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NeutronStar 2

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LC7905 -5.0V Negative UWB 2 regulator

5 pcs. LC UWB 2 regulator - only pay 4, (write voltages in comment field)

NewClassD NCDV Singularity Discrete 700W in 4 Ohms Class D Module (Obsolete)

NewClassD NCDX Discrete 480 W in 4 Ohms Discrete Class D Module

NewClassD NCDX 200 W in 8 Ohms Buffer Free Class D Module for surround or active filter setups

NewClassD NCDX 480 W in 4 Ohms Class D Module 2017 version

Neutrino 2 Reference Clock incl. cables 28.322000 MHz

LC7912 -12V Negative UWB 2 regulator

Soft Start Circuit + DC / RFI Filter and power control Combo 115V AC

LC7811 11V UWB 2 regulator




Neutron Star 2 Audio Reference Clock 25.000000 MHz

Neutron Star 2 reference clock incl. Cables and
FREE bundled NS power supply 25.000000 MHz

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Ultimate Performance Audio Reference Clock with Gallium Nitride voltage reference.

This reference clock is placed inside your CD player, DVD or Blu-ray player, asyncronous D/A Converter, USB receiver, audio PC motherboard or other clocked digital audio equipment. It has the potential to drasticly improve the sound quality of your digital audio equipment. Every digital audio equipment is already clocked from the factory, however most of the times this clock is a cheap and noisy type, based on CMOS gates or a noisy 7805 regulator, or most likely both. In the D/A Converter of your digital player, the voltage reference determines the S/N ratio when the output signal is a stable DC voltage. However when the signal is in transient, the voltage reference becomes less important, and it is now the clock source that determines the S/N ratio. If there is too much noise you hear it as a narrow and flat sound stage. Therefore it's surprising that so few OEMs seem to offer much energy on this point. We do, and you can fit this clock source inside your equipment, and get immediate improvement. We have two different clocks, the Neutrino, a small form factor and low cost clock with still decent performance. And for ultimate performance we have the Neutron Star 2, a hand adjusted precision clock, with temperature control, and an abundance of support features to get ultimate performance from your digital sound equipment.

Clock and power supply cables are included.

How does it affect the sound?
A reference Clock is installed inside an audio player, and will have the effect of cleaning up the sound stage. This means the sound stage will spread out correctly, and make it easy for you to feel where the instruments and artists are placed. It essentially turns music from background noise to a living experience. Most digital audio equipment is fitted with a noisy clock from the factory, running on the same power rail as the rest of the (noisy) electronics. This will give a narrow and blurry soundstage. Kind of like if the whole band in your music were standing inside a phone booth, and you were trying to listen outside. You cannot pinpoint if the drums are in front or back.
So there is potential for improvement. A reference clock is step #1 in upgrading a digital player, to reach clean and living digital sound, which will let you really enjoy the music instead of turning it down.
You can apply a reference clock to a cheap or expensive player with the same positive result. We guarantee you, that you will be surprised and amazed how much improvement in sound you can get from this clock.

A whole new type of Voltage Reference.
The voltage reference is the most important part for making the clock's performance. If the reference has any noise, it will find it's way into the clock signal, which will lower the performance. In our previous clock regulators we used the LM329, one of the best single chip voltage references in the world, when it comes to low frequency noise performance. But there are ways to push the noise level even lower, but it takes some effort. A special type of green LED, based on a Gallium Nitride crystal has been found to have exceptional low noise, but unfortunatly also lower temperature stability. Therefore we spent a lot of research trying to find a way to compensate for the temperature drift of the Gallium Nitride crystal, without sactificing any noise performance. So we ended up with a total of 63 components to replace just the one LM329 chip, with the sufficient stability and noise rejection. This while keeping the extreme good noise performance of more than 30 times better than a standard 7805 regulator.
Can the noise performance be achieved by using decoupling capacitors? This seems like a logical and cheap solution, but that would only work at higher frequencies like above 100 Hz, while the most hostile noise is in the lower frequencies. Therefore there are no available standard references with low enough noise, to achieve the outstanding performance that has now been achieved with Neutron Star 2. The noise is so low, that a capacitor will not even improve the noise, and therefore we didn't use the OSCON capacitors we used in the earlier version. They have no effect in this reference.

The residual noise of the Gallium Nitride reference. (-90dB)

Compared to the same measurement for a 7805 standard regulator. (-62dB)

Note the scale is different on the two readings, and the noise in both readings are amplified 1000 times or 60dB. So the absolute values are -130dB and -102dB under 2.83V respectively.

Temperature stability and support features.
The Neutron Star 2 has an on-board stabilized temperature island, which will keep the frequency stable at all normal environmental conditions. When the thermostat is locked, a green LED will turn on, indicating the right temperature of the crystal has been reached within +/- 0.5 deg. C. At the 15V power supply connector there is a small red LED which will light up in case any noise is detected on the power supply line. This is measured before the on-board regulators, and may not affect the performance of the clock, however you have a warning to let you know something should possibly be done to remove noise on the power supply.

There is a HOST function on the NS2 clock. Let's say you have an external power supply for the Neutron Star 2 (recommended), and it will run with power continously. But maybe your DAC or digital player is not always on. Then you need to switch the clock off whenever the digital player is off. This can easily be done with the HOST function. Simply connect the 3.3 or 5V supply of the host player to the NS2 HOSt terminal, and activate the HOST function (see instructibles). Then the clock will only be active on the output whenever the player is on.
The output clock amplitude has to fit with the host machine, therefore a setting is possible on each clock, to get 5V (default), 3.3V or 1.8V (for Raspberry Pi3) clock amplitude. The NS2 has 2 different outputs, and they are completely isolated from each other, and from the power supply plug (by at least 300V AC potential). The main output is a 50 Ohms COAX output, which is potential shifted to the set positive voltage. This signal connects to the input of the clock gate on the host board. The Active output is the same clock signal, but the first gate is actually placed on the NS2 board, giving in some cases a better compatibility to the host (and thus better sound in some cases). This might be used in cases where the host player uses a metal can oscillator. Here you connect 3.3 or 5V DC from the host supply to the NS2 Active output, and then you have a CMOS compatible digital clock output signal, just like the metal can oscillator. But in this case you can only run up to 5-7 cm. of wire to the player. Better 3 cm if possible.

Low Noise Colpitts Oscillator.
The Neutron Star 2 Clock uses a Colpitts oscillator, famous for low noise, and usually found in sensitive receiver equipment. This type of oscillator does not transfer power rail noise to the clock phase, like a standard oscillator based on the simpler and more noisy Pierce type '74HCU04 inverter' oscillator, as found in most OEM equipment. Not only is the gate not exactly a low noise amplifier for weak crystal signals, but also half of the noise on the +5V rail is coupled directly on top of voltage on the input pin. But it is cheap, and therefore used many places. In Neutron Star 2 we go another way, and try to make the best possible product, without compromising on important places. A new special performance feature, compared to earlier versions is that we no longer use a silicon RF transistor in the oscillator, but now instead a germanium ultra low noise transistor. This type of transistor is extremely stable, and normally used in professional GPS receivers.

Transformer isolated injection point.
To understand why this feature is an absolute must in a quality clock, we can compare the install circuit with and without isolated output.

The clock installation of a typical clock with direct output will form a GROUND LOOP, causing noise from all the circuits in the host machine to most likely connect through the clock signal wire. This destroys the clock unit's performance. In the Neutron Star 2 we use ground isolation (up to 1500V AC) to eliminate the ground loop. Now only a very weak current flows in the ground wire, and the noise problem is eliminated. The ground of the clock gate in the host machine may still have some noise on it, however this becomes common mode noise, and will not affect the clock signal.

The actual transformers are tiny toriod's, inside an SMD package.

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