162 lines
9.3 KiB
Plaintext
162 lines
9.3 KiB
Plaintext
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<h1>Hardware Support: Measurements on power leads of Digitrax components</h1>
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<p>I wanted to understand the reasons behind Digitrax's recommendations about separate power
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sources for PM4 and DS54 boards. This page describes some measurements on my layout, and what
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I conclude from them.</p>
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<h2>Conclusions</h2>
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The DCS100 and PM4 appear to use full-wave rectifier power supplies, while the DS54 uses a
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half-wave rectifier supply. These two types require different offsets between system ground
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and the transformer leads, which explains why these three types of components can't share AC
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auxiliary power supplies.
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<h2>Specific measurements</h2>
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In this section, I describe the measurements leading to my conclusions.
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<p>The following measurements were made on an operating layout. It is powered by a single
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DCS100 (Chief) booster, with PM4 units for power subdistricts and DS54 units for various
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controls. Track power was on, and the DCS100 was in "run" mode, i.e. sending packets on the
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rails. About 1.2 A was being drawn from the DCS100 booster output. During the measurements,
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no LocoNet® commands were sent, nor were reversing sections being traversed.</p>
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<p>Unfortunately, the camera scope photos wasn't sufficiently sensitive, so they show a lot
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of blur. In all pictures, the ground reference was centered and the vertical scale was
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5V/division. The scope was line triggered. Only a single trace is shown.</p>
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<h3>Booster measurements</h3>
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Normally my DCS100 booster's ground connection is connected to the AC ground, hence to earth.
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I temporarily disconnected this to see what would happen with a floating layout. I found a
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60Hz offset voltage of about 9V. A 100K resistor to ground removes this, so the source
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impedance is very large. The photo was made with a 10MHz bandwidth limit; the visible spikes
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are about 6V with no bandwidth limit (500MHz scope). The ungrounded layout was probably
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generating a lot of RF noise...
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<p><a href="images/DigitraxPower/DiscGround.jpg"><img src=
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"images/DigitraxPower/DiscGround-thumb.jpg" alt=
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"Booster ground signal without connection to household ground"></a>
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</p>
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<p>For the rest of the measurements, I reconnected the DCS100 ground to the power ground.
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Both noise and offset were then less than 20mV.</p>
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<p>With respect to system ground, the Rail A and Rail B lines alternate between 12V and about
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0.8V:<br>
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<a href="images/DigitraxPower/RailA.jpg"><img src="images/DigitraxPower/RailA-thumb.jpg" alt=
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"RailA signal relative to system gound"></a> <a href=
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"images/DigitraxPower/RailB.jpg"><img src="images/DigitraxPower/RailB-thumb.jpg" alt=
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"RailB signal relative to system gound"></a><br>
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It appears that the DCS100 internal high-power supply is only positive. To get a better
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understanding of that, I looked at the two power in lines from the transformer:<br>
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<a href="images/DigitraxPower/BoosterPower1.jpg"><img src=
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"images/DigitraxPower/BoosterPower1-thumb.jpg" width="100" height="75" alt="power 1"></a>
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<a href="images/DigitraxPower/BoosterPower2.jpg"><img src=
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"images/DigitraxPower/BoosterPower2-thumb.jpg" width="100" height="75" alt="power 2"></a><br>
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Note they are both positive at all times, not centered on ground. The lowest voltage is about
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1.3V below ground. This is characteristic of a full-wave rectifier supply with one side of
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the output grounded. The small offset is due to the voltage drop across the low-side diode,
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while the flat-top on the waveform occurs when the transformer reaches a large enough voltage
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to charge the filter capacitor.<br>
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<img src="images/DigitraxPower/Fullwave.jpg" alt="full wave diagram"></p>
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<h3>PM4 measurements</h3>
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My PM4 power supply is an isolated transformer. I made no measurements with a DC auxiliary
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supply. The LocoNet was connected, providing a common ground connection.
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<p>The voltages on the PM4 power connections look like:<br>
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<a href="images/DigitraxPower/PM4Power1.jpg"><img src=
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"images/DigitraxPower/PM4Power1-thumb.jpg" width="100" height="75" alt="pm4 power 1"></a>
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<a href="images/DigitraxPower/PM4Power2.jpg"><img src=
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"images/DigitraxPower/PM4Power2-thumb.jpg" width="100" height="75" alt="pm4 power 2"></a><br>
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Like the booster, this is indicative of a full-wave rectified power supply. The load profile
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is very different from what's seen on the booster supply. The ugly waveforms may be because
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my PM4 supply is a cheap little Radio Shack 450mA transformer; it seems to be clearly
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saturating.</p>
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<h3>DS54 measurements</h3>
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My DS54 power supply is an isolated transformer. I made no measurements with a DC auxiliary
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supply. The LocoNet was connected, providing a common ground connection.
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<p>The voltages on the DS54 "black" and "red" power connections look like:<br>
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<a href="images/DigitraxPower/DS54PowerBlack.jpg"><img src=
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"images/DigitraxPower/DS54PowerBlack-thumb.jpg" width="100" height="75" alt=
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"ds54 power black"></a> <a href="images/DigitraxPower/DS54PowerRed.jpg"><img src=
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"images/DigitraxPower/DS54PowerRed-thumb.jpg" width="100" height="75" alt=
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"ds54 power red"></a><br>
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This is indicative of a half-wave rectified power supply. Note this is different from the PM4
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and DCS100.<br>
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<img src="images/DigitraxPower/Halfwave.jpg" alt="half wave diagram"><br>
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Note the ripple in the ground (black) lead. Digitrax recommends that you <strong>not</strong>
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connect the DS54 ground lead to system ground; this offset shows why its a good idea to
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listen to that recommendation. The ground in the cartoon schematic is the DS54 black-wire
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"ground", but it is <strong>not</strong> the same as the system (LocoNet) ground.</p>
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<p>Don Crano has pointed out that the DS54 is deriving a local ground from the rail
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connections so that the BD1 block current detector can use the DS54 ground connection. The
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following photos show that the offset from system ground changes slightly as the
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pulse-stretching for analog operation moves from one extreme to the other. (Note that these
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photos are at 1V/division, with system ground in the center.)</p>
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<table border="0">
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<tr>
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<td style="width: 120px">
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<a href="images/DigitraxPower/DS54ConnAna-99.jpg"><img src=
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"images/DigitraxPower/DS54ConnAna-99-thumb.jpg" width="100" height="75" alt=
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"connected -99">LocoNet connected, analog at -99</a>
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</td>
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<td style="width: 120px">
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<a class="td-image" href="images/DigitraxPower/DS54ConnAna0.jpg"><img src=
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"images/DigitraxPower/DS54ConnAna0-thumb.jpg" width="100" height="75" alt=
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"connected zero">LocoNet connected, analog at 0</a>
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</td>
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<td style="width: 120px">
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<a class="td-image" href="images/DigitraxPower/DS54ConnAna+99.jpg"><img src=
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"images/DigitraxPower/DS54ConnAna+99-thumb.jpg" width="100" height="75" alt=
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"connected +99">LocoNet connected, analog at +99</a>
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</td>
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</tr>
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<tr>
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<td style="width: 120px">
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<a href="images/DigitraxPower/DS54DiscAna-99.jpg"><img src=
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"images/DigitraxPower/DS54DiscAna-99-thumb.jpg" width="100" height="75" alt=
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"disconn -99">LocoNet disconnected, analog at -99</a>
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</td>
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<td style="width: 120px">
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<a href="images/DigitraxPower/DS54DiscAna0.jpg"><img src=
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"images/DigitraxPower/DS54DiscAna0-thumb.jpg" width="100" height="75" alt=
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"disconn zero">LocoNet disconnected, analog at 0</a>
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</td>
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<td style="width: 120px">
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<a href="images/DigitraxPower/DS54DiscAna+99.jpg"><img src=
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"images/DigitraxPower/DS54DiscAna+99-thumb.jpg" width="100" height="75" alt=
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"disconn +99">LocoNet disconnected, analog at +99</a>
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</td>
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</tr>
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</table>
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People on the Digitrax mailing list have recommended that all DS54 units on a layout be wired
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to the rails and common power supply with the same polarity. (Mine are too.) The offsets
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visible above show why you need to do this; if two DS54 units were connected oppositely to
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either the common power or the rails, they would be unable to create a consistent ground
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reference. Bob Jacobsen
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<p>LocoNet® is a registered trademark of <a href="https://www.digitrax.com">Digitrax,
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Inc.</a></p>
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<p>Back to the <a href="Digitrax.shtml">Digitrax Hardware main Help Page</a></p>
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