That new board is a bit of a mystery. It has two unused 4-pin connectors with very little information available about their purpose. I don't own any models with that board, and contacting Atlas to get some details about the electrical diagram did not yield any info (no reply from Atlas). Also, until recently I had no luck trying to borrow the board from TRW members until Benjamin volunteered to send me that board removed from one of his models. Thank you
@GM50 4164 on behalf of all the TRW members looking for this info. With the board in hand, last Sunday I was able to decipher all the connections. There are some legends silk-screened by each connector, but they aren't very helpful in determined what AUX outputs they connect to.
AtlasE24boardConnectors.pngThe diagram is pretty much self-explanatory. Each of the unused connectors provides access to three AUX outputs (with 1.5k ohm resistor in series) and a common positive (U+) or a "blue" connection.
For those interested in more details, here's a schematic diagram.
AtlasE24boardSchematic.pngAll the AUX outputs are powered (no logic level AUX outputs were made accessible), and all those AUX outputs include a series-connected 1.5k Ohm resistor. The resistor is on the negative leg of the circuit. The only exception is the hardwired rear headlight LED where the resistor is on the positive leg. That is inconsequential since the headlights are hardwired directly on the light board. Also curious fact is that there are 1µF capacitors wired in parallel with each LED to be connected to AUX output. I have never seen any decoder manufacturer recommend adding such capacitor. Maybe Atlas' circuit designers thought it was needed to smooth out the PWM pulses used to dim the LEDs, or to reduce any electrical noise. Those caps should not have any detrimental effect on the lighting functions.
I also noticed that there is a RFI (Radio Frequency Interference) suppression filter included in the motor circuit. It consists of two 100µH inductors and a 0.01µF capacitor. Usually decoder manufacturers recommend removing such filters often included in many models, but here the circuit designer obviously chose specific values of those components not to interfere with the decoder's BEMF functionality.
I was also asked if the ground/common (GND) connection was available on the Atlas board, which along with the U+ raw rectifier voltage could be utilized for connecting a keep-alive circuit. Unfortunately, Atlas did not have enough foresight to include a GND solder pad on the decoder. It is too bad since GND is available on the E24 connector and only some minor design change of the PC board (with no additional cost) would have been needed to provide that.
As shown in the closeup photo of the E24 connector, 2 GND pins are there, but the solder pads are too short to be usable for soldering a GND wire at that location. Even if someone was able to solder a very small wire to one of the connector's GND pins, that would not work. The mating connector on the decoder is wider than the one on this board, so when it's seated on the Atlas board, it leaves no clearance under it for any additional soldered wire.
If someone really wants to add a keep-alive circuit, the ground connection can be made directly to the decoder. The positive lead of a keep-alive will be attached to any of the U+ locations on the light-board, and the negative lead to any of the GND locations shown below.
LokSound5nanoGrounds.pngOf course soldering wires directly to the decoder components will void the warranty. Also five of the components I showed (on the left) are MLCCs (Multi-Layer Ceramic Capacitors). Those are made from a sandwich of hundreds of metalized ceramic leaves fused together, and they are sensitive to thermal shock which can cause microscopic cracking. Thermal shock can occur when the caps are rapidly heated with a soldering iron from room temperature to solder-melting temperature. Damage is not guaranteed to happen, but I figured out that should give a warning.
Since no logic-level AUX outputs are accessible , the ESU 3-wire Power Pack keep alive cannot be utilized, since the Power Pack's "control" lead (white wire) has to be connected to a logic-level AUX output. Only generic 2-wire keep-alives or simple capacitor circuits can be used (and those might affect programing of the decoder)
Last thing is what is needed to mate with those unused connectors to be able to connect more LEDs. Those on-board connectors are JST 0.8mm spacing male headers. There are mating female sockets are available as cable assemblies. They come in different lengths of wire with a female socket on both ends. Different lengths are available. A link to a 12" cable at Digikey:
455-2994-ND. Manufacturer's part# is A04SUR04SUR32W305B is someone wants to find another source. Basically to make that cable assy. usable, cut the wires half way between the connectors. That will yield 2 connectors with 6" wire pigtails.
Happy Independence day to our U.S. members!
