The 18-volt lamp will be running below its rated voltage and consuming less power than it would at its rated voltage. That says nothing about the power that it consumes compared to any other particular lamp, such as the number 53.
The number 53 runs cooler than the 1445 at any voltage. Lamp ratings are a tradeoff among voltage, current, efficacy, and lifetime. The ratings of the two lamps are
#53 14.4 V 120 mA 1728 mW 1 mscp 1000 hr #53 18 V 136 mA 2442 mW 2.18 mscp 69 hr#1445 14.4 V 135 mA 1944 mW .7 mscp 2000 hr#1445 18 V 150 mA 2700 mW 1.53 mscp 137 hr
The numbers in italics are values that I calculated using the rules that for incandescent lamps current varies as the .55 power of voltage, light output as the 3.5 power, and lifetime as the -12 power. The 1445 is actually rated at 14.4 volts and 18 volts; but that doesn't give it any particular advantage over the 53 in terms of power dissipated at either voltage, as you can see.
For screw-based lamps, the number 52 is cooler than the 1447:
#52 14.4 V 100 mA 1440 mW .75 mscp 1000 hr #52 18 V 113 mA 2035 mW 1.64 mscp 69 hr#1447 14.4 V 135 mA 1944 mW .7 mscp 2000 hr#1447 18 V 150 mA 2700 mW 1.53 mscp 137 hr
Bob Nelson
I'm at a loss as how you figure that. The 18V bulb will be running below it's rated voltage and consuming far less power, hence less heat. You can measure the current yourself and compute the difference in power dissipation.
My point is that, while it's easy to swap lamps, the most popular 18-volt lamp will only make things worse, compared to the stock lamp.
No offense, but sticking a diode in seems harder than replacing the lamp with the 18V part.
I'm not sure what bulb is in that signal, but a lower wattage one is certainly an option if it's available.
A lamp with a higher voltage rating is not necessarily cooler than one with a lower voltage rating. For example, the number 1445 is hotter than the number 53 (the 14.4-volt lamp that Lionel used in the 151) at any voltage. A simple way to dim a lamp is to put a diode, like a 1N4001, in series with it. This reduces the voltage by about 30 percent.
This accessory is designed to operate on 12V. If your accessory voltage is greater than that, it can overheat. You can also consider using an 18V bulb that will burn dimmer and also generate less heat.
It shouldn't overheat if it operates only intermittently, that is, when the train passes. You don't have it wired to operate all the time, do you?
Hello again how can I prevent an ORIGINAL LIONEL #151 AUTOMATIC SEMAPHORE
from being overheated? Its wired on lionel fastrack.
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