/elec/propeller-clock : revision 93

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Committer: Tim Marston
Date: 2013-03-31 17:07:36 UTC
Revision ID: tim@ed.am-20130331170736-hphm2hg0y6l7w6z1

made rtc-test's DS1307 library a symlink to the main one in src/util

files added:
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 removed:
src/propeller-clock.sch

src/utility/Bounce.cpp

src/utility/Bounce.h

files renamed:
Notes => notes

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

src/utility/ => src/util/

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

files modified:
.bzrignore

electronics-information

project/propeller-clock.pro

project/propeller-clock.sch

src/Makefile

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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

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| '---|___|----►|---+--- GND

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| R2 D2

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

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

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

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

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

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

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from a pin.

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Using a transistor to drive multiple LEDs

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

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

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

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

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

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| ¯``

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| |

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Arduino | ___ ,-|

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

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o----|___|--(|↘ ) T

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| R1 `-|

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| |

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| '----- GND

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

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| |

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Arduino | ___ ,-|

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

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o----|___|--(|↘ ) T

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| R1 `-|

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| |

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| '----- GND

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

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

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

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RC CIRCUITS

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===========

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

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

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

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oscillates between 0V and approx. 5V).

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___

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T = RC

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TRANSISTORS

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===========

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

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something like this:

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

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[]

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( ) some load

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[]

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___ ,-|c

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o---[___]--b(|↘ ) T (NPN)

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R `-|e

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----+---- GND

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

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

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

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

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

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Arduino!).

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

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

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

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

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current would also have changed. Now imagine flipping this diagram

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

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

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

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----+---- 5V

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___ ,-|e

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o---[___]--b(|↙ ) T (PNP)

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R `-|c

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[]

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( ) some load

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[]

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

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

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

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

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ground to achieve this.

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CAPACITORS

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==========

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Two capacitors in parallel are equivalent to one capacitor whose

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value is the sum of the two.

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COMMON PARTS LIST AND USEFUL VALUES

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

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NPN transistors

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BC548/BC547, 5V switch

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PNP transistors

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BC327/BC328, -5V switch

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LEDs

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~1.5V, ~10mA

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

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DIODE

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1N4001

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Electrolytic Capacitor (Radial, 4700uF 16V)

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Maplin part no. VH57M

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

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Maplin part no. N05AW

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