/elec/propeller-clock : revision 23

To get this branch, use:

bzr branch
http://bzr.ed.am/elec/propeller-clock

« back to all changes in this revision

Viewing changes to electronics-information

Committer: edam
Date: 2011-12-02 19:57:07 UTC
Revision ID: edam@waxworlds.org-20111202195707-lko4ap3pfe1jrgd9

renamed code directories and updated the comments in the code

files added:
src/propeller-clock.sch

src/utility/Bounce.cpp

src/utility/Bounce.h

files removed:
arduino.mk

src/TODO

src/button.cc

src/button.h

src/common.cc

src/common.h

src/config.h

src/modes

src/modes/analogue_clock_mode.cc

src/modes/analogue_clock_mode.h

src/modes/digital_clock_mode.cc

src/modes/digital_clock_mode.h

src/modes/info_mode.cc

src/modes/info_mode.h

src/modes/major_mode.cc

src/modes/major_mode.h

src/modes/mode.cc

src/modes/mode.h

src/modes/settings_major_mode.cc

src/modes/settings_major_mode.h

src/modes/switcher_major_mode.cc

src/modes/switcher_major_mode.h

src/modes/test_pattern_mode.cc

src/modes/test_pattern_mode.h

src/nvram.h

src/text.cc

src/text.h

src/text_renderer.cc

src/text_renderer.h

src/time.cc

src/time.h

src/util/DS1307.cpp

src/util/DS1307.h

src/util/PString.cpp

src/util/PString.h

test/fan-test

test/fan-test/Makefile

test/led-test

test/led-test/Makefile

test/led-test/led-test.ino

test/phantom-button-presses

test/phantom-button-presses/Makefile

test/phantom-button-presses/main.ino

test/rtc-test

test/rtc-test/Makefile

test/rtc-test/rtc-ds1307.ino

test/rtc-test/util

test/rtc-test/util/DS1307.cpp

test/rtc-test/util/DS1307.h

files renamed:
notes => Notes

src/propeller-clock.cc => src/propeller-clock.pde

src/util/ => src/utility/

test/fan-test/fan-test.ino => test/fan-test.pde

files modified:
.bzrignore

electronics-information

project/propeller-clock.pro

project/propeller-clock.sch

src/Makefile

Show diffs side-by-side

added added

removed removed

electronics-information

voltage in the range 6-20V (although 7-12V is recommended).

Wiring up multiple LEDs in series to a single Arduino pin

Wiring up multiple LEDs in series to a single arduino pin

=========================================================

First, lets think about a single LED.

| R D

The Arduino pin, when raised high, is at 5V and no more than 20mA can

The arduino pin, when raised high, is at 5V and no more than 20mA can

be taken from it. The LED will take about 10mA and wants about 1.5V.

You can think of this as a potentiometer arrangement, with the

You can see that beyond three or perhaps, at a push, four LEDs you're

not going to get the required 1.5V across each LED. So three (or four)

is the limit to how many LEDs you can drive in series from one pin on

the Arduino.

Wiring up multiple LEDs in parallel to a single Arduino pin

===========================================================

the arduino.

Wiring up multiple LEDs in parallel to a single arduino pin

===================================--======================

Imagine we have this

119

| '---|___|----►|---+--- GND

120

| R2 D2

121

122

This is OK. R1 and R2 are just the usual 340 ohms. But we have to

122

This is ok. R1 and R2 are just the usual 340 ohms. But we have to

123

bare in mind that each LED requires 10mA. So the total current drawn

124

from the Arduino pin will be 20mA, which is the most you're allowed to

124

from the arduino pin will be 20mA, which is the most you're allowed to

125

draw. So two LEDs is the most that we can drive, in parallel, directly

126

from a pin.

127

129

Using a transistor to drive multiple LEDs

130

=========================================

131

132

In both of the following diagrams, the resistor on the Arduino pin,

132

In both of the following diagrams, the resistor on the arduino pin,

133

R1, just needs to be something suitably high to provide a small

134

current on the base of the transistor. So, R1 could be 1kΩ.

135

153

| ¯``

154

| |

155

Arduino | ___ ,-|

156

o----|___|--(|↘ ) T

156

o----|___|--(|< ) T

157

| R1 `-|

158

| |

159

| '----- GND

185

| +-------+-------'

186

| |

187

Arduino | ___ ,-|

188

o----|___|--(|↘ ) T

188

o----|___|--(|< ) T

189

| R1 `-|

190

| |

191

| '----- GND

192

193

Here, R3 = R4 = R5 = 340Ω, as usual. The number of LEDs is limited

193

Here, R3 = R4 = R5 = 340Ω, as usual. The numbher of LEDs is limited

194

only by the current that can be drawn from the power supply.

195

196

197

RC CIRCUITS

198

===========

199

200

An RC (resistor capacitor) circuit is a basic low-pass filter. Here

200

An RC (resistor capacitor) curcuit is a basic low-pass filter. Here

201

we're talking about giving it a pulse wave signal (a voltage that

202

oscillates between 0V and approx. 5V).

203

___

234

235

T = RC

236

237

238

TRANSISTORS

239

===========

240

241

When using an NPN transistor as a switch, a typical set up might look

242

something like this:

243

244

o--------------+---- 5V

245

246

[]

247

( ) some load

248

[]

249

250

___ ,-|c

251

o---[___]--b(|↘ ) T (NPN)

252

R `-|e

253

254

----+---- GND

255

256

You would typically connect the pin to 5V to turn on the transistor.

257

The current between the emitter and base turns on a larger current

258

between the emitter and collector. The resistor, R, limits the

259

turn-on current and prevents a short (effectively) across the

260

transistor (and whatever the pin is connected to, such as an

261

Arduino!).

262

263

PNP transistors were used in the days when a -5V rail was typical

264

instead of a 5V rail. In this case, a typical set up would be exactly

265

the same as above, but with -5V used for the top rail and a PNP

266

transistor. The thing to note here is that the direction of the

267

current would also have changed. Now imagine flipping this diagram

268

up-side-down and offsetting both rails by +5V (so that -5V becomes GND

269

and GND becomes 5V, respectively). Then you'd have this set up, which

270

is a modern-day typical usage scenario for a PNP transistor.

271

272

----+---- 5V

273

274

___ ,-|e

275

o---[___]--b(|↙ ) T (PNP)

276

R `-|c

277

278

[]

279

( ) some load

280

[]

281

282

o--------------+---- GND

283

284

In this set up, as before, a current is required between the base and

285

emitter to turn on a larger current between the collector and emitter.

286

But the difference this time is that the pin must be connected to

287

ground to achieve this.

288

289

290

CAPACITORS

291

==========

292

293

Two capacitors in parallel are equivalent to one capacitor whose

294

value is the sum of the two.

295

296

297

COMMON PARTS LIST AND USEFUL VALUES

298

===================================

299

300

NPN transistors

301

BC548/BC547, 5V switch

302

303

PNP transistors

304

BC327/BC328, -5V switch

305

306

LEDs

307

~1.5V, ~10mA

308

With 5V across them, a 560Ω resistor is required.

309

310

DIODE

311

1N4001

312

313

Electrolytic Capacitor (Radial, 4700uF 16V)

314

Maplin part no. VH57M

315

316

Arduino-powerable relay (DPDT, gold contacts, 5V, 27mA)

317

Maplin part no. N05AW