Unbalanced Inputs and Polarity for QSC 1100, 1400, and 1700 Amplifiers

3.36Unbalanced Inputs and Polarity Unbalanced operation raises an interesting question regarding the trade-offs between maintaining standard system polarity and optimal stability. Normally, an amplifier is expected to reproduce input signals in the same polarity, which is called the non-inverting mode, so that a drum beat, for instance, pushes the speaker out instead of in. However, if there is any leakage from high-power (speaker) circuits to the amplifier inputs, the amplifier is much more stable in the inverting mode, since the leakage then tends to add negative, or stabilizing, feedback.

Using an inverting-mode power amp is the opposite of normal practice, but we have observed many cases where “mystery problems” occurring in wide-band amplifiers used in the non-inverting mode are solved by switching to the inverting mode. Balanced line operation corrects this problem without regard to polarity, but is not always available.

We feel that in most situations, it is of very little importance to worry about overall amplifier polarity, as long as all the speakers are matched, because the polarity of mics, mixers, recordings, speakers, etc. may be unknown. For this reason, we have used the safest or most stable assignment (inverting) for the input polarity of the 1/4-inch plug, to give average users with unbalanced equipment the most stable connection without getting bogged down in very subtle nuances of reproduction.

NOTE You can always reverse the red-black polarity to all the speakers to restore correct overall polarity even when using the “more stable” inverting mode. In any case, be sure to use the same polarity for all of the speakers so they work together. If you can determine the polarity of the rest of the chain, you can always obtain positive overall reproduction polarity, by selecting the appropriate final polarity to the speakers.

The next section suggests an easy way to make a “quasi-balanced” line for unbalanced components.

3.36Quasi-balanced lines Even if a balanced-line output is not available, some benefits of a balanced-line input can still be obtained. Special cables will need to be made as follows:

Amp Input

Figure 3.36 1/4-inch Quasi-balanced Output Connection

The cable end which connects to the power amplifier would be made as described in Section 3.34, using balanced- line cable. At the other end, using whatever plug matches the unbalanced output, connect the “plus” conductor to the signal terminal, and connect the “minus” conductor to ground. Do not connect the shield conductor.

Do not connect the “minus” and shield conductors together at the power amplifier (balanced input) end of the cable. This maintains the separation of signal ground and shield (circuit) ground needed to obtain balanced-line noise rejection. This scheme is recommended to remove the last traces of hum and interference from systems which use unbalanced-line pre-amps and processors, such as ordinary consumer stereo and audiophile gear.

As a further refinement, a small variable resistance can be connected in series with the “minus” conductor, with a value roughly equal to the output impedance of the signal (usually less than 600 ohms). This resistance can be adjusted to null out any residual hum or interference.

3.37Cross Connecting Both Channels You can always connect the inputs of two or more channels to the same signal, but NEVER CONNECT TWO CHANNELS TO THE SAME SPEAKER. Connect separate speakers to each channel to avoid amplifier damage.

Rather than using a patch cable or connecting the inputs together at the barrier strip, the two inputs can be connected by turning on switches 5,6 of the input programming switches. This internally connects the inputs for Ch. 1 and Ch. 2 in parallel. Additional amps can now be cross-connected by using the connector style of your choice to plug into Ch. 1, and using the same (or different) type connector to come out of an input jack for Ch. 2. This second cable can now be connected to a second amplifier, and by using the same procedure, can be patched to as many amps as desired. Each channel’s Gain control will remain effective for that channel only, allowing you to balance the output coming from each channel.

See Section 3.5 for details on mono-bridging, which is a different way of combining the power of both channels.

1200, 1700, 1400, 1100 specifications

QSC Audio has long been a revered name in professional audio, and its series of amplifiers—including the QSC 1100, 1200, 1400, and 1700—continues to showcase the brand's commitment to quality, performance, and innovation. Each model is designed to meet the diverse needs of audio professionals, whether for live sound, installations, or studio use.

The QSC 1100 amplifier is renowned for its lightweight and compact design while delivering a solid 1100 watts of power. It features QSC's advanced Class D technology, which not only provides high efficiency but also significantly reduces heat generation. The 1100 includes comprehensive protection circuitry, ensuring safe operation in all situations. With a Frequency Response of 20 Hz to 20 kHz, the amplifier offers a balanced and clear sound profile, making it suitable for various applications.

Moving up the line, the QSC 1200 offers increased power output at 1200 watts and comes equipped with advanced DSP (Digital Signal Processing). The DSP allows users to tailor the audio output precisely, delivering optimized performance for any setting. In addition to its robust power, the 1200 features a versatile input section, supporting both XLR and 1/4" TRS connectors, providing flexibility for any audio source.

The QSC 1400 amplifier is a workhorse in the series, capable of producing up to 1400 watts, making it ideal for larger venues and events. This model is designed with enhanced thermal management, ensuring reliability even during extended use. The 1400’s high-frequency response capabilities further improve its adaptability, handling complex audio signals with ease.

Lastly, the QSC 1700 stands as the powerhouse of this lineup, delivering a remarkable 1700 watts of clean, distortion-free audio. It boasts an advanced cooling system, making it perfect for high-demand environments. The 1700 is also equipped with customizable limiter settings, allowing users to protect their speakers while maintaining sound integrity.

QSC’s commitment to durability is evident in all four amplifiers, featuring rugged chassis designs and high-quality components to withstand the rigors of professional use. Collectively, the QSC 1100, 1200, 1400, and 1700 amplifiers offer a compelling range of features that cater to various audio needs, all while ensuring superior sound quality and reliability, making them excellent choices for any sound engineer or venue manager.