say is that it is hooked up close to the circuit I posted in http://www.energyscienceforum.com/showthread.php?t=3329. The two controls on the front are to vary the trigger resistance. The top one is a 5k potentiometer, and the bottom is a 6 position switch wired in a way that each click adds 5k to the resistance allowing me to vary the resistance from 0 to 30k ohms. The meter is a simple panel mount with 0-2A range. and at the moment I am using MJE3055's because I simply have hundreds.
What I am planning on doing is using the computer monitor feature of my Radioshack multi-meter to graph the charging and discharging of batteries to see the difference over time and to also see the difference between charge rates (hence the variable setup). I also have a cap dump setup using an arduino relay shield that i want to try and record. I will be doing this with three or four different batteries just for learning sake
....I have a 12v 9ahr.... 12v 7ahr.... 12v 100ahr car battery and egc2 6v golf cart batteries. Though I do not know if this is able to charge the golf cart batteries ...would probably take months, but we will see.Anybody out there that has done some discharge test... what is the best rate for accuracy? I figure discharging a 100 amp hour battery in one hour would probably not be a good representation of the battery. I was thinking aiming for a 24 hour discharge would be ok. But i do not know for sure so if there is a recommended rate to accurately gauge the capacity without harming the battery please let me know.
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