How can I wire a 9-position switch so that each position turns on one more LED than the one before?
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$begingroup$
I have a 9-way switch like this guy:
And I'm trying to figure out how I can turn on one LED with position 1, 2 with position 2, all the way up to all 9 in position 9.
Obviously I can repeat all the wiring for the LEDs at each position, but that seems silly.
My idea is that with a layout like below, the switch would represent the circled red line (shown in position 3), which would elongate to the right in each successive position until it connects all the lights. How can I do this?
led switches wiring
$endgroup$
add a comment |
$begingroup$
I have a 9-way switch like this guy:
And I'm trying to figure out how I can turn on one LED with position 1, 2 with position 2, all the way up to all 9 in position 9.
Obviously I can repeat all the wiring for the LEDs at each position, but that seems silly.
My idea is that with a layout like below, the switch would represent the circled red line (shown in position 3), which would elongate to the right in each successive position until it connects all the lights. How can I do this?
led switches wiring
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$begingroup$
What operating voltage does each LED require, how much current does each LED draw, and what is the supply voltage?
$endgroup$
– Bruce Abbott
5 hours ago
$begingroup$
Your logic defines OR input logic for each LED but easier tinyurl.com/y38aomlp
$endgroup$
– Sunnyskyguy EE75
3 hours ago
$begingroup$
@BruceAbbott the idea was to use a 9V battery, but if I have to, I can use a DC power supply that fits a 9V-type switching jack. The LEDs draw about 25-30mA but they do the trick at even half-brightness, so there's some wiggle room there.
$endgroup$
– Isaac Lubow
2 hours ago
add a comment |
$begingroup$
I have a 9-way switch like this guy:
And I'm trying to figure out how I can turn on one LED with position 1, 2 with position 2, all the way up to all 9 in position 9.
Obviously I can repeat all the wiring for the LEDs at each position, but that seems silly.
My idea is that with a layout like below, the switch would represent the circled red line (shown in position 3), which would elongate to the right in each successive position until it connects all the lights. How can I do this?
led switches wiring
$endgroup$
I have a 9-way switch like this guy:
And I'm trying to figure out how I can turn on one LED with position 1, 2 with position 2, all the way up to all 9 in position 9.
Obviously I can repeat all the wiring for the LEDs at each position, but that seems silly.
My idea is that with a layout like below, the switch would represent the circled red line (shown in position 3), which would elongate to the right in each successive position until it connects all the lights. How can I do this?
led switches wiring
led switches wiring
asked 5 hours ago
Isaac LubowIsaac Lubow
1114
1114
$begingroup$
What operating voltage does each LED require, how much current does each LED draw, and what is the supply voltage?
$endgroup$
– Bruce Abbott
5 hours ago
$begingroup$
Your logic defines OR input logic for each LED but easier tinyurl.com/y38aomlp
$endgroup$
– Sunnyskyguy EE75
3 hours ago
$begingroup$
@BruceAbbott the idea was to use a 9V battery, but if I have to, I can use a DC power supply that fits a 9V-type switching jack. The LEDs draw about 25-30mA but they do the trick at even half-brightness, so there's some wiggle room there.
$endgroup$
– Isaac Lubow
2 hours ago
add a comment |
$begingroup$
What operating voltage does each LED require, how much current does each LED draw, and what is the supply voltage?
$endgroup$
– Bruce Abbott
5 hours ago
$begingroup$
Your logic defines OR input logic for each LED but easier tinyurl.com/y38aomlp
$endgroup$
– Sunnyskyguy EE75
3 hours ago
$begingroup$
@BruceAbbott the idea was to use a 9V battery, but if I have to, I can use a DC power supply that fits a 9V-type switching jack. The LEDs draw about 25-30mA but they do the trick at even half-brightness, so there's some wiggle room there.
$endgroup$
– Isaac Lubow
2 hours ago
$begingroup$
What operating voltage does each LED require, how much current does each LED draw, and what is the supply voltage?
$endgroup$
– Bruce Abbott
5 hours ago
$begingroup$
What operating voltage does each LED require, how much current does each LED draw, and what is the supply voltage?
$endgroup$
– Bruce Abbott
5 hours ago
$begingroup$
Your logic defines OR input logic for each LED but easier tinyurl.com/y38aomlp
$endgroup$
– Sunnyskyguy EE75
3 hours ago
$begingroup$
Your logic defines OR input logic for each LED but easier tinyurl.com/y38aomlp
$endgroup$
– Sunnyskyguy EE75
3 hours ago
$begingroup$
@BruceAbbott the idea was to use a 9V battery, but if I have to, I can use a DC power supply that fits a 9V-type switching jack. The LEDs draw about 25-30mA but they do the trick at even half-brightness, so there's some wiggle room there.
$endgroup$
– Isaac Lubow
2 hours ago
$begingroup$
@BruceAbbott the idea was to use a 9V battery, but if I have to, I can use a DC power supply that fits a 9V-type switching jack. The LEDs draw about 25-30mA but they do the trick at even half-brightness, so there's some wiggle room there.
$endgroup$
– Isaac Lubow
2 hours ago
add a comment |
5 Answers
5
active
oldest
votes
$begingroup$
use a regulated current source to light them, wire them in series and short out the segemnt you want to be dark.
simulate this circuit – Schematic created using CircuitLab
you can possibly use a buck-boost converter to make the 30V if you don't already have a suitable voltage.
here's a simple way to build one using a LM2596S module
remove the potentiometer, and both large capacitors, connect one of the salvaged
capacitor between +in and +out (positive to +in), fit a 1uF ceramic capacitor where the output capacitor was. connect a 100 ohms resistor from the -output to the centre potentiometer terminal.
modified in this way it will create a negative voltage on the -out terminals and act as a 12.5mA current sink at the centre potentiometer terminal (with source at +out) if power is applied between +in and +out
simulate this circuit
$endgroup$
add a comment |
$begingroup$
Here is a low tech solution that requires a lot of parts. Only 4 positions shown, you need 45 diodes for 9 positions.
Sunyskyguy has a clever solution if you have a high voltage available.
$endgroup$
$begingroup$
Can you do that with fewer diodes if you bring each one in before (to left of$ the one above it?
$endgroup$
– Bob Jacobsen
2 hours ago
add a comment |
$begingroup$
If you can afford another 0.5V drop you can use a massive array of diodes. Here is an example with three LEDS which requires 6 diodes.
(Sorry for the SW, SW2.., circuit lab does not have a rotatory switch symbol)
simulate this circuit – Schematic created using CircuitLab
$endgroup$
add a comment |
$begingroup$
If you’re not wedded to the specific switch you have, get a “progressive shorting rotary switch” to replace it. That works just like your drawing.
$endgroup$
add a comment |
$begingroup$
It might seem like overkill but it would be fewer parts, and possibly less expensive, than some other solutions to use a micro-controller. Many Ardunio boards have over 9 digital output pins - you could drive one LED with each of nine pins. By having the switch pick different points of a voltage divider and feeding it to one analog pin, you could determine the switch position and light up what ever you have decided should be lit up.
$endgroup$
add a comment |
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5 Answers
5
active
oldest
votes
5 Answers
5
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
use a regulated current source to light them, wire them in series and short out the segemnt you want to be dark.
simulate this circuit – Schematic created using CircuitLab
you can possibly use a buck-boost converter to make the 30V if you don't already have a suitable voltage.
here's a simple way to build one using a LM2596S module
remove the potentiometer, and both large capacitors, connect one of the salvaged
capacitor between +in and +out (positive to +in), fit a 1uF ceramic capacitor where the output capacitor was. connect a 100 ohms resistor from the -output to the centre potentiometer terminal.
modified in this way it will create a negative voltage on the -out terminals and act as a 12.5mA current sink at the centre potentiometer terminal (with source at +out) if power is applied between +in and +out
simulate this circuit
$endgroup$
add a comment |
$begingroup$
use a regulated current source to light them, wire them in series and short out the segemnt you want to be dark.
simulate this circuit – Schematic created using CircuitLab
you can possibly use a buck-boost converter to make the 30V if you don't already have a suitable voltage.
here's a simple way to build one using a LM2596S module
remove the potentiometer, and both large capacitors, connect one of the salvaged
capacitor between +in and +out (positive to +in), fit a 1uF ceramic capacitor where the output capacitor was. connect a 100 ohms resistor from the -output to the centre potentiometer terminal.
modified in this way it will create a negative voltage on the -out terminals and act as a 12.5mA current sink at the centre potentiometer terminal (with source at +out) if power is applied between +in and +out
simulate this circuit
$endgroup$
add a comment |
$begingroup$
use a regulated current source to light them, wire them in series and short out the segemnt you want to be dark.
simulate this circuit – Schematic created using CircuitLab
you can possibly use a buck-boost converter to make the 30V if you don't already have a suitable voltage.
here's a simple way to build one using a LM2596S module
remove the potentiometer, and both large capacitors, connect one of the salvaged
capacitor between +in and +out (positive to +in), fit a 1uF ceramic capacitor where the output capacitor was. connect a 100 ohms resistor from the -output to the centre potentiometer terminal.
modified in this way it will create a negative voltage on the -out terminals and act as a 12.5mA current sink at the centre potentiometer terminal (with source at +out) if power is applied between +in and +out
simulate this circuit
$endgroup$
use a regulated current source to light them, wire them in series and short out the segemnt you want to be dark.
simulate this circuit – Schematic created using CircuitLab
you can possibly use a buck-boost converter to make the 30V if you don't already have a suitable voltage.
here's a simple way to build one using a LM2596S module
remove the potentiometer, and both large capacitors, connect one of the salvaged
capacitor between +in and +out (positive to +in), fit a 1uF ceramic capacitor where the output capacitor was. connect a 100 ohms resistor from the -output to the centre potentiometer terminal.
modified in this way it will create a negative voltage on the -out terminals and act as a 12.5mA current sink at the centre potentiometer terminal (with source at +out) if power is applied between +in and +out
simulate this circuit
edited 2 hours ago
answered 3 hours ago
JasenJasen
11.9k1632
11.9k1632
add a comment |
add a comment |
$begingroup$
Here is a low tech solution that requires a lot of parts. Only 4 positions shown, you need 45 diodes for 9 positions.
Sunyskyguy has a clever solution if you have a high voltage available.
$endgroup$
$begingroup$
Can you do that with fewer diodes if you bring each one in before (to left of$ the one above it?
$endgroup$
– Bob Jacobsen
2 hours ago
add a comment |
$begingroup$
Here is a low tech solution that requires a lot of parts. Only 4 positions shown, you need 45 diodes for 9 positions.
Sunyskyguy has a clever solution if you have a high voltage available.
$endgroup$
$begingroup$
Can you do that with fewer diodes if you bring each one in before (to left of$ the one above it?
$endgroup$
– Bob Jacobsen
2 hours ago
add a comment |
$begingroup$
Here is a low tech solution that requires a lot of parts. Only 4 positions shown, you need 45 diodes for 9 positions.
Sunyskyguy has a clever solution if you have a high voltage available.
$endgroup$
Here is a low tech solution that requires a lot of parts. Only 4 positions shown, you need 45 diodes for 9 positions.
Sunyskyguy has a clever solution if you have a high voltage available.
answered 3 hours ago
Mattman944Mattman944
2015
2015
$begingroup$
Can you do that with fewer diodes if you bring each one in before (to left of$ the one above it?
$endgroup$
– Bob Jacobsen
2 hours ago
add a comment |
$begingroup$
Can you do that with fewer diodes if you bring each one in before (to left of$ the one above it?
$endgroup$
– Bob Jacobsen
2 hours ago
$begingroup$
Can you do that with fewer diodes if you bring each one in before (to left of$ the one above it?
$endgroup$
– Bob Jacobsen
2 hours ago
$begingroup$
Can you do that with fewer diodes if you bring each one in before (to left of$ the one above it?
$endgroup$
– Bob Jacobsen
2 hours ago
add a comment |
$begingroup$
If you can afford another 0.5V drop you can use a massive array of diodes. Here is an example with three LEDS which requires 6 diodes.
(Sorry for the SW, SW2.., circuit lab does not have a rotatory switch symbol)
simulate this circuit – Schematic created using CircuitLab
$endgroup$
add a comment |
$begingroup$
If you can afford another 0.5V drop you can use a massive array of diodes. Here is an example with three LEDS which requires 6 diodes.
(Sorry for the SW, SW2.., circuit lab does not have a rotatory switch symbol)
simulate this circuit – Schematic created using CircuitLab
$endgroup$
add a comment |
$begingroup$
If you can afford another 0.5V drop you can use a massive array of diodes. Here is an example with three LEDS which requires 6 diodes.
(Sorry for the SW, SW2.., circuit lab does not have a rotatory switch symbol)
simulate this circuit – Schematic created using CircuitLab
$endgroup$
If you can afford another 0.5V drop you can use a massive array of diodes. Here is an example with three LEDS which requires 6 diodes.
(Sorry for the SW, SW2.., circuit lab does not have a rotatory switch symbol)
simulate this circuit – Schematic created using CircuitLab
answered 3 hours ago
OldfartOldfart
8,9262927
8,9262927
add a comment |
add a comment |
$begingroup$
If you’re not wedded to the specific switch you have, get a “progressive shorting rotary switch” to replace it. That works just like your drawing.
$endgroup$
add a comment |
$begingroup$
If you’re not wedded to the specific switch you have, get a “progressive shorting rotary switch” to replace it. That works just like your drawing.
$endgroup$
add a comment |
$begingroup$
If you’re not wedded to the specific switch you have, get a “progressive shorting rotary switch” to replace it. That works just like your drawing.
$endgroup$
If you’re not wedded to the specific switch you have, get a “progressive shorting rotary switch” to replace it. That works just like your drawing.
answered 2 hours ago
Bob JacobsenBob Jacobsen
1,13758
1,13758
add a comment |
add a comment |
$begingroup$
It might seem like overkill but it would be fewer parts, and possibly less expensive, than some other solutions to use a micro-controller. Many Ardunio boards have over 9 digital output pins - you could drive one LED with each of nine pins. By having the switch pick different points of a voltage divider and feeding it to one analog pin, you could determine the switch position and light up what ever you have decided should be lit up.
$endgroup$
add a comment |
$begingroup$
It might seem like overkill but it would be fewer parts, and possibly less expensive, than some other solutions to use a micro-controller. Many Ardunio boards have over 9 digital output pins - you could drive one LED with each of nine pins. By having the switch pick different points of a voltage divider and feeding it to one analog pin, you could determine the switch position and light up what ever you have decided should be lit up.
$endgroup$
add a comment |
$begingroup$
It might seem like overkill but it would be fewer parts, and possibly less expensive, than some other solutions to use a micro-controller. Many Ardunio boards have over 9 digital output pins - you could drive one LED with each of nine pins. By having the switch pick different points of a voltage divider and feeding it to one analog pin, you could determine the switch position and light up what ever you have decided should be lit up.
$endgroup$
It might seem like overkill but it would be fewer parts, and possibly less expensive, than some other solutions to use a micro-controller. Many Ardunio boards have over 9 digital output pins - you could drive one LED with each of nine pins. By having the switch pick different points of a voltage divider and feeding it to one analog pin, you could determine the switch position and light up what ever you have decided should be lit up.
answered 59 mins ago
George WhiteGeorge White
34727
34727
add a comment |
add a comment |
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$begingroup$
What operating voltage does each LED require, how much current does each LED draw, and what is the supply voltage?
$endgroup$
– Bruce Abbott
5 hours ago
$begingroup$
Your logic defines OR input logic for each LED but easier tinyurl.com/y38aomlp
$endgroup$
– Sunnyskyguy EE75
3 hours ago
$begingroup$
@BruceAbbott the idea was to use a 9V battery, but if I have to, I can use a DC power supply that fits a 9V-type switching jack. The LEDs draw about 25-30mA but they do the trick at even half-brightness, so there's some wiggle room there.
$endgroup$
– Isaac Lubow
2 hours ago