User talk:Daveb: Difference between revisions
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Headlight | |||
Parts ideas: | |||
Switches for LED current.. | |||
* This [http://uk.farnell.com/diodes-inc/zxms6005dt8ta/mosfet-nn-ch-w-esd-60v-1-8a-sm8/dp/1902497 SMD Dual Logic Level MOSFET] will control two sets of LEDs directly from the MCU - given enough heat-sink capability on the board and enough voltage from the MCU (3.3 or 5v compatibke , Has ESD, over temp and over current protection... is really tiny! If the logic level REALLY needs to be 3.3v then that is an issue :( 3.3v logic turns into about +3.45v regulator (3.3v + a 200mV diode drop to allow the MCU tp be reprogramed in circuit) with 415mV regulation margin - nearly 4v reqd for the MCU.. when the LEDs start to light up near 3v :(. | |||
* This [http://uk.farnell.com/stmicroelectronics/stp16nf06l/mosfet-n-ch-60v-16a-to220/dp/9803068 TO220 MOSFET] should carry the 0.5a curent - perhaps without any heatsinking at all. and combined with a small transister should operate well at a supply voltage of 3v. | |||
There are a few impacts of this choice.. | |||
* SMD or through hole!!! | |||
* Many fewer devices from the SMD integrated logic level MOSFETS | |||
* Higher operating voltages might be required by the SMD MOSFETs | |||
Voltage regulator for the MCU. Needs to operate of a widely varied supply voltage. The dynamo generates a voltage proportional to the bike speed. Potentially reaching hundreds of volts. And the higher the voltage climbs, the more power I can use in the LEDs! Many components to deal with 0.5A are specced at about 40 to 60V - so that is a very high limit for the working voltage. A chain of 6 LEDs would need 24v. My plans are for 3 LEDs in a chain - so 20V is a good target. | |||
For 2.7V MCUs these are the possible best regulators. | |||
* [http://uk.farnell.com/national-semiconductor/lm2936mp-3-0-nopb/ic-ldo-volt-reg-3v-50ma-sot-223/dp/1496125 3.0v, 200mV drop out, 50 mA, max 40v supply] gets 2.8v MCU supply after a 200mV diode, from a 3.2V supply :). It is a 4 pin SMD device for £1.60. | |||
* [http://uk.farnell.com/national-semiconductor/lp2980im5-3-0-nopb/ic-ldo-volt-reg-3v-50ma-5-sot-23/dp/1559574 3.0v, 120mV drop out, 50mA, 16V max supply] will do above from a 3.12V supply, but restricts me to chains of fewer than four LEDs. £0.46 | |||
* [http://uk.farnell.com/on-semiconductor/lp2950cz-3-0g/ic-ldo-volt-reg-3v-0-1a-to-92-3/dp/1354344 3v, 350mV drop out, 100mA, 30V max supply] is a small 3 pin through hole package for £0.46. Supply voltage is now 3.35V :(. | |||
For 1.8V MCU it is really easy to operate when ever a LED can light up! | |||
Revision as of 13:39, 23 March 2012
Dave Brown - hacker in spirit.
Project Ideas
| Project | Status | Notes |
| LED lights and lenses for my bike | plan | http://pilom.com/BicycleElectronics/DynamoCircuits.htm explains the matching of LEDs to bike generators. Have ordered LEDs, reflectors and lenses. Have an attiny85 from the space components. Still need a dynamo, some diodes, mosfets, npns, a circuit and some firmware - oh and maybe a heatsink for the LEDs:). The project is moving along. |
| LED lights in walking stick | idea | Want to combine a torch and walking stick for my father. Should be reliable over several years, have little impact on the walking stick, and provide light when needed with no manual switch. |
Headlight Parts ideas: Switches for LED current..
- This SMD Dual Logic Level MOSFET will control two sets of LEDs directly from the MCU - given enough heat-sink capability on the board and enough voltage from the MCU (3.3 or 5v compatibke , Has ESD, over temp and over current protection... is really tiny! If the logic level REALLY needs to be 3.3v then that is an issue :( 3.3v logic turns into about +3.45v regulator (3.3v + a 200mV diode drop to allow the MCU tp be reprogramed in circuit) with 415mV regulation margin - nearly 4v reqd for the MCU.. when the LEDs start to light up near 3v :(.
- This TO220 MOSFET should carry the 0.5a curent - perhaps without any heatsinking at all. and combined with a small transister should operate well at a supply voltage of 3v.
There are a few impacts of this choice..
- SMD or through hole!!!
- Many fewer devices from the SMD integrated logic level MOSFETS
- Higher operating voltages might be required by the SMD MOSFETs
Voltage regulator for the MCU. Needs to operate of a widely varied supply voltage. The dynamo generates a voltage proportional to the bike speed. Potentially reaching hundreds of volts. And the higher the voltage climbs, the more power I can use in the LEDs! Many components to deal with 0.5A are specced at about 40 to 60V - so that is a very high limit for the working voltage. A chain of 6 LEDs would need 24v. My plans are for 3 LEDs in a chain - so 20V is a good target.
For 2.7V MCUs these are the possible best regulators.
- 3.0v, 200mV drop out, 50 mA, max 40v supply gets 2.8v MCU supply after a 200mV diode, from a 3.2V supply :). It is a 4 pin SMD device for £1.60.
- 3.0v, 120mV drop out, 50mA, 16V max supply will do above from a 3.12V supply, but restricts me to chains of fewer than four LEDs. £0.46
- 3v, 350mV drop out, 100mA, 30V max supply is a small 3 pin through hole package for £0.46. Supply voltage is now 3.35V :(.
For 1.8V MCU it is really easy to operate when ever a LED can light up!
