Minecraft but I bought a DOORBELL CAMERA
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- Опубликовано: 16 сен 2023
- Minecraft but I buy a DOORBELL CAMERA...the hilarious story of what happens when I get a doorbell camera for my house...
Voice Actors: Evbo, @seawattgaming , @GroxMC
Actors: Evbo, Teddy
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Tiktok: @evboshorts
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Use promo code "Evbo"!
Music/FX:
"River of Lo"
Kevin MacLeod (incompetech.com)
Licensed under Creative Commons: By Attribution 4.0
#minecraft 
Игры
![Minecraft but Players Can Upgrade [FULL MOVIE]](http://i.ytimg.com/vi/QRRgLJs4ZPk/mqdefault.jpg)
If you came to my door what would you say...
SUBSCRIBE
#1
I'm the first one to like evbos comment 😎
Here before it gets viral
I would say hi Evbo sup!
"haha, I'm gonna steal your diamonds and all you can do is watch!!!"
I love how the door just instantly repairs itself
I love how you don't know how to place a door
😂
Its not my fault you dont know how to right click
Somehow the door survives every time
The door:💀
The doorbell must repawn the doors.
That door has been through a lot. There’s tons of wisdom in that dark oak
dum ass it breaks
bros dum fr 💀💀💀💀
I love how the house has the same colour scheme as Evbos minecraft skin
It's his minecraft skins headband but bigger
“Color”
@@incog8362There’s a place called Britain
Bro can't stop roasting the wandering trader in every video 💀
Ikr
wandering*
@@NathanFilms15it was edited are you blind
Tbh I feel bad for the elder guardian. Poor guy just came with a drowned to get his sponge back.
It got its sponge back
i love how Evbo was still using the camera even after it blew up 😆
(0:42)
I wish this was actually in the game. Great video Evbo.
Grox's party would have been epic
I love evbo videos his videos are blast
Yes rigth
Me: *Choosing between doing homework or watching Evbo* “I choose Evbo”
1st hour gang👇🏻
Edit 1: omg my phone is blowing up
Me
me
Watching the video in the 1st 6 minutes It uploaded
Claimed and 3rd
Here for my ticket 😊
Evbo's videos are always so unique, great video!
Definitely
i never regretted subscribing
doorbell suspiciously looks like a black candle...
Enderman was literally a troll
He was saying “I got you ” from the time he came
I genuinely felt bad for the zombie 😂
4:18 instructions unclear, I Like Them Bruh
I kept laughing when the creeper came
Camera=candle
The power of imagination
@@Evbo Yep. And lack of better block.
@@Evbo Fact: Colgate the toothpaste actually sells candles as their product!
3:26 Bro roasted the zombie so hard that he didn’t even attack.
It deserved it the zombie broke his door
You’ve gone so far Evbo, and keep going. There’s still so much potential in you
When the wandering villager tries to fight back but always fails no matter what thanks to the power of the camera
Drowneds are politer than I thought
Jokes aside, the camera thing was actually cool
Ur best i enjoy ur videos so much ur so underratex😢 u make such good videos
I swear I rewatch every video of his until he posts another video
Imagine if this was a real thing in minecraft without mods, we could do so many things with it.
EVBO, I TOLD YOU NOT TO ORDER THOSE ON THE INTERNET!!!!!
You didn’t
@@michaelcoolkid8741 👎
I love how he could still see through the doorbell after it was blown up.
Ring Minecraft → Creeper Explosion
Who loves evbo❤❤❤
4:17 all right, I will foil his entire plan by doing that
I didn't know that the Minecraft doorbell camera existed
Lesson Learned: DONT BUY A DOORBELL CAMERA
WHY?! its saves him multiple times
First thing in the morning, wake up second thing in the morning, the doorbell ring
The ending lmao
What's good ammo
Another funny video from evbo good job.
Lol Evbo this got me Cracking up😂😂🤣🤣 Awesome video Evbo,
Evbo is the best RUclipsr
Watching these videos makes me want minecraft to add roleplay
Great video!
I guess the enderman doesn’t mind you staring at him
Yo Evbo I really liked your series of the aether, abyss and other and I really want you to make more. I have been watching your videos since this channel was little.
Make a part two on the trading villager VS Evbo
The door is like the camera man never dies
Ring in Minecraft
Vine boom counter: INFINITY
This is pretty funny
Lol man ur videos are the BEST
Man i love your videos ✨❤️❤️
dude this is my house-
*grox slowly pulls out a gun*
its funny how grox hates villagers and then has a party with them
GROX THE BIGGEST CHAD EVER
when evbo runs out of ideas so goes to amazon:
Bro always delivers
Let’s gooooo Grox’s got featured
Bro gave his doorbell protection five 😂
can we get a tutorial on the house pls it’s amazing
I’m surprised no one tried to steal your diamonds lol
Wow i am so suprised his plan didn't work😂lets see what his mastermind plan was this tim-WHAT IN THE WORL-WHAT WAS HE GONNA DO TO ME?!???!!?DUDE THIS GUY WAS READY TO GO TO WAR WITH ME got me dying💀💀💀💀💀💀
4:26
“Dude this is my house💀.” *vine boom* first thing I’ve laughed at today😂
Grox really trespassed and said you weren’t invited 🗿
1:59 GROX WTF IS HE DOING HERE????
I love how mobs have a bit of intellgance
Bro add more but it is so good
The amount of vine boom sfx is crazy ahh
Honestly at that point, I’d just keep a sharpness 5 netherite sword on me at all times
Now install a turret
(place a dispenser and put arrows inside then connect it with redstone and a button so whenever you want to shoot someone just press the button and it fires)
I wonder if minecraft plan on making a doorbell in minscraft. Still😂, i must admit this is pretty funny lol. Keep up the good work evbo😊❤
Nice vid🎉
*Evbo is really good at story telling*
LOL 1:46 bro ain’t getting outsmarted bro don’t even realize he can see him
Make a part 2 this is awsome
Your not alone I see that you need 2 players to sleep😊😊
Every 15 seconds someone rings the doorbell
3:41 bro got roasted to oblivion
I love how the zombie got sad because evbo hurt his feelings when he literally broke his door down
Pov evbo post: speeding to click on video
❌
he hasnt posted in so long
0:01 I JUST FOUND THIS NEW DOORBELL THING: doorbells are In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices.
Definitely didn’t take this off wikipedia wanna see: In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices. In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices.
In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices. In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices. In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices. In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices.
In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices. In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices. In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices.
In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices. In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices. In most wired systems, a button on the outside next to the door, located around the height of the doorknob, activates a signaling device (usually a chime, bell, or buzzer) inside the building. Pressing the doorbell button, a single-pole, single-throw (SPST) pushbutton switch momentarily closes the doorbell circuit. One terminal of this button is wired to a terminal on a transformer. A doorbell transformer steps down the 120 or 240-volt AC electrical power to a lower voltage, typically 6 to 24 volts. The transformer's other terminal connects to one of three terminals on the signaling device. Another terminal is connected to a wire that travels to the other terminal on the button. Some signaling devices have a third terminal, which produces a different sound. If there is another doorbell button (typically near a back door), it is connected between the transformer and the third terminal. The transformer primary winding, being energized continuously, does consume a small amount (about 1 to 2 watts) of standby power constantly; systems with lighted pushbutton switches may consume a similar amount of power per switch.[3][4] The tradeoff is that the wiring to the button carries only safe, low-voltage power isolated from earth ground.
A common signaling device is a chime unit consisting of two flat metal bar resonators, which are struck by a plunger operated by a solenoid. The flat bars are tuned to two pleasing notes. When the doorbell button is pressed, the solenoid's plunger strikes one bar, and when the button is released, a spring on the plunger pushes the plunger back, causing it to strike the other bar, creating a two-tone sound ("ding-dong"). If a second doorbell button is used, it might be wired to a second solenoid, which strikes only one of the bars, to create a single-tone sound ("ding"). Alternatively, the second button might feed the single solenoid via an oscillating switch (often a mercury tilt switch), to give a "warbling" sound ("ding-dong-ding-dong-ding-dong"). The Edwards Sylvan C-26 had both additional features, suiting three doors.[5] Some chimes have tubular bells instead of bars.
More elaborate doorbell chimes play a short musical tune, such as Westminster Quarters.
Doorbells for hearing-impaired people use visual signaling devices - typically light bulbs - rather than audible signaling devices.
@@RobloxOverloadGames you kinda dont need to spam the reply section...
camera man never dies along with the camera
Yup EVBO
:dude this is my house got me laughing
Grox is a menace bro 😭
the end lol
Great video
Make a part 2
That Was cool
ring doorbell be like:
“Oh my god, I seriously got ding-dong-ditched by Enderman?”
💀💀
Be honest who is a few hours late😂
Lol
I’m 3 months late
Evbo: ArE yOu DuMb ThErE wAs A DoOr BeLl CaMeRA
Me: BURN
This is wandering trader will never give up
and never let you down (someone finish)
@@OwlMasterProductionsno
You are the best❤
Anyone gonna talk about the fact when he slept it showed 1/2 players sleeping
Cool cool fun fun
The thumbnail got me laughing
Ring doorbell but Minecraft
cool stuff