I looked through the info that i had on hand and here is what i came up with.
As listed in 1975, the RTR ESR-6 was an add on E-stat tweeter array. It was listed as covering from 1500 Hz up to 30 KHz with a sensitivity of 88 dB's @ 1 watt / 1 meter. Nominally rated at 8 ohms and a size of 14.5 x 14.5 x 12 inches and weighing in at 23 lbs. I don't know how many panels were included in each cabinet, as there is not mention of that. One might guess that there were four panels i.e. two high and two wide judging by the dimensions that you listed above.
The RTR ESR-6 as listed in 1976 is shown to be 16.5 x 16.5 x 19.5 in size, which is measurably larger. The weird thing is that this bigger box is still rated at 23 lbs. The size of each ES panel is shown to be 3.1" x 5.75". This would appear to be the panels that i have. Their sensitivity is rated at 90 dB's 1 watt @ 1 meter and a nominal impedance of 8 ohms. Frequency response is shown to be the same as the 1975 model ESR-6 i.e. 1.5 KHz up to 30 KHz.
The Crown info that i have shows their model ES-212 as having the E-stat's coming in at 375 Hz and extending out to 30 KHz. These were rated at a 4 ohm nominal load. Unfortunately, there is no rating on their sensitivity. This is the same info as listed in both 1975 and in 1976.
I don't know of how much help this is to you as the RTR info only confused me. None the less, this did somewhat confirm your appr 350 Hz crossover point ( 375 Hz factory rating ) and states that the panels that you have are rated out to 30 KHz.
As far as being easier to drive than Maggies and Acoustats, i don't doubt that. Using measurably fewer RTR drivers than i had set up, Mike aka Magnetar had told me that he was easily able to hit 110+ dB's with these panels at 10+ KHz. Bare in mind that this was with the smaller 3 x 5.75 inch panels, not the larger 5.625" x 5.625" panels that you have. With the larger surface area and quantity of panels that you have, i don't doubt that they will make a good amount of noise.
Obviously, the more that you limit bandwidth, the louder that they will play with lower amounts of distortion. Having said that, crossing them over right in the meat of the midrange seems to be a mistake to me. If you can get them down around 400 - 500 Hz and actively cross them at 24 dB's, you should be great. You have to remember, they were running them down to 375 Hz and crossing them passively with what was "probably" a much shallower slope ( 12 - 18 dB's most likely ). As such, the ES panels were probably seeing and having to dissipate a measurable amount of power below the crossover point.
By using an active crossover AND a sharper slope, you not only reduce the amount of low frequency energy / excursion that the panels will see as compared to the original design, but their thermal dissipation is also reduced due to crossing over prior to amplification instead of after amplification. On top of that, transient response should be improved due to clearing out some of the clutter between the amplifier / ES Panel interphase. The end result would be greater dynamic range and lower distortion than the original Crown implimentation of these panels without having to resort to a much higher crossover frequency.
So long as you have the means to experiment with the crossover frequency used, and given that your 6.5" drivers could easily go up much higher than 400 - 500 Hz, this might be a good place to start. Depending on your listening level and personal preferences, i would think that this "should" be capable of very satisfying performance all the way around. Otherwise, moving up higher on the crossover frequency may give you greater dynamic range capacity, but it "might" come at the expense of driver blending problems. On top of that, the higher that one runs the 6.5" drivers in frequency, the more potential there is for comb filtering to take place.
If you're looking for excellent resource info on Line Array's, Jim Griffin's research is available for all to view. He not only worked with Rick Craig on the Linus Array but did a lot of research and gathering of facts on his own. I know this as i had seen / read some of his work long before the Linus was ever created. I had posted links to Jim's website on Agon several years ago. Whether or not one can still find this info in Agon's archives would be a good question. As a side note, much of the info that he had previously posted on his website was obtained from JBL professional research papers.
Out of curiosity, what type of cabinet are you going to run the 6.5" drivers in? Are you going to run them open backed to duplicate the ES dipolar radiation pattern, sealed, vented, etc ???
What you're thinking about doing is something similar in concept to Albert's Dali Megalines, except those use a ribbon rather than ES panels. I think that the Dali's are crossed at about 1 - 1.5 KHz also, so there might be some validity to what you originally wanted to do. As is true of most projects like this, a bit of trial and error will probably be in order before you're fully satisfied with the results. Good luck and keep us posted when things start rolling. Sean
>
As listed in 1975, the RTR ESR-6 was an add on E-stat tweeter array. It was listed as covering from 1500 Hz up to 30 KHz with a sensitivity of 88 dB's @ 1 watt / 1 meter. Nominally rated at 8 ohms and a size of 14.5 x 14.5 x 12 inches and weighing in at 23 lbs. I don't know how many panels were included in each cabinet, as there is not mention of that. One might guess that there were four panels i.e. two high and two wide judging by the dimensions that you listed above.
The RTR ESR-6 as listed in 1976 is shown to be 16.5 x 16.5 x 19.5 in size, which is measurably larger. The weird thing is that this bigger box is still rated at 23 lbs. The size of each ES panel is shown to be 3.1" x 5.75". This would appear to be the panels that i have. Their sensitivity is rated at 90 dB's 1 watt @ 1 meter and a nominal impedance of 8 ohms. Frequency response is shown to be the same as the 1975 model ESR-6 i.e. 1.5 KHz up to 30 KHz.
The Crown info that i have shows their model ES-212 as having the E-stat's coming in at 375 Hz and extending out to 30 KHz. These were rated at a 4 ohm nominal load. Unfortunately, there is no rating on their sensitivity. This is the same info as listed in both 1975 and in 1976.
I don't know of how much help this is to you as the RTR info only confused me. None the less, this did somewhat confirm your appr 350 Hz crossover point ( 375 Hz factory rating ) and states that the panels that you have are rated out to 30 KHz.
As far as being easier to drive than Maggies and Acoustats, i don't doubt that. Using measurably fewer RTR drivers than i had set up, Mike aka Magnetar had told me that he was easily able to hit 110+ dB's with these panels at 10+ KHz. Bare in mind that this was with the smaller 3 x 5.75 inch panels, not the larger 5.625" x 5.625" panels that you have. With the larger surface area and quantity of panels that you have, i don't doubt that they will make a good amount of noise.
Obviously, the more that you limit bandwidth, the louder that they will play with lower amounts of distortion. Having said that, crossing them over right in the meat of the midrange seems to be a mistake to me. If you can get them down around 400 - 500 Hz and actively cross them at 24 dB's, you should be great. You have to remember, they were running them down to 375 Hz and crossing them passively with what was "probably" a much shallower slope ( 12 - 18 dB's most likely ). As such, the ES panels were probably seeing and having to dissipate a measurable amount of power below the crossover point.
By using an active crossover AND a sharper slope, you not only reduce the amount of low frequency energy / excursion that the panels will see as compared to the original design, but their thermal dissipation is also reduced due to crossing over prior to amplification instead of after amplification. On top of that, transient response should be improved due to clearing out some of the clutter between the amplifier / ES Panel interphase. The end result would be greater dynamic range and lower distortion than the original Crown implimentation of these panels without having to resort to a much higher crossover frequency.
So long as you have the means to experiment with the crossover frequency used, and given that your 6.5" drivers could easily go up much higher than 400 - 500 Hz, this might be a good place to start. Depending on your listening level and personal preferences, i would think that this "should" be capable of very satisfying performance all the way around. Otherwise, moving up higher on the crossover frequency may give you greater dynamic range capacity, but it "might" come at the expense of driver blending problems. On top of that, the higher that one runs the 6.5" drivers in frequency, the more potential there is for comb filtering to take place.
If you're looking for excellent resource info on Line Array's, Jim Griffin's research is available for all to view. He not only worked with Rick Craig on the Linus Array but did a lot of research and gathering of facts on his own. I know this as i had seen / read some of his work long before the Linus was ever created. I had posted links to Jim's website on Agon several years ago. Whether or not one can still find this info in Agon's archives would be a good question. As a side note, much of the info that he had previously posted on his website was obtained from JBL professional research papers.
Out of curiosity, what type of cabinet are you going to run the 6.5" drivers in? Are you going to run them open backed to duplicate the ES dipolar radiation pattern, sealed, vented, etc ???
What you're thinking about doing is something similar in concept to Albert's Dali Megalines, except those use a ribbon rather than ES panels. I think that the Dali's are crossed at about 1 - 1.5 KHz also, so there might be some validity to what you originally wanted to do. As is true of most projects like this, a bit of trial and error will probably be in order before you're fully satisfied with the results. Good luck and keep us posted when things start rolling. Sean
>