Sunday, August 31, 2014

Lamp flasher circuit


This simple schema that can be used to flash incandescent lamps up to 10W power rating.The schema is ideal for making flashing beacons on automobiles and other applications like that.The schema is nothing but an astable multi vibrator based on Q1&Q2 ( BC557&BD139).The capacitor C1 is the main timing element which determines the flashing rate of the schema.The switch S1 can be used as an ON/OFF switch.





Notes.

* Power the schema from a 12 V battery or 12V DC power supply.
* Assemble the schema on a goood quality PCB or common board.
* A 12 v , 10W incandescent lamp can be used as the load.
* All capacitors must be rated 15V.

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Digital Dice Circuit diagram


This is digital dice schema diagram.Here I have used IC CD4060B.After pressing.S2 to to play you will be able to listen a sound too.I think this will be a wonderful schema for you all.now you can play your games with your digital dice.




Note

# This schema operates with 9V power supply

# Build this schema on a PCB.
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TDA7566 4 x 40 W multifunction quad power amplifier

Features

  • DMOS power output
  • High output power capability 4 x 25 W/4  @ 
  • 14.4 V, 1 kHz, 10 % THD, 4 x 40 W max. power
  • Max. output power 4 x 60 W/2 
  • Full I2C bus driving:
  • Standby
  • Independent front/rear soft play/mute
  • Selectable gain 26 dB - 12 dB
  • I2C bus digital diagnostics
  • Full fault protection
  • DC offset detection
  • Four independent short circuit protection
  • Clipping detector pin with selectable threshold (1%, 10%)
  • ESD protection

Description

The TDA7566 is a new BCD technology quad bridge type of car radio amplifier in Flexiwatt25  package specially intended for car radio applications. Thanks to the DMOS output stage the TDA7566 has a very low distortion allowing a clear powerful sound. This device is equipped with a full diagnostics array that communicates the status of each speaker through the I2C bus.The possibility to control the configuration and behavior of the device by means of the I2C bus makes TDA7566 a very flexible product.

Circuit Diagram:
TDA7566 - 4 x 40 W multifunction quad power amplifier

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Simple DC Converter DC 12V to 24V 2A Wiring diagram Schematic

DC 12V to 24V 2A Circuit diagram energy converter 12V to 24V 2A, which uses the integrated schema CD4093 and CD40106, and MOSFETs BUZ11 output. This converter can be used with some modifications as the source for Notebook charger, connecting equipment with voltage 24volts, etc.. For full operation of DC / DC converter input 12Volts must be a current of 4 amperes or more.

 DC Converter  DC 12V to 24V 2A Circuit diagram


Simple
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Phonon Preamplifier Circuits Wiring diagram

In recent years, following CDs introduction, vinyl recordings are almost disappeared. Nevertheless, a phonon preamplifier is still useful for listening old vinyl discs from a well preserved collection. This simple but efficient schema devised for cheap moving-magnet cartridges, can be used in connection with the audio power amplifiers shown in these webpages, featuring low noise, good RIAA frequency response curve, low distortion and good high frequency transients behavior due to passive equalization in the 1 to 20KHz range. Transistors and associated components provide ±18V supply to the op-amp, improving headroom and maximum output voltage.

Phono Preamplifier Circuits Diagram
Phono
 Notes:
  • R2, R3, R4, R7, R8, C4 & C5 should be low tolerance types.
  • Schematic shows left channel and power supply.
  • For stereo operation R1, R2, R3, R4, R7, R8; J1; C1, C4 & C5 must be doubled.
  • Numbers in parentheses show IC1 right channel pin connections.

Technical data:

Sensitivity @ 1KHz: 2.5mV RMS input for 200mV RMS output
Max. input voltage @ 1KHz:120mV RMS
Max. input voltage @ 10KHz:141mV RMS
Max. input voltage @ 20KHz:127mV RMS
Frequency response @ 1V RMS output: 100Hz to 20KHz ±0.5dB; -0.75dB @ 30Hz
Total harmonic distortion @ 1KHz and 6V RMS output: 0.006%
Total harmonic distortion @10KHz and 1V RMS output: 0.02%

Parts:

R1_________47K1/4W Resistor
R2________100R1/4W Resistor
R3__________6K81/4W Resistor
R4_________68K1/4W Resistor
R5,R6_______2K71/4W Resistor
R7__________2K21/4W Resistor
R8_________39K1/4W Resistor
 
C1-C3_____100µF25V Electrolytic Capacitors
C4,C5______47nF63V Polyester Capacitors 5% tolerance
 
D1,D2__BZX79C1818V 500mW Zener Diodes
 
IC1_______LM833Low noise Dual Op-amp
 
Q1________BC33745V 800mA NPN Transistor
Q2________BC32745V 800mA PNP Transistor
J1__________RCAaudio input socket


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Build a Diode Cmos Stabilizer Wiring diagram Schematic

The simple diode network can stabilize the voltage supplied to CMOS schemary from a battery. D1 and D2 must have a combined forward-voltage drop of about 1.5 V. And D3 is an LED with a forward-voltage drop of about 1.7 V. The table shows the network`s output voltage as the battery`s voltage declines.

 Diode Cmos Stabilizer Circuit Diagram

Build

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Amplifier Circuit with IC AN7133

 *note:this is stereo amplifier
 
This circuit is stereo power amplifier . Voltage input or Supply voltage with dual voltage minimum 6 volt , and maximum 18 volt . You cant  use triple voltage in this amplifier and must DC voltage not AC voltage . Maximum output power 2 X 15 watt  with minimum impedance 4 ohm . You can use this amplifier on car commonly called car amplifier, on Personal Computer (PC) , on small room , etc.

See this schematic amplifier circuit with IC AN7133 below :



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Saturday, August 30, 2014

Fridge Door Alarm Circuit



This schema, enclosed into a small box, is placed in the fridge near the lamp (if any) or the opening. With the door closed the interior of the fridge is in the dark, the photo resistor R2 presents a high resistance (up to 200K) thus clamping IC1 by holding pin 12 high. When a beam of light enters from the opening, or the fridge lamp illuminates, the photo resistor lowers its resistance (less 2K), pin 12 goes low, IC1 starts counting and, after a preset delay (20 seconds in this case) the piezo sounder beeps for 20 sec. then stops for the same lapse of time and the cycle repeats until the fridge door closes. D2 connected to pin 6 of IC1 allows the piezo sounder beeping 3 times per second.










Parts:

R1 = 10K
R2 = LDR
R3 = 100K
R4 = 100K
D1 = 1N4148

D2 = 1N4148
Q1 = BC337
C1 = 10nF-63V
C2 = 100uF-25V
B1 = 3V Battery

IC1 = 4060 Ripple Counter & Oscillator
IC
BZ1 = Piezo Buzzer Incorporating 3KHZ Oscillator
SW1 = Miniature SPST Slider Switch


Notes:

* Connecting D1 to pin 2 of IC1 will halve the delay time.
* Delay time can be varied changing C1 and/or R3 values. * Any photo resistor type should work. * Quiescent current drawing is negligible, so SW1 can be omitted. * Place the schema near the lamp and take it away when defrosting, to avoid schema damage due to excessive moisture. * Do not put this device in the freezer.

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iPod Battery Charger Wiring diagram Schematic


iPod Battery Charger Circuit Diagram

This is the iPod Battery Charger Part list:

P1 = 1K
R1 = 1R-0.5W
R2 = 1R-0.5W
R3 = 1R-0.5W
R4 = 1K
R5 = 560R
R6 = 10R-0.5W
R7 = 470R
C1 = 470uF-25V
C2 = 100nF-63V
C3 = 470pF
C4 = 100uF-25V
D1 = 1N5404
D2 = TVS1P6KE27A
D3 = 1N5819
D4 = 5.1V-1W Zener Diode
D5 = 5mm. Red LED
L1 = 220uH
S1 = USB A Type Socket
SW1 = On/Off Switch
IC1 = MC34063A


Using the USB port on your computer to charge your player’s batteries is not always practical. What if you do not have a computer available at the time or if you do not want to power up a computer just for charging? Or what if you are traveling? Chargers for Mobile Phones iPods and MP3 players are available but they are expensive and you need separate models for charging at home and in the car.
This charger can be used virtually anywhere. While we call the unit a charger, it really is nothing more than a 5V supply that has a USB outlet. The actual charging schema is incorporated within the iPOD or MP3 player itself, which only requires a 5V supply. As well as charging, this supply can run USB-powered accessories such as reading lights, fans and chargers, particularly for mobile phones.
The supply is housed in a small plastic case with a DC input socket at one end and a USB type "A" outlet at the other end, for connecting to Mobile Phone, an iPod or MP3 player when charging. A LED shows when power is available at the USB socket. Maximum current output is 660mA, more than adequate to run any USB-powered accessory.
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Bipolar Power supply for Battery Instruments Circuits Wiring diagram

Bipolar Power supply for Battery Instruments Circuits Diagram. To generate regulated ± 5-V supplies from a pair of dry batteries, the schema of Fig. 1 is commonly used. In order to give protection from inadvertent reverse connection of a battery, a diode in series with each battery would produce an unacceptable voltage drop. The more effective approach is to fit diodes Dl and D2 as shown in Fig. 2, in parallel with each battery. 

When the supply is switched off, there is the risk of a reverse bias being applied across the regulators, if there is significant inductance or capacitance in the load schema.Diodes across the regulators prevent damage. When the power supply is switched on, the two switches do not act in unison. There is a probability that one or the other regulators will be latched hard off by the other. To prevent this, D3 and D4 are Zener diodes so that ± 5-V rails are pulled up by the batteries until the regulators establish the correct levels.

Bipolar Power supply for Battery Instruments Circuits Diagram


Bipolar

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Build 20W MOSFET Power Amplifier Circuit with IFR9520 IFR520

As we are like to show you about audio and sound schema ,I found the schema which is good one for power amplifier with one MOSFET.

The output power of an operational amplifier is often increased by a complementary emiter follower.

Build


20W power amp MOSFET

It can also be done with a MOSFET,but it is not a good idea to connect such a device as a complementary souce follower because the maximum output voltage of the opamp is then reduced appreciably by the gate-source control voltage of the MOSFET ,which can be a couple of volts.

Another approach is to connect two MOSFETs as a complementary drain follower.The (alternating) output current provided by the MOSFETs is limited by the level of the supply voltages and the saturateion voltages of T3 and T4 Resistor R8,together with R9,provides feedback for both the opamp and MOSFETs .

The open-loop amplification of the opampis,therefore,increased by (1+R8/R9).the closed-loop amplification of the complete amplifier is (1+R3/R2).

The current source formed by T1 and T2 is required for arreanging the quiescent current of T3 and T4 at 50 mA.The values of resistors R4 and R5 are such that,without the current source the voltage drop across the resistor resulting from the direct current through the opamp is not sufficient to switch on T3 and T4 .with the current source,and depending on the setting of P1,the voltages across R4 and R5 rise,which increases the quiescent current through T3 and T4.

In view of the temperature dependence of the quiescent current,T2 must be mounted on the common heat sink(c. 5 K/W) of the MOSFETs.

The output power is not less than 20 W into 8 ohm,at which level the harmonic distortion amounts to 0.075 per cent at 100 Hz to 0,135 per cent at 10 kHz.
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70V 60W DMOS AUDIO AMPLIFIER WITH MUTE ST BY

Features

MULTIPOWER BCD TECHNOLOGY
VERY HIGH OPERATING VOLTAGE RANGE (±35V)
DMOS POWER STAGE
HIGH OUTPUT POWER (UP TO 60W MUSIC POWER)
MUTING/STAND-BY FUNCTIONS
NO SWITCH ON/OFF NOISE
NO BOUCHEROT CELLS
VERY LOW DISTORTION
VERY LOW NOISE
SHORT CIRCUIT PROTECTION
THERMAL SHUTDOWN

Circuit Diagram
Circuit Diagram for 70V - 60W DMOS AUDIO AMPLIFIER WITH MUTE/ST-BY

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5W Audio Amplifier With Ac Power Supply

This general-purpose low-power (5 W) audio amplifier is suitable for driving a spaker

 5W Audio Amplifier With Ac Power Supply Circuit Diagram


5W


 of approximately 8 to 12 inches. A Sanyo LA4460 IC is used as the audio output IC. The schema consists of a loudness control, driver amplifier Ql, and bass and treble controls of about ±10 dB boost/cut. It should be useful in a wide variety of situations. Either the ac supply shown can be used, or a 12 Vdc supply can be connected to points A&B (positive) and C (negative). Two of these diagram, using ganged potentiometers at R2, R7, and Rll can be used for stereo applications. T1 is a 12-V 1-amp plug-in transformer. Notice that IC1 must be heatsinked. Power output is about 5 W. A 4` 2` 0.050` aluminum heatsink should be adequate.
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Crossover For Subwoofer Wiring diagram Schematic

The crossover network is intended for use when an existing audio installation is to be extended by the addition of a subwoofer. Often, this additional loudspeaker is one that has been lying around for some time. If its frequency response extends down far enough, all is well and good, but a filter is then needed to cut off any frequencies above, say, 150 Hz. Often, a subwoofer network is an active filter, but here this would necessitate an additional power supply. The present network is a passive one, designed so that the speaker signal of the existing system can be used as the input signal.


Crossover Circuit Diagram For Subwoofer

Since the bass information is present in both (stereo) loudspeakers, the signal for the sub woofer can simply be tapped from one of them. The network is a 1st order low-pass filter with variable input (P1) and presettable cut-off frequency (P2). The signal from the loudspeaker is applied to terminal ‘LSP’. Voltage divider R1-R2-P1 is designed for use with the output signal of an average output amplifier of around d 50 W. The crossover frequency of the network may be varied between 50 Hz and 160 Hz with P2. The values of R3, P2, and C1, are calculated on the assumption that the subwoofer amplifier to be connected to K1 has a standard input resistance of 47 kΩ.

If this figure is lower, the value of C1 will need to be increased slightly. It is advisable to open the volume of the subwoofer amplifier fully and adjust the sound level with P1. This ensures that the input of the subwoofer amplifier cannot be overloaded or damaged. Make sure that the ground of the loudspeaker signal line is linked to the ground of the subwoofer amplifier. If phase reversal is required, this is best done by reversing the wires to the subwoofer. If notwithstanding the above additional protection is desired at the input of the subwoofer amplifier, this is best effected by ‘overload protection ’ elsewhere in this site.

Source by : Streampowers
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Friday, August 29, 2014

Diode Cmos Stabilizer Wiring diagram Schematic

The simple diode network can stabilize the voltage supplied to CMOS schemary from a battery. D1 and D2 must have a combined forward-voltage drop of about 1.5 V. And D3 is an LED with a forward-voltage drop of about 1.7 V. The table shows the network`s output voltage as the battery`s voltage declines.

 Diode Cmos Stabilizer Circuit Diagram

Build
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Powerful AM transmitter


The schema for a powerful AM transmitter using ceramic resonator/filter of 3.587 MHz is presented here. Resonators/filters of other frequencies such as 5.5 MHz, 7 MHz and 10.7 MHz may also be used.

http://www.electronic-diagram-diagrams.com/radioimages/5.gif




Use of different frequency filters/resonators will involve corresponding variation in the value of inductor used in the tank schema of oscillator connected at the collector of transistor T1.
The AF input for modulation is inserted in series with emitter of transistor T1 (and resistor R4) using a transistor radio type audio driver transformer as shown in the schema. Modulated RF output is developed across the tank schema which can be tuned to resonance frequency of the filter/resonator with the help of gang condenser C7. The next two stages formed using low-noise RF transistors BF495 are, in fact, connected in parallel for amplification of modulated signal coupled from collector of transistor T1 to bases of transistors T2 and T3. The combined output from collectors of T2 and T3 is fed to antenna via 100pF capacitor C4.
The schema can be easily assembled on a general-purpose PCB. The range of the transmitter is expected to be one to two kilometers. The schema requires regulated 9-volt power supply for its operation. Note: Dotted lined indicates additional connection if a 3-pin filter is used in place.

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2 Line IntercomTelephone Line Changeover

2 .Line Intercom Telephone Line Changeover.The schema presented here can be used for connecting two telephones in parallel and also as a 2-line intercom. Usually a single telephone is connected to a telephone line. If another telephone is required at some distance, a parallel line is taken for connecting the other telephone. In this simple parallel line operation, the main problem is loss of privacy besides interference from the other phone. This problem is obviated in the schema presented here. Under normal condition, two telephones (telephone 1 and 2) can be used as intercom while telephone 3 is connected to the lines from exchange. In changeover mode, exchange line is disconnected from telephone 3 and gets connected to telephone 2.
.
Circuit diagram:
2-Line
2-Line Intercom-Cum-Telephone Line Changeover Circuit Diagram
.
For operation in intercom mode, one has to just lift the handset of phone 1 and then press switch S1. As a result, buzzer PZ2 sounds. Simultaneously, the side tone is heard in the speaker of handset of phone 1. The person at phone 2 could then lift the handset and start conversation. Similar procedure is to be followed for initiation of the conversation from phone 2 using switch S2. In this mode of operation, a 3-pole, 2-way slide-switch S3 is to be used as shown in the figure. In the changeover mode of operation, switch S3 is used to changeover the telephone line for use by telephone 2. The switch is normally in the intercom mode and telephone 3 is connected to the exchange line.

Before changing over the exchange line to telephone 2, the person at telephone 1 may inform the person at telephone 2 (in the intercom mode) that he is going to changeover the line for use by him (the person at telephone 2). As soon as changeover switch S3 is flipped to the other position, 12V supply is cut off and telephones 1 and 3 do not get any voltage or ring via the ring-tone-sensing unit. Once switch S3 is flipped over for use of exchange line by the person at telephone 2, and the same (switch S3) is not flipped back to normal position after a telephone call is over, the next telephone call via exchange lines will go to telephone 2 only and the ringtone-sensing schema will still work. This enables the person at phone 3 to know that a call has gone through. If the handset of telephone 3 is lifted, it is found to be dead. To make telephone 3 again active, switch S3 should be changed over to its normal position.
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Electronic toss circuit


This is a fun schema.you can use this one for various games.And there are lots of games tossing is required.so use this for that




Note

#This schema can be powered With 5v DC
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2003 GMC Sierra 1500 Audio Amplifier Wiring Diagram

2003 GMC Sierra 1500 Audio Amplifier Wiring Diagram
The part of 2003 GMC Sierra 1500 Audio Amplifier Wiring Diagram: power distribution, audio amplifier, low level audio signal, relay block, battery positive voltage, left front low level audio signal, drain wire, radio mute, rear seat enable audio signal, radio on signal, radio main.
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4x25 W quad bridge car radio amplifier TDA7381

General description:

The TDA7381 is a class AB audio power amplifier in Flexiwatt25 package designed for car radio applications. Thanks to the fully complementary PNP/NPN output configuration the TDA7381  allows a rail to rail output voltage swing with no need of bootstrap capacitors.
Features:
  • 4 x 30 W/4  max.
  • 4 x 25 W/4  EIAJ
  • 4 x 18 W/4  @ 14.4 V, 1 kHz, 10 %
  • 4 x 15 W/4  @ 13.2 V, 1 kHz, 10 %
  • Clipping detector
  • Low distortion
  • Low output noise
  • Standby function
  • Mute function
  • Automute at min. supply voltage detection
  • Clipping
  • Out to GND short
  • Out to VS short
  • Thermal shutdown
  • Internally fixed gain (26 dB)
  • No external compensation
  • No bootstrap capacitors
  • Output short circuit to GND, to VS, across the load
  • Very inductive loads
  • Overrating chip temperature with soft 
  • thermal limiter
Circuit diagram:
4x25 W quad bridge car radio amplifier

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Thursday, August 28, 2014

TDA8920 2x100W class D power amplifier

Description of TDA8920:

The TDA8920B is a high efficiency class-D audio power amplifier with very low dissipation. The typical output power is 2 × 100 W. The device is available in the HSOP24 power package and in the DBS23P through-hole power package. The amplifier operates over a wide supply voltage range from ±12.5 V to ±30 V (±32 V non operating) and consumes a very low quiescent current. The TDA8920B is a two channel audio power amplifier using class-D technology. The audio input signal is converted into a digital pulse width modulated signal via an analog input stage and Pulse Width Modulation (PWM) modulator. To enable the output power transistors to be driven, this digital PWM signal is applied to a control and handshake block and driver circuits for both the high side and low side. In this way a level shift is performed from the low power digital PWM signal (at logic levels) to a high power PWM signal which switches between the main supply lines. A 2nd-order low-pass filter converts the PWM signal to an analog audio signal across the loudspeakers. The TDA8920B one-chip class-D amplifier contains high power D-MOS switches, drivers, timing and handshaking between the power switches and some control logic. For protection a temperature sensor and a maximum current detector are built-in. The two audio channels of the TDA8920B contain two PWM modulators, two analog feedback loops and two differential input stages. It also contains circuits common to both channels such as the oscillator, all reference sources, the mode functionality and a digital timing manager.

Features TDA8920:
  • Zero dead time switching 
  • Advanced current protection: output current limiting 
  • Smooth start-up: no pop noise due to DC offset 
  • High efficiency 
  • Operating supply voltage from ±12.5 V to ±30 V 
  • Low quiescent current 
  • Usable as a stereo Single-Ended (SE) amplifier or as a mono amplifier in Bridge-Tied Load (BTL) 
  • Fixed gain of 30 dB in Single-Ended (SE) and 36 dB in Bridge-Tied Load (BTL) 
  • High output power 
  • High supply voltage ripple rejection 
  • Internal switching frequency can be overruled by an external clock 
  • Full short-circuit proof across load and to supply lines 
  • Thermally protected

Applications:
  • Television sets 
  • Home-sound sets 
  • Multimedia systems 
  • All mains fed audio systems 
  • Car audio (boosters)

Circuit diagram TDA8920:
TDA8920 2x100W class-D power amplifier
   

Datasheet for TDA8920: Download
Where you can buy: Aliexpress
Where you can buy: DealExtreme
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Subwoofer music system

What is a subwoofer think many people know, but not everyone knows the true meaning of the word. Subwoofer - woofer reproducing frequencies below those that reproduce the work in conjunction with him broadband speakers. Consider how the subwoofer is integrated into the audio system.

System without a subwoofer. 

Initially there is a stereo signal source output (player CD, DVD, etc.). (I will talk only about the stereo recording, because of their absolute majority.) So this stereo signal is input to a stereo amplifier and its output signal is amplified by broadband speakers. With this implementation, the sound channel signal passes through a minimum number of components, and in the most pure form is served in the SS.

System with subwoofer. 

There are different options.
Stereo signal is fed to a stereo amplifier and subwoofer filter thus comes full on AC signal source and the subwoofer comes LF component of the signal from both channels.
Stereo signal is fed to the subwoofer filter, which separates it into two bands LF and MF / HF. With filter MF / HF signal is input to the amplifier front stereo speakers SAT and LF signal is input to the subwoofer amplifier. In general there are other options but they all boil down to the fact that the front speakers are fed either a full range signal or MF / HF component.  So in the first case is meant to use as front speakers powerful broadband systems, and the subwoofer is used as additional support for the front at the lowest frequencies. In the second case as the front speakers do not apply SAT large size and power, and low signal spectrum is reproduced only subwoofer. This approach enables us to create a system featuring a wide frequency range and low price is not large dimensions. In such systems do not bypass the subwoofer for how any suitable frequency range of the system as a whole. This solution is typical for budget systems are not high.

Now lets look at what gives us the use of a subwoofer in your music system. 
Adding a subwoofer to your system can significantly increase its dynamic range, its lower cutoff frequency, a higher level of volume without distortion, as in the case of an active subwoofer improve playback MF / HF by offloading stereo amplifier for the front speakers, and speakers themselves. Additional amplifier and woofer system can increase the maximum sound pressure level, and the removal of the LF signal from the front improves midrange sound, because Woofer does not oscillate with a large amplitude, and operates at a lower power level signal, clearly and not purely practicing greater levels of MF and HF signals.
And now lets look again. (Bucket of tar) 
Practice shows that the use of a subwoofer music system often reduces the quality of the sound. This is possible with the poor quality of the subwoofer, or it is not properly configured to work in a particular system, or what he intended to play every bass effects, explosions, etc.systems for DC transmission and not subtle shades of music.

Now lets think about why this is happening? 
To begin with it is worth noting that the use of a subwoofer always brings in additional electronics tract. Not the fact that the filter of the subwoofer is a high quality, it will make more noise and distortion to the original signal. But this is not the worst. 
Quality subwoofer can be initially low. You can certainly suggest the use of high-quality subwoofer, but there are very few, and they cost a lot of money. Most on the market subwoofers are dull, sluggish, boomy bass. They are clearly oriented to application in theater systems as a source of low frequency noise, and Bukhov Bach. This sound is very difficult to be heard is a clear height of individual notes (usually it looks like a bass boom on one note) on these subwoofers bass sound indistinguishable from the sound of bass. Very rare models differ musicality, high articulation, clarity of bass. While broadband quality outdoor speakers mostly possess such qualities to the full.

There is also a very serious problem of matching the front speakers with a subwoofer. The sound of the lowest sounds reproduced subwoofer may differ in character from the middle and lower sound upper bass front speakers. The result is a strong homogeneity of the sound is not the low frequency range. That is why it is imperative a coordinated subwoofer usually subwoofers should be used from the same family as the broadband speakers, and certainly one manufacturer. This greatly increases the chances of finding the same sounding pair.Naturally that the application of quality broadband speakers such problems simply do not.

The problem of reconciling the sound level of the front and the subwoofer is solved easily, but many exceed the level of the subwoofer above optimal, without noticing. This sound quickly tires, and do not know everything on what is happening. In qualitative broadband speakers, this problem is solved by itself, their design based on the maximum flat frequency response. 
We should not forget the problem of phase matching of the subwoofer with the front. On some subs have phase control, which partially solved the problem, but many cheaper models provided similar adjustments. And not all users can precisely adjust the phase of the signal, while clearly noting the difference between well-tuned subwoofer and tuned at all.

Just filling space subwoofer deep powerful bass, can provoke a resonance phenomena, very spoiling sound. This is manifested in the higher volume of individual notes in mumbling, sluggish and not dynamic, not a clear sound. Therefore it is extremely important to position this source LF energy. You can not just throw subwoofer in a corner and hope that hes accustomed. In a system with two or more sources of bass this problem easier solved by correct positioning systems not only space but also with respect to each other. 
All this is compounded by the fact that many people tend to install the excessive level of the subwoofer, so the sound is "more powerful bassist, cooler" and even then it is necessary to hear the work order for which they were paid not small money. Highest subwoofer will compliment what is its contribution to the sound is not audible on the line, he must harmoniously complement the front speakers sound without attracting attention. Only in this case it does not spoil the picture of the sound system.

CONCLUSION: Rare subwoofer does not impair the overall picture of the sound system, having a good, dense, collected, accurate, clear, resilient, fast bass, good sound with broadband agreed upon by the AU.

Now lets think, and whether to bathe with subwoofer choice for your system, overcoming problems. This will require a lot of time for not hasty careful, thoughtful otslushivaniya huge number of sets of speakers / subwoofer. Most records are not really in the frequency spectrum below say 40Hz. No such compositions certainly is, but not so much so that you can limit the requirements for the lower boundary frequency at 35-40 Hz. As for the necessary power here a lot has already been written, and I will not repeat myself, except to say that for a home system, even when listening to heavy rock songs in a decent size room enough power on the order of 100W. The most demanding music lovers who love to listen to classical pieces may need all 200W peak. But there are not many. And in most contemporary compositions dynamic range is lost after mastering, and he in such works do not quite large, and therefore do not need to twist the volume knob all the way to hear so quiet tone.

And what do we observe? Not that exorbitant demands to get to our ideal source LF energy. J Most floor systems not even the highest class easily meet the requirements. And many soundly designed broadband speakers from well-known brands, to easily surpass any subwoofer sound quality. So why need extra hemo ** th which inevitably appears in the application of Saba? By increasing the level of components in a pair broadband speaker / subwoofer certainly problems becomes smaller, but the quality of the speakers is increased by so much that it becomes just do not understand, why there wormed subwoofer? And in the case of floor-standing speakers of the highest class, all doubts about what you need assistance in the low frequency range just disappear by themselves. (For the most vocal opponents of my approach will give a concrete example (not advertising) Legasy focus 20/20. Those who have remained any doubts after reading this article, simply advise you to read the description, and even better test of these systems, and Im just your doubts fade and you will be happy.
Original sourse cxem.net
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30W Power Audio Amplifier Circuit Diagram

Description:

TIP141 si a npn silicon power darling tons designed for complementary use with TIP145, TIP146 and TP147. Can stand up to 125 W at 25°C Case Temperature, 10 A Continuous Collector Currentand has a minimum hFE of 1000 at 4 V, 5 A. This home audio amplifier can output 30W with a +- 32V symmetric power supply. If you want a stereo power amplifier please check out the other schematics.

Features:


Circuit diagram:




Layout

Partlist

R1=1KohmR16-17=270ohmD1=9.1V 0.4W zener
R2=47KohmR18=22ohm 1WD2-3=1N4148
R3=1.5KohmR19=NCQ1-2=BC550C
R4-5=10KohmR20-21=0.39ohm 4WQ3=MPSA56
R6=5.6KohmTR1=250ohm trimmerQ4=BC547B
R7=10ohmC1=470nF 100V MKTQ5=BC212
R8=47KohmC2=1nF 100V MKTQ6=BC183
R9=560ohmC3=68pF ceramicQ7-8=MPSAO6
R10-11=8.2KohmC4-8=22nF 100V MKTQ9=TIP141
R12-15=120ohmC5-6-7=100nF 100V MKTQ10=TIP146
R13=680ohmC9=47uF 25VF1-2=1.6AT FUSE
R14=330ohmC10-11=220uF 63VAll the resistors is 1/4W 1% except quote differently
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diagram amplifier




Technical information
Datasheet IC 5G37
Vcc                = 6-12 V
Pout               = 0,4 W
RL                 = 8 Ohm
Ft                   = 40-17 Khz
Icco               = 15 mA
Package         = TABS1-14
Manufactered = China

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Flashing LED Battery status Indicator

Signals when an on-schema battery is exhausted 5V to 12V operating voltage
A Battery-status Indicator schema can be useful, mainly to monitor portable Test-gear instruments and similar devices. LED D1 flashes to attire the users attention, signaling that the schema is running, so it will not be left on by mistake. The schema generates about two LED flashes per second, but the mean current drawing will be about 200µA. Transistors Q1 and Q2 are wired as an uncommon complementary astable multivibrator: both are off 99% of the time, saturating only when the LED illuminates, thus contributing to keep very low current consumption. 


Flashing-LED
Flashing-LED Battery-status Indicator Circuit Diagram

The schema will work with battery supply voltages in the 5 - 12V range and the LED flashing can be stopped at the desired battery voltage (comprised in the 4.8 - 9V value) by adjusting Trimmer R4. This range can be modified by changing R3 and/or R4 value slightly.

When the battery voltage approaches the exhausting value, the LED flashing frequency will fall suddenly to alert the user. Obviously, when the battery voltage has fallen below this value, the LED will remain permanently off. To keep stable the exhausting voltage value, diode D1 was added to compensate Q1 Base-Emitter junction changes in temperature. The use of a Schottky-barrier device (e.g. BAT46, 1N5819 and the like) for D1 is mandatory: the schema will not work if a common silicon diode like the 1N4148 is used in its place.

Parts :
R1,R7__________220R  1/4W Resistors
R2_____________120K  1/4W Resistor
R3_______________5K6 1/4W Resistor
R4_______________5K  1/2W Trimmer Cermet or Carbon
R5______________33K  1/4W Resistor
R6_____________680K  1/4W Resistor
R8_____________100K  1/4W Resistor
R9_____________180R  1/4W Resistor
C1,C2____________4µ7  25V Electrolytic Capacitors
D1____________BAT46  100V 150mA Schottky-barrier Diode
D2______________LED  Red 5mm.
Q1____________BC547   45V 100mA NPN Transistor
Q2____________BC557   45V 100mA PNP Transistor
B1_______________5V to 12V Battery supply
Notes :
  • Mean current drawing of the schema can be reduced further on by raising R1, R7 and R9 values.
Source : Red Circuits
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Infrared motion detector circuit


Here is the schema diagram of an infrared motion detector that can be used to sense intrusions.Infra red rays reflected from a static object will be in one phase, and the rays reflected from a moving object will be in another phase.The schema uses this principle to sense the motion.







The IC1 (NE 555) is wired as an astable multivibrator .The IR diode connected at the output of this IC produces infrared beams of frequency 5Khz.These beams are picked by the photo transistor Q1 .At normal condition ie; when there is no intrusion the output pin (7) of IC2 will be low.When there is an intrusion the phase of the reflected waveforms has a difference in phase and this phase difference will be picked by the IC2.Now the pin 7 of the IC 2 goes high to indicate the intrusion.An LED or a buzzer can be connected at the output of the IC to indicate the intrusion.



Notes.

* Comparators IC2a and IC2b are belonging to the same IC2 (LM1458).So the power supply is shown connected only once.No problem.
* When there is disturbance in the air or vehicles passing nearby,the schema may get false triggered.
* POT R5 can be used for sensitivity adjustment.

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Voltage Controlled Attenuator VC Using FET

Build a Voltage-Controlled Attenuator VC Using FET. Using the schema shown in the schematic diagram below, we can control the low-level audio signals with ±3V variable DC voltage. This attenuator schema uses a field effect transistor (FET) to shunt the signal to ground. The R2 is used to control the output level (the attenuation level), but you can use other source of voltage signal to control the grid of the FET, such as DAC output, just remember that this voltage is a negative going signal (you can use with DAC which uses symmetric power supply system). The minimum output of this schema is when gate bias is zero. When the gate bias is set close to pinchoff value, the schema will produce maximum output with value that equal to input level. Here is the schematic diagram of the schema:

Voltage-Controlled Attenuator VC Using FET Circuit Diagram


Build

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Wednesday, August 27, 2014

New leaked Motorola Droid X2 Specifications

Motorola is currently preparing to produce a new variant of the Motorola DROID X and is rumored that the phone will have the name Motorola Droid X2, this phone is also known as the Daytona.


We currently have leaked information about the official specs of these phones that we can from the site PocketNow, and here are the features available on these phones:

* 1GHz dual-core 2 processor Tegra
* 4.3-inch QHD capacitive touchscreen (thats 540,960 pixels)
* EV-DO Rev. A connectivity
* 8-megapixel camera with dual-LED flash
* Wi-Fi 802.11 a / ​​b / g / n
* HDMI out
* Bluetooth 2.1 + EDR
* Proximity, ambient light, accelerometer and compass sensors
* 8GB of internal storage

The plan of this phone will be bundled by the U.S. Verizon Wireless network.
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30W Power Audio Amplifier Wiring diagram Schematic

TIP141 si a npn silicon power darling tons designed for complementary use with TIP145, TIP146 and TP147. Can stand up to 125 W at 25°C Case Temperature, 10 A Continuous Collector Current and has a minimum hFE of 1000 at 4 V, 5 A. This home audio amplifier can output 30W with a +- 32V symmetric power supply. If you want a stereo power amplifier please check out the other schematics.



R1=1Kohm R16-17=270ohm D1=9.1V 0.4W zener
R2=47Kohm R18=22ohm 1W D2-3=1N4148
R3=1.5Kohm R19=NC Q1-2=BC550C
R4-5=10Kohm R20-21=0.39ohm 4W Q3=MPSA56
R6=5.6Kohm TR1=250ohm trimmer Q4=BC547B
R7=10ohm C1=470nF 100V MKT Q5=BC212
R8=47Kohm C2=1nF 100V MKT Q6=BC183
R9=560ohm C3=68pF ceramic Q7-8=MPSAO6
R10-11=8.2Kohm C4-8=22nF 100V MKT Q9=TIP141
R12-15=120ohm C5-6-7=100nF 100V MKT Q10=TIP146
R13=680ohm C9=47uF 25V F1-2=1.6AT FUSE
R14=330ohm C10-11=220uF 63V All the resistors is 1/4W 1% except quote differently

30W power amplifier schema diagram

30W

30 Watt audio amplifier PCB

30

 

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Electronic Street Light Switch Circuit Digram

Here’s a simple and low-cost street light switch. This switch automatically turns on the light at sunset and turns it off at sunrise. The automatic function saves electricity besides man-power.

Broadly, the schema can be divided into power supply and switching sections.

Pressing switch S1 connects mains to power the schema. Mains is stepped down to 9.1V DC by resistor R1, diode D1 and zener diode ZD1. The output across ZD1 is filtered by capacitors C1 and C2. The output voltage can be increased up to 18V or decreased to 5V by changing the value of zener diode ZD1.

The switching schema is built around light-dependent resistor LDR1, transistors T1 through T3 and timer IC1. The resistance of LDR1 remains low in daytime and high at night. Timer IC1 is designed to work as an inverter, so a low input at its pin 2 provides a high output at pin 3, and vice versa. The inverter is used to activate triac 1 and turn street bulb B1 on.

Electronic Street Light Switch Circuit Digram

Electronic


During daytime, light falls on LDR1 and transistors T1 and T2 remain cut-off to make pins 4 and 8 of IC1 low. Since transistor T3 is also cut-off, IC1 is not triggered. As a result, output pin 3 of IC1 (connected to the gate of triac 1 via resistor R5 and red LED1) remains low and the street bulb does not glow.

At night, no light falls on LDR1 and transistors T1 and T2 conduct to make pins 4 and 8 of IC1 high. Due to the conduction of transistor T3, trigger pin 2 of IC1 remains low. The high output of IC2 at its pin 3 turns the street bulb ‘on.’

Assemble the schema, except LDR1, on any general-purpose PCB. Use long wires for LDR1 connections so that it can be mounted at a place where sufficient light falls on it.

Author :  Prince Philips
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Touch Switch using NE555

The series of touch switch or touch switch is built by IC NE555, a series of touch switches can be used to turn on lights, alarms or other electronic equipment.
This circuit uses 2 pieces of metal plate media as touch, MP1 (Metal Plate 1) and MP2 (Metal Plate 2). Touch switch circuit is equipped with a visual LED indicator for relay status (load active). To enable (Relay ON) can be done by touching the surface of MP1 and to turn it off by touching the surface of the MP2. MP1 and MP2 in touch this switch can use a small piece of copper (diameter 5mm) was enough.



Touch Switch series with NE555.
555


Component List 555 touch Switch
R1 = 3.3M
R2 = 3.3M
R3 = 10K
R4 = 1K
C1 = 10nF-63V
D1 = 1N4007
D2 = Red LED
Q1 = BC547
IC1 = NE555
RL1 = 12V Relay
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Daihatsu G10 Wiring Diagram

Daihatsu G10 Wiring Diagram


This is  Daihatsu G10 Wiring Diagram: lighter fuse, speaker, radio, fuel pump relay, fuel pump, vacuum switch, cigar lighter, front washer switch, front wiper switch, front wiper motor, ignition switch, battery, coil, resistor, regulator, vacuum switch, sunroof switch, rear washer switch, rear washer motor, rear wiper motor,
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Google might have revealed the new Nexus 6

Google
 
Well, Google I / O 2014 is very close and some clues about new devices or software may be popping up any day now. Moreover, it is possible that Google has revealed the Nexus 6 through his Twitter account to promote the role of voice OK Google. Of course, this could just be a representation of a device or simply the next Nexus phone.

In the published photo, Google shows a cell with a very thin bezel and a design that does not currently see in the market. At the bottom of the image is the cheese section of a supermarket and not much pointing to the name of the next version of Android, as there are many desserts in the image. Could it be that Google knocked on the next version of Android with a name of cheese? I really doubt it and may be just the background image that focused only on promoting functionality.

The Android phone image would appear to be a little larger than 5 inches in May Nexus website and given the size it occupies in hand. Apparently might be 5.2 or 5.5 inches.

It is difficult to confirm or notice something else about this picture, but it is certain that Google will be confirmed or not this device at its developer conference Google I / O to be held in late June.
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Tuesday, August 26, 2014

Long range FM voice Transmitter circuit

This circuit shows how to build a super-sensitive, mini-powered FM transmitter consisting of a RF (radio Frequency) oscillator section interfaced with a high sensitivity, wide pass-band audio amplifier and capacitance mike with a built-in FET (Field Effect Transistor) that modulates the base of the RF oscillator transistor. Transistor Q1 forms a relatively stable RF oscillator whose frequency and is determined by the value of coil L1 and turning capacitor C4.
fm

Long
Part List :
R1_______15K
R2_______3K9
R3_______220R
R4,R5____1K
R6,R9____10K
R7_______390K
C1,C6____0.01uF
C2_______4.7pF
C3_______0.1uF
C4_______6-35pf trimmer cap
C5_______2.2uF
B1_______3V
L1_______Coil winding (see below)
Q1,Q2____PN2222
M1_______Special FET bypassed microphone

Assemble L1 :
Form L1 by tightly wrapping eight turns of #16 bus wire on a #8 wood screw. Produces an eight-turn coil with an inner diameter of approximately 0.135 inches and lenght of about 0.625 inches. Insert in the proper hole and solder as shown.
Long
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Car Mobile Phone Charger Circuit

Car
Cellphone battery charging process when we're done traveling is a big problem. Because when traveling source of power supply is generally difficult to find. If you turn on your phone then the battery continuously over time will run out within a period of five to six hours and eventually mobile phones unusable. Here is described a series of simple charger that will increase battery life two to three hours.
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