Related Manuals for Technische Alternative RSM610-MB
Summary of Contents for Technische Alternative RSM610-MB
- Page 1 RSM610-MB Control module Software version 1.16 Installation instructions User manual Manual Version 1.03.1 English...
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Page 3: Table Of Contents
Terminal diagram for analogue outputs (0-10 V/PWM) and M-Bus..........19 M-Bus ............................. 19 Connection auxiliary relay HIREL-230V .................... 20 HIREL-230V wiring diagram ......................20 Technical data RSM610-MB ......................21 Tips on troubleshooting ........................ 22 Troubleshooting in the CAN network..................... 24 Information on the Eco-design Directive 2009/125/EC ..............24 User manual .......................... -
Page 4: Safety Requirements
Installation instructions Safety requirements These instructions are intended exclusively for authorised contractors. All installation and wiring work on the controller must only be carried out in a zero volt state. The opening, connection and commissioning of the device may only be carried out by competent personnel. -
Page 5: Installing The Device
Installation instructions Installing the device CAUTION: Always pull the mains plug before opening the enclosure! Only work inside the module when the power supply is at zero volt. Opening the module Unscrew the screws on the front and lift the cover. The electronics are located in the cover. -
Page 6: Dimensioned Drawing Of Enclosure
Installation instructions Dimensioned drawing of enclosure Release for top-hat rail mounting (TS35 support rail) -
Page 7: Sensor Installation
Installation instructions Sensor installation Correct arrangement and installation of the sensors is extremely important for correct functioning of the system. To this end, also ensure that they are completely inserted in their sensor wells. The cable fittings provided serve as strain relief. When used outdoors, no water must be allowed to penetrate the sensor wells (risk of frost). -
Page 8: Electrical Connection
Installation instructions DHW sensor: A rapid reaction to changes in the water volume is extremely important when using the controller in systems that generate domestic hot water by means of an external heat exchanger and variable speed pump (freshwater module). Therefore fit the DHW sensor directly on the heat exchanger outlet. -
Page 9: Terminal Diagram
Installation instructions Terminal diagram View of the lower enclosure section with terminals: CAN BUS Mains Earth conductor PE CAUTION Sensor earth This connection cable Net: requires further fittings. L..Phase conductor N..Neutral conductor PE..Earth conductor Outputs: C..Root C (A6) A1 –... -
Page 10: Sensor Leads
Installation instructions Sensor leads Sensor terminal diagram CAUTION This connection cable requires further fittings. Sensors are always connected across the relevant sensor terminal (S1 – S6) and sensor earth (GND). There is an earth strip in the base. A connection to the GND terminal must be laid using this strip before the sensors are connected. -
Page 11: Data Cable For Dl Bus
Installation instructions Data cable for DL BUS The DL BUS consists of just 2 wires: DL and GND (sensor earth). The DL BUS itself supplies the necessary power for the DL BUS sensors. Cables can be routed with a star topology but also in serial formation (from one device to the next). Any cable with a cross-section of 0.75 mm²... -
Page 12: Can Bus Network
Installation instructions CAN BUS network Terminal diagram, CAN BUS cable Guidelines for the topology of a CAN network Technical principles The CAN BUS comprises the cables CAN-High, CAN-Low, GND and one +12 V supply cable for BUS components without their own power supply. The combined total load of all devices with 12 V and 24 V supply must not exceed 6 W. -
Page 13: Lightning Protection
In order to protect the individual components of a CAN network against indirect lightning strike, we recommend the use of surge arresters specifically developed for BUS systems. Examples: CAN bus surge arresters CAN-UES from Technische Alternative Gas discharge arrester for indirect earthing EPCOS N81-A90X Examples of different network versions Key to symbols: …... - Page 14 Installation instructions Network (across several buildings) without CAN bus converter CAN-BC2: Optiona Optiona Indirect earthing Optional Indirect earthing Max. cable length: 1000 m at 50 kbit/s The screen must be continued at every network node and earthed at a single point, as close to the cable centre as possible.
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Page 15: Cable Selection And Network Topology
Installation instructions Cable selection and network topology Screened twisted pairs have proven useful in CANopen networks. These are cables with twisted pairs of conductors and a shared external screen. Such cables are relatively resistant to EMC interference and can still carry 50 kbit/s for up to 1000 m. The CANopen recommendations (CiA DR 303-1) for cable cross-sections are given in the table below. - Page 16 Installation instructions Wiring A CAN BUS network should never have a star topology. Rather, the correct topology is a line from the first device (with terminator) to the second, third and so forth. The last bus device has the termination jumper again.
- Page 17 Changing to cable types with different characteristic impedances is only permitted via signal separation through a CAN bus converter. However, such networks do not comply with the recommended specification. Technische Alternative RT GmbH therefore cannot guarantee trouble-free operation if one of the three options listed above is...
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Page 18: Outputs
Installation instructions Outputs Terminal diagram, switching outputs A6 = potential-free output The neutral conductor is looped inside the module. Mains Earth conductor terminal For maximum current load of the outputs, see the technical data. Potential-free connection of output 6 By unplugging jumper J, output A6 can be rendered potential-free. View of module back: With jumper J plugged in, output 6 is not potential-free. -
Page 19: Terminal Diagram For Analogue Outputs (0-10 V/Pwm) And M-Bus
Installation instructions Terminal diagram for analogue outputs (0-10 V/PWM) and M-Bus Outputs A7, A8 and A10 are the analogue outputs (0-10 V/PWM). The connections A7, A8 and A10 are the positive pole; the GND connection is the negative pole. When programmed as the "switching output", up to 2 HIREL-230V or HIREL-PF auxiliary relays can be connected. -
Page 20: Connection Auxiliary Relay Hirel-230V
Installation instructions Connection auxiliary relay HIREL-230V Example: Connection HIREL16x2 for analogue outputs A8 and A10. Program outputs A8 and A10 as switching outputs. The auxiliary relay cannot be integrated in the module; it requires its own enclosure. Fuse 6,3A fast HIREL-230V Mains Mains... -
Page 21: Technical Data Rsm610-Mb
Installation instructions Technical data RSM610-MB All inputs Temperature sensors type PT1000, KTY (2 kΩ/25 °C), KTY (1 kΩ/25 °C), PT100, PT500, Ni1000, Ni1000TK5000 and room sensors RAS or RASPT, radiation sensor GBS01, thermocouple THEL, humidity sensor RFS, rain sensor RES01, pulses max. 10 Hz (e.g. for VSG flow rate transducer), voltage up to 3.3 V DC, resistance (1-100 kΩ), and as... -
Page 22: Tips On Troubleshooting
Troubleshooting Tips on troubleshooting No display points to a power failure. Therefore, initially check the fuse (6.3 A, (fast)) that protects the device and the outputs (pumps, valves, etc.) from short circuits and from voltage surges in connection with the integrated surge protection. The glass tube fuse is located on the back of the module. - Page 23 If the sensor is faulty, note the sensor type when replacing. While it is possible to use a different type of sensor, the parameters for that input also have to be set to suit the type of sensor used. The current standard type used by Technische Alternative is PT1000. KTY (2 kΩ) was the standard type until 2010/2011.
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Page 24: Troubleshooting In The Can Network
Troubleshooting Troubleshooting in the CAN network To isolate the error we recommend shutting down part of the network and monitoring when the error disappears. General tests: Node numbers – no node number must be assigned twice Power supply to BUS subscribers (if necessary use the CAN-NT power supply unit) ... - Page 25 Technische Alternative RT GmbH Address: A- 3872 Amaliendorf, Langestraße 124 This declaration of conformity is issued under the sole responsibility of the manufacturer. Product name: RSM610, RSM610-24, RSM610-MB, RSM610-MB24 Product brand: Technische Alternative RT GmbH Product description: Control module The object of the declaration described above is in conformity with Directives:...
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Page 26: User Manual
Operation User manual This brief guide is aimed at the final user of the module. For information about programming or installing the controller, separate instruction manuals are available on our homepage (www.ta.co.at) and on the controller's SD card. The RSM610 control module can be used as a separate controller or as an add-on module for the freely programmable UVR16x2 controller. -
Page 27: Operation Via Uvr16X2 Or Can-Mtx2
Operation Operation via UVR16x2 or CAN-MTx2 User levels To prevent incorrect operation of the controller, three different user groups can log onto the controller: User, Technician or Expert. Access by Technicians and Experts requires a password. The controller is always in User mode when the controller is started or when new function data has been loaded. -
Page 28: Information Displayed On The Controller
Operation The devices are operated via a 4.3" touchscreen. For greater ease of use, an operating pen is provided View of CAN-MTx2 View of UVR16x2 with cover open Stylus You can use the pen to tap operating fields on the screen and can scroll the view displayed by sliding it with the pen. -
Page 29: Main Menu Display
Operation Main menu display In the main menu you can view settings and display values in various sub-menus and can also change certain statuses that have been enabled for you. Tap the "Home icon" to go to the Function overview. The function overview is the most important menu for the user. -
Page 30: Function Overview Display
Operation Function overview display The function overview can be programmed as standard view or full screen view. Standard view Examples Start page with 4 links From the start page (= first page), tapping takes you to the controller's main menu. If only technicians or experts are permitted to access the menu, then the relevant password must be entered. - Page 31 Operation You can go back to the page displayed previously by tapping To go to the start page of the function overview, tap From the start page, tapping takes you to the controller's main menu. If only technicians or experts are permitted to access the menu, then the relevant password must be entered. If you press the background image for 3 seconds, 2 buttons appear which serve to access the version information and the general settings respectively.
- Page 32 Operation Full screen view In the full screen view, the upper status bar and the side buttons are hidden. Examples Start page with 4 links Page with graphic elements and links to time switch, calendar and settings:...
- Page 33 Operation If you press the background image for 3 seconds, 4 buttons appear which enable access to the version information of the controller, the general settings or the date, time and location settings, and the main menu of the controller. This button takes you to the main menu of the controller.
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Page 34: Status Line
Operation Status line The top part of the display shows the output status, messages, faults, date and time. Output status Active outputs are highlighted against a green background. In the following example, outputs 1, 3 and 6 are active. Output 5 has been deactivated manually (Manual/OFF) and output 6 has been activated manually (Manual/ON). - Page 35 The values for geographical latitude and longitude are used to determine the location-specific solar data. That data can be used in functions (e.g. shading function). The factory default settings for the GPS data are for the location of Technische Alternative in Amaliendorf, Austria.
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Page 36: Function Overview
Function overview, general Function overview If you are in the main menu, tapping the "Home" button opens the function overview. The function overview can be freely designed by the programmer and can therefore look different on every controller. It can be displayed with the aid of graphics or simply as a table. Values selected by the programmer can be changed either by all users, by Experts only or by Experts and Technicians. -
Page 37: Changing Values
Function overview, general Changing values Tapping the required value opens either a keypad or a selection box. Values can only be changed if they have been enabled for the user level by the programmer. Example: Changing the set room temperature "T.room standard" via a keypad: The keypad then appears: The current value is shown (example: 20.0 °C). - Page 38 Function overview, general Example: Changing the operating mode of the heating circuit with a selection box ("RAS" means that the operating mode is set by the room sensor's slide switch): A selection box appears with all possible settings: When you tap the required setting, it is changed and the required setting is displayed in the function overview.
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Page 39: The Most Important Functions
Heating circuit function The most important functions The most important functions for the user are: • • Heating circuit Individual room control • • Time switch DHW demand • • Calendar Solar control Various setting parameters for these functions are described in the following: Heating circuit In the heating circuit function, the set flow temperature is determined for the heating circuit and the heating circuit pump is switched off or on according to adjustable shutdown conditions. - Page 40 Heating circuit function Settings for the heating circuit operation with an additional link to the heat curve parameters: You can change the internal operating mode of the function by changing the Operation setting. RAS indicates that the setting of the room sensor is applied. If there is no room sensor installed, the setting Time/auto applies the time switch's time program to the heating circuit.
- Page 41 Heating circuit function Settings for the heat curve: Room influence: If a room sensor is installed, you can use this setting to define how much influence the actual room temperature should have on the calculation of the set flow temperature. Values higher than 50 % will have a very great influence and will be unfavourable in most cases.
- Page 42 Time switch Time switch The Time switch function is used to define the changeover between T.room standard and T.room setback in the heating circuit. The function can be programmed for a single heating circuit only, or jointly for several heating circuits. The "Time switch" can also be used to switch other functions or statuses.
- Page 43 Calendar Calendar The calendar function overwrites the internal settings and specifications of the time switch for the heating circuit. The following calendar modes can be set: • Holiday • Party • Bank holiday • Standby There are up to 10 date windows available in which each mode can be set. Up to 3 set values can be set in each mode, one of which can be applied in the heating circuit as the set room temperature.
- Page 44 Individual room control Individual room control This function is specially designed for the control of zone valves for heating and/or cooling of individual rooms. Room temperature thresholds and the operating mode switch on the room sensor can be utilised to switch between heating and cooling. Shutdown conditions prevent heating or cooling beyond the outside temperature thresholds.
- Page 45 DHW demand DHW demand This function is used in many systems to define the domestic hot water cylinder temperature. The Demand is currently set to OFF, so the effective set temperature is only 5 °C. You can define the set temperatures via the Settings key (gearwheel): The DHW demand can be switched between two set temperatures via a time program from the Time switch function.
- Page 46 Solar control Solar control The solar control starts or stops a solar pump based on the differential between the collector temperature and a reference temperature (e.g. temperature at the bottom of a cylinder). Option: use of a limit sensor (e.g. temperature at the top of the cylinder). Start conditions for the solar pump: 1.
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Page 47: Messages
Messages Messages Sensor and bus errors Subject to programming, the "Messages" menu may also display faulty sensors and incorrect CAN and DL inputs. Faults of this kind are indicated by the right-hand warning symbol in the status line. Tapping the warning symbol takes you to the Messages menu. The incorrect inputs are displayed there. -
Page 48: Operation Via C.m.i
Operation via C.M.I. Operation via C.M.I. The C.M.I. can be accessed either via a PC / network, via the internet and the C.M.I. web portal (https://cmi.ta.co.at) or by port forwarding on the router. When you log in with an access code, the home page of the C.M.I. will appear. The operating status of the C.M.I. -
Page 49: Changing A Value
Operation via C.M.I. As with the function overview, the scheme may also comprise several pages. Example of a simple scheme with 2 heating circuits Changing a value For the user to be able to change a value, it must have been enabled by the programmer for the user. A value can be changed by clicking on it. - Page 52 2. The guarantee includes free repair (but not the cost of on-site fault finding, removal, refitting and shipping) due to operational and material defects which impair operation. In the event that a repair is not economical in the opinion of Technische Alternative for reasons of cost, the goods will be replaced.
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