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FIRE PUMP CONTROLLER - 23-00006 - Hibbard Elemenatry - Fire Sprinkler
SUBMITTAL DATA ELECTRIC FIRE PUMP CONTROLLER PHOENIX FIRE PROTECTION HIBBARD ELEMENTARY REXBURG, IDAHO MARKIII+ Electric Fire Pump Controller - Solid State Reduced Current Starting FTA1930SubmittalPackage Publication SBP1930-70 Rev. H 3412 Apex Peakway Apex, North Carolina 27502 P +1 919 460 5200 F +1 919 460 5250 www.firetrol.com While every precaution has been taken to ensure accuracy and completeness herein, Firetrol, Inc. assumes no responsibility, and disclaims all liability, for damages resulting from use of this information or for any errors or omissions. Specifications and drawings are subject to change without notice. ©2022 Firetrol, Inc., All Rights Reserved. Project Information DRAWINGS INCLUDED IN THIS PACKAGE ARE FOR STANDARD CONTROLLERS. ACTUAL “AS BUILT” DRAWINGS MAY DIFFER FROM THOSE SHOWN HERE. Firetrol MarkIII+ Electric Fire Pump Controller FTA1930 - Solid State Reduced Current Starting Specifications 1.0 Main Fire Pump Controller The main fire pump controller shall be a factory assembled, wired and tested unit. The controller shall be of the combined manual and automatic type designed for full voltage starting of the fire pump motor having the horsepower, voltage, phase and frequency rating shown on the plans and drawings. The controller shall be rated for an Ambient Temperature Operating Range of 39ºF (4ºC) to 104ºF (40ºC). 1.1 Standards, Listings & Approvals The controller shall conform to all the requirements of the latest editions of: NFPA 20, Standard for the Installation of Stationary Pumps for Fire ProtectionNFPA 70, National Electrical Code. The controller shall be listed by: Underwriters Laboratories, Inc., in accordance with UL218, Standard for Fire Pump Con- trollers Canadian Standards Association CSA-C22.2, Standard for Industrial Control Equipment (cUL)CE - Low Voltage Directive The controller shall be approved by: Factory Mutual (IEC 62091) The City of New York for fire pump service 1.2 EnclosureThe controller components shall be housed in a NEMA Type 2 (IEC IP22) drip-proof, wall mounted enclosure with bottom entry gland plate and lifting lugs. 1.3 Withstand Ratings (Short Circuit Current Ratings) All controller components shall be front mounted, wired and front accessible for main-tenance. The available short circuit current ratings are shown below. 1.4 Power Components The controller shall include a combination isolating disconnect switch/circuit breaker, rated for not less than 115% of the motor full load current, mechanically interlocked and operated with a single, externally mounted handle. The isolating disconnect switch/ circuit breaker shall be mechanically interlocked so that the enclosure door cannot be opened with the handle in the ON position except by a hidden tool operated bypass mechanism. The isolating disconnect switch/circuit breaker shall be capable of being padlocked in the OFF position for installation and maintenance safety, and shall also be Code M - Standard N - Intermediate P - High Q - Intermediate R - Standard 200-208V 5-150 HP 100kA 150kA 200kA N/A N/A 220-240V 5-200 HP 100kA 150kA 200kA N/A N/A 380-415V 5-350 HP 100kA 150kA 200kA N/A N/A 440-480 5-400 HP 100kA 150kA 200kA N/A N/A 550-600 5-500 HP N/A N/A N/A 100kA 50kA Code M - Standard N - Intermediate P - High Q - Intermediate R - Standard 200-208V 200 HP 50A N/A 100kA N/A N/A 220-240V 250-400 HP 50kA N/A 100kA N/A N/A 380-415V 400-500 HP 50kA N/A 100kA N/A N/A 440-480 450-500 HP 50kA N/A 100kA N/A N/A capable of being locked in the ON position without affecting the tripping characteristics of the circuit breaker. The controller will include a voltage surge arrestor and Solid State Reduced Current starting. The controller shall be equipped with a single handle, manually operated, emergency start mechanism capable of being latched in the ON position. 1.5 Operator Interface (HMI) The operator interface shall be a 7.0” LCD capacitive type color touch screen (HMI technology) powered by an embedded microcomputer with software PLC logic. In- cluded shall be keypad type push-buttons for START, STOP and TEST. The screen shall include menus for: Home · Alarms · Configuration · History · Service · Manuals · Language. The HMI shall graphically display the following: Voltage and Amperage of all 3 phas-es simultaneously using true RMS Technology · Motor Stopped/Running · Starting Cause · Actuation Mode · Controller Type · Shutdown Mode · Date & Time · Pump Room Temp. · System Pressure System pressure shall be capable of being displayed as: PSI, kPa, Bar, Feet of Head or Meters of Water. The HMI shall allow programming and display of: Cut In & Cut Out Pressure Settings · Minimum Run Timer · Sequential Start Timer · Periodic Test Timer The HMI allows the user to select the language of the system and download the manual or view the manual on screen. 1.6 State and Alarm Indication Visual indication shall be provided for the following: Power Available • Motor Run • Periodic Test • Manual Start • Deluge Valve Start • Remote Automatic Start • Remote Manual Start • Emergency Start • Pump On Demand/Auto- matic Start • Pump Room Temperature • Lockout The digital display shall visually indicate the following alarms: • Locked Rotor Current • Fail To Start • Under/Over Current • Under/Over Voltage • Phase Unbalance • Check Test Solenoid Valve • Weekly Test Cut-In Not Reached • Transducer Fault • Control Voltage Not Healthy • Motor Trouble • Pump Room Alarm • Invalid Cut-In • Phase Reversal • Power Loss • Phase Loss L1 / L2 / L3 • Low Water Level • Pump On Demand • Low Ambient Temp. • Service Required Audible and visible alarm shall be provided for: Fail To Start Remote Alarm contacts shall be provided for: Power Available • Phase Reversal • Motor Run • Common Pump Room Alarm (Overvolt-age, Undervoltage, Phase Unbalance, Low/High Pump Room Temperature) • Common Motor Trouble (Overcurrent, Fail To Start, Undercurrent, Ground Fault) 1.7 Pressure and Event Recording The system shall be capable of logging pressure data and operational events with time/date stamp. The system shall display operational events for the lifetime of the controller and display the pressure data in text or graphical form. The controller shall log the Date/Time of the first start-up and the controller total power on time from that date. The controller shall log first and last statistics for: First Setup · On Time · Start Count · Last Start Time · Min/Max/Average System Pressure · Min/Max/Average Pump Room Temp. · Jockey Pump On Time/Start Count/Last Start Time · Phase to Phase Voltages with Date Stamp · Amps Per Phase with Date Stamp 1.8 USB Host ControllerA USB port capable of accepting a USB Flash Memory Disk shall be provided for downloading pressure and event logs. 1.9 Serial Communications The controller shall feature Modbus with TCP/IP frame format and shielded female RJ45 connector 2.0 Pressure Sensing / Wet Parts The controller shall be supplied with a solid state pressure transducer with a range of 0-500 psi calibrated for 0-300 psi (0-20.7 bar) and a run test solenoid valve. The wet parts shall be externally mounted and include a protective cover. The pressure sens-ing line connection to the transducer shall be 1/2-inch FNPT. Provisions for a redun-dant pressure transducer shall be provided. 2.1 Controller Operation The controller shall be capable of automatic starting via pressure drop, remote start signal from an automatic device or a deluge valve. The controller can be manually started via the START push-button, the RUN TEST push-button, or a remote signal from a manual device. Stopping can be achieved manually with the STOP push-button or automatically after expiration of minimum run timer or test timer. The minimum run timer (off delay), sequential start timer (on delay) and periodic test timer shall be field adjustable and include a visual countdown on the display. 2.2 Manufacturer The controller shall be a Firetrol brand. Publication SP1930-60 Rev. C 3412 Apex Peakway Apex, North Carolina 27502 P +1 919 460 5200 F +1 919 460 5250 www.firetrol.com While every precaution has been taken to ensure accuracy and completeness herein, Firetrol, Inc. assumes no responsibility, and disclaims all liability, for damages result- ing from use of this information or for any errors or omissions. Specifications and drawings are subject to change without notice. ©2022 Firetrol, Inc., All Rights Reserved. Description—Firetrol® FTA1930 Solid State Reduced Current Starting Fire Pump Controllers feature soft start, soft stop and system sensing capabilities that not only provide for reduced current starting, but also offer an improved level of hydro mechanical performance. The controller monitors, displays and records fire pump system information. Approvals – Firetrol fire pump controllers are listed by Underwriters’ Laboratories, Inc., in accordance with UL218, Standard for Fire Pump Controllers, CSA, Standard for Industrial Control Equipment, and approved by Factory Mutual. They are built to meet or exceed the requirements of the approving authorities as well as NEMA and the latest editions of NFPA 20, Installation of Centrifugal Fire Pumps, and NFPA 70, National Electrical Code. Standard Features — The following are included as standard with each con- troller: • Voltage surge protector • Main Disconnect Switch sized for con-nected motor horsepower and voltage• Fire pump Circuit Breaker • Single Handle Isolating Disconnect Switch/Circuit Breaker mechanism • Motor contactor • Single Handle Emergency Manual Run Mechanism to mechanically close motor contactor contacts in an emer- gency condition • Built-in Start and Stop push-buttons to bypass automatic start circuits • Daylight Savings Time Option• Elapsed Time Meter• 7.0” LCD capacitive type color touch screen (HMI technology) software up- gradeable operator interface powered by an embedded microcomputer with software PLC logic.• 500 PSI Pressure Transducer (cali-brated for 300 PSI (20.7 Bar))and Test Solenoid for fresh water applications, externally mounted with protective cover • Audible alarm buzzer embedded in the MarkIII+• Pump Room Ambient Temperature Switch, Display and Alarms • Pressure and Event Recording with Date Stamp to System Memory Ac- cessible VIA The User Interface and Downloadable to a USB Flash Drive• Modbus Communications with TCP/IP frame format and a shielded female RJ45 connector • NEMA Type 2 (IEC IP22) enclosure with bottom entry gland plate and lifting lugs• Suitable for use as Service Equipment MarkIII+ Electric Fire Pump Controllers - Solid State Reduced Current Starting Product Description FTA1930 Publication PD1930-60 Rev. D 3412 Apex Peakway Apex, North Carolina 27502 P +1 919 460 5200 F +1 919 460 5250 www.firetrol.com While every precaution has been taken to ensure accuracy and completeness herein, Firetrol, Inc. assumes no responsibility, and disclaims all liability, for damages result- ing from use of this information or for any errors or omissions. Specifications and drawings are subject to change without notice. ©2022 Firetrol, Inc., All Rights Reserved. • The controller supplies visual indica- tion of the following: Power Available • Motor Run • Periodic Test • Manual Start • Deluge Valve Start • Remote Automatic Start • Remote Manual Start • Emergency Start • Pump On Demand (Automatic Start) • Pump Room Temp. • Lockout • The controller displays visual indica- tion for the following alarm conditions: Control Voltage Not Healthy • Invalid Cut-In • Lock Rotor Current • Loss of Power • Low Ambient Temp. • Low Water Level • Motor Trouble • Phase Reversal • Overcurrent • Overvoltage • Phase Loss L1 / L2 / L3 • Phase Unbalanced • Pressure Transducer Fault Detected • Pump On Demand • Pump Room Alarm • Service Required • Undercurrent • Undervoltage • Check Test Solenoid • Weekly Test Cut-In Reached • Audible and Visible Indication for Fail To Start. • DPDT 8A, 250VAC remote alarm con-tacts are provided for: Power Available • Phase Reversal • Motor Run • Common Pump Room Alarm (Over- voltage / Undervoltage / Phase Unbal- ance / Low Pump Room Temp. / High Pump Room Temp) • Common Motor Trouble (Overcurrent / Fail To Start / Undercurrent / Ground Fault) • Field Adjustable Timers with Visual Countdown for Minimum Run (Off De-lay), Sequential Start (On Delay) and Weekly Test FOR MODEL # INFORMATION SEE PUBLICATION SD1000-60 FOR OPTIONS AND MODIFICATIONS SEE PUBLICATION OP1000-71 Fire Pump Manual Emergency Run Operator mechanically linked to contact carrier of contactor 1M Circuit BreakerSwitch Mechanically Interlocked in Digital Soft Starter Running FS*1 0 sec 1M (Bypass) starter reaches full speed (FS). Default = 5 sec. Voltage and Current Sensing 200-600 VAC 3Ø Power Supply Aux Run Contacts = 1M 1** Aux Contact = 1CR **Indicates number of auxiliary contacts supplied with contactor. Control Relays MarkIII+ Electric Fire Pump Controllers - Solid State Reduced Current Starting General Starting Configuration FTA1930 Publication GS1930-10 Rev C 3412 Apex Peakway Apex, North Carolina 27502 P +1 919 460 5200 F +1 919 460 5250 www.firetrol.com While every precaution has been taken to ensure accuracy and completeness herein, Firetrol, Inc. assumes no responsibility, and disclaims all liability, for damages result- ing from use of this information or for any errors or omissions. Specifications and drawings are subject to change without notice. ©2021 Firetrol, Inc., All Rights Reserved. CR4 CR5 General Starting Configuration Publication GS1930-10 Rev. C 3412 Apex Peakway Apex, North Carolina 27502 P +1 919 460 5200 F +1 919 460 5250 www.firetrol.com While every precaution has been taken to ensure accuracy and completeness herein, Firetrol, Inc. assumes no responsibility, and disclaims all liability, for damages result- ing from use of this information or for any errors or omissions. Specifications and drawings are subject to change without notice. ©2021 Firetrol, Inc., All Rights Reserved. 1) A transient peak occurs when starting the motor while at rest or when disconnecting and reconnecting the motor during a transition. This transient lasts no more than 1/2 cycle. 2) The starting current (locked rotor current) is the Root Mean Square current value the motor takes from the power source at start and fades while the motor is accelerating to full speed. The larger the load on the motor, the slower the acceleration and the higher the current. 3) The transition current depends on the moment the transition occurs and the speed of the motor. A early transition will lead to increased current as the motor has not reached full speed for the load and voltage. A late transition suggests that the motor will be running at reduced voltage when the load is almost the same as full load. This causes the motor efficiency to drop and the temperature to rise in the motor stator windings. The motor can withstand this for a short period of time but it is not recommended to run the motor with reduced voltage for more than 5 seconds. 4) Generally, the torque developed by the induction motor at any speed is approximately proportional to the square of the voltage and inversely proportional to the square of the frequency. The locked rotor torque and breakdown torque are decreased when the voltage is unbalanced. If the voltage imbalance is severe, the torque may be inadequate for the application. 5) Induction motors are inherently capable of developing transient current and torque considerably in excess of rated current and torque when exposed to an out of phase bus transfer or momentary voltage interruption and re-closing on the same power supply. This transient torque can range from 2 to 20 times the rated torque and is related to many factors including: motor design, operating conditions, switching time, rotating system inertias and torsional spring constants, the number of motors on the bus and more. This information is provided as a general information document. Consult an electrical engineer on your specific application. Starting Method: Soft Start / Soft Stop Starting voltage per winding: Reduced Typical voltage applied at motor starting (%Vn): 30-50% Adjust. Peak inrush current at starting (1): Negligible Peak inrush current at transition (1): Negligible Starting current (% FLA) (2): 250 - 450% Transition current (% FLA) (3): N/A Starting Torque (% FLT) (4): 10-100% (Adjust. on Torque Ramp Mode) Motor type(5): Standard Number of wire connections: 3 20 40 60 80 100 100 200 300 400 500 600 Motor speed (%)N nMotor Current (%)In Soft starting Peak Inrush Current (DOL) Locked Rotor Current (DOL) 100% Vn 20 40 60 80 100 100 200 300 Motor speed (%)N nMotor Torque (%)Tn 100% Vn Resistive Torque (Pump) AcceleratingTorque Voltage ramp Torque ramp current limit *Voltage ramp Torque ramp Adjustable Legend: FLA : Full Load Amperage / Full Load Current FLT : Full-Load Torque / Rated Torque at FLA, Vn, and Full-Load Speed Vn : Nominal Voltage / Rated Voltage *Low current limit may cause the motor to not accelerate or even stall; not respecting the 10 seconds ramp code requirement. FTA1000, 1250, 1300, 1350, 1800, 1930 ELECTRIC FIRE PUMP CONTROLLERS Example: FTA1300-AM75HH-xx Starting Method 1000 - Across-the-line (direct on line) 1250 - Part Winding (50%-50% windings) 1300 - Wye-delta (star-delta), open transition 1350 - Wye-delta (star-delta), closed transition 1800 - Autotransformer 1930 - Digital Solid-state soft start/stop Start/Stop Options A - Automatic/Manual start with manual stop only (default). Field configurable to automatic start with timed permis- sive stop after minimum run time and manual start with manual stop only. C - For Manual only operation of Foam Controllers (use option -LK3) ModificationsSee Publication OP1000-71 Three Phase Voltage A - 220-240 Volt, 60 Hertz (230 V) AZ - 220-230 Volt, 50 Hertz B - 440-480 Volt, 60 Hertz (460 V) BZ - 415 Volt, 50 Hertz C - 550-600 Volt, 60 Hertz (575 V) F - 380 Volt, 60 Hertz FZ - 380 Volt, 50 Hertz FF - 400 Volt, 60 Hertz FX - 400 Volt, 50 Hertz H - 208 Volt, 60 Hertz HH - 200 Volt, 60 Hertz MarkIII+ Electric Fire Pump Controllers FTA1000 - FTA1930Model Number Selection Guide Horsepower Rating 03 - 3 HP 100 - 100 HP 05 - 5 HP 125 - 125 HP 07 - 7 1/2 HP 150 - 150 HP 10 - 10 HP 200 - 200 HP 15 - 15 HP 250 - 250 HP 20 - 20 HP 300 - 300 HP 25 - 25 HP 350 - 350 HP 30 - 30 HP 400 - 400 HP 40 - 40 HP 450 - 450 HP 50 - 50 HP 500 - 500 HP 60 - 60 HP 75 - 75 HP Code M - Standard N - Intermediate P - High Q - Intermediate R - Standard 200-208V 5-150 HP 100kA 150kA 200kA N/A N/A 220-240V 5-200 HP 100kA 150kA 200kA N/A N/A 380-415V 5-350 HP 100kA 150kA 200kA N/A N/A 440-480V 5-400 HP 100kA 150kA 200kA N/A N/A 550-600V 5-500 HP N/A N/A N/A 100kA 50kA Code M - Standard N - Intermediate P - High Q - Intermediate R - Standard 200-208V 200 HP 50A N/A 100kA N/A N/A 220-240V 250-400 HP 50kA N/A 100kA N/A N/A 380-415V 400-500 HP 50kA N/A 100kA N/A N/A 440-480V 450-500 HP 50kA N/A 100kA N/A N/A Short Circuit Current Rating Publication SD1000-60 Rev.C 3412 Apex Peakway Apex, North Carolina 27502 P +1 919 460 5200 F +1 919 460 5250 www.firetrol.com While every precaution has been taken to ensure accuracy and completeness herein, Firetrol, Inc. assumes no responsibility, and disclaims all liability, for damages result- ing from use of this information or for any errors or omissions. Specifications and drawings are subject to change without notice. ©2021 Firetrol, Inc., All Rights Reserved. For controller options and modifications see Publication OP10000-71. MarkIII+ Electric Fire Pump Controllers Options &Modifications FTA1000 - FTA1930 SPECIAL ENCLOSURES DescriptionOption -E Enclosure, NEMA Type 4 (IEC IP65), Painted Steel -F Enclosure, NEMA Type 4X (IEC IP66), #304 Stainless Steel, Brushed Finish -FD Enclosure, NEMA Type 4X (IEC IP66), #316 Stainless Steel, Brushed Finish -FDB Enclosure, NEMA Type 4X (IEC IP66), #316 Stainless Steel, Seam Welded, Brushed Finish -FDP Enclosure, NEMA Type 4X (IEC IP66), #316 Stainless Steel, Painted Finish -FXP Enclosure, NEMA Type 4X (IEC IP66), #304 Stainless Steel, Painted Finish -G Enclosure, NEMA Type 12 (IEC IP54), Painted Steel -T Enclosure, NEMA Type 3R (IEC IP24), Painted Steel -U Enclosure, NEMA Type 3 (IEC IP54), Painted Steel CIRCUIT BREAKER OPTION* DescriptionOption ANTI-CONDENSATION SPACE HEATERS DescriptionOption -J Space Heater, 120V Externally Powered with Circuit Breaker & Thermostat -K Space Heater, 120V Externally Powered with Circuit Breaker & Humidistat -M Space Heater, 240V Externally Powered with Circuit Breaker & Thermostat -N Space Heater, 240V Externally Powered with Circuit Breaker & Humidistat -JKP Space Heater, 120V Externally Powered with Circuit Breaker, Thermostat and Humidistat in Parallel -MNP Space Heater, 240V Externally Powered with Circuit Breaker, Thermostat and Humidistat in Parallel PRESSURE TRANSDUCERS, SOLENOID VALVES, PLUMBING DescriptionOption -B1 Wetted Parts including Pressure Sensor and Test Solenoid, 500 PSI (34.5 Bar) Fresh Water (For Factory Calibration Purposes Only) -C1 Wetted Parts including Pressure Sensor and Test Solenoid, 300 PSI (20.4 Bar), Sea Water -D1 Wetted Parts including Pressure Sensor and Test Solenoid, 500 PSI (34.5 Bar), Sea Water -SP1 Low Suction Pressure Transducer, Fresh Water, 0-300 PSI (20.4 Bar) with Visible Indication and Output Contacts -SP2 Low Suction Pressure Transducer, Sea Water, 0-300 PSI (20.4 Bar) with Visible Indication and Output Contacts --- Enclosure, NEMA Type 2 (IEC IP22), Painted Steel (Standard) -M -R 200-208V5-150 HP100kA (M) 220-240V5-200 HP100kA (M) 380-415V5-350 HP100kA (M) 440-480V5-400 HP100kA (M) 550-600V5-500 HP50kA (R) 200-208V200 HP50kA (M) 220-240V250-400 HP50kA (M) 380-415V400-500 HP50kA (M) 440-480V450-500 HP50kA (M) Standard Short Circuit Current Rating -N -Q 200-208V5-150 HP150kA (N) 220-240V5-200 HP150kA (N) 380-415V5-350 HP150kA (N) 440-480V5-400 HP150kA (N) 550-600V5-500 HP100kA (Q) 200-208V200 HPN/A 220-240V250-400 HPN/A 380-415V400-500 HPN/A 440-480V450-500 HPN/A Intermediate Short Circuit Current Rating -P 200-208V5-150 HP200kA 220-240V5-200 HP200kA 380-415V5-350 HP200kA 440-480V5-150 HP200kA 550-600V5-500 HPNA 200-208V200 HP100kA 220-240V250-400 HP100kA 380-415V400-500 HP100kA 440-480V450-500 HP100kA High Short Circuit Current Rating None --- Wetted Parts including Pressure Sensor and Test Solenoid, 300 PSI (20.4 Bar) Fresh Water ALARMS DescriptionOption -AC Extra Alarm Output Contacts, Pump Operating (2 Form-C) -AM Alarm Output Contacts, Fail to Start -AV Alarm Output Contacts, Low Pump Room Temperature -AW Alarm Output Contacts, Reservoir Low -AY1 Configurable Low Suction Pressure, Visible/Output Contacts with External Digital Input -BW1 Extra Alarm Output Contacts, Phase Failure/Phase Reversal -BY1 Alarm Output Contacts, Overcurrent -CTS1 Configurable Low Suction Pressure, Visible/Output Contacts with Suction Pressure Transducer -EH1 Alarm Output Contacts, Main Relief Valve Open -EK Alarm Output Contacts, Flow Meter Open -JR Visible Indicator, Jockey Pump Operating -JT Alarm, Audible/Visible, Jockey Pump Trouble -P1 Alarm, Audible/Visible, Built-In 120V Supervisory System (Includes Visible Supervisory Voltage Normal Indication and Audible Pump Operating, Phase Failure and Phase Reversal Indication -PT Alarm, Audible/Visible, Built-In 240V Supervisory System (Includes Visible Supervisory Voltage Normal Indication and Audible Pump Operating, Phase Failure and Phase Reversal Indication -ED2 Normal Source Load Shedding with Adjustable Time Delay to Remove Non-Critical Loads Before Starting MISCELLANEOUS DescriptionOption -EL Series Pumping Operation, High Zone Controller -EM Series Pumping Operation, Mid Zone Controller -EN Series Pumping Operation, Low Zone Controller -IEC Marking, CE with External Wet Parts (Requires NEMA Type 12 (IP54) Enclosure as Minimum) -MZN Neutral Lug, Service Entrance, Non-Insulated Bonded to Enclosure -PK Terminal Blocks, Extra Remote Start -PY Output Contacts, Motor Space Heater, Externally Powered -S Tropicalization -KH Alarm Output Contacts, Common Alarm -PE Alarm Output Contacts, Low System Pressure (Pump on Demand) FOAM PUMP APPLICATIONS DescriptionOption -LK1 Foam Pump Application With Pressure Transducer and Run Test Solenoid Valve (Auto. Start) -LK2 Foam Pump Application With Pressure Transducer and Run Test Solenoid Valve, Stainless Steel (Auto. Start ) -LK3 Foam Pump Application Without Pressure Transducer and Run Test Solenoid Valve (Manual Start) -LR1 Low Foam Level External Input, Visible Indications and Alarm Contacts, Additive with Provisions for Proof Pressure Switch Connection, With Lockout and Remote Alarm Indication For Interlock On (Locked Out) -DVC Operation, Dump Valve Control Required For Foam Required For Foam Optional For Foam -SEI Seismic Certification compliant to CBC 2019, IBC 2018 for rigid base or wall mount only -OSP Seismic Certification compliant to OSHPD (CA) for rigid base or wall mount only -USBX Data Port, External USB -ZPM1 Data Port, RS-485 Modbus RTU -XCR Export Packaging (Wooden Crating to Conform to IPPC Standards) -Y55 Controller Temperature Rating, 55°C (131°F) Ambient Temperature Publication OP1000-71 Rev. H 3412 Apex Peakway Apex, North Carolina 27502 P +1 919 460 5200 F +1 919 460 5250 www.firetrol.com While every precaution has been taken to ensure accuracy and completeness herein, Firetrol, Inc. assumes no responsibility, and disclaims all liability, for damages result- ing from use of this information or for any errors or omissions. Specifications and drawings are subject to change without notice. ©2022 Firetrol, Inc., All Rights Reserved. Dimensions andShipping Weight MARKIII+ Electric Fire Pump Controllers - Solid State Reduced Current Starting FTA1930 Wiring Schematic MARKIII+ Electric Fire Pump Controllers - Solid State Reduced Current Starting FTA1930 Field Connections Alarm & Control Terminals MARKIII+ Electric Fire Pump Controllers - Solid State Reduced Current Starting FTA1930 Incoming Power3 Phases Bonding L2L1 IS1 Ground L3 Line Terminals Notes: 1 - For proper wire sizing, refer to NFPA70 and NEC (USA) or CEC (Canada) or local code. 2 - Controller suitable for service entrance in USA. 3 - For more accurate motor connections refer to motor manufacturer or motor nameplate. 4 - Controller is phase sensitive. Incoming lines must be connected in ABC sequence. COPPER CONDUCTORS for Isolating Switch (IS1). Field Wiring According to Bending Space (AWG or MCM). Terminals L1 - L2 - L3 COPPER CONDUCTORS for Motor Connection (1M). Field Wiring According to Bending Space (AWG or MCM). Terminals T1 - T2 - T3 Motor Terminals M T1 T2 T3 1M 5 7.5 10 15 20 25 220 to 240 380 to 416 600 440 to 480 208 1x (10 to 2) 30 40 50 60 75 100 125 150 200 250 300 350 400 450 500 1x (10 to 2) 1x (10 to 2) 1x (10 to 2) 1x (10 to 2) 1x (10 to 2) 1x (10 to 2) 1x (10 to 2) 1x (10 to 2) 1x (8 to 2) 1x (10 to 2) 1x (10 to 2) 1x (10 to 2) 1x (8 to 2) 1x (8 to 2) 1x (10 to 2) 1x (10 to 2) 1x (8 to 2) 1x (6 to 2) 1x (6 to 2) 1x (10 to 2) 1x (8 to 2) 1x (8 to 2) 1x (4 to 2) 1x (4 to 2) 1x (8 to 2) 1x (8 to 2) 1x (6 to 2) 1x (4 to 2/0) 1x (3 to 2/0) 1x (8 to 2) 1x (6 to 2) 1x (6 to 1/0) 1x (3 to 2/0) 1x (2 to 2/0) 1x (6 to 2) 1x (6 to 2) 1x (4 to 2) 1x (1/0 to 3/0) 1x (1/0 to 3/0) 1x (6 to 2) 1x (4 to 2/0) 1x (3 to 2/0) 1x (2/0 to 3/0) 1x (3/0) 1x (4 to 2/0) 1x (3 to 2/0) 1x (1 to 2/0) 1x (3/0) 1x (4/0 to 300) 1x (3 to 1/0) 1x (1 to 1/0) 1x (1/0 to 3/0) 1x (250 to 300) 1x (300) 1x (1 to 1/0) 1x (2/0 to 3/0) 1x (3/0) 2x (2/0 to 300) 2x (2/0 to 300) 1x (3/0) 1x (2/0 to 3/0) 1x (250 to 300) 2x (3/0 to 300) 2x (4/0 to 300) 1x (3/0) 1x (4/0 to 300) 1x (300) 2x (4/0 to 300) 2x (250 to 300) 1x (250 to 300) 2x (1/0 to 300) 2x (3/0 to 300) 2x (350 to 500) 2x (2/0 to 300) 2x (3/0 to 300) 2x (4/0 to 300) 2x (3/0 to 300) 2x (4/0 to 300) 2x (300) -------- -------- -------- 2x (4/0 to 300) 2x (300) -------- -------- 2x (250 to 300) -------- -------- 2x (300) -------- -------- -------- -------- 220 to 240 380 to 416 600 440 to 480 208 2x (350 to 500) 2x (350 to 500) HP HP 2x (400 to 600) 2x (400 to 500) 2x (500 to 600) 2x (500 to 600) 2x (600) 2x (400 to 600) 2x (500 to 600) Voltage Voltage 5 7.5 10 15 20 25 220 to 240 380 to 416 600 440 to 480 208 1x (10 to 1/0) 30 40 50 60 75 100 125 150 200 250 300 350 400 450 500 1x (8 to 1/0) 1x (6 to 1/0) 1x (4 to 1/0) 1x (3 to 1/0) 1x (4 to 1/0) 1x (3 to 1/0) 1x (3 to 1/0) 1x (3 to 1/0) 1x (1 to 3/0) 1x (1/0 to 3/0) 1x (250) 2x (1/0 to 500) 1x (1 to 3/0) 1x (2/0 to 3/0) 1x (3/0 to 250) 2x (2/0 to 500) 2x (2/0 to 500) 1x (3/0 to 250) 1x (2/0 to 3/0) 1x (250) 2x (3/0 to 500) 2x (4/0 to 500) 1x (3/0 to 250) 1x (4/0 to 250) 2x (1/0 to 500) 2x (4/0 to 500) 2x (250 to 500) 1x (250) 2x (1/0 to 500) 2x (3/0 to 500) 2x (2/0 to 500) 2x (3/0 to 500) 2x (4/0 to 500) 2x (3/0 to 500) 2x (4/0 to 500) 2x (300 to 500) -------- -------- -------- 2x (4/0 to 500) 2x (300 to 500) -------- -------- 2x (250 to 500) -------- -------- 2x (300 to 500) -------- -------- -------- -------- -------- 220 to 240 380 to 416 600 440 to 480 208 5 " (127 mm)8 " (203 mm) 12 " (305 mm) 5 " (127 mm)8 " (203 mm)12 " (305 mm) 1x (10 to 1/0) 1x (10 to 1/0) 1x (10 to 1/0) 1x (10 to 1/0) 1x (10 to 1/0) 1x (10 to 1/0) 1x (10 to 1/0) 1x (10 to 1/0) 1x (10 to 1/0) 1x (10 to 1/0) 1x (10 to 1/0) 1x (8 to 1/0) 1x (8 to 1/0) 1x (10 to 1/0) 1x (10 to 1/0) 1x (8 to 1/0) 1x (6 to 1/0) 1x (6 to 1/0) 1x (10 to 1/0) 1x (8 to 1/0) 1x (8 to 1/0) 1x (4 to 1/0) 1x (4 to 1/0) 1x (8 to 1/0) 1x (8 to 1/0) 1x (6 to 1/0) 1x (4 to 1/0) 1x (3 to 1/0) 1x (8 to 1/0) 1x (6 to 1/0) 1x (6 to 1/0) 1x (3 to 1/0) 1x (2 to 1/0) 1x (4 to 1/0) 1x (6 to 1/0) 1x (6 to 1/0) 1x (1 to 3/0) 1x (1/0 to 3/0) 1x (2/0 to 3/0) 1x (3/0 to 250) 1x (3/0 to 250) 1x (4/0 to 250) 2x (350 to 500) 2x (350 to 500) 2x (350 to 500) Voltage Bending Space HP HP 2x (400 to 500) 3x (4/0 to 500) 3x (250 to 500) 3x (250 to 500) 3x (300 to 500) 2x (400 to 500) 3x (250 to 500) 16 " (406 mm) Bending Space Bending Space Voltage Bending Space All rights reserved. The drawing and the information contained or depicted herein are the sole property of Firetrol, Inc. Copies are communicated to the recipient in strict confidence and may not be retransmitted, published, reproduced, copied or used in any manner, including as the basis for the manufacture or sale of any products, without the express prior written consent of Firetrol, Inc. APPROVAL FINAL DRAWN BY BY DATE ECN NO ECN NO SIZE DRAWING NUMBER DWGREV A REV SHEET OF BY APP DATEREVISION DESCRIPTION PROJECTION THIRD ANGLE © Firetrol, Inc. Not for construction. Subject to change without notice. FC1930-61 A -1 1 DIGITAL SOLID STATE REDUCED CURRENT FIRE PUMP CONTROLLER LINE AND MOTOR FIELD WIRE TERMINAL CAPACITY FIELD CONNECTIONS FTA1930CIR11-10-19 CIR 11-10-19 CDL REVISED TO AGREE W/CURRENT MFG A -CIR CIR 2-10-21 Field Connections Line & Motor Wire Terminal Capacity MARKIII+ Electric Fire Pump Controllers - Solid State Reduced Current Starting FTA1930