RAAL-requisite TI-1a | Amp Interface for True-Ribbon Headphones-Bloom Audio
RAAL-requisite TI-1a | Amp Interface for True-Ribbon Headphones-Bloom Audio
RAAL-requisite TI-1a | Amp Interface for True-Ribbon Headphones-Bloom Audio
RAAL-requisite TI-1a | Amp Interface for True-Ribbon Headphones-Bloom Audio
RAAL-requisite TI-1a | Amp Interface for True-Ribbon Headphones-Bloom Audio
RAAL-requisite TI-1a | Amp Interface for True-Ribbon Headphones-Bloom Audio
RAAL-requisite TI-1a | Amp Interface for True-Ribbon Headphones-Bloom Audio

RAAL-requisite TI-1a | Amp Interface for True-Ribbon Headphones

Regular price$750.00
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The TI-1a provides access to a vast number of conventional headphone amplifiers for powering True-Ribbon headphones with as little as 2-Watts and depending on the amp and required volume, as little as 0.5-Watts of power.

In addition to headphone amps, the TI-1a bridges the gap to include the use of conventional, high-powered, 2-channel amps and mono-blocks.

The TI-1a, Ribbon/Amp Interface

Until now, devotees of True-Ribbon listening have had a limited range of options for driving the super low-impedance & high-current demands of their much loved True-Ribbon headphones.

At last, Liberation!

The TI-1a provides access to a vast number of conventional headphone amplifiers for powering True-Ribbon headphones with as little as 2-Watts and depending on the amp and required volume, as little as 0.5-Watts of power.

In addition to headphone amps, the TI-1a bridges the gap to include the use of conventional, high-powered, 2-channel amps and mono-blocks.

A quantum leap? Yes! But let’s rewind for a moment…

True-Ribbon headphones are of very low resistance (impedance)_few tens of milliohms. About 10 times less than a headphone cable. They require very low voltage and high current. A headphone amp is incapable of driving them because the ribbon + cable impedance is far lower than 32 Ohms and a conventional headphone amp will not produce the 4-5 Amps of current required.

Originally, we developed a reliable solution requiring a 100W speaker amp with a network of resistors (in series) to the True-Ribbon headphone and thus, loading the amp with 6 Ohms. That method allows the amp to work in its normal load range and comfortably produce the necessary current True-Ribbons require.

Enter Toroidal Impedance Matching Transformers!

Transformers will convert AC signal of high-voltage/low-current into low-voltage/high-current, thusly, turning a high impedance into a low impedance (or vice versa) allowing for matching of mismatched sources and loads. This is a transformers typical duty in ribbon tweeters and tube amps, both of which we have tons of experience in designing and building

So then, what’s the Big Deal?

Tweeters, however, have their transformers mounted very close to the ribbon itself so there is no significant loss due to wire length. Using that same method with headphones, you’d be wearing 2 lbs. of transformers on your head and visiting your chiropractor on a regular basis. Simply stated, not a practical solution!

With tube amplifier output transformers, the speaker is far away, but the cable has a far lower resistance than the speaker, so again, no significant loss there. But, by that same logic, the headphone cable would have to weigh 2 lbs.

With True-Ribbon headphones, the situation is completely backwards!
Until the TI-1a, we could find no known example or solution in audio.

There were no such examples of this upside down situation.
So, we’ve had to develop our own solution…
And… it had to work flawlessly.

With headphones, a lightweight and very flexible cable is needed. This means a low cross section of the conductors, and in turn, that the cable functions as the dominant resistance/impedance in our headphone cable/ribbon driver circuit.

The cable mostly loads the impedance matching transformer, not the ribbon. In such low impedance circuits, the cable must not have excessive inductance, or the highs will drop, far too soon. Also, it must have a certain resistance per unit of length such that when we load the transformer at the secondary with that cable, we get the desired 32 or 16 Ohms at the primary. Our development brought us to the new SC2 (6ft) Standard Cable, included with the TI-1a.

The transformers themselves must have very low leakage inductance, or again, in these very low impedance circuits, the highs will be dropping too early. They must also have low capacitance, to prevent ringing in the ultrasonic range. This may potentially pose a serious problem for amplifiers and we have found that the best way to solve that is using toroidal transformers with windings made in a particular way… plus, a few additional components. These added parts won’t affect the sound, they just ensure that there are no reactive loads to create overvoltage peaks that may damage the amplifier.

Persistence Pays Off

The development took a while longer than we hoped for, but in the end, we now have a transformer based, amp to ribbon, interface with 32 and 16 Ohm inputs, with less than -100dB distortion, that can transfer 6 Watts of power, exhibits no ringing, goes far into the ultrasonic, is safe to plug-in and out of a fully cranked amp, safe to drive with headphones unplugged and grounds the static electricity of the headphones. Simply put… pure and safe transformation of any level in sound refinement of your headphone amp, into a high current, ribbon driving monster at the other end of the TI-1a!

Rarely Leave Class A

With the TI-1a, you can also use normal speaker amplifiers, in a vast range of power. From SET’s with a few Watts to whatever 100 lbs. of solid-state you have. The good thing about loading large power amps with 32 Ohms is that they will rarely leave Class A operation, even if they are Class B with forward bias, as the bias current alone is almost all the current you will need to swing lots of SPL at the headphones, so you can expect significant improvements in sound refinement of your speaker amp, with considerably less “crossover“ distortion artifacts.

Open-Baffle Compensation

For driving Open-Baffle SR1 headphones, we have provided left/right OB Compensation adapters in XLR (balanced) & RCA (Single-Ended) variants. Just plug them into either of your amps inputs (XLRs or RCAs) and plug your interconnect cable into the OB Compensation barrel. That way, whenever you select that input, you will correctly drive your SR1 True-Ribbon headphones.

Our General Recommendation

Our general recommendation is a conventional headphone amp having from 2 to 6 Watts at 32 Ohms, but we’ve been pleasantly surprised with amps as low as 0.5 Watts when the sound is right. Of course, if your listening requires high dynamic range or you like it loud, choose something closer to 6 Watts than 2 Watts.

A quantum leap, indeed!

The TI-1a is a significant development in True-Ribbon headphone technology. It’s not a copy, not a trick. This is a proper engineering that most successfully solves the compatibility challenges of True-Ribbon headphones when using conventional headphone amps.

The TI-1a Complete Package Solution

The TI-1a comes with everything you need to complete your liberation:

  • TI-1a Transformer Interface
  • OB Compensation Barrel for Balanced XLR Amplifier Inputs
  • OB Compensation Barrel for Single-Ended RCA Amplifier Inputs
  • HPL Cable for connecting conventional 4-pin XLR headphone level amp output
  • SC2 Cable for connecting True-Ribbon headphones to TI-1a Interface

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