Using bi-wire and bi-AMP connections

Some of the speakers commercially available these days have speaker wire connections that allow bi-wiring or bi- amplification to enhance the performance of the speaker system. This unit allows you to make bi-wire and bi-AMP connections to one speaker system. Check if your speakers support bi-wiring or bi-amplification. As these speakers are shipped to you, you will note gold-plated shorting bars or bridges, one connecting the two red input terminals and the other connecting the two black input terminals. Remove these shorting bars or bridges only if you plan to bi-wire or bi-AMP your speakers.

Conventional connection

If you want to connect your speakers as traditional loudspeakers using the conventional connection method, connect your speakers using the regular left and right speaker wire connections and ignore the second set of terminals.

R +

A

+

L

FRONT +

B

+

 

Shorting bars

 

 

 

Shorting bars

 

 

 

 

or bridges

 

 

 

 

or bridges

This unit

Bi-wire connection

The bi-wire connection separates the woofer from the combined midrange and tweeter section. A bi-wire compatible speaker has four binding post terminals. These two sets of terminals allow the speaker to be split into two independent sections. This split connects the mid and high frequency drivers to one set of terminals and the low frequency driver to the other pair.

Notes

Remove the shorting bars or bridges to separate the LPF (low pass filter) and HPF (high pass filter) crossovers.

To use the bi-wire connections, press SPEAKERS A on the front panel so that SP A lights up in the front panel display.

CONNECTIONS

R +

A

+

L

FRONT +

B

+

 

 

 

 

 

 

This unit

Bi-AMP connection

The bi-AMP connection uses two amplifiers for both speakers. One amplifier is connected to the woofer section of a loudspeaker while the other is connected to the combined mid and tweeter section. With this arrangement each amplifier operates over a restricted frequency range. This restricted range presents each amplifier with a much simpler job and each amplifier is less likely to influence the sound in some way. The internal crossover of the speaker consists of a LPF (low pass filter) and a HPF (high pass filter). As its name implies, the LPF passes frequencies below a cutoff and rejects frequencies above the cutoff frequency. Likewise, the HPF passes frequencies above its cutoff.

Notes

Remove the shorting bars or bridges to separate the LPF (low pass filter) and HPF (high pass filter) crossovers.

To activate the bi-AMP connections, set BI-AMP to ON in ADVANCED SETUP (see page 84).

To make the bi-AMP connections, use the FRONT and SURROUND BACK terminals as shown below.

R +

A

+ L

FRONT

R +

+ L

SINGLE

SURROUND BACK

This unit

PREPARATION

English

19

Page 21
Image 21
Yamaha RX-V1600 Using bi-wire and bi-AMP connections, Conventional connection, Bi-wire connection, Bi-AMP connection

RX-V1600 specifications

The Yamaha RX-V1600 is a powerful and versatile A/V receiver that has gained acclaim for its robust features and exceptional audio performance. Launched in the mid-2000s, this receiver remains a popular choice among home theater enthusiasts looking to enhance their audio and video experience.

One of the standout features of the RX-V1600 is its capability to deliver a whopping 7.1-channel surround sound output, which immerses listeners in a rich audio environment. This is achieved through its rated power output of 130 watts per channel, providing ample power to drive both small and large speakers effectively. The receiver is compatible with various surround sound formats, including Dolby Digital and DTS, ensuring that users enjoy a fully immersive cinematic experience.

Incorporating advanced digital processing technologies, the RX-V1600 enhances audio clarity and fidelity. Yamaha's proprietary CINEMA DSP technology allows users to simulate a range of acoustic environments, making it feel as if they are in a concert hall or a movie theater. Additionally, the receiver features a comprehensive suite of equalization options, enabling users to tailor the sound to their preferences and room acoustics.

The RX-V1600 also comes equipped with a range of connectivity options, making it versatile for different audio and video sources. It includes multiple HDMI inputs, which allow seamless integration with high-definition devices such as Blu-ray players, gaming consoles, and streaming devices. The receiver also supports upscaling video signals to 1080p, enhancing the viewing experience for non-HD content.

Furthermore, the RX-V1600 boasts Yamaha’s YPAO (Yamaha Parametric Room Acoustic Optimizer) technology, which automatically measures the acoustics of the room and calibrates the audio output accordingly. This ensures that users receive the best possible sound quality tailored to their specific environment.

With its blend of advanced technology, impressive power output, and comprehensive connectivity options, the Yamaha RX-V1600 remains a valuable choice for anyone seeking a high-performance audio-video receiver to help create an outstanding home theater experience. Its durable build, user-friendly interface, and flexible functionality make it a lasting investment for sound enthusiasts. Whether for movies, music, or gaming, the RX-V1600 delivers an engaging auditory experience that continues to impress users even years after its release.