Community users are welcome to contribute! These are just some other cool ideas for an hourly clock. A good idea is to build your chime under the floor of your base so that it is heard from inside home. It is made of note blocks, and can be anything from a single note to a complex melody. The chime is the part of the clock that tells you when an hour has passed. (This is what the pistons would be used for.) For information on repeater reboot systems go here. This is an optional addition to your clock. To set this clock to the right delay, set 50 of the repeaters to 4 ticks, and 25 to 2 ticks (or 62 repeaters to 4 ticks and one to 2 ticks.) This creates 25 seconds delay and, with the inverter setup on the chime, will sound the signal once every 50 seconds. (note you can also use a counter instead of repeaters for longer time.)Īs there are 3 repeaters required to time a second, and 50 seconds in a Minecraft hour, there need to be repeaters configured in some way to make 500 ticks delay (1 tick = 0.1 seconds). This method requires more materials and time, but is more rewarding when finished and more fun for showing off to friends or in videos. So the inverter in front of one note block sequence makes it so that every 150 repeater run, on or off, powers a note block sequence. As explained in 4.2, a clock circuit has 2 sequences, running in an endless cycle. But, put an inverter before one of the note block sequences. Then at the end of the circuit, make a wire branch off to one side, and attach 2 note blocks or sequences of note blocks. Then put on a chain of 149 more repeaters. A reset system that loses very little time can be made using pistons.Ī 150-clock is what this writer and builder considers a full circuit, meaning it uses the max amount of repeaters needed. Sleeping in a bed can cause clocks to get off-time. This cycle repeats endlessly unless interrupted by a broken chain or a save and quit. The first is a power up, in which the repeaters all turn on the second is a power down, where the repeaters all turn off. The second inverter is needed for this reason: As the clock only has 75 repeaters instead of 150, the note blocks need to go off only once every 2 cycles. then, before the inverter, have a wire branch off and lead to another inverter, which in turn leads to a note block, or a sequence of note blocks. After the basic circuit is built, add 74 more repeaters to the chain and connect then end of the chain back to the inverter. Now you have some options.Ī 75-clock has half the repeaters of a full circuit, and one more inverter for the signal telling you that an hour has passed. Once that is done set a repeater either in range of the inverter's torch or with a wire running from the inverter to it. To start the circuit, use one of your redstone torches and a block of your choice to set up an inverter. This clock is your standard clock circuit, except it has a delay of 75-150 ticks, instead of 4-5. 2 - 3 blocks of your choice (not glass).Also, this program is best done with inventory editing, due to the amount of resources it would take to make all the components. Note that one in-game hour is equal to 50 seconds of real-time. This clock is just an extension of the standard 4 clock, except that this is a 75- or 150-clock. An hourly clock is a redstone intensive device that makes some indication of when an in-game hour has passed.
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