LED Metronome Circuit

Schematic

Parts

Part Total Qty. Description Substitutions R1, R4, R6 3 10K 1/4W Resistor R2 1 1.5 Meg Linear Taper Pot R3 1 120K 1/4W Resistor R5 1 220 Ohm 1/4W Resistor C1, C3 1 0.1uF Ceramic Disc Capacitor C2, C4, C5 3 0.01uF Ceramic Disc Capacitor D1, D2, D13, D14 4 1N914 Signal Diode D3-D12 10 Jumbo Red LED Q1, Q2 2 2N3904 NPN Transistor U1 1 555 Timer IC U2 1 4029 CMOS Up/Down Counter IC U3, U4 2 4051 CMOS 8 Of 1 Switch IC U5 1 4011 CMOS Quad 2 Input NAND Gate IC SPKR 1 Small 8 Ohm Speaker S1 1 SPST Switch MISC 1 Board, Wire, Case, Sockets for ICs, Battery holder, Knob for R2

Notes

1. The circuit will reliably run from 6 to 12V. A typical 9V battery will be drained in several days by the LEDs with constant use. A 6V pack made from AA, C or D cells will last much longer.
2. The circuit will need some calibration before use. Calibration is fairly easy and accomplished by using a stopwatch to count the number of beats. You'll want to calibrate for 60 BPM (one per second), 120 BPM (two per second) and 180 BPM (3 per second). Just use your stopwatch to find the points of R2 that correspond to those beat rates and the mark the dial appropriately. Next find 90, 150 and 210 BPM. By that time you should then be able to evenly mark the remaining positions on the scale.
3. Blue LEDs need about 5V to light, so if you intend to use blue you will need to remove R5.
4. For an ideal metronome effect, the LEDs should be arranged in an arc.