Darryl R Posted July 12, 2018 Share Posted July 12, 2018 My dCS Network Bridge is connected to my DAC with dual AES interconnect, and connected to my music server via shielded Ethernet cable. The music server is in turn connected to my LAN with the same shielded cable. A reputable manufacturer advised me my system may grounded to the LAN because of the shielding on the Ethernet cable. I have some occasional light humming in the speakers. Has anyone experienced any grounding issues with shielded Ethernet? I see it is a known issue in various on-line sources. Link to comment
Popular Post AMP Posted July 12, 2018 Popular Post Share Posted July 12, 2018 Darryl, The issue with shielded Ethernet is that the shield has the potential to connect the ground plane of the audio device to the ground plane of whatever it's connected to. This gets especially bad with switches that use a wall wart power supply as they do not have a real connection to earth. In that case the audio component's ground becomes the ground for the network device and potentially anything else connected through that network device. It gets ugly from a noise perspective. If I recall correctly, you're using a JCat Ethernet card in your server (which has a shield connection to ground), but I can't remember the type of power supply that it has. If it's the traditional internal power supply with a 3-prong plug to the wall then there's a possibility that the server and bridge are seeing two different ground potentials and that leading to a current being developed between the ground planes of the two devices. This can lead to a hum, but that more commonly happens when unbalanced connections are used since signal and reference ground share the same wire. Based on the rest of your system I'm guessing that you're using balanced connections. If your server has an external power supply that connects with the typical barrel connector (whether the power supply is grounded or not) then the Bridge is likely acting as the ground reference for the server. This typically doesn't lead to hum, but it's possible. In either case, we recommend against using shielded Ethernet cables as the shield is a very easy way for noise to get onto the ground plane of the audio system. This is especially bad when dealing with digital as that noise can create some issues both on the digital and analog sides. The noise may not be audible, but it's definitely within the current differential between a couple of bits. In other words, you may not be able to hear it, but it may be messing with the overall resolution of your system. Different Ethernet cables (the audiophile variety) deal with shielding differently as none of them follow the actual standard, so it's hard to predict how one is going to behave over another. Sadly, most manufacturers of audiophile Ethernet cables demonstrate little understanding of how Ethernet actually works which makes many of the expensive Ethernet "solutions" suspect at best. Hum is typically generated by either a difference between the ground potential of two or more components in the system or it's some noise that's being picked up by the cables. Ground loop noise can usually be isolated by methodically disconnecting components from the system until the hum goes away. Start with the Ethernet cable. If the hum is gone then there's your culprit. Another possibility is that your amps are on a different outlet than the rest of the system. Again, if you're running balanced this typically isn't an issue but it's worth doing a bit of cable work to try to get the amps and components on the same outlet. My guess is that you have an interconnect that's picking up noise from a power cable or transformer in one of your components. This happened to me recently and it was due to an interconnect getting a bit too friendly with a couple of power cables. A little bit of rearrangement solved the problem. I've also seen this happen when the excess length in an interconnect is coiled up underneath a rack or amp stand. On the amp side it can pickup noise from the transformers and on the rack side the bottom shelf is the typical spot for a power conditioner which can be a big source of EMI. Pale Rider, The Computer Audiophile and Russ 1 2 Programme Manager, Streaming Audio Data Conversion Systems, Ltd Link to comment
Darryl R Posted July 12, 2018 Author Share Posted July 12, 2018 Thanks for the great reply AMP. I'd like to take this up privately with you. Link to comment
skatbelt Posted July 16, 2018 Share Posted July 16, 2018 On 7/12/2018 at 6:13 PM, Darryl R said: My dCS Network Bridge is connected to my DAC with dual AES interconnect, and connected to my music server via shielded Ethernet cable. The music server is in turn connected to my LAN with the same shielded cable. A reputable manufacturer advised me my system may grounded to the LAN because of the shielding on the Ethernet cable. I have some occasional light humming in the speakers. Has anyone experienced any grounding issues with shielded Ethernet? I see it is a known issue in various on-line sources. In addition to dCS's official reply, I did experiment on the subject and found the best results with simple CAT 6 UTP to prevent from ground loops via shielding and a Emo Systems EN-70HD (hospital grade) network isolator to block any possible common mode noise. The network isolator is placed just before the Network Bridge. Streamer dCS Network Bridge DAC Chord DAVE Amplifier / DRC Lyngdorf TDAI-3400 Speakers Lindemann BL-10 | JL audio E-sub e110 Head-fi and reference Bakoon HPA-21 | Audeze LCD-3 (f) Power and isolation Dedicated power line | Xentek extreme isolation transformer (1KVA, balanced) | Uptone Audio EtherREGEN + Ferrum Hypsos | Sonore OpticalModule + Uptone Audio UltraCap LPS-1.2 | Jensen CI-1RR Cables Jorma Digital XLR (digital), Grimm Audio SQM RCA (analog), Kimber 8TC + WBT (speakers), custom star-quad with Oyaide connectors (AC), Ferrum (DC) and Ghent (ethernet) Software dCS Mosaic | Tidal | Qobuz Link to comment
Darryl R Posted July 16, 2018 Author Share Posted July 16, 2018 Thanks for this. There seems to be a consensus among cable manufacturers with a sense of responsibility for their products that if shielding is used it should be grounded only at the source end. Link to comment
One and a half Posted July 16, 2018 Share Posted July 16, 2018 The main reason for having the shield on the cable is to avoid HF being emitted from inside the cable and avoiding RF to get in the inside conductors. The problem arises when the shield is a different potential at the source and the receiver in a classic ground loop. A second conductor run in parallel with shielded cable’s shield will achieve the same potential at both ends. It may not be attractive, but it works. AS Profile Equipment List Say NO to MQA Link to comment
Popular Post Miska Posted July 18, 2018 Popular Post Share Posted July 18, 2018 Ethernet uses differential signaling on a twisted pair and doesn't need shielding in first place. Ethernet is useful for isolating ground potentials between equipment, it has been designed that way on purpose. Using shielded cables destroys this important property. Do NOT use shielded ethernet cables with audio equipment! Only use standard inexpensive CAT6 UTP patch cables - those are the best. miguelito, tmtomh, plissken and 1 other 3 1 Signalyst - Developer of HQPlayer Pulse & Fidelity - Software Defined Amplifiers Link to comment
Miska Posted July 18, 2018 Share Posted July 18, 2018 On 7/16/2018 at 2:35 PM, skatbelt said: In addition to dCS's official reply, I did experiment on the subject and found the best results with simple CAT 6 UTP to prevent from ground loops via shielding and a Emo Systems EN-70HD (hospital grade) network isolator to block any possible common mode noise. The network isolator is placed just before the Network Bridge. Ethernet is transformer isolated at both ends, you don't need those network isolators if you use UTP cable. Common mode noise is cancelled by the transformers and receiver circuit. That network isolator probably just adds extra transformers on the path and may degrade signal quality leading to higher transmit powers through 802.3az standard which all good new network equipment supports. It is usually better to let go with lower transmit powers on the ethernet than trying to add extra isolation. Signalyst - Developer of HQPlayer Pulse & Fidelity - Software Defined Amplifiers Link to comment
asdf1000 Posted July 18, 2018 Share Posted July 18, 2018 Hey @Miska Is this stuff unshielded? There's no mention. But can you tell by the specs mentioned? Cheers Link to comment
mansr Posted July 18, 2018 Share Posted July 18, 2018 1 hour ago, Miska said: Ethernet is transformer isolated at both ends, you don't need those network isolators if you use UTP cable. Common mode noise is cancelled by the transformers and receiver circuit. That network isolator probably just adds extra transformers on the path and may degrade signal quality leading to higher transmit powers through 802.3az standard which all good new network equipment supports. It is usually better to let go with lower transmit powers on the ethernet than trying to add extra isolation. Those isolators intended for hospitals and such are meant to protect equipment against much higher voltages than a typical Ethernet jack can withstand. Low-level noise isn't a consideration, and they may or may not block it any better than the regular transformers. tmtomh 1 Link to comment
Superdad Posted July 18, 2018 Share Posted July 18, 2018 6 hours ago, mansr said: Those isolators intended for hospitals and such are meant to protect equipment against much higher voltages than a typical Ethernet jack can withstand. Low-level noise isn't a consideration, and they may or may not block it any better than the regular transformers. And they don’t do anything to block AC leakage currents—which John has measured traveling over Ethernet lines. That’s an important factor to address for audio—especially when one purpose of using small end-point Ethernet renderers is to provide a truly isolated music source. There are a few models of Ethernet switches which, if grounded, will shunt incoming (from all ports) high-impedance leakage. Such is never seen as a specification and it takes a special test setup to check if a switch does or does not block leakage. UpTone Audio LLC Link to comment
Popular Post jabbr Posted July 18, 2018 Popular Post Share Posted July 18, 2018 1 hour ago, Superdad said: And they don’t do anything to block AC leakage currents—which John has measured traveling over Ethernet lines. That’s an important factor to address for audio—especially when one purpose of using small end-point Ethernet renderers is to provide a truly isolated music source. Medical/hospital Ethernet isolators absolutely are exactly designed to block leakage currents. In fact that's their entire purpose. The standard Ethernet PHY transformers are fine to block high level voltages/currents. Imagine an ICU setting where there is a catheter in the heart which is measuring (electrical) cardiac signals -- imagine what a very low level (AC) -- perhaps microamp -- leakage current might do! Leakage currents are literally a life and death issue. Russ and sandyk 2 Custom room treatments for headphone users. Link to comment
jabbr Posted July 18, 2018 Share Posted July 18, 2018 9 hours ago, Em2016 said: Is this stuff unshielded? There's no mention. But can you tell by the specs mentioned? There are different types of shielding "S" refers to a screen shield, "F" refers to a foil shield and "U" refers to no shield. The shield can be around the entire cable, or around each twisted pair (TP) hence the nomenclature: S/STP -- the first "S" is the outer screen, the second "S" are screen shields around each twisted pair (TP). U/STP -- no outer shield, each twisted pair has a screen shield S/FTP -- there is a screen around the cable, and foil around each twisted pair. etc... https://www.belden.com/blog/digital-building/stp-utp-ftp-cable-more-7-types-when-to-use-them Custom room treatments for headphone users. Link to comment
jabbr Posted July 18, 2018 Share Posted July 18, 2018 9 hours ago, Miska said: Do NOT use shielded ethernet cables with audio equipment! Only use standard inexpensive CAT6 UTP patch cables - those are the best. Cat 6 U/UTP is best for audio (10Mb -> 1GbE) The shields around each twisted pair reduce crosstalk between the twisted pairs and are used with 10 Gbe... e.g. U/FTP For the vast majority of home applications there is no need for outer shielding -- particularly with bonded twisted pair there is not significant EMI emission ... for example your Ghz Wifi works great right next to a Gb Ethernet cable -- nor is there significant RF pickup. Custom room treatments for headphone users. Link to comment
mansr Posted July 18, 2018 Share Posted July 18, 2018 11 minutes ago, jabbr said: Medical/hospital Ethernet isolators absolutely are exactly designed to block leakage currents. In fact that's their entire purpose. The standard Ethernet PHY transformers are fine to block high level voltages/currents. Ethernet jacks/transformers are not generally rated according to IEC 60601, the standard specifying safety requirements for medical electrical equipment. A random TE Connectivity datasheet I checked doesn't even mention the relevant parameters. 11 minutes ago, jabbr said: Imagine an ICU setting where there is a catheter in the heart which is measuring (electrical) cardiac signals -- imagine what a very low level (AC) -- perhaps microamp -- leakage current might do! Leakage currents are literally a life and death issue. For such purposes, you'll need a barrier much closer to the probe, or else it will be disturbed by noise generated within the equipment itself. Link to comment
jabbr Posted July 18, 2018 Share Posted July 18, 2018 3 minutes ago, mansr said: Ethernet jacks/transformers are not generally rated according to IEC 60601, the standard specifying safety requirements for medical electrical equipment. A random TE Connectivity datasheet I checked doesn't even mention the relevant parameters. For such purposes, you'll need a barrier much closer to the probe, or else it will be disturbed by noise generated within the equipment itself. Yeah in fact, the standard specifies allowable leakage currents as well as methods of testing: https://www.mddionline.com/leakage-current-standards-simplified In the USA, the equipment itself is regulated by the FDA. Those old heavy "ultra isolator" low leakage current transformers were not made with audio in mind Custom room treatments for headphone users. Link to comment
Superdad Posted July 18, 2018 Share Posted July 18, 2018 5 hours ago, jabbr said: Medical/hospital Ethernet isolators absolutely are exactly designed to block leakage currents. In fact that's their entire purpose. Sorry, I misspoke. Of course the medical EN isolators block low-impedance (touch current) leakage. John tested a popular one that someone sent him and found that it did not block high-impedance leakage. Can't seem to find his post right now, but he did use his leakage test setup on it--during the time he was comparing switches--and reported that the medical isolators were only effective with the low-impedance leakage. Not that it is difficult to design a switch that shunts the high-impedance leakage. UpTone Audio LLC Link to comment
jabbr Posted July 18, 2018 Share Posted July 18, 2018 29 minutes ago, Superdad said: Sorry, I misspoke. Of course the medical EN isolators block low-impedance (touch current) leakage. John tested a popular one that someone sent him and found that it did not block high-impedance leakage. Can't seem to find his post right now, but he did use his leakage test setup on it--during the time he was comparing switches--and reported that the medical isolators were only effective with the low-impedance leakage. Not that it is difficult to design a switch that shunts the high-impedance leakage. As I said before, there is more than one issue with leakage current. "Touch current" is the easiest to understand, and most widely applicable, and ultimately you don't want your 2 year old kid to get shocked either by a low impedance path, but there are more stringent situations as well, i.e. the cardiac compromised ICU patient with an electrode actually inside the heart. In the most sensitive situations e.g. brain monitors, actual fiberoptic sensors are preferred due to their blockage of even higher impedance leakages! What are you defining as "high impedance"? IEC 60601 defines the test mechanism which requires a minimum >1 M ohm input impedance on the meter. If you look at the literature which if course exists and is fairly extensive, issues with even higher input impedance e.g. Gigaohm are discussed, as well as issues arising from insulator breakdown (can be in the Teraohm range). That can indeed be hard to measure! I can't speak for the Ethernet isolators that you tested, but Topaz ultra-isolators have certainly been used in healthcare environments and are known to have low parasitic capacitance e.g. < 0.0005pF etc. In defense of the IEC 60601 it does really make sense to measure the net leakage at the end of the day rather than merely the individual components because the circuits can get complicated. Custom room treatments for headphone users. Link to comment
jabbr Posted July 18, 2018 Share Posted July 18, 2018 Let me expand a bit: Every current path is governed by the equation V = IZ (Z=R at DC). Nothing magic about leakage current, they just travel along a certain path, typically one that involves parasitic capacitance/inductance -- if the current didn't travel along the parasitics then it would be a "normal" part of the circuit. So the higher the path impedance, the lower the current at a specific voltage. Now consider the measurement equipment itself -- the probe etc have their own parastics. Youve discussed providing a low impedance alternate path to shunt away parasitic leakage currents -- when the measuring device can be this!!! So ... in order to be able to measure low level currents (high impedance leakage circuits), the input resistance of the measuring equipment needs to be substantially higher than that of the circuit impedance. That's why (duh!) IEC 60601 requires a high impedance measurement -- and if you want to get even more sensitive then you need even higher impedance. So, to flip this around: what is the minimum current that you want to measure? 1 nA, 1pA? --- really now what is your background noise folks??? Superdad 1 Custom room treatments for headphone users. Link to comment
Superdad Posted July 19, 2018 Share Posted July 19, 2018 @jabbr: Thanks for your technical observations! John is super-busy this week, but I sent him a link to the above and encouraged him to engage with you and to clarify how he has measured and what he has seen. [And of course leakage is but one of the issues we will be addressing effectively in our EtherREGEN switch.] UpTone Audio LLC Link to comment
octaviars Posted July 19, 2018 Share Posted July 19, 2018 Look here @jabbr I think this is the one @Superdad was looking for were John measured the Baaske isolator. https://www.computeraudiophile.com/forums/topic/35129-a-novel-way-to-massively-improve-the-sq-of-the-microrendu-ultrarendu/?do=findComment&comment=723196 Main system TAD D1000mk2, TAD M2500mk2, TAD CE-1, Ansuz Mainz 8 C2, Ansuz Darkz D-TC, Qobuz Studio -> Roon ROCK on NUC -> Uptone etherREGEN -> dCS Network Bridge -> AES/EBU -> DAC HD Plex 200W PSU (4 rail for ISP fiber, router, etherREGEN and NUC) Second system Qobuz Studio -> Devialet Silver Phantom, Devialet Tree Link to comment
Superdad Posted July 19, 2018 Share Posted July 19, 2018 16 minutes ago, octaviars said: Look here @jabbr I think this is the one @Superdad was looking for were John measured the Baaske isolator. Oh wow, thank you! That’s the exact post I was searching for. You just saved John a whiole bunch of time, so double-thanks. That post shows both what he measured and how. octaviars 1 UpTone Audio LLC Link to comment
Popular Post octaviars Posted July 19, 2018 Popular Post Share Posted July 19, 2018 24 minutes ago, Superdad said: Oh wow, thank you! That’s the exact post I was searching for. No problem, we need to save Johns time so he can finish the etherREGEN ? Superdad and ssh 2 Main system TAD D1000mk2, TAD M2500mk2, TAD CE-1, Ansuz Mainz 8 C2, Ansuz Darkz D-TC, Qobuz Studio -> Roon ROCK on NUC -> Uptone etherREGEN -> dCS Network Bridge -> AES/EBU -> DAC HD Plex 200W PSU (4 rail for ISP fiber, router, etherREGEN and NUC) Second system Qobuz Studio -> Devialet Silver Phantom, Devialet Tree Link to comment
jabbr Posted July 19, 2018 Share Posted July 19, 2018 3 hours ago, octaviars said: Look here @jabbr I think this is the one @Superdad was looking for were John measured the Baaske isolator. https://www.computeraudiophile.com/forums/topic/35129-a-novel-way-to-massively-improve-the-sq-of-the-microrendu-ultrarendu/?do=findComment&comment=723196 Ah good. FWIW there are “medical grade”/rated SMPS that have lowered leakage. I tend not to use SMPS when possible although some of the old HP test equipment have internal SMPS which are quite good. Similarly a SMPS is used in the LPS1 and also mitigated so there are indeed different strategies!. I think it’s the brand/quality that’s a big issue and John has shown that they can be modified to greatly reduce. Also as we all know noise from cheap SMPS can travel into other devices so tackling the source of the problem is indeed better than mitigating. BTW: what are the levels (Y axis) here? Are we talking microAmps? nano? pico? I dont use Baaske isolator myself — I have a fiberoptic network which isn’t an issue. Custom room treatments for headphone users. Link to comment
asdf1000 Posted August 1, 2018 Share Posted August 1, 2018 While I'm with the unshielded ethernet group, I was looking through an Icron user manual and noticed this: http://www.icron.com/pdf/el5363-hdmi-usb-2-0-manual.pdf They have quite a bit of experience in both networked audio AND video, so there must be something to their recommendation, especially their notes on interference? They're obviously not fans/believers of the balanced and isolated nature of unshielded ethernet. It doesn't change the fact that shielding may open the door to a ground / leakage loop but they must have seen/measured this interference they mention. I'll tag the respected experts @JohnSwenson @Miska @mansr @jabbr Link to comment
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