Two distinctly different channels: On the left, tubes ‘n’ transformers from the SLAM!’s mic preamp circuit. On the right, an immaculate solid-state mic preamp. Switch in the “60’s and 70’s” positions for some crunch. Tip: unique variable impedance control simultaneously performs gain make up - pick the BEST sound, not just the loudest. So much flexibility.
Here is a twist: two different and discrepant mic preamps in one box for two different colors. By popular demand, one channel is the exact same micpre as in our SLAM! with tubes and transformers. The second preamp is a fresh "No Tubes" design from Hutch and is inspired by old British console preamps with a tasty combination of "No Tubes" design with transformers. This one is not a clone of anything preexisting. It is a new flavor but reminiscent of that classic discrete sound. Both channels are designed around the basic goal of 'just plug a mic in and it sounds great.' The tube channel excels on traditionally difficult sources like some bright guitars, reed and brass, cymbals and some vocals. The "No Tubes" channel might be more suited for smoother vocals, drums, bass and raunchy guitars, but you never really knows which preamp is best for the job at hand until you try them. At least you'll have two qualified candidates in one handy 1U chassis.
There are a vast number of mic preamps available and today people choose Mic Preamps based on the sound and performance for particular sources, different mics and how those combinations work in individual songs. This approach is valid but tends to require at least 3 or 4 different stereo preamps (almost all are basic stereo) and that can be expensive when quality is involved and certainly overkill for most simple overdubs when we get the chance to choose the micpre. The Manley TNT is a new concept in microphone preamplification for those who don't always need stereo everything but often need choices and often need the best. Besides, you probably have a number of typical stereo preamps and are still looking for that one killer preamp.
Manley Labs saw a need for a different unit that truly offered a rainbow of high-end preamp colors at an affordable price. The "T" (Tubes) channel starts off with the highly acclaimed vacuum tube micpre from the SLAM! that is certainly a contender amongst the best cost-no-object tube preamps. The "NT" (No Tubes) channel adds a no-compromise solid-state preamp that sets new sonic standards. (Just trust us.) Because the solid-state side uses two opposite topologies in tandem that are user controllable, it is like getting two pre-amp 'sounds' on that side alone. It gets even better...
We participated in 3D Audio's "Preamps in Paradise" forum, which was a remarkable opportunity to discuss preamps in depth and more importantly listen to what top engineers liked, disliked, and desired in the next generation of preamps. The number one request was variable input impedance somewhat tempered by the number one complaint that so far, the typical gain changes associated with that feature were not fun. We decided to offer variable impedance done right, with typically near-zero gain changes. In fact, on the solid-state side a current-mode preamp is used for the lowest impedance and a voltage mode preamp is used for the highest impedances, and these two preamps are appropriately blended for the medium impedance settings. All of the microphone signal is used and almost none thrown away. Both the voltage-mode and current-mode stages are truly optimized and when one changes impedance settings, one hears the effects of how this changes microphone and cable characteristics as opposed to other approaches which mostly take the preamp out of its ideal conditions. In other words, doing variable impedance the right way required fresh, new, and clever circuits and topologies. We also added a 3-way impedance switch to the tube side that also compensates for the typical gain changes.
Another request the engineers requested was to have a switch to bypass the output transformer. We went a step further and put that concept on a knob so that the engineer could dial in the amount of "Iron" which is a novel and inventive approach. With the knob centered at 12:00, you get the basic untouched sound of the output transformer, and like an EQ for cut, turning the knob counter-clockwise, reduces the effect of the transformer thru zero and into the negative zone or 'anti-iron'. Of course, turning the knob clockwise allows one to exaggerate the transformer effect to about triple. This is not a simulation and truly is based on the actual output transformer and leans more towards subtle than an obvious effect.
A third request involved Input and Output controls so that the engineer could create some overdriven effects one day and keep it clean the next. Again we saw this as an opportunity to figure this out and finally do it right. We added a toggle switch to that idea and labeled it "Clean", "60's" and "70's". "Clean" is very clean, very low noise, very accurate and very musical. Both the "60's" and "70's" positions introduce discrete class-A circuits for vintage colors, controlled overload characteristics and creative opportunities. Essentially this gives a range from incredibly clean thru subtle warmth or 3D-like thru to heavy grunge. Now you are beginning to appreciate how a single 1U box can provide a rainbow of tone especially when each aspect is done to Manley Labs' standards.
The MANLEY TNT is a remarkable and desirable tube preamp on one side and its equivalent in solid-state on the other side. These are not simulations, not samples, nor are they a clone or a toy. It is really good ol' analog done right.
The first request for this preamp and what started the project, was two-part: 1) Provide the SLAM! Mic Pre, by itself at a great price and 2) don't abandon the concept of a basic preamp where "one just plugs in a mic and it sounds great" (without needing to adjust 6 controls). The solid-state side helps keep the price reasonable while providing a much bigger range of colors and options and while there a few more knobs and switches, their action tends to be subtle and intuitive while difficult to dial in a bad setting. You don't have to tweak, but if you want to, it's there without much possibility of going wrong. Now there is a challenge: Give me a really useful range of colors because I don't want to buy 6 preamps, yet it's gotta be fast and safe to operate, and not too expensive, please, but you had better give me Manley quality.
Of course, all the usual front panel features: phantom power, phase switch, HP filters, LED overload and level indicators, and instrument inputs are there. Phantom is soft-switched and shunt regulated for lowest noise. (There are 6 low noise shunt regulators, and 5 standard regulators in the solid-state side). The High Pass Filter is a new approach, but suffice it to say that with it bypassed, the preamp is designed to have almost DC response (.01Hz) at all gain settings. The LED meter is set up to indicate first and second stage clipping, even though the output is capable of greater than +30 dBu (70 volts peak to peak into 50 Ohms from the solid-state side actually!). While we are tossing out numbers, both the current mode and voltage mode preamps sport EIN numbers of 130dB, very close to the theoretical minimum noise possible. So this thing is gravely quiet!
Tube Channel (Left Channel)
- Tube Channel Vacuum Tubes: 1 x 12AT7EH + 1 x NOS 6414 or 6414W
- Gain Range: +10 dB to +80 dB (20 to 70dB in 5 dB steps)
- Mic Input Impedance: 600, 2400, 10,000 Ohms
- Instrument Input Impedance: 300K,1Meg, 3 Meg Ohms
- Frequency Response: (-1 dB) 10 Hz to 30 kHz; (-3dB) 5 Hz to 45 kHz
- THD & NOISE (1 kHz @ 20 dB gain): 0.035% typical (-68 dB)
- Noise Floor: -60 dB typical referenced to +4dBm
- EIN: -120 dB
- Signal to Noise @ 70 dB Gain: 95dB (TRIM has major effect)
- Maximum Output for 1% THD via BALANCED +4 XLR: 31 dBu COOL CHANNEL (Right or Solid State Channel)
- Gain Range: +10 dB to +80 dB (20 to 70dB in 5 dB steps)
- Mic Input Impedance: 300, 600, 2000, 2 Meg Ohms
- Instrument Input Impedance: 100K, 300K,1Meg, 3 Meg, 10 Meg Ohms
- Frequency Response: (-1 dB) 15 Hz to 30 kHz; (-3dB) 5 Hz to 50 kHz
- THD & NOISE (1 kHz @ 20 dB gain): 0.01% typical (-80 dB) (no distortion products measurable, noise dominates measurement)
- Noise Floor: -66 dB typical referenced to +4dBm
- EIN: -126 dB
- Signal to Noise @ 70 dB Gain: 85dB (TRIM has little effect)
- Maximum Output for 1% THD:
- ·via BALANCED +4 XLR: 30 dBu
- ·via UNBALANCED +4 output: 24 dBu
- ·via UNBALANCED -10 output: 16 dBu
- Distortion @ 1K using 60' / 70's switch:
- 1.5% typical with LED onset (+4 dBu out)
- 3% typical with LED fully lit (+7 dBu out)
- Power consumption: 30 watts
- Operating mains voltage: Units' power transformers are wired for original destination country's mains voltage: 100V, 120V, or 220-240VAC as indicated on the serial number badge. Power transformer must be rewired on the pcb in order to change mains operating voltage. Fuse must be changed to appropriate value.
- Mains Voltage Frequency: 50~ 60Hz
- Fuse Values S/N up to MTNT142: @ 100 - 120V operation: 1A; @ 220 - 240V operation: 500mA
- Fuse Values S/N after MTNT142: @ 100 - 120V operation: 500mA; @ 220 - 240V operation: 250mA
- Fuse Size: 1/4" x 1 1/4" MDL or MDA SLO-BLO (time delay) type
- Dimensions: 19" x 1 3/4" x 10" (occupies 1u)
- Unit Weight: 11 lbs. Shipping Weight: 16 lbs. in a 22.5" x 14.5" x 8" BOX