Why does a green stoplight interfere with FM radio reception (more than yellow)?
While listening to an FM radio station (frequencies between 88 and 108 MHz) in my car, I've noticed that as I pull up to a red light, there's an increase in the amount of noise. It's very noticeable when I'm listening to a station that's somewhat far away, so I'm at the edge of the region in which reasonably noise-free reception is possible.
As I'm approaching the red light, and stopping, the lights in the perpendicular direction are green. When those green lights turn yellow, the noise suddenly drops. Then when those lights have turned red and the lights in my direction turn green, the noise comes back. Then I go through and as I get farther from the green light, the noise fades.
It's not a single weird intersection; I've heard it in multiple locations. The noise increase and decrease is perfectly synchronized with the change of light color. I believed it was a coincidence for a while, but I've heard it too many times now. It's a real effect. Being near a green light causes radio noise. Why?
everyday-life interference radio
New contributor
add a comment |
While listening to an FM radio station (frequencies between 88 and 108 MHz) in my car, I've noticed that as I pull up to a red light, there's an increase in the amount of noise. It's very noticeable when I'm listening to a station that's somewhat far away, so I'm at the edge of the region in which reasonably noise-free reception is possible.
As I'm approaching the red light, and stopping, the lights in the perpendicular direction are green. When those green lights turn yellow, the noise suddenly drops. Then when those lights have turned red and the lights in my direction turn green, the noise comes back. Then I go through and as I get farther from the green light, the noise fades.
It's not a single weird intersection; I've heard it in multiple locations. The noise increase and decrease is perfectly synchronized with the change of light color. I believed it was a coincidence for a while, but I've heard it too many times now. It's a real effect. Being near a green light causes radio noise. Why?
everyday-life interference radio
New contributor
Just to be clear: lights of a certain color go out and lights of a different color come on, right?
– DJohnM
1 hour ago
add a comment |
While listening to an FM radio station (frequencies between 88 and 108 MHz) in my car, I've noticed that as I pull up to a red light, there's an increase in the amount of noise. It's very noticeable when I'm listening to a station that's somewhat far away, so I'm at the edge of the region in which reasonably noise-free reception is possible.
As I'm approaching the red light, and stopping, the lights in the perpendicular direction are green. When those green lights turn yellow, the noise suddenly drops. Then when those lights have turned red and the lights in my direction turn green, the noise comes back. Then I go through and as I get farther from the green light, the noise fades.
It's not a single weird intersection; I've heard it in multiple locations. The noise increase and decrease is perfectly synchronized with the change of light color. I believed it was a coincidence for a while, but I've heard it too many times now. It's a real effect. Being near a green light causes radio noise. Why?
everyday-life interference radio
New contributor
While listening to an FM radio station (frequencies between 88 and 108 MHz) in my car, I've noticed that as I pull up to a red light, there's an increase in the amount of noise. It's very noticeable when I'm listening to a station that's somewhat far away, so I'm at the edge of the region in which reasonably noise-free reception is possible.
As I'm approaching the red light, and stopping, the lights in the perpendicular direction are green. When those green lights turn yellow, the noise suddenly drops. Then when those lights have turned red and the lights in my direction turn green, the noise comes back. Then I go through and as I get farther from the green light, the noise fades.
It's not a single weird intersection; I've heard it in multiple locations. The noise increase and decrease is perfectly synchronized with the change of light color. I believed it was a coincidence for a while, but I've heard it too many times now. It's a real effect. Being near a green light causes radio noise. Why?
everyday-life interference radio
everyday-life interference radio
New contributor
New contributor
New contributor
asked 3 hours ago
Wumpus Q. Wumbley
1333
1333
New contributor
New contributor
Just to be clear: lights of a certain color go out and lights of a different color come on, right?
– DJohnM
1 hour ago
add a comment |
Just to be clear: lights of a certain color go out and lights of a different color come on, right?
– DJohnM
1 hour ago
Just to be clear: lights of a certain color go out and lights of a different color come on, right?
– DJohnM
1 hour ago
Just to be clear: lights of a certain color go out and lights of a different color come on, right?
– DJohnM
1 hour ago
add a comment |
1 Answer
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At those intersections there are sensors buried in the asphalt which detect the presence of cars waiting for the light to change. The sensor is a large circular coil of wire which is fed a high-frequency AC signal at which the coil is resonant. When a car is situated above the coil, the iron in its frame and engine block detune the resonant circuit, which is detected by the control system for the lights. The control system then changes the lights to allow the stopped car to proceed.
A car radio can pick up the sensor signal when close to the intersection, and have its ability to receive the intended signal interfered with. Sometimes it's possible to actually hear the signal shift frequency as you roll to a stop over the coil.
A 4-way intersection will have from four to eight such sensors to determine whether or not cars are waiting for a light change, or as many as 16 if the intersecting roads have left-turn lanes which also must be regulated. When the light for a given path is red, the sensor on that path is energized and carries the signal so it can tell when a car has arrived and is waiting for a green. When that car gets a green, the sensor is switched to standby and the sensor for the opposing traffic (where the light is now red) is switched on to look for cars coming from that direction.
This means the strength of the sensor signals received by your car radio will shift about in concert with the light changes as the street sensors are turned on and off.
Motorcycles with aluminum engine blocks and lightweight frames are often unable to trip the sensors. An electromagnet coil and drive circuit can be installed on such a bike, with a pushbutton on the handlebars to blip the coil. The street sensor then responds as if a car were there and cycles the lights for the motorcyclist.
I never knew the sensors in the road had an on/off cycle. It makes perfect sense now. The yellow light gives the least noise because during the yellow light, all the sensors in the intersection are turned off since the yellow light has a fixed duration. And when I get the green and go through, I get close enough to the sensors in the perpendicular street to get a little bit of noise (shouldn't be as much as when I'm stopped at the red light - I'll listen for that next time)
– Wumpus Q. Wumbley
1 hour ago
add a comment |
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1 Answer
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At those intersections there are sensors buried in the asphalt which detect the presence of cars waiting for the light to change. The sensor is a large circular coil of wire which is fed a high-frequency AC signal at which the coil is resonant. When a car is situated above the coil, the iron in its frame and engine block detune the resonant circuit, which is detected by the control system for the lights. The control system then changes the lights to allow the stopped car to proceed.
A car radio can pick up the sensor signal when close to the intersection, and have its ability to receive the intended signal interfered with. Sometimes it's possible to actually hear the signal shift frequency as you roll to a stop over the coil.
A 4-way intersection will have from four to eight such sensors to determine whether or not cars are waiting for a light change, or as many as 16 if the intersecting roads have left-turn lanes which also must be regulated. When the light for a given path is red, the sensor on that path is energized and carries the signal so it can tell when a car has arrived and is waiting for a green. When that car gets a green, the sensor is switched to standby and the sensor for the opposing traffic (where the light is now red) is switched on to look for cars coming from that direction.
This means the strength of the sensor signals received by your car radio will shift about in concert with the light changes as the street sensors are turned on and off.
Motorcycles with aluminum engine blocks and lightweight frames are often unable to trip the sensors. An electromagnet coil and drive circuit can be installed on such a bike, with a pushbutton on the handlebars to blip the coil. The street sensor then responds as if a car were there and cycles the lights for the motorcyclist.
I never knew the sensors in the road had an on/off cycle. It makes perfect sense now. The yellow light gives the least noise because during the yellow light, all the sensors in the intersection are turned off since the yellow light has a fixed duration. And when I get the green and go through, I get close enough to the sensors in the perpendicular street to get a little bit of noise (shouldn't be as much as when I'm stopped at the red light - I'll listen for that next time)
– Wumpus Q. Wumbley
1 hour ago
add a comment |
At those intersections there are sensors buried in the asphalt which detect the presence of cars waiting for the light to change. The sensor is a large circular coil of wire which is fed a high-frequency AC signal at which the coil is resonant. When a car is situated above the coil, the iron in its frame and engine block detune the resonant circuit, which is detected by the control system for the lights. The control system then changes the lights to allow the stopped car to proceed.
A car radio can pick up the sensor signal when close to the intersection, and have its ability to receive the intended signal interfered with. Sometimes it's possible to actually hear the signal shift frequency as you roll to a stop over the coil.
A 4-way intersection will have from four to eight such sensors to determine whether or not cars are waiting for a light change, or as many as 16 if the intersecting roads have left-turn lanes which also must be regulated. When the light for a given path is red, the sensor on that path is energized and carries the signal so it can tell when a car has arrived and is waiting for a green. When that car gets a green, the sensor is switched to standby and the sensor for the opposing traffic (where the light is now red) is switched on to look for cars coming from that direction.
This means the strength of the sensor signals received by your car radio will shift about in concert with the light changes as the street sensors are turned on and off.
Motorcycles with aluminum engine blocks and lightweight frames are often unable to trip the sensors. An electromagnet coil and drive circuit can be installed on such a bike, with a pushbutton on the handlebars to blip the coil. The street sensor then responds as if a car were there and cycles the lights for the motorcyclist.
I never knew the sensors in the road had an on/off cycle. It makes perfect sense now. The yellow light gives the least noise because during the yellow light, all the sensors in the intersection are turned off since the yellow light has a fixed duration. And when I get the green and go through, I get close enough to the sensors in the perpendicular street to get a little bit of noise (shouldn't be as much as when I'm stopped at the red light - I'll listen for that next time)
– Wumpus Q. Wumbley
1 hour ago
add a comment |
At those intersections there are sensors buried in the asphalt which detect the presence of cars waiting for the light to change. The sensor is a large circular coil of wire which is fed a high-frequency AC signal at which the coil is resonant. When a car is situated above the coil, the iron in its frame and engine block detune the resonant circuit, which is detected by the control system for the lights. The control system then changes the lights to allow the stopped car to proceed.
A car radio can pick up the sensor signal when close to the intersection, and have its ability to receive the intended signal interfered with. Sometimes it's possible to actually hear the signal shift frequency as you roll to a stop over the coil.
A 4-way intersection will have from four to eight such sensors to determine whether or not cars are waiting for a light change, or as many as 16 if the intersecting roads have left-turn lanes which also must be regulated. When the light for a given path is red, the sensor on that path is energized and carries the signal so it can tell when a car has arrived and is waiting for a green. When that car gets a green, the sensor is switched to standby and the sensor for the opposing traffic (where the light is now red) is switched on to look for cars coming from that direction.
This means the strength of the sensor signals received by your car radio will shift about in concert with the light changes as the street sensors are turned on and off.
Motorcycles with aluminum engine blocks and lightweight frames are often unable to trip the sensors. An electromagnet coil and drive circuit can be installed on such a bike, with a pushbutton on the handlebars to blip the coil. The street sensor then responds as if a car were there and cycles the lights for the motorcyclist.
At those intersections there are sensors buried in the asphalt which detect the presence of cars waiting for the light to change. The sensor is a large circular coil of wire which is fed a high-frequency AC signal at which the coil is resonant. When a car is situated above the coil, the iron in its frame and engine block detune the resonant circuit, which is detected by the control system for the lights. The control system then changes the lights to allow the stopped car to proceed.
A car radio can pick up the sensor signal when close to the intersection, and have its ability to receive the intended signal interfered with. Sometimes it's possible to actually hear the signal shift frequency as you roll to a stop over the coil.
A 4-way intersection will have from four to eight such sensors to determine whether or not cars are waiting for a light change, or as many as 16 if the intersecting roads have left-turn lanes which also must be regulated. When the light for a given path is red, the sensor on that path is energized and carries the signal so it can tell when a car has arrived and is waiting for a green. When that car gets a green, the sensor is switched to standby and the sensor for the opposing traffic (where the light is now red) is switched on to look for cars coming from that direction.
This means the strength of the sensor signals received by your car radio will shift about in concert with the light changes as the street sensors are turned on and off.
Motorcycles with aluminum engine blocks and lightweight frames are often unable to trip the sensors. An electromagnet coil and drive circuit can be installed on such a bike, with a pushbutton on the handlebars to blip the coil. The street sensor then responds as if a car were there and cycles the lights for the motorcyclist.
edited 1 hour ago
answered 1 hour ago
niels nielsen
16.2k42653
16.2k42653
I never knew the sensors in the road had an on/off cycle. It makes perfect sense now. The yellow light gives the least noise because during the yellow light, all the sensors in the intersection are turned off since the yellow light has a fixed duration. And when I get the green and go through, I get close enough to the sensors in the perpendicular street to get a little bit of noise (shouldn't be as much as when I'm stopped at the red light - I'll listen for that next time)
– Wumpus Q. Wumbley
1 hour ago
add a comment |
I never knew the sensors in the road had an on/off cycle. It makes perfect sense now. The yellow light gives the least noise because during the yellow light, all the sensors in the intersection are turned off since the yellow light has a fixed duration. And when I get the green and go through, I get close enough to the sensors in the perpendicular street to get a little bit of noise (shouldn't be as much as when I'm stopped at the red light - I'll listen for that next time)
– Wumpus Q. Wumbley
1 hour ago
I never knew the sensors in the road had an on/off cycle. It makes perfect sense now. The yellow light gives the least noise because during the yellow light, all the sensors in the intersection are turned off since the yellow light has a fixed duration. And when I get the green and go through, I get close enough to the sensors in the perpendicular street to get a little bit of noise (shouldn't be as much as when I'm stopped at the red light - I'll listen for that next time)
– Wumpus Q. Wumbley
1 hour ago
I never knew the sensors in the road had an on/off cycle. It makes perfect sense now. The yellow light gives the least noise because during the yellow light, all the sensors in the intersection are turned off since the yellow light has a fixed duration. And when I get the green and go through, I get close enough to the sensors in the perpendicular street to get a little bit of noise (shouldn't be as much as when I'm stopped at the red light - I'll listen for that next time)
– Wumpus Q. Wumbley
1 hour ago
add a comment |
Wumpus Q. Wumbley is a new contributor. Be nice, and check out our Code of Conduct.
Wumpus Q. Wumbley is a new contributor. Be nice, and check out our Code of Conduct.
Wumpus Q. Wumbley is a new contributor. Be nice, and check out our Code of Conduct.
Wumpus Q. Wumbley is a new contributor. Be nice, and check out our Code of Conduct.
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Just to be clear: lights of a certain color go out and lights of a different color come on, right?
– DJohnM
1 hour ago