Odyssey. issue 01c. system manual

dyssey issue 01c system manual

SYSTEM MANUAL Table of Contents Technical Specification 1 Summary of Features 2 General Description 3 Control ptions 4 Description of Main Features 5 Control Schemes 6 Installation 7 Commissioning 8 System Components 9 User Guide 10 User Information 11 Issue 1c

SYSTEM MANUAL Issue 1c

SYSTEM MANUAL 1 Technical Specification Enclosure: Supply: Display Grey ABS, Wall or Panel Fascia Mounted Dimensions: 247mm (w) 105mm (h) 28mm (d) Weight: 400g Controller Green, Mild Steel, DIN Rail Mounted Dimensions: 324mm (w) 112mm (h) 85mm (d) Weight: 2,254g 240V ac +10%/-15% @ 50Hz 20W Power Consumption Storage Temp: -65 C to 125 C perating Temp: 0 C to 70 C Inputs: utputs: Terminations: Interface: AIN1 AIN8, 8 Analogue inputs accepting dyssey or Industry Standard 2 wire resistive sensors. DIN1 DIN8, 8 Digital inputs using volt free contacts or pulsed output, volt free utility meters. RLY1- RLY8, 8 Single pole, changeover contacts rated at 8A, 240V ac resistive. AUT1 AUT2, 2 Analogue outputs, 0-10V dc into a maximum load of 1K hm. Screw terminal connectors accepting cable from 0.5-2.5mm for all inputs and outputs. 4 Directional Push Buttons Backlit LCD Screen Healthy and Alarm warning lamps RS232 Serial Communication Interface Modem Interface Issue 1c 1-1

SYSTEM MANUAL Issue 1c 1-2

SYSTEM MANUAL 2 Summary of Features Three level password entry Multiple fixed time start/stop channels Self learning optimum start, with maximum limits Weather compensation Economy off P+I temperature control Two stage frost protection Automatic BST/GMT time change Full year calendar Year 2000 date change compliant Day extensions Remote extensions Meter reading Data Logging Alarm reporting Remote communications Dynamic Colour Graphics Issue 1c 2-1

SYSTEM MANUAL Issue 1c 2-2

SYSTEM MANUAL 3 General Description dyssey is a compact, DIN rail mounted, energy management system for single or multiple site control. With the power of a full energy management system and the simplicity and cost of a conventional controller, dyssey is the perfect tool to control, monitor and conserve energy in small/medium sized buildings. dyssey also affords the opportunity to manage single or multiple sites from one central location. It s application is virtually unlimited for those seeking to make positive in-roads towards achieving sound energy management practices. A key feature of the dyssey energy management system is the inclusion of 12 plant control schemes, which cover most conventional control applications. Each scheme is pre-programmed with default set-point values and timetable settings. Virtually no commissioning of the dyssey is required; a test scheme even helps check out the wiring and plant operation. The dyssey can be either DIN rail mounted or, as an option, be supplied in it s own purpose built, wall mounted enclosure. When DIN rail mounted, panel design is simplified by accommodating connecting cables in the control panel trunking, eliminating the need for wiring to the control panel door. The dyssey keypad and display unit can be either mounted on the control panel door or situated in an office up to 1000 metres away. Alternatively, if the dyssey controller is supplied in an optional enclosure, the display can be mounted on the front of this unit, which comes complete with fixing holes and a cable entry hole. In all cases cable connection is via a 4-core cable. Ease of operation and installation is complimented by total flexibility of control. dyssey can be used stand-alone, connected to a site based PC via hard wiring, or remotely through an optional telephone modem. The click of a mouse allows the operator to interface with the dynamic graphics supplied at no extra cost, interrogate alarms, data logs, degree-days, meter readings, and control and monitor any item of plant. Information is displayed graphically and can be constantly updated and adjusted. Issue 1c 3-1

SYSTEM MANUAL Issue 1c 3-2

SYSTEM MANUAL 4 Control ptions Boiler Control dyssey has the facility to sequence, either from flow or return temperature, and control up to 2 boilers. If more than two boilers are required the dyssey can supply a boiler n/ff signal to control a stand-alone sequencer. Duty changeover of Lead/Lag Boiler will occur daily and if boiler fault signals (high limit/lockout) are wired into the dyssey the auto changeover feature will ensure that a faulty boiler is set to Lag. (Excluding schemes 9 & 12) The boilers may be directly compensated from outside air temperature with a minimum flow temperature setpoint to ensure that any HWS services are maintained. A Boiler Early ff timer, adjustable from 0 to 60 minutes, ensures that the residual heat is dissipated from the boilers when the plant shuts down. HWS Hot Water Services Many of the standard dyssey schemes have provision to control HWS with two outputs; 1 for time control and the other for temperature control. If the scheme has an HWS diverting valve, then this is controlled by the temperature control output with both the primary and secondary pumps controlled by the time control output. If the scheme has only primary and secondary pumps and no valve then the primary pump is controlled by the temperature control output and the secondary pump is controlled by the HWS Pump Control utput. Control for stand-alone HWS systems that are independent of the boilers is provided and can be selected with soft switches during commissioning. Separate time and time/temperature outputs are still available. Remote Push Button Extension Timers All of the standard dyssey schemes have provision for push button extension timers for each controlled zone, HWS and any fixed time Start/Stop outputs. Issue 1c 4-1

SYSTEM MANUAL Issue 1c 4-2

SYSTEM MANUAL 5 Description of Main Features Periods of the day 5-3 ptimum Start 5-3 Day Time Period 5-3 Economy ff 5-3 ptimum Stop 5-3 Night Time Period 5-3 Frost Protection 5-3 First Stage Frost Protection 5-3 Second Stage Frost Protection 5-3 Compensated Temperature Control 5-4 Alarm Inputs 5-4 Analogue utputs: 0-10V 5-4 Local Communication 5-5 Remote Communication 5-5 Remote Push Button Extension Timers for Heating & HWS 5-5 Timetables & Holidays 5-5 Dynamic Graphics 5-6 Issue 1c 5-1

SYSTEM MANUAL Issue 1c 5-2

SYSTEM MANUAL Periods of the Day The dyssey controller splits the day into 4 periods; ptimum Start, Day Time, ptimum Stop and Night Time. Comfort Temperature Frost Temperature Temperature Night Period ptimum Start Period Day Period pt Stop Period Night Period Start of ccupancy Time of Day ptimum Start dyssey will preheat the space temperature independently in each zone to achieve the desired setpoint by the start of occupancy. The optimum start algorithms are self-learning with maximum limits. Day Time Period The comfort temperature (pt Start Temp) will be maintained within this period. Economy ff If the utside temperature is within a number of degrees (set in the Heat Eco ff setting) of the zone comfort temperature (pt Start Temp) the output will switch off, provided that it has reached setpoint. The output will become active again if the outside temperature falls through a number of degrees set in the Eco ff Diff setting. ptimum Stop dyssey will start switching items of plant off as it approaches the end of occupancy time. It will do this as early as possible without compromising the comfort temperature. The optimum stop algorithms are self learning with maximum limits. Night Time Period This is the time of day where there is no occupancy. dyssey will give frost protection control during this period. Frost Protection dyssey offers both first and second stage frost protection. End of ccupancy First stage frost protection is invoked when the outside air temperature is below or equal to 1 C (adjustable during commissioning) and causes selected valves to open and pumps to run; thus circulating water and giving a degree of protection to peripheral pipe-work. Second stage frost protection is invoked when an individual zone temperature is equal to or below the zone frost protection setpoint (adjustable during commissioning) and causes the appropriate valves to open, pumps to run and the boilers to fire. Issue 1c 5-3

SYSTEM MANUAL Compensated Temperature Control dyssey adjusts the water flow temperature to compensate for variations in both outside and space/room temperature. utside Temp The outside influence setting adjusts the compensation slope by depressing the flow temperature by a number of degrees, set by the utside Slope setting, for every degree that the outside temperature exceeds the MD (Minimum utside Design) temperature. MD Temp Flow Temp Control Temp Room Temp The inside influence setting adjusts the compensation slope by depressing the flow temperature by a number of degrees, set by the Inside Slope setting, for every degree that the space/room temperature exceeds the reference temperature. Similarly, the flow temperature will be increased for every degree that the space/room temperature falls below the reference temperature. Reference Temp Flow Temp Control Temp Alarm Inputs Many of the standard dyssey schemes have provided for general-purpose digital alarm inputs as well as dedicated alarm inputs for boiler faults and pump trip signals. Analogue utputs: 0-10V Where possible both analogue 0 to 10 volt outputs and relay drive open/closed outputs have been provided for mixing valves and zone valves. Refer to the individual scheme diagrams for availability. Issue 1c 5-4

SYSTEM MANUAL Local Communication dyssey can be connected to a Personal Computer via a standard RS232 interface, using a suitable cable supplied by your stockist. This will allow the operator to use the advanced dynamic graphics, supplied at no extra cost with each dyssey. Remote Communication High speed, remote interrogation of the dyssey can be achieved by connecting it to a Hayes compatible modem. This can be supplied, complete with interface lead, by your stockist. Remote Push Button Extension Timers for Heating & HWS Remotely mounted, illuminated push buttons can be connected via a two core cable to the dyssey, allowing the time-tabled hours to be extended by 30 minutes or 1 hour, set at commissioning, for each button press. For example, one button press will cause the zone to be extended for an extra 30 minutes, two presses for an hour, etc, up to a maximum of four button presses. The button indicator lamp will flash to indicate the number of presses made. The extension timers will not start to time until the end of the programmed time-tabled period. Timetables and Holidays dyssey provides for independent timetables for each heating zone and HWS. Each timetable has two periods per day, giving 14 independent time periods per zone. The year schedule function allows automatic selection of summer, winter and holiday, that can be preprogrammed for up to a year in advance. During the summer period the heating zones are disabled, during holiday periods both heating and HWS are disabled. Frost protection for heating zones is always operative irrespective of the Year Schedule. Four separate holiday periods can be programmed in advance for one day and any number of days or weeks. Issue 1c 5-5

SYSTEM MANUAL Dynamic Graphics An advanced dynamic colour graphics package is supplied at no extra cost with each dyssey. This comprises of a single page plant schematic for each of the standard schemes, making dyssey extremely user friendly. The graphics offer full control of the dyssey; allowing the operator to alter control parameters, observe operations and view temperature/time graphs on screen. Current alarm status can be viewed, meter readings can be taken, and local degree day information uploaded. Data uploaded from the site controller can be stored on the PC for future reference and backup purposes. An example of an dyssey graphics scheme is shown below: dyssey graphics run under the Microsoft Windows 3.1, Windows 95 or Windows NT environments. A minimum hardware requirement would be: 486 PC running at 33MHz, with 8MB RAM Graphics card with 1MB RAM, capable of 1024x768 pixels with 256 colours SVGA monitor Issue 1c 5-6

SYSTEM MANUAL 6 Control Schemes verview of Scheme Features 6-3 Component Requirements 6-4 Default Values 6-5 Soft Switches 6-6 Setpoint Definitions 6-7 DY1 DY2 DY3 DY4 Plant Schematic and description..... 6-9 Menu Structure...... 6-11 Soft Switches...... 6-12 Termination Wiring Diagram...... 6-13 Plant Schematic and description..... 6-15 Menu Structure...... 6-17 Soft Switches...... 6-18 Termination Wiring Diagram...... 6-19 Plant Schematic and description..... 6-21 Menu Structure...... 6-23 Soft Switches...... 6-24 Termination Wiring Diagram...... 6-25 Plant Schematic and description..... 6-27 Menu Structure...... 6-29 Soft Switches...... 6-30 Termination Wiring Diagram...... 6-31 6-1 Issue 1c

SYSTEM MANUAL DY5 DY6 DY7 DY8 DY9 Plant Schematic and description...... 6-33 Menu Structure...... 6-35 Soft Switches...... 6-36 Termination Wiring Diagram...... 6-37 Plant Schematic and description..... 6-39 Menu Structure...... 6-41 Soft Switches...... 6-42 Termination Wiring Diagram...... 6-43 Plant Schematic and description..... 6-45 Menu Structure...... 6-47 Soft Switches...... 6-48 Termination Wiring Diagram...... 6-49 Plant Schematic and description..... 6-51 Menu Structure...... 6-53 Soft Switches...... 6-54 Termination Wiring Diagram...... 6-55 Plant Schematic and description..... 6-57 Menu Structure...... 6-59 Soft Switches...... 6-60 Termination Wiring Diagram...... 6-61 DY10 Plant Schematic and description..... 6-63 Menu Structure...... 6-65 Soft Switches...... 6-66 Termination Wiring Diagram...... 6-67 DY11 Plant Schematic and description..... 6-69 Menu Structure...... 6-71 Soft Switches...... 6-72 Termination Wiring Diagram...... 6-73 DY12 Plant Schematic and description..... 6-75 Menu Structure...... 6-77 Soft Switches...... 6-78 Termination Wiring Diagram...... 6-79 6-2 Issue 1c

SYSTEM MANUAL verview of Scheme Features HWS Scheme DY Boiler Sequence Control Timed & Temp Control utput Timed Control utput VT Zones CT Zones Heating Extension Buttons HWS Extension Buttons Utility Meters Temp Control utput FT SS Page 1 1 1 2 1 2 6-9 2 2 2 2 6-15 3 2 2 1 2 6-21 4 3 3 1 2 6-27 5 3 3 1 2 6-33 6 2 2 1 2 6-39 7 1 2 3 1 2 6-45 8 2 1 3 1 2 6-51 9 2 1 3 1 2 6-57 10 1 1 2 2 6-63 11 1 1 2 2 6-69 12 6 1 6-75 FTSS = Fixed Time Start/Stop Issue 1c 6-3

SYSTEM MANUAL Component Requirements The table below shows the additional components required for each of dyssey s 12 schemes: Scheme DY Mixed Flow Sensor DY/CL or DY/I Flow/Return Sensor DY/CL or DY/I HWS Sensor DY/CL or DY/I utside Air Sensor DY/ Space/Room Sensor DY/s Extension Timer Button 1 1 1 1 1 2 3 2 2 1 1 2 2 3 2 1 1 1 2 3 4 1 1 1 3 4 5 1 1 1 3 4 6 1 1 1 2 3 7 1 1 1 1 3 4 8 1 1 1 1 3 4 9 2 1 1 1 3 4 10 1 1 1 1 3 11 1 1 1 3 12 1 6 7 For additional information on the range of dyssey sensors refer to Section 9. Issue 1c 6-4

SYSTEM MANUAL Default Values Set-points Area Setpoint Value Frost Temp 5 C pt Start Temp 21 C Heating EC 1 C All Heating FF Zones Max Rise Rate 30 Minutes/degree Max Fall Rate 30 Minutes/degree Extension Timer 30 Minutes per press Control Temp 80 C Minimum Temp 0 C Maximum Temp 82 C All utside Slope 16 (equivalent to 2 per Compensated degree) Valves Inside Slope 24 (equivalent to 3 per degree) Reference Temp 21 C Control Temp 65 C HWS Extension Timer 30 minutes per press Sec Pump /Run 15 Minutes Control Temp 82 C Minimum Temp 70 C Boilers utside Slope 8 (equivalent to 1 per degree) Advance ff 15 Minutes Global Settings 1 st Stage Frost 1 C EC FF DIFF 2 C Heating and Hot Water Timetable Day Period 1 Period 2 N FF N FF Monday 0830 1500 Un-used Tuesday 0830 1500 Un-used Wednesday 0830 1500 Un-used Thursday 0830 1500 Un-used Friday 0830 1500 Un-used Saturday Un-used Un-used Sunday Un-used Un-used Global Settings Setting Value Setting Value Time of Year Winter Holiday 2 Unused BST From To Unused Holiday 3 Unused Summer Unused Holiday 4 Unused Weeks in Year 52 Extension 1 Unused Holiday 1 Unused Extension 2 Unused Issue 1c 6-5

SYSTEM MANUAL Soft Switches A series of Soft Switches are used in the dyssey to select different options, for example, 1 or 2 boilers in use. To change the state of a Soft Switch, enter the Global Settings option, refer to the Menu Structure page for the scheme in use. Select the Soft Switch required and press the Right key once to enter and a flashing up and down arrow will appear. Use the Up or Down keys to change the state to n or ff. Details of the Soft Switch settings are shown with each Control Scheme. Issue 1c 6-6

SYSTEM MANUAL Setpoint Definitions dyssey uses an extensive range of setpoints that are explained in this section. The setpoint names appear in italic text, depicting what can be seen on the dyssey display menu system. Frost Temp Minimum inside temperature, measured by any room sensor. Used to protect the fabric of the building. pt Start Temp Target zone comfort temperature to be obtained during occupancy. Heat Eco ff This defines a band below the pt Start Temp. After reaching setpoint, and if the outside temperature is within this setting, the output will be turned off. Eco ff Diff The output will become active again if the outside temperature falls through the number of degrees specified in this setting. Max Rise Rate and Max Fall Rate The maximum times that the system can self-learn to, measured in minutes per degree. Max Rise Rate applies to the ptimum Start Period of the day and Max Fall Rate applies to the ptimum Stop Period of the day. Control Temp Control temperature set for boilers, valves & Domestic Hot Water. Minimum Temp and Maximum Temp Upper and lower limits for Control Temp. utside Slope The compensation slope is adjusted by this setting as follows. The value that is set for Control Temp is the flow temperature at minimum outside design temperature (M..D.) fixed at -1 C. For every degree that the outside temperature exceeds M..D. temperature the flow temperature will be depressed by a number of degrees set in this value. The utside Slope setting should be calculated by taking the number of degrees per degree required and multiplying by eight. For example, for a setting of 3 degrees per degree the utside Slope value will be 3 * 8 = 24. If the Control Temp is set at 80 C, the MD temp is -1 C and the utside temp is 10 C the flow temp will be depressed by 33 C. ie. The utside temp is 11 C above the MD temp, multiplied by 3 degrees per degree = 33 C. Issue 1c 6-7

SYSTEM MANUAL Inside Slope The compensation slope is adjusted by depressing or raising flow temperature with reference to the zone temperature. For every degree that the Space/Room temperature is less than the Reference Temp the flow temperature will be increased by a number of degrees set in this value. Equally, for every degree that the Space/Room temperature is above the Reference Temp the flow temperature will be depressed by a number of degrees. The Inside Slope setting should be calculated by taking the number of degrees per degree required and multiplying by eight. For example, with settings as follows: utside Slope 24 (3 degrees per degree) Inside Slope 32 (4 degrees per degree) Reference Temp 19 (Required temp in zone) Control Temp 80 (Flow temp at MD temp and comfort) MD Temp -1 C utside Temp 10 C Room Temp 17 C The utside temp is 11 C above the MD temp so depression due to outside influence will be 33 C as above. Room temperature is 2 degrees below Reference Temp so the mixed flow will be increased by 8 degrees. Mixed flow = 80 33 + 8 = 55 C Reference Temp The required temperature in a Zone. HWS Sec Pump /Run Timed over-run of a pump to dissipate heat. Advance ff Prior to the end of occupancy, the Heating Boiler will be switched off in advance of the Heating Pumps. Issue 1c 6-8

Plant Schematic & Description DY1 1 VT Heating Zone ptimum Start/Stop with Compensated Temperature Control on outside and room temperature plus Economy ff feature. A timetable with two periods per day is featured. ne remote heating extension timer plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pump. utputs for analogue or digital controlled valve are available. 1 CT Heating Zone ptimum Start/Stop plus Economy ff feature. A timetable with two periods per day is featured. ne remote heating extension timer plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pump. HWS Stand-alone or linked to the boiler plant. Temperature control is via the secondary flow sensor and the Temperature Control utput drives either the pump, valve or direct fired unit. A timetable with two periods per day is featured. ne remote HWS extension timer plus two display activated extension timers, programmable up to seven days in advance. A pump over-run timer is available, 0 to 30 minutes. First Stage Frost Protection is achieved via the HWS pump. Boiler Control ne or two boilers is selected via the menu with full sequencing and boiler rotation on fault available. Compensated Temperature Control on outside temperature plus an advance off timer. Control and minimum set-points are adjustable. Alarms Volt free alarms are available for each boiler plus two for common plant faults. All alarms have a one minute delay prior to reporting. Meters Two volt free inputs have been provided for the reading of pulsed output utility meters. Issue 1c 6-9

DY1 Issue 1c 6-10

Menu Structure DY1 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone 1 Year Timetables Zone 2 Extensions HWS Controller Setup Status & Info Temps perator Codes Zone 1 pt Zone 2 pt Global Settings HWS Status Plant Settings Zone 1 pt Meters Zone 1 Valve Zone 2 pt HWS Boilers Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-11

Soft Switches DY1 Soft Switch 1 n = 2 Boilers Used ff = 1 Boiler Used Soft Switch 2 n = HWS Calls on boiler plant ff = HWS stands alone Soft Switch 3 n = HWS uses valve for temperature control ff = HWS uses primary pump for temperature control Issue 1c 6-12

Termination Wiring Diagram DY1 * Remote Display Zone 1 Space/Room Sensor Zone 2 Space/Room Sensor Zone 1 Mixed Flow Sensor HWS Temp. Control Sensor Common Alarm Input 1 Common Alarm Input 2 Boilers Control Sensor System utside Sensor Zone 1 Valve utput (ptional) Zone 1 Extension Timer Button Zone 2 Extension Timer Button HWS Extension Timer Button Boiler 1 Common Fault Boiler 2 Common Fault Utility Meter 1 Utility Meter 2 Reserved Input RS485B RS485A +15V AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AUT2 AUT1 DIN1 DIN2 DIN3 DIN4 DIN5 DIN6 DIN7 DIN8 DIN9 UNUSED UNUSED The following options are available: EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C Boiler 2 CC N/ CM Boiler 2 CC N/C Boiler 1 CC N/ CM Boiler 1 CC N/C N/ Close CM N/C pen N/ CM CC N/C n/pen N/ ff/close CM CC N/C HWS Pump(s) CC N/ CM HWS Pump(s) CC N/C CT Pump CC N/ CM CT Pump CC N/C VT Pump CC N/ CM VT Pump CC ption SS2 SS3 RLY3 (Timed utput) RLY4 (Timed + Temp utput) CM N/ N/C CM N/ N/C DY 1A N N HWS Pump(s) CC HWS Pump(s) CC HWS Valve CC HWS Valve Close HWS Valve peny DY 1B N FF HWS Secondary Pump CC HWS Secondary Pump CC HWS Primary Pump CC HWS Primary Pump CC DY 1C FF N HWS Secondary Pump CC HWS Secondary Pump CC HWS Temp Control CC HWS Temp Control CC Controller Supply 240V ac Fused at 5 Amps Essential Link Boiler 2 (ptional) Boiler 1 Zone 1 Variable Temperature Valve ptional Digital/Relay utput, or use 0-10V output AUT1 HWS Temperature Control HWS Pump Control * * Zone 2 Constant Temperature Pump Zone 1 Variable Temperature Pump Note CC = Control Circuit SS = Soft Switch Issue 1c 6-13

DY1 Issue 1c 6-14

Plant Schematic & Description DY2 2 VT Heating Zones ptimum Start/Stop with Compensated Temperature Control on outside and room temperature plus Economy ff feature. A timetable with two periods per day is featured. Remote heating extension timer in each zone plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pumps. utputs for analogue or digital controlled valve are available. Boiler Control ne or two boilers is selected via the menu with full sequencing and boiler rotation on fault available. Compensated Temperature Control on outside temperature plus an advance off timer. Control and minimum set-points are adjustable. Alarms Volt free alarms are available for each boiler plus two for common plant faults. All alarms have a one minute delay prior to reporting. Meters Two volt free inputs have been provided for the reading of pulsed output utility meters. Issue 1c 6-15

DY2 Issue 1c 6-16

Menu Structure DY2 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone 1 Year Timetables Zone 2 Extensions Controller Setup Status & Info Temps perator Codes Zone 1 pt Zone 2 pt Global Settings Status Meters Plant Settings Zone 1 pt Zone 1 Valve Zone 2 pt Zone 2 Valve Boilers Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-17

Soft Switches DY2 Soft Switch 1 n = 2 Boilers Used ff = 1 Boiler Used Issue 1c 6-18

Termination Wiring Diagram DY2 Remote Display Zone 1 Space/Room Sensor Zone 2 Space/Room Sensor Zone 1 Mixed Flow Sensor Zone 2 Mixed Flow Sensor Boilers Control Sensor System utside Sensor Zone 2 Valve utput (ptional) Zone 1 Valve utput (ptional) Zone 1 Extension Timer Button Zone 2 Extension Timer Button Boiler 1 Common Fault Boiler 2 Common Fault Common Alarm Input 1 Common Alarm Input 2 Utility Meter 1 Utility Meter 2 Reserved Input RS485B RS485A +15V AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AUT2 AUT1 DIN1 DIN2 DIN3 DIN4 DIN5 DIN6 DIN7 DIN8 DIN9 UNUSED UNUSED EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C Boiler 2 CC N/ CM Boiler 2 CC N/C Boiler 1 CC N/ CM Boiler 1 CC N/C N/ Close CM N/C pen N/ CM CC N/C VT Pump CC N/ CM VT Pump CC N/C N/ Close CM N/C pen N/ CM CC N/C VT Pump CC N/ CM VT Pump CC Controller Supply 240V ac Fused at 5 Amps Essential Link Essential Link Boiler 2 (ptional) Boiler 1 Zone 2 Variable Temperature Valve ptional Digital/Relay utput, or use 0-10V output AUT2 Zone 2 Variable Temp. Pump Zone 1 Variable Temperature Valve ptional Digital/Relay utput, or use 0-10V output AUT1 Zone 1 Variable Temperature Pump Note CC = Control Circuit Issue 1c 6-19

DY2 Issue 1c 6-20

Plant Schematic & Description DY3 2 VT Heating Zones ptimum Start/Stop with Compensated Temperature Control on outside and room temperature plus Economy ff feature. A timetable with two periods per day is featured. Remote heating extension timer in each zone plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pumps. utputs for analogue or digital controlled valve are available in Zone 1, with Zone 2 having an output for an analogue controlled valve only. HWS Stand-alone or linked to the boiler plant. Temperature control is via the secondary flow sensor and the Temperature Control utput drives either the pump, valve or direct fired unit. A timetable with two periods per day is featured. ne remote HWS extension timer plus two display activated extension timers, programmable up to seven days in advance. A pump over-run timer is available, 0 to 30 minutes. First Stage Frost Protection is achieved via the HWS pump. Boiler Control ne or two boilers is selected via the menu with full sequencing and boiler rotation on fault available. Compensated Temperature Control on outside temperature plus an advance off timer. Control, minimum and maximum set-points are adjustable. Alarms Volt free alarms are available for each boiler plus two for common plant faults. All alarms have a one minute delay prior to reporting. Meters Two volt free inputs have been provided for the reading of pulsed output utility meters. Issue 1c 6-21

DY3 Issue 1c 6-22

Menu Structure DY3 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone 1 Year Timetables Zone 2 Extensions HWS Controller Setup Status & Info Temps perator Codes Zone 1 pt Zone 2 pt Global Settings HWS Status Plant Settings Zone 1 pt Meters Zone 1 Valve Zone 2 pt Zone 2 Valve HWS Boilers Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-23

Soft Switches DY3 Soft Switch 1 n = 2 Boilers Used ff = 1 Boiler Used Soft Switch 2 n = HWS Calls on boiler plant ff = HWS stands alone Soft Switch 3 n = HWS uses valve for temperature control ff = HWS uses primary pump for temperature control Issue 1c 6-24

Termination Wiring Diagram DY3 Remote Display Zone 1 Space/Room Sensor Zone 2 Space/Room Sensor Zone 1 Mixed Flow Sensor Zone 2 Mixed Flow Sensor HWS Temp. Control Sensor Common Alarm Input 1 Boilers Control Sensor System utside Sensor Zone 2 Valve utput Zone 1 Valve utput (ptional) Zone 1 Extension Timer Button Zone 2 Extension Timer Button HWS Extennsion Timer Button * Boiler 1 Common Fault Boiler 2 Common Fault Common Alarm Input 1 Utility Meter 1 Utility Meter 2 Reserved Input RS485B RS485A +15V AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AUT2 AUT1 DIN1 DIN2 DIN3 DIN4 DIN5 DIN6 DIN7 DIN8 DIN9 UNUSED UNUSED The following options are available: EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C Boiler 2 CC N/ CM Boiler 2 CC N/C Boiler 1 CC N/ CM Boiler 1 CC N/C n/pen N/ ff/close CM CC N/C HWS Pump(s) CC N/ CM HWS Pump(s) CC N/C VT Pump CC N/ CM VT Pump CC N/C N/ Close CM N/C pen N/ CM CC N/C VT Pump CC N/ CM VT Pump CC ption SS2 SS3 RLY5 (Timed utput) RLY6 (Timed + Temp utput) CM N/ N/C CM N/ N/C DY 3A N N HWS Pump(s) CC HWS Pump(s) CC HWS Valve CC HWS Valve Close HWS Valve pen DY 3B N FF HWS Secondary Pump CC HWS Secondary Pump CC HWS Primary Pump CC HWS Primary Pump CC DY 3C FF N HWS Secondary Pump CC HWS Secondary Pump CC HWS Temp Control CC HWS Temp Control CC Note CC = Control Circuit SS = Soft Switch Controller Supply 240V ac Fused at 5 Amps Essential Link Boiler 2 (ptional) Boiler 1 * HWS Temperature Control HWS Pump Control * Zone 2 Variable Temp. Pump Zone 1 Variable Temperature Valve ptional Digital/Relay utput, or use 0-10V output AUT1 Zone 1 Variable Temperature Pump Issue 1c 6-25

DY3 Issue 1c 6-26

Plant Schematic & Description DY4 3 CT Heating Zones ptimum Start/Stop plus Economy ff feature. A timetable with two periods per day, per zone is featured. ne remote heating extension timer per zone plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates, common to all zones, plus Frost and ptimum Start set-points for each zone, with First Stage Frost Protection achieved via the heating pump and all zone valves. HWS Stand-alone or linked to the boiler plant. The main pump can be selected to service the HWS. Temperature control is via the secondary flow sensor and the Temperature Control utput drives either the pump, valve or direct fired unit. A timetable with two periods per day is featured. ne remote HWS extension timer plus two display activated extension timers, programmable up to seven days in advance. A pump over-run timer is available, 0 to 30 minutes. First Stage Frost Protection is achieved via the HWS pump. Boiler Control ne or two boilers is selected via the menu with full sequencing and boiler rotation on fault available. Compensated Temperature Control on outside temperature plus an advance off timer. Control and minimum set-points are adjustable. A pump overrun timer on the main heating pump is available, 0 to 30 minutes Alarms Volt free alarms are available for each boiler plus two for common plant faults. All alarms have a one minute delay prior to reporting. Meters Two volt free inputs have been provided for the reading of pulsed output utility meters. Issue 1c 6-27

DY4 Issue 1c 6-28

Menu Structure DY4 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone 1 Year Timetables Zone 2 Extensions Zone 3 HWS Controller Setup Status & Info Temps perator Codes Zone 1 pt Zone 2 pt Global Settings Zone 3 pt HWS Plant Settings pt All Zones Zone 1 pt Status Meters Zone 2 pt Zone 3 pt HWS Boilers Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-29

Soft Switches DY4 Soft Switch 1 n = 2 Boilers Used ff = 1 Boiler Used Soft Switch 2 n = HWS Calls on boiler plant ff = HWS stands alone Soft Switch 3 n = HWS uses main pump ff = HWS does not use main pump Soft Switch 4 n = HWS uses valve for temperature control ff = HWS uses primary pump for temperature control Soft Switch 5 n = Plant remains N when zones at setpoint ff = Plant goes FF when zones at setpoint Issue 1c 6-30

Termination Wiring Diagram DY4 RS485B RS485A Remote Display +15V AIN1 Zone 1 Space/Room Sensor AIN2 Zone 2 Space/Room Sensor AIN3 Zone 3 Space/Room Sensor AIN4 HWS Temp. Control Sensor AIN5 Common Alarm Input 1 AIN6 Common Alarm Input 2 AIN7 Boilers Control Sensor AIN8 System utside Sensor AUT2 AUT1 DIN1 Zone 1 Extension Timer Button DIN2 Zone 2 Extension Timer Button DIN3 Zone 3 Extension Timer Button DIN4 HWS Extension Timer Button DIN5 Boiler 1 Common Fault DIN6 Boiler 2 Common Fault DIN7 Utility Meter 1 DIN8 Utility Meter 2 DIN9 Reserved Input UNUSED UNUSED The following options are available: * EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C Boiler 2 CC N/ CM Boiler 2 CC N/C Boiler 1 CC N/ CM Boiler 1 CC N/C n/pen N/ ff/close CM CC N/C HWS Pump(s) CC N/ CM HWS Pump(s) CC N/C Heating Pump CC N/ CM Heating Pump CC N/C n/pen N/ ff/close CM CC N/C n/pen N/ ff/close CM CC N/C n/pen N/ ff/close CM CC Controller Supply 240V ac Fused at 5 Amps ption SS2 SS3 SS4 RLY5 (Timed utput) RLY6 (Timed + Temp utput) CM N/ N/C CM N/ N/C DY 4A N FF N HWS Pump(s) CC HWS Pump(s) CC HWS Valve CC HWS Valve Close HWS Valve pen DY 4B N N FF HWS Secondary Pump CC HWS Secondary Pump CC HWS Primary Pump CC HWS Primary Pump CC DY 4C FF N N HWS Secondary Pump CC HWS Secondary Pump CC HWS Temp Control CC HWS Temp Control CC Note CC = Control Circuit SS = Soft Switch Boiler 2 (ptional) Boiler 1 HWS Temperature Control HWS Pump Control Zone 3 Valve Zone 2 Valve Zone 1 Valve * * Main Heating Pump Issue 1c 6-31

DY4 Issue 1c 6-32

Plant Schematic & Description DY5 3 CT Heating Zones ptimum Start/Stop plus Economy ff feature. A timetable with two periods per day, per zone is featured. ne remote heating extension timer per zone plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates, common to all zones, plus Frost and ptimum Start set-points for each zone, with First Stage Frost Protection achieved via the heating pump and all zone valves. HWS Stand-alone or linked to the boiler plant. The main pump can be selected to service the HWS. Temperature control is via the secondary flow sensor and the Temperature Control utput drives either the pump, valve or direct fired unit. A timetable with two periods per day is featured. ne remote HWS extension timer plus two display activated extension timers, programmable up to seven days in advance. A pump over-run timer is available, 0 to 30 minutes. First Stage Frost Protection is achieved via the HWS pump. Boiler Control ne or two boilers is selected via the menu with full sequencing and boiler rotation on fault available. Compensated Temperature Control on outside temperature plus an advance off timer. Control and minimum set-points are adjustable. A pump overrun timer on the main heating pump is available, 0 to 30 minutes Alarms Volt free alarms are available for each boiler plus two for common plant faults. All alarms have a one minute delay prior to reporting. Meters Two volt free inputs have been provided for the reading of pulsed output utility meters. Issue 1c 6-33

DY5 Issue 1c 6-34

Menu Structure DY5 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone 1 Year Timetables Zone 2 Extensions Zone 3 HWS Controller Setup Status & Info Temps perator Codes Zone 1 pt Zone 2 pt Global Settings Zone 3 pt HWS Plant Settings pt All Zones Zone 1 pt Status Meters Zone 2 pt Zone 3 pt HWS Boilers Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-35

Soft Switches DY5 Soft Switch 1 n = 2 Boilers Used ff = 1 Boiler Used Soft Switch 2 n = HWS Calls on boiler plant ff = HWS stands alone Soft Switch 3 n = HWS uses main pump ff = HWS does not use main pump Soft Switch 4 n = HWS uses valve for temperature control ff = HWS uses primary pump for temperature control Issue 1c 6-36

Termination Wiring Diagram DY5 RS485B RS485A Remote Display +15V AIN1 Zone 1 Space/Room Sensor AIN2 Zone 2 Space/Room Sensor AIN3 Zone 3 Space/Room Sensor AIN4 HWS Temp. Control Sensor AIN5 Common Alarm Input 1 AIN6 Common Alarm Input 2 AIN7 Boilers Control Sensor AIN8 System utside Sensor AUT2 AUT1 DIN1 Zone 1 Extension Timer Button DIN2 Zone 2 Extension Timer Button DIN3 Zone 3 Extension Timer Button DIN4 HWS Extension Timer Button DIN5 Boiler 1 Common Fault DIN6 Boiler 2 Common Fault DIN7 Utility Meter 1 DIN8 Utility Meter 2 DIN9 Reserved Input UNUSED UNUSED The following options are available: * EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C Boiler 2 CC N/ CM Boiler 2 CC N/C Boiler 1 CC N/ CM Boiler 1 CC N/C n/pen N/ ff/close CM CC N/C HWS Pump(s) CC N/ CM HWS Pump(s) CC N/C Heating Pump CC N/ CM Heating Pump CC N/C n/pen N/ ff/close CM CC N/C n/pen N/ ff/close CM CC N/C n/pen N/ ff/close CM CC Controller Supply 240V ac Fused at 5 Amps ption SS2 SS3 SS4 RLY5 (Timed utput) RLY6 (Timed + Temp utput) CM N/ N/C CM N/ N/C DY 5A N FF N HWS Pump(s) CC HWS Pump(s) CC HWS Valve CC HWS Valve Close HWS Valve pen DY 5B N N FF HWS Secondary Pump CC HWS Secondary Pump CC HWS Primary Pump CC HWS Primary Pump CC DY 5C FF N N HWS Secondary Pump CC HWS Secondary Pump CC HWS Temp Control CC HWS Temp Control CC Note CC = Control Circuit SS = Soft Switch Boiler 2 (ptional) Boiler 1 HWS Temperature Control HWS Pump Control Zone 3 Valve Zone 2 Valve Zone 1 Valve * * Main Heating Pump Issue 1c 6-37

DY5 Issue 1c 6-38

Plant Schematic & Description DY6 2 VT Heating Zones 2 sub zones from a common VT circuit - ptimum Start/Stop for each zone. Compensated Temperature Control on the VT Valve on outside temperature. Compensated Temperature Control on the VT Valve on room temperature from either zone or an average of the internal room temperatures. Economy ff feature for each zone. A timetable with two periods per day is featured. ne remote heating extension timer per zone plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pump and zone valves. utputs for analogue or digital controlled valve are available. HWS Stand-alone or linked to the boiler plant. Temperature control is via local thermostats. A timetable with two periods per day is featured. ne remote HWS extension timer plus two display activated extension timers, programmable up to seven days in advance. Boiler Control ne or two boilers is selected via the menu with full sequencing and boiler rotation on fault available. Compensated Temperature Control on outside temperature plus an advance off timer. Control and minimum set-points are adjustable. Alarms Volt free alarms are available for each boiler plus two for common plant faults. All alarms have a one minute delay prior to reporting. Meters Two volt free inputs have been provided for the reading of pulsed output utility meters. Issue 1c 6-39

DY6 Issue 1c 6-40

Menu Structure DY6 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone 1 Year Timetables Zone 2 Extensions HWS Controller Setup Status & Info Temps perator Codes Zone 1 pt Zone 2 pt Global Settings HWS Status Plant Settings Zone 1 pt Meters Zone 2 pt Mixing Valve HWS Boilers Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-41

Soft Switches DY6 Soft Switch 1 n = 2 Boilers Used ff = 1 Boiler Used Soft Switch 2 n = HWS Calls on boiler plant ff = HWS stands alone Issue 1c 6-42

Termination Wiring Diagram DY6 Remote Display Zone 1 Space/Room Sensor Zone 2 Space/Room Sensor Mixed Flow Sensor Common Alarm Input 1 Common Alarm Input 2 Boilers Control Sensor System utside Sensor VT Valve utput (ptional) Zone 1 Extension Timer Button Zone 2 Extension Timer Button HWS Extennsion Timer Button Boiler 1 Common Fault Boiler 2 Common Fault Utility Meter 1 Utility Meter 2 Reserved Input RS485B RS485A +15V AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AUT2 AUT1 DIN1 DIN2 DIN3 DIN4 DIN5 DIN6 DIN7 DIN8 DIN9 UNUSED UNUSED EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C Boiler 2 CC N/ CM Boiler 2 CC N/C Boiler 1 CC N/ CM Boiler 1 CC N/C FTSS utput N/ CM FTSS utput N/C N/ Close CM N/C pen N/ CM CC N/C Heating Pump CC N/ CM Heating Pump CC N/C n/pen N/ ff/close CM CC N/C n/pen N/ ff/close CM CC Controller Supply 240V ac Fused at 5 Amps Essential Link Boiler 2 (ptional) Boiler 1 HWS Enable Variable Temperature Valve ptional Digital/Relay utput, or use 0-10V output AUT1 Heating Pump Zone 2 Valve Zone 1 Valve Note CC = Control Circuit FTSS = Fixed Time Start/Stop Issue 1c 6-43

DY6 Issue 1c 6-44

Plant Schematic & Description DY7 1 VT Heating Zone ptimum Start/Stop with Compensated Temperature Control on VT valve on outside and room temperature plus Economy ff feature. A timetable with two periods per day is featured. ne remote heating extension timer plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pump. utput for analogue controlled VT valve. 2 CT Heating Zones ptimum Start/Stop plus Economy ff feature. A timetable with two periods per day is featured. ne remote heating extension timer, per zone, plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pumps. HWS Stand-alone or linked to the boiler plant. Temperature control is via the secondary flow sensor and the Temperature Control utput drives either the pump, valve or direct fired unit. A timetable with two periods per day is featured. ne remote HWS extension timer plus two display activated extension timers, programmable up to seven days in advance. A pump over-run timer is available, 0 to 30 minutes. First Stage Frost Protection is achieved via the HWS pump. Boiler Control ne or two boilers is selected via the menu with full sequencing and boiler rotation on fault available. Compensated Temperature Control on outside temperature plus an advance off timer. Control and minimum set-points are adjustable. Alarms Volt free alarms are available for each boiler plus two for common plant faults. All alarms have a one minute delay prior to reporting. Meters Two volt free inputs have been provided for the reading of pulsed output utility meters. Issue 1c 6-45

DY7 Issue 1c 6-46

Menu Structure DY7 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone 1 Year Timetables Zone 2 Extensions Zone 3 HWS Controller Setup Status & Info Temps perator Codes Zone 1 pt Zone 2 pt Global Settings Zone 3 pt HWS Plant Settings Zone 1 pt Zone 1 Valve Zone 2 pt Status Meters Zone 3 pt HWS Boilers Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-47

Soft Switches DY7 Soft Switch 1 n = 2 Boilers Used ff = 1 Boiler Used Soft Switch 2 n = HWS Calls on boiler plant ff = HWS stands alone Soft Switch 3 n = HWS uses valve for temperature control ff = HWS uses primary pump for temperature control Issue 1c 6-48

Termination Wiring Diagram DY7 Remote Display Zone 1 Space/Room Sensor Zone 2 Space/Room Sensor Zone 3 Space/Room Sensor Zone 1 Mixed Flow Sensor HWS Temp. Control Sensor Common Alarm Input Boilers Control Sensor System utside Sensor Zone 1 VT Valve utput Zone 1 Extension Timer Button Zone 2 Extension Timer Button Zone 3 Extension Timer Button HWS Extension Timer Button * Boiler 1 Common Fault Boiler 2 Common Fault Utility Meter 1 Utility Meter 2 Reserved Input RS485B RS485A +15V AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AUT2 AUT1 DIN1 DIN2 DIN3 DIN4 DIN5 DIN6 DIN7 DIN8 DIN9 UNUSED UNUSED The following options are available: EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C Boiler 2 CC N/ CM Boiler 2 CC N/C Boiler 1 CC N/ CM Boiler 1 CC N/C N/ CM N/C n/pen N/ ff/close CM CC N/C HWS Pump(s) CC N/ CM HWS Pump(s) CC N/C CT Pump CC N/ CM CT Pump CC N/C CT Pump CC N/ CM CT Pump CC N/C VT Pump CC N/ CM VT Pump CC Controller Supply 240V ac Fused at 5 Amps ption SS2 SS3 RLY4 (Timed utput) RLY5 (Timed + Temp utput) CM N/ N/C CM N/ N/C DY 7A N N HWS Pump(s) CC HWS Pump(s) CC HWS Valve CC HWS Valve Close HWS Valve pen DY 7B N FF HWS Secondary Pump CC HWS Secondary Pump CC HWS Primary Pump CC HWS Primary Pump CC DY 7C FF N HWS Secondary Pump CC HWS Secondary Pump CC HWS Temp Control CC HWS Temp Control CC Note CC = Control Circuit SS = Soft Switch Boiler 2 (ptional) Boiler 1 * HWS Temperature Control * HWS Pump(s) Zone 3 CT Pump Zone 2 CT Pump Zone 1 VT Pump Issue 1c 6-49

DY7 Issue 1c 6-50

Plant Schematic & Description DY8 2 VT Heating Zones 2 sub zones from a common VT circuit - ptimum Start/Stop for each zone. Compensated Temperature Control on the VT Valve on outside temperature. Compensated Temperature Control on the VT Valve on room temperature from either zone room temperature. Economy ff feature for each zone. A timetable with two periods per day is featured. ne remote heating extension timer per zone plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pump and zone valves. utputs for analogue controlled VT valves. 1 CT Heating Zone ptimum Start/Stop plus Economy ff feature. A timetable with two periods per day is featured. ne remote heating extension timer plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pump. HWS Stand-alone or linked to the boiler plant. The main pump can be selected to service the HWS. Temperature control is via the secondary flow sensor and the Temperature Control utput drives either the pump, valve or direct fired unit. A timetable with two periods per day is featured. ne remote HWS extension timer plus two display activated extension timers, programmable up to seven days in advance. A pump over-run timer is available, 0 to 30 minutes. First Stage Frost Protection is achieved via the HWS pump. Boiler Control ne or two boilers is selected via the menu with full sequencing and boiler rotation on fault available. Compensated Temperature Control on outside temperature plus an advance off timer. Control and minimum set-points are adjustable. Alarms Volt free alarms are available for each boiler plus two for common plant faults. All alarms have a one minute delay prior to reporting. Meters Two volt free inputs have been provided for the reading of pulsed output utility meters. Issue 1c 6-51

DY8 Issue 1c 6-52

Menu Structure DY8 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone 1 Year Timetables Zone 2 Extensions Zone 3 HWS Controller Setup Status & Info Temps perator Codes Zone 1 pt Zone 2 pt Global Settings Zone 3 pt HWS Plant Settings Zone 1 pt Zone 2 pt VT Valve Status Meters Zone 3 pt HWS Boilers Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-53

Soft Switches DY8 Soft Switch 1 n = 2 Boilers Used ff = 1 Boiler Used Soft Switch 2 n = HWS Calls on boiler plant ff = HWS stands alone Soft Switch 3 n = HWS uses valve for temperature control ff = HWS uses primary pump for temperature control Issue 1c 6-54

Termination Wiring Diagram DY8 RS485B RS485A Remote Display +15V AIN1 Zone 1 Space/Room Sensor AIN2 Zone 2 Space/Room Sensor AIN3 Zones 1 & 2 Mixed Flow Sensor AIN4 Zone 3 Space/Room Sensor AIN5 HWS Temp. Control Sensor AIN6 Common Alarm Input AIN7 Boilers Control Sensor AIN8 System utside Sensor AUT2 AUT1 Zone 1 VT Valve utput DIN1 Zone 1 Extension Timer Button DIN2 Zone 2 Extension Timer Button DIN3 Zone 3 Extension Timer Button DIN4 HWS Extension Timer Button DIN5 Boiler 1 Common Fault DIN6 Boiler 2 Common Fault DIN7 Utility Meter 1 DIN8 Utility Meter 2 DIN9 Reserved Input UNUSED UNUSED The following options are available: * EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C Boiler 2 CC N/ CM Boiler 2 CC N/C Boiler 1 CC N/ CM Boiler 1 CC N/C n/pen N/ ff/close CM CC N/C HWS Pump(s) CC N/ CM HWS Pump(s) CC N/C n/pen N/ ff/close CM CC N/C n/pen N/ ff/close CM CC N/C CT Pump CC N/ CM CT Pump CC N/C VT Pump CC N/ CM VT Pump CC Controller Supply 240V ac Fused at 5 Amps ption SS2 SS3 RLY5 (Timed utput) RLY6 (Timed + Temp utput) CM N/ N/C CM N/ N/C DY 8A N N HWS Pump(s) CC HWS Pump(s) CC HWS Valve CC HWS Valve Close HWS Valve pen DY 8B N FF HWS Secondary Pump CC HWS Secondary Pump CC HWS Primary Pump CC HWS Primary Pump CC DY 8C FF N HWS Secondary Pump CC HWS Secondary Pump CC HWS Temp Control CC HWS Temp Control CC Note CC = Control Circuit SS = Soft Switch Boiler 2 (ptional) Boiler 1 * HWS Temperature Control HWS Pump(s) Zone 2 Valve * Zone 1 Valve Zone 3 CT Pump Zones 1 & 2 VT Pump Issue 1c 6-55

DY8 Issue 1c 6-56

Plant Schematic & Description DY9 2 VT Heating Zones ptimum Start/Stop for each zone. Compensated Temperature Control on the VT Valves on outside and room temperature plus Economy ff feature for each zone. A timetable with two periods per day is featured. ne remote heating extension timer per zone plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pumps. utputs for analogue controlled valves. 1 CT Heating Zone ptimum Start/Stop plus Economy ff feature. A timetable with two periods per day is featured. ne remote heating extension timer plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pump. HWS Stand-alone or linked to the boiler plant. Temperature control is via the secondary flow sensor and the Temperature Control utput drives either the pump, valve or direct fired unit. A timetable with two periods per day is featured. ne remote HWS extension timer plus two display activated extension timers, programmable up to seven days in advance. A pump over-run timer is available, 0 to 30 minutes. First Stage Frost Protection is achieved via the HWS pump. Boiler Control ne or two boilers is selected via the menu with full sequencing and boiler rotation on fault available. Compensated Temperature Control on outside temperature plus an advance off timer. Control and minimum set-points are adjustable. Alarms Volt free alarms are available for each boiler plus two for common plant faults. All alarms have a one minute delay prior to reporting. Meters Two volt free inputs have been provided for the reading of pulsed output utility meters. Issue 1c 6-57

DY9 Issue 1c 6-58

Menu Structure DY9 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone 1 Year Timetables Zone 2 Extensions Zone 3 HWS Controller Setup Status & Info Temps perator Codes Zone 1 pt Zone 2 pt Global Settings Zone 3 pt HWS Plant Settings Zone 1 pt Zone 1 Valve Zone 2 pt Status Meters Zone 2 Valve Zone 3 pt HWS Boilers Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-59

Soft Switches DY9 Soft Switch 1 n = 2 Boilers Used ff = 1 Boiler Used Soft Switch 2 n = HWS Calls on boiler plant ff = HWS stands alone Soft Switch 3 n = HWS uses valve for temperature control ff = HWS uses primary pump for temperature control Issue 1c 6-60

Termination Wiring Diagram DY9 * Remote Display Zone 1 Space/Room Sensor Zone 2 Space/Room Sensor Zone 3 Space/Room Sensor HWS Temp. Control Sensor Zone 1 Mixed Flow Sensor Zone 2 Mixed Flow Sensor Boilers Control Sensor System utside Sensor Zone 2 VT Valve utput Zone 1 VT Valve utput Zone 1 Extension Timer Button Zone 2 Extension Timer Button Zone 3 Extension Timer Button HWS Extension Timer Button Boilers Common Fault Common Alarm Input Utility Meter 1 Utility Meter 2 Reserved Input RS485B RS485A +15V AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AUT2 AUT1 DIN1 DIN2 DIN3 DIN4 DIN5 DIN6 DIN7 DIN8 DIN9 UNUSED UNUSED The following options are available: EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C Boiler 2 CC N/ CM Boiler 2 CC N/C Boiler 1 CC N/ CM Boiler 1 CC N/C N/ CM N/C n/pen N/ ff/close CM CC N/C HWS Pump(s) CC N/ CM HWS Pump(s) CC N/C CT Pump CC N/ CM CT Pump CC N/C VT Pump CC N/ CM VT Pump CC N/C VT Pump CC N/ CM VT Pump CC Controller Supply 240V ac Fused at 5 Amps ption SS2 SS3 RLY4 (Timed utput) RLY5 (Timed + Temp utput) CM N/ N/C CM N/ N/C DY 9A N N HWS Pump(s) CC HWS Pump(s) CC HWS Valve CC HWS Valve Close HWS Valve pen DY 9B N FF HWS Secondary Pump CC HWS Secondary Pump CC HWS Primary Pump CC HWS Primary Pump CC DY 9C FF N HWS Secondary Pump CC HWS Secondary Pump CC HWS Temp Control CC HWS Temp Control CC Note CC = Control Circuit SS = Soft Switch Boiler 2 (ptional) Boiler 1 * HWS Temperature Control * HWS Pump(s) Zone 3 CT Pump Zone 2 VT Pump Zone 1 VT Pump Issue 1c 6-61

DY9 Issue 1c 6-62

Termination Wiring Diagram DY10 1 VT Heating Zone ptimum Start/Stop with Compensated Temperature Control on the VT valve on outside and room temperature plus Economy ff feature. A timetable with two periods per day is featured. ne remote heating extension timer plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pump. utputs for analogue or digital controlled valve are available. 2 HWS Stand-alone or linked to the boiler plant. Temperature control is via local thermostats. A timetable with two periods per day is featured. Two remote HWS extension timers plus two display activated extension timers, programmable up to seven days in advance. Individual optional use during summer schedule. Boiler Control ne or two boilers is selected via the menu with full sequencing and boiler rotation on fault available. Compensated Temperature Control on outside temperature plus an advance off timer. Control and minimum set-points are adjustable. Alarms Volt free alarms are available for each boiler plus two for common plant faults. All alarms have a one minute delay prior to reporting. Meters Two volt free inputs have been provided for the reading of pulsed output utility meters. Issue 1c 6-63

DY10 Issue 1c 6-64

Menu Structure DY10 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone Year Timetables HWS No.1 Extensions HWS No.2 Controller Setup Status & Info Temps perator Codes Zone pt HWS No.1 Global Settings HWS No.2 Status Plant Settings Zone pt Mixing Valve Meters Boilers Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-65

Soft Switches DY10 Soft Switch 1 n = 2 Boilers Used ff = 1 Boiler Used Soft Switch 2 n = HWS No. 1 calls on boiler plant ff = HWS No. 1 stands alone Soft Switch 3 n = HWS No. 2 calls on boiler plant ff = HWS No. 2 stands alone Soft Switch 4 n = HWS No. 1 active during summer schedule ff = HWS No. 1 not active during summer schedule Soft Switch 5 n = HWS No. 2 active during summer schedule ff = HWS No. 2 not active during summer schedule Issue 1c 6-66

Termination Wiring Diagram DY10 Remote Display Heating Space/Room Sensor Heating Mixed Flow Sensor Common Alarm Input 1 Common Alarm Input 2 Boilers Control Sensor System utside Sensor Heating VT Valve utput (ptional) Heating Extension Timer Button HWS 1 Extension Timer Button HWS 2 Extension Timer Button Boiler 1 Common Fault Boiler 2 Common Fault Utility Meter 1 Utility Meter 2 Reserved Input RS485B RS485A +15V AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AUT2 AUT1 DIN1 DIN2 DIN3 DIN4 DIN5 DIN6 DIN7 DIN8 DIN9 UNUSED UNUSED EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C Boiler 2 CC N/ CM Boiler 2 CC N/C Boiler 1 CC N/ CM Boiler 1 CC N/C N/ CM N/C FTSS utput N/ CM FTSS utput N/C FTSS utput N/ CM FTSS utput N/C N/ Close CM N/C pen N/ CM CC Controller Supply 240V ac Fused at 5 Amps Essential Link N/C Heating Pump CC N/ CM Heating Pump CC Boiler 2 (ptional) Boiler 1 HWS 2 Enable HWS 1 Enable Heating Variable Temperature Valve ptional Digital/Relay utput, or use 0-10V output AUT1 Heating VT Pump Note CC = Control Circuit FTSS = Fixed Time Start/Stop Issue 1c 6-67

DY10 Issue 1c 6-68

Termination Wiring Diagram DY11 1 CT Heating Zone ptimum Start/Stop plus Economy ff feature. A timetable with two periods per day is featured. ne remote heating extension timer plus two display activated extension timers, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and ptimum Start set-points, with First Stage Frost Protection achieved via the heating pump. 2 HWS Stand-alone or linked to the boiler plant. Temperature control is via local thermostats. A timetable with two periods per day is featured. Two remote HWS extension timers plus two display activated extension timers, programmable up to seven days in advance. Individual optional use during summer schedule. Boiler Control ne or two boilers is selected via the menu with full sequencing and boiler rotation on fault available. Compensated Temperature Control on outside temperature and room temperature plus an advance off timer. Control and minimum set-points are adjustable. Alarms Volt free alarms are available for each boiler plus two for common plant faults. All alarms have a one minute delay prior to reporting. Meters Two volt free inputs have been provided for the reading of pulsed output utility meters. Issue 1c 6-69

DY11 Issue 1c 6-70

Menu Structure DY11 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone Year Timetables HWS No.1 Extensions HWS No.2 Controller Setup Status & Info Temps perator Codes Zone pt HWS No.1 Global Settings HWS No.2 Status Plant Settings Zone pt Meters Boilers Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-71

Soft Switches DY11 Soft Switch 1 n = 2 Boilers Used ff = 1 Boiler Used Soft Switch 2 n = HWS No. 1 calls on boiler plant ff = HWS No. 1 stands alone Soft Switch 3 n = HWS No. 2 calls on boiler plant ff = HWS No. 2 stands alone Soft Switch 4 n = HWS No. 1 active during summer schedule ff = HWS No. 1 not active during summer schedule Soft Switch 5 n = HWS No. 2 active during summer schedule ff = HWS No. 2 not active during summer schedule Issue 1c 6-72

Termination Wiring Diagram DY11 Remote Display Heating Space/Room Sensor Common Alarm Input 1 Common Alarm Input 2 Boilers Control Sensor System utside Sensor Heating Extension Timer Button HWS 1 Extension Timer Button HWS 2 Extension Timer Button Boiler 1 Common Fault Boiler 2 Common Fault Utility Meter 1 Utility Meter 2 Reserved Input RS485B RS485A +15V AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AUT2 AUT1 DIN1 DIN2 DIN3 DIN4 DIN5 DIN6 DIN7 DIN8 DIN9 UNUSED UNUSED EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C Boiler 2 CC N/ CM Boiler 2 CC N/C Boiler 1 CC N/ CM Boiler 1 CC N/C N/ CM N/C N/ CM N/C N/ CM N/C FTSS utput N/ CM FTSS utput N/C FTSS utput N/ CM FTSS utput Controller Supply 240V ac Fused at 5 Amps N/C Heating Pump CC N/ CM Heating Pump CC Boiler 2 (ptional) Boiler 1 HWS 2 Enable HWS 1 Enable Heating CT Pump Note CC = Control Circuit FTSS = Fixed Time Start/Stop Issue 1c 6-73

DY11 Issue 1c 6-74

Plant Schematic & Description DY12 6 Heating Zones ptimum Start/Stop with Economy ff feature. A timetable with one period per day is featured. ne remote heating extension timer, per zone, plus one display activated extension timer, programmable up to seven days in advance. User definable Rise/Fall rates plus Frost and Comfort set-points. 1 FTSS (Fixed Time Start/Stop) A timetable with one period per day is featured. ne remote extension timer plus one display activated extension timer, programmable up to seven days in advance. Issue 1c 6-75

DY12 Issue 1c 6-76

Menu Structure DY12 Clock Temps & Schedules Alarms Time Settings Week Timetables Zone 1 Year Timetables Zone 2 Extensions Zone 3 Zone 4 Controller Setup Status & Info Temps Zone 5 Zone 1 pt Zone 6 perator Codes Zone 2 pt Zone 7 Zone 3 pt FTST Global Settings Zone 4 pt Plant Settings Global ptimiser Zone 1 pt Zone 2 pt Zone 3 pt Zone 4 pt Zone 5 pt Zone 5 pt Zone 6 pt Zone 7 pt FTST Status Meters Zone 6 pt Zone 7 pt FTST Communications General Never Dial Never Answer Messages Change Text Issue 1c 6-77

Soft Switches DY12 Issue 1c 6-78

Termination Wiring Diagram DY12 Remote Display Zone 1 Space/Room Sensor Zone 2 Space/Room Sensor Zone 3 Space/Room Sensor Zone 4 Space/Room Sensor Zone 5 Space/Room Sensor Zone 6 Space/Room Sensor System utside Sensor Zone 1 Extension Timer Button Zone 2 Extension Timer Button Zone 3 Extension Timer Button Zone 4 Extension Timer Button Zone 5 Extension Timer Button Zone 6 Extension Timer Button FTSS Extension Timer Button Reserved Input RS485B RS485A +15V AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AUT2 AUT1 DIN1 DIN2 DIN3 DIN4 DIN5 DIN6 DIN7 DIN8 DIN9 UNUSED UNUSED EARTH NEUTRAL LIVE RLY8 RLY7 RLY6 RLY5 RLY4 RLY3 RLY2 RLY1 N/C N/ CM N/C FTSS utput N/ CM FTSS utput N/C n/pen N/ ff/close CM CC N/C n/pen N/ ff/close CM CC N/C n/pen N/ ff/close CM CC N/C n/pen N/ ff/close CM CC N/C n/pen N/ ff/close CM CC N/C n/pen N/ ff/close CM CC Controller Supply 240V ac Fused at 5 Amps Fixed Time Control Zone 6 Temperature Control Zone 5 Temperature Control Zone 4 Temperature Control Zone 3 Temperature Control Zone 2 Temperature Control Zone 1 Temperature Control Note CC = Control Circuit FTSS = Fixed Time Start/Stop Issue 1c 6-79

DY12 Issue 1c 6-80

SYSTEM MANUAL 7 Installation Mechanical Installation 7-3 Electrical Installation 7-4 Recommended Cable Types 7-4 Connecting a Digital Variable Temperature Valve 7-5 Connecting a Digital Diverting Valve 7-5 Connecting an Analogue Valve 7-5 Pump Control 7-6 HWS Control Using a valve 7-6 HWS Control Using a pump 7-7 HWS Control Stand alone 7-7 Issue 1c 7-1

SYSTEM MANUAL Issue 1c 7-2

SYSTEM MANUAL Mechanical Installation With all power supplies switched off mount the display unit in a suitable location and clip the controller onto your DIN rail. dyssey Display 1 05. 0 mm Remove the two screws from underneath to open the back panel. 247.00mm Location of Screws 28.00mm The rear panel to the display has four countersunk fixing holes and a larger hole to accommodate the lead that connects to the controller. The fixing points for the rear panel must be earthed. 229.00mm 82.00mm dyssey Display - Rear Panel ø5.50mm 3 8 ø3.00mm The dyssey controller is DIN rail mounted. The Controller can be separated from the termination board by carefully lifting it away from it s base. To replace this, simply line up the arrows on the termination board with those on the controller and firmly push into place. Controller Termination Board DIN Mounting Base 1 12. 0 0 mm 324.00mm 85.00mm Issue 1c 7-3

SYSTEM MANUAL Electrical Installation Connect all sensors, volt free alarms, utility meters and items of plant as shown in the Termination Wiring Diagram for your chosen scheme. When Connecting dyssey extension buttons, care should be taken with polarity, reversing the polarity cannot damage the dyssey or the button, but will prevent the LED within the button from illuminating. CN 1 on Display Controller RS485B RS485A +15V RS485B RS485A +15V Connect the controller to the remote display as shown. 0V 0V To fixing point on display rear panel. Fixing point must be earthed. Connect the earth tag provided to a fixing point on the rear panel of the dyssey display. Connect a suitable 240V ac Live, Neutral & Earth power supply to the unit. Recommended cable types for all applications: Application Cable Type Important Notes Specification Analogue Inputs AIN 1-8 Digital Inputs DIN 1-8 Analogue utputs AUT 1-2 2 Core, non-screened. Size: 0.5-2.5mm² 2 Core, non-screened. Size: 0.5-2.5mm² 2 Core, non-screened. Size: 0.5-2.5mm² Where more than one input is wired within a multi-core cable, a common 0V core may be used. Where more than one input is wired within a multi-core cable, a common 0V core may be used. Analogue utputs should not use a common 0v and be wired separately to each valve. (See connecting an analogue valve). Voltages not exceeding 60 volts: 4 core security / alarm style cable is suitable. RS Components 365-571 or equivalent Voltages exceeding 60 volts: cable to Def Stan 61-12 Part 5 should be used. RS Components 362-651 or equivalent, rated to 250V, or STC 16.2.2A or equivalent, rated at 660V Relay utputs RLY1-8 240V, 5A Supply dyssey Controller to remote display dyssey Controller to modem dyssey Controller to PC Size: up to 2.5mm² Size: up to 4mm² Screened 2 twisted pairs (4 core) Pre-formed lead, 2 metres in length, available from stockist Pre-formed lead, 2 metres in length, available in 9 or 25 pin format from stockist When not under load, the 240V on the Common contact will appear on both N/ & N/C contacts. This is normal and will not happen under load. Maximum Length: 1000 Metres ther lengths available upon request. Cable must comply with current regulations and recommended conductor sizes. Cable must comply with current regulations and recommended conductor sizes. RS Components 367-959 or equivalent. Stock Code: L/DY/MDEM. 25 pin serial Stock Code: L/DY/IBM. 9 pin serial Stock Code: L/DY/IBM/AT. Issue 1c 7-4

SYSTEM MANUAL Example Connections Digital Variable Temperature Valve Rly A Rly B N/C N/ Com N/C N/ Com Close pen Com If the valve is of the Digital or Drive up / Drive down type, two relays are used for control. Supply 24v ac / 240v ac When a digital valve is used, the supply must be connected to the common of relay A. The open signal is connected to the Normally Closed terminal on relay A. A link must be placed between the Normally pen terminal on relay A and the Common on relay B. The remaining close signal is connected to the Normally pen connection on relay B. Digital Diverting Valve Rly A N/C N/ Com pen Close Com If the valve is of the Digital or Drive up / Drive down type, one relay is used for control. Supply 24v ac / 240v ac When a digital valve is used, the supply must be connected to the Common of relay A, the open signal is connected to the Normally Closed terminal on relay A. The remaining close signal is connected to the Normally pen connection on relay A. Analogue Valve A A 0-10v 0v 0-10v Com 24v ac If the valve is of the Analogue or Low Voltage type, an analogue output is used to position the valve. Supply 24v ac The variable temperature mixing valve can be controlled by a 0-10v dc analogue signal for position and generally the valve would be supplied from a 24v ac power source. Great care must be taken to ensure the 0v for the valve supply (0-24v ac), is connected to the 0v of the 0-10v dc control voltage. A clean supply for the valve is recommended. Issue 1c 7-5

SYSTEM MANUAL Pump Control Rly A N/C N/ Com Supply Pump Control Circuit Pumps may be directly switched via the dyssey relays, taking care not to exceed the stated maximum resistive current. The supply is always connected to the common of the respective relay and the pump, or pump control circuit if a contactor is used, is connected to the Normally Closed terminal of the relay. HWS Control Using a valve for temperature control N/C pen Rly B N/ Com Close Com Rly A N/C N/ Com Live Com HWS Sec Pump Control Circuit Supply Live HWS Pri Pump Control Circuit Com Pumps may be directly switched via the dyssey relays, taking care not to exceed the stated maximum resistive current. The pump supply is always connected to the common of the respective relay and the pump, or pump control circuit if a contactor is used, is connected to the Normally Closed terminal of the relay. The valve supply is always connected to the common of the respective relay and the open signal is connected to the Normally Closed terminal of the relay. The close signal is connected to the Normally pen terminal of the relay. Issue 1c 7-6

SYSTEM MANUAL HWS Control Using a pump for temperature control Rly B N/C N/ Com Live Com HWS Pri Pump Control Circuit Rly A N/C N/ Com Live Com HWS Sec Pump Control Circuit Supply Pumps may be directly switched via the dyssey relays, taking care not to exceed the stated maximum resistive current. The pump supply is always connected to the common of the respective relay and the pump, or pump control circuit if a contactor is used, is connected to the Normally Closed terminal of the relay. HWS Control Using a stand-alone heater for temperature control Rly B Rly A N/C N/ Com N/C N/ Com Live Com Live Com HWS heater Control Circuit HWS Sec Pump Control Circuit Pumps may be directly switched via the dyssey relays, taking care not to exceed the stated maximum resistive current. Supply The pump supply is always connected to the common of the respective relay and the pump, or pump control circuit if a contactor is used, is connected to the Normally Closed connection of the relay. The heater supply is always connected to the common of the respective relay and the heater is connected to the Normally Closed terminal of the relay. Issue 1c 7-7

SYSTEM MANUAL Issue 1c 7-8

SYSTEM MANUAL 8 Commissioning You will need to have selected your Control Scheme prior to the installation, and it is recommended that you read the USER GUIDE, section 10. Configuration Scheme Menu Structure 8-3 Testing Analogue Inputs 8-5 Testing Digital utputs 8-5 Testing Digital Inputs 8-5 Testing Analogue utputs 8-5 Loading a Control Scheme 8-6 Erasing a Control Scheme 8-6 Issue 1c 8-1

SYSTEM MANUAL Issue 1c 8-2

SYSTEM MANUAL Menu Structure of the Configuration Scheme Clock Scheme Selection Change Scheme!! Pre-Commission Analogue Inputs Input 1 Input 8 Digital utputs Drive utput 1 Drive utput 8 Digital Inputs Input 1 Input 9 Analogue utputs Set An utput 1 Set An utput 2 Issue 1c 8-3

SYSTEM MANUAL Issue 1c 8-4

SYSTEM MANUAL dyssey comes complete with 12 control schemes pre-programmed into memory. In addition, there is a test scheme, called Pre-Commission that can be used to check that all inputs and outputs are working correctly following installation. Make sure that all wiring is installed and connected correctly both in the controller and to all remote equipment. Switch on the electrical supply to the dyssey, the display will indicate Loading Scheme. The Configuration Scheme will be automatically loaded, once completed the display will revert to the clock. Refer to the Menu Structure of the Configuration Scheme on page 8-3. To test all the analogue and digital inputs and outputs connected enter the menu option called Pre-Commission, by pressing the Up or Down keys. Press the Right button to enter the option. Use the Up or Down keys to select the input or output to test and press the Right key once to enter the chosen section. Analogue Inputs These can t be changed from the keypad and the status of the input is shown in C. Pressing the Up or Down keys will display each of the 8 inputs in turn. Where an input has not got a sensor connected the display will indicate a value of 14. When analogue inputs are used for alarms an open circuit state displays 14 and refers to a safe alarm condition. A value of 113 would indicate a closed circuit and refer to an active alarm condition. Digital utputs Pressing the Up or Down keys will display each of the 8 digital outputs in turn. A digital output can be energised the plant will be FF, or de-energised the plant will be N. To change the status of an output press the Right button once and a flashing up and down arrow will appear. Pressing the Up or Down keys will alter the status between energise and de-energise. Press the Right key once to confirm. Digital Inputs These can t be changed from the keypad and the status of each input is shown on the display. Pressing the Up or Down keys will display each of the 9 Digital Inputs in turn. (Input 9 is not used in any of the current dyssey control schemes and is reserved for future use). An open circuit or unused input will display Input Is High and a closed circuit input will display Input Is Low. Analogue utputs Pressing the Up or Down keys will display each of the 2 Analogue utputs in turn. The range displayed is from 0 to 255, where 0 represents a closed valve and 255 represents an open valve and an output of 10V. To change the status of an output press the Right button once and a flashing up and down arrow will appear. Pressing the Up or Down keys will alter the status between 0 (0V) and 255 (10V). Press the Right key to confirm. Issue 1c 8-5

SYSTEM MANUAL To return to the front of the Configuration Scheme, press the Left key until the display shows Pre-Commission. From here use the Up or Down keys to select the clock or Scheme Selection. Loading a Control Scheme When all inputs and outputs have been tested satisfactorily proceed to load the chosen control scheme; DY or dyssey 1 to 12. Press the Up or Down keys, from the front of the Configuration Scheme, to select Scheme Selection. Press the Right key to enter this section. The display will now show CHANGE SCHEME!! Press the Right key to change scheme and a flashing up and down arrow will appear and CHANGE SCHEME No. 12 will be displayed. Press the Up or Down keys to select a scheme and finally press the Right key to confirm. The display will show Loading Scheme and when the operation is complete the clock will be displayed. Note: The scheme loaded will contain the default settings as shown on page 6-5 Refer to the Menu Structure page for the selected scheme and, if necessary, Section 10 User Guide and adjust settings as required. Erasing a Control Scheme This section describes how to change an dyssey Control Scheme, or return to the Configuration Scheme. Refer to the Menu Structure for the current scheme in use. Select the option Controller Setup and press the Right key to enter. Press the Up or Down keys to display Global Settings and press the Right key to enter. The display will now show which scheme is currently loaded, for example, Active Software DYSSEY 1. Press the Up or Down keys until ERASE SCHEME!!! Press >] Twice is displayed. Press the Right key twice to confirm. The display will now show Loading Scheme and when the operation is complete will return to the clock. The Configuration Scheme is now loaded. A Control Scheme will need to be re-loaded for normal operation, as described on the previous page. Please note that the default settings will be loaded with each scheme. If a key press has not been detected for approximately 5 minutes the dyssey will change to displaying the clock. Issue 1c 8-6

SYSTEM MANUAL 9 System Components Temperature Sensors 9-3 Remote Extension Timer Buttons 9-7 24V ac Power Supply Unit 9-8 Modem 9-9 Interconnection Leads 9-9 ptional Enclosure 9-10 Issue 1c 9-1

SYSTEM MANUAL Issue 1c 9-2

SYSTEM MANUAL Temperature Sensors dyssey has a full compliment of industry standard 2 wire sensors available in it s range, comprising: DY/R An accurate, thermistor based room or space temperature sensor. The attractive low profile enclosure is manufactured in a tough nylon compound and designed to blend unobtrusively with any décor. Specification Colour: White flame retardant ABS Dimensions: 84(w) 30(d) 84(h) mm Protection: IP65 Weight: 72g Storage Temp. -65 C to 125 C perating Temp. 0 C to 70 C Temperature Range: 0 C to 50 C Power Consumption: 20mA Wiring: 2 Core low voltage cable Terminations: Terminals accept cable from 0.5-2.5mm diameter (flexible for final connection) Entry: Back entry unit conduit-box fixings Front: Plate Snap-n fixing with final screw and plastic cap Issue 1c 9-3

SYSTEM MANUAL DY/I A sensor with an immersible sensing element for the accurate measurement of water temperature. Specification Colour: Grey flame retardant ABS Weight: 228g Storage Temp. -65 C to 125 C perating Temp. 0 C to 70 C Temperature Range: 0 C to 110 C Pocket Type: ½ BSP probe fixed by compression fitting Pocket Length: 120mm Sensing Element: Thermistor type 10K3A1 Wiring: 2 Core low voltage cable Terminations: Terminals accept cable from 0.5-2.5mm diameter (flexible for final connection) Issue 1c 9-4

SYSTEM MANUAL DY/CL A clamp-on temperature sensor supplied with a jubilee strap suitable for pipes up to 120mm diameter. The sensing element is mounted inside a conductive aluminium block, which is clamped rigidly onto the pipe as the strap is tightened. Specification Colour: Grey flame retardant ABS Weight: 198g Storage Temp. -65 C to 125 C perating Temp. 0 C to 70 C Temperature Range: 0 C to 110 C Sensing Element: Thermistor type 10K3A1 Wiring: 2 Core low voltage cable Terminations: Terminals accept cable from 0.5-2.5mm diameter (flexible for final connection) Max. Pipe Diameter: 280mm Length of wire to probe: 1 metre Fitting: Probe fitted via jubilee clip with grub screw (supplied) Jubilee clip max. diameter: 150mm Issue 1c 9-5

SYSTEM MANUAL DY/ An outside air temperature sensor with the element mounted in a high quality, double insulated sealed enclosure. It should be mounted on a North-facing wall. The DY/ provides an accurate measurement of outside temperature. Specification Colour: Grey flame retardant ABS Weight: 102g Storage Temp. -65 C to 125 C perating Temp. 0 C to 70 C Temperature Range: -10 C to +50 C Sensing Element: Thermistor type 10K3A1 Wiring: 2 Core low voltage cable Terminations: Terminals accept cable from 0.5-2.5mm diameter (flexible for final connection) Issue 1c 9-6

SYSTEM MANUAL Remote Extension Timer Buttons DY/1X and DY/2X A single or double remote extension timer unit to provide either heating or hot water outside normal hours. Each press of a button will give 30 or 60 minute increments (selectable by the user) with a maximum of four presses. Specification Colour: White flame retardant ABS Dimensions: 84(w) 30(d) 84(h) mm Protection: IP65 Weight: 75g Storage Temp. -65 C to 125 C perating Temp. 0 C to 70 C Button(s): Momentary switching with integral LED Wiring: 2 or 4 Core low voltage cable Terminations: Screw terminal connectors accept cable from 0.5-1.5mm diameter Entry: Back entry unit conduit-box fixings Front: Plate snap-on fixing with final screw and plastic cap Issue 1c 9-7

SYSTEM MANUAL 24V ac Power Supply Unit A power supply capable of feeding 24V ac to external equipment, eg, motorised valves. The power supply unit can be DIN rail mounted. Specification Dimensions: 98(w) 45(d) 30(h) mm Weight: 221g Storage Temp. -65 C to 125 C perating Temp. 0 C to 70 C Supply: 240V ac utput: 24V ac at 6VA Wiring: 2 Core low voltage cable Terminations: Screw terminal connectors accept cable from 0.5-1.5mm diameter Mounting: DIN rail mounted Issue 1c 9-8

SYSTEM MANUAL Modem dyssey comes complete with a modem interface as standard. A Hayes compatible modem can be used when connected with a suitable lead, to provide remote interrogation. Interconnection Leads The following leads are available from stockists: dyssey Controller to Modem Stock Code: Length: L/DY/MDEM 2 Metres dyssey Controller to PC Stock Code 25 pin PC: Stock Code 9 pin PC: Length: L/DY/IBM L/DY/IBM/AT 2 Metres Issue 1c 9-9

SYSTEM MANUAL ptional Enclosure dyssey can be supplied, as an option, in it s own wall mounted enclosure. The enclosure comes complete with DIN rail fitted inside for the controller and holes pre-formed in the lid for mounting the display and accepting the interconnection cable between display and controller. 390.00mm 115.00mm 229.00mm 2 35.0 0 mm 82.00mm ø6.00mm ø4.00mm ø20.00mm Issue 1c 9-10

SYSTEM MANUAL 10 User Guide Navigate the Menu Structure 10-5 Set the Clock 10-6 Enter a Passcode 10-6 Change Zone Temperatures 10-7 Change the Times of the Heating 10-7 Cancel Part of a Timetable 10-8 Temporarily Extend the Working Hours 10-8 Cancel an Extension 10-9 Program a Year Ahead 10-10 Preset BST and GMT 10-10 Program a Summer Period 10-11 Program a Holiday 10-11 Set a ne Day Holiday 10-12 Cancel a Holiday 10-12 Change the Year Schedule 10-13 Set Weeks in a Year 10-13 Deal with Alarms 10-14 Change the Passcode 10-14 Issue 1c 10-1

SYSTEM MANUAL Issue 1c 10-2

SYSTEM MANUAL The dyssey energy management system controls the heating within your building to ensure that comfort conditions are maintained with maximum energy efficiency. Although the dyssey operates automatically for normal day to day use, you may find it necessary to make adjustments to the settings for changes to timetabled periods of occupancy, or to temporarily extend the normal operating hours, or to set holiday periods, etc. A simple menu structure allows you to view or make changes to settings and to view actual temperatures and the status of the heating plant. Refer to the Menu Structure page for your system. Four buttons allow you to navigate around the menu structure; up, down, left and right. See the section How To... Navigate the Menu Structure. The front panel of the dyssey is also fitted with two indicating lights, HEALTHY and ALARM. Under normal conditions the green HEALTHY light will flash. If it stops flashing there is a fault. Contact your supplier. The red ALARM light will be FF if there are no alarms, it will FLASH when there is an alarm condition that has not been accepted, and stay N if there are still alarms but have all been accepted. In addition, an audible alarm will sound if there is an alarm condition that has not been accepted. An alarm condition can occur to indicate a failure of the heating system. See the section How To... Deal with Alarms. Issue 1c 10-3

SYSTEM MANUAL Issue 1c 10-4

SYSTEM MANUAL 1. How To... Navigate the Menu Structure. The top line of the dyssey display indicates your current position in the menu. The bottom line of the display shows an arrow if there is a further depth of menu. Timetables Referring to the Menu Structure page, navigate around the menu using the up, down, left and right buttons. When the bottom line of the display shows a value, the top line of the display will indicate what it is. utside Temp 6.5 If the value displayed is an adjustable setting then pressing the right button will allow the setting to be changed and the display will now show a flashing vertical arrow. (May be subject to passcode, see How To...Enter a Passcode) Comfort Temp 19.5 Press the up or down buttons to adjust the setting. (If you hold down the up or down button the setting will auto increment). Pressing the right button again stops the flashing vertical arrow and enters the new value for the setting or if you have changed your mind and want to go back to the original value for the setting then press the left button. With some settings it is necessary to alter several individual parts of the setting one after another before the overall setting is entered. The flashing vertical arrow will appear by the part of the setting being adjusted. Pressing the right button will scroll through each part of the setting and each part can be adjusted using the up and down buttons. n reaching the final part of the setting pressing the right button enters the complete setting. As long as the vertical flashing arrow is still displayed you can scroll forward and backwards to each part of the setting by using the left and right buttons. Zone 1 Monday 1 19:14 17 :00 Example display showing the Monday timetable period 1 for Zone 1 with the off time hours part of the setting being adjusted. Timetable periods have four parts to the setting, on time hours, on time minutes, off time hours and off time minutes. Issue 1c 10-5

SYSTEM MANUAL 2. How To... Set the Clock. The "base display" of the dyssey shows the number of alarms and the time. No Alarms 14:14 Tue Wk 31 To change the clock press the right button (may be subject to passcode - see below) The display now shows a flashing vertical arrow: No Alarms 14:14 Tue Wk 31 Press the up/down buttons until the display shows the required setting for minutes. Press the right button again to make the change and move to the next setting. Repeat the process until all settings (minutes, hours, day and week number) have been made. 3. How To... Enter a Passcode. ften when you attempt to make an alteration to a setting you will be asked for your passcode. Three levels of passcode have been set and you will have been told by your supplier which passcode you should use. The passcode is four characters long. To enter your passcode press the right button. The first character now shows question mark. Passcode? Press the up/down buttons until the display shows the required character. Press the right button again to make the change and move to the next character. Repeat the process until all four characters have been set. You should now be able to alter the setting you wish. If not, then you have not used the correct passcode. Issue 1c 10-6

SYSTEM MANUAL 4. How To... Change the Temperature in the Zones. Refer to the Menu Structure page for your system. This will indicate which temperatures you are able to alter. A great deal depends upon the heating system that the dyssey is controlling. For example if you change the Comfort Temperature for "Heating Zone 1" the system might be able to control at this temperature throughout the day, or it might simply attempt to be at this temperature at the start of each day and use other factors for control thereafter. Referring to the Menu Structure, use the buttons to move to the required setting (for example Comfort Temperature for "Zone 1" or the Frost Temperature for "Zone 2"). pt Start Temp 19.5 To change the temperature press the right button (may be subject to passcode) The display now shows a flashing vertical arrow: Frost Temp 19.5 Press the up/down buttons until the display shows the required temperature. Press the right button again to make the change. 5. How To... Change the Times of the Heating. All times are set using the 24 hour clock. Each day of a timetable can have 1 or 2 periods. This means that, for example, the zone could use one period and be at the required temperature from 09:00 to 17:00, or use two periods and be at the required temperature from 09:00 to 12:30 and then again from 13:30 to 17:00. The times that you set in the timetables should be regarded as "occupancy times", that is you only need to specify the times people will be in the zones. The heating systems will not necessarily be on at exactly these times, the system is automatically set so that the heating will operate as required to maintain comfort conditions during these times. Refer to the Menu Structure page for your system. This will indicate which times you are able to alter, use the buttons to move to the required setting. Zone 2 Wednesday 1 08:30-16:45 To change the time press the right button (may be subject to passcode) The display now shows a flashing vertical arrow: Zone 2 Wednesday 1 08 :30-16:45 Press the up/down buttons until the display shows the required setting for hours. Press the right button again to make the change and move to the next setting. Repeat the process until all settings (on time hours, on time minutes, off time hours and off time minutes) have been made. Issue 1c 10-7

SYSTEM MANUAL 6. How To... Cancel Part of a Timetable. Set both the on time and the off time of the relevant period to midnight: Zone 1 Mon 2 00:00-00:00 This period of the timetable is then cancelled and displays the message "Unused". 7. How To... Temporarily Extend the Working Hours. Your system may have push button extension timers. If so, the system will extend the working hours for 30 minites or 1 hour (depending on how the dyssey has been programed) for each button press. For example, one button press will cause the system to run for an extra 30 minutes, two presses for an hour, etc, up to a maximum of four button presses. The button lamp will flash to indicate the number of presses made. Another way to organise overtime is to use the "extensions" feature since this can be programmed in advance to fit your requirements more exactly. These extensions are temporary alterations to timetables. They enable the heating for periods that the timetables do not cover. They differ from timetables in that when the extension is complete it self-cancels. You can pre-program an extension up to one week ahead. Refer to the Menu Structure page for your system. This page will indicate which zones you can extend, use the up/down buttons to move to the required setting. Zone 1 Ext No 1 Unused If the required extension is free the screen will read "Unused". If the required extension displays times then the extension is already programmed and you should only alter the extension after careful consideration. Issue 1c 10-8

SYSTEM MANUAL To set up or alter the extension press the right button (may be subject to passcode) The display now shows a flashing vertical arrow: Zone 1 Ext No 1 Wed 10:15-10:15 Press the up/down buttons until the display shows the required setting for day. Press the right button again to make the change and move to the next setting. Repeat the process until all settings (on time hours, on time minutes, off time hours and off time minutes) have been made Zone 1 Ext No 1 Sat 09:00-12:30 8. How To... Cancel an Extension. Your system may have push button extension timers. To cancel an extension made with these buttons, hold down the button for 5 seconds. The button will stop flashing. If a programmed extension is set it may be cancelled in the following way: Refer to the Menu Structure page for your system, this page will indicate which zones you can extend. Use the buttons to move to the required setting. The screen displays the current setting, for example: Zone 1 Ext No 1 Sat 09:00-12:30 To cancel the extension press the right button (may be subject to passcode) The display now shows a flashing vertical arrow: Zone 1 Ext No 1 Sat 09:00-12:30 Press the right button again to move to the next setting (hours). Set the on-hour so that it is the same as the off-hour. Repeat the process until the on times (hours and minutes) and the off-times (hours and minutes) are the same as one another. Zone 1 Ext No 1 Sat 12:30-12:30 The extension is now cancelled and displays the message "Unused". Issue 1c 10-9

SYSTEM MANUAL 9. How To... Program a Year Ahead. The dyssey enables you to preset the following for up to a year ahead: The number of weeks in a year (either 52 or 53). A "Summer" period when the heating would be programmed off, but any hot water would remain in operation. The times when British Summer Time is in force so that the clock changes to BST and back to GMT automatically. A number of "Holiday", periods when all heating and hot water would be off (although frost protection still remains in force). In addition, it is possible to switch to a "Normal", "Holiday", or "Summer" operation manually. You should set/reset your year timetable at least once a year, cancelling any holidays you have set. This is because, for example, the Easter Holiday is at a different time each year. 10. How To... Preset the System for BST and GMT. Referring to the Menu Structure, use the buttons to move to the required setting. BST From - To Unused To change the time press the right button (may be subject to passcode) The display now shows a flashing vertical arrow: BST From - To Sun 00 - Sun 00 Press the up/down buttons until the display shows the required day. Press the right button again to make the change and move to the next setting. Repeat the process until all settings (on-day, on-week, off-day, off-week) have been made. Important note: be sure that you have set the week correctly. Not all diaries agree about week numbers and whether a week starts on a Sunday or a Monday. The dyssey treats the start of a week as a Sunday. Issue 1c 10-10

SYSTEM MANUAL 11. How To... Program a Summer Period. A "Summer" period is when the heating would be programmed off, but the domestic hot water services would remain in operation. Referring to the Menu Structure, use the buttons to move to the required setting. Summer Unused To change the time press the right button (may be subject to passcode) The display now shows a flashing vertical arrow: Summer Sun 00 - Sun 00 Press the up/down buttons until the display shows the required day. Press the right button again to make the change and move to the next setting. Repeat the process until all settings (on-day, on-week, off-day, off-week) have been made. 12. How To... Program a Holiday. A number of HLIDAY periods can be set when all heating, hot water and lighting would be off (although frost protection still remains in force). Referring to the Menu Structure, use the buttons to move to the required setting. Holiday 3 Unused To change the time press the right button (may be subject to passcode) The display now shows a flashing vertical arrow: Holiday 3 Sun 00 - Sun 00 Press the up/down buttons until the display shows the required day. Press the right button again to make the change and move to the next setting. Repeat the process until all settings (on-day, on-week, off-day, off-week) have been made. Issue 1c 10-11

SYSTEM MANUAL 13. How To... Set a ne Day Holiday. Any "Holiday" or "Summer" period can be set to last for just one day. This is done by making the start day and the finish day the same. Referring to the Menu Structure, use the buttons to move to the required setting. Holiday 4 Unused To change the time press the right button (may be subject to passcode). The display now shows a flashing vertical arrow. Use the techniques described above in the sections How To Program a Summer Period and How To Program a Holiday until the display looks similar to this example: Holiday 4 Mon 34 - Mon 34 In this example the 4th Holiday schedule will give a one day holiday on the Monday of week 34. 14. How To... Cancel a Holiday. Any "Holiday" or "Summer" period can be cancelled. This is done by making the finish day the day before the start day. Referring to the Menu Structure, use the buttons to move to the required setting. Holiday 1 Mon 35 - Thu 37 To change the time press the right button (may be subject to passcode) The display now shows a flashing vertical arrow. Use the techniques described above in the sections How To Program a Summer Period and How To Program a Holiday until the display looks similar to this example: Holiday 1 Mon 35 - Sun 35 In this example the 1st Holiday Schedule will be cancelled on the next press of the right button and the display will show the message "Unused". Issue 1c 10-12

SYSTEM MANUAL 15. How To... Change the Year Schedule. It is possible to switch to "Normal", "Holiday", or "Summer" operation manually. However, at midnight the dyssey will revert back to any schedule pre-programmed for the year ahead. See 10, 12 & 13. Referring to the Menu Structure, use the buttons to move to the required setting. Current Schedule Normal To change the time press the right button (may be subject to passcode) The display now shows a flashing vertical arrow: Current Schedule Normal Press the up/down buttons until the display shows the required schedule. Press the right button again to make the change. 16. How To... Set the Number of Weeks in a Year. The dyssey enables you to set the number of weeks in a year. If you do not make this setting the system assumes 52 weeks in a year. ccasionally there are 53 weeks in a year. Referring to the Menu Structure, use the buttons to move to the required setting. Weeks in Year 52 To change the time press the right button (may be subject to passcode) The display now shows a flashing vertical arrow: Weeks in Year 52 Press the up/down buttons until the display shows the required number of weeks. Press the right button again to make the change. Issue 1c 10-13

SYSTEM MANUAL 17. How To...Deal with Alarms. The dyssey can monitor alarms. If an alarm occurs the red ALARM lamp will flash and the display will display the number of alarms. This message will flash. In addition, an audible alarm will sound if there is an alarm condition that has not been accepted. To view and accept the alarms refer to the Menu Structure, use the buttons to move to the Alarms menu. Any active but acknowledged alarms will be displayed with a steady message. Any active alarms that have not been acknowledged will have a flashing message. Boiler 1 Fault To acknowledge the alarm press the right button (may be subject to passcode). The alarm then displays a steady message. Depending upon the configuration of your system these alarms may have been reported automatically to a remote monitoring point. 18. How To... Change the Passcode. The dyssey can have 3 levels of passcode set. You will only be able to alter the passcode for your own level or a lower level (e.g. a level 2 user can change the level 1 or level 2 passcode, but not the level 3 passcode). To change the passcode refer to the Menu Structure, use the buttons and move to the required setting. Passcode 2???? If you are setting the passcode for the first time the screen shows 4 question marks (example above). If you are changing an existing passcode the screen shows the current passcode. To change the passcode press the right button. (You may need to give your existing passcode before you can go further.) Press the up/down buttons until the display shows the required character. Press the right button again to make the change and move to the next character. Repeat the process until all four characters have been set. Issue 1c 10-14

SYSTEM MANUAL 11 User Information Included in this section are templates that can be copied to fill in your own details. This section can also be used to make notes. Set-points 11-3 Timetables 11-4 Global Settings 11-5 Termination Wiring Diagram 11-7 Issue 1c 11-1

SYSTEM MANUAL Issue 1c 11-2

SYSTEM MANUAL Set-points Area Setpoint Default Value User Value Frost Temp 5 C pt Start Temp 21 C Heating EC 1 C All Heating FF Zones Max Rise Rate 30 Minutes/degree Max Fall Rate 30 Minutes/degree Extension Timer 30 Minutes per press Control Temp 80 C Minimum Temp 0 C Maximum Temp 82 C All utside Slope 16 (equivalent to 2 per Compensated degree) Valves Inside Slope 24 (equivalent to 3 per degree) Reference Temp 21 C Control Temp 65 C HWS Extension Timer 30 minutes per press Sec Pump /Run 15 Minutes Control Temp 82 C Minimum Temp 70 C Boilers utside Slope 8 (equivalent to 1 per degree) Advance ff 15 Minutes Global Settings 1 st Stage Frost 1 C EC FF DIFF 2 C Issue 1c 11-3

SYSTEM MANUAL Heating and Hot Water Timetable Day Default Period 1 Default Period 2 N FF N FF Monday 0830 1500 Un-used Tuesday 0830 1500 Un-used Wednesday 0830 1500 Un-used Thursday 0830 1500 Un-used Friday 0830 1500 Un-used Saturday Un-used Un-used Sunday Un-used Un-used Day Monday Tuesday Wednesday Thursday Friday Saturday Sunday User Period 1 User Period 2 N FF N FF Day Monday Tuesday Wednesday Thursday Friday Saturday Sunday User Period 1 User Period 2 N FF N FF Day Monday Tuesday Wednesday Thursday Friday Saturday Sunday User Period 1 User Period 2 N FF N FF Day Monday Tuesday Wednesday Thursday Friday Saturday Sunday User Period 1 User Period 2 N FF N FF Issue 1c 11-4

SYSTEM MANUAL Global Settings Setting Default Value Time of Year Winter BST From To Unused Summer Unused Weeks in Year 52 Holiday 1 Unused Holiday 2 Unused Holiday 3 Unused Holiday 4 Unused Extension 1 Unused Extension 2 Unused User Value Setting Default Value Time of Year Winter BST From To Unused Summer Unused Weeks in Year 52 Holiday 1 Unused Holiday 2 Unused Holiday 3 Unused Holiday 4 Unused Extension 1 Unused Extension 2 Unused Setting Default Value Time of Year Winter BST From To Unused Summer Unused Weeks in Year 52 Holiday 1 Unused Holiday 2 Unused Holiday 3 Unused Holiday 4 Unused Extension 1 Unused Extension 2 Unused Issue 1c 11-5

SYSTEM MANUAL Issue 1c 11-6

SYSTEM MANUAL Remote Display RS485B RS485A +15V AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AUT2 AUT1 DIN1 DIN2 DIN3 DIN4 DIN5 DIN6 DIN7 DIN8 DIN9 UNUSED UNUSED EARTH NEUTRAL LIVE RLY1 RLY2 RLY3 RLY4 RLY5 RLY6 RLY7 RLY8 N/C N/ CM N/C N/ CM N/C N/ CM N/C N/ CM N/C N/ CM N/C N/ CM N/C N/ CM N/C N/ CM Controller Supply 240V ac Fused at 5 Amps dyssey Termination Wiring Diagram Issue 1c 11-7

SYSTEM MANUAL Issue 1c 11-8

dyssey energy control issue 01c Allen Martin Conservation Ltd 2016 504 Dudley Road Wolverhampton WV2 3AA Tel: 01902 560065 www.allen-martin.co.uk