RIOT AMPLIFIERS
Insane power at dirt cheap prices & a small footprint, ever heard that before? It’s an old story of 2 different topologies, one is the more traditional half bridge design, the other is the gaining full bridge design. But what does it actually mean?
STRAPPING
Simplified, the half bridge amplifier is able to link with another identical amplifier to obtain twice the power of a single unit. How is it possible, well one amplifier deals with the positive voltage output, the other deals with the negative output. So instead of a single amp being able to provide a 50 V output wave from positive to negative (25 V on the pos and 25 V on the neg) you will simply put, have 2 amplfiers where one deals with 50 V on the positive side, the other deals with the 50 V on the negative side. Total voltage swing is then 100 V. That configuration is more known as strapping amps, but it is basically bridging.
FULL VOLTAGE
So what happens if you decide to base your design on an even higher voltage swing in a single pcb and run it bridged internally? FULLBRIDGE, that’s it! The higher voltage across the pcb enables for less components used, thus smaller size, but the achilles has been low ohm stability and distorted sound. Surely plenty of non car audio brands has had it locked down for decades, but still to this day we have these issues in car audio! The RIOT amplifiers has taken a stab at it and came out victorious with revisions based on the best of proven designs. Small sized, immense power & reasonably priced all aplies to these amplifiers.
With power ranging from 1200 to 16000 watts, no system will be underpowered by a RIOT!
Due to the high voltage circuit design of the RIOT 16000, DO NOT power up the amplifier WITHOUT a load on the speaker terminals. Failure to doing so can cause a circuit malfunction, which will leave the amplifier stuck in protect.
RIOT 16000 manual RIOT 7500 manual RIOT 1200 / 3200 manual
SPECIFICATIONS | RIOT 16000 | RIOT 7500 | RIOT 3200 | RIOT 1200 |
Frequency Response: | 10 Hz ~ 20 KHz | 10 Hz ~ 20 KHz | 10 Hz ~ 20 KHz | 10 Hz ~ 20 KHz |
Signal to Noise Ratio: | >80 dB | >80 dB | >90 dB | >90 dB |
Input Sensitivity: | 5 V ~ 0.2 V | 5 V ~ 0.2 V | 5 V ~ 0.2 V | 5 V ~ 0.2 V |
Low Pass Crossover 12 db/ Oct: | 80 Hz ~ 20 KHz | 80 Hz ~ 20 KHz | 80 Hz ~ 20 KHz | 80 Hz ~ 20 KHz |
High Pass Crossover 12 dB / Oct: | 15 Hz ~ 500 Hz | 15 Hz ~ 500 Hz | 15 Hz ~ 500 Hz | 15 Hz ~ 500 Hz |
Subsonic Crossover 12 dB / Oct: | 15 Hz ~ 500 Hz | 15 Hz ~ 500 Hz | 15 Hz ~ 500 Hz | 15 Hz ~ 500 Hz |
Bass Boost: | 0 ~ 12 dB | 0 ~ 12 dB | - | - |
Bass Boost Frequency Range: | 35 Hz ~ 70 Hz | 35 Hz ~ 70 Hz | - | - |
Damping Factor: | >200 | >200 | >200 | >200 |
Power Terminal gauge: | 0 GA x 2 | 0 GA x 2 | 0 GA x 1 | 4 GA x 1 |
Fuse Rating: | 1200 A | 600 A | 250 A | 100 A |
Operational voltage: | 9 V ~ 16 V | 9 V ~ 16 V | 10 V ~ 16 V | 10 V ~ 16 V |
Dimensions: | 24.49" x 8.85" x 2.67" 620 x 225 x 67 MM | 16.73" x 8.85" x 2.67" 420 x 225 x 67 MM | 8.46" x 9.25" x 2.67" 215 x 235 x 67 MM | 5.7" x 9.25 x 2.67" 145 x 235 x 67 MM |
Power @ 4 Ω 13.8 V: Power @ 4 Ω 14.4 V: | 7000 w 8500 w | 2500 w 3000 w | 1000 w 1100 w | 350 w 400 w |
Power @ 2 Ω 13.8 V Power @ 2 Ω 14.4 V: | 10500 w 12500 w | 4500 w 5500 w | 2000 w 2100 w | 550 w 600 w |
Power @ 1 Ω 13.8 V: Power @ 1 Ω 14.4 V: | 16000 w 16000 w | 7500 w 8500 w | 3000 w 3200 w | 1100 w 1200 w |