PHOENIX DIGITAL PLANT CONTROLLER. Product Manual Part Number: PD Issue 7, March 2009 Engineer: M.F. Approval: H.D. Written: B.T.

Transcription

1 PHOENIX DIGITAL PLANT CONTROLLER Product Manual Part Number: PD Iue 7, March 2009 Engineer: M.F. Approval: H.D. Written: B.T. PECO PECO II, Inc. II, 1376 Inc State State Route Route , Galion, Galion, OH OH Phone: Phone: Viit u (PECO) on the web Viit at u on the web at

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3 TABLE OF CONTENTS TABLE OF CONTENTS...3 LIST OF TABLES...7 LIST OF FIGURES...7 FOREWORD...10 PRODUCT INFORMATION...10 WARNINGS...11 CAUTIONS...11 SECTION 1: LET S GET STARTED GENERAL INITIAL TURN-ON OBSERVATIONS USER CONTROL AND DISPLAY INFORMATION HELP INFORMATION CONTROLLER BUTTON FUNCTIONS FLOAT / EQUALIZE MODE AND VOLTAGE SETPOINT: HOW TO SELECT FLOAT / EQUALIZE MODE: HOW TO SET THE FLOAT / EQUALIZE VOLTAGE SETPOINTS ALARM SETPOINTS RECTIFIER RUN / STANDBY VIEWING ACTIVE ALARMS VIEWING INDIVIDUAL RECTIFIER CURRENT SET RECTIFIER MAX CURRENT LIMIT...21 SECTION 2: GENERAL CONTROLLER INFORMATION GENERAL LCD SCREEN PRIMARY ALARM LED INDICATORS MENU PUSHBUTTONS PLANT TEST POINT STEP PUSHBUTTON, LEDS, AND TEST JACKS MANUAL BATTERY DISCONNECT SLIDE SWITCH AUDIABLE ALARM CUT-OFF PUSHBUTTON AND LED LED STATUS INDICATORS RELAY CONNECTIONS ETHERNET CRAFT PORT OPTIONAL BATTERY / SHUNT MONITORING MODULE (ADAC) HARDWIRED BACKUP CONTROLLER ACRONYMS...28 SECTION 3: ALARMING, BTC CONNECTIONS, TEMPERATURE PROBE INSTALLATION, PLANT INTERCONNECT CARD FUSE INFORMATION, AND REMOTE CONTROLLER SECURITY ALARMS ALARM CARD JUMPER SELECTION AMBIENT TEMPERATURE PROBE INSTALLATION BATTERY TEMPERATURE COMPENSATION PROBE CONNECTION PLANT INTERCONNECT CARD GMT FUSE INFORMATION REMOTE CONTROLLER SECURITY...34 SECTION 4: NAVIGATING THE USER INTERFACE FOR THE DIGITAL PLANT CONTROLLER GENERAL MAIN SCREEN SUBMENU PLANT...38 Iue 7, March 2009 Page 3

4 4.4.1 STAT CTRL INFO SETP CONFIG ALRM BATT STAT CTRL INFO SETP DIST STAT CTRL INFO SETP TEST LED RELAY TEST SELECT SYST STAT CNFG INFO STAT CTRL INFO SETP CONV STAT CTRL INFO SETP...60 SECTION 5: DETAILED CONTROLLER BATTERY FUNCTIONS BATTERY MANAGEMENT HIGH FLOAT CURRENT ALARM BATTERY STRING CURRENT VARIANCE ALARM BATTERY STRING CURRENT VARIANCE ALARM CONTROLLED RECHARGE BATTERY CONTROLLED RECHARGE SETUP STATUS REPORTING HIGH FLOAT CURRENT ALARM THEORY HIGH FLOAT CURRENT THRESHOLD HIGH FLOAT FACTOR HIGH FLOAT CURRENT DELAY HIGH FLOAT CURRENT ALARM SETUP MODES OF OPERATION: TOTAL BATTERY CURRENT MONITORING TOTAL BATTERY AMPERE-HOUR:...68 SECTION 6: CONTROLLER OPERATIONAL CHECKOUT GENERAL INITIAL PHOENIX DIGITAL PLANT CONTROLLER START UP ROUTINE HARDWIRED BACKUP CONTROLLER FUNCTIONAL TEST (BASIC FUNCTION) HARDWIRED BACKUP CONTROLLER FUNCTIONAL TEST (FULL FUNCTION)...70 Page 4 Iue 7, March 2009

5 SECTION 7: TROUBLESHOOTING GENERAL SELECTABLE PLANT TEST POINT FUNCTION FAULT / STATUS REPORTNG RECTIFIER / CONVERTER COMMUNICATION CONTROL FAIL SYSTEM ALARM DESCRIPTIONS...78 SECTION 8: ADAC INFORMATION (OPTIONAL EQUIPMENT) GENERAL MONITORED POINTS BATTERY/SHUNT MONITOR MODULE TYPES ADAC BATTERY/SHUNT MONITOR MODULE ID (TYPE) CONNECTING THE BATTERY/SHUNT MONITOR MODULE MECHANICAL INSTALLATION ELECTRICAL CONNECTIONS POWER CONNECTION LOAD SHUNT CONNECTIONS BATTERY STRING / MONITORING CONNECTIONS BATTERY SENSE CONNECTIONS CAN CONNECTION AND JUMPER LOCATION JUMPER LOCATION CAN CONNECTION LOCATION LED ASSIGNMENTS AND INDICATIONS POWER LED (GREEN): LED D17 (GREEN): LED D18 (GREEN): LED D19 (AMBER): LED D20 (RED): TYPE 1 MODULE ( P) TYPE 2 MODULE ( P) TYPE 3 MODULE ( P)...88 ANALOG CHANNEL ASSIGNMENTS BATTERY/SHUNT MONITOR MODULE SET-UP EXTERNAL MONITORS EQUIPPED (EXT MON EQUIP) BATTERY CONTROL BATTERY SETPOINTS BATTERY STATUS DISTRIBUTION CONTROL DISTRIBUTION SETPOINTS DISTRIBUTION STATS SETUP DISTRIBUTION STATUS...96 SECTION 9: SERIAL AND ETHERNET CONNECTIONS GENERAL CRAFT PORT (SERIAL INTERFACE) CONNECTION ETHERNET CONNECTION SETTING PHOENIX DIGITAL CONTROLLER TO COMMUNICATE VIA THE CRAFT PORT TEXT INTERFACE STRUCTURE COMMUNICATING WITH THE CONTROLLER VIA A SERIAL TERMINAL CONNECTION HYPERTERMINAL SETUP CONNECTION DESCRIPTION CONNECT TO COM1 PROPERTIES HYPERTERMINAL STARTED PASSWORD REQUEST MAIN SCREEN Iue 7, March 2009 Page 5

6 9.7 CHANGING THE IP ADDRESS VIA A SERIAL TERMINAL CONNECTION MAIN SCREEN COMMUNICATION CONFIGURATION NETWORK SETTINGS MANUAL RESET BUTTON COMMUNICATING WITH THE CONTROLLER VIA HTTP WEBPAGE LAYOUT PLANT > STATUS PLANT > CONTROL PLANT > INFORMATION PLANT > SET POINTS PLANT > CONFIGURATION PLANT > STATS SETUP ALARMS > ALARM STATUS ALARMS > ALARM HISTORY BATTERIES > STATUS BATTERIES > CONTROL BATTERIES > SET POINTS DISTRIBUTION > STATUS DISTRIBUTION > CONTROL DISTRIBUTION > SET POINTS DISTRIBUTION > STATS SETUP RECTIFIERS > STATUS RECTIFIERS > CONTROL RECTIFIERS > INFORMATION CONVERTERS > STATUS CONVERTERS > CONTROL CONVERTERS > INFORMATION TEST > ALARMS TEST > TREND LOG COMMUNICATING WITH THE CONTROLLER VIA TELNET TELNET PROMPT SCREEN PASSWORD PROMPT MAIN SCREEN LOGGING OUT REMOTE SOFTWARE UPGRADE INSTRUCTIONS SECTION 10: T-DRAWING T Page 6 Iue 7, March 2009

7 Lit of Table TABLE 3-1: CUSTOMRER ALARM CONNECTIONS...29 TABLE 3-2: TERMINAL BLOCK CONNECTIONS FOR THE P ALARM CARD...30 TABLE 3-2 CONTINUED...31 TABLE 3-3: JUMPER SELECTION...32 TABLE 3-4: GMT FUSE INFORMATION...33 TABLE 7-1: PECO II PLANT SHUNT SIZES...73 TABLE 7-2: MONITORED FAULTS...75 TABLE 8-1: BATTERY/SHUNT MONITOR MODULE MONITORED POINTS:...79 TABLE 8-2: THE ID ADDRESSING SWITCH SETTINGS ARE AS FOLLOWS:...80 Lit of Figure FIGURE 1-1: NORMAL OPERATION (NO ALARMS PRESENT)...15 FIGURE 1-2: MENU NAVIGATION (PUSHBUTTON FUNCTIONS)...17 FIGURE 2-1: PLANT DIGITAL PLANT CONTROLLER INTERFACE...23 FIGURE 2-2: DIGITAL PLANT CONTROLLER FRONT PANEL...25 FIGURE 3-1: ALARM INTERFACE...29 FIGURE 3-2: LOCATION OF RELAY ALARM CARD AND JP LOCATIONS...32 FIGURE 3-3: BTC AND AMBIENT PROBE LOCATION...33 FIGURE 3-4: PLANT INTERCONNECT CARD GMT FUSE LOCATION...33 FIGURE 6-1: DIGITAL PLANT CONTROLLER LCD SCREEN...69 FIGURE 8-1: LOCATION OF ADDRESSING DIPSWITCHES...81 FIGURE 8-2: DIPSWITCH SETTINGS...81 FIGURE 8-3: MODULE MOUNTING DIMENSIONS...82 FIGURE 8-4: JP2 JUMPER LOCATION...83 FIGURE 8-5: BATTERY/SHUNT MONITOR MODULE CAN TERMINATION LOCATION...84 FIGURE 8-6: LOCATION OF D17 THROUGH D20 (PROTECTIVE PLATE NOT SHOWN)...85 FIGURE 8-7: TYPE 1 MODULE (OPTION PART NUBMER P)...86 FIGURE 8-8: TYPE 2 MODULE OPTION PART NUBMER P...87 FIGURE 8-9: TYPE 3 MODULE OPTION PART NUBMER P...88 FIGURE 8-10: SET THE EXTERNAL MONITORS EQUIPPED...89 FIGURE 8-11: BATTERY CONTROL...90 FIGURE 8-12: BATTERY SETPOINT...91 FIGURE 8-13: BATTERY STATUS...92 FIGURE 8-14: DISTRIBUTION SETPOINTS...93 FIGURE 8-15: DISTRIBUTION SETPOINTS...94 Iue 7, March 2009 Page 7

8 FIGURE 8-16: DISTRIBUTION STATS SETUP...95 FIGURE 8-17: DISTRIBUTION STATS SETUP...96 FIGURE 9-1: CONNECTION DIAGRAM...97 FIGURE 9-2: SERIAL CONNECTION DIAGRAM...98 FIGURE 9-3: ETHERNET CONNECTION DIAGRAM...99 FIGURE 9-4: CRAFT PORT (SERIAL CONNECTOR) LOCATION FIGURE 9-5: HYPER TERMINAL (CONNECTION DESCRIPTION) FIGURE 9-6: HYPER TERMINAL (CONNECT TO) FIGURE 9-7: HYPER TERMINAL (COM1 PROPERTIES) FIGURE 9-8: HYPER TERMINAL (SESSION STARTED) FIGURE 9-9: PASSWORD REQUEST FIGURE 9-10: MAIN SCREEN FIGURE 9-11: MAIN MENU FIGURE 9-12: COMMUNICATION CONFIGURATION FIGURE 9-13A: NETWORK SETTINGS FIGURE 9-13B: CHANGE IP ADDRESS FIGURE 9-13C: CONFIRM IP ADDRESS CHANGE FIGURE 9-14: MANUAL RESET BUTTON FIGURE 9-15: RJ-45 CONNECTOR LOCATION FIGURE 9-16: FRAMES FIGURE 9-17: PLANT/STATUS FIGURE 9-18: PLANT/CONTROL FIGURE 9-19: SITE/INFORMATION FIGURE 9-20: DC POWER PLANT/STATUS FIGURE 9-21: PLANT/CONFIGURATION FIGURE 9-22: PLANT/STATS SETUP FIGURE 9-23: ALARMS/ALARM STATUS FIGURE 9-24: ALARMS/ALARM LOG FIGURE 9-25: BATTERY STATUS FIGURE 9-26: BATTERY CONTROL FIGURE 9-27: BATTERY SETPOINT FIGURE 9-28: DISTRIBUTION STATUS FIGURE 9-29: DISTRIBUTION CONTROL FIGURE 9-30: DISTRIBUTION SET POINT FIGURE 9-31: DISTRIBUTION STATS SETUP FIGURE 9-32: RECTIFIER STATUS FIGURE 9-33: RECTIFIER CONTROL FIGURE 9-34: RECTIFIER INFORMATION Page 8 Iue 7, March 2009

9 FIGURE 9-35: CONVERTER STATUS FIGURE 9-36: CONVERTER CONTROL FIGURE 9-37: CONVERTER INFORMATION FIGURE 9-38: TEST CONTROL FIGURE 9-39: TEST TREND LOG FIGURE 9-40: ENTER THE DIGITAL PLANT CONTROLLER IP ADDRESS FIGURE 9-41: PASSWORD PROMPT FIGURE 9-42: CHANGE DATE OR TIME PROMPT...ERROR! BOOKMARK NOT DEFINED. FIGURE 9-42: MAIN MENU FIGURE 9-43: LOGGING OUT Iue 7, March 2009 Page 9

10 FOREWORD Thi manual i intended to help the uer of the Phoenix DIGITAL PLANT CONTROLLER to intall, tet, troublehoot, and undertand the ytem. If you hould have any quetion or problem, pleae contact one of the following ource: SERVICE - If for any reaon further aitance i needed on any power equipment, complete engineering and field ervice group are available in Galion, Ohio, to ait you in any way poible. CALL: Field Service OR PECO (7326) and ak for Field Service PARTS ORDERING - Replacement part for power equipment may be obtained by forwarding a Purchae Order to: PECO II, Inc OR Fax to: P. O. Box 910 Galion, Ohio Include the following information: A. PECO II part number and engineering level of equipment B. If part i electrical, give circuit reference number and PECO II part number. C. If part i mechanical in nature, give decription a to where it i ued. RETURN & REPAIR - Equipment may be returned to the Factory for repair. In order to do thi, the procedure mut be a follow: A. Call: Field Service OR and ak for Field Service B. Requet a Returned Material Authorization (RMA) number for the defective equipment. C. Return material prepaid to: PECO II, Inc 1376 State Route 598 Galion, Ohio Attn: Field Service Dept PRODUCT INFORMATION Pleae take a moment when the product i new to fill in thi information. Thi data will allow fater ervice when calling PECO II to order acceorie, pare part, or requet field ervice. Firt, locate the product information label. Thi i typically located on the upper front of the equipment frame, or on the rear of the frame. Fill in the part number, a it appear on the label, in the pace below. PART NUMBER DATE CODE: SERIAL NUMBER ECN LEVEL: 860 P Page 10 Iue 7, March 2009

11 WARNINGS CAUTIONS 1. Electrical hock hazard. Do not attempt to remove, maintain, or intall thi equipment with power applied. Peronnel that attempt to work on thi equipment with the power applied may ubject themelve or other to electrical hock that may caue eriou injury or death. Le danger électrique de choc. Pa la tentative pour enlever, maintenir, ou intaller cet équipement avec le pouvoir appliqué. Le peronnel qui tente traiter cet équipement avec le pouvoir appliqué peut 'expoer ou le autre au choc électrique qui peut cauer la bleure ou la mort érieue 2. The ue of thi equipment by unauthorized or untrained peronnel hould not be attempted. Peronnel that work on thi equipment without the proper training may ubject themelve or other to electrical hock that may caue eriou injury or death. L'uage de cet équipement par le peronnel inautorié ou an formation ne devrait pa être tenté. Le peronnel qui traite cet équipement an l'entraînement correct peut 'expoer ou le autre au choc électrique qui peut cauer la bleure ou la mort érieue 3. Do not attempt to work on thi equipment if it i, or ha been, expoed to a high moiture condition. It i recommended the equipment be returned to PECO II to be properly teted. Working on thi equipment during a high moiture condition ubject the uer to electrical hock that may caue eriou injury or death. Pa la tentative pour traiter cet équipement i c'et, ou a été, expoé à une haute condition d'humidité. Il et recommandé l'équipement 'et retourné à PECO deux être convenablement eayé. Traiter cet équipement pendant une haute condition d'humidité expoe l'utiliateur au choc électrique qui peut cauer la bleure ou la mort érieue. 1. Follow proper grounding intruction. Suivre fonder correcte le intruction. 2. If connecting batterie, remove the battery-box-fue or trip the circuit breaker. Check batterie and connection for proper polarity and power before connecting the batterie to the ytem. Si connectant de pile, enlever la pile-boîte-le fuible ou trébuche le dijoncteur. Vérifier de pile et de connexion pour la polarité et le pouvoir correcte avant de connecter le pile au ytème. 3. To remove the circuit breaker or fue, the DC and/or AC input to the ytem will need to be diconnected, thereby diabling the ytem output to the load(). Take the neceary precaution and inform the plant engineer that the ytem output power to the load will be diabled. Pour enlever le dijoncteur ou le fuible, le donnée de courant alternatif de et/ou de DC au ytème auront beoin d'être débranché, de cette façon rendant infirme la production de ytème au chargement (le chargement). Prendre le précaution néceaire et informer l'ingénieur de plante que le pouvoir de production de ytème aux chargement eront rendu infirme.. 4. Before performing any maintenance, enure AC or DC power i not applied to the ytem. Avant d'exécuter n'importe quel entretien, aurer que le pouvoir de courant alternatif ou DC n'et pa appliqué au ytème. 5. Fue holder, fue, and circuit breaker are not to be loaded to more than 80 percent of their ampere rating. Fondez le upport, fuible, et de dijoncteur ne doivent pa être chargé à plu de 80 pour cent de leur etimation d'ampère. Iue 7, March 2009 Page 11

12 4. Ue of an attachment other than one approved by PECO II will void any and all warrantie, implied or other, and will increae rik of fire, or may poibly caue electrical hock, injury, or death to peronnel. L'uage d'un attachement autrement qu'un approuvé par PECO II annulera n'importe quel et toute garantie, implicite ou autre, et augmentera le rique de feu, ou probablement peut cauer le choc électrique, la bleure, ou la mort au peronnel. 5. Do not operate thi equipment if it ha been dropped or otherwie damaged. Trying to operate thi equipment if it ha been damaged ubject yourelf or other to electrical hock that may caue eriou injury or death. L'uage d'un attachement autrement qu'un approuvé par PECO II annulera n'importe quel et toute garantie, implicite ou autre, et augmentera le rique de feu, ou probablement peut cauer le choc électrique, la bleure, ou la mort au peronnel. 6. Before you proceed, enure the input ource i not live and the input circuit breaker()/fue() ha been tripped or removed. If thee procedure have not been followed and the input/output power i live, eriou peronnel injury or death may occur. Avant que vou procédez, aurez que la ource d'entrée n'et pa en vie et le circuit d'entrée breaker()/fue() a été trébuché ou a été enlevé. Si ce procédure n'ont pa été uivie et le pouvoir inputoutput et la bleure de peronnel ou la mort en vie et érieux peut arriver 7. A rack/helf may contain everal operating ytem. If there i another ytem in the general area you want to intall thi ytem, be cautiou of any expoed connector or wire and, with permiion, remove power to the other ytem. Failure to take the neceary afety precaution ubject the intaller or maintenance peronnel to evere electrical hock that may caue eriou injury or death. Une étagère/étagère peut contenir pluieur ytème d'exploitation. S'il y a un autre ytème dan le ecteur général que vou voulez intaller ce ytème, ête prudent de connecteur ou de fil expoé et, avec la permiion, enlevez le pouvoir aux autre ytème. L'échec pour prendre le précaution de ûreté néceaire expoent le peronnel d'intallateur ou entretien au choc électrique évère qui peut cauer la bleure ou la mort érieue Page 12 Iue 7, March 2009

13 8. Thi equipment may connect to lead-acid batterie. Battery pot, terminal, and related acceorie contain lead and lead compound, chemical known to the tate of California to caue cancer and birth defect or other reproductive harm. Wah hand after touching batterie. Cet équipement peut connecter de pile meneracide. Le pote de pile, le terminaux, et le acceoire apparenté contient l'avance et le premier compoé, le produit chimique connu à l'état de Californie pour cauer le défaut de cancer et naiance ou l'autre mal reproducteur. Laver de main aprè avoir touché de pile. PECO II, Inc. Phoenix Digital Plant Controller Uer Manual Iue 7, March 2009 Page 13

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15 1.1 GENERAL PECO II, Inc. Phoenix Digital Plant Controller Uer Manual SECTION 1: LET S GET STARTED The purpoe of the Let Get Started ection i to familiarize the uer with the Phoenix Digital Plant Controller. Thi ection will tart with Initial Turn-On Obervation. Next, Uer Control and Diplay Information, neceary for navigating with thi ection, i defined. Help Information, pecific to thi ection, i included. Latly, the uer will proceed, tep-by-tep, through a few of the mot frequently ued option. There are three (3) method of communicating with the Phoenix Controller. The firt method i accomplihed via the front panel, local uer interface. Thi conit of an LCD creen and navigation button located on the front door of the plant. Thi method i the focu of the Let Get Started ection. The econd method i alo accomplihed on ite by uing a laptop computer and etablihing a connection via the local RS-232 Craft Port, or local Ethernet connection. The third method i remote communication etablihed via a cutomer provided network connected to the internal permanent Ethernet port, or optional modem interface. For more detail on the econd and third method, SECTION 9 of thi manual. 1.2 INITIAL TURN-ON OBSERVATIONS (Upon initial power-on of plant bue, or intallation of fue F1 of the Plant Interconnect PWB Ay. Refer to SECTION 6). The following will be oberved once power ha been applied to the phoenix digital plant controller. There mut be at leat one (1) rectifier intalled in the ytem, or batterie equipped to provide bu power. The LCD creen will be blank. All tatu LED will illuminate with the exception of the ACO LED and the LED S aociated with the back-up controller. In the Tet Point Section, only the PLANT VOLTS LED will illuminate and it will remain illuminated throughout the ytem tart-up. Note: The Tet Point Monitoring ection conit of the PLANT VOLTS LED the SHUNT LED S and the Tet Point Jack. Refer to SECTION 7 for detail. The tatu LED will extinguih. The LCD creen will diplay (flah) SELF TESTS PASSED and will equence through the LED, illuminating one at a time with exception of the CPU Fail LED. During equencing of the tatu LED S, the LCD creen will diplay (flah) INITIAL UPDATE IN PROGRESS. After all of the LED S have been individually illuminated, the SYSOK and FLOAT LED S will illuminate and remain illuminated for a normally operating ytem. The LCD creen will then diplay the ytem voltage and ytem current. Auming no alarm, the LCD creen will diplay ALARMS NONE, a hown in FIGURE 1-1. NOTE: 00.00V and 0A are ued for repreentation purpoe only, the correct plant voltage and current will be diplayed. FIGURE 1-1: NORMAL OPERATION (NO ALARMS PRESENT) If any alarm are preent, refer to SECTION 7. A lower cae will be diplayed in the lower right hand corner of the LCD creen. Thi i covered under Uer Control and Diplay Information. Iue 7, March 2009 Page 15

16 1.3 USER CONTROL AND DISPLAY INFORMATION (NECESSARY FOR NAVIGATING WITH THIS MANUAL) The default diplay on the LCD contain the plant voltage and current and hould be on at all time. When viewing a creen, the top line typically diplay a menu option or a feature / function. Typically, the econd line diplay the choice available within a menu option or the value being viewed or modified. When viewing a creen, the active option (menu option, mode, etpoint, etc.) will be flahing. Later in thi document, italic are ued to repreent active creen option when uing LCD creen are depicted. The elect key (SELECT) i ued in navigating between menu, for electing menu option and for accepting change. When viewing a creen, an indicate that the elect key (SELECT) may be preed. The deired option may be elected via the ue of the left or right key (< > or < >). Preing the left or right key will allow the uer to move (croll) the election feature to the left or right. Preing the left arrow (< >) or right arrow (< >) key allow the uer to decreae (left arrow) or increae (right arrow) a etpoint value. The back key (BACK) take the uer to the previou creen. There are two (2) tep involved in accepting change. The uer mut right arrow to ACCEPT (< > ACCEPT) and then elect ACCEPT (<SEL> ACCEPT). Thi enure the intent of the uer. 1.4 HELP INFORMATION In thi manual, notation i ued to imulate actual keytroke. The keytroke information from Uer Control and Diplay Information i repreented. In thi manual, when a creen i pecified (ex. MAIN MENU SCREEN), the next line indicate the available option that may be elected from that creen. In thi manual, a bracketed key (ex. <SELECT>) intruct the uer to pre that key. A an example, <SELECT> PLNT intruct the uer to pre the elect key while PLNT i flahing. Thi manual typically intruct the uer to croll to the right (inferred by the ue of right arrow) for option election. In ome cae, the uer may ave key pree by crolling to the left (the menu croll over). Thi will come with experience. Preing the back key (BACK), poibly multiple time, will take the uer back to the MAIN SCREEN. It may be helpful, if confued, to go back to thi creen and tart a procedure over again. Page 16 Iue 7, March 2009

17 1.5 CONTROLLER BUTTON FUNCTIONS PECO II, Inc. Phoenix Digital Plant Controller Uer Manual Four (4) button are provided on the front of the digital plant controller to navigate the menu. Refer to SECTION 2, Figure 2-1 for the location of the menu puhbutton. Figure 1-2 how the menu puhbutton function. The SELECT button i ued to elect the current (flahing) menu choice. The (left arrow) button croll through the ub menu in revere and i the minu (-) button when adjuting etpoint. The (right arrow) button croll through the ub menu and i the plu (+) button when adjuting etpoint. The BACK button will navigate to the previou creen. The BACK button (if preed enough time) will return the uer to the main menu creen, a hown in Figure 1-2. Main Menu Select Back Sub Menu (+) Sub Menu (+) Sub Menu (-) (-) FIGURE 1-2: MENU NAVIGATION (PUSHBUTTON FUNCTIONS) 1.6 FLOAT / EQUALIZE MODE AND VOLTAGE SETPOINT: Float Mode: Thi i the normal mode of operation with the voltage et per the battery pecification. Equalize Mode: When in Equalize Mode, of operation applie a higher voltage to the battery plant. Thi will generate an increae in current flow through the batterie. The intent i to even-out cell voltage and drive any plate ulfation back into olution. The Equalize Mode i typically not ued with VRLA batterie. To protect VRLA batterie, et the Equalize Voltage the ame a the Float Voltage. If the plant i inadvertently et to the Equalize Mode, the batterie will not be damaged HOW TO SELECT FLOAT / EQUALIZE MODE: 1. MAIN SCREEN 2. <SELECT> 3. MAIN MENU SCREEN 4. PLNT < > ALRM < > BATT < > (Not all hown for brevity) 5. <SELECT> PLNT 6. PLANT SCREEN 7. STAT < > CTRL < > INFO < > SETP < > CNFG 8. <SELECT> CTRL 9. < > To PLANT MODE 10. <SELECT> to Enable Mode Change Iue 7, March 2009 Page 17

18 11. < > To Chooe New Mode 12. <SELECT> New Mode 13. < > ACCEPT 14. <SELECT> ACCEPT HOW TO SET THE FLOAT / EQUALIZE VOLTAGE SETPOINTS 1. MAIN SCREEN 2. <SELECT> 3. MAIN MENU SCREEN 4. PLNT < > ALRM < > BATT < > (Not all hown for brevity) 5. <SELECT> PLNT 6. PLANT SCREEN 7. STAT < > CTRL < > INFO < > SETP < > CNFG 8. <SELECT> SETP 9. <SELECT> PLANT FLOAT or < > <SELECT> PLANT EQUALIZE 10. < > Will Decreae Setpoint or < > Will Increae Setpoint 11. <SELECT> New Setpoint 12. < > ACCEPT 13. <SELECT> ACCEPT 1.7 ALARM SETPOINTS Plant alarm that have threhold etting aociated with them e.g. HVA, LVA, LLVA, etc., will have their etpoint defined in thi location. 1. MAIN SCREEN 2. <SELECT> 3. MAIN MENU SCREEN 4. PLNT < > ALRM < > BATT < > (Not all hown for brevity) 5. <SELECT> PLNT 6. PLANT SCREEN Page 18 Iue 7, March 2009

19 7. STAT < > CTRL < > INFO < > SETP < > CNFG 8. <SELECT> SETP 9. < > To Chooe Deired Alarm Setpoint 10. <SELECT> Deired Setpoint 11. < > Will Decreae Setpoint or < > Will Increae Setpoint 12. <SELECT> New Setpoint 13. < > ACCEPT 14. <SELECT> ACCEPT 1.8 RECTIFIER RUN / STANDBY Each rectifier may be individually placed into tandby to inhibit it DC output. 1. MAIN SCREEN 2. <SELECT> 3. MAIN MENU SCREEN 4. PLNT < > ALRM < > BATT < > (Not all hown for brevity) < > RECT 5. <SELECT> RECT 6. RECTIFIER SELECT SCREEN 7. < > To Chooe Rectifier # 8. <SELECT> Choen Rectifier 9. RECTIFIER SCREEN 10. STAT < > CTRL < > INFO < > SETP 11. <SELECT> CTRL 12. <SELECT> To Enable New Mode 13. < > To Chooe New Mode 14. <SELECT> New Mode 15. < > ACCEPT 16. <SELECT> ACCEPT Iue 7, March 2009 Page 19

20 1.9 VIEWING ACTIVE ALARMS All alarm generated by the controller will be able to be viewed in thi location. 1. MAIN SCREEN 2. <SELECT> 3. MAIN MENU SCREEN 4. PLNT < > ALRM < > BATT < > (Not all hown for brevity) 5. <SELECT> ALRM 6. ACTIVE ALARMS SCREEN 7. <SELECT> 8. ACTIVE ALARMS (Select) SCREEN 9. < > To Scroll Through Active Alarm 1.10 VIEWING INDIVIDUAL RECTIFIER CURRENT Each rectifier i capable of diplaying it individual current output. 1. MAIN SCREEN 2. <SELECT> 3. MAIN MENU SCREEN 4. PLNT < > ALRM < > BATT < > (Not all hown for brevity) < > RECT 5. <SELECT> RECT 6. RECTIFIER SELECT SCREEN 7. < > To Chooe Rectifier # 8. <SELECT> Choen Rectifier 9. RECTIFIER SCREEN 10. STAT < > CTRL < > INFO < > SETP 11. <SELECT> STAT 12. View Current Out 13. < > 14. View Remaining Stat Page 20 Iue 7, March 2009

21 1.11 SET RECTIFIER MAX CURRENT LIMIT PECO II, Inc. Phoenix Digital Plant Controller Uer Manual The rectifier output current may be changed from default. NOTE: Thi i a global change for all rectifier module. 1. MAIN SCREEN 2. <SELECT> 3. MAIN MENU SCREEN 4. PLNT < > ALRM < > BATT < > (Not all hown for brevity) 5. <SELECT> PLNT 6. PLANT SCREEN 7. STAT < > CTRL < > INFO < > SETP < > CNFG 8. <SELECT> SETP 9. < > to RECT MAX CUR 10. <SELECT> to Enable Setpoint Change 11. < > To Chooe New Setpoint 12. <SELECT> New Setpoint 13. < > ACCEPT 14. <SELECT> ACCEPT Iue 7, March 2009 Page 21

22 -Thi page intentionally left blank- Page 22 Iue 7, March 2009

23 SECTION 2: GENERAL CONTROLLER INFORMATION 2.1 GENERAL The Phoenix digital plant controller monitor and/or control voltage, current, temperature, and other parameter and diplay thi data via the LCD creen. The Phoenix digital plant controller conolidate all data and provide all interface function for the power ytem, including both local and remote capabilitie for monitoring and providing etpoint information. The local uer interface allow the uer to exchange information with the ytem via a diplay and puhbutton. There are four button located to the right of the backlit, liquid crytal diplay that allow the uer to view complete plant tatu, change etpoint, and monitor alarm quickly and eaily. LCD Screen Plant Tet Point Step Puhbutton and LED Manual Battery Diconnect Switch (Shunt B and C may not be equipped, refer (If equipped with optional to table 7-1 for detail) equipment) Menu Puhbutton Alarm Cutoff Puhbutton Plant Tet Point 2.2 LCD SCREEN FIGURE 2-1: PLANT DIGITAL PLANT CONTROLLER INTERFACE The LCD creen i a 16 character x 2 line backlit diplay ued for controller tatu, and monitoring. 2.3 PRIMARY ALARM LED INDICATORS Indicator for Power Major (PMJ), Power Minor (PMN), Battery On Dicharge (BOD), and CPU Fail are located on the main diplay. 2.4 MENU PUSHBUTTONS The puhbutton located on the front of the plant digital plant controller interface are ued to croll through the menu function of the controller. Refer to SECTION 4 for detail regarding the menu creen. Iue 7, March 2009 Page 23

24 2.5 PLANT TEST POINT STEP PUSHBUTTON, LEDS, AND TEST JACKS The tep puhbutton i ued in conjunction with the plant tet point jack. When the green LED i illuminated for PLANT VOLTS, the total plant voltage i meaured at the plant tet point (with an external meter). When the puhbutton i depreed, the green LED will cycle through A-B-C Shunt, and back to Plant Voltage. For A-B-C Shunt, the voltage meaured at the plant tet point (with an external meter), i a 0-50mV ignal meaured at the hunt, which need converted to current baed on hunt rating. Refer to TABLE 7-1 for detail. 2.6 MANUAL BATTERY DISCONNECT SLIDE SWITCH If equipped, a (guarded) manual battery diconnect lide witch i provided on the front of the digital plant controller interface. If the plant i equipped with Lit 73 wiring option Y, liding thi witch to the right poition will diconnect the batterie from the plant. Sliding the witch to the left poition reconnect the batterie to the plant. Refer to the J-Drawing aociated with the pecific PECO II power plant for complete detail. 2.7 AUDIABLE ALARM CUT-OFF PUSHBUTTON AND LED An audible alarm i ued to notify peronnel of an alarm. The audible ignal may be ilenced with the ACO (Alarm Cut OFF) momentary witch located on the front of the digital plant controller interface. Silencing one condition will not prevent a econd condition from activating the audible ignal. ACO on a Major Alarm will reult in an audible chirp every 30 econd until the Major Alarm i cleared, however an ACO on a minor alarm will ilence the audible alarm without any reminder chirp. The yellow ACO indicator will illuminate whenever the ACO ha been activated and the alarm condition ha not been cleared. Page 24 Iue 7, March 2009

25 2.8 LED STATUS INDICATORS Located on the front of the ditribution head are 25 tatu LED. They include: ALARM ACRYOMN ALARM NAME ALARM LED RFAJ Rectifier Major Red RFAN Rectifier Minor Amber BAT Battery Monitor Amber DFA Ditribution Fue Red DCA Ditribution Current Amber SYSOK Sytem OK Green LLVA Low Low Voltage Red LVA Low Voltage Amber HVA High Voltage Red HHVA High High Voltage (indicate a High Voltage Shutdown (HVSD) condition) Red CFA Converter Fail Red LVD Low Voltage Diconnect Red TCA Total Current Amber ACF AC Fail Amber TEMP Temp High/Low Amber FLOAT Float Mode Green EQL Equalize Mode Amber BTC BTC Active Amber LMR Limited Recharge Amber CBS Control Battery Supply Red BOD Battery On Dicharge Red PMJ Power Major Red PMN Power Minor Amber CPU FAIL Controller Failure Red ACO Audible Alarm Cutoff Amber FIGURE 2-2: DIGITAL PLANT CONTROLLER FRONT PANEL Iue 7, March 2009 Page 25

26 2.9 RELAY CONNECTIONS Relay connection are located on the Relay Alarm Extenion PWB, located in the front center of the ditribution head. Sixteen extended alarm are available a tandard equipment. Refer to TABLE 3-1 and TABLE 3-2 in SECTION 3 for alarm output ETHERNET The digital plant controller ha a built in Ethernet port located in the controller encloure. The Ethernet port allow the uer to place the plant controller in the local network to remotely monitor the ytem uing Graphical Uer Interface (web page) CRAFT PORT The Front Panel Craft Port i a tandard RS232 DCE interface. A tandard DB9 modem cable i needed to connect to the craft port. The craft port allow the connection of a computer running terminal emulation oftware (uch a Hyper Terminal, which come with Window 2000 and later) to interface with the digital plant controller locally uing a text interface (refer to ection 9.8) OPTIONAL BATTERY / SHUNT MONITORING MODULE (ADAC) The battery/hunt monitor module (alo referred to a the ADAC monitoring module) i an optional factory/field configurable device ued to monitor load hunt and/or battery meaurement. Uing a combination of known module type and the battery/hunt monitor module dipwitche, the end uer can configure each monitored point a one of five (5) baic meaurement type: Branch hunt current (30 max per ytem) Battery current (24 tring max per ytem) Battery temperature (24 tring max per ytem) Battery midpoint (24 tring max per ytem) Battery ene (6 max per ytem) For complete ADAC detail, refer to SECTION 8, ADAC etup and operation HARDWIRED BACKUP CONTROLLER In the event of a failure in the main controller, an integrated Hardwired Backup Controller will report the main controller failure, and take control of certain critical plant alarm. The Backup Controller will remain offline until uch a time that a main controller failure i detected. At that moment, the Backup Controller will take over control of thoe function lited below: CPU Fail The watchdog ignal from the main controller i contantly monitored, and upon failure or abence of thi ignal, the backup controller will report a CPU Fail condition. When condition i active, the aociated CPU Fail LED indicator, and CPU Fail Relay Alarm output (K16) will indicate an alarm condition. PMJ (Plant Major) Upon detection of the CPU Fail condition, the Backup Controller will activate a PMJ condition. When condition i active, the aociated PMJ LED indicator, PMJ Relay Alarm output (K15), and audible ignal will indicate an alarm condition. Normally Page 26 Iue 7, March 2009

27 DFA (Ditribution Fail Alarm) When the main controller i in a CPU Fail condition, the Backup Control take over monitoring of the DFA function. When an active condition i detected, the aociated DFA LED indicator, DFA Relay Alarm output (K13), and audible ignal will indicate an alarm condition. CBS (Control Battery Supply) When the main controller i in a CPU Fail condition, the Backup Control take over monitoring of the CBS function. When an active condition i detected, the aociated CBS LED indicator, and audible ignal will indicate an alarm condition. BOD (Battery On Dicharge) When the main controller i in a CPU Fail condition, the Backup Control take over monitoring of the BOD function. An active condition exit when the plant voltage drop below a fixed threhold level of 51.5VDC / 25.75V (approx.) for a 48V / 24V plant repectively. When active, the aociated BOD LED indicator, BOD Relay Alarm output (K12), and audible ignal will indicate an alarm condition. In Backup Control mode, the Audible Alarm Cutoff circuit will till function via the front panel ACO witch. When ACO i active, the front panel ACO LED will illuminate. Note: If power i lot to F1 (main Control fue), F1 i open, or lo of the 5V from the main upply, then the LED and Relay output for CBS, DFA, and BOD alarm will not function a the 5V required to operate thoe device would not be preent. However, in the event of the abovementioned failure condition the backup controller would however provide alarm output condition for CPU Fail, and PMJ both LED indicator, and Relay Alarm output. Iue 7, March 2009 Page 27

28 2.14 ACRONYMS ABS Alarm Battery Supply LUD Local Uer Diplay ACF AC Fail LV Low Voltage ACO (Audible) Alarm Cut Off LVD Low Voltage (Load) Diconnect ALM Alarm MJ Major AO Analog Output MN Minor AWG American Wire Gauge MP Mid Point BAT Battery MON Monitor BC Battery Current NC Normally Cloed BCX Battery Current (x repreent any number) NO Normally Open BD Battery Diconnect OC Over Current BOD Battery On Dicharge PE Power Earth (Earth Ground) BS Branch Shunt PL Partial Load BTC Battery Temperature Compenation PMJ Power Major CBS Control Battery Supply PMN Power Minor CFA Converter Fail Alarm PMNR Power Major Return COF Charger Off (GND Signal) PMJR Power Minor Return COM Common PNL Panel CON Charger On (GND Signal) RCC Remote Charger Control DCA Ditribution Current Alarm REMEQ Remote Equalize DFA Ditribution Fue Alarm RFA Rectifier Fail Alarm DFAR Ditribution Fue Alarm (Return) RFA J Rectifier Fail Alarm Major DO Digital Output RFA N Rectifier Fail Alarm Minor EBD Emergency Battery Diconnect RFAR Rectifier Fail Alarm Return ECS End Cell Switch RS Rectifier Retart EPO Emergency Power Off RSR Rectifier Retart Return EQ/EQL Equalize RXD Receive FA Fue Alarm SG Signal Ground GND Ground SH Shunt HHVA High High Voltage Alarm SHG Shield Ground HVA High Voltage Alarm TB Terminal Block HVS High Voltage Shutdown TCA Total Current Alarm LCA Low Current Alarm TR Rectifier Turn On/Off LLV Low Low Voltage TRR Rectifier Turn On/Off Return LMR Limited Recharge TS Terminal Strip LOA Low Output Alarm TXD Tranmit LOAR Low Outputt Alarm return VM Volt Meter LSO Load Share Out WD Watch Dog Page 28 Iue 7, March 2009

29 SECTION 3: ALARMING, BTC CONNECTIONS, TEMPERATURE PROBE INSTALLATION, PLANT INTERCONNECT CARD FUSE INFORMATION, AND REMOTE CONTROLLER SECURITY 3.1 ALARMS Located typically within the ditribution head i where the PWB containing intaller connection for the ytem alarm i located. Thi PWB i referred to a the Alarm Extenion Board. Alarm contact are acceed uing Pluggable Screw Cage Clamp terminal block. To acce thi board, looen the two fatener found on the front of the ditribution head cover, and open the door. Optional alarm cable are available in variou length, conult the PECO II plant J-Drawing for detail. TABLE 3-1: CUSTOMRER ALARM CONNECTIONS Connection Terminal Type Recommended Wire Size Cutomer Alarm Screw Cage Clamp AWG Maximum Alarm Connection FIGURE 3-1: ALARM INTERFACE NOTE: Each of the 16 extended alarm are factory et to Open On Alarm. Refer to SECTION 3.2 for detail on how to change the factory alarm etting. Iue 7, March 2009 Page 29

30 TABLE 3-2: TERMINAL BLOCK CONNECTIONS FOR THE P ALARM CARD Pin # P-xx Color Code (Optional) Plant Alarm (Condition) Acronym Factory Contact State Contact Relay # TB66-8 TB64-8 WH / BL BL / WH Rectifier Major RFAJ Open on Alarm ALARM OUT COMMON K1 TB66-7 TB64-7 WH / OR OR / WH Rectifier Minor RFAN Open on Alarm ALARM OUT COMMON K2 TB66-6 TB64-6 WH / GR GR / WH AC Fail ACF Open on Alarm ALARM OUT COMMON K3 TB66-5 TB64-5 WH / BR BR / WH High Voltage Alarm HVA Open on Alarm ALARM OUT COMMON K4 TB66-4 TB64-4 WH / SL SL / WH Low Voltage Alarm LVA Open on Alarm ALARM OUT COMMON K5 TB66-3 TB64-3 R / BL BL / R Low Low Voltage Alarm LLVA Open on Alarm ALARM OUT COMMON K6 TB66-2 TB64-2 R / OR OR / R Low Voltage Diconnect LVD Open on Alarm ALARM OUT COMMON K7 TB66-1 TB64-1 R / GR GR / R Converter Fail Alarm CFA Open on Alarm ALARM OUT COMMON K8 Page 30 Iue 7, March 2009

31 TABLE 3-2 Continued Pin # P-xx Color Code (Optional) Plant Alarm (Condition) Acronym Factory Contact State Contact Relay # TB67-8 TB65-8 R / BR BR / R Temperature TEMP Open on Alarm ALARM OUT COMMON K9 TB67-7 TB65-7 R / SL SL / R Battery Alarm / Battery Fue Alarm / Battery Diconnect Alarm BAT Open on Alarm ALARM OUT COMMON K10 TB67-6 TB65-6 BK / BL BL / BK High High Voltage (indicate a High Voltage Shutdown (HVSD) condition) HHVA (HVSD) Open on Alarm ALARM OUT COMMON K11 TB67-5 TB65-5 BK / OR OR / BK Battery On Dicharge BOD Open on Alarm ALARM OUT COMMON K12 TB67-4 TB65-4 BK / GR GR / BK Ditribution Fue Alarm DFA Open on Alarm ALARM OUT COMMON K13 TB67-3 TB65-3 BK / BR BR / BK Power Minor PMN Open on Alarm ALARM OUT COMMON K14 TB67-2 TB65-2 BK / SL SL / BK Power Major PMJ Open on Alarm ALARM OUT COMMON K15 TB67-1 TB65-1 Y / BL BL / Y Controller Fail µp Fail Open on Alarm ALARM OUT COMMON K16 Iue 7, March 2009 Page 31

32 3.2 ALARM CARD JUMPER SELECTION The Phoenix digital plant controller extend 16 alarm. Each alarm i factory et to OPEN ON ALARM. The uer may change any of the extended alarm from Open ON ALARM to Cloe ON ALARM via a jumper etting. Refer to TABLE 3-2 for alarm extenion connection. JP1 JP2 JP5 JP6 JP3 JP4 JP7 JP8 FIGURE 3-2: LOCATION OF RELAY ALARM CARD AND JP LOCATIONS TABLE 3-3: Jumper Selection JP# JP1 JP2 JP3 JP4 JP5 JP6 JP7 JP8 Relay: K1 K3 K5 K7 K9 K11 K13 K15 Relay: K2 K3 K6 K8 K10 K12 K14 K16 NOTE: The NO/NC reference on the jumper refer to the Normally Open or the Normally Cloed contact of the relay that i monitored at the alarm connection point (De-Energized tate). For Relay K1-14, they are normally de-energized, and will energize on an alarm condition, therefore, the NO poition refer to Cloe on Alarm, and NC refer to Open on Alarm. For Relay K15-16, they are normally energized, and will de-energize on an alarm condition, therefore, the NO poition refer to Open on Alarm, and NC refer to Cloe on Alarm. Open on alarm i the factory default etting for each alarm. If the uer require a Cloe on Alarm ignal, the correct jumper will need to be moved to the NO poition for K1-14, and NC poition for K Refer to TABLE 3-2 to determine which alarm i aociated with each K number. Page 32 Iue 7, March 2009

33 3.3 AMBIENT TEMPERATURE PROBE INSTALLATION PECO II, Inc. Phoenix Digital Plant Controller Uer Manual The ytem ambient temperature probe i tandard. The ambient temperature probe i placed within the ditribution head to monitor plant temperature. Refer to FIGURE 3-3 for the ambient temperature probe connection point within the ditribution head. FIGURE 3-3: BTC AND AMBIENT PROBE LOCATION 3.4 BATTERY TEMPERATURE COMPENSATION PROBE CONNECTION The BTC function of the plant (if enabled) will utilize the Ambient Temperature probe reading by default. However, an additional BTC probe may be ordered a an option to connect directly to the battery tring. Thi option hould be pecified at the time the order i placed and the cable will be factory intalled. The BTC probe mut be attached to the 2 nd (numbered right to left) negative battery terminal. Refer to FIGURE 3-2 for the BTC connection point within the plant ditribution head. The BTC function will then compenate for temperature baed on the highet reading of either the Ambient Temperature probe or the Battery Temperature probe. 3.5 PLANT INTERCONNECT CARD GMT FUSE INFORMATION The Phoenix controller interconnect card i typically located within the ditribution head. Thi card ha ix GMT fue a detailed in Table 3-4. Refer to Table 3-4 for information regarding fue. FIGURE 3-4: PLANT INTERCONNECT CARD GMT FUSE LOCATION TABLE 3-4: GMT Fue Information Fue # GMT Fue Size Decription F1 3 Amp Main Controller Fue F2 1 1 / 3 Amp Hardwired Backup Controller Fue F3 3 Amp LVLDA Contactor Fue F4 3 Amp LVLDB Contactor Fue F5 3 Amp LVLDC Contactor Fue F6 3 Amp Battery Diconnect Contactor Fue Iue 7, March 2009 Page 33

34 3.6 REMOTE CONTROLLER SECURITY The Phoenix digital controller can be configured to prohibit change via remote acce. The uer may enable dipwitch 4 on the GPPC to diable the ability to change the Phoenix controller etting via a remote connection. The remote uer will have view-only acce (even with an adminitrator paword). The GPPC card i located on the rear of the ditribution head, to the left of the Ethernet connection. Refer to FIGURE 3-5 and FIGURE 3-6 for the dipwitch 4 location. To enable the controller ecurity, lide dipwitch 4 to the left poition. The factory default etting i diabled. FIGURE 3-5: ENABLE CONTROLLER SECURITY VIA DIPSWITCH 4 DIPSWITCH 4 to enable controller ecurity. FIGURE 3-6: ENABLE CONTROLLER SECURITY VIA DIPSWITCH 4 Page 34 Iue 7, March 2009

35 SECTION 4: NAVIGATING THE USER INTERFACE FOR THE DIGITAL PLANT CONTROLLER In thi Section the Uer will learn: How to navigate through the plant digital plant controller How to change and/or verify etpoint How to view plant and/or bay alarm How to view the preent operating condition of the ytem (voltage, current, etc.) 4.1 GENERAL The uer interface allow the uer to view and navigate through the menu and creen of the digital plant controller. The arrow key allow the different menu and creen to be crolled through, the elect button elect a creen or bring up a menu, and the back button take the uer back to the previouly viewed creen. On the right ide of the LCD, there will be an,,, or ymbol. Sometime there will be a ymbol diplayed on both the top and bottom line. The "" indicate that elect may be preed from thi creen to bring up a menu, and an arrow indicate which direction the uer may croll. To elect an option from one of the menu, croll until the proper election begin to flah, then pre the elect button. When navigating the controller, it i important to undertand the numbering aociated with ome of the creen. The numbering on the rectifier creen and converter creen repreent the module that information i being acceed. Each module i numbered from left to right, top helf to bottom helf. Rectifier 01 i in the top rectifier helf, and i in the left mot rectifier helf poition. Converter 01 i in the top mot converter helf, and i in the left mot converter helf poition. Iue 7, March 2009 Page 35

36 4.2 MAIN SCREEN The backlit diplay i alway illuminated. There i a 5 minute "walk-away" timer when the menu are diplayed, meaning the controller will return to the default creen after 5 minute of inactivity. The normal operating creen for the digital plant controller hould appear a thi (X varie; it i the actual reading of the plant in ue): XX.XXV ALARMS - XA NONE If there i an alarm preent, the normal operating creen will be replaced by thi: XX.XXV ALARMS - XA MINOR or XX.XXV ALARMS - XA MAJOR To view the alarm, refer to SECTION 4.5. In the lower right corner of each of thee creen, an '' i diplayed. Thi indicate that the elect button may be preed from thi creen. If the creen diplay appear a follow, it mean the uer i trying to acce information about a module that ha recently been removed from the ytem (e.g. a rectifier that the uer i trying to view information on ha had it' AC input circuit breaker turned OFF). ATTENTION! MODULE REMOVED 4.3 SUBMENU Preing SEL from the main menu bring up the ubmenu that contain link to the 8 area of the digital plant controller. XX.XXV ALARMS - XA NONE SELECT MAIN MENU PLT ALRM Page 36 Iue 7, March 2009

37 After elect i preed and the uer i in thi creen, the arrow key can be preed to reveal the 8 topic: PLT (plant), ALRM (alarm), BATT (battery), DIST (ditribution), TEST (tet), SSYST (ytem), RECT (rectifier), and CONV (converter). When the deired election i flahing, the uer then pree the SEL key to enter the creen aociated with the choen topic. For example, if ALRM were the feature that the uer wanted to open, the following equence would need to be followed: XX.XXV ALARMS - XA NONE SEL MAIN MENU PLNT ALRM Right Arrow MAIN MENU PLNT ALRM BATT SEL to confirm the election The navigation of all 8 option follow thi key equence:0 XX.XXV ALARMS - XA NONE Right Arrow MAIN MENU BATT DIST TEST SEL Right Arrow MAIN MENU PLNT ALRM MAIN MENU DIST TEST RECT Right Arrow MAIN MENU PLNT ALRM BATT Right Arrow Right Arrow MAIN MENU TEST RECT CONV Right Arrow MAIN MENU ALRM BATT TEST MAIN MENU RECT CONV Note: The Italic indicate the item i flahing For the remainder of thi ection on Navigating The Uer Interface For The Digital Plant Controller, the egment will be numbered and detailed uing the above-mentioned 8 ubmenu. Segment 4.4 detail the PLNT ubmenu Segment 4.5 detail the ALRM ubmenu Segment 4.6 detail the BATT ubmenu Segment 4.7 detail the DIST ubmenu Segment 4.8 detail the TEST ubmenu Segment 4.9 detail the SYST ubmenu Segment 4.10 detail the RECT ubmenu Segment 4.11 detail the CONV ubmenu NOTE: New feature and update are added periodically - The following menu tree i meant to be typical. NOTE: Alarm are only diplayed when active. NOTE: Menu that are alway available are hown in BOLD. Menu that are only hown when active are not bold. Iue 7, March 2009 Page 37

38 4.4 PLANT Selecting PLT from the main menu, a hown below, bring up the main PLANT creen. From here, there i another ubmenu that, uing the arrow key and elect button, allow the uer to chooe from STAT (tatu), CTRL (control), INFO (information), SETP (etpoint), or CONFG (configure). XX.XXV ALARMS - XA NONE SEL MAIN MENU PLT ALRM STAT Selecting STAT from the PLT menu, a hown below, allow the uer to browe creen that detail the plant' tatu. XX.XXV ALARMS - XA NONE SEL MAIN MENU PLNT ALRM SEL xxx PLANT STAT CTRL At thi point, preing SEL will allow the uer to browe the available tatic creen for tatu information on: PLANT VOLTAGE - Diplay the preent voltage of the plant PLANT CURRENT - Diplay the preent current of the plant. (Sum of all BAY CURRENTS) EQ TIME REMAIN - Equalize Time remaining - Diplay the equalize time remaining LIMTED RECHARGE USAGE Ratio (percentage) of plant current veru total plant capacity, total number of running rectifier time the rectifier current limit etpoint. TOTAL RECTIFIER CURRENT (xx.x Adc) TOTAL RECTIFIER CAPACITY (xx.x Adc) CONV PLT VOLT (xx.xvdc) CONV PLT CURR (xx.x Adc) CTRL FAIL (OFF or ACTIVE) RFA MINOR (OFF or ACTIVE) RFA MAJOR (OFF or ACTIVE) POWER MINOR (OFF or ACTIVE) CBS ALARM (OFF or ACTIVE) POWER MAJOR (OFF or ACTIVE) HIGH VOLT ALM (OFF or ACTIVE) LOW VOLT ALM (OFF or ACTIVE) L-LOW VOLT ALM (OFF or ACTIVE) CTRL CNFG ALM (OFF or ACTIVE) SHUNT MON FAIL (OFF or ACTIVE) Page 38 Iue 7, March 2009

39 BAT MON FAIL (OFF or ACTIVE) AC FAIL (OFF or ACTIVE) ACO STATUS - (Normal or Active) HVSD - High Voltage Shutdown (OFF or ACTIVE) PLANT MODE - (Float or Equalize) BAY ID ALM - (OK or Fail) LIM RECHARGE - (Normal or Active) MONITOR FAIL - (Normal or Fail) CONV FAIL MAJ - (Normal or Fail) CONV FAIL MIN - (Normal or Fail) RECT VAR ALM - (Normal or Fail) PLT COM FAIL (Ok or Fail) A MAIN CURR XX.X Adc B MAIN CURR XX.X Adc C MAIN CURR XX.X Adc AMB TEMP xxx deg C AUX TEMP xxx deg C A LVD V CTL (Normal or Active) B LVD V CTL (Normal or Active) C LVD V CTL (Normal or Active) A MAIN TCA (Off or Active) B MAIN TCA (Off or Active) C MAIN TCA (Off or Active) HI TEMP ALM (Off or Active) LO TEMP ALM (Off or Active) A LVD T CTL (Normal or Active) B LVD T CTL (Normal or Active) C LVD T CTL (Normal or Active) A LVD STATE (Conn or Dicon) B LVD STATE (Conn or Dicon) C LVD STATE (Conn or Dicon) EEPROM FAIL (Off or Active) FLASH FAIL (Off or Active) REM SENSE FA (Off or Active) REMOTE FA (Off or Active) PECO II, Inc. Phoenix Digital Plant Controller Uer Manual Iue 7, March 2009 Page 39

40 4.4.2 CTRL Selecting CTRL from the PLT menu, a hown below, allow the uer to control the mode of the plant. XX.XXV ALARMS - XA NONE SEL MAIN MENU PNLT ALRM SEL xxx PLANT STAT CTRL Right Arrow xxx PLANT STAT CTRL INFO At thi point, preing SEL will allow the uer to acce the creen neceary to change the following mode: LVD BY TIME - (Diable or Enable) GL PLANT MODE (Float or Equalize) B MAIN CURR (Diable or Enable) C MAIN CURR (Diable or Enable) A LVD CTRL (Diable or Enable) B LVD CTRL (Diable or Enable) C LVD CTRL (Diable or Enable) AUX TEMP SENSE (Diable or Enable) If it i neceary to change one of the mode, follow thee tep. For thi example, GL Plant Mode will be changed. After electing CTRL from the Plant Screen (how to acce thi wa previouly detailed), the following creen will be diplayed: GL PLANT MODE FLOAT EQUAL From here, the uer can ue the arrow key to move on to another control option, but thi i where the information being changed in thi example i located, o SEL i preed. The following creen i diplayed: GL ENTER NEW FLOAT EQUAL Note that FLOAT i in Italic. Thi denote that it i flahing. Pre SEL to elect the flahing option, or pre the arrow key to witch between them. When the deired election i flahing, pre SEL. The following diplay will appear: ENTER NEW CANCEL ACCEPT Page 40 Iue 7, March 2009

41 4.4.3 INFO PECO II, Inc. Phoenix Digital Plant Controller Uer Manual Note that ACCEPT i flahing, and i therefore the default option. Preing SEL at thi time will accept the change and the new mode will be FLOAT. If thi i incorrect, ue the arrow key to elect CANCEL. Selecting INFO from the PLT menu, a hown below, allow the uer to view information about the plant. XX.XXV ALARMS - XA NONE SEL xxx PLANT CTRL INFO SETP MAIN MENU PLNT ALRM SEL xxx PLANT STAT CTRL Right Arrow xxx PLANT STAT CTRL INFO Right Arrow At thi point, preing SEL will allow the uer to acce the creen containing plant information uch a: SERIAL NUMBER RELEASE LEVEL DGC SOFTWARE DATE CODE SITE ID SITE ADDRESS SITE CITY AND STATE SITE COUNTY SITE PROVINCE SITE COUNTRY SITE PHONE NUMBER Ue the arrow key to view the available creen. Thee creen are view only. Iue 7, March 2009 Page 41

42 4.4.4 SETP Selecting SETP from the PLT menu, a hown below, allow the uer to view and change etpoint for the plant. XX.XXV ALARMS - XA NONE SEL xxx PLANT CTRL INFO SETP Right Arrow MAIN MENU PLT ALRM xxx PLANT INFO SETP CONFIG SEL xxx PLANT STAT CTRL Right Arrow xxx PLANT STAT CTRL INFO Right Arrow At thi point, preing SEL will allow the uer to acce the creen where plant etpoint can be adjuted. Ue the arrow key to view creen containing the following etpoint: PLANT FLOAT VOLTAGE PLANT EQUALIZE VOLTAGE RECTIFIER MAXIMUM CURRENT RECTIFIER HIGH VOLTAGE SHUTDOWN AMBIENT TEMPERATURE MAXIMUM AMBIENT TEMPERATURE MINIMUM PLANT HIGH VOLTAGE ALARM PLANT LOW-LOW VOLTAGE ALARM PLANT LOW VOLTAGE ALARM PLANT HIGH VOLTAGE SHUTDOWN TCA SETTING (%) LOW VOLTAGE LOAD DISCONNECT "A" TIME LOW VOLTAGE LOAD DISCONNECT "B" TIME LOW VOLTAGE LOAD DISCONNECT "C" TIME LOW VOLTAGE DISCONNECT "A" LOW VOLTAGE DISCONNECT "B" LOW VOLTAGE DISCONNECT "C" LOW VOLTAGE RECONNECT "A" LOW VOLTAGE RECONNECT "B" LOW VOLTAGE RECONNECT "C" RECTIFIER CURRENT IMBALANCE LMR SETTING MAXIMUM ALARM TEST TIME A MAIN SHUNT B MAIN SHUNT C MAIN SHUNT Page 42 Iue 7, March 2009

43 When uing the arrow key to croll through the etpoint, if there i one that need to be changed, imply preing the SEL key while that etpoint i diplayed will elect it for modifying. Once SEL ha been preed the diplay will appear a follow (Plant Float i ued a an example): ENTER NEW 54.5 Vdc Ue the arrow key to increae or decreae the etpoint. When the etting i correct, preing the SEL key will diplay thi creen to verify the change: PLANT FLOAT CANCEL ACCEPT The choen election will be flahing, in thi cae ACCEPT. Ue the arrow key to chooe between cancel and accept, then pre SEL when the proper one i flahing. Thi will confirm the change and the new etpoint will be in effect CONFIG Selecting CONFIG from the PLT menu, a hown below, allow the uer to view and change etpoint for the plant. XX.XXV ALARMS - XA NONE SEL xxx PLANT CTRL INFO SETP Right Arrow MAIN MENU PLT ALRM xxx PLANT INFO SETP CONFIG SEL xxx PLANT STAT CTRL Right Arrow xxx PLANT SETP CONFIG Right Arrow xxx PLANT STAT CTRL INFO Right Arrow At thi point, preing SEL will allow the uer to acce the creen where plant configuration can be adjuted. Ue the arrow key to view creen containing the following configuration: EXT MON EQUIPPED RM S EQUIPPED SHUNT POS/PNL1 (Panel 1 through 9) CONV EQUIPPED Iue 7, March 2009 Page 43

44 4.5 ALRM Selecting ALRM from the main menu, a hown below, bring up the Alarm creen. From here, the tatu of the alarm noted from the main creen can be viewed. XX.XXV ALARMS - XA NONE SEL MAIN MENU PLT ALRM Right Arrow MAIN MENU PLT ALRM BATT At thi point, preing SEL allow the uer to acce the creen containing information about any alarm that are preent. Once SEL i preed, the following creen howing the current alarm tatu of the plant i diplayed: Preing SEL again will allow the uer to elect to view alarm on the Plant or the Bay, diplaying the following creen: ACTIVE ALARMS: MINOR An example of a creen that might be diplayed i a follow: ALARM SELECT: XX LOAD DISCON B Page 44 Iue 7, March 2009

45 4.6 BATT Selecting BATT from the main menu, a hown below, bring up the battery creen. From here, there i another ubmenu that, uing the arrow key and elect button, allow the uer to chooe from STAT (tatu), CTRL (control), INFO (information), or SETP (etpoint). XX.XXV ALARMS - XA NONE MAIN MENU ALRM BATT DISC SEL MAIN MENU PLT ALRM Right Arrow MAIN MENU PLT ALRM BATT Right Arrow STAT Selecting STAT from the BATT menu, a hown below, allow the uer to browe creen that detail the Bay' tatu. Thi creen liting begin MAIN MENU where SECTION 4.6 left off ALRM BATT DISC SEL BATTERY STAT CTRL At thi point, preing SEL will allow the uer to browe the available tatic creen for tatu information on: TEMP COMP ADJ - Temperature Compenation Adjut - The amount the voltage ha been changed to account for the temperature of the batterie. CRTL RECHG ADJ TOTAL BAT CURR BATT SENSE CALC MIDPOINT CTRL RECHARGE (Off or Active) BATT ON DISCHG (Off or Active) BTC STATUS (Off or Active) BATT ALARM (Off or Active) BATT FUSE ALM (Off or Active) BATT DISC ALM (Off or Active) 001 AH TO CHG (Same tring 1 through 10) 001 FLT HR AVG (Same tring 1 through 10) 001 CUR VAR ALM (Same tring 1 through 10) 001 FLT CUR ALM (Same tring 1 through 10) 001 BATT MIDPT (Same tring 1 through 10) 001 HIGH TEMP (Off or Active) 001 LOW TEMP (Off or Active) (Enabled When Supplemental Battery Monitor Equipped.) Iue 7, March 2009 Page 45

46 001 MIDPOINT (Same tring 1 through x) 001 TEMP (Same tring 1 through x) 001 CURRENT (Same tring 1 through x) BAT MON FAIL (Normal or Fail) 001 BATT CONT (Connected or Diconnected) 101 EEPROM FAIL 101 FLASH FAIL CTRL Selecting CTRL from the BATT menu, a hown below, allow the uer to control or enable bay apect. MAIN MENU ALRM BATT DIST Thi creen liting begin where SECTION 4.6 left off SEL BATT STAT CTRL Right Arrow BATT STAT CTRL INFO At thi point, preing SEL will allow the uer to acce the creen neceary to enable the following: CTRL RECHARGE (control recharge) (Diable or Enable) BTC ENABLE (Diable or Enable) STR CUR VAR ALM (tring current variance alarm) (Diable or Enable) HI FLT CUR ALM (high float current alarm) (Diable or Enable) TOT BAT CUR SRC (total battery current ource) 001 STR MONITOR (tring monitor) (Diable or Enable) Page 46 Iue 7, March 2009

47 4.6.3 INFO Selecting INFO from the BATT menu, a hown below, allow the uer to view information about the bay. MAIN MENU ALRM BATT DIST Thi creen liting begin where SECTION 4.6 left off SEL BATT STAT CTRL Right Arrow BATT STAT CTRL INFO Right Arrow BATT CTRL INFO SETP At thi point, preing SEL will allow the uer to acce the creen containing battery information, uch a: Serial Number Releae Level CLEI Code CPR Code Ue the arrow key to view the available creen. Thee creen are view only. Iue 7, March 2009 Page 47

48 4.6.4 SETP Selecting SETP from the BATT menu, a hown below, allow the uer to view and change etpoint for the bay. MAIN MENU ALRM BATT DIST Thi creen liting begin where SECTION 4.6 left off SEL BATT STAT CTRL BATT INFO SETP Right Arrow BATT STAT CTRL INFO Right Arrow BATT CTRL INFO SETP Right Arrow At thi point, preing SEL will allow the uer to acce the creen where battery etpoint can be adjuted. Ue the arrow key to view creen containing the following etpoint: TEMP COMP SLOPE (temperature compenation lope) RCHG RATE FACTOR (recharge rate factor) BAT I VARIANCE (battery current variance) VAR INHIBIT MIN (variance inhibit minimum) HI FLT I FACTOR (high float current factor) RCHG CTRL MIN (recharge control minimum) BATT ON DISCHG (battery on dicharge) BTA HIGH LIMIT (battery temperature alarm high limit) BTA LOW LIMIT (battery temperature alarm low limit) EQ TIME SETTING (equalize time etting) FLOAT I ALM DLY (float current alarm delay) MIDPT VAR MAJ (midpoint variance major) MIDPT VAR MIN (midpoint variance minor) 001 STRING AH (tring ampere-hour) BAT MAIN SHUNT (battery main hunt) 001 STRING SHUNT (tring hunt) Page 48 Iue 7, March 2009

49 4.7 DIST Selecting DIST from the main menu, a hown below, bring up the ditribution creen. From here, there i another ubmenu that, uing the arrow key and elect button, allow the uer to chooe from STAT (tatu), CTRL (control), INFO (information), or SETP (etpoint). XX.XXV ALARMS - XA NONE MAIN MENU ALRM BATT DIST SEL Right Arrow MAIN MENU PLT ALRM MAIN MENU BATT DIST TEST Right Arrow MAIN MENU PLT ALRM BATT Right Arrow STAT Selecting STAT from the BATT menu, a hown below, allow the uer to browe creen that detail the Bay' tatu. Thi creen liting begin MAIN MENU where SECTION 4.7 left off BATT DISC TEST SEL DIST STAT CTRL At thi point, preing SEL will allow the uer to browe the available tatic creen for tatu information on: DIST CURR ALM (Off or Active) DIST FUSE ALM (Off or Active) 111 BRANCH CURR BRANCHES 1 12 are the ame. 111 BRANCH DCA (Off or Active) Iue 7, March 2009 Page 49

50 4.7.2 CTRL Selecting CTRL from the DIST menu, a hown below, allow the uer to control ditribution apect. MAIN MENU BATT DIST TEST Thi creen liting begin where SECTION 4.7 left off SEL DIST STAT CTRL Right Arrow BATT STAT CTRL INFO At thi point, preing SEL will allow the uer to acce the creen neceary to enable or diable branch current. 101 BRANCH CURR (Diable or Enable) (Same for all branch circuit) Page 50 Iue 7, March 2009

51 4.7.3 INFO No information creen are available for the ditribution menu SETP Selecting SETP from the DIST menu, a hown below, allow the uer to view and change etpoint for the ditribution. MAIN MENU BATT DIST TEST Thi creen liting begin where SECTION 4.7 left off SEL DIST STAT CTRL DIST INFO SETP Right Arrow DIST STAT CTRL INFO Right Arrow DIST CTRL INFO SETP Right Arrow At thi point, preing SEL will allow the uer to acce the creen where ditribution etpoint can be adjuted. Ue the arrow key to view creen containing the following etpoint: DCA LIMIT (fue 1 12 are all the ame) BRANCH SHUNT (hunt 1 12 are all the ame) Iue 7, March 2009 Page 51

52 4.8 TEST Selecting TEST from the main menu, a hown below, bring up the Tet creen. From here, there i another ubmenu that, uing the arrow key and elect button, allow the uer to chooe from RELAY (relay operation), BAYSW (bay witch), or LED (LED). XX.XXV ALARMS - XA NONE MAIN MENU ALRM BATT DIST SEL Right Arrow MAIN MENU PLT ALRM MAIN MENU BATT DIST TEST Right Arrow MAIN MENU PLT ALRM BATT Right Arrow Right Arrow MAIN MENU DIST TEST SYST LED TEST SELECT: LED <-> RELAY At thi point, preing SEL will initiate the LED tet. Thi i a elf-tet of the alarm LED'. Each LED will light for a brief period of time in downward order from top left to bottom right. If the uer arrow to the right without preing elect, the relay tet, bay witch tet, and the alarm tet may be performed. TEST SELECT: RELAY <-> Preing SEL will initiate the relay tet. Thi i a elf-tet of alarm relay. Each relay will power on for a brief period of time to enure it i functioning properly. The tet will change the tate of the relay and an alarm will be extended. If the uer arrow to the right, the bay witch tet may be performed. Page 52 Iue 7, March 2009

53 4.8.3 TEST SELECT NOTE: During an alarm tet, alarm will be ent. Prior to teting the function any alarm, notify alarm peronal that alarm teting i in progre. The tet elect function of the digital plant controller allow the uer to tet the alarm reporting mechanim. The uer can initiate any individual alarm. All other will be aerted to the inactive tate. The maximum number of alarm imulated at any given time i one. (1) The initiated alarm tet will tay in the active tate until one of the following occur: a) The operator perform an action that relaxe the alarm under tet (i) The operator manually turn off the alarm tet for the point currently under tet. (ii) The local uer back out of the alarm tet level of tet menu b) The operator initiate a tet for another alarm c) Settable walk away timer time out due to uer inactivity (MAX ALARM TEST etpoint) d) The occurrence of a real plant alarm will drop the ytem out of alarm tet mode, a well a prevent the initiation of a tet mode. (2) Activation of the alarm tet mode will place all controller menu at the ALARM TEST STATUS (active/inactive) menu in order to notify local uer of alarm mode activation. (3) An active alarm tet mode and the active alarm under tet tatu will be reported via the web page and the alarm Log. The alarm active tatu will be reported via the plant alarm tatu relay and alarm LED. TEST SELECT: ALARMS <-> TEST SELECT: INACTIVE Selecting Back to the Tet Select menu will reult in aborting the tet mode. At thi point, preing SEL will allow the uer to acce the creen neceary to change the following: RFA MINOR (Clear or Set) RFA MAJOR (Clear or Set) AC FAIL - (Clear or Set) HIGH VOLTAGE ALM (Clear or Set) LOW VOLTAGE ALM (Clear or Set) L-LOW VOLTAGE ALM (Clear or Set) LVD ALM (Clear or Set) CONV FAIL (Clear or Set) AMBIENT TEMP ALM (Clear or Set) BATT ALM (Clear or Set) HI HI VOLT ALM (Clear or Set) BATT ON DISCHG (Clear or Set) DIST FUSE ALM (Clear or Set) POWER MINOR (Clear or Set) POWER MAJOR (Clear or Set) MONITOR FAIL (Clear or Set) If it i neceary to enable any alarm tet, follow thee tep: Iue 7, March 2009 Page 53

54 For thi example, RFA minor will be enabled. After electing RFA MINOR a the etting to change, the following creen will be diplayed: RFA MINOR CLEAR SET The preent etting will be in italic. Pre SEL to elect the flahing option, or pre the arrow key to witch between CLEAR and SET. When the deired election i flahing, pre SEL. The following diplay will appear: ENTER NEW CANCEL ACCEPT 4.9 SYST Note that ACCEPT i flahing, and i therefore the default option. Preing SEL at thi time will accept the change and the new etting will be take effect. If thi i incorrect, ue the arrow key to elect CANCEL. Selecting RECT from the main menu, a hown below, bring up the Rectifier creen. From here, there i another ubmenu that, uing the arrow key and elect button, allow the uer to chooe from STAT (tatu), CNFG (configuration), or INFO (information). XX.XXV ALARMS - XA NONE MAIN MENU BATT DIST TEST MAIN MENU PLT SEL ALRM Right Arrow MAIN MENU DIST TEST SYST Right Arrow MAIN MENU PLT ALRM BATT Right Arrow MAIN MENU TEST SYST RECT SEL MAIN MENU ALRM BATT DIST Right Arrow At thi point, preing SEL will allow the uer to acce the creen where ytem etpoint can be adjuted. Ue the arrow key to view creen containing the following etpoint: Page 54 Iue 7, March 2009

55 4.9.1 STAT CNFG INFO CTRL INT TEMP - Diplay the internal temperature of the Phoenix digital controller 4.10 RECT RECT POS/SHELF (Set the type of rectifier helf being ued, either a 3 or 4 poition helf) CONV POS/SHELF (Set the type of converter helf being ued, either a 3 or 4 poition helf) SERIAL NUMBER RELEASE LEVEL DGC SOFTWARE DATE CODE Selecting RECT from the main menu, a hown below, bring up the Rectifier creen. From here, there i another ubmenu that, uing the arrow key and elect button, allow the uer to chooe from STAT (tatu), CTRL (control), INFO (information), or SETP (etpoint). XX.XXV ALARMS - XA NONE MAIN MENU BATT DIST TEST MAIN MENU PLT SEL ALRM Right Arrow MAIN MENU DIST TEST SYST Right Arrow MAIN MENU PLT ALRM BATT Right Arrow MAIN MENU TEST SYST RECT MAIN MENU ALRM BATT DIST Right Arrow Right Arrow MAIN MENU SYST RECT CONV At thi point, the uer may croll through all equipped rectifier. The diplay will how the following: RECTIFIER SELECT 01 Preing SEL allow the uer to enter another ubmenu where STAT, CTRL, INFO, or SETP (for the elected rectifier) may be choen. The diplay will appear a follow: RECTIFIER 01 STAT CTRL The numbering on thi diplay correpond with the number of the rectifier that' information i being diplayed. The firt number i the bay number, the econd i the helf number, and the third i the poition number. Iue 7, March 2009 Page 55

56 STAT Selecting STAT from the RECT menu, a hown below, allow the uer to browe creen that detail the rectifier' tatu. MAIN MENU TEST RECT CONV Thi creen liting begin where SECTION 4.10 left off SEL RECTIFIER SELECT 01 SEL RECTIFIER 01 STAT CTRL At thi point, preing SEL will allow the uer to browe the available tatic creen for tatu information on: CURRENT OUT - PRESENT CURRENT ON THE OUTPUT RECTIFIER TEMPERATURE #1 - TEMPERATURE OF RECTIFIER RECTIFIER FAIL OFF OR ACTIVE RECTIFIER RUN MODE - STANDBY OR RUN TEMPERATURE ALARM OFF OR ACTIVE AC LO FAIL NORMAL OR FAULT FAN #1 FAIL OFF OR ACTIVE FAN #2 FAIL OFF OR ACTIVE CURRENT LIMIT OFF OR ACTIVE RECT PLT MODE (FLOAT OR EQUALIZE) RS 232 FAIL OFF OR ACTIVE DC BREAK (ON OR OFF) AC BREAK (ON OR OFF) HVSD OFF OR ACTIVE LVSD OFF OR ACTIVE FUSE BR - (ON OR OFF) PFC ALM OFF OR ACTIVE PHASE ALM _ OFF OR ACTIVE AC LO DERATE OFF OR ACTIVE AC HI SHUTDWN OFF OR ACTIVE HV PLT SHUTDWN OFF OR ACTIVE A typical creen will appear a follow: 01 VOLTAGE OUT Vdc Ue the arrow key to witch between creen about the ame rectifier. Ue the SEL key to croll through the different rectifier that are monitored. When the rectifier of interet i diplayed, ue the arrow key to witch between it' creen. Page 56 Iue 7, March 2009

57 CTRL Selecting CTRL from the RECT menu, a hown below, allow the uer to control view or change the operating mode of each rectifier. MAIN MENU TEST RECT CONV Thi creen liting begin where SECTION 4.10 left off SEL RECTIFIER SELECT 01 SEL RECTIFIER 01 STAT CTRL RECTIFIER 01 STAT CTRL INFO At thi point, preing SEL will allow the uer to acce the creen neceary to change the operating mode of the rectifier from Run to Standby, or vice vera. If it i neceary to change the operating mode of one of the rectifier, follow thee tep: From the CTRL option, pre SEL and the diplay will appear a follow: 01 RECT MODE SAME RUN STBY Note that SAME i in Italic. Thi denote that it i flahing. To change the tatu of the rectifier, pre SEL to elect the flahing option, or pre the arrow key to witch between them. When the deired election i flahing, pre SEL. The following diplay will appear: 01 ENTER NEW CANCEL ACCEPT Note that ACCEPT i flahing, and i therefore the default option. Preing SEL at thi time will accept the change and the new mode will be active. If thi i incorrect, ue the arrow key to elect CANCEL. Iue 7, March 2009 Page 57

58 INFO Selecting INFO from the RECT menu, a hown below, allow the uer to view information about the rectifier. Thi creen liting begin where SECTION 4.10 left off MAIN MENU TEST RECT CONV SEL RECTIFIER SELECT 01 SEL RECTIFIER 01 STAT CTRL RECTIFIER 01 STAT CTRL INFO RECTIFIER 01 CTRL INFO SETPT At thi point, preing SEL will allow the uer to acce the creen containing information about each rectifier uch a: Serial Number Part Number Reviion Number Manufacture Date CLEI Code Software verion intalled in rectifier Ue the arrow key to view the available creen. Thee creen are view only SETP No individual rectifier pecific etpoint are available. Page 58 Iue 7, March 2009

59 4.11 CONV Selecting CONV from the main menu, a hown below, bring up the Converter creen. From here, there i another ubmenu that, uing the arrow key and elect button, allow the uer to chooe from STAT (tatu), CTRL (control), INFO (information), or SETP (etpoint). XX.XXV ALARMS - XA NONE MAIN MENU DIST TEST SYST SEL Right Arrow MAIN MENU PLT ALRM MAIN MENU TEST SYST RECT Right Arrow MAIN MENU PLT ALRM BATT SEL Right Arrow MAIN MENU SYST RECT CONV Right Arrow MAIN MENU ALRM BATT DIST MAIN MENU RECT CONV MAIN MENU BATT DIST TEST Right Arrow At thi point, preing SEL allow the uer to acce the creen where the converter information may be viewed. The diplay will how the following: CONVERTER SELECT 01 At thi point, preing SEL allow the uer to enter another ubmenu where STAT, CTRL, INFO, or SETP may be choen. The diplay will appear a follow: CONVERTER 01 STAT CTRL The numbering on thi diplay correpond with the number of the converter that' information i being diplayed. The firt number i the bay number, the econd i the helf number, and the third i the poition number. Iue 7, March 2009 Page 59

60 STAT Selecting STAT from the CONV menu, a hown below, allow the uer to browe creen that detail the rectifier' tatu. MAIN MENU RECT CONV Thi creen liting begin where SECTION 4.11 left off SEL CONVERTER SELECT 01 SEL CONVERTER 111 STAT CTRL CTRL At thi point, preing SEL will allow the uer to browe the available tatic creen for tatu information on: Current Out - Preent output current on the elected converter 01 CONV FAIL (Off or Active) 01 EQUIPPED (No or Ye) No individual converter pecific control are available INFO No individual converter pecific information i available SETP No individual converter pecific etpoint are available. Page 60 Iue 7, March 2009

61 SECTION 5: DETAILED CONTROLLER BATTERY FUNCTIONS 5.1 BATTERY MANAGEMENT Three battery management feature are included within the digital plant controller. Two of thee feature are imple monitoring with alarm. The third monitor, perform calculation, and control plant function baed on thee calculation. The firt of thee feature i HIGH FLOAT CURRENT ALARM, followed by BATTERY STRING CURRENT VARIANCE ALARM. Thee are logged and diplayed a alarm. The third feature, CONTROLLED RECHARGE, control the recharge current to the batterie after a deep dicharge cycle. Thi uite of feature combine to enhance and keep the DC power ytem adminitrator advied of battery health. All of thee feature require the uer to input the ampere-hour rating of each battery tring at time of initial et-up or when battery tring are added or removed (refer to SECTION and SECTION 5.5 and croll to String AH to et the ampere-hour for each equipped battery tring). The High Float Current Alarm and Controlled Recharge feature can then operate on baic input that are alway equipped in PECO II DC power ytem. The High Float Current Alarm can alo operate in an enhanced mode when the ytem i equipped with individual battery tring hunt. Thi enhanced mode provide additional intelligence of which tring i drawing more current than normal. The Battery String Current Variance Alarm feature require at leat two battery tring to function and mut have the individual tring hunt equipped in the ytem. With thee minimum requirement met, the feature can be enabled. Thee variable can be changed by the end uer to cutomize the ytem HIGH FLOAT CURRENT ALARM The High Float Current Alarm monitor total battery charge current (individual battery tring current in enhanced mode) during float mode of the DC power ytem. The alarm current threhold i a function of the ampere-hour of the batterie (total in normal and individual tring in enhanced). The variable named High Float Current Factor i factory defaulted at.05. The range of the etting i from.02 to.25. Thi factor i multiplied with the ampere-hour of the batterie. The product become the ampere threhold that battery current mut be greater than to create the alarm. To enure thi alarm i not preent during normal recharge mode operation of the plant a 12 hour delay i impoed on the violation of the threhold before the alarm i logged or extended. The 12 hour delay i alo a variable that can be modified by the end uer BATTERY STRING CURRENT VARIANCE ALARM Battery String Current Variance Alarm monitor the individual battery tring current during dicharge mode of the plant and recharge current during recharge mode of the plant. The individual current are compared to each other and an alarm logged and extended if the tring are not delivering or accepting current in a balanced manner. Thi algorithm aume all tring are of equal ampere-hour and hould be the ame type and from the ame manufacturer. If not, thi feature hould not be enabled. The individual tring current are averaged and that average i then compared to each individual tring current. If any ingle tring current varie from the average by more than 20% (factory default for Bat I Variance ) the alarm i initiated. There i a 120 econd delay impoed when thi condition i ened to enure that no nuiance alarm are extended. Larger batterie have greater variance in tranient current. The variable Variance Inhibit Minimum (VIM) i a feature in the Phoenix controller to compenate for thi characteritic. The VIM entry i multiplied by the ampere hour of the battery tring. The product become the ampere threhold that mut be urpaed by the average tring current before the alarm threhold will be reached. Thi variable factory default i.10 and can range from.05 to.25. Iue 7, March 2009 Page 61

62 BATTERY STRING CURRENT VARIANCE ALARM When enabled, thi function monitor individual tring current. If the individual tring current deviate peritently (45 econd) from the median tring current by a ettable percentage, then a tring-pecific current variance alarm i annunciated. Note 1: Battery String Current Variance require upplemental monitoring equipment; refer to SECTION 8 regarding ADAC information. Note 2: Thi function i active in charge or dicharge mode Battery String Current Variance Alarm Setup 1. Battery String AH etting. (reference Total Battery Ampere-Hour ection) 2. Enable Battery String Current Monitoring (reference Total Battery Current Monitoring Method 3) 3. Minimum Monitored Battery Current Note 1: Thi feature i not recommended for ue when current level are low or variance are either not important or when the hunt ignal to noie ratio i high. Thi etting allow u to et a minimum total battery current (amplitude) below which the feature i inhibited. A typical ue of thi feature i during float mode. The Variance Inhibit Minimum derive thi minimum total battery current uing the following calculation: Min Monitored Battery Current = Total Battery AH Rating * Variance Inhibit Minimum. The etting can be done uing the equence BATT SETP VAR INHIBIT MIN. VAR INHIBIT MIN Setting String Variance Tolerance Thi etpoint define the amount of variance, a a function of median tring current, a given tring may deviate before an alarm condition i detected. For example, if the median tring current i 25 Amp, and thi etpoint i et to 10%, then the tring current may vary between 22.5Amp and 27.5 Amp without an alarm. Thi etting can be done uing the equence BATT SETP BAT I VARIANCE. BAT I VARIANCE 99 % Page 62 Iue 7, March 2009

63 5. Enable Battery String Current Variance Monitoring PECO II, Inc. Phoenix Digital Plant Controller Uer Manual From the equence BATT CTRL STR CUR VAR ALM, enable the function.. STR CUR VAR ALM- DISABL ENABLE Statu Reporting Alarm Output LED: BAT, PMN Relay: K10, K14 LUD: Active alarm will appear on BATT STAT and ALRM menu 001 BATT ALARM OFF ACTIVE - POWER MINOR OFF ACTIVE CUR VAR ALM OFF ACTIVE CONTROLLED RECHARGE Controlled Recharge enure batterie are not recharged fater than recommended by battery manufacturer. Thi prevent out gaing of VRLA batterie during a recharge cycle. Venting loe water from the cloed loop chemical reaction in batterie and lead to premature battery failure. Battery manufacturer recommend keeping battery charge current le than one fourth the ampere hour rating of the battery. The Recharge Rate Factor i a variable in the Phoenix plant controller. The etting range i between.05 and.25 (5% and 25% of Ahr. in ampere) when the Controlled Recharge feature i enabled. Thi factor i multiplied by the total ampere-hour of equipped batterie. The product of thi operation, in amperage, i ued a the recharge current target. The controller will regulate plant voltage to maintain charging the batterie with thi target current until the voltage reache the plant float voltage et-point regardle of the plant load or the total rectifier recharge capacity. The factory default Recharge Rate Factor i.20 (20%) BATTERY CONTROLLED RECHARGE SETUP When enabled, during recharge, the controller continuouly adjut the rectifier output voltage to regulate battery charge current to a uer-electable target charge current. The target charge current i et a a function of total battery AH rating. Step 1: Setup battery monitoring mode. Refer to ection 5.4 Total Battery Current Monitoring. Step 2: Setup Battery AH rating. Refer to ection 5.5 Total Battery Ampere-Hour. Step 3: Setup Target Total Battery Current. Thi i a caling factor that determine ideal charge current/tring a a function of total AH rating. Mot battery manufacturer ugget 0.2 (20%). Target Total Battery Current = Total AH Rating x Recharge Rate Factor. From the equence BATT SETP RCHG RATE FACTR, etup the Recharge Rate Factor et point. RCHG RATE FACTR Iue 7, March 2009 Page 63

64 Step 4: Setup Minimum Rectifier Output Voltage Thi et point repreent the minimum rectifier voltage etting ued to achieve the target battery charge current. From the equence BATT SETP RCHG CTRL MIN, etup the minimum rectifier output voltage. RCHG CTRL MIN Vdc Step 5: Enable Battery Controlled Recharge. Note: Thi algorithm override operation of Battery Temperature Compenation (BTC). BTC become inactive when Battery Controlled Recharge i enabled. From the equence BATT CTRL CTRL RECHARGE, enable the Battery Controlled Recharge. CTRL RECHARGE - DISABL ENABLE STATUS REPORTING LUD: From the equence BATT STAT CTRL RECHARGE, diplay Active Statu. CTRL RECHARGE OFF ACTIVE - From the equence BATT STAT CTRL RECHG ADJ, diplay Rectifier BCR Adjutment. Thi repreent the current adjutment to the normal rectifier float voltage with the intent of achieving the target battery charge current. (Thi will alway be a negative value.) CTRL RECHG ADJ -999 mvdc - Relay, LED : None 5.2 HIGH FLOAT CURRENT ALARM THEORY HIGH FLOAT CURRENT THRESHOLD High float current threhold i the value that i compared to actual battery tring charge current (either individual (requiring ADAC) or plant total (either calculated or meaured)). Thi value i not a uer et point but i derived from the High Float Factor et point that i a uer entered et point HIGH FLOAT FACTOR High float factor i the number the controller multiplie the battery ampere hour by to get the High Float Current Threhold. If individual battery tring are monitored and ADAC module will be required. If the plant i not equipped with the ADAC option, total tring ampere hour i ued. Thi factor i factory defaulted to.05 and it range i.01 to.25. It i et by the factor due to the ize variation that could occur with the different battery tring HIGH FLOAT CURRENT DELAY High float current delay i a uer definable et point that enure nuiance alarm are not extended. An example would be after a dicharge event when batterie are being recharged. The controlled recharged feature limit venting while charging the batterie after a deep dicharge event to 80% in 4 hour or le. At thi point the plant i back up to float voltage and the current into the batterie ha begun tapering off from 20% of ampere hour down to normal float mode current; Typically 1ma per Ahr. The delay i et to enure that the battery recharge current ha gone below the High Float Current Threhold before Page 64 Iue 7, March 2009

65 enabling the High Float Current Alarm during a normal recharge event. Default i 12 hour with a range of 1 to 36 hour. 5.3 HIGH FLOAT CURRENT ALARM SETUP MODES OF OPERATION: Thi feature operate in two mode: (1) Total Battery Current and (2) Battery String Current. Method 2 require the upplementary ADAC monitor and will annunciate alarm on a tring-by-tring bai. See SECTION 5.4, Total Battery Current Monitoring Mode 1: Total Battery Current Mode (No additional monitoring equipment required) The alarm i annunciated when the total battery current i above the Total high current threhold for a ettable delay period. Step 1: Total High Float Current Threhold The high float current threhold i calculated a a function of battery AH rating. Total High Float Current threhold = Total Battery AH rating x High Float Current Factor. From the equence BATT SETP HI FLT I FACTOR, enter the deired value. HI FLT I FACTOR Step 2: High Float Current Alarm Delay The high float current alarm delay i the period after which the controller will annunciate an alarm if the Total battery charge current remain above the Total high float current threhold. From the equence BATT SETP FLOAT I ALM DLY, enter the deired value. FLOAT I ALM DLY- 99 hr Step 3: High Float Current Alarm Enable From the equence BATT CTRL HI FLT CUR ALM, enable High Float Current Alarm. HI FLT CUR ALM- DISABL ENABLE Statu Reporting Alarm Output: LED: BAT, PMJ Relay: K10, K15 LUD: Active alarm will appear on BATT STAT and ALM menu BATT ALARM OFF ACTIVE - FLOAT CUR ALM OFF ACTIVE - Iue 7, March 2009 Page 65

66 POWER MAJOR OFF ACTIVE Mode 2: String Battery Current Mode (An ADAC monitor i required, refer to SECTION 8) The alarm i annunciated when an individual tring current i above the String high current threhold for a ettable delay period. Step 1: String High Float Current Threhold The high float current threhold i calculated a a function of battery AH rating. String High Float Current threhold = Battery String AH rating x High Float Current Factor. From the equence BATT SETP HI FLT I FACTOR, enter the deired value. HI FLT I FACTOR Step 2: High Float Current Alarm Delay The high float current alarm delay i the period after which the controller will annunciate an alarm if the battery String charge current remain above the String high float current threhold. From the equence BATT SETP FLOAT I ALM DLY, enter the deired value. FLOAT I ALM DLY- 99 hr Step 3: High Float Current Enable From the equence BATT CTRL HI FLT CUR ALM, enable High Float Current Alarm. HI FLT CUR ALM- DISABL ENABLE Statu Reporting Alarm Output: LED: BAT, PMJ Relay: K10, K15 LUD: Active alarm will appear on BATT STAT and ALM menu BATT ALARM OFF ACTIVE FLT CUR ALM OFF ACTIVE - POWER MAJOR OFF ACTIVE - Alarm pecifie tring number Page 66 Iue 7, March 2009

67 5.4 TOTAL BATTERY CURRENT MONITORING PECO II, Inc. Phoenix Digital Plant Controller Uer Manual From the equence BATT STAT TOTAL BAT CURR, total battery current may be viewed. TOTAL BAT CURR 9999 Adc - Battery current monitoring can be achieved uing three different method: (1) ingle main battery hunt method, (2) calculated method, (3) and individual tring monitoring method. Each Total Battery Current Source method may be elected uing the LUD. Method 1: Calculated (Default) Uing the calculated method, total battery current i the total rectifier current total load current. Step 1: From the equence BATT CTRL TOT BAT CUR SRC, elect CALC. Thi enable the calculated method. TOT BAT CUR SRC- CALC STRG MAIN Method 2: Individual String Current Method (An ADAC monitor i required) Total battery current i the um of all individual battery tring current. Individual tring current can be monitored with the additional monitoring equipment. Step 1: From the equence BATT CTRL TOT BAT CUR SRC, elect STRG. Thi enable the tring current method. TOT BAT CUR SRC- CALC STRG MAIN Step 2: From the equence BATT SETP STRING AH, enter tring Ampere-Hour rating for all battery tring. 001 STRING AH Step 3: From the equence BATT CTRL STR CURRENT, enable battery tring a required. 001 STR CURRENT- DISABL ENABLE Step 4: From the equence BATT SETP STRING SHUNT, enter hunt ize for all enabled battery tring. 001 STRING SHUNT 9999 Adc Method 3: Single Main Shunt Method Step 1: From the equence BATT CTRL TOT BAT CUR SRC, elect MAIN. Thi enable the ingle main hunt method. TOT BAT CUR SRC- CALC STRG MAIN Step 2: From the equence BATT SETP BAT MAIN SHUNT, enter main hunt current rating. Iue 7, March 2009 Page 67

68 BAT MAIN SHUNT Adc 5.5 TOTAL BATTERY AMPERE-HOUR: Several Phoenix controller feature ue the total AH etting. The Total Battery Ampere Hour rating for the plant i the um of all the tring AH etting. From the equence BATT SETP STRING AH, enter Ampere-Hour rating for all enabled battery tring. Thee etting exit independently of optional monitoring equipment that may be intalled. 001 STRING AH Page 68 Iue 7, March 2009

69 6.1 GENERAL SECTION 6: CONTROLLER OPERATIONAL CHECKOUT It i aumed that the ytem i intalled in the plant, input power i available, output are tied to the applicable load, and all other ytem interface have been made. NOTE: Alarm will be extended. Notify alarm urveillance peronnel. 6.2 INITIAL PHOENIX DIGITAL PLANT CONTROLLER START UP ROUTINE 1. Remove F1 (CONTROL fue) from the Plant Interconnect PWB, typically located within the plant ditribution head. F1 i a 3 Amp GMT fue. 2. Remove all rectifier module and converter module from the plant. 3. If equipped with battery cutoff breaker, turn each battery tring breaker ON (one tring at a time). If battery cutoff breaker are not intalled, connect each battery tring cable (one tring at a time. Thi will apply battery potential to the power plant. 4. Once all battery tring diconnect breaker are ON or cable connected, replace F1 (CONTRL fue) into the Plant Interconnect PWB, typically located within the plant ditribution head. F1 i a 3 Amp GMT fue. Thi will tart the digital plant controller initialization / elf-tet proce. 5. The plant digital plant controller initialization / elf-tet will tart within 30 econd. During the tart up, the LCD creen will flah SELF TESTS PASSED. Each LED on the front of the digital plant controller will cycle in order from the top left poition to the bottom right poition. Refer to FIGURE 6-1 for a viual repreentation of what the digital plant controller LCD creen will diplay once the plant digital plant controller elf tet i complete. FIGURE 6-1: DIGITAL PLANT CONTROLLER LCD SCREEN NOTE: FIGURE 6-1 repreent a typical digital plant controller LCD creen. Actual plant voltage will be diplayed where 00.00V i hown in the upper left half of FIGURE 6-1. Iue 7, March 2009 Page 69

70 6.3 HARDWIRED BACKUP CONTROLLER FUNCTIONAL TEST (BASIC FUNCTION) (Typically ued for routine operational tet of Backup Controller.) A. Verify that the ytem i powered ON and running normally. Gain acce to the GPPC Controller PWB Ay. ( P). B. Remove Main Control Fue (F1), located on the Plant interconnect PWB Ay. 1. Verify following alarm condition: a. CPU Fail: CPU Fail LED illuminated CPU Fail Relay Alarm output (K16) active b. PMJ: PMJ LED illuminated PMJ Relay Alarm output (K15) active c. Audible: Audible alarm will be active C. Momentarily depre the front panel ACO witch 1. Verify the audible alarm ilence, and the front panel ACO LED illuminate. D. Reintall Main Control Fue (F1). 1. Verify CPU Fail, and PMJ alarm condition retire. 2. The main controller will begin the controller tartup routine (Refer to ection 6.2) 6.4 HARDWIRED BACKUP CONTROLLER FUNCTIONAL TEST (FULL FUNCTION) (Typically ued for thorough full functional teting of the Backup Controller for troublehooting purpoe.) A. Verify that the ytem i powered on, and running normally. Gain acce to the GPPC Controller PWB Ay. ( P). B. Pre and hold the reet button S1 of the GPPC. Continue depreing witch S1 for reminder of backup controller tet in thi ection. (Whenever CPU Fail alarm i active, the ytem i in the Backup Controller Mode.) 1. After approximately (4) econd the main controller will reet, and not retart unle S1 i releaed. Verify following alarm condition: a. CPU Fail: CPU Fail LED illuminated CPU Fail Relay Alarm output (K16) active b. PMJ: PMJ LED illuminated PMJ Relay Alarm output (K15) active c. Audible: Audible alarm will be active C. Momentarily depre the front panel ACO witch 1. Verify the audible alarm ilence, and the front panel ACO LED illuminate. Page 70 Iue 7, March 2009

71 D. Inert a failed fue into one of the LVD fue poition (not controller fue poition) of the Plant Interconnect PWB. (Note: thi will diconnect it aociated contactor in the plant, verify that it will not affect ervice to any of the load at time of tet.) 1. Verify the following alarm condition: a. CBS: CBS LED illuminated b. Audible: Audible alarm will reactivate E. Momentarily depre the front panel ACO witch 1. Verify the audible alarm ilence, and the front panel ACO LED illuminate. F. Reintall good fue. 1. Verify CBS alarm condition retire. G. Simulate a DFA condition by creating a tripped breaker condition in the ditribution, thi may be accomplihed by horting out the (2) circuit breaker aux. witch clip on the circuit breaker backplane, or placing a tripped breaker in the ditribution. 1. Verify the following alarm condition: a. DFA: DFA LED illuminated DFA Relay Alarm output (K13) active b. Audible: Audible alarm will reactivate H. Momentarily depre the front panel ACO witch 1. Verify the audible alarm ilence, and the front panel ACO LED illuminate. I. Remove DFA fail condition. 1. Verify DFA alarm condition retire. NOTE: The following tet for the BOD require that the rectifier be turned off, load diconnected, and an adjutable power upply to be attached to the bu (adjutable 0-60VDC@3A) Initially et the Supply for 27VDC/54VDC for a 24VDC/48VDC plant repectively. J. With the reet button S1 of the GPPC depreed. Lower the power upply lowly to 25VDC/50VDC for a 24VDC/48VDC plant repectively. 1. Verify the following alarm condition activate a the voltage croe the fixed BOD threhold level of 25.75V / 51.5VDC (±0.3V) for a 24V / 48V plant repectively: a. BOD: BOD LED illuminated BOD Relay Alarm output (K12) active b. Audible: Audible alarm will reactivate K. Momentarily depre the front panel ACO witch 1. Verify the audible alarm ilence, and the front panel ACO LED illuminate. Iue 7, March 2009 Page 71

72 L. Return upply voltage to 27VDC/54VDC for a 24VDC/48VDC plant repectively. 1. Verify BOD alarm condition retire. M. Releae S1 of the GPPC 1. The main controller will continue to exhibit a CPU Fail condition, and remain in Backup mode for approx. (15) additional econd at which point it will begin the controller tartup routine (Refer to ection 6.2). Page 72 Iue 7, March 2009

73 7.1 GENERAL PECO II, Inc. Phoenix Digital Plant Controller Uer Manual SECTION 7: TROUBLESHOOTING If a malfunction occur, firt look for the obviou fault. The uer hould determine whether the problem i caued by the ytem or by it environment (e.g. temperature, humidity or load). In addition, there may be other ituation uch a: A. Input Voltage i miing/ not at the correct level. D. Blown fue. E. Tripped circuit breaker. Alway check thee external factor before concluding that your ytem i faulty. If, for intance, the unit top due to overheating it may have been overloaded, the ambient temperature may be too high, the ventilation lot could be blocked or a cooling fan may be out of order. It i poible that a voltage etting for the plant wa inadvertently et wrong, or miadjuted. To enure thi i not the problem, return the ytem to it factory etting. 7.2 SELECTABLE PLANT TEST POINT FUNCTION Independent of the controller, the uer ha the ability to meaure plant voltage and plant current. The probe from an external voltmeter mut be inerted into the (+) and (-) PLANT TEST POINTS on the front of the controller. The tep puhbutton i ued in conjunction with the plant tet point jack. When the green LED i illuminated for PLANT VOLTS, the total plant voltage i meaured at the plant tet point (with an external meter). When the puhbutton i depreed, the green LED will cycle through A-B-C Shunt, and back to Plant Voltage. For A-B-C Shunt, the voltage meaured at the plant tet point (with an external meter), i a 0-50mV ignal meaured at the hunt, which need converted to current baed on hunt rating. To accomplih thi, the hunt value (in Amp) mut be known. Alo, the hunt voltage range mut be known. TABLE 7-1 how all PECO II plant that ue the Phoenix digital plant controller. All PECO hunt produce 50mV when the rated current flow through the hunt. TABLE 7-1: PECO II Plant Shunt Size PECO II Plant Shunt Shunt Size 128HP Shunt A Left ide +24V ditribution 1000 Shunt B Right ide +24V ditribution 1000 Shunt C Not equipped 128FD Shunt A both ide of +24V ditribution 1200 Shunt B Not equipped Shunt C Not equipped 129FD Shunt A both ide of -48V ditribution 1200 Shunt B Not equipped Shunt C Not equipped 129NP Shunt A -48V ditribution 800 (One Load) Shunt B Not equipped Shunt C Not equipped 129NP Shunt A -48V ditribution attached to A bu 400 (Three Load) Shunt B -48V ditribution attached to B bu 400 Shunt C -48V ditribution attached to C bu 400 Iue 7, March 2009 Page 73

74 400 Amp Shunt Shunt Reading in mv Ampere Amp Shunt Shunt Reading in mv Ampere Amp Shunt Shunt Reading in mv Ampere Amp Shunt Shunt Reading in mv Ampere Page 74 Iue 7, March 2009

75 7.3 FAULT / STATUS REPORTNG The table below detail what plant condition are monitored. All alarm are tandard. TABLE 7-2: Monitored Fault Statu/Alarm Decription Relay Extended Front Panel LED Number Alarm LED Dec COLOR Rectifier Major Alarm K1 RFAJ RFAJ RED Rectifier Minor Alarm K2 RFAN RFAN AMBER Battery Fue Alarm K10 BAT BAT AMBER Midpoint alarm K10 BAT BAT AMBER Battery Alarm (will be accompanied by PNM or PMJ) K10 BAT BAT AMBER Battery Diconnect Alarm K10 BAT BAT AMBER Battery Current Variance Alarm K10 BAT BAT AMBER Battery Float Current Alarm K10 BAT BAT AMBER Battery Temperature Alarm K10 BAT BAT AMBER Ditribution Fue Alarm K13 DFA DFA RED Ditribution Current Alarm N/A N/A DCA AMBER Sytem OK K16 UP FAIL SYS OK GREEN Plant Low Low Voltage K6 LLVA LLVA RED Plant Low Voltage K5 LVA LVA AMBER Plant High Voltage K4 HVA HVA RED High High Voltage (indicate a High Voltage Shutdown (HVSD) condition) K11 HHVA (HVSD) HHVA Conv Fail Alarm (major or minor) K8 CFA CFA RED Low Voltage Diconnect (LVD, A-C) K7 LVD LVD RED Total Current Alarm N/A N/A TCA AMBER AC Fail K3 AC FAIL ACF AMBER Ambient Temperature Alarm (Hi/Lo) K9 TEMP TEMP AMBER Float Mode N/A N/A FLOAT GREEN Equalize Mode N/A N/A EQL AMBER Battery Temperature Compenation N/A N/A BTC AMBER Limited Recharge Alarm N/A N/A LMR AMBER Control Battery Supply N/A N/A CBS RED Battery on Dicharge K12 BOD BOD AMBER up FAIL K16 UP FAIL CPU FAIL RED Power Minor Alarm K14 PMN PMN AMBER Power Major Alarm K15 PMJ PMJ RED Alarm Cutoff Active N/A N/A ACO AMBER RED Iue 7, March 2009 Page 75

76 ALARM/STATUS Power Major Alarm (PMJ) Power Minor Alarm (PMN) Limited Recharge Alarm (LMR) Plant Low Voltage (LVA) Plant Low Low Voltage (LLVA) Plant High Voltage (HVA) Battery on Dicharge (BOD) Ditribution Current Alarm (DCA) Total Current Alarm (TCA) Ditribution Fue Fail (DFA) Rectifier Minor Alarm (RFA_MN) Rectifier Major Alarm (RFA_MJ) AC Fail (AC_FAIL) Low Voltage Diconnect (LVD, A-C) Ambient Temperature Alarm (High & Low) DESCRIPTION Power Major i a broad claification of failure that indicate a problem with the bay that i interrupting operation. See individual alarm dipoition. Power Major i a broad claification of failure that indicate a problem with the bay that i not interrupting operation. See individual alarm dipoition. The limited recharge alarm i active when the load exceed a et percentage (factory et to 80%) of the rectifier current capacity of the plant during normal plant operation. Thi condition i a reult of the plant voltage meaurement dropping below the Plant Low Voltage Alarm etpoint for 200 milliecond. The plant voltage mut exceed the threhold by 0.5Vdc in order to retire the condition. Thi condition i a reult of the plant voltage meaurement dropping below the Plant Low Low Voltage Alarm etpoint for 200 milliecond. The plant voltage mut exceed the threhold by 0.5Vdc in order to retire the condition. Thi condition i a reult of the plant voltage meaurement exceeding the Plant High Voltage Alarm etpoint for 200 milliecond. The plant voltage mut drop 0.5Vdc below the threhold in order to retire the condition. Thi condition i a reult of the plant voltage meaurement dropping below the Battery on Dicharge Voltage Alarm etpoint for 200 milliecond. The plant voltage mut exceed the threhold by 0.5Vdc in order to retire the condition. Thi active tate reflect a condition whereby one or more branch current meaurement exceed a percentage of the correponding fue rating for more than 200 milliecond. The branch current mut be enabled. The current meaurement mut drop 5% below the threhold before the alarm condition become inactive. The percentage i ettable via the DCA (MM/SHM) % etpoint. Thi active tate reflect a condition whereby one or more branch current meaurement (A, B, or C) exceed a percentage of the correponding hunt rating for more than 200 milliecond. The branch current mut be enabled (B & C). The current meaurement mut drop 5% below the threhold before the alarm condition become inactive. The percentage i ettable via the TCA Setting % etpoint. Thi alarm ignal the failure of a ditribution fue / circuit breaker. Thi repreent a condition whereby a ingle rectifier module ha failed. Thi repreent a condition whereby multiple rectifier module have failed. Thi repreent a condition whereby there ha been an interruption in commercial AC ervice coming into the plant. Thi mut be externally wired to ene relay. Thi repreent a condition whereby one or more of the low voltage diconnect (A, B, C) have dropped the load due to low battery voltage. The ambient temperature enor i meauring a temperature, which i either above the Ambient temperature High Limit etpoint or below the Ambient Temperature Low Limit etpoint for at leat 200 milliecond. Page 76 Iue 7, March 2009

77 ALARM/STATUS Alarm Cut-Off (ACO) Equalize Float Battery Temperature Compenation High High Voltage Alarm (Caued by a High Voltage Shutdown condition) Converter Fail Minor Converter Fail Major DESCRIPTION The ACO (amber) LED i illuminated whenever the ACO puhbutton ha been preed to ilence the audible alarm. Plant i in Equalize Mode Plant i in Float Mode Thi repreent a condition whereby BTC ha been enabled and a a reult, the plant output voltage i currently being increaed or decreaed. Thi condition i a reult of the plant voltage meaurement exceeding the Plant High Voltage Shutdown etpoint. The controller place the offending rectifier into tandby mode. The plant voltage mut drop 0.5Vdc below the threhold in order to retire the condition. After the condition i retired, the controller will attempt to retart each individual rectifier. Thi repreent a condition whereby a ingle converter module ha failed Thi repreent a condition whereby > 1 converter module have failed 7.4 RECTIFIER / CONVERTER COMMUNICATION The number of rectifier module equipped (RM Equipped) etting can be et in two different manner. When et to 0 the rectifier count i kept by the controller and i maintained by the number of rectifier communicating on the bu. Thi allow for complete plug-n-play operation. No alarm will be iued if a rectifier module i removed by an unauthorized peron. A Rectifier Minor alarm would be extended AC were lot for a ingle rectifier, and a Rectifier Major if more than one rectifier were involved in the failure. The AC fail alarm would alo be preent. A limited recharge alarm would alo be preent if the removal of a rectifier put the plant in jeopardy of not having enough module equipped to meet the load and recharge capacity (a uer et point that i a percentage of the plant load). When the RM Equipped i et to the actual number, an alarm would be iued immediately if a rectifier i either removed or it communication bu fail. The mode of operation i dictated by individual cutomer tandard and convention. The factory default etting i 0. If plug-n-play mode i elected and a communication failure i upected, change the etting to the number of rectifier equipped to aid in troublehooting the ytem. Converter operate in the ame manner. Iue 7, March 2009 Page 77

78 7.5 CONTROL FAIL SYSTEM ALARM DESCRIPTIONS The following condition are a reult of diagnotic performed at ytem tart up. They will remain true until the ytem reboot and the underlying iue ha been reolved. Once the ytem come up without thee error, they will not appear. Thee alarm, if active, will be found in the ALARM and the SYSTEM ection of the LUD. # Plant Statu Bit LUD Alarm Text FLASH RD ERROR CNFG FILE ERR SETP RANGE ERR USING DEF SETP USING DEF CNFG CNFG MISSING Condition Decription After multi-taker tart, but before any plant etpoint conumer tak tart, read etpoint from nv memory. Perform checkum of data and compare to nv memory tored checkum. The calculated checkum doe not match the tored checkum. After multi-taker tart, but before any plant etpoint conumer tak tart, read Plant configuration (header) file from nv memory. The read operation ha failed. After the multi-taker tart, the ytem read etpoint from nv memory. The ytem then doe range check on each etpoint a pecified by the plant configuration file. One or more of thoe range check ha failed. Sytem Repone (ee below) Uer Recoure 1, 2 Note 3 1, 2, 3 Reload app file Note 1 1, 2 Note 2 The ytem i operating with default etpoint. 1, 2 Note 3 The ytem i operating with default configuration a there ha been no cutomer pecific configuration (header) file loaded in the ytem. The ytem i operating with default configuration ince the uer pecific configuration file were loaded, but were incomplete. 1, 2, 3 1, 2, 3 Reload app file Note 1 Reload app file Note 1 Sytem Repone 1. Limited Plant Operation Function Not provided Under Error Condition Setpoint changing or ytem-wide propagation Calculation of plant-wide parameter including but not limited to: plant voltage. Algorithm Operation: BTC, battery controlled recharge, HVSD rectifier hutdown, plant mode change, equalize timer, etc. 2. Revert to default ytem etpoint 3. Revert to default ytem configuration file (default plant type = 48V 129 plant) Note: 1. Either no cutom application wa loaded or the file wa damaged. Intervention i required. 2. Thi condition i dependent upon the abence of condition #1 and #2. Alo, it i dependent on the fact that a new application plant type wa not loaded into the ytem prior to the mot recent reboot. Therefore thi condition may reult at tart up after a new application of the ame type ha been loaded, if the new application etpoint range are not compatible with the former application. If thi cenario ha not occurred, then the condition repreent a failure. A reboot will uccefully reolve the former cenario, but it may not reolve the latter. Once a ucceful reboot i achieved, the uer will need to reenter etup parameter to regain full functionality. If the uer believe that the erroneou cenario ha occurred, factory intervention i required and further reboot are dicouraged. 3. Thi will be a normal occurrence when the pwb i programmed and boot for the firt time. Once the ytem run properly configured for more than 30 econd, and i rebooted, then it hould not occur. Exhibition of thi behavior otherwie contitute a failure. Page 78 Iue 7, March 2009

79 SECTION 8: ADAC INFORMATION (OPTIONAL EQUIPMENT) CAUTION: The intallation of the battery/hunt monitor module expoe the uer/intaller to electrotatic enitive device (ESD). For intallation and repair, a peronal ESD trap i required. 8.1 GENERAL Thi ection i intended to provide the uer with a working knowledge neceary for etup, intallation, and operation of the battery/hunt monitor module. 8.2 MONITORED POINTS The battery/hunt monitor module, alo referred to a the auxiliary data acquiition card (ADAC), i a factory/field configurable device ued to monitor load hunt and/or battery meaurement. Uing a combination of known module type and the battery/hunt monitor module dipwitche, the end uer can configure each monitored point a one of five (5) baic meaurement type: Branch hunt current (30 max per ytem) Battery current (24 tring max per ytem) Battery temperature (24 tring max per ytem) Battery midpoint (24 tring max per ytem) Battery ene (6 max per ytem) By equipping and configuring thee ADAC monitoring module type, the aociated battery management and ditribution function capabilitie are automatically enabled within the Phoenix plant controller. When the ADAC monitoring module, peripheral device, and controller configuration are removed, the aociated feature will be automatically diabled. 8.3 BATTERY/SHUNT MONITOR MODULE TYPES Up to three (3) unique battery/hunt ADAC monitor module type may be defined per ytem. For each type, up to five (5) module may be applied. TABLE 8-1: BATTERY/SHUNT MONITOR MODULE MONITORED POINTS: Refer to TABLE 8-2 for ADAC module type etting. BATTERY/SHUNT MONITOR CONFIGURATION TYPE BAT STRINGS MONITORED SHUNT CURRENT BAT SENSE BATTERY/SHUNT MONITOR MODULE PART NUMBER REQURIED TYPE P (Up to 5) TYPE P (Up to 5) TYPE P (Up to 5) Iue 7, March 2009 Page 79

80 8.4 ADAC BATTERY/SHUNT MONITOR MODULE ID (TYPE) Up to five (5) ADAC battery/hunt monitor module can be aociated with any one type. A total of 20 module may be equipped in one ytem. A decribed in TABLE 8-2 below, the layout for module ID 0-4 i determined by battery/hunt monitor module type 1. ID 5-9 layout i determined by battery/hunt monitor module type 2. ID layout i determined by battery/hunt monitor module type 3. ID layout will be determined by a future battery/hunt monitor module type. The controller will interpret each monitored point a an enumerated metered type within the ytem. For example, if battery/hunt monitor module type 1 ha monitoring capability for battery current and midpoint, then the firt intance of battery/hunt monitor module type 1 will be interpreted a monitoring battery current and midpoint for tring #1 thru X. NOTE: Baed on the ID etting, the digital plant controller will aociate the battery/hunt monitor module with a particular configuration. Thi mean that by changing the ID etting, the uer potentially change the perceived I/O layout from the controller perpective. NOTE: Once a ytem i intalled, adding a battery/hunt monitor module type that i of a lower ID than the highet numbered previouly intalled module will caue the controller to remap exiting, previouly intalled monitored point. TABLE 8-2: The ID ADDRESSING witch etting are a follow: ID MODULE TYPE Dip Switch Setting (1=on, 0 = off) (Refer to SECTION 8.3) TYPE 1 X X X TYPE 1 X X X TYPE 1 X X X TYPE 1 X X X TYPE 1 X X X TYPE 2 X X X TYPE 2 X X X TYPE 2 X X X TYPE 2 X X X TYPE 2 X X X TYPE 3 X X X TYPE 3 X X X TYPE 3 X X X TYPE 3 X X X TYPE 3 X X X FUTURE X X X FUTURE X X X FUTURE X X X FUTURE X X X FUTURE X X X NOT USED X X X NOT USED X X X NOT USED X X X NOT USED X X X NOT USED X X X NOT USED X X X NOT USED X X X NOT USED X X X NOT USED X X X NOT USED X X X NOT USED X X X NOT USED X X X Page 80 Iue 7, March 2009

81 NOTE: The protective plate i not hown in FIGURE 8-1. To acce thee dipwitche, pivot the protective plate toward the right or the left. FIGURE 8-1: LOCATION OF ADDRESSING DIPSWITCHES FIGURE 8-2: DIPSWITCH SETTINGS Iue 7, March 2009 Page 81

82 8.5 CONNECTING THE BATTERY/SHUNT MONITOR MODULE The battery/hunt monitor module communicate with the plant digital plant controller via the CAN bu. Once a battery/hunt monitor module ha uccefully been intalled into a ytem, the Phoenix digital plant controller will automatically add and configure the appropriate menu. When the ADAC monitoring module, peripheral device, and controller configuration are removed, the aociated feature will be automatically diabled. 8.6 MECHANICAL INSTALLATION Intall the battery/hunt monitor module a cloe to the power plant a poible. Refer to FIGURE 8-3 for dimenion of the module. 8.7 ELECTRICAL CONNECTIONS FIGURE 8-3: MODULE MOUNTING DIMENSIONS The battery/hunt monitor module ha numerou electrical connection (depending on the module type) that the uer will have to connect. Refer to T-Drawing T for detail of each of the required connection for the module POWER CONNECTION The power upply will operate from either voltage polarity with an input of 20 to 60 VDC. Up to two module can be powered from the P PWB (part of the digital plant controller internal power ytem). Any battery/hunt monitor module other than the firt two require the external power module ( P) to upply the correct input power. Each external power upply can energize to up to ix (6) battery/hunt monitor module. Page 82 Iue 7, March 2009

83 8.7.2 LOAD SHUNT CONNECTIONS Battery/hunt monitor module model P provide connection for up to 16 load hunt. Battery/hunt monitor module model P provide connection for up to ix (6) load hunt. Battery/hunt monitor module model P provide no load hunt monitoring point BATTERY STRING / MONITORING CONNECTIONS Battery/hunt monitor module model P provide connection for up to five (5) battery tring monitoring point. Battery/hunt monitor module model P provide connection for up to three (3) battery tring monitoring point. Battery/hunt monitor module model P provide no battery tring monitoring point connection BATTERY SENSE CONNECTIONS Battery/hunt monitor module model P provide one connection for battery ene. Battery/hunt monitor module model P provide one connection for battery ene. Battery/hunt monitor module model P provide no battery ene connection. 8.8 CAN CONNECTION AND JUMPER LOCATION JUMPER LOCATION Remove the rear cover of the digital plant controller and et it aide. Locate jumper (JP2) located toward the top center of the board (refer to FIGURE 8-4). Verify that the jumper i in the IN poition; move the jumper to the IN poition if it i not already located there. Once thi ha been accomplihed, replace the rear cover and inert the crew and ecure CAN CONNECTION LOCATION The firt battery/hunt monitor module mut be connected to the digital plant controller via a CAN cable. The CAN cable connection for the digital plant controller i on the rear of the controller board. Either one of the two left mot CAN connection may be ued. The other end of the CAN cable mut be connected to the firt battery/hunt monitor module and then daiy changed to each additional battery/hunt monitor module. The final battery/hunt monitor module in the chain need to have a CAN terminator plug ( P) intalled. Refer to FIGURE 8-4 for the controller CAN cable termination location and FIGURE 8-5 for the battery/hunt monitor module CAN cable termination location. FIGURE 8-4: JP2 JUMPER LOCATION ON THE REAR DOOR OF THE DIGITAL PLANT CONTROLLER Iue 7, March 2009 Page 83

84 BATTERY/SHUNT MONITOR MODULE CAN TERMINATION CONNECTION (ue either one). The final battery/hunt monitor module in the erie need to have the CAN terminator plug ( P) plugged in to one of the CAN connection. FIGURE 8-5: BATTERY/SHUNT MONITOR MODULE CAN TERMINATION LOCATION Page 84 Iue 7, March 2009

85 8.9 LED ASSIGNMENTS AND INDICATIONS PECO II, Inc. Phoenix Digital Plant Controller Uer Manual POWER LED (GREEN): The power LED i illuminated whenever the battery/hunt monitor module i powered on. Refer to the power indicator LED hown in FIGURE LED D17 (GREEN): Heartbeat Blink at a 1 Hz rate to indicate ytem ha booted uccefully LED D18 (GREEN): CAN Activity On while CAN tranmiion are occurring. LED i turned off after 30 m of tranmiion inactivity LED D19 (AMBER): Minor Fault Limited failure that diminih the functionality of the battery/hunt monitor module, but do not prevent it from doing ueful work. Thee are: NOT CALIBRATED - calibration data not found. CAN ERROR - CAN i in an ERROR-PASSIVE tate LED D20 (RED): Major Fault Fatal failure that render the battery/hunt monitor module non-functional. Thee are: CAN BUS-OFF - CAN cable diconnected or CAN hardware failure. TASK FALURE - Critical tak (analog, CAN) could not be created. EEPROM FAILURE - couldn't acce EEPROM. WATCHDOG - not all monitored tak have checked in with the oftware watchdog; if the watchdog i enabled a reboot i about to occur. The poible tak are: Analog tak, CAN tak, ytem tak, and UI tak. NOTE: The protective plate i not hown in FIGURE 8-1. To acce thee dipwitche, pivot the protective plate toward the right or the left. POWER INDICATOR LED Statu LED D17 through D20 FIGURE 8-6: LOCATION OF D17 THROUGH D20 (PROTECTIVE PLATE NOT SHOWN) Iue 7, March 2009 Page 85

86 8.10 TYPE 1 MODULE ( P) TYPE 1 MODULE (Refer to TABLE 8-2) Analog Channel Aignment Application Information Connection Deignation 1 Branch Current (Adc) TB6A-1 / TB6B-1 2 Branch Current (Adc) TB6A-2 / TB6B-2 3 Branch Current (Adc) TB6A-3 / TB6B-3 4 Branch Current (Adc) TB6A-4 / TB6B-4 5 Branch Current (Adc) TB6A-5 / TB6B-5 6 Branch Current (Adc) TB6A-6 / TB6B-6 7 String #1 Battery Midpoint (Vdc) TB1A MP 8 String #1 Battery Temp (deg C) TB2A 9 String #1 Battery Current (Adc) TB1A SH+ / SH- 10 String #2 Battery Midpoint (Vdc) TB1B MP 11 String #2 Battery Temp (deg C) TB2B 12 String #2 Battery Current (Adc) TB1B SH+ / SH- 13 String #3 Battery Midpoint (Vdc) TB1C MP 14 String #3 Battery Temp (deg C) TB2C 15 String #3 Battery Current (Adc) TB1C SH+ / SH- 16 Battery Sene (Vdc) TB4 SH+ / SH- FIGURE 8-7: TYPE 1 MODULE (OPTION PART NUBMER P) (3 battery tring, 1 battery ene, and 6 load hunt) Page 86 Iue 7, March 2009

87 8.11 TYPE 2 MODULE ( P) TYPE 2 MODULE (Refer to TABLE 8-2) Analog Channel Aignment Application Information Connection Deignation 1 Battery Current (Adc) TB1A (SH+ / SH-) 2 Battery Current (Adc) TB1B (SH+ / SH) 3 Battery Current (Adc) TB1C (SH+ / SH) 4 Battery Current (Adc) TB1D (SH+ / SH) 5 Battery Current (Adc) TB1E (SH+ / SH) 6 Battery Midpoint (Vdc) TB1A (MP) 7 Battery Midpoint (Vdc) TB1B (MP) 8 Battery Midpoint (Vdc) TB1C (MP) 9 Battery Midpoint (Vdc) TB1D (MP) 10 Battery Midpoint (Vdc) TB1E (MP) 11 Battery Temp (deg C) TB2A 12 Battery Temp (deg C) TB2B 13 Battery Temp (deg C) TB2C 14 Battery Temp (deg C) TB2D 15 Battery Temp (deg C) TB2E 16 Battery Sene (Vdc) TB4 (GND / BAT) FIGURE 8-8: TYPE 2 MODULE OPTION PART NUBMER P (5 battery tring, 1 battery ene) Iue 7, March 2009 Page 87

88 8.12 TYPE 3 MODULE ( P) TYPE 3 MODULE (Refer to TABLE 8-2) Analog Channel Aignment Application Information Connection Deignation 1 Branch Current (Adc) TB1A-1 / TB1B-1 2 Branch Current (Adc) TB1A-2 / TB1B-2 3 Branch Current (Adc) TB1A-3 / TB1B-3 4 Branch Current (Adc) TB1A-4/ TB1B-4 5 Branch Current (Adc) TB1A-5 / TB1B-5 6 Branch Current (Adc) TB1A-6 / TB1B-6 7 Branch Current (Adc) TB1A-7 / TB1B-7 8 Branch Current (Adc) TB1A-8 / TB1B-8 9 Branch Current (Adc) TB1A-9 / TB1B-9 10 Branch Current (Adc) TB1A-10 / TB1B Branch Current (Adc) TB1A-11 / TB1B Branch Current (Adc) TB1A-12 / TB1B Branch Current (Adc) TB1A-13 / TB1B Branch Current (Adc) TB1A-14 / TB1B Branch Current (Adc) TB1A-15 / TB1B Branch Current (Adc) TB1A-16 / TB1B-16 FIGURE 8-9: TYPE 3 MODULE OPTION PART NUBMER P (16 load hunt) Page 88 Iue 7, March 2009

89 8.13 BATTERY/SHUNT MONITOR MODULE SET-UP The uer mut enter ite-pecific information to complete the etup of the battery/hunt monitor module. Refer to Section 9 of thi manual to identify how to acce the internal webpage interface EXTERNAL MONITORS EQUIPPED (EXT MON EQUIP) The uer mut enter how many battery/hunt monitor module are equipped within the power plant. Thi etting i called external monitor equipped. Thi etting can be changed under the Plant > Configuration menu. Refer to FIGURE 8-10 for a detail of the page and where the etting i located. Location of the External Monitor Equipped etting. Input the correct number of battery/hunt monitor module equipped within the ytem here. FIGURE 8-10: SET THE EXTERNAL MONITORS EQUIPPED Iue 7, March 2009 Page 89

90 8.15 BATTERY CONTROL The uer mut enable each battery tring that i being monitored by the battery/hunt monitor module. The battery control webpage i located under the Batterie heading. Refer to FIGURE 8-11 for the battery control webpage. To enable the battery tring, click on Set. Click on Enable to enable the battery tring, or Diable to diable the battery tring. If no change i deired, click Cancel. FIGURE 8-11: BATTERY CONTROL Page 90 Iue 7, March 2009

91 8.16 BATTERY SETPOINTS The battery tring amp-hour etting mut be entered for TYPE 1 and/or TYPE 2 battery/hunt monitor module. The amp-hour rating of each battery tring mut be entered for correct battery monitoring. Refer to FIGURE 8-12 for the battery etpoint webpage. FIGURE 8-12: BATTERY SETPOINT Iue 7, March 2009 Page 91

92 8.17 BATTERY STATUS Once the information ha been entered into the previou creen, the battery/hunt monitor module will diplay all enabled meaured battery point. The battery tatu webpage diplay all meaured data for each monitored battery tring (up to a total of 24 battery tring.) Battery monitoring i available with TYPE 1 and/or TYPE 2 module. FIGURE 8-13: BATTERY STATUS Page 92 Iue 7, March 2009

93 8.18 DISTRIBUTION CONTROL The uer mut enable each branch current that i being monitored. The ditribution control webpage i located under the Ditribution heading. Refer to FIGURE 8-14 for the battery control webpage. To enable the branch current, click on Set. Click on Enable to enable the branch hunt, or Diable to diable the branch hunt. If no change i deired, click Cancel. FIGURE 8-14: DISTRIBUTION SETPOINTS Iue 7, March 2009 Page 93

94 8.19 DISTRIBUTION SETPOINTS The branch hunt etting mut be entered for TYPE 1 and TYPE 3 battery/hunt monitor module. The hunt ize of each monitored load mut be entered into the web interface. Refer to FIGURE FIGURE 8-15: DISTRIBUTION SETPOINTS Page 94 Iue 7, March 2009

95 8.20 DISTRIBUTION STATS SETUP The uer may name each of the monitored branch current. Thi page allow the name to be pecified. Click on SET. Enter the name of the branch load and check the box to enable the name. Click SUBMIT to et the name of the branch load. FIGURE 8-16: DISTRIBUTION STATS SETUP Iue 7, March 2009 Page 95

96 8.21 DISTRIBUTION STATUS Once the information ha been entered into the previou creen, the battery/hunt monitor module will diplay all meaured hunt current that were enabled during SECTION 8.18). The ditribution tatu webpage diplay all meaured data for each hunt (up to a total of 30 hunt.) Shunt monitoring i available with TYPE 1 and/or TYPE 3 module. FIGURE 8-17: DISTRIBUTION STATS SETUP Page 96 Iue 7, March 2009

97 9.1 GENERAL PECO II, Inc. Phoenix Digital Plant Controller Uer Manual SECTION 9: SERIAL AND ETHERNET CONNECTIONS The uer may connect to the digital plant controller by either a erial connection (uing the front acceible CRAFT PORT) or via an Ethernet connection. Refer to Figure 9-1 for a diagram. NOTE: Communication with the Phoenix plant controller doe not require PECO II oftware to be loaded on the uer computer. Web brower like Microoft Explorer (bundled with the Window TM operating ytem) or Netcape Navigator will diplay the plant information. NETWORK ETHERNET INTERFACE CONNECTION ETHERNET INTERFACE CONNECTON ETHERNET INTERFACE CONNECTION SERIAL INTERFACE CONNECTION FIGURE 9-1: CONNECTION DIAGRAM Iue 7, March 2009 Page 97

98 9.2 CRAFT PORT (SERIAL INTERFACE) CONNECTION The uer may connect to the digital plant controller via the craft port (located on the front of the controller) for a erial connection. A tandard DB9 modem cable mut be ued to connect from the craft port to an available COM port on the uer computer. CRAFT PORT (SERIAL CONNECTION) DB9 Female (DCE) Connector on the Controller (Craft Port) Mut connect with a tandard DB9 modem cable Female to male. Standard erial terminal emulator (i.e. Hyperterminal) Baud: Data Bit: 8 Parity: None Stop Bit: 1 Interact with the controller uing a Text Interface FIGURE 9-2: SERIAL CONNECTION DIAGRAM Page 98 Iue 7, March 2009

99 9.3 ETHERNET CONNECTION The digital plant controller can be connected to a network via the Ethernet connection. FTP (Future) FTP Client Tranfer applicaiton / configuration file to the controller ETHERNET CONNECTION RJ45 Connector IP CONFIGURATION (through text interface) HTTP Telnet Web Brower Text Interface via Telnet Interact with the controller via webpage. Monitor and change etpoint, monitor alarm, upgrade oftware. From telnet command prompt? Enter IP addre of the digital controller and interact with it via text interface SNMP (Future) SNMP Manager Third Party SNMP Manager FIGURE 9-3: ETHERNET CONNECTION DIAGRAM Iue 7, March 2009 Page 99

100 9.4 SETTING UP THE PHOENIX DIGITAL PLANT CONTROLLER TO COMMUNICATE VIA THE CRAFT PORT Thi ection will go over how to connect a PC to the craft port of the Phoenix digital plant controller. Refer to Section 9.7 to change the IP addre of the digital plant controller via a erial terminal emulator. A. Phyical Connection to the Uer PC The Uer PC mut be directly connected to the controller via a tandard DB9 male to DB9 female modem erial cable. Note: Select an unued COM port on the Uer PC. An adapter i required if the elected COM port i not a DB9 connector. Refer to Figure 9-4 for the craft port location on the Phoenix plant controller. FIGURE 9-4: CRAFT PORT (SERIAL CONNECTOR) LOCATION 9.5 TEXT INTERFACE STRUCTURE The uer can communicate with the controller via text interface. The following i a baic overview of the text interface menu tructure. Plant Alarm Batterie Ditribution Rectifier Statu Control Information Setpoint Plant Configuration Plant Alarm Other Alarm Statu Control Information Setpoint Statu Control Information Setpoint Statu Control Information Setpoint Page 100 Iue 7, March 2009

101 Converter Sytem Tet Logging Communication Configuration Statu Control Information Setpoint Statu Control Information Sytem configuration LED Relay Plant Alarm View Log Alarm Log Trend Log Ampere Log All Log Reet Log Alarm Log Trend Log Ampere Log All Log Save Log Alarm Log Trend Log Network Setting IP Addre Net Mak Gateway Addre View Network Craft Port Setting Baud Rate Data Bit Parity Stop Bit Time Out Handhaking Retore Default Iue 7, March 2009 Page 101

102 Upgrade Software Paword Backup Retore Site Information Date and Time Setting Perform Upgrade Admin Paword Uer Paword Perform Backup Perform Retore Enter Information View date / time Date Setup Time Setup Zone Setup Menu Diplay Page 102 Iue 7, March 2009

103 9.6 COMMUNICATING WITH THE CONTROLLER VIA A SERIAL TERMINAL CONNECTION The erial terminal connection ue a text interface (refer to Section 9.5) to communicate with the Phoenix plant controller. Figure 9-5 through 9-8 detail the initial communication etup via the MS Hyper Terminal TM program (bundled with the Window TM operating ytem) HYPERTERMINAL SETUP From the Start menu, go to Program Acceorie Communication Hyper Terminal. Follow the Hyper Terminal prompt to etablih a direct connection with the controller CONNECTION DESCRIPTION For future reference, the uer need to name the connection. FIGURE 9-5: HYPER TERMINAL (CONNECTION DESCRIPTION) Iue 7, March 2009 Page 103

104 CONNECT TO Ue the drop down arrow to elect the COM Port that i connected to the digital plant controller craft port COM1 PROPERTIES FIGURE 9-6: HYPER TERMINAL (CONNECT TO) Enter the following COM Port etting. Bit Per Second: Data Bit: 8 Parity None Stop Bit: 1 Flow Control: None FIGURE 9-7: HYPER TERMINAL (COM1 PROPERTIES) Page 104 Iue 7, March 2009

105 HYPERTERMINAL STARTED The HyperTerminal connection i now connected to the digital plant controller. Continue to ection PASSWORD REQUEST FIGURE 9-8: HYPER TERMINAL (SESSION STARTED) NOTE: Paword are cae enitive. Before the uer may acce the digital plant controller via the HyperTerminal, a paword mut be entered. The default paword i a follow: ACCESS LEVEL adminitrator DEFAULT PASSWORD The paword i the plant erial number (Refer to SECTION to acce the plant erial number via the digital plant controller LUD.) FIGURE 9-9: PASSWORD REQUEST Iue 7, March 2009 Page 105

106 MAIN SCREEN Once the correct paword ha been entered, the main creen will be diplayed. The main menu creen how all available ub menu. The uer may alo key in the number aociated with each command, or the firt three letter of the ub menu. CAN (cancel) will back you out of a creen. Refer to ection 9.5 for the complete Text Interface menu. FIGURE 9-10: MAIN SCREEN 9.7 CHANGING THE IP ADDRESS VIA A SERIAL TERMINAL CONNECTION Thi ection detail how to et the IP addre of the Phoenix digital plant controller to that deired by the uer via a erial terminal emulator (HyperTerminal i ued for the example) MAIN SCREEN Refer to ection 9.6 to open a HyperTerminal connection. At the main menu creen, enter 10 (or COM). Thi will open the communication configuration creen. FIGURE 9-11: MAIN MENU Page 106 Iue 7, March 2009

107 9.7.2 COMMUNICATION CONFIGURATION At the communication configuration creen, enter 1 (or NET) and pre Enter. Thi will open the network etting creen NETWORK SETTINGS FIGURE 9-12: COMMUNICATION CONFIGURATION NOTE: The uer network adminitrator mut aign the IP Addre, NET-Mak, and Gateway addre etting. At the network etting creen, enter 1 (or IP A). Thi will open IP Addre edit creen. The current IP Addre i hown, followed by Change Value y/n?. To change the IP Addre, type y and pre enter key. Type in the new IP Addre, and pre enter key. If thi IP Addre i correct, type y and hit the enter key. The IP Addre i now et to the new value. Follow ection to alo change the netmak and gateway addre, a required. FIGURE 9-13A: NETWORK SETTINGS Iue 7, March 2009 Page 107

108 FIGURE 9-13B: CHANGE IP ADDRESS FIGURE 9-13C: CONFIRM IP ADDRESS CHANGE Page 108 Iue 7, March 2009

109 9.7.4 MANUAL RESET BUTTON Once the network etting have been changed, the digital plant controller mut be manually reet for the new etting to be applied. Pre and hold the blue manual reet button located on the control board. Once D13 (green LED) extinguihe, releae the manual reet button. The digital plant controller will reboot and the new network etting will take effect. Refer to Figure D13 LED FIGURE 9-14: MANUAL RESET BUTTON Iue 7, March 2009 Page 109

110 9.8 COMMUNICATING WITH THE CONTROLLER VIA HTTP The Phoenix digital plant controller web page are acceible through an Ethernet TCP/IP network (Intranet or Internet dial in with the optional modem). The web page allow the uer to view plant tatu and make adjutment to et point. Thi ection how creen hot of the different page and what may be acceed from each. For bet performance, the web page are bet viewed with Microoft Internet Explorer verion 6 and above or Netcape Navigator 7.0 and above. Refer to Figure 9-15 for the RJ-45 connector location. RJ-45 Connector FIGURE 9-15: RJ-45 CONNECTOR LOCATION (LOCATED ON THE REAR OF THE DISTRIBUTION HEAD DOOR) NOTE: To change the IP addre, ubnet, or gateway refer to ection 9.7. Factory Default IP Addre: Factory Default Subnet: Factory Default Gateway: Page 110 Iue 7, March 2009

111 9.8.1 WEBPAGE LAYOUT The main web interface i divided into 4 ection a hown in Figure 9-16: The header window, the table of content window, the main window, and the data current a of window. The header window contain the ite name, plant ID, and location. It alway diplay the plant voltage and current, the tatu of the power major and minor alarm. An indication of whether or not an alarm tet i in proce i indicated in the upper right corner. Located in the lower left corner of the header i the reviion level of the Web oftware being ued. The table of content how the available creen and their hierarchy. The main window i the part of the creen that diplay the information relative to each page. All of the reading in the header and mot of the reading in the main window are dynamic. Thi allow the uer to obtain a near real time tatu of the plant. The web page attempt to update the data approximately every 5 econd. The Data Current A Of window how the lat time that the data wa updated. The WebPage automatically update and do not require a manual refreh. There i one level of ecurity when acceing the Web creen. All page are acceible auming that the addre of digital plant controller i known. A paword i required to make any change to the plant etting. Date Current A Of: Header Window Navigation Window Main Window FIGURE 9-16: FRAMES Iue 7, March 2009 Page 111

112 9.8.2 PLANT > STATUS FIGURE 9-17: PLANT/STATUS Selecting "Statu" from the Table of Content under "Plant" will allow the uer to acce thi creen. It provide an overview of the ytem tatu in one convenient diplay. Page 112 Iue 7, March 2009

113 9.8.3 PLANT > CONTROL FIGURE 9-18: PLANT/CONTROL Selecting Control from the Table of Content under Plant will allow the uer to acce thi creen. Iue 7, March 2009 Page 113

114 9.8.4 PLANT > INFORMATION FIGURE 9-19: SITE/INFORMATION Selecting "Information" from the Table of Content under "Plant" will allow the uer to acce thi creen. It provide the name of the ite, the addre, and any other contact information the uer would like to diplay. It i programmed by PECO II. Page 114 Iue 7, March 2009

115 9.8.5 PLANT > SET POINTS FIGURE 9-20: DC POWER PLANT/STATUS Selecting "Set Point" from the Table of Content under "Plant" will allow the uer to view thi creen. Thi page allow the uer to change any of the plant et point. Iue 7, March 2009 Page 115

116 9.8.6 PLANT > CONFIGURATION FIGURE 9-21: PLANT/CONFIGURATION Selecting "Configuration from the Table of Content under Plant menu will allow the uer to view the rectifier and converter module et up creen. Thi creen allow the uer to change the number of rectifier module and/or converter module equipped in the plant. Page 116 Iue 7, March 2009

117 9.8.7 PLANT > STATS SETUP FIGURE 9-22: PLANT/STATS SETUP Selecting STATS Setup from the Table of Content under Plant will allow the uer to acce thi creen. It provide the ability to name and enable STATS for main ytem point. The name i only ued a a reference when viewing the Load Current Study STATS page. The maximum length of a name i 20 character. Iue 7, March 2009 Page 117

118 9.8.8 ALARMS > ALARM STATUS FIGURE 9-23: ALARMS/ALARM STATUS Selecting "Alarm Statu" from the "Alarm" menu from the Table of Content will allow the uer to view thi creen. It diplay any current alarm condition. If no alarm are preent, the page will be left blank. Page 118 Iue 7, March 2009

119 9.8.9 ALARMS > ALARM HISTORY FIGURE 9-24: ALARMS/ALARM LOG Selecting the "Alarm Hitory" ub menu from the "Alarm" menu of the Table of Content will allow the uer to view thi creen. It diplay all alarm that have occurred ince the lat time the alarm log wa cleared. Thi page diplay the date, time, and name of alarm, a well a the tate that the alarm tranitioned into. The refreh button i located in the top left corner of the main creen and i ued to manually update thi page whenever deired. Thi data will not dynamically update. Located in the bottom left corner of the creen i the Clear button that will allow the uer to clear the alarm log. Caution: Uing the clear function will empty all of the tored alarm event entrie. Iue 7, March 2009 Page 119

120 BATTERIES > STATUS FIGURE 9-25: BATTERY STATUS Selecting the "Battery Statu" ub menu from the "Batterie" menu of the Table of Content will allow the uer to acce thi creen. From thi page, the uer can view information for each battery tring: Temperature Compenation Adjutment Controlled Recharged Adjutment Total Battery Current Battery Sene If the optional ADAC monitor module are equipped, the following information i alo diplayed. Midpoint Battery Temperature Current Page 120 Iue 7, March 2009

121 BATTERIES > CONTROL FIGURE 9-26: BATTERY CONTROL Selecting the "Battery Control" ub menu from the "Batterie" menu of the Table of Content will allow the uer to view thi creen. The uer mut enable each battery tring that i being monitored by the battery/hunt monitor module. To enable the battery tring, click on Set. Click on Enable to enable the battery tring, or Diable to diable the battery tring. If no change i deired, click Cancel. NOTE: The optional ADAC module mut be equipped for the uer to view and acce thee feature. Iue 7, March 2009 Page 121

122 BATTERIES > SET POINTS NOTE: The optional ADAC module mut be equipped for the uer to view and acce thee feature. FIGURE 9-27: BATTERY SETPOINT Selecting the "Set Point" ub menu from the "Batterie" menu of the Table of Content will allow the uer to view thi creen. Thi page diplay all of the uer ettable battery etpoint. From thi creen the uer may change any of the battery etpoint. Refer to SECTION 5 for battery etpoint detail. Page 122 Iue 7, March 2009

123 DISTRIBUTION > STATUS FIGURE 9-28: DISTRIBUTION STATUS Selecting the "Statu" ub menu from the "Ditribution" menu from the Table of Content will allow the uer to view thi creen. The ditribution tatu webpage diplay all meaured data for each hunt (up to a total of 30 hunt may be monitored.) NOTE: The optional ADAC module mut be equipped for the uer to view and acce thee feature. Iue 7, March 2009 Page 123

124 DISTRIBUTION > CONTROL FIGURE 9-29: DISTRIBUTION CONTROL Selecting the "Control" ub menu from the Table of Content under "Ditribution" will allow the uer to acce thi creen. Individual branch current monitor can be enabled or diabled via thi creen. To enable the branch current, click on Set. Click on Enable to enable the branch hunt, or Diable to diable the branch hunt. If no change i deired, click Cancel. NOTE: The optional ADAC module mut be equipped for the uer to view and acce thee feature. Page 124 Iue 7, March 2009

125 DISTRIBUTION > SET POINTS FIGURE 9-30: DISTRIBUTION SET POINT Selecting the "Set Point" ub menu from the Table of Content under "Ditribution" will allow the uer to acce thi creen. The hunt ize of each monitored load mut be entered into the web interface for the Ditribution Statu (ection ) creen to diplay the correct meaured current. NOTE: The optional ADAC module mut be equipped for the uer to view and acce thee feature. Iue 7, March 2009 Page 125

126 DISTRIBUTION > STATS SETUP FIGURE 9-31: DISTRIBUTION STATS SETUP Selecting the "STAT Setup" ub menu from the Table of Content under "Ditribution" will allow the uer to acce thi creen. The uer may name each of the monitored branch current. Thi page allow the name to be pecified. Click on SET. Enter the name of the branch load and check the box to enable the name. Click SUBMIT to et the name of the branch load. NOTE: The optional ADAC module mut be equipped for the uer to view and acce thee feature. Page 126 Iue 7, March 2009

127 RECTIFIERS > STATUS FIGURE 9-32: RECTIFIER STATUS Selecting the "Statu" ub menu from the "Rectifier" menu of the Table of Content will allow the uer to view thi creen. It diplay the output current, temperature, rectifier run mode, current limit, AC low derate, and rectifier plant mode of each rectifier in the ytem. Iue 7, March 2009 Page 127

128 RECTIFIERS > CONTROL FIGURE 9-33: RECTIFIER CONTROL Selecting the "Control" ub menu from the "Rectifier" menu of the Table of Content will allow the uer to acce thi creen. On thi creen the uer (paword i required) can change the operating mode of each rectifier between Run and Standby. To change the operating mode, the uer imply ue their moue to click the Set button and then chooe between Run or Standby. Page 128 Iue 7, March 2009

129 RECTIFIERS > INFORMATION FIGURE 9-34: RECTIFIER INFORMATION Selecting the "Information" ub menu from the "Rectifier" menu of the Table of Content will allow the uer to view thi creen. It contain information on each rectifier intalled in the ytem uch a: Model Number Serial Number Reviion Level Manufacture Date CLEI Number Software Level Iue 7, March 2009 Page 129

130 CONVERTERS > STATUS FIGURE 9-35: CONVERTER STATUS Selecting the "Statu" ub menu from the "Converter" menu of the Table of Content will allow the uer to view thi creen. It diplay the output current of each converter in the ytem. It alo tate whether the converter poition i equipped or not. Page 130 Iue 7, March 2009

131 CONVERTERS > CONTROL FIGURE 9-36: CONVERTER CONTROL Selecting the "Control" ub menu from the "Converter" menu of the Table of Content will allow the uer to acce thi creen. On thi creen the uer (paword i required) can change the operating mode of each converter between Run and Standby. To change the operating mode, the uer imply ue their moue to click the Set button and then chooe between Run or Standby. Iue 7, March 2009 Page 131

132 CONVERTERS > INFORMATION FIGURE 9-37: CONVERTER INFORMATION Selecting the "Information" ub menu from the "Converter" menu of the Table of Content will allow the uer to view thi creen. It contain information on each converter intalled in the ytem uch a: Model Number Serial Number Reviion Level Manufacture Date CLEI Number Software Level Page 132 Iue 7, March 2009

133 TEST > ALARMS FIGURE 9-38: TEST CONTROL Selecting the "Alarm" ub menu from the "Tet" menu of the Table of Content will allow the uer to view thi creen. Thi creen allow the uer to activate any of the plant alarm. The alarm LED will illuminate and the alarm will be extended through the contact cloure. Notify alarm peronal that alarm teting i in progre. NOTE: The tet feature will function a follow: During the tet procedure, if an alarm i in the active mode, activating the next alarm will alo clear the previou alarm. The Clear button can be ued to automatically return the plant to normal operating mode. The top window will indicate if the alarm tet function i active. Iue 7, March 2009 Page 133