QSC Audio 1200, 1100, 1400, 1700 and 70 Volt Systems, Protection Features, Output, Transformer Tap

3.7 25 AND 70 VOLT SYSTEMS

3.71Introduction Commercial sound systems commonly use dozens or even hundreds of speakers for sound distribution. Special methods for connecting and controlling many separate speakers have been worked out by commercial sound contractors.

3.7225 Volt lines 25 volt distribution systems are popular in small to medium sized installations where local codes require conduit for 70-volt lines.

The Model 1100 amplifier will deliver up to 120 watts directly to 25 volt lines by using the mono-bridge mode. Please note that, as with any system using the mono-bridge mode, neither side of the speaker line should be grounded.

The Model 1200 amplifier will deliver up to 150 watts per channel directly to 25 volt lines. The Model 1400 and 1700 have excessively high output voltages and are not recommended for directly driving 25 volt lines.

3.7370 Volt lines All Series One amplifiers may be used with our 70-volt output transformers, the OT-300a and OT- 600, to power 70 volt distribution systems. See the following table for details on transformer model and power ratings. Consult the transformer Owner’s Manual for additional information on 70 Volt distribution applications.

Table 3.73 70 Volt Output Power

3.74Low Frequency Rolloff In commercial sound systems, a rolloff below 50 Hz or so is desirable to prevent excess wasted power at frequencies below the range of the speakers and their small transformers. Contact the QSC Sales Department regarding the availability of Octal Modules for this application. The roll-off may also be provided by preceding signal processing equipment, such as EQ’s, active crossovers and mixers.

3.8 PROTECTION FEATURES

3.81Summary We have ensured that accidents, mistakes, and abuse will have the minimum possible chance of harming the amplifier or speaker . The major challenge was to do this without impairing the audio performance into normal loads.

3.82Short Circuit Protection The active region in a power transistor is surprisingly small— perhaps 1/5 of a inch wide. This little piece of silicon must control hundreds of watts of power. If not managed properly, this can burn out the silicon, instantly destroying the transistor.

Under normal conditions, most of the power passes through the transistor, into the speaker, producing useful power and only some waste heat. If too many speakers (too low of an impedance) are connected, excessive power will be drawn through the transistor, and more heat will be wasted. If the load impedance drops to zero, which might happen if the speaker wires are shorted together, then there would be almost no limit to the power drawn through the transistor, and the waste heat will be so high that the transistor will burn out. This is why solid state amps need short circuit protection.

The patented QSC “Output Averaging” short circuit protection acts by monitoring the load impedance. As long as it is within rated limits (above 2 ohms), the amount of waste heat in the power transistors is acceptable, and full audio power is allowed to continue. If the output impedance is reduced below 2 ohms the instantaneous current peaks will be limited, but to a fairly high value, which the transistors can handle for a short time; if a strong signal persists for more than a fraction of a second, the current limit is smoothly cut back to a lower value which the transistors can handle indefinitely.

The result is full performance into rated loads, ability to handle normal program peaks into marginal loads, and good protection into short circuits. At no time will the circuit cause abnormal distortion spikes or loss of sound.

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