This feature does exist with Notifire or Kentek if my memory still intact, not like Morley or advanced they do not see devices which are connected in the loop but not learned yet...
If you programme a new detector with an address that is not already used on the system, then it depends if the particular panel operating system looks for all addresses or only those addresses that it has been told should be connected. Looking for addresses that shouldn't be there wastes vital time if carried out on every loop scan, so many panels normally interogate only those addresses it is expecting (programmed) to see on most loop scans and then every so often interogates every possible address and if it then sees one it wasn't expecting (programmed) to see, it will fault as something like 'additional device detected'
How long is that waste of vital time? if it's hours that would make sense but if it's just few mili seconds that would still beneficial I think!
The other issue is it because of that waste of that vital times the BS5839 did not sets this issue as an obligation for panel manufacturers to look even for none logged on devices?
I need to know the position of BS too
Thank you
If scanning for 'unused addresses' was an obligation in BS/EN then all control panel manufacturers would do so as a matter of course. Otherwise they couldn't say that their panels complied with the standards. It is obviously not required in the standards.
Even wasted milliseconds are critical in addressable systems.
The scanning process invariably includes re-checking some information received back a number of times to ensure it is not being corrupted by outside interference. This increases the loop 'scan' time.
If you can't understand why milliseconds must be critical, have you never noticed how it can sometimes take some seconds for the 'operated' LED on a MCP using XP95 protocol to illuminate after the glass is broken? Because the control panel is trying to deal with other 'time-critical' processes, it doesn't prioritise this as an urgent function. However, BS asks for the alarm warning devices to operate within a specific time limit after the actual operation of a MCP, and actioning this process is more important than turning on the LED.
I'm sure that improvements in microprocessor speeds will eventually lead to the ability to check all addresses on all loops, re-check information received a number of times, and operate all other functions, in a blink of an eye. It may also lead to protocols allowing more than approx. 126 devices on one circuit to become more common.
Speak to panel manufacturers about this and you will realise how critical 'wasted' time in scanning 'unused' addresses can be for them.
