- The DS-1/Super mod takes the orange DS-1 distortion pedal, and gives it a professional makeover. The DS-1 can get a lot more distortion than a tube screamer type pedal (like the Yellow Boss SD-1) and make a Fender amp sound like a Marshall after our mods- very full, deep, and rich.
- Boss DS-1 Distortion mods DS-1/Super. The DS-1/Super mod takes the Boss DS-1 distortion pedal, and gives it a professional makeover. The DS-1 can get a lot more distortion than a tube screamer type pedal (like the Yellow Boss SD-1) and make a Fender amp sound like a Marshall after our mods- very full, deep, and rich.
- View all results for ds-1 at Sweetwater — the world's leading music technology and instrument retailer! Shop Sweetwater inSync SweetCare Events Careers Used Gear Marketplace (800) 222-4700 Talk to an expert!
- The Boss DS-1 Distortion stompbox is part of SimulAnalog Guitar suite, which is a collection of vst plugin with amplifiers and analog processors for guitarists. This suite is not a commercial product.
- Boss DS-2 Turbo Distortion £55. Used by DS-1 aficionados like Kurt Cobain, the DS-2 was Roland’s first attempt to evolve the circuit. Tonally similar to the DS-1 in mode 1, it could be switched into a second mode that brought the mids more forward, lessening the eff ect of the tone stack’s scoop.
Are the Boss DS-1 distortions good for sounds other than guitar such as drum machines, synths, and vocals? Normally I use my Minimoog for distortion, but I would like to be able to distort the sounds of the Minimog itself and I was wondering if this would be a good option. Especially considering the DS-1 is also analog. Genre-Defining Distortion. Before the DS-1, most distortion pedals produced harsh, buzzy tones and muddy sound at high gain settings. In 1978, BOSS engineers changed all that by developing a unique distortion circuit for the DS-1 that produces tight, hard-edged gain with rich harmonics while retaining the unique characteristics of different guitars and playing techniques.
If you’ve been in a music store anytime since 1978, you’ve no doubt seen the ubiquitous orange Boss DS-1 Distortion pedal. Universally recognized as a good, inexpensive distortion pedal, you’ve probably even owned one or two in the past. Although it houses a simple circuit design, it produces a very good sound, particularly for a mass-produced pedal. Let’s look a little more closely at the circuit and check out some changes that are available to make this great pedal even better.
Click to download a full-size PDF of the schematic.The circuit is a buffered bypass circuit with electronic switching, as are all Boss pedals. The circuit comes in through R1, a 1K resistor, and then travels through C1, a .047 microfarad, or µf, capacitor into the first buffer. This buffer goes out through C2 and then into a JFET (junction gate field-effect transistor), which is part of the switching. If the pedal is off, the signal goes out to the switching circuit and through the output through Q7, which is the other JFET. These JFETs act as a switch, allowing the signal to either go through the distortion circuit or out through the buffers, producing a clean signal.
When the pedal is on, signal travels to Q6, through C3 and into a transistor gain stage. R7 controls the gain of this circuit by changing the voltage bias, consisting of a 470k resistor which you can increase or decrease in value to adjust gain before the next stage. Increasing the value increases gain, while decreasing it will give you a little less gain overall but will tighten up the DS-1’s low-end response, ridding it of the flubbiness many people dislike. We can also decrease C3 to get this same effect by not allowing as much bass to come through. I like to change its value to either .022µfor .033µfif I’m looking for a less flubby tone. To clarify, to me “flubby” means a deeply compressed tonality. C4, which has a value of 250 picofarads (pF) also filters out some highs. Changing this won’t do too much, although you may be able to coax a little more brightness by changing it to a 100 pF capacitor.
The signal then goes out through C5 into the opamp. This opamp is used in a unique way to clip the signal. R11 controls the gain in combination with the distortion knob, R13 and C8. The gain control is set up this way to enable the clipping of higher frequencies as you turn the distortion up. When it’s turned down, it allows lower frequencies in – giving it a muddy sound since the signal is clipped beforehand through the transistor gain circuits, then clipped again when the distortion control is turned down. The first stage clipping is still occurring and as a result, the pedal doesn’t sound as clear and articulate as many would like. R13 and C8 are part of this “non-inverting” opamp circuit which provides negative feedback to ground. This is important for several reasons. The resistor value of R13 and the capacitor value of C8 basically provide a frequency range where the signal is made to clip. In this case all frequencies above 33hz is being clipped. To contrast, a Tubescreamer only lets frequencies above 728hz clip. This means that none of the lower bass frequencies are being boosted and/or clipped in the Tubescreamer.
Photo by Matt Eason License - Original File |
Go toindyguitarist.com/filter.htmand scroll to the bottom. Plug these values into the corresponding fields to determine which frequencies are being filtered. With the current values you will find it’s filtering everything above 7k, which helps to smooth things out a little bit. If it’s too bright, replace R14 with a resistor valued at 3.3k, allowing more highs to be filtered out, or try a 4.7k resistor to filter out everything above 3.3kHz.
After traveling through the diodes and the capacitor, the signal goes through a Big Muff - inspired tone control. There are many things we can do to manipulate the tone here, and a great resource is the Duncan Tone Stack calculator, available at duncanamps.com/tsc/. Experiment with different values to find the tone you’re looking for. In the stock version of the pedal, the tone is a bit “scooped,” meaning that there is little mid frequencies allowed through making the tone a little “thin” sounding. We can change that quite easily however. Check out the suggested changes in the charts below to get a warmer tone, a scooped mid tone or simply less highs.
After the tone control the signal travels through the level control and then out through R18, which is a 10k resistor, and then on to Q7, which is the other side of the JFET switching circuit. In its on state, it goes past Q7, through C13 – which is a .047µfcapacitor – through yet another output buffer and then a resistor, a capacitor and finally through the output.
more... How-Tos • DIY • Boss • February 2008If you’ve been in a music store anytime since 1978, you’ve no doubt seen the ubiquitous orange Boss DS-1 Distortion pedal. Universally recognized as a good, inexpensive distortion pedal, you’ve probably even owned one or two in the past. Although it houses a simple circuit design, it produces a very good sound, particularly for a mass-produced pedal. Let’s look a little more closely at the circuit and check out some changes that are available to make this great pedal even better.
Click to download a full-size PDF of the schematic.
The circuit is a buffered bypass circuit with electronic switching, as are all Boss pedals. The circuit comes in through R1, a 1K resistor, and then travels through C1, a .047 microfarad, or µf
Boss Ds-1 Pedal Free Vst Plugin
, capacitor into the first buffer. This buffer goes out through C2 and then into a JFET (junction gate field-effect transistor), which is part of the switching. If the pedal is off, the signal goes out to the switching circuit and through the output through Q7, which is the other JFET. These JFETs act as a switch, allowing the signal to either go through the distortion circuit or out through the buffers, producing a clean signal.When the pedal is on, signal travels to Q6, through C3 and into a transistor gain stage. R7 controls the gain of this circuit by changing the voltage bias, consisting of a 470k resistor which you can increase or decrease in value to adjust gain before the next stage. Increasing the value increases gain, while decreasing it will give you a little less gain overall but will tighten up the DS-1’s low-end response, ridding it of the flubbiness many people dislike. We can also decrease C3 to get this same effect by not allowing as much bass to come through. I like to change its value to either .022µfor .033µfif I’m looking for a less flubby tone. To clarify, to me “flubby” means a deeply compressed tonality. C4, which has a value of 250 picofarads (pF) also filters out some highs. Changing this won’t do too much, although you may be able to coax a little more brightness by changing it to a 100 pF capacitor.
The signal then goes out through C5 into the opamp. This opamp is used in a unique way to clip the signal. R11 controls the gain in combination with the distortion knob, R13 and C8. The gain control is set up this way to enable the clipping of higher frequencies as you turn the distortion up. When it’s turned down, it allows lower frequencies in – giving it a muddy sound since the signal is clipped beforehand through the transistor gain circuits, then clipped again when the distortion control is turned down. The first stage clipping is still occurring and as a result, the pedal doesn’t sound as clear and articulate as many would like. R13 and C8 are part of this “non-inverting” opamp circuit which provides negative feedback to ground. This is important for several reasons. The resistor value of R13 and the capacitor value of C8 basically provide a frequency range where the signal is made to clip. In this case all frequencies above 33hz is being clipped. To contrast, a Tubescreamer only lets frequencies above 728hz clip. This means that none of the lower bass frequencies are being boosted and/or clipped in the Tubescreamer.
Photo by Matt Eason License - Original File |
Boss Distortion Ds 1
capacitor running across two diodes – D4 and D5 – and then to ground. All the usual diode tricks can be done here to allow more asymmetric clipping or different clipping flavors. Here C10 is also in parallel with D4 and D5 and is used to filter out highs in conjunction with R14. R14 and C10 form a low pass filter, cutting out high frequencies.Go toindyguitarist.com/filter.htmand scroll to the bottom. Plug these values into the corresponding fields to determine which frequencies are being filtered. With the current values you will find it’s filtering everything above 7k, which helps to smooth things out a little bit. If it’s too bright, replace R14 with a resistor valued at 3.3k, allowing more highs to be filtered out, or try a 4.7k resistor to filter out everything above 3.3kHz.
After traveling through the diodes and the capacitor, the signal goes through a Big Muff - inspired tone control. There are many things we can do to manipulate the tone here, and a great resource is the Duncan Tone Stack calculator, available at duncanamps.com/tsc/. Experiment with different values to find the tone you’re looking for. In the stock version of the pedal, the tone is a bit “scooped,” meaning that there is little mid frequencies allowed through making the tone a little “thin” sounding. We can change that quite easily however. Check out the suggested changes in the charts below to get a warmer tone, a scooped mid tone or simply less highs.
After the tone control the signal travels through the level control and then out through R18, which is a 10k resistor, and then on to Q7, which is the other side of the JFET switching circuit. In its on state, it goes past Q7, through C13 – which is a .047µfcapacitor – through yet another output buffer and then a resistor, a capacitor and finally through the output.