My Light Diagram

The circuit as shown gives the bandpass operation the transfer function calculated from FBP(s) = where = 1 + s/Qo>0 + s2/w02. The cut-off frequency, 0, and the Q-factor are given by 0 = g/C and Q = gR/2 where g is the transconductance at room temperature. Interchanging the capacitor C with the resistor R at the input of the circuit high-pass operation is obtained. A low-pass filter is obtained by applying two parallel connections ctf R and C as shown in Fig. 2. The low-pass operation may be much improved with the circuit as given in Fig. 3. Audio Filter Circuits Here the gain and Q may be set up separately with respect to the cut-off frequency according to the equations Q = 1/fB = 1 + R2/R!, A = Q2 and 0 = g ffi/C.

This circuit is designed to indicate the power level output of any audio amplifier. It's simple, portable, and displays three power levels can be adjusted to any desired value.   3 Level Audio Power Indicator Circuits Diagram Parts: R1__________100K    1/4W Resistor R2___________50K    1/2W Trimmer Cermet R3__________330K    1/4W Resistor R4____________ 1M2   1 /4W Resistor R5__________470K    1/4W Resistor R6 ,R7 _______500K    1/2W Trimmers Cermet R8____________ 1K5   1 /4W Resistor R9-R11______470R    1/4W Resistors   C1___________ 47pF   63V Ceramic Capacitor C2__________ 100nF   63V Polyester Capacitor C3___________47µ F   25V Electrolytic Capacitor C4____________1µ F   25V Electrolytic Capacitor   D1______BZX79C5V1 5.1V 500mW Zener Diode D2_________1N4148   75V 150mA Diode D3-D5________3mm.   Yellow LEDs   IC1_________ LM339   Quad Voltage Comparator IC...