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| Both sides previous revisionPrevious revisionNext revision | Previous revision | ||
| mission:resources:picouvx [2016-03-18 08:21] – [Power-Supply-Unit] chrono | mission:resources:picouvx [2023-04-19 13:26] (current) – [Constant current source chains] chrono | ||
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| Line 44: | Line 44: | ||
| ** Shunt resistor calculation ** | ** Shunt resistor calculation ** | ||
| - | <x 14> | + | <m 20> |
| I_{out} = {1.25}/ | I_{out} = {1.25}/ | ||
| - | </x> | + | </m> |
| Combining an LM317 and a 62 Ohm shunt resistor regulates the current flow to 20mA per chain, running the LED's at their typical recommended operational forward current to maximize the lifespan but leaves room to increase the current if exposure times need to be shorter. If you don't have 62 ohm resistors on site, just use 68 ohm (18mA per chain). The input voltage must be at least 3,5V + sum(Uf,LED) (Uf=Forward Voltage, | Combining an LM317 and a 62 Ohm shunt resistor regulates the current flow to 20mA per chain, running the LED's at their typical recommended operational forward current to maximize the lifespan but leaves room to increase the current if exposure times need to be shorter. If you don't have 62 ohm resistors on site, just use 68 ohm (18mA per chain). The input voltage must be at least 3,5V + sum(Uf,LED) (Uf=Forward Voltage, | ||
| Line 121: | Line 121: | ||
| **Increasing Efficiency** | **Increasing Efficiency** | ||
| - | The trick to get more than 90% efficiency out of the MC34063 seems to be a very high Q inductor (L1). The first test-inductor | + | The trick to get more than 90% efficiency out of the MC34063 seems to be a very high Q inductor (L1). At first L1 was wound on a yellow/ |
| ===== Controller ===== | ===== Controller ===== | ||