Most Popular Articles
Field Report: FM Services TLM-1
It was inevitable, with the changes in technology over the past years, that items started shifting to a microprocessor-based design. From studio automation systems to remote control units and transmitters, those pesky, rectangular ICs with all the leads cropped up everywhere. I could hardly believe my eyes when I saw an ad for the FM Services TLM-1, a microprocessor-controlled tower light monitor. What really caught my attention was the claim that multiple beacons and sidelights could be monitored by sensing one wire. Over the years I have used other types that required each beacon level and each sidelight level to be monitored by a separate wire going up the tower to that level; a condition that didn't always exist either by design or tower wiring changes over the years. I have built several of my own basic design tower light monitors using a toroid core to sense the current and then rectify and smooth the flash transitions for a remote control to sense. However, the idea of being able to monitor the whole tower with a single current sense was intriguing.
|Performance at a glance|
Senses current on power supply lines
Multiple alarm outputs
Opto-isolater alarm and status outputs
Remote alarm reset
Single-phase or three-phase monitoring
With the TLM-1, installation is very easy and straightforward if your system uses single-phase power and either 120V or 240V supply. With a 120V feed system, the hot wire from the breaker panel is fed through the current-sense transformer so the total current — beacon and sidelights — is sampled by the TLM-1. In the case of a 240V feed, where two hot wires are used to feed the tower light system, both are fed through the current sense transformer, but one lead is inserted in a reverse direction so the currents, which are 180 degrees out of phase, will be additive through the current transformer. Sampling of a tower light system fed by three-phase power will require three of the TLM-1 units. Single-phase power was used in both locations where this unit was tested.
Once the electrical feed to the tower light system is fed through the current sense transformer, with the lights all operational in a normal mode, the unit is calibrated by pressing a button. This tells it what normal current flow is for beacons, sidelights, and even if you have a steady burning bulb in the tower light circuit. This is a handy feature if you leave a light on constantly for humidity control. It is now ready to provide status alarms for changes it senses as abnormal operation.
The TLM-1's status outputs indicate problems:
If the status of the lights does not change in 20 hours, it is assumed there may be a problem with the photocell circuit. Instances where the tower lights are on 24 hours each day, this function can be disabled by a dip switch.
If beacon current is constantly on or off, or if the flash rate and duration are not according to FAA specs, then this status will alarm. Note: the beacon on vs. off time is monitored for FAA specifications.
Activated if a beacon bulb fails or flasher is in constant off state.
Activates with a failure of any sidelight bulb.
Any of the four above alarm conditions causes a summary alarm. This alarm may be reset locally or remotely and the unit is ready to monitor for an additional lamp or condition to fail.
Acceptable Use Policy blog comments powered by Disqus
[an error occurred while processing this directive]
Today in Radio History
The history of radio broadcasting extends beyond the work of a few famous inventors.
EAS Information More on EAS
The feed provides feeds for all US states and territories.
Need a calendar for your computer desktop? Use one of ours.
Information from manufacturers and associations about industry news, products, technology and business announcements.
Browse Back Issues[an error occurred while processing this directive]
Also in the January Issue
- Trends in Technology: AES-X210, The "Missing Piece" of AES67?
- FCC Proposes Online Publc File Rules for Radio
- RF Engineering: Licensing AM Stations Using Method of Moments
- Field Report: Zoom H6