Bryan Boilers & 300 manuel d'utilisation

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Le mot vient du latin "Instructio", à savoir organiser. Ainsi, le manuel d’utilisation Bryan Boilers & 300 décrit les étapes de la procédure. Le but du manuel d’utilisation est d’instruire, de faciliter le démarrage, l'utilisation de l'équipement ou l'exécution des actions spécifiques. Le manuel d’utilisation est une collection d'informations sur l'objet/service, une indice.

Malheureusement, peu d'utilisateurs prennent le temps de lire le manuel d’utilisation, et un bon manuel permet non seulement d’apprendre à connaître un certain nombre de fonctionnalités supplémentaires du dispositif acheté, mais aussi éviter la majorité des défaillances.

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Tout d'abord, le manuel d’utilisation Bryan Boilers & 300 devrait contenir:
- informations sur les caractéristiques techniques du dispositif Bryan Boilers & 300
- nom du fabricant et année de fabrication Bryan Boilers & 300
- instructions d'utilisation, de réglage et d’entretien de l'équipement Bryan Boilers & 300
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes

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Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Bryan Boilers & 300 ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Bryan Boilers & 300 et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Bryan Boilers en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Bryan Boilers & 300, comme c’est le cas pour la version papier.

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Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Bryan Boilers & 300, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.

Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation Bryan Boilers & 300. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.

Table des matières du manuel d’utilisation

  • Page 1

    Date: 8-4-2010 Revision: 0 Form: 2396 Bryan S team LLC Inst allation and Operating Service Manual Triple-Flex High Efficiency Boilers[...]

  • Page 2

    Date: 8-4-2010 Revision: 0 Form: 2396 INSTALLATION AND OPERAT ION SERVICE MANUAL Triple-Flex 150, 200, 250, & 300 High Efficiency Boilers Bryan Steam LLC 783 North Chili Avenue * Peru, IN 46970 Phone 765.473.6651 • Fax 765.473.3074 E-mail: inquiry@bryansteam.com Internet: www.bryanboilers.co m[...]

  • Page 3

    Date: 8-4-2010 Revision: 0 Form: 2396 Table of Contents Bryan Steam LLC .............................................................................................................................. i Installation and Operating Service Manual ........................................................................................ i Table of Content[...]

  • Page 4

    Date: 8-4-2010 Revision: 0 Form: 2396 2.2.11 Operation Page ............................................................................................................ 22 2.2.12 Annunciation Page ....................................................................................................... 23 2.2.13 Modulation Configuration ..............[...]

  • Page 5

    Date: 8-4-2010 Revision: 0 Form: 2396 Tables Table 1 Minimum Clearance ............................................................................................................ 2 Table 2 Electrical Requirements ...................................................................................................... 4 Table 3 Boiler Draft ..........[...]

  • Page 6

    Date: 8-4-2010 Revision: 0 Form: 2396 Figure 35 Outdoor Reset Sensor Config uration ............................................................................ 26 Figure 36 Air / Gas Ratio Tappings ............................................................................................... 35 vi Figure 37 LL / Multi-Boiler Field Wiring ........[...]

  • Page 7

    Date: 8-4-2010 Revision: 0 Form: 2396 1 Section 1 Installation Instructions– Triple-Flex High Efficiency Boilers[...]

  • Page 8

    Date: 8-4-2010 Revision: 0 Form: 2396 Note: Please read and save for future reference the entire instruction man ual before attempting installation of or starting th e unit. Insurance and local or state regulatory codes m ay contain additional or more stringent requi rements than those contained in this ma nual. Installation must conform to these c[...]

  • Page 9

    Date: 8-4-2010 Revision: 0 Form: 2396 BE REMOVED after the boiler is set in-place on its concrete foundation before any piping/electrical connections a re made. It is recommended that the plastic protective cover be left on as long as possible to reduce finish damage from the installation. 1.4 B OILER C ONNECTIONS Do not run any pip es along the tu[...]

  • Page 10

    Date: 8-4-2010 Revision: 0 Form: 2396 valve shall be tested for leaks. 1.4.9 V ENTING O F G AS T RAIN C OMPONENTS Figure 2 Main Gas Inlet Connection Normally open vent valves (when su pplied) - These valves must be pip ed to outdoors using pipe no smaller than that of the valve. Gas pressure swit ches – All gas pre ssure switches provided are of [...]

  • Page 11

    Date: 8-4-2010 Revision: 0 Form: 2396 interlocked with the boiler to prevent boiler operation if the dampers are closed. Combustion air openings must never be blocked or obstructed in any manner. The boiler room must be at a positive or neut ral pressure relative to the outdoors. A negative in the boiler room will result in downdraft problems and i[...]

  • Page 12

    Date: 8-4-2010 Revision: 0 Form: 2396 specified. Where the louver and grille desig n and free area are not know, it shall be assumed that wood louvers have a 25 percent free area, and met louvers and grilles have 75 percent free area. Non-motorized l ouv ers and grilles shall be fixed in the open position. Screens Minimum Screen Mesh Size: Screens [...]

  • Page 13

    Date: 8-4-2010 Revision: 0 Form: 2396 Horizontal se ctions of t he flue vent system must be pitched back toward s the boiler at ¼ inch per foot to avoid condensate pooling and allow for proper drainage. Venting may be h orizontal, through the wall installation or vertical, through the roof installation. T he vent system, including terminus, must b[...]

  • Page 14

    Date: 8-4-2010 Revision: 0 Form: 2396 Combustion Air Supply Dampers, Louvers, and Grilles The free area of the combustion air supply opening shall be calculated by subtracting the blockage area of all fixed louvers, grilles or screens from the gross are a of the opening. Openings in a fixed louver , grille, or screen shall have no dimension smaller[...]

  • Page 15

    Date: 8-4-2010 Revision: 0 Form: 2396 1.8.1 H YDROSTATIC T EST O F B OILERS A ND S YSTEM After completing the boiler an d burner installation, the boiler connections, fittings, attachments and adjacent pipi ng must be inspected for leaks by filling the unit with water. The pressure should be gradually in creased to a pressure just below t he settin[...]

  • Page 16

    Date: 8-4-2010 Revision: 0 Form: 2396 10 Section 2 Start-Up and Operation Triple-Flex High Efficiency Boilers[...]

  • Page 17

    Date: 8-4-2010 Revision: 0 Form: 2396 WARNING: Improper servicing and start-up of this equipment may create a potential hazard to equipment, operators, or persons in the building. Only fully trained and qualified personnel should do servicing and start-up. WARNING: Before disconnecting or opening any fuel line, cleaning or replacing parts of any ki[...]

  • Page 18

    Date: 8-4-2010 Revision: 0 Form: 2396 the touch panel display. There is a soft switch (paragraph 2.2.11 ) provided with the SOLA hydronic control that will put the boiler into standby for an indefinite period of time. WARNING: The boiler on / off switch will not turn off the 3 phase high voltage power to the motor. 7. The boiler lockout reset butto[...]

  • Page 19

    Date: 8-4-2010 Revision: 0 Form: 2396 2.1.3 T RIPLE -F LEX L EFT S IDE V IEW Figure 5 Triple-Flex Left Side View 1. This jacket access panel will permit access to the primary air-to-air exchanger. 2. This jacket access panel will permit access to the primary air-to-air e xchanger and the boiler convection tube access panels. 3. These jacket access [...]

  • Page 20

    Date: 8-4-2010 Revision: 0 Form: 2396 NOTE: The low fire displacem ent final adjustment should be made at low fire only. 3. Main gas pressure regulating and sh utoff valve actuator. The pressure regulating actuator provides slow opening fast closin g safety shutoff and air/gas ratio control. The actuator controls t he pressure difference across the[...]

  • Page 21

    Date: 8-4-2010 Revision: 0 Form: 2396 block. 21. Control circuit transformer. 22. 24 volt ac transformer. 23. 12 volt dc power supply. 24. SOLA hydronic and flame supervision control. 25. Repeat cycle timer. This timer will ensure that a forced shut down and pre-start sa fety check is performed at least on ce in a 24 hour period. This timer has bee[...]

  • Page 22

    Date: 8-4-2010 Revision: 0 Form: 2396 Actual length and width a re 3 ⁄ 8” less than trade size shown. Filters meet UL Class 2 flame retardance requirements. Max imum temperature is 180° F. 2.1.8 T RIPLE -F LEX R IGHT F LUE C OLLECTOR V IEW Figure 11 Triple-Flex Right Flue Collector View 1. High primary air-to -air exchanger p ressure. This swi[...]

  • Page 23

    Date: 8-4-2010 Revision: 0 Form: 2396 NOTE: The boiler name m ay be cut off on the Home page when all boilers are present for the hydronic system. The Home page also includes a System Analysis button that allo ws the user to view status information on a system-wi de (that is, multiple boiler) basis. T he user can choose which status information to [...]

  • Page 24

    Date: 8-4-2010 Revision: 0 Form: 2396 2.2.5 S TATUS P AGE ► Figure 14 Status Page The status page (Figure 14) is di splayed when a boiler is selected on the Home pa ge. The status page displays the current condition of the boiler and displays some of the more important configuration settings. The boil er name is displayed in the title bar of the [...]

  • Page 25

    Date: 8-4-2010 Revision: 0 Form: 2396 applicable for the functional group on t he page (Figure 16). Figure 16 Sample Configuration Page These parameters can be edited, and when the user is finished, control return s back to the configuration menu page. Each parameter is displayed in its group. If there a re more parameters than will fit on the scre[...]

  • Page 26

    Date: 8-4-2010 Revision: 0 Form: 2396 validates all password entry attempts with the boiler, but doesn’t conduct the validat ion itself. The boiler has sole responsibility to accept a password entry. The display gets informat ion from each boiler about the access level settings for th e status and configuration parameters. The installer and OEM p[...]

  • Page 27

    Date: 8-4-2010 Revision: 0 Form: 2396 A verification step is required for ea ch safety parameter block that is changed. The verificatio n steps do not have to be completed immediately; the user can traver se between para meter groups before the verifications are done. If the user is logged in with the approp riate password and has changed a safety [...]

  • Page 28

    Date: 8-4-2010 Revision: 0 Form: 2396 button turns red (Figure 22 ). On all other pages and when the user i s looking at a different boiler, a notification dialog box displays indicating which boiler just locked out. Figure 21 Home Page Lockout Figure 22 Status Page Lockout Selecting the info bar will display the history dialog. If none of the butt[...]

  • Page 29

    Date: 8-4-2010 Revision: 0 Form: 2396 annunciation information, and switch between heating loops (Central Heat and Domestic Hot Water), as shown in Figure 25. If a password is required to change a ny of the settings on this page, the user can p ress the Login button to enter the password. 2.2.12 A NNUNCIATION P AGE ► ► OPERATION ► ANNUNCIATIO[...]

  • Page 30

    Date: 8-4-2010 Revision: 0 Form: 2396 the user to manually control the firi ng rate while the boiler is firing. The third option can be selected to change the rpm of the blower while the boiler is off or in standby. The manual firing rate can be changed by pressin g the clear button and entering the n ew value or by using the up and down arrows. To[...]

  • Page 31

    Date: 8-4-2010 Revision: 0 Form: 2396 calibrated. When the screen i s touched in a spot and unexpected result s occur this is a good indication that the display needs to be calibrated. To calibrate the tou ch screen select the ‘ Calibrate ’ button and fo llow the on screen directions. Try using a stylus of some kind if the problem persists. The[...]

  • Page 32

    Date: 8-4-2010 Revision: 0 Form: 2396 (Figure 34). The normal reset curve is shown in green and the time of day is red. Figure 34 Outdoor Reset Curve ► ► CONFIGURE ► SENSOR CONFIGURATION ► (Sensor) S5 (J8-11) sensor ► (Connector type) 10K NTC single non-safety ► (Outdoor temperature source) S5 (J8-11) sensor Figure 35 Outdoor Reset Sens[...]

  • Page 33

    Date: 8-4-2010 Revision: 0 Form: 2396 2.2.21 C ENTRAL H EAT C ONFIGURATION ► ► CONFIGURE ► CH - CENTRAL HEAT CONFIGURATION Figure 36 Central Heat Configuration ( Central Heat Page) CH enable Disable or Ena ble Central Heating Loop Demand switch Sensor for Central Heat demand: Sensor only Sensor & STAT terminal Sensor & Remote Stat LCI[...]

  • Page 34

    Date: 8-4-2010 Revision: 0 Form: 2396 Decibel Readings Model Front Rear Tube Side Right Side TF150 55.5 58.0 59.5 58.5 TF200 62.1 65.1 66.3 65.4 TF250 77.7 82.8 82.7 82.8 TF300 77.7 82.8 82.7 82.8 28 Table 6 Sound Pressure Readings[...]

  • Page 35

    Date: 8-4-2010 Revision: 0 Form: 2396 2.2.23 M ODBUS C OMMUNICATION The hydronic control Global Modbus po rt is a 3- pin connector that interfaces to the following RS- 485 signals: Table 7 Modbus Terminals Signal Terminal Data + a Data - b Common c Modbus connections can b e made at the display (Figure 3 item 5) or the hydronic control (Figure 7 it[...]

  • Page 36

    Date: 8-4-2010 Revision: 0 Form: 2396 30 53 Illegal Modbus read was attempted 54 Safety processor brown-out reset occurred 55 Application processor wat chdog reset occurred 56 Application processor b rown-out reset occurred 57 Safety processor watchdog reset occurred 58 Alarm was reset by the use r at the control 59 Burner control firing rat e was [...]

  • Page 37

    Date: 8-4-2010 Revision: 0 Form: 2396 31 129 Slow start ramp setting of zero will result in no modulation rate change 130 RESERVED 131 CH demand source was inv alid 132 CH P-gain was invalid 133 CH I-gain was invalid 134 CH D-gain was invalid 135 CH OFF hystere sis was invalid 136 CH ON hysteresis was inv alid 137 CH sensor type wa s invalid 138 CH[...]

  • Page 38

    Date: 8-4-2010 Revision: 0 Form: 2396 32 263- 271 RESERVED 272 Abnormal Recycle: Pressure sensor fault 273 Abnormal Recycle: Safety relay drive test failed 274 Abnormal Recycle: Demand off during Pilot Flame E stablishing Period 275 Abnormal Recycle: LCI off during Drive to Purge Rate 276 Abnormal Recycle: LCI off during Measured Purge Time 277 Abn[...]

  • Page 39

    Date: 8-4-2010 Revision: 0 Form: 2396 33 323 Abnormal Recycle: Safety Relay off after 10 seconds of RUN 324 Abnormal Recycl e: Hardware flame bias 325 Abnormal Recycle: Hardware static flame 326 Abnormal Recycl e: Hardware flame current invalid 327 Abnormal Recycl e: Hardware flame rod short 328 Abnormal Recycle: Hardware invalid power 329 Abnormal[...]

  • Page 40

    Date: 8-4-2010 Revision: 0 Form: 2396 469 Internal error: EEPROM days count address was invalid 470 Internal error: EEPROM hours count address was invalid 471 Internal error: Loc kout record EEPROM index was invalid 472 Internal error: Request to write P M status was invalid 473 Internal error: PM param eter address was invalid 474 Internal error: [...]

  • Page 41

    Date: 8-4-2010 Revision: 0 Form: 2396 2.3 B OILER C OMMISSIONING NOTE: All of the installation inst ructions found i n section 1 must be completed before com missioning the boiler. WARNING: The following procedures must be followed carefully before putting the boiler in operation. Failure to d o so will present severe hazards to equipment, operatin[...]

  • Page 42

    Date: 8-4-2010 Revision: 0 Form: 2396 WARNING: Do not open the manual main gas cock (Figure 7 item 4) before all pre checks, setups, and dry runs have been successfully completed. With a voltmeter check for the proper incomi ng main voltage and the proper control voltage from the control circuit transf ormer. Refer to the electrical wiring dia gram[...]

  • Page 43

    Date: 8-4-2010 Revision: 0 Form: 2396 WARNING: During pilot adjustment leave the manual main gas cock (Figure 7 item 4) closed. NOTE: Pilot gas pressures in excess of the recommended will lead to the formation of carbon hairs that will ground out the pilot igniter causing a safety shutdo wn. 2.3.6 I NITIAL L IGHT O FF Open the manual main gas co ck[...]

  • Page 44

    Date: 8-4-2010 Revision: 0 Form: 2396 Gas Manifold Pressure (IWC) 4.4 3.6 4.0 2.0 Max RPM 6000- 7000 5100- 5500 3550- 4200 2700- 2850 Low Fire Gas Manifold Pressure (IWC) .3 .3 .2 .2 Min RPM 1200- 1600 1200- 1600 800- 950 800- 950 Table 9 Approximate Boiler Settings 2.3.9 G AS M ETER R EADINGS Burner input rate can b e checked by taking readings fr[...]

  • Page 45

    Date: 8-4-2010 Revision: 0 Form: 2396 2.4 T ROUBLESHOOTING To support the recommended Troubles hooting, the R7910 ha s an Alert File. Review the Alert history for possible trends that may have been occurri ng prior to the actual lockout. Note Column: H = Hold message L = Lockout message H or L = either Hold or Lockout depen ding on Parameter Config[...]

  • Page 46

    Date: 8-4-2010 Revision: 0 Form: 2396 Code Description Recommended Troubl eshooting of Lockout Codes Code 15 Internal fault: Safety relay test failed due to feedback ON L 16 Internal fault: Safety relay test failed due to safety relay OFF L 17 Internal fault: Safety relay test failed due to safety relay not OFF L 18 Internal fault: Safety relay tes[...]

  • Page 47

    Date: 8-4-2010 Revision: 0 Form: 2396 Code Description Recommended Troubl eshooting of Lockout Codes Code 32-46 Internal fault: Safety Key 0 through 14 L 47 Flame Rod to ground leakage H 48 Static flame (not flickering) 41 H 49 24VAC voltage low/ high 1. Check the Module and display conn ections. 2. Check the Module power supply and make su re that[...]

  • Page 48

    Date: 8-4-2010 Revision: 0 Form: 2396 42 Code Description Recommended Troubl eshooting of Lockout Codes Code 68 ILK ON This lockout occurs when t he interlock string is closed before the blower starts. The airflow switch is the only device in the interlock string that will open w hen in standby. Probable causes are. 1. Air pressure in the boiler ro[...]

  • Page 49

    Date: 8-4-2010 Revision: 0 Form: 2396 43 Code Description Recommended Troubl eshooting of Lockout Codes Code 2. Replace the stack sensor. 3. If previous steps are correc t and fault persists, replace the module 96 Outdoor sensor fault 1. Check wiring and correct any possible errors. 2. Replace the outdoor sensor. 3. If previous steps are correc t a[...]

  • Page 50

    Date: 8-4-2010 Revision: 0 Form: 2396 44 Code Description Recommended Troubl eshooting of Lockout Codes Code 122 Lightoff rate proving failed L 123 Purge rate proving failed 1. Check wiring and corre ct any potential wiring errors. 2. Check VFDs ability to change sp eeds. 3. Change the VFD 4. If the fault persists, replace the module. L 124 High fi[...]

  • Page 51

    Date: 8-4-2010 Revision: 0 Form: 2396 45 Code Description Recommended Troubl eshooting of Lockout Codes Code 1. Check wiring and corre ct any potential wiring errors. 2. Check High Fire Swit ch to assure proper function (not welded or jumpered). 3.Manually drive the motor to the High Fire position and adjust the HF switch while in thi s position an[...]

  • Page 52

    Date: 8-4-2010 Revision: 0 Form: 2396 46 Code Description Recommended Troubl eshooting of Lockout Codes Code 165 Block intake OFF 1. Check wiring and correct any errors. 2. Inspect the Block Intake Switch to make sure it is working correctly. 3. Reset and sequence the module. 4. During Standby and Purge, m easure the voltage across the switch. Supp[...]

  • Page 53

    Date: 8-4-2010 Revision: 0 Form: 2396 Code Description Recommended Troubl eshooting of Lockout Codes Code 196 Invalid ignition source settin g L 197 Invalid in terlock open response setting L 198 Invalid in terlock start check setting L 199 Invalid LCI enable setting L 200 Invalid lightoff rate setting L 201 Invalid lightoff rate proving setting L [...]

  • Page 54

    Date: 8-4-2010 Revision: 0 Form: 2396 Code Description Recommended Troubl eshooting of Lockout Codes Code 219 Invalid Stack limit response setting L 220 Unconfigured Delta T limit setpoint setting L 221 Unconfigured DHW high limit setpoint setting L 222 Unconfigured Outlet high limit setpoint setting L 223 Unconfigured Stack limit setpoint setting [...]

  • Page 55

    Date: 8-4-2010 Revision: 0 Form: 2396 49 Code Description Recommended Troubl eshooting of Lockout Codes Code 241- 255 RESERVED[...]

  • Page 56

    Date: 8-4-2010 Revision: 0 Form: 2396 50 Section 3 Care and Maintenance[...]

  • Page 57

    Date: 8-4-2010 Revision: 0 Form: 2396 WARNING: The boiler area should be kept free of combustible materials, gasoline and other flammable liquids. The boiler and venting system must be kept free of obstructions of the air louvers. The following procedures must be conducted as outlined to prevent damage to and assure safe operation of the boiler. Al[...]

  • Page 58

    Date: 8-4-2010 Revision: 0 Form: 2396 3.1.3 D RAINING T HE S YSTEM A clean neutral hot water system sho uld not be drained, except for an emergency or when unavoidable for servicing of equipment. See Section 3.3 for wate r treatment required when refilling. 3.2 R EPLACEMENT B OILER I NSTALLATIONS : P ROTECTION A GAINST C ORROSION A ND S EDIMENT Cle[...]

  • Page 59

    Date: 8-4-2010 Revision: 0 Form: 2396 not less than four times a year, and possibly more frequently as the l ocal water conditions may indicate. All water introduced into the boiler should be softened a nd should include a n oxygen scavenger like so dium sulfite. This is required to remove dissol ved oxygen from the water. Dissolved oxygen will cau[...]

  • Page 60

    Date: 8-4-2010 Revision: 0 Form: 2396 inspected at least annually. Any accumulation of soot or debris should be thoroughly cleaned out. 2. If the yearly inspection of the boiler tube surfaces reveals a build-up of soo t (carbon), the tubes surfa ces should be thoroughly brushed. Fail ure to do so may result in fire or asphyxiation hazards. 54 3. Th[...]

  • Page 61

    Date: 8-4-2010 Revision: 0 Form: 2396 55 Section 4 Lead Lag[...]

  • Page 62

    Date: 8-4-2010 Revision: 0 Form: 2396 There are parameters that are available to set the features for Lead Lag. Many of the descriptions used are internal functions or tables. The names help d efine the functions but are not controlled or selecta ble outside Sola, unless noted as a pa rameter. 4.1 G ENERAL D ESCRIPTION O F T HE L EAD L AG A PPLICAT[...]

  • Page 63

    Date: 8-4-2010 Revision: 0 Form: 2396 or drop a stage if the run-l imiting is providing too much heat (for exa mple if a stage is running at a higher-than command ed rate due to anti- condensatio n). By adjusting the parameters in an extreme way it is possible to define a dd-stage and drop-stage conditions that overlap or even cross over ea ch othe[...]

  • Page 64

    Date: 8-4-2010 Revision: 0 Form: 2396 4.3 S YSTEM W IRING H OOKUP Figure 40 LL / Multi-Boiler Field Wiring 58[...]

  • Page 65

    Date: 8-4-2010 Revision: 0 Form: 2396 4.4 L EAD -L AG O PERATION This is a summary of the functional capability of the embedded lead-lag on the Sola control. OEM Configurable parameters may be adjusted as part of the OEM facto ry configuration and in the field using the System Display with appropriate password perm ission s. Specific parameters may[...]

  • Page 66

    Date: 8-4-2010 Revision: 0 Form: 2396 Baseload common (i) “BL” for baseloa d (ii)User selection 0 – 100 % (d)Use existing timeout, Done button, and Next button functionality to enter these parameters. (e)User selections will be selected by MMI. (i) T he local display does not adhere to the PCB (OEM parameter selections used by S7999). (5) In [...]

  • Page 67

    Date: 8-4-2010 Revision: 0 Form: 2396 algorithm. (Any Solas set to Use First will precede any that are set t o Equalize Run time.) If set to Use Last, then this burner will be used only after all Use First and Equ alize Runtime Solas have been brought online. SLAVE SEQUENCE ORDER: 0-255 Slave sequence order is used to determine the order in which S[...]

  • Page 68

    Date: 8-4-2010 Revision: 0 Form: 2396 off all slaves and enters an idle or standby condition. 4.7.2 P ERIODIC D ATA P OLLING MESSAG ES The LL master uses polling to discover new slave Sola devices and to periodically refresh the information it has about a kno wn slave Sola devices. Thereafter it polls the known de vices to make sure they are still [...]

  • Page 69

    Date: 8-4-2010 Revision: 0 Form: 2396 momentary communication problem s and to act on these if they are excessive. • StatusReadFaultCounter : Used to tolerate momentary communication problem s and to act on these if they are excessive. • AbnormalFaultCounter : Used to tolerate momentary abnormality • StagingOrder : Used to record the stage-on[...]

  • Page 70

    Date: 8-4-2010 Revision: 0 Form: 2396 LL CH DEMAND SWITCH: DISABLE, STAT, ENVIRONCOM REMOTE STAT The inputs that can function as the CH demand switch are: STAT, EnvironCOM Remote Stat. If the CH demand swit ch value is Disable , the LL master does not respond to CH d emand. Warm Weather Shutdown WARM WEATHER SHUTDOWN ENABLE: DISABLE, SHUTDOWN AFTER[...]

  • Page 71

    Date: 8-4-2010 Revision: 0 Form: 2396 following sources of dem and. All sources that are currently calling for he at will be true (multiple items may be true at the sa me time) except when WWSD is active, then CH demand is inhibited. CH Demand CH Frost demand – true if any slave is calling for CH frost pr otection and Frost protection enable is t[...]

  • Page 72

    Date: 8-4-2010 Revision: 0 Form: 2396 that way until the 4- 20mA signal is stable again. LL CH 20MA WATER TEMPERATURE: TEMPERATURE OR NONE CH 4MA WATER TEMPERATURE: TEMPERATURE OR NONE These provide the 20mA and 4mA temperatures for the interpolation curve. If either of these have the None value, are invalid, are out of rang e, or are too close for[...]

  • Page 73

    Date: 8-4-2010 Revision: 0 Form: 2396 algorithms are used. Additionally: 4.7.7 R ATE A DJUSTMENT When the Slave dropout/return compensation parameter specifie s a rate adjustment and a rate compensation event occurs (a slav e leaves while firing, or a slave returns) then rate adjustment will alter the in tegrator value so that the commanded rate co[...]

  • Page 74

    Date: 8-4-2010 Revision: 0 Form: 2396 Lead Lag burner de mand will be present when Frost protection burne r demand is true, as described in the section on Frost protection. For the CH, and DHW deman d sources, Lead Lag burner demand will be true when one of these is true and also setpoi nt demand from the hysteresis block is true. 4.7.9 R ATE A LLO[...]

  • Page 75

    Date: 8-4-2010 Revision: 0 Form: 2396 the LL master is not asking for less heat tha n this, then the underflow rate is 0%. If it is at this location and the LL master is asking for 10% less than the threshold value, then the underflow rate is -10%. If the last stage is 5% above the threshold then the underflow rate is 5%. Rate allocation methods PA[...]

  • Page 76

    Date: 8-4-2010 Revision: 0 Form: 2396 4.7.10 B URNER D EMAND The stager checks the Master’s LL burner demand. If this demand is off all slaves with SlaveStates of AddStage, SuspendStage, or Firing are set to Available by the Rate Allocator turning them all off and the StagerState is set to be Idle. STAGERSTATE = IDLE WITH SLAVES ACTIVE If the sta[...]

  • Page 77

    Date: 8-4-2010 Revision: 0 Form: 2396 Stager can execute an AddStage or DropStage request. Add Stage Methods Various methods can be used to determi ne when a new stage should b e added. The intern al algorithms that generate AddStageRequests are called Add-stage methods. All methods work by observing various criteria such as the Firing stages, the [...]

  • Page 78

    Date: 8-4-2010 Revision: 0 Form: 2396 that: Drop-Sta ge detection time is used with DropStageDetectTimer In the descrip tions below, the relevant parameter is referred to as LL – Dro p Stage detection time N } . Drop-Stage method: Disable, Error threshold, Rate threshold, dError/dt and threshold, dRate/dt and threshold DROP-STAGE ERROR T HRESHOLD[...]

  • Page 79

    Date: 8-4-2010 Revision: 0 Form: 2396 hysteresis is ignored if one or more lag boile rs are firing. • If LDSE is enabled: The Burner Off threshold provided by LL off hysteresis is ignored also for the lead boiler when it is firing solo (i.e. when no lag boilers are firing). • If LDSE is disabled: When the lead is firing solo and the operating p[...]

  • Page 80

    Date: 8-4-2010 Revision: 0 Form: 2396 assigning an ordering numbe r and that the lowest numbers are the first to be added. • Any Available slaves that have a mode of Use First will have the lowest ordering numbers. If two or more Use Fi rst boilers exist, the y are numbered according to their assigned S lav e sequence order or Modbu s address if [...]

  • Page 81

    Date: 8-4-2010 Revision: 0 Form: 2396 StagingOrder numbers of all Firing boilers. If only one Firing boiler is found, or none are found, then this selection function returns a value that indicates no boiler may be dropped. Otherwise it returns an identifier for the boiler having the highest StagingOrder number . SEQUENCER 1 MINUTE EVENT Part of the[...]