iAMP amplifier was designed to provide a significant value based on a high performance

to price ratio that will exceed the sonic quality of good solid state amplifiers with its musical accuracy.



Reference Series 2016 New Products

TIA-280R Triode/Ultra LinearKT120 80W x 2  Intergrated Amplifer 

TIA-260R Triode/Ultra LinearKT88 60W x 2 Intergrated Amplifer

TIA-240R Triode/Ultra LinearKT66 40W x 2 Intergrated Amplifer


  • May be used as a passive pre-amplifier (fTIA series only)
  • Comprehensive manual supplied
  • Hand wired point to point
  • Class A Triode front end Output circuit
  • Ultralinear or Triode switchable for specified models
  • Wide Frequency Respnose / Low Distortion Tertiary custom output transformers  (10Hz to 65KHz)
  • Exclusive "Closing Coupled Circuit" for our tailor-made output transformers  
  • Built in Bias & tube test meter for specified models
  • 3 potted transformers to reduce transformer noise
  • Japan ALPS Blue volume pot
  • Solen/SCR, M-Cap or Jensen Hi Fi quality audio capacitors
  • DCT3 silver plated power cord 
  • DCT3 Pure Silver or Silver plated PTFE audio cable
  • Double silver plated, double rhodium plated DCT Input & speaker terminals
  • DCT input RCA terminals and output speaker cable terminals which are 4N OFHC with inner silver layer is 1.5 microns thickness and the outer rhodium layer is 0.5 microns thickness   
  • DCT IEC power input 
  • High technology soldering process with  LEAD-FREE 2% SILVER SOLDER  ensures consistency

Deep Cryogenic Treatment DCT Tube

The process makes a permanent change and the benefits do not deteriorate over time or upon return to operating temperature, it changes the whole way the vacuum tube performs. The major benefit has been a dramatic improvement in dynamic range, micro detail with an increase in speed. Bass response has been clearer with a reduction in micro phonics. The proprietary DCT treatment process utilizes a computer controlled, cryogenic chamber to very gradually reduce the temperature of the tubes to 300 degrees below zero (Fahrenheit) and holding them there for a minimum of 24 hours. After the extended dwell at this cryogenic temperature, the vacuum tubes are then very slowly brought up to ambient temperature over the next 24 hours and stabilized. All these processes are microprocessor controlled under strict and verifiable conditions.