Manual:System/Health: Difference between revisions

From MikroTik Wiki
Jump to navigation Jump to search
No edit summary
 
(7 intermediate revisions by 2 users not shown)
Line 1: Line 1:
{{Warning|This manual is moved to https://help.mikrotik.com/docs/display/ROS/Health}}
==Summary==
==Summary==
Hardware that supports monitoring will display different information about hardware status, like temperature, voltage.
Hardware that supports monitoring will display different information about hardware status, like temperature, voltage, current, fan-speed, etc.  
 
Example on CCR1072-1G-8S+ device:
 
<pre>
          cpu-overtemp-check: yes
      cpu-overtemp-threshold: 100C
  cpu-overtemp-startup-delay: 1m
            cpu-temperature: 46C
          power-consumption: 62.9W
          board-temperature1: 31C
          board-temperature2: 34C
                psu1-voltage: 12.1V
                psu2-voltage: 0V
                psu1-current: 5.2A
                psu2-current: 0A
                  fan1-speed: 6375RPM
                  fan2-speed: 6436RPM
                  fan3-speed: 6375RPM
                  fan4-speed: 6467RPM
 
</pre>
 
{{warning | For feature availability on RouterBOARD products check [https://mikrotik.com/products mikrotik.com] }}


{{warning | For feature availablity on RouterBOARD products check [http://routerboard.com routerboard.com] }}


==Voltage==
==Voltage==
Line 8: Line 31:
Routers that support voltage monitoring will display supplied voltage value. In CLI/Winbox it will display volts. In scripts/API/SNMP this will be dV or value showed in CLI/Winbox multiplied by 10
Routers that support voltage monitoring will display supplied voltage value. In CLI/Winbox it will display volts. In scripts/API/SNMP this will be dV or value showed in CLI/Winbox multiplied by 10


{{Note | Routers that have PEXT and PoE power input are calibrated using PEXT, as result value showed over PoE can be lower than input voltage due to additional ethernet protection chains.}}
{{Note | Routers that have PEXT and PoE power input are calibrated using PEXT, as a result, value showed over PoE can be lower than input voltage due to additional ethernet protection chains.}}
{{Note | If old revision CRS112, CRS210 and CRS109 devices are powered with PoE - Health will show correct voltage only up to 26.7V. If higher voltage will be used - Health will show constant 16V.}}


==Temperature==
==Temperature==


Routers that support temperature monitoring will display temperature reading. In CLI/Winbox it will display degrees Celsius. In scripts/API/SNMP this will be value showed in CLI/Winbox multiplied by 10
Routers that support temperature monitoring will display temperature reading. In CLI/Winbox it will display degrees Celsius. Using scripts/API/SNMP this value will be shown in CLI/Winbox multiplied by 10. There are various temperature sensors depending on the device. These sensors may refer to: cpu-temperature, pcb-temperature, sfp-temperature.
Device tested ambient temperature range you can find in specification description at [https://mikrotik.com/products mikrotik.com]. Tested ambient temperature range is temperature in which device can be physically located. It is '''not''' the same as temperature which reports system health monitor!
 
==Fan control and behaviour==
<pre>/system health set</pre>
Using this menu users will be able to control fan behaviour on TILE architecture [https://mikrotik.com/download devices].
Currently, for other RouterBOARD devices, there is '''no''' option to manually control FAN behaviour.
{{ Note | Improved FAN stability starting from version 6.45.5.}}
 
There are three parameters that may affect fan behaviour: PoE-out consumption, SFP temperature and CPU temperature. As soon as one of the parameters exceeds the optimal value the, fans are started.
===PoE-out consumption===
If a device has PoE-out, then the fan RPM will change as described below:
 
{| class="wikitable"
|-
! PoE-out load !! RPM % of max FAN speed ('''DC''' fans)
|-
| 0%..24%    || FAN speed 0%
|-
| 25%..46%    || FAN speed 25%
|-
| 47%..70%    || FAN speed 50%
|-
| 71%..92%    || FAN speed 75%
|-
| 93%..      || FAN speed 100%
 
|}
 
For devices with '''PWM''' fans, the speed will linearly increase or decrease from 9..88% (note: below 100W the fan RPM=0)
 
===CPU and SFP temperature===
 
If CPU or SFP temperatures exceed 58C, the fans will start to spin. The higher the temperature, the faster the fans will spin. For devices with PWM fans, as the CPU or SFP temperatures exceed 58C, the fans will linearly increase their RPM to try to keep the temperature at 58C if possible. For devices with DC fans, as the CPU or SFP temperatures exceed 58C, the fans will start spinning but at a higher minimum RPM by default. This may result in cooling the device to the point where the fans turn-off completely. After which the temperature may slowly increase to 58C and the fans will turn on again.
Currently, there is one exception. The S+RJ10 modules have a temperature threshold of 65C before they trigger the fans. Since it's a higher temperature threshold, the fans will start spinning at a higher initial speed to cool the device.


==Fan control==
{{ Note | All readings are approximate and may not be 100% precise. Their purpose is to ~inform users about possible/upcoming failures. }}


Using this menu users will be able to control fan behaviour on the router.
{{Warning|for ''auto'' mode to work you have to use fans that support monitoring (it will have 3 wires) If you have fan with only 2 wires (V+,GND) then you have to set fan-mode to manual. If control pulse cannot be detected, then router will switch between main and auxiliary fan and stop only when it detects fan with control}}


[[Category: Manual|Health]]
[[Category: Manual|Health]]
[[Category: System|Health]]

Latest revision as of 09:36, 22 December 2021

Warning: This manual is moved to https://help.mikrotik.com/docs/display/ROS/Health


Summary

Hardware that supports monitoring will display different information about hardware status, like temperature, voltage, current, fan-speed, etc.

Example on CCR1072-1G-8S+ device:

          cpu-overtemp-check: yes
      cpu-overtemp-threshold: 100C
  cpu-overtemp-startup-delay: 1m
             cpu-temperature: 46C
           power-consumption: 62.9W
          board-temperature1: 31C
          board-temperature2: 34C
                psu1-voltage: 12.1V
                psu2-voltage: 0V
                psu1-current: 5.2A
                psu2-current: 0A
                  fan1-speed: 6375RPM
                  fan2-speed: 6436RPM
                  fan3-speed: 6375RPM
                  fan4-speed: 6467RPM

Warning: For feature availability on RouterBOARD products check mikrotik.com



Voltage

Routers that support voltage monitoring will display supplied voltage value. In CLI/Winbox it will display volts. In scripts/API/SNMP this will be dV or value showed in CLI/Winbox multiplied by 10

Note: Routers that have PEXT and PoE power input are calibrated using PEXT, as a result, value showed over PoE can be lower than input voltage due to additional ethernet protection chains.


Note: If old revision CRS112, CRS210 and CRS109 devices are powered with PoE - Health will show correct voltage only up to 26.7V. If higher voltage will be used - Health will show constant 16V.


Temperature

Routers that support temperature monitoring will display temperature reading. In CLI/Winbox it will display degrees Celsius. Using scripts/API/SNMP this value will be shown in CLI/Winbox multiplied by 10. There are various temperature sensors depending on the device. These sensors may refer to: cpu-temperature, pcb-temperature, sfp-temperature. Device tested ambient temperature range you can find in specification description at mikrotik.com. Tested ambient temperature range is temperature in which device can be physically located. It is not the same as temperature which reports system health monitor!

Fan control and behaviour

/system health set

Using this menu users will be able to control fan behaviour on TILE architecture devices. Currently, for other RouterBOARD devices, there is no option to manually control FAN behaviour.

Note: Improved FAN stability starting from version 6.45.5.


There are three parameters that may affect fan behaviour: PoE-out consumption, SFP temperature and CPU temperature. As soon as one of the parameters exceeds the optimal value the, fans are started.

PoE-out consumption

If a device has PoE-out, then the fan RPM will change as described below:

PoE-out load RPM % of max FAN speed (DC fans)
0%..24% FAN speed 0%
25%..46% FAN speed 25%
47%..70% FAN speed 50%
71%..92% FAN speed 75%
93%.. FAN speed 100%

For devices with PWM fans, the speed will linearly increase or decrease from 9..88% (note: below 100W the fan RPM=0)

CPU and SFP temperature

If CPU or SFP temperatures exceed 58C, the fans will start to spin. The higher the temperature, the faster the fans will spin. For devices with PWM fans, as the CPU or SFP temperatures exceed 58C, the fans will linearly increase their RPM to try to keep the temperature at 58C if possible. For devices with DC fans, as the CPU or SFP temperatures exceed 58C, the fans will start spinning but at a higher minimum RPM by default. This may result in cooling the device to the point where the fans turn-off completely. After which the temperature may slowly increase to 58C and the fans will turn on again. Currently, there is one exception. The S+RJ10 modules have a temperature threshold of 65C before they trigger the fans. Since it's a higher temperature threshold, the fans will start spinning at a higher initial speed to cool the device.

Note: All readings are approximate and may not be 100% precise. Their purpose is to ~inform users about possible/upcoming failures.