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In his book Designing Audio Power Amplifiers (2nd edition), Bob Cordell discusses a chipamp he designed around the National Semiconductor LM3886. Bob calls it the Super Gain Clone, and he summarizes its features as follows:

• 40 Watts per channel into 8 ohms from LM3886 devices
• The LM3886 is operated in inverting mode for best performance
• Inverting input buffer stage provides overall non-inverting amplifier
• Audio-grade DC servo provides control of output offset voltage
• No output coupling capacitor to degrade sonics
• No input stage feedback return capacitor to degrade sonics
• No electrolytic capacitors in the signal path
• High input impedance
• Adaptive soft clipping (Klever Klipper) ahead of the feedback loop
• The amplifier-proper never clips
• Extra input-path RFI filtering
• and more

I contacted Bob and received permission to create a PCB of the Super Gain Clone, for members of diyAudio. The schematic of my PCB, which is merely a straightforward copy of the schematic in Bob’s book, is shown in Figure 1 below. Figure 2 is a photo of the board, stuffed and soldered and mounted to the heatsink of a diyAudio Store “Dissipante 2U” chassis. The complete stereo amplifier is shown in Figure 3. It fits nicely and looks quite sharp in the not-very-tall (88 mm) 2U chassis. I used the Dissipante with the smallest available depth (300 mm).

And then a second PCB, for people who want a much smaller amp-channel board, was created. This board began as a copy of the Super Gain Clone board layout, but then discarded several pieces of circuitry. I amputated the inverting input buffer, the DC servo, and the Klever Klipper subcircuits; the resulting small board is called “Compact3886”. Its schematic is shown in Figure 4. Figure 5 is a photo of a populated Compact3886 board, and Figure 6 is a complete stereo amplifier using two Compact3886 amp boards.

MOUNTING TO THE HEATSINK

Unlike the PCBoards which follow the diyAudio Universal Mounting Specification (“UMS”), the Super Gain Clone PCB and the Compact3886 PCB are mounted perpendicular to the heatsink. So they are certainly not compatible with UMS. You will have to drill and tap three holes for each amp PCB; one hole to bolt the LM3886 to the heatsink, and two more holes to bolt the PCB support L-Brackets to the heatsink. A drilling template will be provided in the pdf documentation that I expect to complete soon. When? Soon. How soon? Soon.

In fact, drilling and tapping your own holes is inevitable, because the very slick-looking 2U chassis in the Store are only available with undrilled and untapped heatsinks. (2U is not tall enough to accomodate the UMS footprint). Luckily, 3 holes is not a large number to drill and tap, even for a beginner. And remember, if you make a mistake, you can slide the template 10mm left or right and try again. The PCBs are short while the heatsinks are long. The “extra” holes will be inside the chassis and invisible to onlookers.

WHAT POWER TRANSFORMER WILL YOU NEED?

You’ll need a power transformer rated at least 200 volt-amperes (“VA”), with dual independent secondaries, and with primaries that are compatible with the AC mains in your country. Using the rule of thumb

DC_supply_voltage =approx= [(Trafo secondary rating in VAC rms) * 1.414] – 3.1V,

and consulting the LM3886 datasheet’s Absolute Maximum Ratings, I conclude that you can use any 200VA transformer you like, as long as its secondary’s output voltage is between 14.5VAC and 31.5VAC (rms ratings at full load). The LM3886 datasheet provides a helpful graph that I have copied below as Figure 7. Applying the above rule of thumb, we get Figure 8. These predict the maximum output power at the onset of clipping (namely, when THD rises to 0.1%).

WHICH SPECIFIC POWER TRANSFORMER IS RECOMMENDED

I strongly recommend you use a dual-primary, dual-secondary, 200VA toroidal power transformer, whose secondaries are rated 22VAC rms. Consulting Figure 7 we find this gives 38 watts into 8 ohms, 68 watts into 4 ohms. The “AS-2222” from Antek, is the one I prefer. They sell direct from their website and they also sell on eBay; check their listings.

SUPPLYING POWER TO THE SUPER GAIN CLONE

The “Universal Power Supply” PCB sold in the diyAudio Store, works well with a pair of Super Gain Clones and/or Compact3886s. Figure 6 shows a complete amplifier using the Universal Power Supply PCB.

Anoter option is a new PCB called “PSU For Chipamps”. It is smaller than the Universal Power Supply board, because it makes no attempt to be universal. It’s just a simple PSU without any options or user configurable features, and it’s specifically designed for stereo chipamps plus 200VA transformers. The idea is to allow builders to fit an entire stereo amplifier, including transformer and power supply, into a relatively small box. Figure 3 shows a complete amplifier using the new PSU For Chipamps PCB. I’ve started another discussion thread which focuses exclusively upon that PCB, you can find it at

LINK-LINK-LINK

HOW ABOUT THOSE ZENER DIODES

The Super Gain Clone board includes a pair of 7.5 volt Zener diodes, component IDs “D1” and “D3”. These diodes protect the downstream voltage regulators ICs, especially during power-up events. But you need to select the right zener diode which will provide a good match with your power transformer and DC power supply. After you’ve chosen a transformer, select the Zener diode as follows:

You'll notice that the recommended Antek AS-2222 transformer provides 22V output, which calls for a 7.5V Zener diode. AND that is exactly the Zener voltage and Zener part number, found on the schematic.

You'll also notice that the Compact3886 board doesn't contain any Zener diodes, so you don't need to read this section if building a Compact3886.

READ BOB CORDELL'S BOOK

Bob is the inventor of the Super Gain Clone, read what he has to say about it. You'll discover that Bob recommends a second Zobel network (33nF series 10R), after the output inductor. These components are not present on my PCB layout; if you decide to install them, one good option is to solder them directly across the loudspeaker output terminals.

CHECK OUT THE DETAILED PARTS LIST

There's a .zip archive attached to this post, which contains a very detailed Parts List for the Super Gain Clone and another one for the Compact3886. Extra detail has been included to make it easy for you, the builder, to find parts whose electrical performance is acceptably good and whose physical size will fit the PCB. If one or more parts are out of stock or backordered, the Parts List is your savior. It will help you find a replacement that's just as good or better.

Also included in the .zip archive, are web links to Mouser.com preloaded Shopping Carts. So-called "one click" Shopping Carts. BEWARE: don't turn off your brain when using these; check to be sure that every line item is in stock and not backordered. Check to be sure you're not accidentally ordering 1000 of something.

HOW AND WHERE CAN YOU OBTAIN THE BARE BOARDS

I've got a few dozen extra boards that I'll sell for $2/board plus shipping. They're 1oz copper with gold "ENIG" pads. Super Gain Clone same price as Compact3886 same price as PSU for Chipamps: $2/board no matter which board you're buying. Shipping is $6 per order to USA addresses, and $16 per order to rest of world. Max 10 boards (total) per customer. PM me with quantity desired and to get my PayPal info.

If those sell out and there is additional demand, I'll organize a Group Buy in the GB section of the Forum. And if there is LOTS of demand, I'll show the numbers to the diyAudio Store people, maybe they might want to eventually offer these boards through the Store.

_

Attached Images

	Figure_1.png (111.4 KB)
	Figure_2.JPG (432.2 KB)
	Figure_3.jpg (544.2 KB)
	Figure_4.png (58.2 KB)
	Figure_5.jpg (503.6 KB)
	Figure_6.jpg (493.6 KB)
	Figure_7.png (40.7 KB)
	Figure_8.png (41.5 KB)

Attached Files

Parts_Lists_and_Mouser_Shopping_Carts.zip (22.3 KB)

In his book Designing Audio Power Amplifiers (2nd edition), Bob Cordell discusses a chipamp he designed around the National Semiconductor LM3886. Bob calls it the Super Gain Clone, and he summarizes its features as follows:

• 40 Watts per channel into 8 ohms from LM3886 devices
• The LM3886 is operated in inverting mode for best performance
• Inverting input buffer stage provides overall non-inverting amplifier
• Audio-grade DC servo provides control of output offset voltage
• No output coupling capacitor to degrade sonics
• No input stage feedback return capacitor to degrade sonics
• No electrolytic capacitors in the signal path
• High input impedance
• Adaptive soft clipping (Klever Klipper) ahead of the feedback loop
• The amplifier-proper never clips
• Extra input-path RFI filtering
• and more

I contacted Bob and received permission to create a PCB of the Super Gain Clone, for members of diyAudio. The schematic of my PCB, which is merely a straightforward copy of the schematic in Bob’s book, is shown in Figure 1 below. Figure 2 is a photo of the board, stuffed and soldered and mounted to the heatsink of a diyAudio Store “Dissipante 2U” chassis. The complete stereo amplifier is shown in Figure 3. It fits nicely and looks quite sharp in the not-very-tall (88 mm) 2U chassis. I used the Dissipante with the smallest available depth (300 mm).

And then a second PCB, for people who want a much smaller amp-channel board, was created. This board began as a copy of the Super Gain Clone board layout, but then discarded several pieces of circuitry. I amputated the inverting input buffer, the DC servo, and the Klever Klipper subcircuits; the resulting small board is called “Compact3886”. Its schematic is shown in Figure 4. Figure 5 is a photo of a populated Compact3886 board, and Figure 6 is a complete stereo amplifier using two Compact3886 amp boards.

MOUNTING TO THE HEATSINK

Unlike the PCBoards which follow the diyAudio Universal Mounting Specification (“UMS”), the Super Gain Clone PCB and the Compact3886 PCB are mounted perpendicular to the heatsink. So they are certainly not compatible with UMS. You will have to drill and tap three holes for each amp PCB; one hole to bolt the LM3886 to the heatsink, and two more holes to bolt the PCB support L-Brackets to the heatsink. A drilling template will be provided in the pdf documentation that I expect to complete soon. When? Soon. How soon? Soon.

In fact, drilling and tapping your own holes is inevitable, because the very slick-looking 2U chassis in the Store are only available with undrilled and untapped heatsinks. (2U is not tall enough to accomodate the UMS footprint). Luckily, 3 holes is not a large number to drill and tap, even for a beginner. And remember, if you make a mistake, you can slide the template 10mm left or right and try again. The PCBs are short while the heatsinks are long. The “extra” holes will be inside the chassis and invisible to onlookers.

WHAT POWER TRANSFORMER WILL YOU NEED?

You’ll need a power transformer rated at least 200 volt-amperes (“VA”), with dual independent secondaries, and with primaries that are compatible with the AC mains in your country. Using the rule of thumb

DC_supply_voltage =approx= [(Trafo secondary rating in VAC rms) * 1.414] – 3.1V,

and consulting the LM3886 datasheet’s Absolute Maximum Ratings, I conclude that you can use any 200VA transformer you like, as long as its secondary’s output voltage is between 14.5VAC and 31.5VAC (rms ratings at full load). The LM3886 datasheet provides a helpful graph that I have copied below as Figure 7. Applying the above rule of thumb, we get Figure 8. These predict the maximum output power at the onset of clipping (namely, when THD rises to 0.1%).

WHICH SPECIFIC POWER TRANSFORMER IS RECOMMENDED

I strongly recommend you use a dual-primary, dual-secondary, 200VA toroidal power transformer, whose secondaries are rated 22VAC rms. Consulting Figure 7 we find this gives 38 watts into 8 ohms, 68 watts into 4 ohms. The “AS-2222” from Antek, is the one I prefer. They sell direct from their website and they also sell on eBay; check their listings.

SUPPLYING POWER TO THE SUPER GAIN CLONE

The “Universal Power Supply” PCB sold in the diyAudio Store, works well with a pair of Super Gain Clones and/or Compact3886s. Figure 6 shows a complete amplifier using the Universal Power Supply PCB.

Anoter option is a new PCB called “PSU For Chipamps”. It is smaller than the Universal Power Supply board, because it makes no attempt to be universal. It’s just a simple PSU without any options or user configurable features, and it’s specifically designed for stereo chipamps plus 200VA transformers. The idea is to allow builders to fit an entire stereo amplifier, including transformer and power supply, into a relatively small box. Figure 3 shows a complete amplifier using the new PSU For Chipamps PCB. I’ve started another discussion thread which focuses exclusively upon that PCB, you can find it at

LINK-LINK-LINK

HOW ABOUT THOSE ZENER DIODES

The Super Gain Clone board includes a pair of 7.5 volt Zener diodes, component IDs “D1” and “D3”. These diodes protect the downstream voltage regulators ICs, especially during power-up events. But you need to select the right zener diode which will provide a good match with your power transformer and DC power supply. After you’ve chosen a transformer, select the Zener diode as follows:

You'll notice that the recommended Antek AS-2222 transformer provides 22V output, which calls for a 7.5V Zener diode. AND that is exactly the Zener voltage and Zener part number, found on the schematic.

You'll also notice that the Compact3886 board doesn't contain any Zener diodes, so you don't need to read this section if building a Compact3886.

READ BOB CORDELL'S BOOK

Bob is the inventor of the Super Gain Clone, read what he has to say about it. You'll discover that Bob recommends a second Zobel network (33nF series 10R), after the output inductor. These components are not present on my PCB layout; if you decide to install them, one good option is to solder them directly across the loudspeaker output terminals.

CHECK OUT THE DETAILED PARTS LIST

There's a .zip archive attached to this post, which contains a very detailed Parts List for the Super Gain Clone and another one for the Compact3886. Extra detail has been included to make it easy for you, the builder, to find parts whose electrical performance is acceptably good and whose physical size will fit the PCB. If one or more parts are out of stock or backordered, the Parts List is your savior. It will help you find a replacement that's just as good or better.

Also included in the .zip archive, are web links to Mouser.com preloaded Shopping Carts. So-called "one click" Shopping Carts. BEWARE: don't turn off your brain when using these; check to be sure that every line item is in stock and not backordered. Check to be sure you're not accidentally ordering 1000 of something.

HOW AND WHERE CAN YOU OBTAIN THE BARE BOARDS

I've got a few dozen extra boards that I'll sell for $2/board plus shipping. They're 1oz copper with gold "ENIG" pads. Super Gain Clone same price as Compact3886 same price as PSU for Chipamps: $2/board no matter which board you're buying. Shipping is $6 per order to USA addresses, and $16 per order to rest of world. Max 10 boards (total) per customer. PM me with quantity desired and to get my PayPal info.

If those sell out and there is additional demand, I'll organize a Group Buy in the GB section of the Forum. And if there is LOTS of demand, I'll show the numbers to the diyAudio Store people, maybe they might want to eventually offer these boards through the Store.

_

Attached Images

	Figure_1.png (111.4 KB)
	Figure_2.JPG (432.2 KB)
	Figure_3.jpg (544.2 KB)
	Figure_4.png (58.2 KB)
	Figure_5.jpg (503.6 KB)
	Figure_6.jpg (493.6 KB)
	Figure_7.png (40.7 KB)
	Figure_8.png (41.5 KB)

Attached Files

Parts_Lists_and_Mouser_Shopping_Carts.zip (22.3 KB)

In his book Designing Audio Power Amplifiers (2nd edition), Bob Cordell discusses a chipamp he designed around the National Semiconductor LM3886. Bob calls it the Super Gain Clone, and he summarizes its features as follows:

• 40 Watts per channel into 8 ohms from LM3886 devices
• The LM3886 is operated in inverting mode for best performance
• Inverting input buffer stage provides overall non-inverting amplifier
• Audio-grade DC servo provides control of output offset voltage
• No output coupling capacitor to degrade sonics
• No input stage feedback return capacitor to degrade sonics
• No electrolytic capacitors in the signal path
• High input impedance
• Adaptive soft clipping (Klever Klipper) ahead of the feedback loop
• The amplifier-proper never clips
• Extra input-path RFI filtering
• and more

I contacted Bob and received permission to create a PCB of the Super Gain Clone, for members of diyAudio. The schematic of my PCB, which is merely a straightforward copy of the schematic in Bob’s book, is shown in Figure 1 below. Figure 2 is a photo of the board, stuffed and soldered and mounted to the heatsink of a diyAudio Store “Dissipante 2U” chassis. The complete stereo amplifier is shown in Figure 3. It fits nicely and looks quite sharp in the not-very-tall (88 mm) 2U chassis. I used the Dissipante with the smallest available depth (300 mm).

And then a second PCB, for people who want a much smaller amp-channel board, was created. This board began as a copy of the Super Gain Clone board layout, but then discarded several pieces of circuitry. I amputated the inverting input buffer, the DC servo, and the Klever Klipper subcircuits; the resulting small board is called “Compact3886”. Its schematic is shown in Figure 4. Figure 5 is a photo of a populated Compact3886 board, and Figure 6 is a complete stereo amplifier using two Compact3886 amp boards.

MOUNTING TO THE HEATSINK

Unlike the PCBoards which follow the diyAudio Universal Mounting Specification (“UMS”), the Super Gain Clone PCB and the Compact3886 PCB are mounted perpendicular to the heatsink. So they are certainly not compatible with UMS. You will have to drill and tap three holes for each amp PCB; one hole to bolt the LM3886 to the heatsink, and two more holes to bolt the PCB support L-Brackets to the heatsink. A drilling template will be provided in the pdf documentation that I expect to complete soon. When? Soon. How soon? Soon.

In fact, drilling and tapping your own holes is inevitable, because the very slick-looking 2U chassis in the Store are only available with undrilled and untapped heatsinks. (2U is not tall enough to accomodate the UMS footprint). Luckily, 3 holes is not a large number to drill and tap, even for a beginner. And remember, if you make a mistake, you can slide the template 10mm left or right and try again. The PCBs are short while the heatsinks are long. The “extra” holes will be inside the chassis and invisible to onlookers.

WHAT POWER TRANSFORMER WILL YOU NEED?

You’ll need a power transformer rated at least 200 volt-amperes (“VA”), with dual independent secondaries, and with primaries that are compatible with the AC mains in your country. Using the rule of thumb

DC_supply_voltage =approx= [(Trafo secondary rating in VAC rms) * 1.414] – 3.1V,

and consulting the LM3886 datasheet’s Absolute Maximum Ratings, I conclude that you can use any 200VA transformer you like, as long as its secondary’s output voltage is between 14.5VAC and 31.5VAC (rms ratings at full load). The LM3886 datasheet provides a helpful graph that I have copied below as Figure 7. Applying the above rule of thumb, we get Figure 8. These predict the maximum output power at the onset of clipping (namely, when THD rises to 0.1%).

WHICH SPECIFIC POWER TRANSFORMER IS RECOMMENDED

I strongly recommend you use a dual-primary, dual-secondary, 200VA toroidal power transformer, whose secondaries are rated 22VAC rms. Consulting Figure 7 we find this gives 38 watts into 8 ohms, 68 watts into 4 ohms. The “AS-2222” from Antek, is the one I prefer. They sell direct from their website and they also sell on eBay; check their listings.

SUPPLYING POWER TO THE SUPER GAIN CLONE

The “Universal Power Supply” PCB sold in the diyAudio Store, works well with a pair of Super Gain Clones and/or Compact3886s. Figure 6 shows a complete amplifier using the Universal Power Supply PCB.

Anoter option is a new PCB called “PSU For Chipamps”. It is smaller than the Universal Power Supply board, because it makes no attempt to be universal. It’s just a simple PSU without any options or user configurable features, and it’s specifically designed for stereo chipamps plus 200VA transformers. The idea is to allow builders to fit an entire stereo amplifier, including transformer and power supply, into a relatively small box. Figure 3 shows a complete amplifier using the new PSU For Chipamps PCB. I’ve started another discussion thread which focuses exclusively upon that PCB, you can find it at

LINK-LINK-LINK

HOW ABOUT THOSE ZENER DIODES

The Super Gain Clone board includes a pair of 7.5 volt Zener diodes, component IDs “D1” and “D3”. These diodes protect the downstream voltage regulators ICs, especially during power-up events. But you need to select the right zener diode which will provide a good match with your power transformer and DC power supply. After you’ve chosen a transformer, select the Zener diode as follows:

You'll notice that the recommended Antek AS-2222 transformer provides 22V output, which calls for a 7.5V Zener diode. AND that is exactly the Zener voltage and Zener part number, found on the schematic.

You'll also notice that the Compact3886 board doesn't contain any Zener diodes, so you don't need to read this section if building a Compact3886.

READ BOB CORDELL'S BOOK

Bob is the inventor of the Super Gain Clone, read what he has to say about it. You'll discover that Bob recommends a second Zobel network (33nF series 10R), after the output inductor. These components are not present on my PCB layout; if you decide to install them, one good option is to solder them directly across the loudspeaker output terminals.

CHECK OUT THE DETAILED PARTS LIST

There's a .zip archive attached to this post, which contains a very detailed Parts List for the Super Gain Clone and another one for the Compact3886. Extra detail has been included to make it easy for you, the builder, to find parts whose electrical performance is acceptably good and whose physical size will fit the PCB. If one or more parts are out of stock or backordered, the Parts List is your savior. It will help you find a replacement that's just as good or better.

Also included in the .zip archive, are web links to Mouser.com preloaded Shopping Carts. So-called "one click" Shopping Carts. BEWARE: don't turn off your brain when using these; check to be sure that every line item is in stock and not backordered. Check to be sure you're not accidentally ordering 1000 of something.

HOW AND WHERE CAN YOU OBTAIN THE BARE BOARDS

I've got a few dozen extra boards that I'll sell for $2/board plus shipping. They're 1oz copper with gold "ENIG" pads. Super Gain Clone same price as Compact3886 same price as PSU for Chipamps: $2/board no matter which board you're buying. Shipping is $6 per order to USA addresses, and $16 per order to rest of world. Max 10 boards (total) per customer. PM me with quantity desired and to get my PayPal info.

If those sell out and there is additional demand, I'll organize a Group Buy in the GB section of the Forum. And if there is LOTS of demand, I'll show the numbers to the diyAudio Store people, maybe they might want to eventually offer these boards through the Store.

_

Attached Images

	Figure_1.png (111.4 KB)
	Figure_2.JPG (432.2 KB)
	Figure_3.jpg (544.2 KB)
	Figure_4.png (58.2 KB)
	Figure_5.jpg (503.6 KB)
	Figure_6.jpg (493.6 KB)
	Figure_7.png (40.7 KB)
	Figure_8.png (41.5 KB)

Attached Files

Parts_Lists_and_Mouser_Shopping_Carts.zip (22.3 KB)