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[http://www.falstad.com/circuit/circuitjs.html?cct=$+1+0.000005+10.20027730826997+50+5+43%0Ag+-448+112+-448+128+0%0Av+-448+112+-448+32+0+1+100+1+0+0+0.5%0Ax+-411+-158+-192+-155+4+18+The%5CsNon-Inverting%5CsAmplifier%0Aa+-304+0+-192+0+8+15+-15+1000000+0.1842741783321202+0.18429444849173673+100000%0Aw+-192+0+-160+0+0%0A207+-160+0+-112+0+0+output%0Aw+-192+0+-192+-64+0%0Aw+-304+-64+-304+-16+0%0Aw+-448+32+-448+16+0%0Ar+-288+-64+-208+-64+0+10000%0Aw+-288+-64+-304+-64+0%0Aw+-208+-64+-192+-64+0%0Ar+-448+-64+-304+-64+0+1000%0Aw+-448+16+-304+16+0%0Ag+-448+-64+-448+-32+0%0Ax+-365+72+-168+75+4+12+Gain%5Cs%5Cq%5Cs1%5Cs%5Cp%5CsR2%5Cs/%5CsR1%5Cs%5Cq%5Cs1%5Cs%5Cp%5Cs10k/1K%5Cs%5Cq%5Cs11%0Ao+1+64+0+4098+5+0.1+0+2+1+3%0Ao+5+64+0+4099+20+0.00009765625+1+2+5+3%0A Non-Inverting Opamp] | [http://www.falstad.com/circuit/circuitjs.html?cct=$+1+0.000005+10.20027730826997+50+5+43%0Ag+-448+112+-448+128+0%0Av+-448+112+-448+32+0+1+100+1+0+0+0.5%0Ax+-411+-158+-192+-155+4+18+The%5CsNon-Inverting%5CsAmplifier%0Aa+-304+0+-192+0+8+15+-15+1000000+0.1842741783321202+0.18429444849173673+100000%0Aw+-192+0+-160+0+0%0A207+-160+0+-112+0+0+output%0Aw+-192+0+-192+-64+0%0Aw+-304+-64+-304+-16+0%0Aw+-448+32+-448+16+0%0Ar+-288+-64+-208+-64+0+10000%0Aw+-288+-64+-304+-64+0%0Aw+-208+-64+-192+-64+0%0Ar+-448+-64+-304+-64+0+1000%0Aw+-448+16+-304+16+0%0Ag+-448+-64+-448+-32+0%0Ax+-365+72+-168+75+4+12+Gain%5Cs%5Cq%5Cs1%5Cs%5Cp%5CsR2%5Cs/%5CsR1%5Cs%5Cq%5Cs1%5Cs%5Cp%5Cs10k/1K%5Cs%5Cq%5Cs11%0Ao+1+64+0+4098+5+0.1+0+2+1+3%0Ao+5+64+0+4099+20+0.00009765625+1+2+5+3%0A Non-Inverting Opamp] | ||
===Sender: Square Wave Generator Circuit=== | ===The concept of a Transformer Microphone=== | ||
To get rid of our big magnets, we build an electro magnet with the help a a sending coil that will build up a magnetic field. When the current though this sending coil changes, it will induce a magnetic field, that we can use to induce a current in the second (receiving) coil. Two coils that share their magnetic flux via the air are called an "air core transformer". Both coils will be printed on paper, but on different sheets, leaving a gap filled with air. If the sheets are close together the second coil induces more current and lesser when it is further away. It is important, that the currents change constantly, because only changing currents can induce magnetic fields. We will use a high frequency changing current (50Khz) on the sending coil, that we will receive on the other coil. When we change the distance between the coils, the actual amplitude (volume) of this high frequency tone increases or decreases. To get the actual volume information of this high frequency tone, we use the half wave rectifier. | |||
====Sender: Square Wave Generator Circuit==== | |||
[http://www.falstad.com/circuit/circuitjs.html?cct=$+1+0.000005+1.8479586061009856+50+5+43%0Ax+-411+-176+-251+-173+4+18+555%5CsTimer%5CsOscillator%0A165+-304+-48+-192+-48+6+14.99990131685941%0Ar+-416+-32+-416+64+0+100000%0Ac+-416+112+-416+176+0+1e-10+5.13158725767721%0Ag+-208+112+-208+144+0%0Aw+-304+48+-304+80+0%0Aw+-416+80+-320+80+0%0Ag+-416+176+-416+208+0%0Aw+-176+16+-112+16+0%0Aw+-112+16+-112+-112+0%0Aw+-112+-112+-416+-112+0%0Aw+-416+-112+-416+-32+0%0AR+-240+-80+-240+-144+0+0+40+15+0+0+0.5%0Aw+-176+-16+-176+-80+0%0Aw+-176+-80+-240+-80+0%0Aw+-320+80+-304+80+0%0Aw+-416+64+-416+80+0%0Aw+-416+80+-416+112+0%0Ao+9+1+0+5640+20+0.000390625+0+2+9+3%0A 555 Timer Oscillator] | [http://www.falstad.com/circuit/circuitjs.html?cct=$+1+0.000005+1.8479586061009856+50+5+43%0Ax+-411+-176+-251+-173+4+18+555%5CsTimer%5CsOscillator%0A165+-304+-48+-192+-48+6+14.99990131685941%0Ar+-416+-32+-416+64+0+100000%0Ac+-416+112+-416+176+0+1e-10+5.13158725767721%0Ag+-208+112+-208+144+0%0Aw+-304+48+-304+80+0%0Aw+-416+80+-320+80+0%0Ag+-416+176+-416+208+0%0Aw+-176+16+-112+16+0%0Aw+-112+16+-112+-112+0%0Aw+-112+-112+-416+-112+0%0Aw+-416+-112+-416+-32+0%0AR+-240+-80+-240+-144+0+0+40+15+0+0+0.5%0Aw+-176+-16+-176+-80+0%0Aw+-176+-80+-240+-80+0%0Aw+-320+80+-304+80+0%0Aw+-416+64+-416+80+0%0Aw+-416+80+-416+112+0%0Ao+9+1+0+5640+20+0.000390625+0+2+9+3%0A 555 Timer Oscillator] | ||
[[File:555_Pinout_800px.png|thumb|left|555 Timer Chip Pinout]] | [[File:555_Pinout_800px.png|thumb|left|555 Timer Chip Pinout]] | ||
===Receiver: Half Wave Rectifier Circuit=== | ====Receiver: Half Wave Rectifier Circuit==== | ||
To get rid of our big magnets, we build an electro magnet with the help a a sending coil that will build up a magnetic field. When the current though this sending coil changes, it will induce a magnetic field, that we can use to induce a current in the second (receiving) coil. Both will be printed on paper, but on different sheets. If the sheets are close together the second coil induces more current and lesser when it is further away. It is important, that the currents change constantly, because only changing currents can induce magnetic fields. We will use a high frequency changing current (50Khz) on the sending coil, that we will receive on the other coil. When we change the distance between the coils, the actual amplitude (volume) of this high frequency tone increases or decreases. To get the actual volume information of this high frequency tone, we use the half wave rectifier. | To get rid of our big magnets, we build an electro magnet with the help a a sending coil that will build up a magnetic field. When the current though this sending coil changes, it will induce a magnetic field, that we can use to induce a current in the second (receiving) coil. Both will be printed on paper, but on different sheets. If the sheets are close together the second coil induces more current and lesser when it is further away. It is important, that the currents change constantly, because only changing currents can induce magnetic fields. We will use a high frequency changing current (50Khz) on the sending coil, that we will receive on the other coil. When we change the distance between the coils, the actual amplitude (volume) of this high frequency tone increases or decreases. To get the actual volume information of this high frequency tone, we use the half wave rectifier. |