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Loudspeaker Enclosure Designer, v0.5
by David Kakenmaster, 02 April 1992.
PLEASE DISTRIBUTE THIS ARCHIVE PACKAGE! IT'S INTENDED TO BE FREE, EX-
CEPT FOR REASONABLE COSTS OF DISTRIBUTION (IE DISKETTES, ETC). YOU MAY
COPY IT FOR OTHERS, UPLOAD IT TO BULLETIN BOARDS, PASS IT AROUND OR WHAT-
EVER. I ASK THAT THE DISTRIBUTED ARCHIVE NOT BE ALTERED IN ANY WAY (UN-
LESS YOU ARE ADDING DRIVER DATA FILES - THAT'S OK. DO NOT CORRUPT THE
PROGRAMS - THAT'S NOT OK). LAST, KEEP THE ARCHIVE NAME AS LEDV0_5.xxx,
WHERE THE x'S REPRESENT THE ARCHIVE COMPRESSION METHOD. IF YOU'VE RE-
CEIVED A 'BUM' COPY OF THIS PROGRAM, CONTACT ME AT THE ADDRESS BELOW.
I OFFER ABSOLUTELY NO WARRANTIES OF ANY KIND REGARDING THIS PRODUCT. AS
DESIGNED AND ORIGINALLY DISTRIBUTED, IT WORKS CORRECTLY.
INTRODUCTION - What is 'Loudspeaker Enclosure Designer'?
Loudspeaker Enclosure Designer (referred to as LED from now on) is a
powerful design tool to aid you in designing enclosures for virtually
any bass loudspeaker driver. LED is unusual in the fact that the pro-
gram is comprised of a series of Lotus-compatible spreadsheet templates.
WHAT??? Spreadsheet templates???!!! Are you kidding???!!!!
After the initial shock wears off, think about it... any good loudspeaker
design program has accurate modeling, graphics capabilities, a driver
database, port design, graph printing, etc... That's all well and good,
but can you figure your taxes with it? Can you track your sales record?
Can you plan your retirement with it? Can you build a phone directory
database from it? Probably not. LED has many of the capabilities of the
stand-alone enclosure design programs while still allowing you to use the
platform for zillions of other applications. Yep, a spreadsheet!
WHY DOES LED EXIST?
I've been in the hi-fi business for quite a while now and have seen a
great many enclosure design programs. Many are very good, some are
outstanding, few of them are easy to use and NONE of them allow you to
utilize the program's platform for anything else. Additionally, many
are quite expensive. LED is very easy to use and has many of the fea-
tures of the most expensive loudspeaker enclosure design programs avail-
able while still allowing you to use it's 'platform' for other programs.
LED v0.5 is also FREE!
Page 1
FEATURES
* Ease of use! LED is almost intuitive in it's usage. Many functions
are supported by 'hot key' combinations when using As Easy As v5.0 or
newer.
* Speed. Because a template is loaded in RAM, recalculations are quick
since disk accesses are minimized. Many spreadsheet programs access
a math co-processor if one is available, further speeding up recalcu-
lations.
* Graphics. If used with As-Easy-As v5.0 or newer, LED v0.5 has 12 pre-
formatted graph functions so you can see how your designs should per-
form. All preformatted graphs represent loudspeaker/enclosure behavior
between 10 Hz and 1000 Hz. All calculations are from 1 Hz to 1000 Hz,
though, so you may adjust the graphs to represent other ranges.
* Printing. All graphs can be printed quickly and easily, in either
NLQ or draft mode.
* Accuracy. The models used in LED are refined versions of those which
were originally described by Richard Small and Neville Thiele.
* LED supports both sealed and vented enclosure designs. You will be
presented with maximally flat alignments, and you may design your own
enclosures in any of 4 work areas.
* LED supports multiple driver arrays, as well as compound (Isobarik)
driver mounting techniques.
* Large driver database. LED allows you to store your driver information
in seperate files, allowing you to recall any driver to the program
quickly and easily. You can also save your design files.
* LED has 'in-car' response plotting capability, using a proprietary
'in-car' transfer function. This allows you to accurately simulate the
effects of putting your design in a car and measuring it.
* LED will calculate ideal internal enclosure dimensions which minimize
panel resonances and internal standing waves.
* In all ported designs, LED will recommend the minimum port diameter for
each port used, so vent noise and power compression will be minimized.
LED also calculates the proper port length for you.
* Many more features... use LED to discover them all!
HARDWARE & SOFTWARE REQUIREMENTS
You will need an IBM compatible PC, XT, AT, 386, 486 etc. with at least
180 K of available RAM.
You will also need a Lotus-compatible spreadsheet, preferably As-Easy-As
version 5.01, from Trius, Inc. This spreadsheet is distributed as
Page 2
shareware from many bulletin boards and shareware vendors. It is a
superb product with features and performance rivalling most anything out
there, shareware or commercial. You should know the basics of operating
your spreadsheet program, too. If you cannot find As-Easy-As locally,
call Trius, Inc at (508)-794-9377.
Your spreadsheet program should be properly configured to your system,
ie printer codes and graphics setup. The work areas of LED are set up
for 80x25 text mode resolution. Graphs, however will display at the
highest resolution your system can support - up to 640x480x16 VGA, if
set up for it.
NOTE: MANY OF THE HOT-KEY AND GRAPH FUNCTIONS ARE SPECIFIC TO AS-EASY-
AS, AND MAY NOT BE RECOGNIZED IN OTHER SPREADSHEET PROGRAMS.
HOW TO USE LED v0.5
MAKE BACKUP COPIES OF ALL YOUR LED DISTRIBUTION FILES NOW!
IN AS EASY AS, YOU CAN PRESS ALT-H FOR LED v0.5 HOT KEY HELP.
1) Copy (from your backup disk) all the LED files which end in .WKS to
the directory where you keep your spreadsheet files. Then start your
spreadsheet program.
2) Build your driver database. Retrieve the SPKRDATA.WKS file. This is
the blank template for building your driver database. You can enter
the 1st driver's name and parameters in the HIGHLIGHTED fields only.
When you're through, press ALT-S (Press the ALT key and hold it. Then
press the 'S' key.) to save your file. You must name the file; I
recommend something like DATxxxx.WKS, where the x's represent the
driver's name. You may also want to save your data files in a
seperate directory so they're easier to locate. To create another
data file, you do not need to retrieve SPKRDATA.WKS again. You can
simply type over the existing data you entered before, and save this
file with a new name. Keep doing this until you've built up your
database to the size you want.
NOTE: If you have incomplete or different specifications for your
driver, you can 'ballpark' estimate a few of them with the
SPKRDATA.WKS file. EXAMPLES:
1) If you have Vas in metric units only, you can enter the value you
have in cell F5 (Liters) or cell F6 (Meters^3). The converted
English value will appear in cell H5 or H6. Enter the converted
value into cell B6.
2) If the only Q value you have is Qts, you can estimate Qms via the
following chart:
Qms=3.000 if your driver's voice coil former is made from a con-
ductive material like aluminum.
Qms=7.000 if your driver's voice coil former is made from a NON-
conductive material, like paper or Kapton.
Page 3
Qms=4.000 if you're not sure of the voice coil former's construc-
tion.
Enter the value you select in cell B8. LED will then calculate an
estimated value for Qes in cell H8. Enter this derived Qes value
in cell B9. These estimates will help you, but there is no sub-
stitute for having the actual values.
3) If you do not have the value for Sd, enter the driver's actual
piston diameter (the diameter of the cone plus about a third of
the surround) in cell F10. LED will approximate the Sd value for
you in cell H10. Enter this value into cell B10.
4) If Xmax is supplied in English units (inches), enter the value in
cell F12. Led will provide a metric equivalent in cell H12. En-
ter this value in cell B11.
You can create as many driver data files as you like. We'll focus on
this first one though, as the others will function identically.
3) Retrieve the LEDV0_5.WKS file. It will take a few seconds to load
into RAM. Once loaded you will be presented with two screens which
describe how to obtain an upgraded version of LED. The third screen
you see will have rudimentary instructions for the program, kind of
like a crib sheet...
4) Import a driver data file into LEDV0_5 with the ALT-R keys now. High-
light the data file to import and press enter. The driver data will
load and the first alignments will calculate immediately. LED will
beep when these initial calculations are done, indicating that you're
ready to proceed with modeling your own enclosures and viewing or
printing graphs. Press the F10 key if you'd like to view the max flat
alignments graph now. Press enter to return to the work area when
you're through. You may alter any of the retrieved driver data
without losing your original driver data file. Note that you may
enter data in HIGHLIGHTED fields only.
5) Now you can design up to 4 additional enclosures for the current
driver, 2 sealed and 2 vented. ALT-1 or ALT-2 will take you to the
USER 1 or USER 2 alignment areas where you can use your own box
parameters. This should be self explanatory, but note that you can
enter data only in the highlighted areas.
6) If you would like to view the optimal internal enclosure dimensions
for each alignment, press ALT-E. These dimensions are based on re-
ducing internal reflections and standing waves.
7) LED automatically calculates the optimum minimum port diameter for
your driver in each vented enclosure design. Press ALT-E to view and
work with these port calculations. Here you may change the quantity
of ports used, and LED will recalculate the new minimum port diameters
based on the new port quantity. This is especially useful if, for
example, you have 1.5" tubing but a single 4" port is recommended by
LED. Through an iterative process, you can alter the quantity of
ports to be used until the calculated diameter of each port matches
that of the available tubing. By trying different port quantities,
LED will ultimately tell you that you can use 7 each 1.5" diameter
ports instead of the single 4" port. As these calculated minimum
Page 4
diameters will rarely be exactly the size of your port material, you
should use the next higher available diameter, ie if LED recommends
the ports be 3.35", you should use 3.5" tubing since that is a com-
monly available size. To get an accurate length for the 3.5" port,
go back to the design area and 'plug in' the port diameter and quan-
tity. LED will recalculate the port length for each port based on
the values you input and the box size/tuning.
It's a good idea to heed the minimum port area calculations in order
to prevent vent noise or power compression. LED offers the flexi-
bility to design ports which allow enough air flow for best sound.
8) Experimentation is the key to success with LED. With a little trial
and error, you can design some fantastic loudspeaker enclosures!
NOTES FOR AUTOSOUND ENCLOSURE DESIGNERS
LED has the capability of modifying your response plots to simulate
the automotive environment. It is well documented that there is a
large rise in low bass output due to the loading effect of the car's
interior.
While there are many generalizations and rules-of-thumb out there re-
garding this loading effect, facts about the actual changes in re-
sponse (the transfer function) are few and far between. Fortunately,
at Polk we have gone to great lengths to measure and document this
transfer function. After measuring a large sample of many types of
vehicles, an averaged corrective filter response was derived which
gives good and accurate results in most automotive environments. LED
can display your design graphs with this same filter characteristic
(transfer function) added to the half space (in-room) response curves.
The resulting graphs depict the effect of modeling the response as
though it were actually being measured in the car. Whenever you se-
lect a graph denoting in-car response, this transfer function has
been applied.
Many graphs in As-Easy-As have already been formatted to display this
in-car response, so you can work with automotive enclosure designs
quite easily. Whenever you are modeling a driver/enclosure combi-
nation which will be used in a car, you should make one of the in-car
graphs the default. In this way you can design for the flattest re-
sponse in the automotive environment. Read the next section about
graphics to learn how to use, view and print these graphs.
GRAPHICS - Viewing and printing frequency response graphs.
1) Whenever you retrieve LDSPKR05.WKS, it will default to displaying
the half-space (in-room) maximally flat alignments. However, there
are a total of 12 preformatted graphs you may view and print. Press
ALT-G to bring up the graph menu. Select a graph type and it will
become the default until you change graphs again or restart LED.
2) Since the graph names are truncated, a little explanation of their
names is in order:
Page 5
CORRECTIVE: The in-car transfer function corrective filter by itself.
VENTED/ROOM: All three vented alignments, half-space (in-room) response.
VENTED/CAR: All three vented alignments, in-car response.
SEALED/ROOM: All three sealed alignments, half-space (in-room) response.
SEALED/CAR: All three sealed alignments, in-car response.
MF S-V/R: Max flat sealed and vented alignments, half-space (in-
room) response. This is the default graph at startup.
U1-U2 S/R: User 1 and User 2 sealed alignments, half-space response.
U1-U2 S/C: User 1 and User 2 sealed alignments, in-car response.
U1-U2 V/R: User 1 and User 2 vented alignments, half-space response.
U1-U2 V/C: User 1 and User 2 vented alignments, in-car response.
U1-U1 S-V/R: User 1 sealed and User 1 vented alignments, half-space.
U1-U1 S-V/C: User 1 sealed and User 2 vented alignments, in-car.
The pattern should be clear: MF: Maximally flat alignment
U1: User 1
U2: User 2
S: Sealed alignment
V: Vented alignment
R: Half-space (in-room) response
C: In-car response
3) To print the current default graph in NLQ mode, press ALT-P. Press
ALT-O to print the same graph in draft mode. It's that simple!
Graphs will print sideways at 8.25" x 10.75".
SAVING YOUR WORK
Press ALT-S to save the entire LEDV0_5.WKS template with all your
alignment data intact. You will need to assign a name to this file,
remembering two things: 1) it's name must be in the format of
xxxxxxxx.xxx, where x's represent letters/numbers and 2) this name
must not already exist unless you want your files overwritten and
lost.
NOTES ON DESIGNS IN GENERAL
It is not my intention to tell you what boxes to design, but rather
to give you some guidelines regarding the modeling process. In this
way you can maximize the potential of LED and design the best enclo-
sures for your needs.
1) The most predictable and accurate modeling results will be obtained
if the selected driver's Qts value falls between 0.200 and 0.700.
While results for values outside that range are useful, they are not
necessarily as accurate as those falling within that range. Don't
worry... most drivers fall comfortably within the range of best
accuracy. Remember also that LED is but one tool which will help you
design loudspeaker systems. It can provide only the mathematical
models of your designs. Often, real world results will differ. If
you build a system and do not like the way it performs... well, that's
part of learning the art of designing loudspeaker systems! It is
hoped that LED will encourage you to develop and improve your speaker
Page 6
designing skills. With some practice you'll be able to fully inter-
pret and utilize the wealth of information LED can provide.
2) The value for Ql (vented box loss) has been preset in LED v0.5 at
Ql=7. This is widely accepted as the box loss value for 'average'
size drivers and internal volumes up to about 9 or 10 cubic feet.
For box sizes larger than this, the modeled low end response becomes
less accurate using LED v0.5. LED version 1.0 has a user adjustable
Ql feature, providing you a method to account for losses in large
boxes or for 'other-than-average' driver sizes, thus resulting in more
accurate models.
3) LED v0.5 can model multiple driver arrays in both normal and compound
mounts. To do this requires manually altering the driver's parameters
via this chart:
# OF DRIVERS MOUNT VALUE ALTERATION (vs 1 driver)
2 normal Sd multiply by 2
Vas multiply by 2
2 compound Vas divide by 2
4 normal Sd multiply by 4
Vas multiply by 4
4 compound Sd multiply by 2
8 normal Sd multiply by 8
Vas multiply by 8
8 compound Sd multiply by 4
Vas multiply by 2
Unless a value is mentioned, it will remain the same as for one
driver. Of note, LED version 1.0 has built-in support for inputting
the driver quantity and mounting style, making these manual adjust-
ments are unneccessary.
4) LED's maximum power handling calculations are peak, based on 'music
power'. That is, the power handling limits are based on the driver's
excursion limits, NOT it's maximum rated thermal power. If, in any
model the power handling figure is higher than the manufacturer's
rated limit, go with the rated limit!! Just because a driver's cone
can move far enough does not mean that the driver's voice coil can
handle the tremendous input power and heat generated by it.
That said, LED's calculated peak power levels are based upon frequen-
cies at or above Fb in vented boxes, and at or above F-3dB in sealed
boxes.
5) Much note is made of the relevance of Qtc value in sealed boxes. This
value can be used to describe the sealed alignments, and one can
generalize their overall effect on sound:
QTC ALIGNMENT EFFECT ON SOUND
0.500 `critically Light bass, though with great extension. Used in
damped' many British speaker systems.
Page 7
0.577 Bessel Lightish bass with very good extension. Optimum
transient response. 'Fast bass'
0.707 Butterworth Maximally flat amplitude vs frequency response.
Good transient characteristics and well balanced
bass.
>=0.800 Chebychev Bass peak which increases with Qtc value. F-3 dB
(cutoff) point increases as Qtc also increases.
These alignments are used in many mini speakers
to give the impression of more bass.
1.000 - A preferred Qtc value for many car subwoofer ap-
plications. Since the car environment will boost
bass output, a very low half-space cutoff point
is not always needed or desirable.
1.200 - Little bass extension and a bass peak of about
2.4 dB. Used in many mini-speakers with small
drivers. This gives the impression of more bass
than they really have.
6) Many accept that, as far as human hearing is concerned, the F-10 dB
point is that at which bass response becomes significantly less
audible. While you will perceive a dropoff in bass before that point,
you'll still have useable (as far as our hearing is concerned) out-
put down to the frequency at which bass response is down by 10 dB.
So, if a driver/enclosure combination exhibits an F-3 dB point of
47 Hz and an F-10 dB point of 26 Hz, you'll have diminished but per-
ceptable bass down to the lower frequency.
7) It is assumed that your enclosure, when constructed, will have it's
walls lined with a 'stuffing' material like dacron or fiberglass. If
you do not use any stuffing, add about 5% or 10% to the box volumes
as calculated by LED to account for the volumes occupied by the
driver, bracing and port (if vented). Finally, to prevent chances of
standing waves arising, do not locate the driver in the center of any
one enclosure surface.
8) In vented enclosures, you should attempt to keep the port(s) at least
4" to 6" away from the edge of any driver. You may also locate the
port(s) on the back of the box. Doing this can also help minimize
radiated noises from the port(s), with only a minimum decrease in
direct radiated output.
9) You should attempt to read some of the published documents about
speaker design. One of the best is 'The Loudspeaker Design Cookbook'
by Vance Dickason. It is available from Old Colony Sound Lab in
Peterborough, NH. Their phone number is: (603)-924-6371.
The more you know about the world of speaker design, the better your
design results will be...
NOTES ON LED v1.0
You've probably seen references to LED version 1.0 here and there
Page 8
throughout this document. This is an enhanced version of LED v0.5.
It has all the features of LED v0.5, plus: user adjustable Ql, built-
in support for driver configuration (multiple drivers, compound mount)
accessed via simple input fields and 30 preformatted graph functions.
It uses the same driver database as LED v0.5, so there's no need for
re-building. LED v1.0 has many more hot-key functions, too. Ad-
ditionally, LED v1.0 calculates data at 5 TIMES as many frequencies
as LED v0.5, giving it smoother and more accurate graphs. The USER
design work areas are also far more flexible in LED v1.0.
There are more enhancements yet... why not get LED v1.0 to use them
yourself?
If you enjoy using LED v0.5, but wish you had these features, you can
obtain LED v1.0 for $20.00. It will be sent to you on a 5.25" dis-
kette. If you'd like it on a 3.5" diskette, add $1.00. Please send
a check or money order (no cash) to me at the address below. Feel
free to include any comments, questions or suggestions for LED.
Thanks for your support of LED. I'm not out to get rich, I just want
to offer a great program at a price which covers only my time, energy
and a little lunch money.....
Remit to: David Kakenmaster
890 N. Tabor Ct.
Castle Rock, CO 80104-9715
Page 9
