Ashly TRA-4150 SELF-PROTECTION Features, Specific conditions resulting in a fault are as follows

Page 10

Operating Manual - Powerflex Multi-Channel Power Amplifier

8.SELF-PROTECTION FEATURES

Powerflex amplifiers contain circuitry to self-pro- tect during extreme fault conditions. These fault condi- tions are:

1.) Power supply undervoltage

2.) Power supply overvoltage

3.) Output overcurrent

4.) Heat sink overtemperature

5.) Unacceptable DC or high frequency output content

6.) AC power interruption

Except for AC power interruption, the detection of any fault will result in the activation of protection cir- cuitry on a particular module, which consists of two chan- nels. That is, a short circuit on the output of channel 1 will result in both channel 1 and channel 2 entering pro- tect mode. This is because the signal processing module, which processes both channels simultaneously, does not distinguish between the two channels within a channel pair when processing a fault.

An AC power interruption will result in all chan- nels entering protect mode simultaneously, just as if the amplifier is being turned off.

In all cases, the amplifier will restart the signal processing module after a short delay and will reconnect the speakers after several seconds if no further fault con- ditions exist. This allows the servo circuitry to bring any residual DC offsets to zero before speakers are connected.

Specific conditions resulting in a fault are as follows:

8.1Power supply undervoltage - less than about 55 volts on the either supply rail. Possible causes would

be total load on the outputs exceeding recommendations (remove some speakers - 4load min, 8min bridged),

low AC mains voltage (reduce extension cord length or increase wire size, or switch to an AC mains circuit more capable of supporting the amplifier's power requirements), or improper AC inlet mains voltage setting (make sure nominal AC mains voltage matches the number in the view- ing window on the AC inlet).

8.2Power supply overvoltage - more than about 92 volts on either supply rail. Possible causes would be high AC mains voltage (change to an AC mains circuit with voltage within the amplifier's stated requirements) or im- proper AC inlet mains voltage setting (make sure nominal AC mains voltage matches the number in the viewing win- dow on the AC inlet).

8.3Output overcurrent - more than 15 to 20 amps being drawn from any output. Possible causes would be total load on the affected output exceeding recommenda- tions (disconnect some speakers), or a short circuit on one of the outputs driven by the affected module (inspect speaker wiring for proper connection).

The above conditions are checked by the signal processing module on a switching cycle by switching cycle basis and are therefore monitored as often as a million or more times a second, allowing protection well before de- structive conditions have time to cause part failure.

8.4Heat sink overtemperature - a measured heat sink extrusion temperature of more than 85 to 90 degrees C. The three-speed fan will switch to medium speed at an extrusion temperature of 45 to 50 degrees C, and to high speed at a temperature of 70 to 75 degrees C. The overtemperature fault will clear itself when the measured temperature is below about 70 degrees C. The fan will operate at low speed below about 50 degrees C.

8.5Unacceptable DC or high frequency output content - a DC offset in the output signal of more than a few hundred millivolts indicates module failure, and will trigger a DC protect fault. High frequency (20kHz to 100kHz) in the output at high amplitudes can cause speaker damage and causes a fault condition more or less rapidly as frequency and amplitude vary.

These two conditions (DC and HF) are tested by the same circuit so the exact cause cannot be isolated. If the fault condition persists after disconnecting all inputs and outputs from the amplifier, there is probably a module failure requiring service. Note: the self-testing circuit may take as long as 30 seconds to recover from this fault, so be sure to give the amplifier enough time to reset itself. If after 30 seconds the module has recovered, begin plug- ging in one input and output at a time in an effort to iso- late a system high-frequency or oscillation problem.

8.6AC power interruption - a dropout (or brown- out of sufficient magnitude) of more than one half mains line cycle and less than one whole cycle in duration.

10

Image 10
Contents Powerflex  Table Of Contents Design Theory Introduction AC Power RequirementsUnpacking Cable Requirements RACK-MOUNTING RequirementsFront Panel Indicators Rear Panel Features Input ConnectorsStereo/Mono Switch Input Ground Switch50Hz Low Cut Switch Multi-Channel OperationPowerflex AC InletSELF-PROTECTION Features Specific conditions resulting in a fault are as followsSix Channel Setup dual stereo Typical ApplicationsBridged Mono Setup Design Theory Troubleshooting TipsNo Audio Output Powerflex Dimensions 11.2 Distorted Sound 11.3 Hum or Buzz NoiseSpecifications Warranty Information6250-3

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.