The advantage of using power districts is that should a short circuit occur in one district, it will trip only that district’s breaker. This way the rest of the districts on the layout continue to function without interruption.
Our sample unit from DCC Specialties was a single-breaker PSX-1. To test it, I installed the breaker on one of our HO scale project railroads, which is powered by a Model Rectifier Corp. Prodigy Advance DCC system. I began my test with the quick-start instructions (requiring no programming), included in the instruction booklet.
The Power Shield’s circuit board is wired between the DCC system’s booster and the track bus, and the PSX-1 includes screw terminals for easy connections. There is also an extra pair of terminals for linking the booster input wires to addi-tional PSX breakers, should you decide to add extra breaker-protected power districts later. Once I’d connected the breaker, I powered up the DCC system and checked that the correct operation light-emitting diodes (LEDs) were lit. Getting started was that easy.
Next I tried out the Adaptive Load Reset feature. A PSX circuit breaker can determine if an overload is a real short circuit or due to the in-rush current needed to charge the capacitors found in sound-equipped locomotives.
I tested this feature with 10 sound-equipped engines (most with QSI decoders) all on the same power district. Once everything was functioning, I short-circuited the track with a screwdriver and then waited to see if the PSX would bring the track power back on line. Every time I conducted the test, the PSX properly reset the track power – all 10 sound decoders included.
I was impressed.
Other features require programming, which can be done by con-necting jumper wires to the PSX-1’s circuit board or by using a DCC system. To program the PSX-1 using a DCC system, connect the J1-3 and J1-4 pins to the DCC system’s track output. You also need to move the blue programming jumper (J3) from pins 2 and 3 to pins 1 and 2.
There’s some variation in procedures for programming the PSX-1’s CVs with the various DCC systems on the market. To program the PSX-1 using MRC’s Prodigy Advance system (what I used for the test), you must use ops mode programming. The instruction booklet provides information for working with other DCC systems.
Once you’re ready to program, there are a number of features you can adjust – one of which is the trip current. As delivered from the factory, the PSX-1’s trip current is 3.81 amps, though you can adjust it from 1.27 amps to 17.8 amps.
You can also program the PSX-1 to be used as an occupancy detector, using either track current or a photocell to detect the presence of a train. If wired with a photocell, the PSX-1 can be set to turn off track power when the train is detected, which is useful for staging yards.
DCC Specialties has taken its Power Shield circuit breakers and made them even better by adding features most modelers will want.
Price: $39.95 (one district), $79.90 (two districts), $119.95 (three districts), $159.80 (four districts)
Manufacturer
DCC Specialties
210 E Front St
Traverse City, MI 49684
www.dccspecialties.com
Description: programmable circuit breaker for Digital Command Control
