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Here are a power amplifier with TDA2009A integrated circuits produced by 10 +10 W stereo amplifier (see figure). As a result of ASIC, making her the production becomes very simple, the performance is not bad.



Her main performance characteristics in the table below.

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Power Supply Voltage: DC 8-24V/1-2A

Power Output:

1. 10W RMS / channel, 4 ohm load, 24V/DC power;


2. 6W RMS / channel, 8 ohm load, 24V/DC power;


3. 4W RMS / channel, 4 ohm load, 12V/DC power.

S/N: >75dB/10W output

Frequency response: 10Hz-50kHz,-3dB

Gain: 36dB

Input Level: 100mV Full output power



Schematic and Prototype:

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Principle and production elements:

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C1, C2 as the input capacitor, C10, C11 for the output capacitor. C6, C7 for the feedback capacitance. R1/R2, or (R3/R4) control the amount of feedback. Amplifier gain is equal to 1 + (R1/R2) = 68, or 37dB. C4, C5 for the power supply filter capacitor. The device maximum supply voltage of 28V. Hours of work required to add TDA2009A heat sink, and should pay attention to the power lines and then the choice of speaker wiring. Input should use shielded lines and as short as possible. Welding TDA200A not take too long when you pay attention, action to be fast, but if you want their full integration with the circuit board.

The order of 4 or sealed rear chamber bandpass system is essentially a system of watertight enclosures with the addition of an acoustic filter for the driver. The resulting system usually provides a lower cut-off frequency, the compromise that a larger case. The space can be reduced by two drivers in isobaric configuration.



4th-order bandpass systems generally show better able to handle the functions that the other major systems are considered. The transient response and is second only to the sealed enclosure systems, making it a good choice for subwoofer applications.



Since all output 4th order bandpass system is via the port, the largest diameter possible for the port area should be used to minimize noise from the port. The ports must be incinerated where possible, for the same reasons.







The 4th order bandpass system rarely allows a perfect bandpass response - there is usually an out-of-band noise present in the production. A notch filter can be used simply to reduce the noise as audible. Otherwise, a lowpass filter used in series with the driver, but the in-band response system may be affected if this approach is taken.



As the speaker sound 4th order band pass issued by the openings or ports on the port side of the box, the port noise inevitable.



This unwanted noise can be minimized by a notch filter and the largest diameter possible for the port of the area should definitely be used. Another option is to burn the ports of the 4th order bandpass room as this will certainly help to reduce unwanted extra from the subwoofer.



Mini SubWoofer Power Amplifier clik for detail



WOOFER / MID MODEL - 5MP60 / N

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Specifications

Nominal Basket Diameter 5 "/ 125mm

Impedance 8 ohm

RMS Power 50 Watts

Program Power 100 Watts

Frequency response 50Hz - 12.0kHz

Sensitivity (1W/1m) 91dB

Voice Coil Diameter 1 "/ 25.8mm

BL Factor 6.4 N / A

Voice Coil Length 14 mm

Air Gap Height 6mm

X Damage (peak to peak) 20 mm

Magnetic Assembly Weight 2.2 lbs / 1.0 kg.

Edit Information

Diameter 5.28 "/ 134mm x 5.28" / 134mm

Bolt Circle Diameter 5.4 "/ 137mm

Baffle Cutout Diameter --

- Front Mount 4.72 "/ 120mm

Many of the 4 mounting holes

Volume displaced by driver, 019 m 3 / .5 liter

Total Depth 2.68 "/ 68mm

Net weight 2.64 lbs / 1.2 kg.

Weight 2.8 lbs / 1.27 kg.

Materials

Basketball aluminum diecast

Polypropylene cone

Rubber Surround

Voice Coil Wire Copper

Ferrite

Thiele-Small Parameters

Resonance Frequency (FS) 60 Hz

Impedance (Re) 5.33 ohms

Coil Inductance (Le) 0.4 mH

Mechanical Q (Qms) 1.604

Electrical Factor (Qes) .35

Total Q (Qts) .29

Comp. Equivalent Vol. (Vas) 35 FT3 / 9.8 Liter

Voice Coil Overhang (Xmax) 4.0mm

Reference yield 5%

Volume Displacement 34 cm3

The subwoofer is a subwoofer or a speaker to reproduce low frequencies, devotee of 20 Hz to 150 Hz electronic circuit diagram below shows the details of a scheme of the main amplifier TDA1516 22 watt in 4 ohm car subwoofer driver. This device is designed for an existing stereo amplifier, often requires adding another blow to the music of driving a subwoofer.



The amplifier uses BTL is a good and cheap ((Bridge Tied Load channels) 13-pin IC TDA1516 from Philips is now NXP Semiconductors), which may provide a small number of components and 22W at 4 ohm load voltage 12 volt car battery default.



The device consists of several parts: the name of the potentiometer, dual-linear motion potentiometers, 1/4W resistors, capacitors, electrolytic 25V, 63V Polyester capacitors, LED, 100 mA NPN transistor, dual BIFET Op-Amp, 24 W BTL car radio RCA audio input amplifier and two speakers 4 ohm or 8 ohm woofers in isobaric parallel wiring.





The signals from the line outputs for stereo mixing amplifier input drive, and taking into account the level of the signal to the buffer and can be reversed IC1A phase SW1. Such control may be useful to the subwoofer in phase with the speaker of the existing car radio.



Then, a variable frequency 12dB/octave-pass low IC1B, the components of the Q1 and then you can pass the low frequency of 70 Hz or 150 Q2, R17 and C9 form a voltage stabilizer to facilitate access and filtering circuit to prevent track of the services given power at a low level positive.



LPF subwoofer and amplifier parts list:

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Potentiometer

P1-10K

P2-22K



Resistor

R1, R4-1K

R2, R3, R5, R6-10K

R7, R8-100K

R9, R10, R13-47K

R11, R12-15K

R14, R15, R17-47K

R16 6K8

R18-1K5



Capacitor

C1, C2, C3, C6-4μ7 25V

C4, C5-68NF 63V

C7 33nF 63V

C8, C9 220μF 25V

C10 470nF 63V

C11 100nF 63V

C12 2200uF 25V



Diode

D1 LED Lamp



Transistor

Q1, Q2 BC547



IC

IC1-TL072 Op-Amp

IC2-TDA1516BQ Car Amplifier 24 Watt BTL



Switch

SW1-Toggle SPDT

SW2-Toggle SPDT



RCA Jack

J1, J2 RCA Audio Input



SubWoofer Drive Unit

4-ohm woofer driver or two 8 ohm woofers connected to Isobaric

The fact that we need a subwoofer means that something is missing in the performance of the main speakers. This is not surprising, since the speakers unfortunately have to coexist with families, women and companions, leading to the inevitable Compact, stand-mounted speaker. Modern, compact speakers are excellent performances, but there is no further away from the laws of physics, small box = bad bass. So, modern speakers designed for a response in the low-limit?



User isobaric subwoofer on the Altec Lansing FX4021 and FX5051







The subwoofer is a bit of a word misnomer. It includes sub-audio course can not hear you. We mean really low sound. This does not mean we can not "collect" the sub-audio frequencies. The body can not perform under the form of audio-frequency vibrations and can strengthen the reality of the listening experience. There is usually little more low audio below 20Hz in most of the music.



The only (not electronic), an instrument can produce something in this Church is the body 16.67Hz. Even if this body is equipped with the solid pipe is usually filled with something to prevent the building collapsing around!



For practical reasons we can arrange to 20Hz as the lowest audio frequency that we want to reproduce, may be less than that, the boxes are often quite large. OK. So who determines the lowest frequency we want the subwoofer to handle, but what about the highest frequency?

It is easy to match the response of the existing speakers.



In my case, my speakers are-3dB at 47Hz. That is a lot better than most small speakers, 70-80Hz at-3dB is fairly typical. Ideally the subwoofer to be on the same-3dB frequency. It is easy acheivable a low-pass electronic filter. These can easily be made adjustable to fit almost all existing stakeholders.



Why only one subwoofer, we have two for stereo? The answer to this depends on how the human ear perceives direction. The brains very carefully compares the phase of sounds in the left ear or right and take a decision on this basis.



At high frequencies, the distance between the ears is an important part of the wavelength and the phase difference is large. Because the frequency is reduced, the distance between the ears small compared to the wavelength.



The phase difference is reduced making it difficult for the brains towards the sound calculates. It is not by any means the whole story, the ears also use the level difference and the slight head movements to better determine the direction. Below 200Hz, the human auditory system is almost fully able to determine direction, so it does not matter if the bass is in stereo, mono or even in the room where it originated.



Thus, a subwoofer is all you need. It is normal that the sum of the left and right channels within the subwoofer, so no information is lost. Joint Stereo is often used in the MP3 coding scheme. The low frequencies are encoded in mono, stereo at higher frequencies.



I have several cheap 180 mm / 6.5 "drives and carefully measured their parameters. This step is crucial in this kind of design that even small errors affect the frequency response drastically.



I used my speaker WinISD and added to the database to track the response and the size of the box to calculate. Compromises are necessary in this kind of design. You can find a good performance and a very narrow bandwidth or poor performance and a wider bandwidth. What is acheivable entirely dependent on the properties of the drive. I was fortunate in that my 3 pounds produced a pilot-3dB bandwidth of 29-76Hz. I can not change, but I could filter out the high-end to match my existing speakers.



I decided to use a configuration with two drive Isobaric back to back. This has the advantage of reducing by half the required volume of the two halves of the bandpass enclosure.



One effect of the tax Isobaric half volumes needed in contrast to cases where a driver was used. Another is that the port setting remains the same, but half of the volume, equivalent to a doubling of the port.



Note in the above table, the port is 401mm long. There is no place for him in the cavity 11 liter before with a little thought Latteral was necessary for the host. Some ideas are not at this point if the port can not be physically made to adapt. In this example, I solved this problem with the design.



Subwoofer Box Spec:

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Number of cores 2 (used as an installation isobaric) 4th Order Bandpass Box Type Box dimensions for chamber 11.0 liters 24.5 liters Achterhuis Port tuning frequency of 46.56 Hz Wind 1 Wind -> Front Room from 0401 to 0060 m long x 0.060 m square