LEGACY Classic HD Floorstanding Loudspeaker System Owner’s Manual
- June 6, 2024
- Legacy
Table of Contents
- Owners Record
- The Cabinetry/Our Commitment
- Warranty
- Exclusions from Warranty
- Unpacking Your Speakers
- Speaker Placement
- Hooking Up Cables
- Hooking Up Cables
- Amplification
- Foot Installation
- Speaker Connections
- Speaker Connections
- Fine Tuning
- Specifications
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
Owners Manual For The
Classic HD
Loudspeaker System
Owners Record
Thank you for selecting a Legacy Loudspeaker System. These hand-crafted
instruments will provide you with many years of listening enjoyment.
The serial number is located on the rear of the unit. Record this number in
the space provided below. Refer to this when calling your dealer regarding
this product.
Model: Classic HD
Serial No: __
Date of purchase: ____
Register your product at
legacyaudio.com/register
Share your Legacy speakers with the Legacy community. Post your Legacy
experience and system photos at facebook.com/LegacyAudio. Like the page to
continue receiving the latest Legacy announcements.
The Cabinetry/Our Commitment
Handcrafted
Beneath the surface of Classic’s elegant exterior lies rigid MDF construction.
Interlocking joinery maximizes the strength of the cabinet parts.
Each cabinet is impeccably finished on all exposed surfaces with select veneers. The exquisite finish is hand-rubbed several times to assure a patina at home with the most elegant decor .
Our Commitment
A great deal of forethought, love and satisfaction is instilled in each piece
of Legacy workmanship. We take pride in getting to know many of our customers
on a first-name basis.
Your purchase of this product is backed by the renowned “Legacy Satisfaction
Guarantee”.
Warranty
Legacy Audio supports its customers and products with pride. We cheerfully warrant the loudspeaker products we manufacture from defects in materials and workmanship for a period of seven (7) years. Electronic components such as internal amplifiers and digital processors are covered for three (3)years. Please register your product with Legacy Audio. Should you require service Legacy will require proof of purchase in order to honor the warranty – so please keep your receipt.
- The warranty applies to the original owner and is not transferable.
- The warranty applies to products purchased from an “Authorized Legacy Dealer”.
- The warranty on active components such as digital processors or internal amplifiers is limited to three (3) years of coverage.
- The warranty on dealer stock will extend for a maximum of two years from the invoice.
The warranty does not cover transportation costs of the product to or from the customer, distributor or dealer, or related shipping damage.
Exclusions from Warranty
The following situations or conditions are not covered by the Legacy Audio warranty:
- Accidental damage, electrical abuse or associated equipment failure.
- Use inconsistent with recommended operating instructions and specifications
- Damage caused by modification or unauthorized service
- Costs associated with the removal and reinstallation of defective products. Consequential damage to other products.
- Normal wear such as fading of finishes due to sunlight.
Unpacking Your Speakers
Your new speaker system has been very carefully packaged to insure that it travels to you safely. Each speaker is protected by a double-wall outer carton with heavy V-board corner protectors. Custom foam end caps are used to protect the elegant cabinetry, and a custom bag is included to provide further protection. Please save this packing for future transportation. If cartons become damaged or misplaced, new ones can be purchased from Legacy Audio.
Speaker Placement
To allow more flexibility in seating arrangements, your Legacy loudspeaker is designed for broad lateral coverage. Optimal listener position is actually about 5 to 15 degrees off the axis normal to the loudspeaker baffle. Assuming a listener distance of about ten feet, begin by placing the speakers approximately 7 feet apart and about 1 – 3 feet from the wall behind them. In most rooms, this will afford a speaker position at least 2 feet or more from the side walls. The amount of recommended “toe-in” is a function of the listening angle. As the overall listening angle increases from 40 degrees, the amount of toe-in should increase. Your Legacy speaker is optimized for flat response in the far-field. Best results are obtained vertically with the listener’s ear at tweeter level with the loudspeakers gently toed in toward the listener. Increasing the degree of toe-in is recommended when placement next to sidewalls is required. Placing the loudspeaker or the listener near a room boundary will generally increase low-frequency impact. If you are forced to position one or both of your loudspeakers in a corner, be prepared to reduce bass output via the control switches on the rear terminal plate of each loudspeaker. You may also wish to reduce low-frequency output with your preamp’s bass tone control.
Hooking Up Cables
The ideal conductor would have negligible resistance, inductance, and capacitance. The table below shows how a few actual speaker cables measure up.
Cable | Ωs/ft | pF/ft | µH/ft |
---|---|---|---|
12 ga. | 0.0033 | 24 | 0.21 |
14 ga. | 0.0048 | 17 | 0.13 |
16 ga. | 0.0079 | 16 | 0.18 |
18 ga. | 0.0128 | 28 | 0.21 |
Capacitance is considered insignificant in each cable because its effect is well out of the audio bandwidth; inductance can be decreased(at the expense of increased capacitance) by keeping the conductor pair closely spaced.
How long would a cable have to be before inductance effects would impinge on the audio spectrum? Approximately 300 feet of 12 gauge would be required to establish a corner frequency of 20 kHz with an 8 Ohm loudspeaker. As you see, inductance is not a problem for most of us.
Hooking Up Cables
What about phase shift due to frequency-dependent travel times down the speaker cable? Measurements show that 100 Hz waves will be delayed about 20 billionths of a second behind 10 kHz waves when traveling to the end of a 10-foot speaker cable. Since the cilia of the ear require 25,000 times longer than this just to transmit phase information, phase shifting is obviously not the primary concern when considering speaker cables.
What about resistance? Finally, we are getting somewhere. Resistance is the controlling factor of the amplifier/loudspeaker interface. Excessive resistance can cause major shifts of speaker crossover frequencies. The lower the impedance of the loudspeaker, the greater the effects of series resistance. A 20 foot run of 18 gauge cable can cause up to 10% deviations of crossover center frequencies. That same 20 feet can un-damp your damping factor and reduce your systems’ output by one-half decibel.
In summary, there are no perfect cables. The best way to approximate the ideal would be to keep loudspeaker leads as short as is practical.
Amplification
Ideally, the loudspeaker would be among the first components selected when assembling a play-back system. This would allow the user to choose an amplifier capable of delivering adequate amounts of current into the frequency-dependent load presented by the loudspeaker. However, when upgrading a system, audiophiles may find themselves matching their new loudspeakers to their existing amplification. For this reason, extensive measures have been taken to ensure that each Legacy speaker system represents a smooth, non- reactive load to virtually any amplifier.
Often there is much confusion regarding amplification and loudness levels. It should be understood that the role of the amplifier goes beyond that of driving loudspeakers to a given sound pressure level. The amplifier should be able to CONTROL the loudspeakers across the entire music spectrum. This means that parameters such as damping factor (values greater than 60 are acceptable) and dynamic headroom should not be overlooked when comparing amplifiers.
How much power will your new speakers need? That ultimately depends on your listening environment and musical tastes. As little as five watts per channel should drive them to a level satisfactory for background music. A typical 45 watt per channel receiver may fill a room with the compressed mid-band energy of “heavy metal,” but seem to lack weight or control with classical recordings. Some audiophiles feel that 200 watts per channel is the bare minimum to avoid audible clipping distortion when reproducing music at live” playback levels. Your Legacy speakers are designed to take advantage of “high- powered” amplifiers, so don’t be afraid to put them through their paces.
How much is too much power? Rarely is a drive unit damaged by large doses of music power. More often than not the villain is amplifier clipping distortion. Even though decades of refinement, loudspeakers are still notoriously inefficient transducers, requiring huge amounts of power to recreate the impact of the live performance. Typically less than 1% of electrical power is converted into acoustic output. (For example, an omnidirectional transducer with an anechoic sensitivity of 90 dB @ 1w/1m has a full space efficiency of only 0.63%)
When an amplifier is unable to fulfill your loudspeakers demands, a damaging harmonic spike may be leaked to the high-frequency drivers.
Another important point regarding loudness is that the dB scale is a logarithmic one. This means that a 150 Watt amplifier will potentially sound only twice as loud as a 15 Watt amplifier. If all of this discussion of power and loudness seems a bit abstract, consider the example below.
The average acoustical power developed by a person speaking in a conversational tone corresponds to a mere 0.00001 Watts. The power that would be developed by the entire population of the city of New York speaking at once would barely illuminate a single 100 Watt light bulb.
Foot Installation
Step 1-
Carefully place your speakers on their sides
Step 2 –
Locate the cone feet set. It will be inside the foam pieces that held the
speaker in the box.
Step 3-
Place the insert adapter into the rubber cone.
Step 4 –
Thread the cone insert into the cabinet.
Step 5-
Tighten the cone insert. If you do not want the spikes, you may stop
here.
Step 6 –
Place the leveling washer onto the cone.
Step 7-
Install the washer and cone onto the speaker. Adjust the cone until your
speaker is level.
Foot Set
Specifications
M12, 1.25mm thread size
Speaker Connections
The Terminal Plate
At the rear of each of your loudspeakers, you will find a terminal plate
housing two rows of jumpered binding posts. The upper row is the input to the
“satellite” portion of the speaker. The lower row is the input to the
“subwoofer” portion of the speaker. When left in place, the factory-installed
jumper bars allow the speaker to be driven with a single channel of
amplification. (If bi-amping, or bi-wiring, be sure to remove the jumper
bars.)
Connect each channel of your amplifier to a loudspeaker via the five-way gold binding posts provided. Dual banana plugs or gold-plated spade lugs are recommended means of termination. Be sure that you observe polarity when making the connections. The positive (+) terminal of the amplifier should be connected to the positive terminal of the loudspeaker. The negative (-) terminal of the amplifier should be connected to the negative terminal of the loudspeaker.
Bi-wiring
Bi-wiring allows one to minimize the cable losses between the amplifier and
the loudspeaker. This is accomplished with a single stereo amplifier by
running separate sets of cables to the satellite section and the subwoofer
section from the same channel of amplification. When bi-wiring, we recommend
the use of gold spade lugs or dual banana plugs. This can make the task much
easier and safer than bare wire connections. Again, the major reasons for bi-
wiring over conventional wiring are greater power transfer (improved
efficiency) and tighter control over the drivers (better damping).
Passive Bi-amping
This option can yield even better results than bi-wiring due to the broader
distribution of power requirements. Passive amplification allows low-frequency
current to be routed to a separate channel of amplification, reducing strain
on the satellite amplifier and preventing subwoofer back-EMF from modulating
with the upper frequencies. There are two types of passive bi-amplification;
Vertical bi-amping (which requires two identical stereo amplifiers or four
MonoBlocs) and Horizontal bi-amping (which does not require identical
amplifiers).
Speaker Connections
-
Vertical Bi-amping
Vertical bi-amplification requires the dedication of a single stereo amplifier for the left speaker, and another stereo amplifier for the right speaker. This configuration improves channel separation and can improve imaging slightly. If your preamp does not have two sets of left/right outputs, you will need a pair of Y-adapters or a signal splitter, such as a dual amp balancer, which will also allow adjustment of subwoofer/ satellite input levels. -
Horizontal Bi-amping
Any two stereo amplifiers may be utilized in horizontal bi-amplification. Many audiophiles prefer the “sweetness” of tubes on the satellite portion of the loudspeaker while favoring the “control and weight” of solid-state amplifiers on the subwoofer section. The biggest drawback of such a marriage of amplification is that the two amplifiers may have different input sensitivities or output polarities. Differences in the input sensitivities may be overcome by using a dual amp balancer. This unit allows independent balancing of the left subwoofer/satellite ratio and right subwoofer/satellite ratio. It’s also a good idea to check the owner’s manuals to establish if the amplifiers are inverting or non-inverting. If the two amplifiers are of opposite polarity, then you should reverse the polarity at the inputs of either the subwoofer or satellite binding posts. NOTE: This only applies to loudspeakers that incorporate the subwoofer and satellite section in a single enclosure. It does not apply to the separate powered subwoofer/satellite configuration. You must always observe the polarity when connecting the speaker wire to a powered subwoofer.
Active Bi-amping
This option requires the utilization of an electronic (powered) external
crossover. Active amplification is the most appealing means of interfacing a
subwoofer/satellite system due to the control possibilities offered, but can
also be the most costly. An active crossover is inserted between the
preamplifier outputs and the inputs of two stereo amplifiers. Vertical or
horizontal bi-amping considerations are also applicable here. A well-designed
active crossover will offer the user independent high pass / low pass turnover
frequencies for optimally blending the satellites with the subwoofer sections
of the speaker system. Other features usually found are separate level
controls for the high pass or low pass sections and a choice of inverted or
non-inverted low-frequency outputs (needed when strapping an amplifier to
mono).
Also helpful are bass equalization and subsonic filtering. When cascading active filters with the existing passive filters within the speaker system, be sure to allow for adequate frequency overlap. For instance, if the passive crossover is set at 500 Hz, select a low pass corner frequency of 600 Hz and a high pass corner frequency of 450 Hz to prevent a suck out in the response at 500 Hz. The controlled distribution of power afforded by the active crossover results in less amplifier strain (better clarity), greater dynamics, and lower intermodulation distortion. However, a basic understanding of crossover slopes and crossover frequencies within your loudspeaker will be needed to implement the active crossover successfully.
Fine Tuning
To facilitate the proper set-up of your speakers in a variety of room situations, we have included several heavy-duty toggle switches on the terminal plate, located on the back of the loudspeaker. All switches in the “up” position represent the “anechoic flat” position.
TREBLE Trim:
- Nominally flat in the up position
- Negative 2dB at 10 kHz in the down position (shelving for brighter rooms)
BASS Trim:
- Nominally flat in the up position
- Negative 2dB at 60 Hz in the down position (also raises impedance for budget receivers)
Specifications
Application: | Efficient, wide range tower, with high SPL capability |
---|---|
System Type: | 4 driver, 3 way |
Tweeter: | 1″ dual pole AMT ribbon |
Midwoofer: | 7″ Silver/Graphite woven diaphragm, cast basket, |
phase compensation plug
Bass:| (2) 8″ Silver/Graphite woven diaphragm, cast basket,
phase compensation plug
Low Freq. Alignment:| B6 assisted, dual rear ported
Crossover (Hz):| 450, 3.5k
Freq. Response:| 32Hz -30kHz
Impedance:| 4 Ohm
Sensitivity:| 94 dB (2.83V @1m)
Rec. Amplification:| 15-300w
Inputs:| 2 pair binding posts for Treble & Bass
Cabinet Size:| 44″ x 10.75″ x 13″
Weight (each):| 84 lbs net
CE Declaration of Conformity
Legacy Audio
3023 E. Sangamon Ave.
Springfield, IL 62702 USA
800-283-4644
States that this product is in conformity with the essential requirements and
other relevant provisions of:
Low Voltage Directive 2006/95/EC
EMC Directive 2004/108/EC
All information contained in this manual is accurate to the best of our knowledge at the time of publication. In keeping with our policy of ongoing product improvement, we reserve the right to make changes to the design and features of our products without prior notice.
WEEE Compliance
Product Disposal -Certain international, national, and/or local laws and/or regulations may apply regarding the disposal of this product. For further detailed information, please contact the retailer where you purchased this product or the Legacy Audio Distributor in your country. A listing of Legacy Audio Distributors can be found on the Legacy Audio website www.legacyaudio.com or by contacting Legacy Audio at 3023 E. Sangamon Ave., Springfield, IL 62702, USA—Phone: +1 217 544-3178.
Notes:
©2021 Legacy Audio
3023 E Sangamon Ave.
Springfield, IL 62702
Phone: 800-283-4644
www.legacyaudio.com