jschwindler
Vendor
Greetings all,
I am a Fire Alarm contractor in Florida and have run into a situation that I hope someone with expertise in telephony can weigh in on. I have a large customer with over 240 separate fire alarm systems currently being remotely monitored via POTS lines (2 lines for each panel). The end user is attempting to save costs by moving to a Centrex system, and has requested that we come out to reprogram all of the panels to dial a "9". This was approved by the local AHJ as code compliant (based on the PBX being virtual and not located at the protected facility), with verification that the new Centrex lines being provided are still analog lines.
We have converted about a third of the systems, and are seeing a substantial increase in "Did not Test" signals, and phone line troubles. My suspicion is that the Centrex system is actually utilizing a digital line with an analog converter.
The following is a copy of an explanation I previously provided to a customer with guidance from a Fire Alarm System Engineer with Silent Knight (fire alarm manufacturer). I am not sure it applies until we get absolute confirmation from AT&T that this is not the case in our scenario:
Below is a brief synopsis of the issues we are currently seeing with (other) customers that are switching from a POTS (Plain Old Telephone Service) phone lines provided by a PSTN (Public Switched Telephone Network), to a digital phone line converted to analog over a cable/fiber network.
As a technology, analog is the process of taking an audio or video signal (in most cases, the human voice) and translating it into electronic pulses. Digital on the other hand is breaking the signal into a binary format where the audio or video data is represented by a series of "1"s and "0"s called packets. These packets are then numbered, packaged, and sent over the network to a remote machine that receives the packets. Since the Internet routes packets one at a time, some of these packets may be delayed for various amounts of time or even lost in transmission. The remote/local machines are tasked with the job of taking these packets, sorting them, and re-creating the original voice or tone. They do this by assembling the packets as they come in, and waiting some predetermined amount of time to play back the packets. Any packets that come in AFTER they should have been worked into the voice/tone stream are discarded (thrown away), because they are useless - the need for them has already passed by. Any packets that never make it at all are called "Lost" packets. This is one area in which we are having trouble. When we experience connectivity issues such as; lag time due to high internet traffic, or local Ethernet traffic, these lost packets being transmitted to the central station receiver are being ignored. If the central station receiver receives incomplete signals, they are discarded. The signal that was just “discarded”, may have been the smoke detector alarm that the panel was trying to send to the receiver delaying or prohibiting the fire department from being dispatched at all. This result is obviously not optimal for a life safety system.
Sorry for the long post, but I am hoping that I can get some opinions on the subject so I can take the appropriate corrective action.
I am a Fire Alarm contractor in Florida and have run into a situation that I hope someone with expertise in telephony can weigh in on. I have a large customer with over 240 separate fire alarm systems currently being remotely monitored via POTS lines (2 lines for each panel). The end user is attempting to save costs by moving to a Centrex system, and has requested that we come out to reprogram all of the panels to dial a "9". This was approved by the local AHJ as code compliant (based on the PBX being virtual and not located at the protected facility), with verification that the new Centrex lines being provided are still analog lines.
We have converted about a third of the systems, and are seeing a substantial increase in "Did not Test" signals, and phone line troubles. My suspicion is that the Centrex system is actually utilizing a digital line with an analog converter.
The following is a copy of an explanation I previously provided to a customer with guidance from a Fire Alarm System Engineer with Silent Knight (fire alarm manufacturer). I am not sure it applies until we get absolute confirmation from AT&T that this is not the case in our scenario:
Below is a brief synopsis of the issues we are currently seeing with (other) customers that are switching from a POTS (Plain Old Telephone Service) phone lines provided by a PSTN (Public Switched Telephone Network), to a digital phone line converted to analog over a cable/fiber network.
As a technology, analog is the process of taking an audio or video signal (in most cases, the human voice) and translating it into electronic pulses. Digital on the other hand is breaking the signal into a binary format where the audio or video data is represented by a series of "1"s and "0"s called packets. These packets are then numbered, packaged, and sent over the network to a remote machine that receives the packets. Since the Internet routes packets one at a time, some of these packets may be delayed for various amounts of time or even lost in transmission. The remote/local machines are tasked with the job of taking these packets, sorting them, and re-creating the original voice or tone. They do this by assembling the packets as they come in, and waiting some predetermined amount of time to play back the packets. Any packets that come in AFTER they should have been worked into the voice/tone stream are discarded (thrown away), because they are useless - the need for them has already passed by. Any packets that never make it at all are called "Lost" packets. This is one area in which we are having trouble. When we experience connectivity issues such as; lag time due to high internet traffic, or local Ethernet traffic, these lost packets being transmitted to the central station receiver are being ignored. If the central station receiver receives incomplete signals, they are discarded. The signal that was just “discarded”, may have been the smoke detector alarm that the panel was trying to send to the receiver delaying or prohibiting the fire department from being dispatched at all. This result is obviously not optimal for a life safety system.
Sorry for the long post, but I am hoping that I can get some opinions on the subject so I can take the appropriate corrective action.
