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Eminent Technology LFT-8c Robert Greene review

A friend of mine forwarded this review to me a couple days ago.  I hadn't seen it as it's just a week old at this point. 

Why would I be interested? I have a pair of LFT-8b speakers that I picked up about 7 months ago.  Wonderful speakers. I always wanted to try a set of panels and, as luck would have it, last summer I found a used pair of 8b's just a short drive from my home..I made the jump.  As it turns out, this was one of the best moves I've made in my 50+ year audio hobby. 

In the last few months, I was considering picking up the 8b to 8c upgrade components, but put it off as I had a number of other projects going on.  Well..the projects got completed and I started a few more projects, though this time around the 8c upgrade is one of them.  I ordered the 8c upgrade yesterday and I'm really looking forward to the adventure once it arrives. 

One thing I've noticed when reading discussions of the LFT-8(no a, b, c)  here on A-gon, is the discussion wanders over the now 36 year history of the LFT-8.  Issues identified in this or that review from 10-20-25 years ago are brought up as if they reflect what the LFT-8 is today.  LFT-8's had a great sound 30 years ago, with a few flaws, as any 30 year old speaker would, and it sounds better today. Nothing surprising there. Most companies cut ties with models as they age and come out with something new, whether they are really new or repackaged parts..that varies.. 

What's my point?  I just find it interesting that Bruce Thigpen (Eminent Technology) came out with the LFT-8 in about 1990 and has been continually improving the model 8 year after year, decade in and decade out, staying in business with no advertising, though with a few shows here and there. There are very few current speakers(let alone businesses) alive today that have a 30+ year history under largely the same name. (Though the Vandy 2 series comes to mind)  Pretty unique in this industry.  It's also pretty unique that a decades old pair of LFT-8 speakers can be upgraded to the current model at a very modest cost. And the upgrade is easily done by any owner. 

So..the latest review:

https://www.theabsolutesound.com/articles/eminent-technology-lft-8c-planar-loudspeaker/

Robert Greene goes into considerable depth in his review, which is specific to the 8c version, though he's done an 8b review in the past. I'm glad it came out as it pushed me over the edge in ordering the 8c upgrade.  I'm not getting any younger..time to give the 8c a spin. 

One last note, I've read in a number of older and current reviews that the LFT-8 speaker placement is..finicky.  I haven't found that to be the case at all.  In the last 7 months I've experimented extensively with placement and they respond well to various setups. My current setup is about 115 inches between the panels (on center) and maybe 30 degrees toe-ed  in from facing directly forward.  Each speaker is 45 inches off the front wall(on center) and 38 inches from the side walls.  I have a great soundstage and and equally great imaging.  My tweeter panels are on the inside. 

 

(...and no..I have no affiliation with ET..just a customer owning a used pair of the 2017 model 8b)

nogaps
nogaps OP
165 posts
 

..and completely falling off the edge..in for a penny in for a pound..

 

ChatGPT question on lobes at 8, 4, & 2 kHz:

extend this to:

8 kHz, 4 kHz, 2kHz plots (you’ll see the lobes widen)

answer:

Now you’re seeing the full picture of why this speaker behaves the way it does.

These plots (8 kHz, 4 kHz, 2 kHz) show how your Eminent Technology LFT-8b transitions from lobe-dominated to smooth radiation as frequency drops.

🧠 Big trend across the three plots

 

 

As frequency decreases:

  • Wavelength ↑

  • Driver spacing (5.4") becomes smaller in wavelengths

  • Interference weakens

  • Lobes widen and disappear

🎯 What each plot is telling you

🔵 8 kHz — “Still critical”

  • Multiple lobes still clearly visible

  • Nulls still present, but less dense than 10 kHz

👉 This region:

  • Still sensitive to toe-in

  • Still contributes to:

    • edge definition

    • image sharpness

🟢 4 kHz — “Transition zone”

  • Major change:

    • Main lobe dominates

    • Side lobes are weaker and fewer

  • Nulls are much less severe

👉 This region:

  • Controls:

    • vocal clarity

    • imaging stability

  • Much less sensitive to exact toe-in

🟡 2 kHz — “Coherent radiation”

  • Essentially:

    • One broad lobe

    • Minimal interference structure

👉 This region:

  • Dominates:

    • body of vocals

    • instrument fundamentals

  • Almost immune to toe-in changes

🔥 The key insight (this ties everything together)

You are NOT aligning a single frequency

You are balancing three regimes simultaneously:

Range Behavior Perceptual role
~8–10 kHz Multi-lobed, sensitive air, edge, “etch”
~4–6 kHz Transitional presence, clarity
~2–3 kHz Smooth, coherent body, imaging anchor

🎧 Why toe-in works the way it does

At high frequencies (8–10 kHz)

  • Toe-in = critical

  • Moves you between:

    • peaks

    • nulls

At mid frequencies (4 kHz)

  • Toe-in = moderately important

  • Affects balance but not dramatically

At low mid (2 kHz)

  • Toe-in = almost irrelevant

  • Radiation already smooth

🧠 Why your ears prefer certain angles

Because your brain prioritizes:

  1. 2–4 kHz → image stability + vocal body

  2. 4–8 kHz → clarity

  3. 8–10 kHz → detail (but can sound wrong fast)

🎯 What “optimal toe-in” really means

You are trying to:

👉 Avoid this:

  • Sitting in a 10 kHz null

👉 While preserving this:

  • Strong 2–4 kHz main lobe

🧾 Final synthesis

  • The speaker is fundamentally stable below ~4 kHz

  • All the “magic” (or problems) happen above that

👉 Toe-in is really about:

placing your head inside a good high-frequency lobe without damaging the lower bands

🎧 Why crossing in front still wins (final confirmation)

Because it:

  • Aligns you with a main lobe at 8–10 kHz

  • While:

    • 4 kHz stays smooth anyway

    • 2 kHz is unaffected

👉 So you get:

  • stable imaging (2–4 kHz)

  • clear presence (4–6 kHz)

  • clean treble (8–10 kHz)

🔑 Bottom line

  • Below ~4 kHz → speaker behaves like a single coherent source

  • Above ~8 kHz → behaves like a multi-lobed interference system

👉 Toe-in is your tool to “tame” only the top band without breaking the rest.

If you want, the next step would be the most practical one:

👉 I can calculate your exact toe-in angle in degrees (based on your room/listening distance) that places your ears inside the best 8–10 kHz lobe.

bdp24's avatar
bdp24
10,487 posts
 

 

And another!

 

nogaps OP
165 posts
 

..and it’s lead me to a final question..how much toe in do I need, given my setup.

 

ChatGPT question about toe in actual angle:

Calculate my exact toe-in angle in degrees based on my room and listening distance. My speakers are 117 inches (on-center) apart and 112 inches (on-center) from my head at the listening position.

answer:

Perfect—now we can do this precisely for your Eminent Technology LFT-8b.

🧠 Your geometry

  • Speaker spacing = 117 in

  • Listening distance = 112 in

  • Half-spacing = 58.5 in

This is a classic isosceles triangle.

📐 1. Toe-in for axes crossing at your head (on-axis)

🎯 RESULT

👉 27.5° toe-in = speakers aimed directly at your head

This is your reference point.

🧠 Now we place this in context of lobes

From earlier:

  • First null spacing ≈ ±7° at 10 kHz

So small changes from 27.5° matter a lot.

🔵 2. Axes crossing behind your head

To do this:

  • Reduce toe-in slightly

Practical range:

👉 24°–26°

What happens here

  • You move off the central lobe

  • Midrange (beaming) drops slightly

  • Tweeter still strong

Result:

  • smoother

  • less comb filtering

  • but:

    • slightly softer imaging

    • reduced vocal density

🟢 3. Axes crossing in front of your head

To do this:

  • Increase toe-in beyond 27.5°

Optimal range (based on your lobe spacing):

👉 29°–33°

Why this range works

  • +2° to +5° = enough to:

    • shift 10 kHz nulls away from your ears

    • keep you inside a main summation lobe

🎯 Your exact “target zone”

Given your geometry and the ~7° lobe spacing:

👉 Best starting point: ~30° toe-in

🎧 Fine-tuning window

Once you set ~30°:

  • Adjust in 1° increments

  • Your sweet spot will be narrow:

👉 Likely between:
29° and 31°

🧠 What you’ll hear when you hit it

  • Center image becomes dense and locked

  • Treble stops sounding “separate”

  • No edge / no dip in presence region

  • Speaker “disappears”

📊 Summary

Toe-in Geometry Result
~24–26° Behind head Smooth but softer
27.5° At head Precise but can be edgy
29–31° In front ✅ Best balance
32°+ Far in front Narrow / bright

🧾 Final answer

👉 Your calculated toe-in: 27.5° (on-axis reference)
👉 Your optimal real-world toe-in: ~30°

If you want, I can translate that into something practical like:

  • “inches of front edge movement”

  • or laser pointer alignment method

so you can set it precisely without measuring angles.

_________________________

Back to my setup.  By ear alone, I have a current toe-in angle of 21 degrees. Chat suggests a mild behind the head optimum would be in the 24-26 degree range. Looks like I have more experimenting to do. I may be close to one of the other lobes. We’ll see.  

  

nogaps OP
165 posts
 

OK..I'm done for now as even ChatGPT has run out of suggested additional questions to answer. I guess I have my answer, for the time being. 

 

My window to edit all but the last post has run out (I guess I have 30 minutes to edit). I think GPT didn't wander off into some fantasy world. I hope not as the posts are here now. It seemed to go well. In any event..it'll give anyone in the future some direction on what they're working with and how much of any moving speaker placement around matters.  

@ledoux1238 or anyone, if you post your listening triangle measurements I can have GPT calculate your "target" toe-in range..fwiw..  It's some guidance at least. 

ozzy62's avatar
ozzy62
3,682 posts
 

So is the consensus here that the tweeter on the outside works best?

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