Sunday, August 31, 2014

High Gain Wide Bandwidth Op Amp Wiring diagram Schematic

Ideal op-amps have infinite open-loop gain at all frequencies. This is a simple High Gain Wide Bandwidth Op-Amp Circuit Diagram. You can build a composite amplifier featuring high gain, wide bandwidth, and good dc accuracy by cascading the sections of a dual video amplifier and adding two appropriate phase-compen-sation components. The op amp drives a 150- load and provides a closed-loop gain of 40 dB.

High Gain Wide Bandwidth Op-Amp Circuit Diagram

High

Read More..

Ultrasonic switch

circuit of a new type of remote control switch is described here. This schema functions with inaudible (ultrasonic) sound. Sound of frequency up to 20 kHz is audible to human beings. The sound of frequency above 20 kHz is called ultrasonic sound. The schema described generates (transmits) ultrasonic sound of frequency between 40 and 50 kHz. As with any other remote control system this cirucit too comprises a mini transmitter and a receiver schema.









Transmitter generates ultrasonic sound and the receiver senses ultrasonic sound from the transmitter and switches on a relay. The ultrasonic transmitter uses a 555 based astable multivibrator. It oscillates at a frequency of 40-50 kHz. An ultrasonic transmitter transducer is used here to transmit ultrasonic sound very effectively. The transmitter is powered from a 9-volt PP3 single cell. The ultrasonic receiver schema uses an ultrasonic receiver transducer to sense ultrasonic signals. It also uses a two-stage amplifier, a rectifier stage, and an operational amplifier in inverting mode. Output of op-amp is connected to a relay through a complimentary relay driver stage. A 9-volt battery eliminator can be used for receiver schema, if required. When switch S1 of transmitter is pressed, it generates ultrasonic sound. The sound is received by ultrasonic receiver transducer. It converts it to electrical variations of the same frequency. These signals are amplified by transistors T3 and T4. The amplified signals are then rectified and filtered. The filtered DC voltage is given to inverting pin of op-amp IC2. The non- inverting pin of IC2 is connected to a variable DC voltage via preset VR2 which determines the threshold value of ultrasonic signal received by receiver for operation of relay RL1. The inverted output of IC2 is used to bias transistor T5. When transistor T5 conducts, it supplies base bias to transistor T6. When transistor T6 conducts, it actuates the relay. The relay can be used to control any electrical or electronic equipment. Important hints:
1. Frequency of ultrasonic sound generated can be varied from 40 to 50 kHz range by adjusting VR1. Adjust it for maximum performance.
2. Ultrasonic sounds are highly directional. So when you are operating the switch the ultrasonic transmitter transducer of transmitter should be placed towards ultrasonic receiver transducer of receiver schema for proper functioning.
3. Use a 9-volt PP3 battery for transmitter. The receiver can be powered from a battery eliminator and is always kept in switched on position.
4. For latch facility use a DPDT relay if you want to switch on and switch off the load. A flip-flop can be inserted between IC2 and relay. If you want only an ‘ON-time delay’ use a 555 only at output of IC2. The relay will be energised for the required period determined by the timing components of 555 monostable multivibrator.
5. Ultrasonic waves are emitted by many natural sources. Therefore, sometimes, the schema might get falsely triggered, espically when a flip-flop is used with the schema, and there is no remedy for that

Read More..

Single Supply Function Generator

The schema has both square-wave and triangle-wave output. The left section is similar in function to a comparator schema that uses positive feedback for hysteresis. The inverting input is biased at one-half the Vcc voltage by resistor R4 and R5. The output is fed back to the non-inverting input of the first stage to control the frequency.

Circuit diagram :



Single Supply Function Generator Circuit Diagram

The amplitude of the square wave is the output swing of the first stage, which is 8V peak-to-peak. The second stage is basically an op amp integrator.

The resistor R3 is the input element and capacitor C1 is the feedback element.

The ratio R1/R2 sets the amplitude of the triangle wave, as referenced to the square-wave output. For both waveforms, the frequency of oscillation can be determined by the equation: fo= 1/4R3C1 * R2/R1

The output frequency is approximately 50 Hz with the given components.
Read More..

Saturday, August 30, 2014

Transistored Stereo Tone Control

Here the schema diagram of stereo tone control system which also available on the market in schema kit, you might get the kit at electronic component/part store near your area. The tone control require 12v of supply voltage to work.



The schema designed based on common tone control schema, by using two transistors FCS9014 in each channel, so there are actually four transistors in this 12v stereo tone control. Take a note that you need to install the schema prior to the amplifier device. The output of tone control should be connected towards the input of the audio amplifier. Any small signal NPN transistor such as BC547B, 2N3904, C828, or C945 may be put to use to replace FCS9014.
Read More..

2 x 2 3 Watts power amplifier schematics

Do not misunderstand, this series is one of several series of power amplifiers that have output / low output power. This amplifier output is only possess more or less 4Watt. Or 2 X 2Watt stereo power amplifier. Minimum required voltage is not less than 3 volts and a maximum voltage of no more than 14 volts, and voltage must be rectified and filtered to obtain the maximum of the processed audio.
Low
Component List :
R1 = 2,7R
R2 = 2,7R
C1 = 1uF
C2 = 1uF
C3 = 100uF
C4 = 220uF
C5 = 100uF
C6 = 100uF
C7 = 220uF
C8 = 0.1uF
C9 = 0.1uF
C10 = 470uF
C11 = 470uF
U1 = ULN3750B
Read More..

Electronic Fuse for DC Short Circuit Protection

Electronic

This schema will protect your power supply or battery. The electric current will stopped by relay when electric current short occured, Relays must be chosen with a voltage value equals to the input voltage. Dont omit using the 100uF capacitor with appropriate voltage value with respect to the input voltage. If you cant provide, you can use C106 instead of BRX46.

You can adjust the current with using 10K potentiometer. If you will use the fuse with very high currents, lower the 0R6 5W resistor value (ex. 0R47, 0R33, 0R22 or 0R1). Watt value of the resistor should be increased also.
Read More..

Digital Thermometer 0 100 0°Celsius


Digital Thermometer 0-100.0°Celsius
Digital Thermometer 0-100.0 ° C is a digital thermometer that operates in mode temperature measurement in Celsius (° C). Digital Thermometer 0-100.0 ° C in this article using the form data processing microcontroller AT89C4051.
Temperature sensors used in Digital Thermometer 0-100.0 ° C. This temperature sensor LM35D. Digital Thermometer 0-100.0 ° C. It uses the temperature measurement data viewer in the form of 1 line LCD viewer. Digital Thermometer 0-100.0 ° C. It can display the temperature measurement data with a resolution of 0.1 ° C.
Digital Thermometer 0-100.0 ° C 






Digital Thermometer 0-100.0 ° C. These temperature sensors make use of LM35D as temperature sensing. In Digital Thermometer 0-100.0 ° C. This temperature sensor measurement data this LM35D (Level Voltage) is then converted into 4-bit binary data using the ADC CA3162. Then the 4-bit data from ADC CA3162 which is a measurement of data if the temperature is in the AT89C4951 microcontroller so that it becomes an operating principle of temperature measurement based on digital thermometers. In the final stage of the Digital Thermometer 0-100.0 ° C. These data digitla adlah appearance temperature measurement, using digital data viewer of the LCD 1 line.
Read More..

Friday, August 29, 2014

Power Amplifier with 2N3055


This is a powerful power supplier.The important thing of this schema is,We have used common transistor 2N3055.This schema works with 50v.The maximal input voltage is around 0.8 - 1V.This out put power is about 60w.



Read More..

Cheap car subwoofer filter circuit

Cheap car subwoofer filter circuit description:

     This subwoofer filter set Suitable for use with a great car audio system. Since this circuit is designed to operate with a 12 volt DC power. But if you put it to use with a home stereo, It do not have any rules. This subwoofer circuit set is designed to has a cut off frequencies of 200 Hz. If you are not satisfied, you can change the C6, C7, C8, new, follow the table below.
      The left cannel input signal is entered pass through capacitors C1, C3 are the output Signal to the original circuit. (Or rear left in the car). And the right cannel input signal is entered to C2, C4 to the original circuit. (Or rear right in the car). Two resistors R1 and R2 will be mixer audio signal the left channel and the right channel both together. Then next wire connects to C5. This capacitor is also know as the coupling capacitor to inverting input of M5218A (IC1a). The VR1 serves as a set of IC1a gain with much or less as you want.
     The output signal is entered pass through the low pass filter circuit that consists of R5, R6, R7, R8, C6, C7, C8 and IC1b Which will allow low frequencies under 100 Hz passed away only. And the output from pin 1 of IC1b is entered to pass through R9, C9 on to the power amplifier circuit that be designed for driver only the subwoofer loud speaker We use the LM7812 IC2 as 12V dc fixed regulator for this circuit so can use the voltage supply range 12Vdc to 24Vdc as we want. The diode D1 is protector connection voltage supply that wrote terminal that it can damage the IC1.

Cheap car subwoofer filter circuit diagram:

Cheap car subwoofer filter pcb layout:


Cheap car subwoofer filter circuit partlist:

IC1_______________________________M5218A
IC2_______________________________LM7812 IC-regulator 12V
R1, R2, R3_______________47K_______Resistor 1/4W 1%
R4, R5, R6, R7, R10_______10K_______Resistor 1/4W 1%
R8______________________20K_______Resistor 1/4W 1%
R9______________________100 ohm__ Resistor 1/4W 1%
C1, C2, C3, C4, C5________ 4.7uF 63V _see text
C6______________________0.33uF 63V see text
C7______________________0.27uF 50V see text
C8______________________0.027uF 50V see text
C9, C10__________________10uF 16V see text
C11_____________________0.1uF 63V see text
C12_____________________ 100uF 16V Electrolytic Capacitors
C13_____________________ 100uF 25V Electrolytic Capacitors
Read More..

High power car audio amplifier

highThis is a power amplifier which functioned as the car audio amplifier IC that uses PA02 and LH0101. That each IC has a 30W output power with 8 ohm impedance.





Part List 
R1 = 10K
R2 = 0.15R
R3 = 20K
R4 = 2.7R 1W
R6 = 15R
R7 = 10K
C1 = 0.1uF
C2 = 0.1uF
C3 = 0.1uF
IC = LH0101 , PA02
high


Supply voltage from 7 volts to 25 volts. For a car battery can also be used but must be first converted into voltage +, -, and ground. Following a series of amplifier.

Read More..

Thursday, August 28, 2014

МР7720 Audio Amplifier 2x30W

      Modern integrated class D UMZCH combine seemingly incompatible: high efficiency and low THD. This article describes the basic principles of Class-D amplifiers and describes the line chips UMZCH American firm MPS (Monolithic Power Systems). Recently, the power amplifier circuitry (UMZCH) have developed two contradictory directions: Improvement in the subjective quality of sound reproduction, usually by reducing the efficiency (COP) of the amplifier; Increased efficiency of the amplifier and reduce its size while maintaining high quality performance. The first direction is characterized by using the output stages UMZCH powerful field-effect transistors and vacuum tubes (Hi-End), often working in class A. The second direction is characteristic of wearable and automotive audio equipment. It is in realization of this direction are widely used amplifiers class D, and high-quality sound reproduction apparatus stationary class D is most commonly used in amplifiers for the subwoofer. There are five major classes of modes of active elements (transistors or tubes). This class of operation modes A, B, AB, C and D. Recall their features.


Class A mode

of operationactive element (transistor or bulb) is open throughout the period of the signal. Class A power amplifiers introduce minimal distortion in the amplified signal to have a very low K11D. They are used in one-and two-stroke potaktpyh UMZCH for midrange and tweeters, which is especially important that the level of harmonic distortion was low. Class A amplifiers - the most expensive.


Class B operation mode
active element (transistor or tube) is only open one half cycle of the input signal. Class amplifiers have high efficiency.but THD them much higher. Commonly used in two-stroke UMZCH srsdnschastotnyh for speakers and speaker mid-bass.


Operation mode class AB

active element (transistor or bulb) and this mode is open one half-full and some of the other half-cycle of the input signal. Mode class AB - a cross between classes A and B. Class AB amplifiers have a higher efficiency. than Class A amplifiers, but contribute to the signal harmonic distortion less than Class B. This is the most common class of mass UMZCH.


Mode of operation of class C

Class C - is the work of transistors with a small amplitude of the voltage locking lower than the bias voltage. In this case, the amplitude of the audio signal is less than the bias voltage. In this state, the transistor conducts only the upper portion of the positive half, greatly distorts the signal. Therefore, audio amplifiers, this class is not applicable.This mode transistors has a high efficiency (about 85%).


Class D operation mode

in mode class D converts the input signal into rectangular pulses of equal amplitude, the duration of which is proportional to the value of the signal at any given time (eg, PWM - Pulse Width Modulation). Active elements of the output stage to operate at the same switching mode and have two states: a transistor or a locked or fully open. Class D amplifiers have a maximum efficiency, as main energy loss pas weekend powerful keys occur until the moment when in the open position and minimal energy loss will be less than the lower the resistance of the public key.Conventional Class D amplifiers have an efficiency of over 90% and large enough THD (about 10%), and application of new technologies (know-how of the producers) to reduce THD to fractions of a percent. This significantly expanded the scope of class D in modern UMZCH.
The concept is simple UMZCH Class D

Basic principles of UMZCH Class D
concept is simple UMZCH Class D shown in bottom
It consists of a pulse width modulator (PWM) on the transistor Q1, a strong push-pull transistor switch Q2, Q3, and a lowpass filter (LPF) which filters out high frequency components of the pulse current through the loudspeaker. Divider na resistors R1 and R2 will set the offset voltage of Q1 and the symmetry of the whole scheme. R3 - load resistor transistor Ql. R4, C4 - thermostabilization emitter circuit of the transistor. C1 - filter capacitor voltage. C5, R5, L1. C6 - a lowpass filter (LPF). C7 - decoupling capacitor. The composition of Class D amplifier also includes a generator of a triangular or sawtooth. The frequency of this oscillator is usually in the range of 200 ... 600 kHz. Swipe "blade" of the generator and the gain stage to Q1 are chosen so that the output transistor switches Q2 and Q3 are alternately opened until when the voltage saturation "saw" through zero. Stress diagram explaining the operation of the scheme. beep input otsugstvuet pas. "Saw * is symmetric, and na emitters of transistors Q2 and Q3 form a symmetrical square wave, square wave. When submitting pa amplifier input signal LF "Saw" will shift up or down. Change points unlocking transistors and as a consequence, the duration of the output pulses and pauses between them. These parameters will vary according to the law of the input low-frequency (audio) signal. The resulting pulse signal with a variable duty cycle pulse-called imiulspym or PWM sigialom and process to obtain it - shirotpo-width modulation (PWM). PWM sigpal contains LF component. form modudiruyuschy repeating signal. If the PWM signal from the output transistor switches to pass through the LPF, then he will miss this component to the speaker and to suppress the high-frequency components of the PWM sigpala. Due to incomplete suppression of the HF-sostavlyayuschsy AC voltage on the speaker will be slightly indented, you can see enlarged fragment pas to the lower graph in  . Irregularity decreases with increasing frequency PWM generator, improved quality of the LPF and the use of certain know-how, which carefully guard Manufacturers chip amplifiers class D.
Class D amplifiers using bipolar transistors are gone. The foundation of modern UMZCH Class D are powerful keys pas MOS transistors are characterized by high performance and low resistance channel open. When using such transistors in key mode achieves a high efficiency. Two practical schemes UMZCH Class D MOS transistors and operational amplifier are given in [1]. The real boom in the use mode class D UMZCH began with the appearance of such specialized chips as ZXCD1000 firm Zeiex | 2 |, and several others. These chips are called driver amplifiers class D. They contain a PWM generator with "Saw" frequency 2200 kHz and provide control of external keys on MIS traizistorah. Many of these drivers can drive four external output keys pas MOS transistors included bridge. The next stage in the development of UMZCH Class D was the creation of chips that integrate not only the driver but also the keys pas weekend MIS traizistorah. It is to such chips are MR7720, MR7731 and MR7781 firm MPS (Monolithic Power Systems). All are monophonic. About rated output says penultimate figure in the name: MR7720 - 20 W, MR7731 - 30 W, MR7781 - 80 watts. Peak output power of these chips twice. Consider the features and switching circuits each of them.


MR7720 IC is available in a SOIC8 (SMD) and PDIP8, which have 8 pins and the same pinout, or, as they say now, raspipovku. UMZCH this chip has a memorial 20W load resistance of 4 ohms and a supply voltage of 24 V. Frequency Response -20 Hz .... 20 kHz. It has an efficiency of 90% with non-linear distortion less than 0.1% for the whole frequency range and output power of 1 W (0.06 ... 0.07% to 1 kHz). Supply voltage 7.5 ... 24 V chip embedded in the bottom of the output key pas MOS transistors, which are connected in series on Nutrition (half-bridge).


Schematic diagram UMZCH Class D chip MR7720
Circuit of the chip that is very similar to the OS or UMZCH on chips that operate in the usual modes of classes A, B or AB. Integrated circuit U1 MR7720 has a differential input (pins 1 and 2), a positive (neivertiruyuschy) conclusion in this scheme is used as an input offset voltage, which sets the mode of the chip, and most importantly - the symmetry of the circuit. Bias voltage to neivertiruyuschem input (pin 1) should be equal to half the supply voltage, it is formed divider R3, R2. Capacitor C2 blocks the output AC voltage. It should be noted that the asymmetry of the circuit can cause an increase in nonlinear distortion and even overheating of one of the output switches and the output circuit of the system. The input signal is applied to the inverting input of circuits (terminal 2) via a capacitor C1 and a current limiting resistor R1. In position C1 firm - chip developer recommends using a ceramic capacitor types NPO, X7R, X5R or equivalent types. Voltage gain circuit is defined by the resistors R1 and NFB circuit R4 and can be calculated by the formula: 
KU = R4/R1.
To increase the amplitude of the output pulses chip used on conventional two-stroke known transformerless amplifier circuit to increase efficiency with voltage boost capacitor C7, which is connected between the output (pin 7) and the input voltage boost circuit (pin 5). The capacitor C7 is selected in the range of 0.1 ... 1 uF. To protect the internal circuitry chip overload C7 connected in parallel with the zener diode D2 stabilization voltage of 6.2 V. For separation of the amplified signal and suppress high frequency components of the pulse in the load to the output (pin 7) is connected SFF consisting of choke L1 and capacitor C8. Capacitor C9 - isolating. Schottky diode D1 suppresses the induction currents and EMF emissions arising from the shift points in the L1 output switches when both keys are locked. PWM frequency transformation given feedback circuit R4, NW, and these denominations in the scheme it is 600 kHz. At a higher frequency increases power loss, and at least - non-linear distortion. C4 - NFB capacitor for high frequency. Capacitors Sat, C5 - decoupling filter feeding. To eliminate the passage of impulse noise on the supply lines capacitor C5 must be provided between the terminals 6 and 8 of the chip, and as close as possible to these conclusions. Simply work UMZCH this can be explained as follows. Input through Cl, R1 is supplied to the inverting input of the chip (output 2). This leads to a change in duty cycle duration and frequency of 600 kHz at the output circuit (pin 7) to change the law of the instantaneous value of the input signal and the appearance of the output signal amplified LF component, repeating the form input, which is through the LPF L1, C8 and separation capacitor C9 is supplied to the loudspeaker. Add to this can only be that the input and output signals in antiphase.

MR7731 chip comes in a TSSOP20F SMD, who has 20 pins and a metal pad on top for thermal contact with the heat sink. Rated power on the chip UMZCH MR7731 is 30 watts at 4 ohms load resistance and supply voltage 16 V. Frequency 20Hz .. "20 kHz. Efficiency of 90% at an output power of 5 watts. Harmonic distortion less than 0.1% for the whole frequency range with output power of 1W. Supply Voltage 7.5 - .24 B. chip built on four key output MOS transistors, which included the bridge. Feature mono UMZCH bridge is that they have two, usually equal to the output of amplifier channel keys that include half-bridge. Ie MR7731 chip contains two channels, similar in structure to the chip MR7720. Sol that these channels operate in antiphase, and the load (speaker) without dividing capacitors connected between the outputs of these channels, as a constant voltage at each output terminal is equal to half the supply voltage. For antiphase control switch channels normally used by the "master - slave» (Master - Slave), ie both amplifiers are included on the input signal sequentially 




C1, C2 - blocking capacitors. R1. R2-voltage divider signals, L1, NE and L2, C4-LPF

For this integration, both channels must be an inverting amplifier. The signal on the second channel is output from the first through the divider Rl, R2  or the limiting resistor.




Schematic diagram UMZCH Class D chip MR7731
Typical circuit diagram UMZCH Class D chip MR7731 is shown in Fig , and pin assignment of this chip is shown bottom

Pin Number Designation Appointment
1 NC Not used
2 PIN1 Non-inverting input of channel 1. Used as an input offset voltage (reference voltage)
3 NIN1 Inverting input channel 1
4 AGND1 Housing analog part 1
5 NC Not used
6 EN1 Enable input channel 1. High - MS enabled. Low - off
7 NIN2 Inverting input of channel 2
8 PIN2 Non-inverting input of channel 2. Used as an input offset voltage (reference voltage)
9 AGND2 Housing analog part 2
10 EN2 Enable input for channel 2. High - MS enabled. Low - off
11 NC Not used
12 BS2 Input voltage boost circuit channel 2
13 VPP2 Input voltage of channel 2 (7.5 ... 24 V
14 SW2 Output channel 2
15 PGND2 Housing supply circuits 2
16 NC Not used
17 BS1 Input voltage boost circuit channel 1
18 VPP1 Power supply input channel 1 (7,5 ... 24)
19 SW1 Output channel 1
20 PGND1 Housing supply circuits 1

      Sort out the details of the appointment on the chip UMZCH MR7731 scheme (Fig. ). Bias voltage to neiver-commuting inputs of both channels (pins 2 and 8), equal to half the supply voltage divider formed by R2, R5. Capacitor 09 bypasses these findings AC voltage, and capacitors C54 and C41 set the PWM frequency conversion of the 1st and 2nd channels respectively. These capacitors should be located as close to the terminals, near which they are drawn in the diagram. C53 - supply filter capacitor, and the C55 and C42-decoupling capacitors, which also should be placed as close as possible to the terminals, near which they are drawn. The input signal is applied to the inverting input of the channel 1 (terminal 3) via a coupling capacitor C35 and a current limiting resistor R16. The voltage gain of the channel is defined by 1 chip resistors chain DUS R14hR16, and channel 2 - Values ​​R44 and R34. NFB HF channel 1 through capacitor C29. and Channel 2 - through C34. Capacitor C37 - this capacitor voltage boost channel 1, and C22 - capacitor voltage boost channel 2. They increase the efficiency of the amplifier. Parallel to these capacitors connected diodes D13 and D15 with a voltage of 6.2 V. The strong stabilizing output sound stands out in Fitch at the outputs of channels 1 (L4, C47) and 2 (L3, C43) and goes to the speaker. Fitch suppress high frequency components of the PWM pulse signal at the outputs of the chip and do not miss them in the load. Schottky diodes D6, D8 quenched induced currents and EMF emissions arising coils L3 and L4 switch points in the output switches when they are all locked. These coils should be rated at 2.6 A. Each channel has its own enable input EN1 (pin 6) and EN2 (pin 10).With a low voltage level on these findings the chip will be in the standby mode, when high - in operation. MR7781 chip comes in a SOIC24 SMD, which has 24 output and a metal pad on top for thermal contact with the heat sink. Memorial power on-chip mono UMZCH MR7781 80 watts at 4 ohms load resistance and supply voltage of 24 V. Frequency range 20 Hz to 20 kHz ..... 95% efficiency at an output power of 80 watts. Harmonic distortion less than 0.1% for the whole frequency range with output power of 1W. Supply Voltage 7.5 - .24 B. chip built on four key output MOS transistors, which included the bridge. MR7781 chip has two equal channel amplifier with differential inputs and output MIS keys that included half-bridge. This device contains two amplifier channels, each of which ends on the half-bridge MOSFETs. All this reminds MR7731, but unlike this chip, typically inclusion MR7781 scheme is used, which can be called a parallel-series connection of amplifier channels (see Fig ). In this scheme, the input signal directly to the inputs of both amplifier channels. Moreover, one channel it enters the non-inverting input, and in the other - an inverting. Therefore, the upper and lower speaker terminals are applied at the same amplitude but anti-phase voltage signals that can be seen from the graphs shown in the diagram ( Fig ). The ratio of resistances limiting resistor R1 and resistor divider circuits DUS R2, R3, R4, R5 determine the gain circuit. Divisors through R2, R3 and R4, R5 are defined as the bias voltage at the inputs and made ​​negative feedback (NFB) at a constant voltage, which stabilize the mode amplification channels, ie these divisors set dc output channels equal to half the supply voltage, and by CCA to maintain them.


Simplified diagram UMZCH Bridged output (with parallel-serial control)
C1 - decoupling capacitor, 
R1 - limiting resistor, 
R2, R3 and R4, R5 - divisors circuits 00C DC and AC voltage, 
L1, C2 and L2, NW - LPF

MR7781 chip has a complex internal organization than the above circuit. This is indirectly confirmed by the number and pin assignments chip, as shown bottom .

Pin assignment chip MR7781
Pin Number Designation Appointment
1 DR1 Control output voltage of the low voltage channel 1
2 NC Not used (recommended to connect pin 1 or 3)
3 GND Corpus internal modulator
4 AI2 Non-inverting input of channel 2
5 BI2 Inverting input of channel 2 (input AUDIO HSE)
6 MO2 Internal PWM output + channel 2 (open-drain)
7 SHDN2 Enable input for channel 2. Active level - low
8 BS2 Input voltage boost circuit channel 2
9 GND Housing supply chain channel 2
10 SW2 Output channel 2
11 V + Input voltage PWM (7,5 ... 24)
12 M2 Input signal PWM driver stage of channel 2
13 DR2 Control output voltage of the low voltage channel 2
14 NC Not used
15 V + Input voltage of channel 2 (7.5 ... 24 V)
16 MO1 Internal PWM output channel 1 + (open-drain)
17 AI1 Inverting input of channel 1 (input DUS)
18 BI1 Non-inverting input of channel 1 (input AUDIO)
19 SHDN1 Enable input channel 1. Active low level +
20 BS1 Input voltage boost circuit channel 1
21 GND Housing supply circuits
22 SW1 Output channel 1
23 V + Power supply input channel 1 (7,5 ... 24)
24 M1 Input signal PWM driver stage channel 1

Typical circuit diagram UMZCH MR7781 on a chip is shown in Fig . The input signal is applied to the terminals 5 and 18 chip through limiting resistor R20 and capacitor C25. Resistors R3, R5, R7, R17, R19, R21, R12, R8 and capacitors Sat, C24, C9, C15 includes chain NFB DC and AC voltage. These chains set the gain chip and constant voltage equal to half the supply voltage, at the midpoint, ie outputs channels UMZCH bridge (pins 10 and 22 chips).Capacitor CIO in channel 1 and channel 2 S18a - Capacitors voltodobav matches that are needed to improve the efficiency of the amplifier.


Schematic diagram UMZCH Class D chip MR7781
LI, C2, L2, C2, C13, R2, C5, R18, C23 - it details the SFF, which is passed to the speaker audio signal and suppress pulse HF component of the PWM signal. SFF coils L1 and L2 must be rated at 5 A. The optimal frequency PWM conversion IC MR7781 is 400 kHz. It is determined by the capacitance of the capacitor C that is connected between the differential input pin of this chip (connected between the two terminals 5, 18, 4, 17). EMF emission quenching and induction currents in the coils L1 and L2 LPF moments in the switching output switches when they are all locked up, carried Schottky diodes D1 and D5.
Each channel has an enable input (active low). Pin 19 (SIIDN1) - this is the enable input channel 1 and pin 7 (SIIDN2) - enable input channel 2. These terminals are connected together. High level (inhibit signal) is generated using the parametric stabilizer R6, D3. With this level of power is turned off and is in MUTE, which is characteristic of low current consumption (
To obtain such a low power consumption mode MUTE, on-chip voltage regulators integrated low-voltage parts and circuit switching them. Control signals are output from this circuit chip via terminals 1 (DR1) and 13 (DR2), and then through the switching diodes D2 and D4 received at terminal 20, respectively (BS1) and 8 (BS2). Moreover, TT high level control signal output 13 (DR2) opens key on the bipolar transistor Q1. Through the transistor supply voltage supplied to the junction of resistors R1 and R11. Do chip MR7781 there are four interesting conclusions. This conclusion 16 (MOl), 24 (Ml), 6 (M02) and 12 (M2). MOl and M02 - it outputs PWM appropriate channels, a Ml and M2 - is key inputs output circuits. Conclusions MO and M with the same numbers are interconnected. In addition, outputs MO1 and MO2 are open drain. The pull-up resistor (external load) connected between these terminals and the voltage at the emitter of transistor Q1, - it is already known resistors R1 and Rl 1. C1 - supply filter capacitor, and capacitors NW, C12, C16, C8, C10, C14 and C18 - decoupling. To improve the outcome and reduce the interference is recommended to install them as close as possible to the corresponding terminals of the chip. To eliminate the characteristic UMZCH click for inclusion in the scheme established capacitors C7 and C9.
To ensure stability and repeatability circuit resistors R3, R5, R7, R17, R19, R21 and R12 should be 1% tolerance. The same shall be allowed, and a resistor R6.
THD indicated in the table, achievable and guaranteed only at a frequency of 1 kHz at the output power of 1W. With increasing frequency and power it rises. Dependence THD chip MR7720 from power (at a frequency of 1 kHz, 24 V supply voltage and load impedance 4 ohms) is shown in Fig, and the frequency of the signal (at 24 V supply voltage, load resistance of 4 ohms and power 19.6 W) -

In conclusion, I want to note that there are several varieties of PWM amplifiers. First, it is power "Class T" pulse width modulator which not only changes the duty cycle, but the frequency of the PWM output signal. Secondly, the so-called power "class N», information about which can be found in [3]. It also amplifier operating in key mode, but combined with the power supply unit.

Read More..

Small Circuit Multiband Radio Transmitter CW


Small

This is a Small Circuit Multiband Radio -Transmitter CW for who wants to learn more about radiofrequency, mainly operating principle from radios transceivers multiband, That schema consists of a frequency oscillator RF, which is the main component us transmitters and radio receivers. 

He oscillates for high frequency, he is called variable frequency oscillator or VFO, their frequency may vary of 5.2 MHz to 15 MHz, depending the coil chosen and signal can be received in the band shortwave by any receiver radio.In S1 is used a switch type bell, but can-if use a handler CW, these used by radio amateurs. How antenna should-if use a the type dipole from 1/4 wave.

Small



Read More..

Battery Charger Circuit using Solar Cell Wiring diagram Schematic

This is a schema solar charger via USB cable emergency, it is an alternative schema that uses solar cell and LM317 to regulate and make a recharge via USB for electronic equipment that can be IPODs, cell phones, MP3, tablets, etc..

The simplicity of the schema can be noted that he does not have much appeal, but its enough to make a simple battery charge. The Solar Cell should be 12v current should be enough for loading, 10% of the batteries.


 Battery Charger Circuit using Solar Cell Circuit Diagram


Battery

Read More..

Fastest Finger First Indicator

Fastest Finger First Indicator Circuit Diagram. Quiz-type game shows are increasingly becoming popular on tale vision these days. In such games, fastest finger first indicators (FFFIs) are used to test the player’s reaction time. The player’s designated number is dis played with an audio alarm when the player presses his entry button. The schema presented here determines as to which of the four contestants first pressed the button and locks out the remaining three entries. Simultaneously, an audio alarm and the correct decimal number display of the corresponding contestant are activated. 



Fastest
Fastest Finger First Indicator Circuit Diagram
 
When a contestant presses his switch, the corresponding output of latch IC2 (7475) changes its logic state from 1 to 0. The combinational schemary comprising dual 4-input NAND gates of IC3 (7420) locks out subsequent entries by producing the appropriate latch-disable signal. Priority encoder IC4 (74147) encodes the active-low input condition into the cor responding binary coded decimal (BCD) number output. The outputs of IC4 after inversion by inverter gates inside hex inverter 74LS04 (IC5) are coupled to BCD-to-7-segment decoder/display driver IC6 (7447). The output of IC6 drives common-anode 7-segment LED display (DIS.1, FND507 or LT543). 

The audio alarm generator comprises clock oscillator IC7 (555), whose output drives a loudspeaker. The oscillator frequency can be varied with the help of preset VR1. Logic 0 state at one of the outputs of IC2 produces logic 1 input condition at pin 4 of IC7, thereby enabling the audio oscillator.  IC7 needs +12V DC supply for sufficient alarm level. The remaining schema operates on regulated +5V DC supply, which is obtained using IC1 (7805). Once the organiser identifies the contestant who pressed the switch first, he disables the audio alarm and at the same time forces the digital display to ‘0’ by pressing reset pushbutton S5. With a slight modification, this schema can accommodate more than four contestants. 


Author : P. Rajesh Bhat  – Copyright : EFY
Read More..

Wednesday, August 27, 2014

12V Step Down Dc Converter Using ADP2300 ADP2301

Using ADP2300 ADP2301 step-down dc dc regulators with integrated power MOSFET, can be designed a very simple DC DC voltage converter. Output voltage delivered by these diagram can be adjusted from 0.8 volts, up to 0.85xVin , with ±2% accuracy. The maximum output current that can be provided by ADP2300 ADP2301 regulators is up to 1.2 A load current.

12V Step-Down Dc Converter Circuit Diagram

 
12V
12V

There are two frequency options: the ADP2300 runs at 700 kHz, and the ADP2301 runs at 1.4 MHz. These options allow users to make decisions based on the trade-off between efficiency and total solution size. Current-mode control provides fast and stable line and load transient performance.  Bellow you an see two design examples, which require few common electronic components.First schema will provide a 2.5V output at a maximum current of 1.2A from an input voltage of 12 volts. Second schema will provide a 5V output at a maximum current of 1.2A from an input voltage of 12 volts.
Read More..

NiMH NiCd Li ion lead acid Solar Powered Battery Charger

This is the NiMH, NiCd, Li-ion, lead acid Solar Powered Battery Charger Circuit Diagram. solar battery charger that will charge a variety of batteries: NiMH, NiCd, Li-ion, lead acid. Although there are solar battery chargers on the market, most are only for one application: cell phone, NiMH batteries, etc. Our charger will have the user input the battery type, capacity, and voltage. It will display the charge status and incorporate various safety systems, including temperature monitoring and battery polarity checking.

NiMH, NiCd, Li-ion, lead acid Solar Powered Battery Charger


NiMH,

Read More..

Remote Operated Home Appliances Circuit

Here is the schema diagram of Remote Operated Home Appliances or Remote controlled Home appliances. Connect this schema to any of your home appliances (lamp, fan, radio, etc) to make the appliance turn on/off from a TV, VCD, VCR, Air Conditioner or DVD remote control. The schema can be activated from up to 10 meters. It is very easy to build and can be assembled on a veroboard or a general-purpose PCB.











Parts:

R1 = 220K
R2 = 330R
R3 = 1K
R4 = 330R
R5 = 47R
C1 = 100uF-16V
C2 = 100nF-63V
C3 = 470uF-16V
D1 = 1N4007
D2 = Red LED
D3 = Green LED
Q1 = BC558
Q2 = BC548
IR = TSOP1738
IC1 = CD4017
RL1 = Relay 5V DC





The 38kHz infrared rays generated by the remote control are received by IR receiver module TSOP1738 of the schema. Pin 1 of TSOP1738 is connected to ground, pin 2 is connected to the power supply through R5 and the output is taken from pin 3.
The output signal is amplified by Q1. The amplified signal is fed to clock pin 14 of decade counter IC CD4017 (IC1). Pin 8 of IC1 is grounded, pin 16 is connected to vcc and pin 3 is connected to D2 (Red LED), which glows to indicate that the appliance is ‘off.’ The output of IC1 is taken from its pin 2. D3 connected to pin 2 is used to indicate the ‘on’ state of the appliance. Q2 connected to pin 2 of IC1 drives relay RL1.
D1 acts as a freewheeling diode. The appliance to be controlled is connected between the pole of the relay and neutral terminal of mains. It gets connected to live terminal of AC mains via normally opened (N/O) contact when the relay energizes.
If you want to operate a DC 12 volt relay then use a regulated DC 12 volt power supply for DC 12 volt Relay and remember that the circuit voltage not be exceeded more than DC 5 volts.

Read More..

Tuesday, August 26, 2014

Simple F and V Converter Wiring diagram Schematic

This is a best Frequency/Voltage Converter schema diagram proportional voltage by the use of a frequency-to-voltage (F/V) converter. Teledyne Semiconductor`s Type TSC9402 is a versatile IC. Not only can it convert voltage into frequency, but also frequency into voltage. It is thus eminently suitable for use in an add-on unit for measuring frequencies with a multimeter. 

 Best F and V Converter Circuit Diagram


Best


Only a few additional components are required for this.. Just one calibration point sets the center of the measuring range (or of that part of the range that is used most frequently). The frequency-proportional direct voltage at the output (pin 12—amp out) contains interference pulses at levels up to 0.7 V. If these have an adverse effect on the multimeter, they can be suppressed with the aid of a simple RC network. 

The output voltage, U0, is calculated by: tfo=C/rei(Ci + 12 pF) R2fm Because the internal capacitance often has a greater value than the 12 pF taken here, the formula does not yield an absolute value. The schema has a frequency range of dc to 10 kHz. At 10 kHz, the formula gives a value of 3.4 V. The schema draws a current of not more than 1 mA. 

Sourced By : Circuitsstream
Read More..

The High Voltage Geiger Counter Supply Wiring diagram Schematic

This High Voltage Geiger Counter Supply Circuit Diagram will generate about 300 volts dc —at a very low current, but enough for a GM tube. be careful with the output.


High Voltage Geiger Counter Supply Circuit Diagram

High

Read More..

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


Diode

Read More..

Monday, August 25, 2014

5 Volt Regulated PSU Featuring Overvoltage Protection


Notes
The 5 volt regulated power supply for TTL and 74LS series integrated diagram, has to be very precise and tolerant of voltage transients. These ICs are easily damaged by short voltage spikes. A fuse will blow when its current rating is exceeded, but requires several hundred milliseconds to respond. This schema will react in a few microseconds, triggered when the output voltage exceeds the limit of the zener diode.

This schema uses the crowbar method, where a thyristor is employed and short diagram the supply, causing the fuse to blow. This will take place in a few microseconds or less, and so offers much greater protection than an ordinary fuse. If the output voltage exceed 5.6Volt, then the zener diode will conduct, switching on the thyristor (all in a few microseconds), the output voltage is therefore reduced to 0 volts and sensitive logic ICs will be saved. The fuse will still take a few hundred milliseconds to blow but this is not important now because the supply to the schema is already at zero volts and no damage can be done. The dc input to the regulator needs to be a few volts higher than the regulator voltage. In the case of a 5v regulator, I would recommend a transformer with secondary voltage of 8-10volts ac.
Read More..

Timer Circuit with Independent On and OFF Delay Adjust Facility

Timer
The schema can be used for generating delays at a desired rate. The On time of the relay can be controlled by adjusting the Pot VR1 while the pot VR2 may be used to decide after how long the relay responds once the input trigger is fed by the switch S1.

 The parts list is enclosed inside the diagram.


Sourced by : Streampowers
Read More..

35W Power Amplifier Circuit using STK082

The following is the schematic diagram of 35W power audio amplifier. Built based on power-amp IC of STK082, this schema will give great audio output for your home audio system.
35W


Download the STK082 datasheet
Read More..

2 Way Active Crossover Circuit

2-Way

This is the schematic diagram of 2-way active crossover schema. The "active" word means that the schema use active component and need power supply to work. Take a note that the input of this schema is not connected to the output of power amplifier. This crossover schema module must be placed before the amplifier schema. The "Low Out" output connected to a power amplifier and the low speaker [Woofer], while the "High Out" output is drive the power amplifier of high speaker [Tweeter].


Parts List

R1 = 100Kohms
R2,3,4,5,6 = 37.5ohms [33K+4.7K]
R7 = 75Kohms[150K//150K
R8 = N.C
R9,10,11,12,13,14,15,16 = 10Kohms
R17,18 = 47Kohms
R19,20 = 47ohms
C1 = 4.7uF/100V MKT
C2,3,4,5,6,7,12,13 = 1nF 100V MKT
C8,9,10,11,14,15 = 100nF 100V MKT
C16 = 2.2uF/100V MKT
C17 = 470nF 100V MKT
C18,19 = 47uF/25V
J1,2,3 = 2pin conn. 2.54mm pin step
J4 = 3pin conn. 2.54mm pin step
IC1,2,3 = NE5532 , TL072
TR1 = 100Kohms trim. or pot.
TR2,3 = 47Kohms trim. or pot.
All the Resistors is 1,2% 1/4W metal film

Circuit Source: 2-Way Active Crossover Circuit with Linear Phase Response
Read More..

Sunday, August 24, 2014

Programmable Amplifier Wiring diagram Schematic

This is the Programmable gain differential input amplifier schema diagram. This programmable gain schema employs a CD4051 CMOS Analog Multiplexer as a two to four line decoder, with appropriate FET drive for switching between feedback resistors to program the gain to any one of four values. 

Programmable Amplifier Circuit Diagram

Programmable

Read More..

Amplifier for Paralelling Headphone

Amplifier
The circuit is useful to strengthen the voice on the headphones, which is where the headphones have a stereo output is used and paralleled to some headphones. The circuit is based on the TDA2822 amplifier circuit modified to ampifier headphones.
Read more
Read More..

LED at 230 V

Small schema to run a LED on line voltage (English)

This little schema allows to connect a LED to line voltage. A LED can not handle with 230V AC and needs a current which is limted to ca. 15mA. The first issue is simply solved with a diode which eliminates the voltage in reverse-biasing. The current is limited by the combination of the resistor and capacitor. Used at AC capacitors work as frequency dependent resistors. You can simply calculate the capacitive resistance of the capacitor by the following formula:
Formula
Based on a frequency of 50Hz and a capacity of 220nF you get a reactance of ca. 16kΩ. This is just perfect for a LED. The resistor prevents that the capacitor does not charge that abruptly.

Hinweis

Attention. This schema works with life threatening line voltage. All parts of this schema are connected to the grid! You have to make sure that it is not possible to touch any parts of the schema at any time. You have to unplug the schema everytime you want to check it.

Part list

  • C1: foil capacitor 220nF, 250V~ (stick to the values!)
  • R1: 2,2kΩ
  • R2: 220Ω
  • D1: 1N4007 (or comparable; must be suitable for 220V/230V)
  • LED1: standard LED

Circuit diagram

Circuit



Source by : Benedikt Wirmer

Read More..

Multi Color LED

How many different conditions do you reckon may be signalled with just one LED? Two, maybe three? Using this simple schema, a lot more! Admittedly, a two-colour LED is used here. Such a device consists of two light-emitting chips, usually red and green, encapsulated in the same case. It has three pins: two for the anodes, and one for the common cathode. In this way, each diode can be activated separately. Various mixed colours may be obtained by varying the current through the two diodes. At least four discrete colours are then easily perceived: pure red, pure green, orange (I R ≈ 2 I G ) and yellow (I G ≈ 2I R ). In the present schema, the LED elements are driven by CMOS three-state buffers type 4503, which, unlike most CMOS ICs from the 4000 series, are capable of supplying up to 10 mA of output current. The LED cur-rents are limited by resistors R1 through R6, whose values invite experiments with brightness and colours according to your own taste. Circuit diagram : Multi-Color LED Circuit Diagram The schema was originally developed to indicate the state of three inputs, a, b, and c (non-binary, i. e., only one of these is at 1 at any time), with the coniguration (a=b=c=0) representing the fourth state. The latter is decoded by NAND gate IC1. An additional effect is produced by gates IC1a and IC1b, which are connected up into an oscillator schema producing approximately two pulses per second. These pulses are used to control the common-enable input, DA (pin 1) of the 4503, so as to produce a flickering effect. The oscillator is controlled by means of inputs ‘d’ and ‘e’. Pulling both of these logic high disables the oscillator and the LED driver. With e=0 and d=1 the outputs of the 4503 are switched to three-state, and the schema is in power-down standby mode.

Although designed for a 12-V supply voltage, the schema will happily work at any supply volt-age between 5 V and 16 V. Non-used inputs of CMOS ICs must, of course, be tied to ground via 10-100 k W resistors.

Read More..

Saturday, August 23, 2014

Complete your home theater setup with home theater seating

After a full day of work and mind bubbling activities in the workplace, the last entry in a young professional’s diary is to go to a movie theater to relax. The sight and sound of a movie theater relaxes and easily entertains even the most stressed moviegoer. The problem with this however is the fact that even before you reach the movie theater, traffic jam may be a hindrance to your enjoyment. Traffic jam usually makes you more stressed than you currently are. It may be best if you can bring home the relaxation and entertainment. Having to sit and relax with your spouse in your own home theater maybe best to eradicate the tiredness that you feel.

This is why the concept of home theater is born. Because of the growing popularity of home theater systems, you may easily find home theater furniture like home theater seating system and home theater equipments that will suit your requirements. This modern concept is slowly receiving a grand welcome from people because in the end, having home theater set up in your home may prove to be economical. Home theater system including home theater seating that completes the set up is not only available for the rich and the famous.

Slowly, the knowledge of the basic home theater design such as the three major components and home theater seating options is getting to be a concept known to the middle class citizenry. Home theater system with the addition of home theater seating options may be a neat gift of the older people because they can enjoy watching movies even without having to leave the house. Home theater seating options include lumbar back support and motorized reclining mechanism, especially designed for people who need to give their back a rest. 

It may be worthy to mention what are the three basic components of a home theater system. You may not need to add home theater seating if the room is quite small, only the three basic components may be able to give you that home theater entertainment you long for. Do not mind home theater seating if you do not have big budget for the home theater system, a recliner may do the part especially if your living room has limited space. The three basic components of a home theater system are television set which should not be smaller than 27 inches; three speakers placed on the right, the left and on the center for a surround sound; and finally, the DVD player, you may need to find one with progressive scan because this will give you sharp images and flicker-free pictures. If you have all these basic home theater components, even without home theater seating, you may be able to experience the almost theatrical experience.

Relax and enjoy the entertainment your home theater system may provide. Sit beside your family in your home theater seating designed to your whole family, the kids will surely love to see a movie with you on your very own home theater system. You may not need home theater seating to complete the set up if the room is quite small. However, if you have a bigger room for your home theater system, including the home theater seating in the set up may be able to complete the best home theater package. You may even add television cabinet to compliment the design and your home theater seating which may be made of the same wood as your television cabinet.

Additionally, because the basic three speakers’ requirement is only good for smaller rooms, if you have a bigger room, you may need to add more speakers. You can even put six speakers and a subwoofer to complete that surround sound you love in a movie theater. All these will complete the grand package of your home theater. You may need to consider high-end home theater seating to help you relax you tired body from working all day. Relax and enjoy life with your family, your home theater system may do a lot of good for you.
Read More..

Step Up Booster Powers Eight White LEDs

Tiny white LEDs are capable of delivering ample white light without the fragility problems and costs associated with fluorescent backlights. They do pose a problem however in that their forward voltage can be as high as 4 V, precluding them being from powered directly from a single Li-Ion cell. Applications requiring more white LEDs or higher efficiency can use an LT1615 boost converter to drive a series connected array of LEDs. The high efficiency schema (about 80%) shown here can provide a constant-current drive for up to eight LEDs. Driving eight white LEDs in series requires at least 29 V at the output and this is possible thanks to the internal 36-V, 350-mA switch in the LT1615.

The constant-current design of the schema guarantees a steady current through all LEDs, regardless of the forward voltage differences between them. Although this schema was designed to operate from a single Li-Ion battery (2.5V to 4.5V), the LT1615 is also capable of operating from inputs as low as 1 V with relevant output power reductions. The Motorola MBR0520 surface mount Schottky diode (0.5 A 20 V) is a good choice for D1 if the output voltage does not exceed 20 V. In this application however, it is better to use a diode that can withstand higher voltages like the MBR0540 (0.5 A, 40 V). Schottky diodes, with their low forward voltage drop and fast switching speed, are the best match.

Many different manufacturers make equivalent parts, but make sure that the component is rated to handle at least 0.35 A. Inductor L1, a 4.7-µH choke, is available from Murata, Sumida, Coilcraft, etc. In order to maintain the constant off-time (0.4 ms) control scheme of the LT1615, the on-chip power switch is turned off only after the 350-mA (or 100-mA for the LT1615-1) current limit is reached. There is a 100-ns delay between the time when the current limit is reached and when the switch actually turns off. During this delay, the inductor current exceeds the current limit by a small amount. This current overshoot can be beneficial as it helps increase the amount of available output current for smaller inductor values.



This will be the peak current passed by the inductor (and the diode) during normal operation. Although it is internally current-limited to 350 mA, the power switch of the LT1615 can handle larger currents without problems, but the overall efficiency will suffer. Best results will be o btained when IPEAK is kept well below 700 mA for the LT1615.The LT1615 uses a constant off-time control scheme to provide high efficiencies over a wide range of output current. The LT1615 also contains schemary to provide protection during start-up and under short-schema conditions.

When the FB pin voltage is at less than approximately 600 mV, the switch off-time is increased to 1.5 ms and the current limit is reduced to around 250 mA (i.e., 70% of its normal value). This reduces the average inductor current and helps minimize the power dissipation in the LT1615 power switch and in the external inductor L1 and diode D1. The output current is determined by Vref/R1, in this case, 1.23V/68 = 18 mA). Further information on the LT1615 may be found in the device datasheets which may be downloaded from www.linear-tech.com/pdf/16151fa.pdf


Streampowers
Read More..

Mobile Phone Travel Charger Wiring diagram Schematic

This is a Mobile Phone Travel Charger Circuit Diagram. At this point is an ideal cellular phone charger using 1.5 Volt ballpoint cells to charge mobile phone while wandering. It can refill cell phone battery three before four period in the field of spaces everyplace AC power is not on hand.
A good number of the cell phone phone batteries are rated by the side of 3.6 in opposition to/500 mA. A single create torch cell can provide 1.5 volts and 1.5 Amps current. So if four pen cells are connected serially, it wish form a battery bunch with 6 volt and 1.5 Amps current. while power is practical to the schema through S1, transistor T1 conducts and grassy LED light.

Mobile Phone Travel Charger Circuit Diagram
simple
What time T1 conducts T2 furthermore conducts since its dishonorable becomes denial. Charging current flows from the satellite dish of T1. To reduce the charging voltage to 4.7 volts, Zener diode ZD is used. The output gives 20 mA current on behalf of stupid charging. If additional current is essential for fast charging, reduce the denomination of R4 to 47 ohms so with the aim of 80 mA current desire live on hand. Points A and B are used to bond the steed with the itinerant phone. assistance as it should be pins meant for this and connect with correct polarity.
Designed by D.Mohan kumar
Read More..

Friday, August 22, 2014

24V DC Powered Beeper with 4 Separate Inputs

24v DC is a very popular voltage used in industrial settings. This hobby schema below was designed to accept four different 24v DC alarm input signals, which are then used to drive a single low power beeper. The beeper is a magnetic type with its own oscillator/driver. The four diodes form an “OR” gate so any one of the four inputs will cause the beeper to make noise. A CMOS version of the popular 555 timer is used to strobe the beeper on and off at about 1Hz.


24V


Source :Streampowers
Read More..

5V 2A Dc Converter Using LT3980 Wiring diagram Schematic

Using LT3980 manufactured by Linear Technology can be designed a very simple 5 volts dc converter schema.

5V 2A Dc Converter Circuit Diagram


Converter

The LT3980 has an adjustable frequency from 100kHz to 2.4MHz and accepts input voltages up to 58V . The transient voltage of the LT3980 is around 80 volts . The maximum output current which can be delivered by the LT3980 monolithic buck switching regulator is around 2 Amps .

Main features of the LT3980 monolithic buck switching regulator are : wide input range from 3.6V to 58V , overvoltage lockout protects diagram through 80V transients , 2A Maximum Output Current , low ripple (<15mVP-P) Burst Mode, aAdjustable switching frequency: 100kHz to 2.4MHz ,low shutdown current: IQ < 1μA, thermal protection, Soft-Start Capability . Link
Read More..

20W Hi Fi Audio Amplifier

General Description
The TDA1520A is a monolithic integrated hifi audio power amplifier designed for asymmetrical or symmetrical powert supplies for mains-fed apparatus.

Circuit Diagram:
20W Hi-Fi Audio Amplifier

Read More..

Basic Automatic Day Night Lamp with LDR

Automatic Day-Night Lamp wit LDR
Basic

Maybe it's a lot who know how to work this one series, but I wanted to share back to the beginner on this. In the existing lighting circuit automatic lights that use components LDR (Light Dependence Resistor).

Read more
Read More..

Thursday, August 21, 2014

2 x 6 W stereo power amplifier

Description
The TDA1517 is an integrated class-B dual output  amplifier in a plastic single in-line medium power package  with fin (SIL9MPF), a plastic rectangular-bent single in-line  medium power package with fin (RBS9MPF) or a plastic  heat-dissipating dual in-line package (HDIP18). The  device is primarily developed for multi-media applications.

Circuit Diagram
2 x 6 W stereo power amplifier

Read More..

3V to 40 Volt DC Converter Circuit

Switching regulator subsystems intended for use asdc to dc converters. 3V to 40 Volt DC Converter circuit | The use of switching regulators is becoming more pronounced over that of linear regulators because the size reductions in new equipment designs require greater conversion efficiency. Another major advantage of the switching regulator is that it has increasednapplication flexibility of output voltage. The output can be less than, greater than, or of opposite polarity to that of the input voltage.

3V

Switching

The MC34063 series is a monolithic control circuit containing all the active functions required for dc to dcconverters. This device contains an internal temperature compensated reference, comparator, controlled duty cycle oscillator with an active peak current limit circuit, driver, and a high current output switch. This series was specifically designed to be incorporated in step–up, step–down and voltage–inverting converter applications. These functions are contained in an 8–pin dual in–line package.

FEATURES 3V to 40 Volt DC Converter :
· Wide Input Voltage Range 3 V to 40 V
· Precision Internal Reference 2%
· High Output Switch Current Up to 1.5 A
· Short-Circuit Current Limiting
· Adjustable Output Voltage
· Low Standby Current
· Oscillator Frequency Up to 100 kHz
Read More..

Mic Preamplifier Circuit based TLC251

Here the schematic diagram of mic preamplifier which build based on operational amplifier TC251. The TLC251 is operating in low bias. The schema works with only 1.5 V supply draws electric current of only 10 mA, so the battery operation will be prefered. Circuit frequency response is 3dB, 27 Hz to 4.8 kHz.

Mic


Frequency Response:

Frequency

The TLC251 are low-cost, low-power programmable operational amplifiers designed to operate with single or dual power supplies. Because the input common-mode range extends to the negative rail and the power consumption is very low, this chip is ideally suited for battery-powered or energy-conserving applications. A bias-select pin can be used to program one of three ac performance and power-dissipation levels to suit the application. The series features operation down to a 1.4V supply and is stable at unity gain.

Download the TLC251 datasheet document from the following link:
» Download link
Read More..