| T.R | Title | User | Personal
Name | Date | Lines |
|---|
| 1709.1 | take a wild guess | ANT::JANZEN | Performance Art is Life with Publicity | Tue Oct 04 1988 10:10 | 5 |
| EIA probably has a standard to do it right in detail. I heard it
was measured a 1kHz.
Measure it with a meter and if it's 6 ohms or more you know it must
be an 8 ohm speaker.
Tom
|
| 1709.2 | 2c worth | ANT::JACQUES | | Wed Oct 05 1988 17:00 | 30 |
|
Speaker impedance is a complex reactance function which has a bell
shaped curve. It is generally rated in nominal impedance. I think
Tom is right about it being measured at 1khz.
Most speakers are 8 ohm, but this is not a hard and fast rule.
The impedance should be stamped on the back of the speaker.
Piezo's have no coil, therefore they have no theoretical impedance,
and for this same reason they draw no measurable current. If you
tried to force any real power through a piezo, it would turn to
smoke. Because the piezo has no impedance, it can be ignored when
calculating the impedance of the entire cab, however, it should
always be wired in parallel, not series.
If your cabinet has four 8 ohm drivers, and you want to end up with
an eight ohm load, wire them into serial pairs, and then connect
the 2 pairs together in parallel.
8ohms + 8ohms = 16ohms-
|== 2 16 ohm loads in parallel = 8ohms
8ohms + 8ohms = 16ohms-
Hope this answers your questions.
Mark Jacques
|
| 1709.3 | any SPICE models for pizelectrics out there? | ANT::JANZEN | Performance Art is Life with Publicity | Wed Oct 05 1988 17:38 | 19 |
| << < Note 1709.2 by ANT::JACQUES >
< -< 2c worth >-
< Piezo's have no coil, therefore they have no theoretical impedance,
Gee gosh capacitors have no coil, resistors have no coil, they have
impedance. I can't find a model for a pizeoelectric Xtal in my
radio engineer's handbook, but rest assured a complex impedance
model, perhaps partly active, could be developed. I imagine they
are capacitive with some series resistance. Because
dc can flow through the xtal, but the energy is spent by the electric
field causing stresses.
< and for this same reason they draw no measurable current. If you
Sure they do. Go measure it AC.
< tried to force any real power through a piezo, it would turn to
< smoke. Because the piezo has no impedance, it can be ignored when
< calculating the impedance of the entire cab, however, it should
< always be wired in parallel, not series.
> Mark Jacques
Tom
|
| 1709.4 | << FYI >> | OTOA01::ELLACOTT | Freddie's Revenge | Tue Oct 11 1988 12:12 | 9 |
| FYI pizeo tweeters do have an impedance, it is generally greater
than 1 k ohm and is therefore usually not required in impedance
calculations for a speaker cabinet. The regular reostat volume controls
( the ones inside the speaker cab for high end) will not work properly
with these either. Instead use a 1k- 20k potentiometer in series
with the driver, using the middle and one of the outside terminals.
Another advantage of these devices is the they do not require a
crossover because of their impedance curve ( higher at low freq
that hi)
|
| 1709.5 | | CANYON::MOELLER | Is 'neotraditional' a word ? | Wed Oct 12 1988 14:05 | 8 |
| < Note 1709.4 by OTOA01::ELLACOTT "Freddie's Revenge" >
>The regular reostat volume controls will not work properly
>with these either. Instead use a 1k- 20k potentiometer in series
>with the driver,
is this type of pot commonly known as an 'L-Pad' ??
karl
|
| 1709.6 | | DNEAST::BOTTOM_DAVID | Everyday I got the blues | Thu Oct 13 1988 08:52 | 11 |
| A pot is not an L-pad and using a post in series with a speaker
may possibly destroy the power section of an amplifier, especially
if it's a transformer coupled output stage (read that as big $$ for
an output transformer, trust me I know this first hand).
Most 8 ohm speakers I have measured with a multimeter read close to 6
ohms. That's DC resistance and not 8 ohms impedance which is a reactive
value (ie: this contains a DC resistance value as well as the inductive
and capacitive reactance of the speaker coils). Maybe this helps.
dbii
|
| 1709.7 | | STROKR::DEHAHN | | Thu Oct 13 1988 09:19 | 13 |
|
Wirewound pots for audio use are L pads or T pads, depending on
how they're wound. The L pad is a simple dividing network, just
like most simple pots. I forget what the T pad looks like.
Even though the piezo has high impedance, I would think you'd still
need a fairly high power pot (or pad) in that application. Whether
the normal 5W pot is hefty enough, I don't know, I've never tried
it. I only use piezos as a last resort, and even then only for the
8K--> range. They sound nasty below 8K.
CdH
|
| 1709.8 | FXITRT | OTOO01::ELLACOTT | Freddie's Revenge | Tue Oct 25 1988 12:54 | 20 |
| Sorry I've been away for a while, but lets get this right!!!!!!
A piezo is NOT a current device it is a Voltage device, it will
not pass direct current at all (unless you fry it...xsive voltage)
but it will respond to ac voltage. The approx voltage at 200 watts
on an 8 ohm load is 42Vrms, and the calculated current through a
2k load (approx of a piezo) would be .021 amps with power dissapation
of .882 watts. but this is still loud. To cause the the voltage
(&power) accoss the device to drop by one half for instance, a resistance
of 2k would have to be added in series with the device, and that
2k would then only be dissapating about 1/4 watt of power.
The correct value and rate of pot to use would be 2k-5k ohms
with a power rating of 1-5 watts and should be wired thus:
____________
V 2 |
+______/\/\/\/\/\/\/\ |_________+ piezo -___________-
1 3nc
<-----cw
|
| 1709.9 | add info | OTOO01::ELLACOTT | Freddie's Revenge | Tue Oct 25 1988 13:02 | 11 |
|
Here is the drawing again.
The correct value and rate of pot to use would be 2k-5k ohms
with a power rating of 1-5 watts and should be wired thus:
____________
V 2 |
+______/\/\/\/\/\/\/\ |_________+ piezo -___________-
1 3nc
<-----cw
|