My Light Diagram

This is the simple Signal Injector Circuit Diagram. This circuit is wealthy in harmonics and is good for testing amplifier circuits. to seek out a fault in an amplifier,  Connect the planet clip to the 0v rail and move through each stage, beginning at the speaker. a rise in volume ought to be heard at every preceding stage. This Injector will bear the IF stages of radios and FM sound sections in TV's. to Index Signal Injector Circuit Diagram  

IC MSP 34X0G is a single chip that can process voice signals to all TV standard International, and very good for the digital NICAM stereo. In the IC has several advantages, namely: Communication using the I2C bus control Selection of a voice signal automatically (mono / stereo / bilingual) Loudspeaker / headphones are equipped with volume control, bass, treble, loudness and balance Loudspeaker outputs are equipped with MDB (Micronas Dynamic Bass) AVC: Automatic Volume Correction Equipped with Sub woofer output Have facilities 5-Band graphic equalizer for loudspeaker Equipped spatial effect for loudspeaker Equipped with a matrix of voters in / out Has a SCART 4 stereo inputs, one mono input and 2 stereo SCART output Block diagram of circuit in the IC MSP34X0G

Dual-purpose test-instrument, Very simple circuitry, 1.5V Battery-operated This simple circuit generates narrow pulses at about 700-800Hz frequency. The pulses, containing harmonics up to the MHz region, can be injected into audio or radio-frequency stages of amplifiers, receivers and the like for testing purposes. A high-pitched tone can be heard from the speaker of the device under test when all is working properly. The clip must be connected to the ground of the device under test, touching with the probe the different stages of the circuit, starting from the last stage and going up towards the first. When the tone is no longer heard, the defective stage has been found. Connecting an earclip or headphone to J1, the circuit will automatically change into a two-stage amplifier and any audio signal coming from the device under test and picked-up by the probe will be heard through the headphones. The testing of a circuit should be made in the reverse manner, i.e. starting from the first ...

General Description: The TDA7500 is an integrated circuit implementing a fully digital, integrated and advanced solution to perform the signal processing in front of the power amplifier and behind the AM/FM tuner or any other audio sources. The chip integrates two 43 MIPs DSP cores: one for stereo decoding noise blanking, weak signal processing and multipach detection and one for sound processing. Block Diagram:  

This is another wonderful circuit based on IC 555, although this simple signal generator is capable of generating square wave signals, sine and sawtooth, and an adjustment of the output level. This signal generator uses besides IC 555 transistor BC 547B and two and a half dozen basic components such as resistors and capacitors. Signal Generator with 555 Circuit Diagram

Logic gate circuits are designed to input and output only two types of signals: “high” (1) and “low” (0), as represented by a variable voltage: full power supply voltage for a “high” state and zero voltage for a “low” state. In a perfect world, all logic circuit signals would exist at these extreme voltage limits, and never deviate from them (i.e., less than full voltage for a “high,” or more than zero voltage for a “low”). However, in reality, logic signal voltage levels rarely attain these perfect limits due to stray voltage drops in the transistor circuitry, and so we must understand the signal level limitations of gate circuits as they try to interpret signal voltages lying somewhere between full supply voltage and zero. TTL gates operate on a nominal power supply voltage of 5 volts, +/- 0.25 volts. Ideally, a TTL “high” signal would be 5.00 volts exactly, and a TTL “low” signal 0.00 volts exactly. However, real TTL gate circuits cannot output such perfect voltage levels, and are...

This is another wonderful circuit based on IC 555, although this simple signal generator is capable of generating square wave signals, sine and sawtooth, and an adjustment of the output level. This signal generator uses besides IC 555 transistor BC 547B and two and a half dozen basic components such as resistors and capacitors. Signal Generator with 555 Circuit Diagram

Download PDF version of this page  A magnet under the train operates reed switches positioned on the track. The first reed switch changes the signal to red as the train passes, then further along the track a second reed switch changes the signal back to green ready for the next train. The isolated section of track just in front of the signal is switched off by the relay when the signal is red so a train will stop automatically at the red signal. This project uses a 555 bistable circuit. Parts Required resistors: 1k ×2, 33k ×2 capacitors: 220µF 1N4001 diode 1N4148 diode red LED (3mm best) green LED (3mm best) 555 timer IC 8-pin DIL socket for IC push-switch ×2 reed switch ×2 relay SPCO 12V coil miniature magnet - each locomotive needs one stripboard 11 rows × 24 holes Stripboard layout Track connections Connect the reed switches to push-switches A and B (see the stripboard layout). The switches can be held in place between the rails with a small piece of blu tac. Conn...