Videos of the Kart, working as planned:
Thursday, September 10, 2009
Future Projects
Potential Future Projects
Carbon Fibre lightweight Kart, Double RC motor powered
......-> Safe ... because carbon used in "not too high-speed" machine
......-> Can show the RC mount and gearing system, on Endless-Sphere. Orders ?
BMX with carbon fibre mounted twin RC motors
......-> Can post pictures on Endless-Sphere, and maybe get orders for the parts
......-> Safe ... because "high-speed" machine ... but frame etc is all professinally made
Carbon Kick Bike Scooter with RC motor
Carbon Fibre lightweight Kart, Double RC motor powered
- Carbon fibre chassis (for all mounting points, disk brake, etc)
- Lightweight rear wheel (Alloy, BMX wheel) + front wheels (Jogger pram alloy)\
- Lowly geared, for stupendous take-off power.
- Hydraulic rear disk
- Double RC motor + controller + special programmable servo driver
- 48V 10AH (sprint cart - short run time)
......-> Safe ... because carbon used in "not too high-speed" machine
......-> Can show the RC mount and gearing system, on Endless-Sphere. Orders ?
BMX with carbon fibre mounted twin RC motors
- Lightweight carbon fibre mount, being "covert" (enclosed, invisible)
- Lightweight twin RC motors (fan cooling)
- 48V 40AH (spring BMX, short run time ... covert in water bottle)
......-> Can post pictures on Endless-Sphere, and maybe get orders for the parts
......-> Safe ... because "high-speed" machine ... but frame etc is all professinally made
Carbon Kick Bike Scooter with RC motor
- Lightweight carbon fibre kick bike
- Work on CVT transmission ?
- #
Wednesday, September 9, 2009
09/09/2009 Progress
EV Charger
- Thoroughly checked Schematic and PCB against Breadboard (ie that identical)
- Re-created PCB with throttling control circuit.
- Created 5 x shunt circuit on a small PCB (in Eagle, free version) ... so to have professionally created (at a cost of under $30.00 for 2) by futurlec Australia. Saves printing, ironing, and drilling. Mainly the drilling (don't want to do that !).
- Following are images of the PCB, and the Schematic:
- Ordered from Futurlec. Lets see how we get on !
- DMM turned up today. It is a Digitech QM1548, 40,000 count.
- Very useful, very good (very accurate) DMM.
- Tested it - and very happy with result.
- Testing the Shunt circuit, there is a change of around 12mV up to 1.3A shunting. This will do fine !
- This indicates I should select the "turn on" of the shunting, for 4.1 volts ... so the maximum possible "top out" is 4.22V, even if everything goes wrong with it.
*** Things to do ***
Things to do
- Shunt charger
- Create LVC circuit
- Create better Kart Control (no heat dissipation, stable voltage, has LVC circuit)
- Emergency panic switch.
- Receive boards.
- Test.
- Assemble.
- Test.
- Use.
- Check there is 12V switched from Kart control.
- Single circuit, operating from that voltage.
- Actually turns off Kart control (ie connected to ground, or power wire, or "stop" switch)
- Has "Low Voltage Warning" LED, which lights for 30 seconds only.
- Completely terminates power (no residual leakage).
- Switch-mode power supply ("Buck" supply ?)
- Thoroughly tested circuit
- Single, smaller relay ?
- Includes LVC within the circuit
- NOTE ... easy connection when the lid is connected (ie whole thing comes off, for easy connection of new wiring etc).
Future Improvements
Front Stub Axles
-> Buy cheap 6803 bearings through eBay.
-> Bearings arrive.
-> Attend looking for bolts with 17mm shank (for front stubs).
-> If cannot find any ... then call steel supplier http://www.buau.com.au/ for 1020 17mm steel
-> If cannot find any, then consider here: http://www.smallparts.com.au/ $50 RSH170A ........ or change to 20mm bearings.
-> Bearings arrive.
-> Attend looking for bolts with 17mm shank (for front stubs).
-> If cannot find any ... then call steel supplier http://www.buau.com.au/ for 1020 17mm steel
-> If cannot find any, then consider here: http://www.smallparts.com.au/ $50 RSH170A ........ or change to 20mm bearings.
Later
-> Get the plug finished.
-> Create the female mould.
-> Create cart shell (fibreglass).
-> Create cart shells (final - fibreglass / carbon)
-> Create push bar.
-> Create axles.
-> Add all hardware to the cart, and finish !
Tuesday, September 8, 2009
08/09/2009 Progress
EV Charger
- Further experiment ... 60cm of 10A power cable is OK (after balance taps - does not affect outcome).
- This means shunt balancer does not need to be located directly on the balance taps.
- Further experiment ... Close connection between sense resistors and power source improves outcomes.
- Decided definitely not mount on the Kart itself.
- Decided definitely 2 x PCB.
- Created new PCB, with close connections. 5 channels per board. With space for further control circuitry (ie BM6 mounting, and RSP-1000 control.
- Control circuit must "latch" ... otherwise it will cycle between "on" and "off".
- All Jaycar double throw relays (ie simple solution) require 12V.
- All Farnell relays are $11.00 +++ and come from the UK only.
- Designed a latching circuit using a dual optocoupler.
- Created the dual optocoupler latch on the breadboard. Works !! Hooray !!
- Tested optocoupler latch with remainder of circuit. Works !! Hooray !!
- Tested optocoupler latch with RSP-1000-48 power supply. Works !! Hooray !!
- Thoroughly tested ... with "Shunting" and "Over-current" output. Good !
- Over-current operates the optocoupler at 1.3A. This, as it turns out, is fortuitous ... because it is the level at which the shunting isn't so accurate (because of the resistance effect of the balance tap wires).
Monday, September 7, 2009
07/09/2009 Progress
EV Charger
- Got 3 x 10W 4.7ohm resistors.
- Using resistors, did thorough "burn it" test at higher currents.
- After much experimentation, discovered that:
........TL431 works perfectly !!
........Breadboard resistance affects voltage control (ie allows "drift").
........Crucial to have no resistance between source, TL431, TIP137
.......and source
- Even further analysis, shows that it is the resistance of the balance wires that fouls up perfect balancing.
- Simple hook-up wire is sufficient to give bad enough readings, that the "Shunt Balancer" loses accuracy at around 1.4 Amps.
- Even further analysis (and testing) shows that the shunt balancer is much more effective if the balance wires are connected FIRST AND FOREMOST directly to the +ive into the TIP137, and the ground from the resistor.
- THIS WILL MEAN A RE-DRAW of the PCB permitting the largest possible traces directly to the TIP137, fuse, and primary resistor.
- Also, Futurlec boards are $8.00 each, $16.00 to set up ...
- ... so really can easily spend an extra $8.00 so to spread out the components, with larger traces, and order two boards instead of one.
Sunday, September 6, 2009
06/09/2009 Progress
EV Charger
- On Friday, learned "Eagle" ... which will allow me to design a PCB that can be emailed to a manufacturing house (Futurlec) and manfactured cheaply.
- Completed a new PCB, fitting (amazingly) into 100mm by 80mm board.
- !! BIG NEWS !!
- Plugged in the RSP-1000-48 charger, and adjusted it to 41.6V, and it charged the whole pack incredibly quickly. Amazing !
- Only problem is ... it magnified (slightly) the wrong-balance of the cells. So from 16mV unbalance, one bank now has 36mA unbalance.
- This is (of course) still quite good, but it is enough to make the "Fuel Gauge" registered unbalanced cells, making an annoying beeping for driving.
- Important, now, to get the shunt balancer working as soon as possible.
Subscribe to:
Comments (Atom)