Differences
This shows you the differences between two versions of the page.
| Both sides previous revision Previous revision Next revision | Previous revision Last revision Both sides next revision | ||
|
en:sw:01-mervis:07-certification [2020/01/07 09:35] jan_kozak [Room temperature and lighting control] |
en:sw:01-mervis:07-certification [2022/01/12 10:09] avsetula |
||
|---|---|---|---|
| Line 1: | Line 1: | ||
| ====== Mervis certification ====== | ====== Mervis certification ====== | ||
| - | Certification programme is intended for those interested in [[https://www.unipi.technology/become-partner|UniPi partnership programme]]. The certification is contingent upon completing a certification task in the form of a practical automation solution using the UniPi certification kit. | + | Certification programme is intended for those interested in [[https://www.unipi.technology/become-partner|Unipi partnership programme]]. The certification is contingent upon completing a certification task in the form of a practical automation solution using the Unipi certification kit. |
| <WRAP center round info 60%> | <WRAP center round info 60%> | ||
| Line 8: | Line 8: | ||
| ===== Room temperature and lighting control ===== | ===== Room temperature and lighting control ===== | ||
| - | Your task is to create a system for controlling heating and lighting in a single room. All required components are contained in the certification kit. Start with building the kit, using {{ :cs:sw:01-mervis:schema.pdf |this connection scheme}} as a guide. | + | Your task is to create a system for controlling heating and lighting in a single room. All required components are contained in the certification kit. Start with building the kit, using {{ :en:sw:01-mervis:schema_s103_xs11_.pdf |this connection scheme}} as a guide. |
| - | Room heating control consists of: | + | <html><span class="kbBlueText">Assembly of the certification kit:</span></html> |
| - | * controlling a heater using RE2 relay | + | * Fasten DIN rail holders to both the Patron S107 unit and the xS11 extension module using the provided screws |
| - | * temperature measurement using the PT1000 resistance thermometer | + | * Mount the units, terminals and relays to the DIN rail according to {{ :en:sw:01-mervis:schema_s103_xs11_.pdf |this scheme}} |
| - | * using a programmable week scheduler for setting the required temperature | + | * Interconnect blue terminals with the 2-way jumper |
| - | * an option to manually adjust the temperature by +-3°C using the potentiometer | + | * Interconnect red and grey terminals with the 3-way jumper |
| - | * displaying a current and adjusted required temperature through a web HMI | + | * Insert the resistance housing into the grey terminal |
| - | * displaying a current heater status through a web HMI | + | * Connect all cables and conductors according to {{ :en:sw:01-mervis:schema_s103_xs11_.pdf |the scheme}} |
| + | * Before connecting the power source, check the correct voltage polarity | ||
| - | Lighting control consists of: | + | <html><span class="kbBlueText">Room heating control consists of: </span></html> |
| - | * control of a single lighting circuit through a relay (RE1) | + | * Controlling a heater using relay (RE2) |
| - | * physical lighting control using the red button | + | * Temperature measurement using the PT1000 resistance thermometer |
| - | * lighting control using a web HMI | + | * Using a programmable week scheduler for setting the required temperature |
| - | + | * An option to manually adjust the temperature by +-3°C using the potentiometer | |
| - | Recommended methods | + | * Displaying a current and adjusted required temperature through a web HMI |
| - | * implement the hysteresis control ("On-Off Control - Heating (B31)" block) | + | * Displaying a current heater status through a web HMI |
| - | * use "Real Scheduler (T18)" block for creating the timetable | + | |
| - | * transform the potentiometer output value to 3-/+3 using a linear transformation | + | |
| - | * connect the lighting control button to the relay using the Direct Switch Toggle function | + | |
| - | * for simultaneous control of the Direct Switch output, use the library provided | + | |
| - | * encapsulate the whole solution into a single function block for better convenience | + | |
| - | Assembly of the certification kit | + | <html><span class="kbBlueText">Lighting control consists of: </span></html> |
| - | * fasten DIN rail holders to both the Axon S105 controller and the xS10 extension module using the provided screws | + | * Control of a single lighting circuit through a relay (RE1) |
| - | * mount the controllers, terminals and relays to the DIN rail according to {{ :cs:sw:01-mervis:schema.pdf |this scheme}} | + | * Physical lighting control using the red button |
| - | * interconnect blue terminals with the 2-way jumper | + | * Lighting control using a web HMI |
| - | * interconnect red and grey terminals with the 3-way jumper | + | |
| - | * insert the resistance housing into the grey terminal | + | <html><span class="kbBlueText">Recommended methods:</span></html> |
| - | * connect all cables and conductors according to {{ :cs:sw:01-mervis:schema.pdf |the scheme}} | + | * Implement the hysteresis control ("On-Off Control - Heating (B31)" block) |
| - | * prior to connecting the power source, check the correct voltage polarity | + | * Use "Real Scheduler (T18)" block for creating the timetable |
| + | * Transform the potentiometer output value to 3-/+3 using a linear transformation | ||
| + | * Connect the lighting control button to the relay using the Direct Switch Toggle function | ||
| + | * For simultaneous control of the Direct Switch output, use the Force Output register | ||
| + | * Encapsulate the whole solution into a single function block for better convenience | ||
