Ashly TRA-4150 manual Design Theory, Troubleshooting Tips, No Audio Output

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Operating Manual - Powerflex Multi-Channel Power Amplifier

10.DESIGN THEORY

Powerflex amplifiers are based on stereo driver modules that use digital processing to generate a spread- spectrum switching pattern between about 200KHz and 1.5MHz, depending on input signal amplitude and fre- quency. This overcomes the self-limiting and inherent weakness in traditional class D fixed-frequency PWM amplifiers, and produces an output with THD+N numbers comparable to class A and class AB linear amplifiers. (see Specification Notes at end of this section)

In Powerflex amplifiers, the input signal is re- ceived by a single operational amplifier configured as a difference amplifier to reduce common-mode effects from sources located at a distance. This difference amplifier has a gain of 2.74 which allows the use of less gain later in the system, improving overall system noise performance.

The amplified signal, based on the position of various selector switches, either bypasses or is processed by a two-pole high-pass filter with rolloff at 50Hz, and then passes through the attenuating potentiometer. The attenuated signal is buffered and passed to the amplifier module along with a zero-volt reference.

The amplifier module receives the attenuated sig- nal with a unity gain differential amplifier to eliminate common-mode interference picked up within the ampli- fier chassis. The signal is then added to a small DC offset signal opposite in polarity to any DC offset on the Powerflex output bridge and adjusted by the digital pro- cessing module as described above. The digital process- ing module, which also generates FET drive signals, has a voltage gain of 11.7 for a total system voltage gain of 32. The drive signals generated by the processing module are fed to a pair of high-current MOSFET transistors, and the switched output of these transistors is filtered and applied to the speaker outputs. Fault conditions such as overvolt- age, undervoltage, and output overcurrent are measured by the module and therefore affect a stereo pair of chan- nels regardless of whether the fault actually exists on both channels processed in the module. Since every action ap- plied to protect the digital processing module affects both channels being processed, other fault conditions are not separated by channel, but rather by amplifier module.

Specification Notes: Due to its spread spectrum out- put switching pattern, the output signal of a Powerflex ampli- fier contains significant dynamic frequency content* far outside the audio band, which makes no difference to audible perfor- mance, but which makes heavily bandwidth-limited** measure- ment of amplifier noise and distortion characteristics mandatory.

*variable 200KHz to 1.5MHz

**greater than 48dB/octave above 22kHz

11.TROUBLESHOOTING TIPS

11.1No Audio Output

1.) Power LED not lit:

Line fuse is blown or power outlet is dead.

IF LINE FUSE IS BLOWN, REPLACE ONLY WITH SAME TYPE AND RATING FUSE.

2.) Power LED is lit but Protect LEDs stay on:

Amp module is in protect mode. Speakers have been disconnected from amplifier output and connected to ground until the protect fault is corrected. See section 8 for a complete explanation of protect fault conditions. Out- put overcurrent, overvoltage and undervoltage faults will reset in about eight seconds once the fault condition is re- moved, while excessive DC offset or high frequency faults take about 30 seconds to reset.

Speaker Impedance: The Powerflex amplifier may go into self-protect at high output levels if the actual speaker load impedance is much less than 4 ohms. To cal- culate speaker impedance for a given combination of di- rect-coupled speakers, use Ohm's law as applied to series and/or parallel resistor networks, where each speaker (for this purpose) can be thought of as a single resistor, using DC resistance measurements.

Simply stated, speakers connected in series will add together their impedance. Conversely, two speakers con- nected in parallel will result in half the impedance, three parallel speakers a third the impedance, four speakers a fourth, and so on, assuming the speaker impedances are all the same. Don't use mismatched impedances in parallel. When using paralleled speakers, the available amplifier power for that channel is evenly divided among speakers, so 100 watts driving two parallel speakers of equal imped- ance provides 50 watts to each speaker, etc. Combining series/parallel speaker connections is common practice, but if not sure, contact your dealer or Ashly tech support.

3.) Thermal LED and Protect LEDs stay on:

Amp module is in thermal protect mode and needs to cool. The fan will continue to run while in thermal pro- tect, and other modules will continue to function. See sec- tion 8.4 for details.

4.) Power LED lit but no Signal LED activity

There is no input signal applied or input level con- trols are turned down.

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Contents Powerflex  Table Of Contents Design Theory Introduction AC Power RequirementsUnpacking RACK-MOUNTING Requirements Cable RequirementsFront Panel Indicators Input Connectors Rear Panel Features50Hz Low Cut Switch Input Ground SwitchStereo/Mono Switch Multi-Channel OperationAC Inlet PowerflexSpecific conditions resulting in a fault are as follows SELF-PROTECTION FeaturesTypical Applications Six Channel Setup dual stereoBridged Mono Setup Design Theory Troubleshooting TipsNo Audio Output 11.2 Distorted Sound 11.3 Hum or Buzz Noise Powerflex DimensionsWarranty Information Specifications6250-3

TRA-4150 specifications

The Ashly TRA-4150 is a robust, high-performance amplifier designed to meet the demanding requirements of modern audio installations. Known for its reliability and exceptional sound quality, the TRA-4150 is ideal for both commercial and residential applications, including venues such as auditoriums, houses of worship, and entertainment spaces.

One of the defining features of the TRA-4150 is its power output. With a maximum output of 150 watts per channel at 4 ohms and 75 watts per channel at 8 ohms, this amplifier delivers enough power to drive a variety of speakers efficiently. It is equipped with a class AB topology, which ensures low distortion and high sound fidelity, making it suitable for critical listening environments.

The TRA-4150 boasts numerous advanced technologies designed to enhance performance and user experience. It incorporates a comprehensive protection system that includes thermal protection, short circuit protection, and DC fault protection, ensuring safe operation under various conditions. This reliability is crucial in professional settings where equipment failure is not an option.

Furthermore, the Ashly TRA-4150 features integrated signal processing capabilities, allowing users to optimize sound performance with ease. Its variable high-pass and low-pass filters enable tailored control over the audio signal, ensuring that sound output is clear and well-defined across frequencies.

Connectivity is another strong point of the TRA-4150. The amplifier supports both balanced and unbalanced input options, ensuring compatibility with a variety of audio sources and equipment. Additionally, the unit has a convenient input gain control for each channel, allowing for precise adjustment of signal levels.

The design of the TRA-4150 is both sleek and functional. The unit has a compact form factor, making it easy to integrate into existing audio setups. Furthermore, the built-in fan cooling system ensures efficient heat dissipation, which is vital for maintaining performance during extended use.

Overall, the Ashly TRA-4150 amplifier stands out in the market due to its powerful output, advanced protection technologies, and user-friendly features. Whether in a live performance setting or a fixed installation, the TRA-4150 delivers reliability and exceptional audio quality, making it a preferred choice for audio professionals and enthusiasts alike.