What i build when i'm not doing power supplies...
I pulled out a LM1877N amplifier IC from an ISA-based ESS soundcard that i got in a box of freebies. After taking a look at the datasheet and noting the high maximum voltage (24 volts), and the fact that it can also be used with a split supply, i immediately thought "this will make a really nice headphone amp". 
The datasheet shows 16 vpp output with a 24v power supply - that's 1W @ 32 ohms, just about perfect.
I really needed an amp because my laptop runs out of signal headroom when applying proper EQ for my headphones, so there i went. I was too lazy to cut a PCB up again, so i thought i'd do a full sized 120x80mm board. So the board didn't end up empty, i designed it with quite a bit of space for the large components like bridge rectifier and caps, so i could use larger ones if i felt like it. Since that wasn't enough by itself, i dropped a 7812 and a 7912 on there as well. This proved a good idea as i want to use a 12-0-12 AC transformer to power the thing, which rectified would be too high for the IC if left unregulated.
I did a few changes to the schematic in the datasheet, which i'll let you know of in a bit. What i did is make the -3dB point of the highpass filters in the input and feedback sections very low, so the amp does not modify sound in any way, and lower the gain to 10 (which btw is the minimum gain guaranteed stable by the datasheet).
I found a project box i'd bought a while back, complete with screw standoffs. It fit the 120x80mm board like a glove! So i adjusted the PCB layout to suit the standoffs, printed it, transferred it, and started building it.
For testing i did not fit the regulators (i don't actually have them on hand right now) and used a 9v-0-9v transformer instead. When unloaded, this provided a little over +/-13v, so i thought the IC might blow up. Initial testing was thus with no headphones connected and no signal. Nothing weird appeared on the scope and the IC didn't smoke, so i plugged my headphones in. Just a little background hiss. Now, i still had no idea whether the thing actually worked, since it took quite a bit of work with the heat gun to get it out of the soundcard. I plugged in my SE w595 and fired up the walkman player. Hey... i got sound!
FYI: It's always a good idea to use a battery powered signal source when you're first testing some audio gear, laptops in particular can give weird glitches.
Initial impression? I'll have to be careful not to blow my headphones..
It's loud. I quickly started to notice distortion - but checking with my oscilloscope proved that the cellphone wasn't even able to drive it at full level and there was no clipping - the distortion was coming from the headphones because the bass was cranked up too high. 
The IC runs moderately hot, i'd say around 60C. This is perfectly safe.
I'll come up with some measurements tomorrow, but so far i'm very happy with it. Once i get it fitted in the box i'm sure it'll serve me well for years to come. Here's some preliminary pics.
The datasheet shows 16 vpp output with a 24v power supply - that's 1W @ 32 ohms, just about perfect.I really needed an amp because my laptop runs out of signal headroom when applying proper EQ for my headphones, so there i went. I was too lazy to cut a PCB up again, so i thought i'd do a full sized 120x80mm board. So the board didn't end up empty, i designed it with quite a bit of space for the large components like bridge rectifier and caps, so i could use larger ones if i felt like it. Since that wasn't enough by itself, i dropped a 7812 and a 7912 on there as well. This proved a good idea as i want to use a 12-0-12 AC transformer to power the thing, which rectified would be too high for the IC if left unregulated.
I did a few changes to the schematic in the datasheet, which i'll let you know of in a bit. What i did is make the -3dB point of the highpass filters in the input and feedback sections very low, so the amp does not modify sound in any way, and lower the gain to 10 (which btw is the minimum gain guaranteed stable by the datasheet).
I found a project box i'd bought a while back, complete with screw standoffs. It fit the 120x80mm board like a glove! So i adjusted the PCB layout to suit the standoffs, printed it, transferred it, and started building it.
For testing i did not fit the regulators (i don't actually have them on hand right now) and used a 9v-0-9v transformer instead. When unloaded, this provided a little over +/-13v, so i thought the IC might blow up. Initial testing was thus with no headphones connected and no signal. Nothing weird appeared on the scope and the IC didn't smoke, so i plugged my headphones in. Just a little background hiss. Now, i still had no idea whether the thing actually worked, since it took quite a bit of work with the heat gun to get it out of the soundcard. I plugged in my SE w595 and fired up the walkman player. Hey... i got sound!
FYI: It's always a good idea to use a battery powered signal source when you're first testing some audio gear, laptops in particular can give weird glitches.
Initial impression? I'll have to be careful not to blow my headphones..
It's loud. I quickly started to notice distortion - but checking with my oscilloscope proved that the cellphone wasn't even able to drive it at full level and there was no clipping - the distortion was coming from the headphones because the bass was cranked up too high. The IC runs moderately hot, i'd say around 60C. This is perfectly safe.I'll come up with some measurements tomorrow, but so far i'm very happy with it. Once i get it fitted in the box i'm sure it'll serve me well for years to come. Here's some preliminary pics.
Attached Files
You used Jamicon capacitors?
The current one is recovered from an old hair drier, it's white and ugly.
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