Friday, July 27, 2018

What is DAC and Why you may need it


What is a DAC?


Want better sound quality and more volume from your laptop/iPhone/MP3 player? Here's a refresher course in how you can achieve this with the simple addition of a USB DAC (or digital to analogue converter) to your set up.
There's an intimidating range of audio products available to us and whether its headphones, smartphones, speakers or even streaming services, they’re all promising you incredible sound.  But there’s an undisputed way you can make your existing setup simply - better. By adding a DAC.
For those of you new to this concept, you’ll want to understand exactly what’s behind this sharp sounding acronym before you take our word for it.


So what is a DAC?

Much like headphone amplifiers, standalone DACs came about as a response to poor audio quality at the consumer level. Back in the day, it was a lot tougher to find good hardware, and nerds like me had to deal with devices that couldn’t keep up with higher-end headphones and speakers. Sometimes the DAC assembly would be improperly shielded - introducing staticy noise - or it’d be a little too cheap, making the output kinda crappy. Lower sample rates, badly encoded MP3s… there were tons of things that children of the 80s and 90s had to deal with when it came to audio. Who wants to listen to low-quality tunes?

But digital music has come a long way since then. Better tech has made shortcomings of even the cheapest chips almost nonexistent, while digital music has exploded in quality past the point of diminishing returns. Where it used to be true that your Walkman’s or laptop’s internal DAC chip wouldn’t be suitable for high-bitrate listening, there are plenty of more compact units nowadays that can keep up.

You can buy a DAC and amp separately, or buy a combo unit that contains both. It’ll improve your sound in a couple ways:

A DAC eliminates interference that your onboard sound card may experience inside your computer and ensures you’re getting the best possible sound quality. (My headphones get a pretty noticeable buzzing noise when plugged into the computer, for example - a DAC eliminates this.)

An amplifier boosts the volume of the sound, which is particularly useful for higher impedance headphones (headphones above 32Ω) that will sound quiet through a regular headphone jack.
Amplifiers will often come with other features, like bass boost or other equalizer functions, that allow you to alter the sound.

Note that you can only get the full benefit of a DAC/amp combo with your desktop or laptop computer, via USB or SPDIF. While you can get DAC/amp combos for iPods and other mobile devices, the DAC half of the device won’t actually work. Only the amp half will. This is still great for giving your sound a boost in volume if it’s coming out too quiet, but just know that the DAC won’t work—so if you only plan on using it with an iPod, you don’t need a DAC or combo, just a mobile amp.

A DAC, or digital to analogue converter, is the device that translates digitally stored information from a laptop, iPod or other such device into the analogue sound that we can hear.

Types of Digital to Analog Converters


There are many different kinds of digital to analog converters. At Future Electronics we stock many of the most common types categorized by resolution, interface, supply voltage, number of channels, packaging type and power consumption. The parametric filters on our website can help refine your search results depending on the required specifications.

The most common number for channels is 1 channel and 2 channels. We also carry digital to analog converters with up to 12 channels. Supply voltage can have a range from 0 V to 32 V, with the most common voltage being between 2.7 V and 5.5V.

Why does a signal need to be converted at all?


ll audio, whether it’s stored on vinyl or in an MP3 is a compression wave when it’s played back. When computers record an analog signal, typically it will be displayed in what’s called a waveform, or a representation of the wave where the Y axis is amplitude (how powerful the wave is), and the X axis is time. Each wave will have a crest and valley - called a period - and how many periods there are in a second is called frequency (displayed as Hz). If you’ve heard that word before, you know that what frequency a sound is also corresponds to what note it is. The higher the frequency, the higher the note.

The job of the DAC is to take a digitally stored recording and turn it back into an analog signal. To do that, it needs to translate the bits of data from digital files into an analog electrical signal at thousands of set times per second, otherwise known as samples. The unit then outputs a wave that intersects all those points. Now, because DACs aren’t perfect, sometimes this leads to problems. These problems are jitter, narrow dynamic range, and limited bitrate.

Before launching into the nuts and bolts of how everything works, you need to know three terms: bitrate, bit depth, and sample rate. Bitrate simply refers to how much data is expressed per second. Sample rate refers to how many samples of data are taken in a second, and bit depth refers to how much data is recorded per sample.

The original analogue sound made by our favourite bands and artists are recreated in a digital format for our storing convenience – i.e. MP3, FLAC or Apple Lossless.  While computers can understand these digital signals, we as humans (assuming our readership is of this world) cannot, nor can your speakers or headphones. So before we can listen to it, the digital signal needs to be returned once more to analogue.  This is the function kindly undertaken by the DAC which will be built into your laptop or music player. The better the DAC, the higher quality the conversion and therefore the better sound you’ll hear from your speakers/headphones.

You may not have realised it, but you’ve used a DAC every time you have played music through your laptop or smartphone. These products have their own built-in but usually very poor quality DAC because it’s been designed to do one small part of a devices total functions on a budget. So if you’ve been investing in some nice speakers or headphones, you’re not going to be making the most of them unless you use a separate DAC which has been designed and optimised entirely for making hi-fi sound quality.

How does a DAC fit into my current setup?


DACs are available in all sorts of sizes and price points, so if it’s going to be staying put you can invest in a more premium, larger unit which might fit into your Hi-Fi stack, or a mid size one to sit alongside your PC/Laptop.


But if you’re looking for something small and portable you need look no further than a USB headphone DAC like our DacMagic XS. Not only is it an excellent little DAC to perform a higher quality conversion on your audio, it’s also got a headphone amp built in.  This amp is 10 x more powerful than the headphone output on your laptop. It hooks straight up to your laptop via USB and has a headphone jack so you can plug your headphones straight in and bypass that inferior built in DAC in the laptop for superior sound on the go. Thanks to the extra power from the amp, you’ll get a load more volume, detail and bass for your buck, finally making the most of your headphones.


What is bit depth and dynamic range?


If you’ve listened to really old MP3 files or crappy MIDI music from your old consoles, you’ll probably notice that they can’t really ramp up volume in a given music track all that well, or that competing instruments are really really difficult to pick out if they’re all going at once. This is what bad dynamic range sounds like. Dynamic range in this instance simply refers to the difference between all possible volumes of sounds in a given file.

What governs the theoretical limits of the dynamic range of an audio file is the bit depth. Basically, every single sample (discussed above) contains information, and the more information each sample holds, the more potential output values it has. In layman’s terms, the greater the bit depth, the wider the range of possible loudness of notes there are. A low bit depth either at the recording stage, or in the file itself will necessarily result in low dynamic range, making many sounds incorrectly emphasized (or muted altogether). Because there’s only so many possible loudness values that a sound could have inside a digital file, the lower the bit depth, the crappier the file should sound however you listen to it.

he most common bit depth is 16, meaning: for every sample, there’s a possible 16 bits of information, or 65,536 integer values. In terms of audio, that’s a dynamic range of 96.33dB. In theory, that means that no sound under 96ish dB should be deleted or incorrectly assigned a loudness value.

While that may not sound terribly impressive, you really need to think hard about how you listen to music. If you’re like me: that comes from headphones 99+% of the time, and you’re going to be listening to your music at a volume much lower than that. For example, I try to limit my sessions to about 75dB so I don’t cook my ears prematurely. At that level, added dynamic range isn’t going to be perceptible, and anyone telling you otherwise is simply wrong. Additionally, your hearing isn’t equally-sensitive across all frequencies either, so your ears are the bottleneck here.

While bit depth is important, what most people are familiar with in terms of bad-sounding audio is limited bitrate. Ever listen to music on YouTube, then immediately notice the difference when switching to an iTunes track or high-quality streaming service? You’re hearing a difference in bitrate.
If you’ve made it this far, you’re probably aware that the greater the bit depth is, the more information the DAC has to convert and output at once. This is why bitrate - the speed at which your music data is decoded - is important. If the bitrate is low, not enough data will be converted to create the analog wave, meaning less information is converted, meaning you hear crappier audio. It’s really as simple as that.

So how much is enough? I usually tell people the 320kbps rate is perfectly fine for most applications (assuming you’re listening to 16-bit files). Hell, it’s what Amazon uses for its store, and truth be told most people can’t tell the difference. Some of you out there like FLAC files—and that’s fine for archival purposes - but for mobile listening? Just use a 320kbps MP3 or Ogg Vorbis file. The amount of space “lossless” files like FLAC takes up is enormous, and for little to no perceptible benefit when you’re on the go.

If you’ve got space to spare, maybe you don’t care as much how big our files are - but smartphones generally don’t all come with 256GB standard… as of now. But if you can’t tell the difference between a 320kbps MP3 and a 1000+kbps FLAC, why would you burn 50MB of space when you could get away with say 10?

Monday, May 7, 2018

HD Radio

HD Radio technology is not a subscription service, like satellite radio. It is the same free, over-the-air broadcast radio that we've always known. Only better. It is not something that consumers have to buy into. Everyone can choose to continue listening to their current radios, but eventually all AM/FM radios will incorporate digital technology. It is a natural evolution of the medium. Soon, if you turn on a radio, you'll be listening to an HD Radio tuner.

Honda HD Radio Receiver



What is HD Radio?


In its current hybrid implementation, HD Radio adds digital sidebands to an analog FM signal. The sidebands consist of hundreds of digital subcarriers that occupy spectrum 129 to 198 kHz from the channel center frequency. Total power for both sidebands originally was 20 dB below the analog carrier level, or −20 dBc. FCC rules now permit levels up to −14 dBc for most stations without special approval, and up to −10 dBc in certain circumstances. Some transmission modes use additional subcarriers that extend the sidebands as close as 102 kHz from channel center. These extended hybrid signals are becoming more common.
An HD Radio station's digital sidebands may interfere with reception of its own analog signal in two ways. First, FM detection of the sidebands may generate intermodulation products that overlap the analog signal. Interference also may occur when the stereo decoder demodulates the digital sidebands along with the stereo subchannel signal. Because the digital subcarriers are numerous and their data randomized, analog detection yields noise.

HD Radio technology allows broadcasters to transmit a high-quality digital signal. For listeners who have an HD Radio receiver, the benefits are:
• FM radio that sounds almost as good as a CD
• AM radio that sounds as good as traditional FM
• No more static, pops, crackles or fades...and no subscription fees
• Displayed information, including station ID info, song and artist titles, weather, traffic, and emergency alerts
• Increased listening options with station multicasting


FM radio with near CD-quality sound


Digital technology allows a radio station to transmit more information in the same radio wave. Primarily, this means higher quality sound. So much more so that FM transmissions can sound nearly as good as CDs, and definitely much better than the hollow sounds of old analog FM. How much better the music sounds will depend on your local stations and your radio gear.

AM radio uses smaller sections of bandwidth than FM. There is not enough bandwidth for HD Radio to give AM stations the same CD-quality signal as FM stations. But there is enough room to give AM stations clarity equivalent to current analog FM stereo radio. This boost in sound quality makes AM radio a viable alternative to FM, which means more options for listeners.

No more static, pops, crackles, fades...


The digital signal is less vulnerable to reception problems. The radio tuner's digital processors eliminate the static, pops, hisses, and fades caused by interference. You hear only clear, clean, and rich sound. Should you lose the digital signal for some reason (obstructing terrain, nearing the edge of the broadcast area, etc.), HD Radio technology defaults back to analog mode, similar to the way non HD Radio receivers switch from stereo to mono mode when receiving a weak signal. And like analog radio, HD Radio is subscription-free.


Transmission of extra bits of information


Another benefit of digital radio is the radio station's ability to transmit additional information along with the music signal. This can take the form of scrolling text on your receiver's display, such as a song's artist and title and station call letters. HD Radio also supports Artist Experience — with compatible receivers you can view album art, logos, and more, when provided by the station. Stations can also include local and regional information, such as weather updates, emergency alerts, or even traffic jams and road construction. Traffic data is delivered up to 10 times faster than other broadcast methods.

Multicasting


In addition to duplicating their analog programming with an HD Radio broadcast, stations can subdivide the digital portion of their signal. This allows a station to "multicast" — that is, broadcast two or more programs simultaneously. Listeners might have a choice of, say, a sports game or music. These additional channels can only be received on an HD Radio tuner. But just as cable TV allowed specialized networks to flourish, multicasting provides the potential for stations to offer more niche programming - ultimately giving the listener a greater variety of formats to choose from.
How does it work?
HD Radio technology works pretty much just like traditional analog radio transmission:
1. The radio station sends out the analog and digital radio signals, along with a third signal for text data.
2. The digital signal is compressed before being transmitted.
3. The three-layered signal is transmitted from the radio station's upgraded digital transmitter.
4. Multipath interference, caused by the signal reflecting off of buildings, is ignored by the digital radio, which is able to discern the true signal and ignore interference.
5. Your radio receives the signal and, depending on your equipment, you hear either the digital or analog feed.

HD Radio technology is not a subscription service, like satellite radio. It is the same free, over-the-air broadcast radio that we've always known. Only better. You just need gear that includes a built-in HD Radio tuner to enjoy it. Everyone can choose to continue listening to their current radios, but eventually all AM/FM radios will incorporate digital technology. It is a natural evolution of the medium.

HD Radio is not the same as satellite radio. Rather, it's an improvement to terrestrial AM and FM radio. Satellite radio, on the other hand, is an alternative to broadcast radio, in the same way that cable or satellite TV are alternatives to broadcast television. Even if you do have satellite radio, there are often times when you want to listen to your local station - and that's where HD Radio comes in.

Saturday, March 31, 2018

The Heil PR-30 Mic Review

The PR-30 is the perfect replacement for 30-year-old condenser technology


There is no doubt Bob Heil makes quality mics and having shared air time him I know he is committed to customer satisfaction. That being said I will admit that my choice to use the PR-30 included not only my personal tests and review but also the fact that it just is one cool looking microphone. Given that the PR-30 was the winner I had no issue spending a little more money. The majority of what we do is all about the audio. Too many of us spend a lot of time and money on the rig, amp and antenna and then end up using a stock microphone. This is truly an area where we should spend more time. Tailoring our audio should perhaps constitute our greatest effort. So I conclude by saying that I love my PR-30 yet depending on your voice you may well likely do better with some other mic.

The Heil Sound PR-30 is a professional dynamic microphone designed for applications that require a smooth, flat output from a wide frequency response (40Hz-18kHz). Whether it's commercial broadcast, studio recording, or live sound reinforcement, the PR-30 mic can handle it. A specially designed magnet structure and large, aluminum 1-1/2" low-mass voice coil assembly make this possible. In addition to a carefully wound and placed humbucking coil, the components of the PR-30 are engineered to minimize external noise and provide pure articulation. A unique dual pop screen design ensures that breath blasts never hit the diaphragm directly. The result of all this is a perfect representation of the voice that is virtually unpolluted by external noise.

Heil PR-30 Microphone
Heil PR-30



FEATURES


Large 1-1/2" aluminum diaphragm
Wide frequency response
End fire, cardioid pattern
Low handling noise
Natural articulation
SPECIFICATIONS
Generating element: Copper-wound dynamic with neodymium magnet structure
Body: Steel body with zinc die-cast bottom ring
Frequency response: 40Hz to 18kHz
Impedance: 600 ohms balanced
Output level: -52.9dB @ 1,000 Hz.
Polar pattern: End fire, cardioid, uniform front to back discrimination
Diaphragm: Large diameter, low-mass quilted aluminum
Finish: Anodized champagne matte
Net weight: 15 oz.

Pros


◾Broadcast ready sound, with an extended low frequency response.
◾Extremely warm, intimate sound. Clear and articulate representation of your voice.
◾Superbly flat frequency response.
◾Easy to EQ with.
◾Bright and rich like a condenser, but controlled and soft like a dynamic.
◾End fire pattern rejects side and rear noise. Excellent noise reduction overall.
◾Nice foam/plush/leather case.
◾Built rugged, with a beautiful and flawless finish. It’s heavy, with everything being metal.
◾Comes with clamp that has an adapter that screws in to allow the clamp to be used on different sized stands and boom arms.

This is a smooth mic, if you are a musician who grew up in live situations and prefer a dynamic microphone which performs at the quality level of a Condenser or Ribbon. This is a good choice. You can mike your bass drum, Stand up bass, Cello, Acoustic guitar or vocals with quality results. I have an assortment of vintage and new microphones and I am glad I got this mic. The only thing I do not like about it is that it does not come with a case or mic bag.

Who this mic benefits?


Endorsed for all of the following:
Audiobook
Podcasting
Voiceover
Ham Radio
VOIP applications
Narration
Screen recordings
Youtube
Skype
Kick Drums due to that deeper low end response.
Lectures
Female voices
Live vocals

At first sight of the PR 30 in your hand, you see a pleasing professional looking broadcast studio mic. The soft gold color is not too flashy. The mesh screen over the mic element is tight and straight. The entire mesh screen inside is lined with a foam rubber type filter, so an external foam pop filter is not required at all. And it just looks so pretty hanging on the shock mount and boom. Let's just say it looks very impressive.

The PR 30 is very directional and you need to be within 8 to 9 inches from it to have a normal amount of audio pick up, which I like. I usually stay 3 or 4 inches away from the front end. Just move a few inches to the left or right, and your audio is cut in half. We hams know that our radios will not transmit the full 40 to 18,000Hz range of the PR 30, but you can be sure that what ever the frequency response range is on your radio, this mic will cover it with a full flat response and no fall-offs.
The responses I have had on FM simplex is "great" to 'HOLY GRAAL'. I am told the audio is super clear, strong, and no fuzz around the edges. Everyone hears a nice normal amount of bass response for warmth, and just enough highs to be clean and crisp, but not tinny. The entire voice range is very articulate. Even SSB has a nice warmth with plenty of drive power without any distortion.

I run the PR 30 on my Icom IC-746PRO. For use on all Icom's and many Yaesu's, you must make a small modification to the PR 30. Icom and Yaesu insert 5VDC on the mic line to power the electret mic elements in their hand and desk mics. But the Heil PR 30 is a dynamic mic element, and that 5VDC will change the sound quality of the PR-30 for the worse. It makes the mic sound tinny and adds a hum. The 5VDC can also damage the PR 30 element.

To prevent this you need to do a simple modification. Removing 3 little screws allows you to remove the case off of the PR 30. You will see the dynamic mic element on the top with 2 wires coming off the bottom of the element. One is red (-), and the other is white (+), Un-solder the white wire from the element. You then need a 1uF electrolytic capacitor, any voltage above 15VDC. Solder the (-) side of the cap to the mic element where the white wire was. Then solder the white wire to the (+) side of the cap. There is plenty of room for the cap. Then just put the case back on the mic, and you are done. The cap blocks the 5VDC to the mic, but has no effect on the audio quality.
Now you can use the PR 30 on any radio with phantom power on the mic line, without any harm or effect to the mic. My PR-30 sounds fantastic on my 746PRO. I get nothing but high praise and compliments. And there is plenty of audio to drive the power on SSB.
Heil PR 30 is highly recommended for any radio old or new. And makes the best quality recording mic you can get. It beats a ribbon mic in every way. Heil did it again, and you would be wise to use the PR 30.

If you want to save a bit of moolah and still have as good a dynamic mic as any out there, get the PR30. Some may wonder why the PR-30 instead of the Heil PR-40? I liked what I read in reviews of both mics and decided I wanted to be different. I haven't regretted it.

The physical shape of the PR30 is slightly different from the PR40 and the response on the bottom is 40Hz instead of 28Hz. You will never miss 12Hz.

I think it looks fine business. Fit and finish is as good as I've seen. It comes in a cardboard box and includes mic and tough all metal mount.

The screen around the element is double thickness and has foam all around the inside. Right behind the front the foam looks to be about 3/4 inch thick. I don't have 'pop'problems and don't use any other 'pop' filters.

As a test I installed a foam surround - big foam ball type pop filter on the mic. All this did was drastically change the frequency response as heard in my monitor so it was removed permanently.
Like most any wide response mic this one benefits from mic equalization. If your radio has some internal eq and or some high and low transmit frequency adjustments you will still be able to get good sound.

As with most mics the PR30 exhibits proximity effect as you get closer to the front of the mic. I don't see this as a drawback though. I use it as a tool to change my low end at will.

The mic has an articulate and smooth sound. I have yet to hear it muddy up in my monitor. No one has complained of harshness in my audio. I use it with a channel strip that contains a preamp, eq, and compressor and the result goes into the front of my stock 950SDX.

A nice thing about this mic is the reduced sensitivity compared to most condenser mics. Less sensivity equals less mic pickup of shack noise. So far I've been able to get by without any noise gate or expander. This may change if I get a noisier amp though.