Tone Control and Line Out – Yamaha PSS-30

The thrift store gods smiled on me again this past week. During one of my usual trip to my local charity shop I found a Yamaha PSS-30 marked at 5 dollars. Not only was this tiny keyboard still in the box, it looked like it had barely been played since it’s manufacture back in 1987. I happily scooped it up and brought it home to investigate.

Now after looking inside this keyboard and spending some time online I found unfortunately the PSS-30 may not be the holy grail I had hoped it would be. Many of the Yamaha Keyboards of this era (along with many of the infamous Casio SA keyboards) contain two primary chips. The first is a synthesizer chip (usually an FM synthesizer) and second a CPU which monitors the inputs and digitally controls the synthesizer. This allowed some extremely interesting bending by cutting or crossing the data lines to modify the signal reaching the synthesizer chip.

PSS-30 circuit board

Unfortunately the PSS-30 in an effort to cut costs and save space is built to run on only one IC chip. This means the single YM2410 chip monitors the inputs and generates the audio signal internally leaving us unable to access the data flow. That being said I still wanted to have some fun with this very cool vintage keyboard.

I wanted to start this project as I do most of my builds, By adding a line out. It was also fairly important to me to add an analog volume pot along the line out. The reason for this was simple, This keyboard uses a basic digital volume control which is extremely loud and distorted on the maximum setting. Unfortunately whenever the device is powered off and back on the digital register for the volume setting resets and it returns to this obnoxiously loud setting. With the addition of an analog volume pot I can set the volume where I want it and leave it there without having to worry about it resetting.

To add the line out I cut the speaker lines. I wired the positive speaker line to the top pin of a 100K potentiometer and the ground to the bottom pin. From here I connected the tip tab of a 1/4 inch jack to the middle pin of the pot and the ground from the jack to the bottom pin. This functions as a simple voltage divider and allows you to adjust the amount of the signal which reaches the jack.

Yamaha Circuit Bent cutting

Since the keyboard itself is so small, In order to create room for the controls I had to remove the speaker altogether. Initially I attempted to drill holes for my components into the slatted plastic speaker cover but things quickly got messy and it became obvious that wasn’t going to work. Instead I used my trusty rotary tool to cut out a rectangle where the speaker had been and covered it with a square of plastic I cut from an old DVD case. This will be my control panel for the time being. Once I have the device working how I’d like it I will likely replace this plastic panel with acrylic or steel to give it a more professional look.

Tone COntrol

Additionally as something of an experiment I built a small two knob tone control circuit into the line out. This is a circuit I picked up from an excellent article over at Nuts and Volts (Fig 12). The circuit essentially functions as an adjustable low pass and high pass filter. Since the circuit itself is passive I did experience some attenuation but not enough to become an issue. Since this keyboard uses only square wave audio the capacity of these filters is somewhat limited. You can make some adjustment to the sound but if you limit either end too far the sound will become very flat and tin-y.

I also noticed that the PSS-30 uses an LM386 as an amplifier meaning that I can try some common LM386 amplifier mods on the circuit as well. I will be posting again shortly to let you know how they went but in the interim thanks for your time and happy soldering!