H
HC
- Jan 1, 1970
- 0
Hey, all, I'm not sure if this can be done but here's what I am trying
to do and how I've tried to go about doing it.
I want to be able to control 120VAC devices some distance away from a
controller, say, up to 100 feet or so. I would like to run the 120VAC
to the device through a switch (relay) at the device with no other
switches or control devices in line from the breaker. Then I would
like to have the controller turn that relay on and off to control the
device. The idea is that I could run the thicker, high-voltage lines
directly to the device and then use smaller wire to operate a relay at
the device to turn it on and off instead of running the high-voltage
wire to each switch I would like to use.
Since I have a boat-load of low-cost 12VDC relays that can switch up
to 250VAC and 15 amps and since 24VAC relays seem, in my searching, to
be a lot more expensive and harder to come by (they seem to be, in my
searching, related to HVAC and other "industrial" uses; they're not
like the overly-abundant 12VDC relays we have for our cars and such) I
would like to use a 12VDC relay at the device. However, I'm afraid
that if I attempt to use 12VDC to control these relays over a distance
like I mention of up to 100 feet that the line-loss will be
significant (on 12VDC). I was thinking that using 24VAC would be much
better (it's higher voltage and it's AC, so line-loss should be quite
a bit less than 12VDC).
I tried this: I took the 24VAC and rectified it with a single diode
(half-wave) then buffered it to "ground" with a 2,200 uF cap. I ran
that buffered output through a LM78L12 (with input and output caps as
detailed in the datasheet I was reading) and that output to the 12VDC
relay I wanted to operate. When I apply 24VAC to the circuit the
relay turns on like a mousetrap: SNAP! But, when I remove the 24VAC
the relay turns off like a marshmallow; slow and makes some light
clicking noises. So, the input cap (2,200 uF) is still powering the
relay coil and is letting it down slowly; at least, that's my hack-boy
assessment: I'm not an expert at any of this stuff. I tried whatever
I could including "pull-down" resistors (if I'm using that term
correctly); I put a 10k resistor from the relay input to ground. I'm
afraid the slow turn-off is going to cause arcing and fry the relay
contacts.
I don't have a lot of caps that are rated at 35 volts or higher (which
could handle the 24VAC, rectified) so experimentation was limited in
various cap sizes (like, could a 1,000 uF input cap allow the relay to
turn off quickly?); somewhere I got the idea that if you put more
voltage across an electrolytic cap than it can handle it can "explode"
or "pop" or "blow-up" or whatever so I'm reluctant to use 16V
electrolytics on what should be 24V or higher.
Anyway, I hope I've done a good job of explaining what I'm trying to
do and what I've tried to do to achieve it. Is there an effective way
to run a 12VDC relay from a supply circuit of 24VAC?
Thanks in advance.
--HC
to do and how I've tried to go about doing it.
I want to be able to control 120VAC devices some distance away from a
controller, say, up to 100 feet or so. I would like to run the 120VAC
to the device through a switch (relay) at the device with no other
switches or control devices in line from the breaker. Then I would
like to have the controller turn that relay on and off to control the
device. The idea is that I could run the thicker, high-voltage lines
directly to the device and then use smaller wire to operate a relay at
the device to turn it on and off instead of running the high-voltage
wire to each switch I would like to use.
Since I have a boat-load of low-cost 12VDC relays that can switch up
to 250VAC and 15 amps and since 24VAC relays seem, in my searching, to
be a lot more expensive and harder to come by (they seem to be, in my
searching, related to HVAC and other "industrial" uses; they're not
like the overly-abundant 12VDC relays we have for our cars and such) I
would like to use a 12VDC relay at the device. However, I'm afraid
that if I attempt to use 12VDC to control these relays over a distance
like I mention of up to 100 feet that the line-loss will be
significant (on 12VDC). I was thinking that using 24VAC would be much
better (it's higher voltage and it's AC, so line-loss should be quite
a bit less than 12VDC).
I tried this: I took the 24VAC and rectified it with a single diode
(half-wave) then buffered it to "ground" with a 2,200 uF cap. I ran
that buffered output through a LM78L12 (with input and output caps as
detailed in the datasheet I was reading) and that output to the 12VDC
relay I wanted to operate. When I apply 24VAC to the circuit the
relay turns on like a mousetrap: SNAP! But, when I remove the 24VAC
the relay turns off like a marshmallow; slow and makes some light
clicking noises. So, the input cap (2,200 uF) is still powering the
relay coil and is letting it down slowly; at least, that's my hack-boy
assessment: I'm not an expert at any of this stuff. I tried whatever
I could including "pull-down" resistors (if I'm using that term
correctly); I put a 10k resistor from the relay input to ground. I'm
afraid the slow turn-off is going to cause arcing and fry the relay
contacts.
I don't have a lot of caps that are rated at 35 volts or higher (which
could handle the 24VAC, rectified) so experimentation was limited in
various cap sizes (like, could a 1,000 uF input cap allow the relay to
turn off quickly?); somewhere I got the idea that if you put more
voltage across an electrolytic cap than it can handle it can "explode"
or "pop" or "blow-up" or whatever so I'm reluctant to use 16V
electrolytics on what should be 24V or higher.
Anyway, I hope I've done a good job of explaining what I'm trying to
do and what I've tried to do to achieve it. Is there an effective way
to run a 12VDC relay from a supply circuit of 24VAC?
Thanks in advance.
--HC