Rogers and BBC LoudspeakersBBC LS3/

Rogers and BBC Loudspeakers
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Front view with grill removed. Note the
tagstrip for tweeter level adjustmentThe LS5/9 was designed by the BBC Research Department and manufacture under licence by Rogers. Production started circa 1983, and continued well into the '90s.

It was intended to be used in locations where the much larger LS5/8 would be inappropriate. The BBC Design Report (BBC RD 1983/10) makes interesting reading and is well worth downloading.

Drive units
As one of the aims was to produce a close sound quality match with the LS5/8, they chose the same Audax HD13D34H tweeter - a 34mm fabric dome. The BBC fitted a metal grille for protection, which was apparently intended to support the weight of the complete loudspeaker! The assembly was designated LS2/12.

Maplin used to stock the tweeter (MY22Y) but they stopped stocking Audax drive units back in 2004 - it sold for around £25, although it fell to £12.99 before discontinuation. Today, it is possible to find the tweeter as Audax still manufacture it, but be aware that the newer versions measure slightly differently, especially at the HF end.

LS2/14 Bass driverThe bass unit was the matter of some in-house research, and the Design Report details the experimental work to determine the best cone profile and material. A full range of development techniques appear to have been used, ranging from laser interferometry to subjective listening tests. The resulting design, designated LS2/14, was manufactured by Rogers.

No-doubt Rogers benefited from their close relationship with the BBC. Certainly, the bass driver in the LS7 appears to be very similar, sharing the die-cast chassis and distinctive transparent polypropylene cone.

Observant readers might notice that the woofer appears to be wired out of phase. It isn't - I've rotated the drive unit through 180 degrees to cure a rubbing voicecoil, caused by the cone settling on the suspension over time. The wires from the crossover PCB are different lengths, so rather than replacing them, I simply swapped them at the PCB end, thus maintaining correct phase.

Enclosure
An inside view, showing the enclosure
liningThe enclosure is made using classic thinwall practice - high-quality 9mm birch plywood, critically damped with self-adhesive bitumen pads. This method has largely passed out of favour because of the extra design work and significantly increased manufacturing costs, but it's good to see that a handful of companies are still maintaining the tradition (Harbeth and Stirling Broadcast are the obvious ones that spring to mind). All internal walls apart from the baffle are lined with Rockwool-type insulation, held in place by black cloth which is stapled to the internal batons that join the panels. Some examples are fitted with thin transparent plastic instead of cloth.

In traditional BBC fashion, the grille is held on with Velcro, and is very difficult to remove once it has been on for a few years. Access to the inside is via the removable baffle which is secured with machine bolts which connect with metal inserts in the batons.

There are similar inserts in the side panels for attaching the speakers to stands. These are plugged with brown plastic caps for aesthetic reasons, and sealed internally by the bitumen damping panels. Additionally there are similar holes in the rear panel which are intended to hold an optional BBC amplifier. This is a conventional mono amplifier, designated AM8/17, and was manufactured by H&H.

None of these fixing holes are visible in the brochure pictures, suggesting that domestic models didn't have them. Also the external tweeter level adjustment tags are also not visible in the later brochure picture - again, I wonder if this was only a professional option?

Crossover
The crossover is mounted on the baffle behind the tweeter, just as it is on the LS3/5A. It is equally complicated!

Rear view of the baffle (35K)
Interestingly, the original product produced by Research and Development was an active design just like the LS5/8, but this active version never went into production because the passive high-level crossover designed by Maurice Whatton and Trevor Newlin of Designs Department was found to produce results that were just as good. Back in 2006, Trevor sent me the following:

I am glad to read about your comments about the LS5/9. This was my major job at the BBC to design this brute.

There were several hick-ups along the way. The crossover was the first designed using SPICE. It was engineered to have a low source impedance over the entire audio range which also gave it a very even input impedance hence making it largely cable immune.

As a result of producing this speaker we heard all the imperfections of the Broadcast amplifiers then in use. My next project then became the design of a broadcast amplifier that had sufficient audio quality so you heard the loudspeaker not the amplifier. This amplifier [the AM8/17] was subsequently licensed to outside vendors. For domestic amplifiers we found the Quad 405 gave a passable performance.

Trevor Newlin

Early versions of the crossover used radiometal inductors and like the original LS5/3a, tweeter level matching adjustment was done by selecting tappings on an auto-transformer rather than a resistor ladder. Many thanks to Brian Drummond for providing this picture and lots of other details that have made this page more complete. Incidentally, his crossover was home-made - production versions had the usual silkscreen markings.

Early version of the LS5/9
crossover (28K)
I've never seen one of these in the flesh, but I've only examined models with later serial numbers. Brian thinks that this version was in production for at least a couple of years. The later design (shown below) was mentioned in the 1985 departmental annual report because it was the first BBC design to use ferrite inductors and was also the first to be designed with the aid of Spice computer simulation. Apparently the success of the design also fed into the work to redesign the LS3/5a crossover that appeared in later 11 ohm models.

Close-up of the crossover (24K)
I've produced this schematic by reverse-engineering the PCB layout. As is often the case, the inductors aren't marked, so many thanks are due to Marcel Janssen (from the Netherlands) for supplying the inductor values, thus saving me from having to measure them.

LS5/9 Crossover Schematic (8K)
The tweeter level is basically matched by an auto-transformer, but note the comprehensive provision for fine level adjustment to account for inconsistencies in the Audax tweeter.

There appears to be a typo with the PCB labelling (the -2 tap that connects to the -1 position on the tagboard), but I'm reasonably sure that that's the value printed on the PCB. Next time I take one apart I'll double-check this point...

For those wondering how it works, it's reasonably straightforward. Taking the path to the woofer first, the inductor and 6µ8 capacitor network form a second-order low-pass filter with a 12dB/octave slope. This determines the basic crossover frequency.

There is a frequency-response plot of the drivers driven at constant voltage (ie, no crossover) in the Design Report, and this shows a fall of 5dB or so at frequencies below 500Hz. This is caused by a phenomenon called "baffle step", where the increasing wavelength corresponds with the width of the baffle - have a look here for more information.

This is compensated for by the next inductor and parallel resistors combination. These form a mid-bass filter - essentially at lower frequencies the signal passes straight through the inductor, whereas at higher frequencies the inductor no longer passes the signal, but the resistors do.

Finally, the series combination of 30uF and 5.5Ω compensates for the rising impedance of the voice coil at higher frequencies. This is important if the preceding filter characteristics are to be preserved. Bear in mind that high-level crossovers are essentially just potential dividers where the resistances happen to change with frequency. As the loudspeaker voicecoil is the lower 'arm' of this divider, the ratios will change according to the impedance curve of the drive unit, significantly affecting the midrange response.

The tweeter filtering starts with another second-order filter. The inductor has two roles here - as well as its inductance forming the filter along with the 4µ7 capacitor, it also acts as an auto-transformer. This enables attenuation of the signal without wasting heat in resistors, and gives other advantages when you consider the circuit impedances. The 6µ8 and 10µ capacitors form a further filter, and finally the level-control resistors provide fine adjustment of the tweeter. Note the 3 higher value resistors - these are to ensure that the load impedance seen by the high-pass filter remains constant in the face of differing impedances presented by varying tweeter level adjustments.

Note the phase-reversal of the tweeter. This is commonly encountered in loudspeaker design, and is done to provide the best integration of the two drivers. If you feed in a signal that is close to the crossover point then both drive units will be contributing to the sound you hear. Now, think for a moment about the phase of the units - you'll probably know how bad your hifi sounds when you've accidentally wired your speakers out of phase... It's a similar principle here - any filter causes changes in phase response, and it happens that the sum of all the phase shifts of both filters at the crossover point is near to 180° - hence the phase reversal of the tweeter.

If you get this wrong you'll notice two problems. First there will be changes in the amplitude response. Rather than the outputs of the two drivers adding together coherently around the crossover point, you'll get cancellation eff

It was intended to be used in locations where the much larger LS5/8 would be inappropriate. The BBC Design Report (BBC RD 1983/10) makes interesting reading and is well worth downloading.

Drive units
As one of the aims was to produce a close sound quality match with the LS5/8, they chose the same Audax HD13D34H tweeter - a 34mm fabric dome. The BBC fitted a metal grille for protection, which was apparently intended to support the weight of the complete loudspeaker! The assembly was designated LS2/12.

Maplin used to stock the tweeter (MY22Y) but they stopped stocking Audax drive units back in 2004 - it sold for around £25, although it fell to £12.99 before discontinuation. Today, it is possible to find the tweeter as Audax still manufacture it, but be aware that the newer versions measure slightly differently, especially at the HF end.

LS2/14 Bass driverThe bass unit was the matter of some in-house research, and the Design Report details the experimental work to determine the best cone profile and material. A full range of development techniques appear to have been used, ranging from laser interferometry to subjective listening tests. The resulting design, designated LS2/14, was manufactured by Rogers.

No-doubt Rogers benefited from their close relationship with the BBC. Certainly, the bass driver in the LS7 appears to be very similar, sharing the die-cast chassis and distinctive transparent polypropylene cone.

Observant readers might notice that the woofer appears to be wired out of phase. It isn't - I've rotated the drive unit through 180 degrees to cure a rubbing voicecoil, caused by the cone settling on the suspension over time. The wires from the crossover PCB are different lengths, so rather than replacing them, I simply swapped them at the PCB end, thus maintaining correct phase.

Enclosure
An inside view, showing the enclosure
 liningThe enclosure is made using classic thinwall practice - high-quality 9mm birch plywood, critically damped with self-adhesive bitumen pads. This method has largely passed out of favour because of the extra design work and significantly increased manufacturing costs, but it's good to see that a handful of companies are still maintaining the tradition (Harbeth and Stirling Broadcast are the obvious ones that spring to mind). All internal walls apart from the baffle are lined with Rockwool-type insulation, held in place by black cloth which is stapled to the internal batons that join the panels. Some examples are fitted with thin transparent plastic instead of cloth.

In traditional BBC fashion, the grille is held on with Velcro, and is very difficult to remove once it has been on for a few years. Access to the inside is via the removable baffle which is secured with machine bolts which connect with metal inserts in the batons.

There are similar inserts in the side panels for attaching the speakers to stands. These are plugged with brown plastic caps for aesthetic reasons, and sealed internally by the bitumen damping panels. Additionally there are similar holes in the rear panel which are intended to hold an optional BBC amplifier. This is a conventional mono amplifier, designated AM8/17, and was manufactured by H&H.

None of these fixing holes are visible in the brochure pictures, suggesting that domestic models didn't have them. Also the external tweeter level adjustment tags are also not visible in the later brochure picture - again, I wonder if this was only a professional option?

Crossover
The crossover is mounted on the baffle behind the tweeter, just as it is on the LS3/5A. It is equally complicated!

Rear view of the baffle (35K)
Interestingly, the original product produced by Research and Development was an active design just like the LS5/8, but this active version never went into production because the passive high-level crossover designed by Maurice Whatton and Trevor Newlin of Designs Department was found to produce results that were just as good. Back in 2006, Trevor sent me the following:

I am glad to read about your comments about the LS5/9. This was my major job at the BBC to design this brute.

There were several hick-ups along the way. The crossover was the first designed using SPICE. It was engineered to have a low source impedance over the entire audio range which also gave it a very even input impedance hence making it largely cable immune.

As a result of producing this speaker we heard all the imperfections of the Broadcast amplifiers then in use. My next project then became the design of a broadcast amplifier that had sufficient audio quality so you heard the loudspeaker not the amplifier. This amplifier [the AM8/17] was subsequently licensed to outside vendors. For domestic amplifiers we found the Quad 405 gave a passable performance.

Trevor Newlin

Early versions of the crossover used radiometal inductors and like the original LS5/3a, tweeter level matching adjustment was done by selecting tappings on an auto-transformer rather than a resistor ladder. Many thanks to Brian Drummond for providing this picture and lots of other details that have made this page more complete. Incidentally, his crossover was home-made - production versions had the usual silkscreen markings.

Early version of the LS5/9
 crossover (28K)
I've never seen one of these in the flesh, but I've only examined models with later serial numbers. Brian thinks that this version was in production for at least a couple of years. The later design (shown below) was mentioned in the 1985 departmental annual report because it was the first BBC design to use ferrite inductors and was also the first to be designed with the aid of Spice computer simulation. Apparently the success of the design also fed into the work to redesign the LS3/5a crossover that appeared in later 11 ohm models.

Close-up of the crossover (24K)
I've produced this schematic by reverse-engineering the PCB layout. As is often the case, the inductors aren't marked, so many thanks are due to Marcel Janssen (from the Netherlands) for supplying the inductor values, thus saving me from having to measure them.

LS5/9 Crossover Schematic (8K)
The tweeter level is basically matched by an auto-transformer, but note the comprehensive provision for fine level adjustment to account for inconsistencies in the Audax tweeter.

There appears to be a typo with the PCB labelling (the -2 tap that connects to the -1 position on the tagboard), but I'm reasonably sure that that's the value printed on the PCB. Next time I take one apart I'll double-check this point...

For those wondering how it works, it's reasonably straightforward. Taking the path to the woofer first, the inductor and 6µ8 capacitor network form a second-order low-pass filter with a 12dB/octave slope. This determines the basic crossover frequency.

There is a frequency-response plot of the drivers driven at constant voltage (ie, no crossover) in the Design Report, and this shows a fall of 5dB or so at frequencies below 500Hz. This is caused by a phenomenon called "baffle step", where the increasing wavelength corresponds with the width of the baffle - have a look here for more information.

This is compensated for by the next inductor and parallel resistors combination. These form a mid-bass filter - essentially at lower frequencies the signal passes straight through the inductor, whereas at higher frequencies the inductor no longer passes the signal, but the resistors do.

Finally, the series combination of 30uF and 5.5Ω compensates for the rising impedance of the voice coil at higher frequencies. This is important if the preceding filter characteristics are to be preserved. Bear in mind that high-level crossovers are essentially just potential dividers where the resistances happen to change with frequency. As the loudspeaker voicecoil is the lower 'arm' of this divider, the ratios will change according to the impedance curve of the drive unit, significantly affecting the midrange response.

The tweeter filtering starts with another second-order filter. The inductor has two roles here - as well as its inductance forming the filter along with the 4µ7 capacitor, it also acts as an auto-transformer. This enables attenuation of the signal without wasting heat in resistors, and gives other advantages when you consider the circuit impedances. The 6µ8 and 10µ capacitors form a further filter, and finally the level-control resistors provide fine adjustment of the tweeter. Note the 3 higher value resistors - these are to ensure that the load impedance seen by the high-pass filter remains constant in the face of differing impedances presented by varying tweeter level adjustments.

Note the phase-reversal of the tweeter. This is commonly encountered in loudspeaker design, and is done to provide the best integration of the two drivers. If you feed in a signal that is close to the crossover point then both drive units will be contributing to the sound you hear. Now, think for a moment about the phase of the units - you'll probably know how bad your hifi sounds when you've accidentally wired your speakers out of phase... It's a similar principle here - any filter causes changes in phase response, and it happens that the sum of all the phase shifts of both filters at the crossover point is near to 180° - hence the phase reversal of the tweeter.

If you get this wrong you'll notice two problems. First there will be changes in the amplitude response. Rather than the outputs of the two drivers adding together coherently around the crossover point, you'll get cancellation eff

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Rogers and BBC LoudspeakersBBC LS3/5aBBC LS5/8Chord LS5/8BBC LS5/9Rogers LS7Rogers dB101Other ModelsService/SparesBrochuresContact Me...GuestbookAbout...Front view with grill removed. Note the tagstrip for tweeter level adjustmentThe LS5/9 was designed by the BBC Research Department and manufacture under licence by Rogers. Production started circa 1983, and continued well into the '90s.It was intended to be used in locations where the much larger LS5/8 would be inappropriate. The BBC Design Report (BBC RD 1983/10) makes interesting reading and is well worth downloading.Drive unitsAs one of the aims was to produce a close sound quality match with the LS5/8, they chose the same Audax HD13D34H tweeter - a 34mm fabric dome. The BBC fitted a metal grille for protection, which was apparently intended to support the weight of the complete loudspeaker! The assembly was designated LS2/12.Maplin used to stock the tweeter (MY22Y) but they stopped stocking Audax drive units back in 2004 - it sold for around £25, although it fell to £12.99 before discontinuation. Today, it is possible to find the tweeter as Audax still manufacture it, but be aware that the newer versions measure slightly differently, especially at the HF end.LS2/14 Bass driverThe bass unit was the matter of some in-house research, and the Design Report details the experimental work to determine the best cone profile and material. A full range of development techniques appear to have been used, ranging from laser interferometry to subjective listening tests. The resulting design, designated LS2/14, was manufactured by Rogers.No-doubt Rogers benefited from their close relationship with the BBC. Certainly, the bass driver in the LS7 appears to be very similar, sharing the die-cast chassis and distinctive transparent polypropylene cone.Observant readers might notice that the woofer appears to be wired out of phase. It isn't - I've rotated the drive unit through 180 degrees to cure a rubbing voicecoil, caused by the cone settling on the suspension over time. The wires from the crossover PCB are different lengths, so rather than replacing them, I simply swapped them at the PCB end, thus maintaining correct phase.EnclosureAn inside view, showing the enclosure liningThe enclosure is made using classic thinwall practice - high-quality 9mm birch plywood, critically damped with self-adhesive bitumen pads. This method has largely passed out of favour because of the extra design work and significantly increased manufacturing costs, but it's good to see that a handful of companies are still maintaining the tradition (Harbeth and Stirling Broadcast are the obvious ones that spring to mind). All internal walls apart from the baffle are lined with Rockwool-type insulation, held in place by black cloth which is stapled to the internal batons that join the panels. Some examples are fitted with thin transparent plastic instead of cloth.In traditional BBC fashion, the grille is held on with Velcro, and is very difficult to remove once it has been on for a few years. Access to the inside is via the removable baffle which is secured with machine bolts which connect with metal inserts in the batons.There are similar inserts in the side panels for attaching the speakers to stands. These are plugged with brown plastic caps for aesthetic reasons, and sealed internally by the bitumen damping panels. Additionally there are similar holes in the rear panel which are intended to hold an optional BBC amplifier. This is a conventional mono amplifier, designated AM8/17, and was manufactured by H&H.None of these fixing holes are visible in the brochure pictures, suggesting that domestic models didn't have them. Also the external tweeter level adjustment tags are also not visible in the later brochure picture - again, I wonder if this was only a professional option?
Crossover
The crossover is mounted on the baffle behind the tweeter, just as it is on the LS3/5A. It is equally complicated!

Rear view of the baffle (35K)
Interestingly, the original product produced by Research and Development was an active design just like the LS5/8, but this active version never went into production because the passive high-level crossover designed by Maurice Whatton and Trevor Newlin of Designs Department was found to produce results that were just as good. Back in 2006, Trevor sent me the following:

I am glad to read about your comments about the LS5/9. This was my major job at the BBC to design this brute.

There were several hick-ups along the way. The crossover was the first designed using SPICE. It was engineered to have a low source impedance over the entire audio range which also gave it a very even input impedance hence making it largely cable immune.

As a result of producing this speaker we heard all the imperfections of the Broadcast amplifiers then in use. My next project then became the design of a broadcast amplifier that had sufficient audio quality so you heard the loudspeaker not the amplifier. This amplifier [the AM8/17] was subsequently licensed to outside vendors. For domestic amplifiers we found the Quad 405 gave a passable performance.

Trevor Newlin

Early versions of the crossover used radiometal inductors and like the original LS5/3a, tweeter level matching adjustment was done by selecting tappings on an auto-transformer rather than a resistor ladder. Many thanks to Brian Drummond for providing this picture and lots of other details that have made this page more complete. Incidentally, his crossover was home-made - production versions had the usual silkscreen markings.

Early version of the LS5/9
crossover (28K)
I've never seen one of these in the flesh, but I've only examined models with later serial numbers. Brian thinks that this version was in production for at least a couple of years. The later design (shown below) was mentioned in the 1985 departmental annual report because it was the first BBC design to use ferrite inductors and was also the first to be designed with the aid of Spice computer simulation. Apparently the success of the design also fed into the work to redesign the LS3/5a crossover that appeared in later 11 ohm models.

Close-up of the crossover (24K)
I've produced this schematic by reverse-engineering the PCB layout. As is often the case, the inductors aren't marked, so many thanks are due to Marcel Janssen (from the Netherlands) for supplying the inductor values, thus saving me from having to measure them.

LS5/9 Crossover Schematic (8K)
The tweeter level is basically matched by an auto-transformer, but note the comprehensive provision for fine level adjustment to account for inconsistencies in the Audax tweeter.

There appears to be a typo with the PCB labelling (the -2 tap that connects to the -1 position on the tagboard), but I'm reasonably sure that that's the value printed on the PCB. Next time I take one apart I'll double-check this point...

For those wondering how it works, it's reasonably straightforward. Taking the path to the woofer first, the inductor and 6µ8 capacitor network form a second-order low-pass filter with a 12dB/octave slope. This determines the basic crossover frequency.

There is a frequency-response plot of the drivers driven at constant voltage (ie, no crossover) in the Design Report, and this shows a fall of 5dB or so at frequencies below 500Hz. This is caused by a phenomenon called "baffle step", where the increasing wavelength corresponds with the width of the baffle - have a look here for more information.

This is compensated for by the next inductor and parallel resistors combination. These form a mid-bass filter - essentially at lower frequencies the signal passes straight through the inductor, whereas at higher frequencies the inductor no longer passes the signal, but the resistors do.

Finally, the series combination of 30uF and 5.5Ω compensates for the rising impedance of the voice coil at higher frequencies. This is important if the preceding filter characteristics are to be preserved. Bear in mind that high-level crossovers are essentially just potential dividers where the resistances happen to change with frequency. As the loudspeaker voicecoil is the lower 'arm' of this divider, the ratios will change according to the impedance curve of the drive unit, significantly affecting the midrange response.

The tweeter filtering starts with another second-order filter. The inductor has two roles here - as well as its inductance forming the filter along with the 4µ7 capacitor, it also acts as an auto-transformer. This enables attenuation of the signal without wasting heat in resistors, and gives other advantages when you consider the circuit impedances. The 6µ8 and 10µ capacitors form a further filter, and finally the level-control resistors provide fine adjustment of the tweeter. Note the 3 higher value resistors - these are to ensure that the load impedance seen by the high-pass filter remains constant in the face of differing impedances presented by varying tweeter level adjustments.

Note the phase-reversal of the tweeter. This is commonly encountered in loudspeaker design, and is done to provide the best integration of the two drivers. If you feed in a signal that is close to the crossover point then both drive units will be contributing to the sound you hear. Now, think for a moment about the phase of the units - you'll probably know how bad your hifi sounds when you've accidentally wired your speakers out of phase... It's a similar principle here - any filter causes changes in phase response, and it happens that the sum of all the phase shifts of both filters at the crossover point is near to 180° - hence the phase reversal of the tweeter.

If you get this wrong you'll notice two problems. First there will be changes in the amplitude response. Rather than the outputs of the two drivers adding together coherently around the crossover point, you'll get cancellation eff

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tagstrip cho LS5 adjustmentThe mức tweeter / 9 được thiết kế bởi bộ phận nghiên cứu của BBC và sản xuất theo giấy phép của Rogers. Sản xuất bắt đầu vào khoảng năm 1983, và tiếp diễn cho đến những năm 90. Nó được dự định sẽ được sử dụng ở những nơi mà LS5 lớn hơn nhiều / 8 sẽ là không phù hợp. . Các Báo cáo Thiết kế BBC (BBC RD 1983-1910) làm cho việc đọc thú vị và cũng là giá trị tải Lái đơn vị Là một trong những mục đích là để sản xuất một trận đấu chặt chẽ chất lượng âm thanh với LS5 / 8, họ đã chọn cùng Audax HD13D34H tweeter - một 34mm vải mái vòm. BBC được trang bị một lưới tản nhiệt kim loại để bảo vệ, mà dường như đã được dự định để hỗ trợ trọng lượng của loa hoàn tất! Việc lắp ráp đã được chỉ định LS2 / 12. Maplin sử dụng để trữ những tweeter (MY22Y) nhưng họ không còn hàng đơn vị ổ Audax trở lại vào năm 2004 - nó được bán với giá khoảng £ 25, mặc dù nó đã giảm xuống còn 12,99 £ trước khi ngưng thuốc. Hôm nay, nó có thể tìm thấy các tweeter như Audax vẫn sản xuất nó, nhưng lưu ý rằng các phiên bản mới hơn đo hơi khác nhau, đặc biệt là tại các HF cuối. LS2 / 14 Bass driverThe đơn vị âm bass là vấn đề của một số nghiên cứu trong nhà, và Báo cáo Thiết kế chi tiết các công việc thử nghiệm để xác định các hồ sơ nón tốt nhất và chất liệu. Một loạt các kỹ thuật phát triển dường như đã được sử dụng, từ giao thoa laser để nghe chủ quan kiểm tra. Kết quả thiết kế, LS2 định / 14, được sản xuất bởi Rogers. Không nghi ngờ Rogers được hưởng lợi từ mối quan hệ chặt chẽ với BBC. Chắc chắn, các trình điều khiển bass trong LS7 dường như là rất tương tự, chia sẻ khung gầm đúc và đặc biệt nón polypropylene minh bạch. Độc giả hay quan sát có thể nhận thấy rằng các loa trầm dường như có dây lệch pha. Nó không phải là - tôi đã xoay các đơn vị ổ đĩa thông qua 180 độ để chữa trị một voicecoil xát, gây ra bởi sự lắng nón về việc đình chỉ theo thời gian. Các dây chéo PCB có độ dài khác nhau, do đó, chứ không phải là thay thế chúng, tôi chỉ đơn giản là đổi chỗ chúng ở PCB kết thúc, do đó duy trì giai đoạn chính xác. Enclosure An xem bên trong, cho thấy sự bao vây liningThe vây được thực hiện bằng cách sử dụng thực tế thinwall classic - chất lượng cao 9mm gỗ dán bạch dương, phê bình hãm với tự dính bitum miếng. Phương pháp này phần lớn đã qua ra khỏi lợi vì các công việc thiết kế bổ sung và tăng đáng kể chi phí sản xuất, nhưng nó là tốt để thấy rằng một số ít các công ty vẫn đang duy trì truyền thống (Harbeth và Stirling Broadcast là những rõ ràng rằng mùa xuân đến tâm trí). Tất cả các bức tường bên ngoài các vách ngăn được lót bằng Rockwool loại vật liệu cách nhiệt, được giữ bằng một miếng vải đen mà được đóng ghim vào dùi cui nội bộ mà tham gia vào các tấm. Một số ví dụ được trang bị mỏng bằng nhựa trong suốt thay vì vải. Trong thời trang BBC truyền thống, lưới tản nhiệt được tổ chức vào với Velcro, và rất khó khăn để loại bỏ khi nó đã được vào trong một vài năm. Truy cập vào bên trong là thông qua các vách ngăn có thể tháo rời được bảo đảm bằng bu lông máy mà kết nối với chèn kim loại trong các dùi cui. Có chèn tương tự như ở các mặt bên để gắn loa vào khán đài. Đây được cắm với nắp nhựa màu nâu vì lý do thẩm mỹ, và kín trong nội bộ bởi bitum giảm xóc tấm. Ngoài ra có những lỗ hổng tương tự trong bảng điều khiển phía sau và dự định tổ chức một bộ khuếch đại BBC tùy chọn. Đây là một bộ khuếch đại mono thông thường, được AM8 / 17, và được sản xuất bởi H & H. Không ai trong số những lỗ hổng sửa chữa có thể nhìn thấy trong các hình ảnh brochure, gợi ý rằng mô hình trong nước không có chúng. Ngoài ra các thẻ điều chỉnh mức tweeter bên ngoài cũng không thể nhìn thấy trong bức ảnh tài liệu sau này - một lần nữa, tôi tự hỏi nếu điều này là chỉ có một lựa chọn nghề nghiệp? Chéo Sự giao nhau được gắn trên các vách ngăn phía sau tweeter, chỉ vì nó là trên LS3 / 5A . Nó cũng không kém phần phức tạp! Mặt sau của vách ngăn (35K) Thật thú vị, các sản phẩm ban đầu được sản xuất theo nghiên cứu và phát triển là một thiết kế hoạt động giống như các LS5 / 8, nhưng phiên bản hoạt động này không bao giờ đi vào sản xuất vì các cấp cao chéo thụ động thiết kế bởi Maurice Whatton và Trevor Newlin kiểu dáng cục đã được tìm thấy để sản xuất ra kết quả tốt như nhau. Trở lại năm 2006, Trevor đã gửi cho tôi như sau: Tôi vui mừng khi đọc về ý kiến của bạn về LS5 / 9. Đây là công việc chính của tôi tại BBC để thiết kế vũ phu này. Có một vài hick-up trên đường đi. Sự giao nhau là thiết kế đầu tiên sử dụng Spice. Nó được thiết kế để có một trở kháng nguồn thấp trên toàn bộ dải âm thanh đó cũng đã cho nó một trở kháng rất ngay cả đầu vào do đó làm cho nó miễn dịch chủ yếu cáp. Như một kết quả của sản xuất loa này, chúng tôi đã nghe tất cả những khiếm khuyết của các bộ khuếch đại Broadcast sau đó sử dụng. Dự án tiếp theo của tôi sau đó đã trở thành các thiết kế của một bộ khuếch đại truyền hình mà có chất lượng âm thanh đủ để bạn nghe loa không khuếch đại. Khuếch đại này [các AM8 / 17] sau đó đã được cấp phép để các nhà cung cấp bên ngoài. Đối với các bộ khuếch đại trong nước, chúng tôi thấy các Quad 405 đã đưa ra một hiệu suất khá. Trevor Newlin Đầu phiên bản của chiếc crossover sử dụng cuộn cảm radiometal và như LS5 gốc / 3a, điều chỉnh phù hợp với mức tweeter được thực hiện bằng cách chọn tappings trên một auto-biến hơn là một cái thang điện trở . Nhiều người nhờ Brian Drummond cho việc cung cấp hình ảnh này và rất nhiều chi tiết khác mà đã thực hiện trang này hoàn chỉnh hơn. Ngẫu nhiên, crossover của ông là nhà tạo -. Phiên bản sản xuất đã có những dấu hiệu bình thường lụa phiên bản sớm của LS5 / 9 chéo (28k) Tôi chưa bao giờ nhìn thấy một trong những trong xác thịt, nhưng tôi chỉ kiểm tra các mô hình với nối tiếp sau số. Brian nghĩ rằng phiên bản này được sản xuất trong ít nhất một vài năm. Các thiết kế sau này (hình dưới đây) đã được đề cập trong báo cáo hàng năm của bộ năm 1985 bởi vì nó đã được thiết kế BBC đầu tiên sử dụng cuộn cảm ferit và cũng là người đầu tiên được thiết kế với sự trợ giúp của Spice mô phỏng máy tính. Rõ ràng sự thành công của thiết kế cũng đưa vào công việc thiết kế lại các chéo LS3 / 5a mới xuất hiện ở sau 11 ohm mô hình. Close-up của chéo (24K) tôi đã sản xuất đồ này do ngược kỹ thuật bố trí PCB. Như thường là trường hợp, cảm ứng không được đánh dấu, vì vậy cảm ơn nhiều là do Marcel Janssen (từ Hà Lan) để cung cấp các giá trị điện dẫn, do đó tiết kiệm cho tôi khỏi phải đo lường chúng. LS5 / 9 Crossover Schematic (8K) Các mức tweeter về cơ bản là phù hợp bởi một auto-biến áp, nhưng lưu ý việc cung cấp toàn diện cho việc điều chỉnh mức tiền phạt vào tài khoản cho các mâu thuẫn trong các tweeter Audax. Dường như có một lỗi đánh máy với các nhãn mác PCB (-2 máy mà kết nối với -1 vị trí trên tagboard), nhưng tôi là hợp lý chắc chắn rằng đó là giá trị được in trên PCB. Tiếp theo thời gian tôi đi một cách nhau tôi sẽ kiểm tra thời điểm này ... Đối với những người tự hỏi làm thế nào nó hoạt động, đó là hợp lý đơn giản. Lấy đường dẫn đến các loa trầm đầu tiên, các cuộn cảm và tụ điện 6μ8 mạng hình thành một bậc hai bộ lọc thông thấp có độ dốc / octave 12dB. Điều này xác định tần số chéo cơ bản. Có một âm mưu tần số của các trình điều khiển lái xe ở điện áp không đổi (tức là, không có chéo) trong Báo cáo Thiết kế, và điều này cho thấy một mùa thu 5dB hay như vậy ở tần số dưới 500Hz. Điều này được gây ra bởi một hiện tượng gọi là "bước baffle", nơi các bước sóng tăng tương ứng với chiều rộng của vách ngăn - có một cái nhìn vào đây để biết thêm thông tin. Điều này được bù lại bằng điện dẫn tiếp theo và điện trở song song kết hợp. Những thành một bộ lọc giữa âm bass -. Cơ bản ở tần số thấp tín hiệu đi thẳng qua cuộn cảm, trong khi ở tần số cao hơn inductor không còn vượt qua các tín hiệu, nhưng các điện trở làm Cuối cùng, sự kết hợp hàng loạt các 30uF và 5.5Ω đền bù cho sự tăng trở kháng của cuộn dây bằng giọng nói ở tần số cao hơn. Điều này là quan trọng nếu các tính lọc trước được giữ nguyên. Ghi nhớ rằng crossover cao cấp cơ bản là ngăn chỉ tiềm năng mà các kháng xảy ra thay đổi theo tần số. Khi voicecoil loa là 'cánh tay' thấp hơn chia này, tỷ lệ này sẽ thay đổi theo những đường cong trở kháng của các đơn vị ổ đĩa, ảnh hưởng đáng kể đáp ứng tầm trung. Việc lọc tweeter bắt đầu với một bộ lọc bậc hai. Inductor có hai vai trò ở đây - cũng như tự cảm của nó tạo thành các bộ lọc cùng với tụ 4μ7, nó cũng hoạt động như một auto-biến áp. Điều này cho phép sự suy giảm của tín hiệu mà không lãng phí nhiệt điện trở, và cung cấp những lợi thế khác khi bạn xem xét các trở kháng mạch. Các 6μ8 và 10μ tụ thành một bộ lọc hơn nữa, và cuối cùng là điện trở cấp điều khiển cho phép điều chỉnh tốt đẹp của tweeter. Lưu ý 3 điện trở có giá trị cao hơn - đây là để đảm bảo rằng các trở kháng tải được thấy bởi các bộ lọc cao-pass vẫn không đổi khi đối mặt với trở kháng được trình bày bằng cách thay đổi điều chỉnh mức tweeter khác nhau. Lưu ý các pha đảo ngược của tweeter. Điều này thường gặp trong thiết kế loa, và được thực hiện để cung cấp sự tích hợp tốt nhất của hai trình điều khiển. Nếu bạn ăn trong một tín hiệu đó là gần với các điểm giao nhau thì cả hai đơn vị ổ đĩa sẽ được đóng góp cho âm thanh bạn nghe. Bây giờ, suy nghĩ một chút về các giai đoạn của các đơn vị - có thể bạn sẽ biết làm thế nào xấu hifi âm thanh của bạn khi bạn đã vô tình dây loa của bạn ra khỏi giai đoạn ... Đó là một nguyên tắc tương tự ở đây - một bộ lọc nào gây ra những thay đổi trong phản ứng giai đoạn , và nó sẽ xảy ra rằng tổng của tất cả các ca giai đoạn của cả hai bộ lọc tại các điểm giao nhau là gần 180 ° -. vì thế đảo ngược giai đoạn của tweeter Nếu bạn nhận sai này, bạn sẽ nhận thấy hai vấn đề. Đầu tiên sẽ có thay đổi trong phản ứng biên độ. Chứ không phải là kết quả đầu ra của hai trình điều khiển bổ sung với nhau chặt chẽ xung quanh các điểm giao nhau, bạn sẽ nhận được hủy eff

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