Liebert® MC™ User Manual—60 Hz Air-cooled Microchannel Condenser – Premium/EC Fan Table of Content Important Safety Guidelines. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Liebert MC Nomenclature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 1.0 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 1.1 Product Description and Features. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 1.2 Control, Fan Types and Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 1.2.1 Premium Efficiency Control/EC Fan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.2.1.1 Anti-Freezing Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.2.1.2 Fan Reversal for Cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.2.1.3 Low-Noise Feature. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 6 6 6 1.3 Liebert Lee-Temp™ Refrigerant Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 1.4 Surge Protective Device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 2.0 Site Preparation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 2.1 Site Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 2.2 Dimensions and Weights. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 2.2.1 Condenser and Options Net Weights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 3.0 Inspection and Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 3.1 Equipment Inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 3.1.1 Packing Material . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 3.2 Handling Unit on the Skid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 3.3 Unit Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 3.4 Unpacking the Condenser—All Unit Sizes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 3.5 Preparing a Condenser for Moving and Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 3.5.1 Attaching 18" (457mm) Legs, Removing the Skid and Attaching Slings. . . . . . . . . . . . . . 26 3.5.2 Special Considerations for 36-60” (914-1524mm) Legs . . . . . . . . . . . . . . . . . . . . . . . . . . 29 3.6 Mounting the Condenser . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 3.6.1 Standard Mounting Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 3.6.2 Seismic-Certified and Wind-Certified Mounting Requirements . . . . . . . . . . . . . . . . . . . . . 32 i Liebert® MC™ User Manual 4.0 Electrical Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33 4.1 Line Voltage Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 4.1.1 Wye- vs. Delta-Connected Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 4.1.1.1 Acceptable Power Supplies—208V to 575V Nominal Units. . . . . . . . . . . . . . . . 36 4.1.1.2 Unacceptable Power Supplies—208V to 575V Nominal Units . . . . . . . . . . . . . 36 4.2 Low-voltage Control Wiring—CANbus Communication and Interlock Connections . . . . . 37 4.2.1 Electrical Field Connection Descriptions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 4.2.1.1 Key Electrical Details—Typical Connections, Premium Efficiency Control . . . . 44 5.0 Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 5.1 Piping Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 5.2 Field Piping Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55 5.2.1 Field Piping Guidelines for a Liebert DX System and Liebert MC Condenser . . . . . . . . . 56 5.2.2 Field Piping Guidelines for a Liebert DSE and Liebert Premium MC Condenser . . . . . . . 60 5.3 Refrigerant Planning Values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 5.3.1 Recommended Refrigerant Line Sizes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67 5.4 Equipment Application Guidelines. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68 5.5 Refrigerant Oil Addition Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68 5.6 System Dehydration/Leak Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68 5.7 System Charging with Liebert MC. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68 5.7.1 Liebert MC Charging, Units with Liebert Lee-Temp™ Receivers . . . . . . . . . . . . . . . . . . . 68 5.7.2 Liebert MC Condenser Charging with Liebert DSE™ Receivers. . . . . . . . . . . . . . . . . . . . 68 5.7.3 Liebert MC Charging, Premium Efficiency Control, Units without Receivers . . . . . . . . . . 69 6.0 Checklist for Completed Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73 6.1 Moving and Placing Equipment. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73 6.2 Electrical . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73 6.3 Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73 6.4 Other . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73 7.0 Initial Startup Checks and Commissioning . . . . . . . . . . . . . . . . . . . . . . 75 7.1 Startup Checklist . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75 7.2 Initial Startup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75 8.0 Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77 Liebert® MC™ User Manual ii 9.0 Control Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79 9.1 Premium Efficiency Control Board and Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79 9.1.1 Initial Screen Upon Power-On . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81 9.1.2 Main Menu Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81 9.1.3 Analog Signals Menu Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82 9.2 Premium Efficiency Condenser Alarm Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84 9.2.1 Active Alarms Menu Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84 9.2.2 History Alarms Menu Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85 10.0 Liebert MC Seismic Application—Optional Unit Configuration . . . . . 89 10.1 Seismic Anchoring Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 10.2 Seismic piping considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 10.3 Seismic wiring considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 11.0 System Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97 11.1 General Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97 11.2 Condenser Cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98 11.2.1 When to Clean the Condenser Coil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98 11.2.2 What to Use to Clean the Condenser Coil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98 11.2.3 How to Clean the Condenser Coil. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98 11.3 Fan Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99 11.3.1 Verify the Fan Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103 11.4 Premium Efficiency Control Board Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 11.4.1 Replacement Preparation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 11.4.2 Installation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108 12.0 Preventive Maintenance Checklist. . . . . . . . . . . . . . . . . . . . . . . . . . . . 111 iii Liebert® MC™ User Manual List of Figures Figure 1-1: Two-fan Liebert MC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Figure 2-1: Condenser planning dimensional data—MCS028, MCM040 and MCL055. . . . . . . . . . . . . . . . . . . . . 12 Figure 2-2: Condenser planning dimensional data—MCS056, MCM080, MCL110. . . . . . . . . . . . . . . . . . . . . . . . 13 Figure 2-3: Condenser planning dimensional data—MCL165 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Figure 2-4: Condenser planning dimensional data—MCM160 and MCL220. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Figure 2-5: Liebert DSE receiver mounting—MCL165 and MCL220, single-circuit condenser, left-side condenser outlet receiver . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Figure 2-6: Liebert DSE receiver mounting—MCL165 and MCL220, single-circuit condenser, right-side condenser outlet receiver . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 Figure 2-7: Liebert DSE receiver mounting—MCL110 and MCL220, dual-circuit condenser . . . . . . . . . . . . . . . . 18 Figure 2-8: Liebert DSE receiver mounting—MCM160 dual circuit condenser . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 Figure 3-1: Equipment recommended for handling a Liebert condenser . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 Figure 3-2: Forklift position with one-fan or two-fan condensers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Figure 3-3: Removing protective material . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 Figure 3-4: Attaching legs to one-fan or two-fan condensers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 Figure 3-5: Securing slings to condensers for lifting off skid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Figure 3-6: Remove skid, set condenser on floor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Figure 3-7: Lifting condensers with one, two, three or four fans . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28 Figure 3-8: Recommended bolt locations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29 Figure 3-9: Remove bolts along the long edge of the unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 Figure 3-10: Lifting the unit for installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31 Figure 4-1: Wye- vs. delta-connected power supply connection diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 Figure 4-2: CANbus communication and interlock connections between a Liebert DSE, one premium Liebert MC and a Liebert EconoPhase . . . . . . . . . . . . . . 38 Figure 4-3: CANbus communications and interlock connections between a Liebert DSE, two Liebert MC condensers and a Liebert EconoPhase . . . . . . . . . . . . 39 Figure 4-4: CANbus communications and interlock connections between a Liebert DS and Liebert MC condenser . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 Figure 4-5: CANbus communication and interlock connections between a Liebert CRV 600 mm (24 in.) and a Liebert MC premium condenser . . . . . . . . . . . . 41 Figure 4-6: CANbus communications and interlock connection between Liebert CRV 300 mm (12 in.) and a Liebert MC premium condenser . . . . . . . . . . . . . . 42 Figure 4-7: CANbus communication and interlock connection between Liebert PDX™ and a Liebert MC premium condenser . . . . . . . . . . . . . . . . . . . . . . . . . . 43 Figure 4-8: Typical connections, Premium Efficiency Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 Figure 5-1: Piping schematic—DX systems. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 Figure 5-2: Piping schematic—CRV 600 mm (24 in.) DX systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 Figure 5-3: Piping schematic—CRV300 mm (12 in.) DX systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51 Figure 5-4: Piping schematic—DS DX systems. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52 Figure 5-5: Piping schematic—Liebert DSE™, air-cooled DA050, DA080 and DA085 models . . . . . . . . . . . . . . . 53 Figure 5-6: Piping schematic—Liebert DSE™, air-cooled DA125, DA150 and DA165 models . . . . . . . . . . . . . . . 54 Figure 5-7: Liebert MC Condenser piping—Single-circuit, 1-, 2-, 3- and 4-fan units . . . . . . . . . . . . . . . . . . . . . . . 56 Figure 5-8: Condenser piping for single-circuit condensers (with Liebert Lee-Temp™) . . . . . . . . . . . . . . . . . . . . . 57 Liebert® MC™ User Manual iv Figure 5-9: Piping: dimensions—Dual circuit two-fan and four-fan units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58 Figure 5-10: Piping: Dimensions with Liebert Lee-Temp™—Dual circuit condensers . . . . . . . . . . . . . . . . . . . . . . 59 Figure 5-11: Condenser and Liebert EconoPhase™, typical unit arrangement diagram layout for dual-circuit system . . . . . . . . . . . . . . . . . . . . . . . . . 60 Figure 5-12: Condenser and Liebert EconoPhase™, typical unit arrangement diagram layout for single-circuit system . . . . . . . . . . . . . . . . . . . . . . . . 61 Figure 5-13: Typical receiver Liebert DSE mounting, MCL110, MCL165 and MCL220 single-circuit condenser, left-side condenser outlet receiver . . 62 Figure 5-14: Typical receiver Liebert DSE mounting, MCL110, MCL165 and MCL220 single-circuit condenser, right-side condenser outlet receiver . 63 Figure 5-15: Typical receiver Liebert DSE mounting, MCL110 and MCL220 dual-circuit condenser, two outlet receivers . . . . . . . . . . . . . . . . . . . . . . . 64 Figure 5-16: Typical receiver Liebert DSE mounting, MCM160 dual-circuit condenser, two outlet receivers . . . . 65 Figure 9-1: Premium efficiency fan control board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80 Figure 9-2: Premium Efficiency Control Interface - Human Machine Interface (HMI) . . . . . . . . . . . . . . . . . . . . . . 80 Figure 9-3: Initial controller display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81 Figure 9-4: Main Menu operation and structure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81 Figure 9-5: Analog Signals Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82 Figure 9-6: Active alarms menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84 Figure 9-7: History alarms menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85 Figure 10-1: Seismic anchorage data for one-fan models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90 Figure 10-2: Seismic anchoring for a two-fan Liebert MC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91 Figure 10-3: Seismic anchoring loads for a three-fan Liebert MC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92 Figure 10-4: Seismic anchorage loads for a four-fan Liebert MC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93 Figure 10-5: Seismic anchorage loads for 36-60” extended leg . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94 Figure 10-6: Seismic piping and wiring considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 Figure 11-1: Ziehl-Abegg small, medium and large fan, Liebert MC series MCS, MCM and MCL . . . . . . . . . . . 105 Figure 11-2: EBM small and medium fan, Liebert MC series MCS/MCM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106 Figure 11-3: EBM large fan—Liebert MC series MCL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106 Figure 11-4: Jumper locations on Control Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 v Liebert® MC™ User Manual List of Tables Table 2-1: Condenser shipping weights, dimensions and volume, approximate . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Table 2-2: Condenser and option net weights—Small condensers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Table 2-3: Condenser and option net weights—Medium condensers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Table 2-4: Condenser and option net weights—Large condensers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Table 4-2: Electrical data, Liebert Lee-Temp™ receiver, 60Hz. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 Table 4-1: Electrical data, three-phase, 60Hz condenser, premium models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 Table 5-1: Liebert MC Condenser piping sizes—Single-circuit units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56 Table 5-2: Condenser piping connection sizes—Single-circuit condensers with Liebert Lee-Temp . . . . . . . . . . . 57 Table 5-3: Piping: dimensions—Dual-circuit, two-fan and four-fan units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58 Table 5-4: Condenser piping connection sizes—Dual-circuit condensers with Liebert Lee-Temp . . . . . . . . . . . . . 59 Table 5-5: Refrigerant required, R-407C, approximate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 Table 5-6: Refrigerant required, R-410A, approximate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 Table 5-7: Recommended Refrigerant Line Sizes, OD Cu. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67 Table 5-8: Interconnecting piping refrigerant charge for self-contained DX units with remote condenser . . . . . . . 68 Table 5-9: Charge amounts per 100 ft. (30m) of pipe by line size . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 Table 5-10: Target subcooling for ambient outdoor temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 Table 5-11: Liquid pressures and temperatures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71 Table 8-1: Troubleshooting. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77 Table 9-1: Analog signal definitions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83 Table 9-2: System alarm information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86 Table 9-3: EC Fan alarm information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87 Table 10-1: Seismic anchorage loads for one-fan models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90 Table 10-2: Seismic anchoring loads for a two-fan Liebert MC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91 Table 10-3: Seismic anchoring loads for a three-fan Liebert MC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92 Table 10-4: Seismic anchorage loads for a four-fan Liebert MC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93 Table 10-5: Seismic anchorage loads for 36-60” extended leg . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94 Table 11-1: P-- menu items and definitions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101 Table 11-2: Premium Efficiency Control Board Configuration-parameter List . . . . . . . . . . . . . . . . . . . . . . . . . . . 104 Liebert® MC™ User Manual vi Important Safety Guidelines Important Safety Guidelines SAVE THESE INSTRUCTIONS This manual contains important safety instructions that should be followed during the installation and maintenance of the Liebert MC. Read this manual thoroughly before attempting to install or operate this unit. Only qualified personnel should move, install or service this equipment. Adhere to all warnings, cautions and installation, operating and safety instructions on the unit and in this manual. Follow all operating and user instructions. ! WARNING Risk of improper handling, installation and service. Can cause property damage, injury or death. Only properly trained and qualified personnel should install or perform repairs or maintenance on this unit. Read all installation, operation and safety alerts and instructions and wear appropriate protective headgear, safety glasses, gloves and clothing before installing, operating or servicing this unit. ! WARNING Arc flash and electric shock hazard. Open all local and remote electric power disconnect switches, verify with a voltmeter that power is Off and wear personal protective equipment per NFPA 70E before working within the electric control enclosure. Failure to comply can cause serious injury or death. Customer must provide earth ground to unit, per NEC, CEC and local codes, as applicable. Before proceeding with installation, read all instructions, verify that all the parts are included and check the nameplate to be sure the voltage matches available utility power. The Liebert iCOM® microprocessor does not isolate power from the unit, even in the “Unit Off” mode. Some internal components require and receive power even during the “Unit Off” mode of Liebert iCOM control. The factory-supplied disconnect switch is inside the unit. The line side of this switch contains live high-voltage. The only way to ensure that there is NO voltage inside the unit is to install and open a remote disconnect switch. Refer to unit electrical schematic. Follow all local codes. ! WARNING Risk of contact with high-speed, rotating fan blades. Can cause serious personal injury or death. Fan blades can automatically start rotating without warning at any time during a cooling cycle or after power is restored after a power failure. Open all local and remote electric power supply disconnect switches, wait 10 minutes and verify with a voltmeter that power is Off before working within the unit cabinet, removing the fan guards or servicing the fan speed control, fan blades or EC fan motors. ! WARNING Risk of electrical fire and short circuit. Can cause property damage, injury or death. Select and install the line side electrical supply wire and overcurrent protection device(s) according to the specifications on the unit nameplate(s), per the instructions in this manual and according to the applicable national, state and local code requirements. Use copper conductors only. Verify that all electrical connections are tight. Unit-specific wiring diagrams are provided on each unit. 1 Liebert® MC™ User Manual Important Safety Guidelines ! WARNING Risk of electric shock. Can cause injury or death. The fan speed control and the EC fan electrical enclosures may contain a stored electrical charge. Open all local and remote electric power disconnect switches, verify with a voltmeter that power is Off and wait 10 minutes before working within the fan speed control and the EC fan electrical enclosures. ! WARNING Risk of heavy condenser falling or tipping over. Can cause property damage, serious injury or death. Confirm that all components of the lifting system are rated for the weight of the condenser by an OSHA Certified rating organization before attempting to lift and/or move the condenser. See Tables 2-1 through 2-4 for the condenser weights. ! CAUTION Risk of contact with hot surfaces. Can cause injury. Fan motors, transformers, piping and other components may become extremely hot during normal operation. Wear thermally insulated gloves and appropriate protective clothing and allow time for components to cool when working within the cabinet or electric control enclosure. ! CAUTION Risk of contact with sharp edges, splinters and exposed fasteners. Can cause personal injury. Only properly trained and qualified personnel wearing appropriate safety headgear, gloves, shoes and glasses should attempt to move, lift, remove packaging from or prepare unit for installation. ! CAUTION Risk of explosive discharge of high-pressure gas. Can cause injury. Relieve system pressure and verify that the indoor and outdoor units are Off before making piping connections/disconnections. Do not exceed the design pressure rating that is marked on the nameplate. Do not install a shutoff valve between the compressor and the field-installed pressure relief valve. NOTICE Risk of interference with building doorways, openings and passages. Can cause unit and/or building damage. Refer to the installation plans and measure the unit and building opening before moving the unit to verify clearances. NOTICE Risk of improper storage. Can cause unit damage. Keep unit upright and protected from contact damage. NOTICE Risk of improper forklift handling. Can cause unit damage. Keep the forklift tines level and at a height that will fit under the skid. Liebert® MC™ User Manual 2 Important Safety Guidelines NOTICE Risk of improper refrigerant charging. Can cause equipment damage. Refrigerant R-407C and R-410A are blended refrigerants and must be introduced and charged from the cylinder only as a liquid. When adding liquid refrigerant to an operating system, it may be necessary to add the refrigerant through the compressor suction service valve. Care must be exercised to avoid damage to the compressor. Emerson recommends connecting a sight glass between the charging hose and the compressor suction service valve. This will permit adjusting the cylinder hand valve so that liquid can leave the cylinder while allowing vapor to enter the compressor. NOTICE Risk of refrigerant overcharge. Can cause equipment damage. Do not use the sight glass as an indicator when charging Liebert MC condenser systems. NOTICE Risk of using damaging cleaning agents, including non-base paint solvents. Can cause equipment damage and damage to property and loss of refrigerant charge. Using acid-based or sodium hydroxide-based cleaners can damage the Liebert MC condenser coil and cause a loss of charge. This could cause equipment damage as well as damage to the surrounding structure. 3 Liebert® MC™ User Manual Liebert MC Nomenclature Liebert MC Nomenclature Model Number – Part 1/2 Model Details Part 2/2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 M C M 0 4 0 E 1 A D 0 A 0 V U 0 0 0 0 0 0 * * * * 1-2. Unit Family; MC = Microchannel Condenser 11. Coil Coating 0 = None 3. Platform Size S = Small E = E-Coat (Epoxy) M = Medium 12. Panel Material L = Large A = Bright Aluminum 4-6. Nominal Condenser Capacity, kW 13. Connection Pipe Unit of Measurement 0 = Inches (Std. ACR Copper) 028, 056, 040, 055, 080, 110, 160, 165, 220 Example: 040 = 40kW @ 95°F(35°C) & 27°R (15°K) ITD 14. Legs Included V = 18" Tall Legs (Std.) 7. Control/Fan Type E = Premium & EC Fan X = 36" Tall Legs with Bracing Y = 48" Tall Legs with Bracing 8. Refrigerant Circuits/System Refrigerant type 1 = Single Refrigerant Circuit, R-410A Z = 60" Tall Legs with Bracing 2 = Dual Refrigerant Circuit, R-410A 15. Agency Certification 7 = Single Refrigerant Circuit, R-407C, R-22 U = CSA Listed, Marked with CSA c-us logo 8 = Dual Refrigerant Circuit, R-407C, R-22 1 = IBC/OSHPD Seismic Certification, IBC/FBC Wind Load Certification and IBC Snow Load Certification. 9. Power Supply 16. Undefined - Reserved for Future Use 17. Liebert Lee-Temp™ Configuration A = 460V / 3ph/60Hz B = 575V / 3ph/60Hz 0 = No Receiver Leg/Software Y = 208/230V/3ph/60Hz 1 = Liebert Lee-Temp Receiver Leg/Software 2 = 380V/3ph/60Hz 2 = Liebert DSE Receiver Leg/Software 10. Packaging 18-21. Undefined - Reserved For Future Use D = Domestic, Non-Stackable (Horizontal Airflow Orientation) E = Export Crating - Non-Stackable (Horizontal Airflow Orientation) Liebert® MC™ User Manual 4 22-25. Factory Configuration Number Introduction 1.0 Introduction 1.1 Product Description and Features The Liebert MC condenser is a low-profile, direct-drive propeller fan-type air-cooled unit suitable for mounting outdoors. It provides heat rejection for either one or two separate refrigeration circuits, matches the heat rejection capacity corresponding with the outdoor ambient temperature and with each corresponding compressor heat rejection requirements. Constructed with an aluminum cabinet, galvanized steel frame and microchannel coil, the unit is quiet and corrosion resistant. The condenser is quickly and easily installed, because all internal wiring is completed at the factory with only electrical connections to be made at the job site. All electrical connections and controls are enclosed in an integral weatherproof section of the condenser. Figure 1-1 Two-fan Liebert MC 5 Liebert® MC™ User Manual Introduction 1.2 Control, Fan Types and Features 1.2.1 Premium Efficiency Control/EC Fan Premium Efficiency Controls and EC fans are matched to provide superior system energy efficiency. The premium control board allows CANbus communication with the indoor unit’s Liebert iCOM® control. This communication feature provides compressor run signals, condenser operating mode changes, condenser alarm monitoring, simplified system charging procedures and outdoor temperature monitoring. The fans are controlled by the premium control board using pressure transducer signals from the refrigerant circuit and factory programming to control the refrigerant head pressure. The Premium Efficiency Control board on a Liebert MC with a dual refrigeration circuit adjusts the speed of fans on each circuit to match each circuit’s head pressure conditions. On a Liebert MC with multiple fans and a single refrigeration circuit, the premium control adjusts the fans to the same speed to maintain head pressure. The control system provides refrigerant head pressure control for outdoor ambient temperatures as low as -30°F (-35°C), provided that the total design range (from minimum to maximum) is 125°F (70°C) or less. For traditional DX applications, Liebert Lee-Temp™ kits are required only when the design temperature ranges exceed 125°F (70°C) for standard match-ups and 115°F (65°C) for Liebert QuietLine™ match-ups. 1.2.1.1 Anti-Freezing Operation The EC fans must be operated periodically in cold weather to reduce the possibility of lockup due to ice and snow accumulation. During periods of inactivity and outdoor temperatures below 35°F (1.6°C), the EC fans will spin for at least 30 seconds every 15 minutes at 60% of the maximum fan speed. 1.2.1.2 Fan Reversal for Cleaning The Liebert iCOM® can be used to run the Premium EC fans in reverse to clear loose debris from the coil between scheduled coil cleanings. The fan reversal may be done manually or automatically based on a user-programmed schedule. Automatic fan reversal interval occurs when the indoor unit is Off (BMS Off, U2U network standby or Remote Shut Down [RSD]). 1.2.1.3 Low-Noise Feature The low-noise feature allows setting the condenser fans to operate at a specified speed to reduce operating noise at certain times. Special match-ups of premium condensers are available for applications needing to meet stringent sound regulations. Lower sound levels are achieved by oversizing the condenser, which decreases the maximum airflow and sound level produced by the condenser. This feature requires special setup of the indoor unit. One or more Liebert Lee-Temp receivers are required. The premium control has gain schedules that will override the user-defined low-noise schedule to prevent a high-pressure condition from occurring. Liebert® MC™ User Manual 6 Introduction 1.3 Liebert Lee-Temp™ Refrigerant Control The Liebert Lee-Temp head pressure control system utilizes head pressure control valve(s), extra refrigerant and insulated refrigerant receiver(s) with heater pads to assist system starting. The Liebert LeeTemp control system also maintains proper operating head pressures in outdoor temperatures below the rating point of the Liebert MC control type. The system works by flooding the condenser coil with liquid refrigerant to a level that balances the system condensing requirements with the condenser coil surface available to reject the system heat. During the summer, the system requires the entire condenser coil surface for heat rejection and most of the refrigerant is stored in the receiver. In the winter, the same amount of heat can be rejected by only a fraction of the coil surface. As head pressure begins to fall, the control valve restricts the flow of liquid refrigerant from the condenser. This extra liquid refrigerant reduces the effective condenser surface area available for heat transfer. The head pressure control valve also bypasses hot gas into the receiver to warm the liquid and maintain liquid pressure for proper operation of the expansion valve. Liebert Lee-Temp kit is optional for condensers and is field-installed. Condenser control boards are factory-configured for Liebert Lee-Temp if they are ordered with Liebert Lee-Temp receivers. They can be field-configured if a Liebert Lee-Temp system is added later. 1.4 Surge Protective Device An optional Surge Protective Device (SPD) can be field-wired to protect the condenser from power surges that threaten sensitive equipment. The condenser’s electrical panel provides a terminal block to allow the SPD to be wired in parallel with the high-voltage power. An additional low-voltage terminal block is provided on condensers with Premium Control Boards to allow monitoring of the SPD alarm circuit. Emerson Network Power’s 420™ Series surge protective device provides 50kA per mode of surge current protection. An illuminated green LED indicates the SPD is On and operating properly. An illuminated red LED indicates that the device may require replacement. When both LEDs are Off, there is no power to the condenser, either from a power failure or because the condenser disconnect is in the Off position. 7 Liebert® MC™ User Manual Introduction Page intentionally left blank. Liebert® MC™ User Manual 8 Site Preparation 2.0 Site Preparation 2.1 Site Considerations • Condensers should be installed in a location offering maximum security and access for maintenance. • Avoid ground-level sites with public access and areas prone to heavy snow or ice accumulations. • To ensure adequate air supply, Emerson® recommends that condensers be installed in an area with clean air, away from loose dirt and foreign matter that might clog the coil. In addition, condensers should be located no closer than 3 feet (1m) from a wall, obstruction or adjacent unit. • For roof installation, mount the condenser on suitable curbs or other supports in accordance with local codes. • Condensers must not be installed in a pit. • Condensers must be installed on a level surface to ensure proper refrigerant flow. • Use caution when installing condensers below the indoor unit. Condensers must not be installed more than 15ft. (4.6m) below the indoor unit. Condensers with Liebert Lee-Temp™ receivers must be installed at or above the level of the indoor units to maintain proper subcooling. • Liebert Lee-Temp receiver tanks should be mounted on the condenser legs for proper operation. Contact Emerson Application Engineering Department for assistance with applications requiring remote mounting of receivers. • Condensers must be installed in vertical airflow orientation to maintain the electrical box’s NEMA 3R rating. 9 Liebert® MC™ User Manual Site Preparation 2.2 Dimensions and Weights Table 2-1 Condenser shipping weights, dimensions and volume, approximate Domestic Packaging Export Packaging Dimensions (L x W x H) in. (cm) Volume 476 (216) 77 x 37 x 64 (196 x 94 x 163) 106 (3.0) 160 (4.5) 734 (333) 123 x 37 x 64 (312 x 94 x 163) 161 (4.8) 76 x 36 x 63 (193 x 91 x 160) 100 (2.8) 556 (252) 77 x 37 x 64 (196 x 94 x 163) 106 (3.0) 769 (349) 122 x 36 x 63 (310 x 91 x 160) 160 (4.5) 941 (427) 123 x 37 x 64 (312 x 94 x 163) 161 (4.8) 4 1509 (684) 256 x 36 x 63 (650 x 91 x 160) 336 (9.5) 1834 (832) 257 x 37 x 64 (653 x 94 x 163) 352 (10) MCL055 1 552 (250) 76 x 36 x 63 (193 x 91 x 160) 100 (2.8) 669 (303) 77 x 37 x 64 (196 x 94 x 163) 106 (3.0) MCL110 2 962 (436) 136 x 36 x 63 (345 x 91 x 160) 179 (5.0) 1134 (514) 137 x 37 x 64 (348 x 94 x 163) 188 (5.3) MCL165 3 1364 (619) 196 x 36 x 63 (498 x 91 x 160) 257 (7.3) 1619 (734) 197 x 37 x 64 (500 x 94 x 163) 270 (7.7) MCL220 4 1835 (832) 256 x 36 x 63 (650 x 91 x 160) 336 (9.5) 2160 (980) 257 x 37 x 64 (653 x 94 x 163) 352 (10) Model # Number of Fans Weight lb (kg) Dimensions LxWxH in. (cm) MCS028 1 359 (163) 76 x 36 x 63 (193 x 91 x 160) 100 (2.8) MCS056 2 562 (255) 122 x 36 x 63 (310 x 91 x 160) MCM040 1 439 (199) MCM080 2 MCM160 Volume ft (m ) Weight lb (kg) 3 3 ft3 (m3) 1. Packaged weights will increase with factory options, such as legs taller than 18" (457mm), coated coils, 575V and seismic/wind options. See Tables 2-2, 2-3 and 2-4 for option weights to add to the packaged weights above. Consult factory for additional information. 2. Receivers and 60" legs are shipped separately from the condenser. 2.2.1 Condenser and Options Net Weights Total unit weight is the sum of the condenser weight with the selected legs plus the weight of any option. Source: DPN003034, Rev. 1 Table 2-2 Condenser and option net weights—Small condensers Condenser Model Refrigeration Circuits Condenser Dry Weight, lb (kg) MCS028 MCS056 1 2 18" Leg 154 (70) 270 (122) 36" Leg 286 (130) 419 (190) 48" Leg 318 (144) 451 (205) 60" Leg 349 (158) 482 (219) 55 (25) 110 (50) 4 (2) 8 (4) 575V 52 (24) 63 (29) Seismic/Wind Bracing, 18-in. legs 40 (18) 40 (18) Additional Weight for Options, lb (kg) Liebert Lee-Temp Coated Coil Liebert® MC™ User Manual 10 Site Preparation Table 2-3 Condenser and option net weights—Medium condensers Condenser Model MCM040 Refrigeration Circuits MCM080 MCM160 1 1 2 2 18" Leg 231 (105) 441 (200) 441 (200) 860 (390) 36" Leg 363 (165) 590 (268) 590 (268) 1066 (484) 48" Leg 395 (179) 622 (282) 622 (282) 1114 (505) 60" Leg 426 (193) 653 (296) 653 (296) 1160 (526) 55 (25) 100 (45) 110 (50) 220 (100) Liebert DSE Receiver DA050 — 44 (20) — — Liebert DSE Receiver DA080/085 — — — 88 (40) Liebert DSE Receiver DA125/150/165 — — — 184 (83) Condenser Dry Weight, lb (kg) Additional Weight for Options, lb (kg) Liebert Lee-Temp Coated Coil 5 (2) 10 (5) 10 (5) 20 (9) 575V 52 (24) 63 (29) 63 (29) 76 (34) Seismic/Wind Bracing, 18-in. legs 40 (18) 40 (18) 40 (18) 57 (26) Table 2-4 Condenser and option net weights—Large condensers Condenser Model Refrigeration Circuits MCL055 MCL110 MCL165 MCL220 1 1 2 1 1 2 18" Leg 344 (156) 602 (273) 602 (273) 891 (404) 1186 (538) 1186 (538) 36" Leg 486 (220) 766 (347) 766 (347) 1136 (515) 1453 (659) 1453 (659) 48" Leg 518 (235) 798 (362) 798 (362) 1184 (537) 1501 (681) 1501 (681) 60" Leg 549 (249) 829 (376) 829 (376) 1230 (558) 1547 (702) 1547 (702) 60 (27) 115 (52) 120 (54) 175 (79) 215 (98) 240 (109) Liebert DSE Receiver DA050 — 45 (20) — 45 (20) — — Liebert DSE Receiver DA080/085 — 45 (20) 90 (41) — 45 (20) 90 (41) Liebert DSE Receiver DA125/150/165 — 94 (43) 188 (85) 94 (43) 94 (43) 188 (85) Condenser Dry Weight, lb (kg) Additional Weight for Options, lb (kg) Liebert Lee-Temp Coated Coil 8 (4) 16 (7) 16 (7) 24 (11) 32 (15) 32 (15) 575V 79 (36) 90 (41) 90 (41) 132 (60) 134 (61) 134 (61) Seismic/Wind Bracing, 18-in. legs 40 (18) 40 (18) 40 (18) 57 (26) 57 (26) 57 (26) 11 Liebert® MC™ User Manual Site Preparation Figure 2-1 Condenser planning dimensional data—MCS028, MCM040 and MCL055 575V Option 575V Option H TOP OF FAN GUARD G F A* 2 A Lee-Temp Receiver C Entering Hot Gas and Leaving Liquid Piping D A Anchor Plan Main Electric Box End M L K 6 1/2" 165mm 15 1/4" 387mm Left Side of Unit 13/16" 21mm Typ. 3 5/8" 93mm Typ. Ref. K Front View (Lee-Temp Shown) 1 7/8" 48mm Typ. Note: 1. Emerson recommends a clearance of 36” (915mm) on each side for proper operation and component access. 7" 178mm Typ. Cross Bracing required for legs longer than 18" (457.2mm). Quantity varies per model & options selected. 2 DETAIL A Typical all legs 1/2" (13mm) X 1" (25mm) Obround Typ. DPN003436 Rev. 0 Cabinet Dimensions in. (mm) Liebert Model No. A A* (575V only) C D K L M MCS028 50-5/8 (1287) 58-7/8 (1495) 44-1/8 (1120) 42-1/2 (1080) 42-1/2 (1080) 40-7/8 (1038) 35-7/8 (910) MCM040 57-3/16 (1453) 65-3/8 (1661) 48 (1219) 46-5/16 (1177) 46 (1168) 44-3/8 (1127) 39-5/16 (999) MCL055 68 (1727) 77 (1956) 56 (1422) 54-3/8 (1381) 55-1/2 (1410) 53-78 (1368) 48-3/4 (1238) 48 (1219) 60 (1524) Leg-height Dimensions in. (mm) All Models F MCS028 MCM040 G 31-5/8 (803) 49-5/8 (1260) 61-5/8 (1565) 73-5/8 (1870) H 39-5/8 (1006) 57-5/8 (1464) 69-5/8 (1768) 81-5/8 (2073) G 35-7/8 (911) 53-7/8 (1368) 65-7/8 (1673) 77-7/8 (1978) H 43-5/8 (1108) 61-5/8 (1565) 73-5/8 (1870) 85-5/8 (2175) MCL055 18 (457) 36 (914) Source: DPN003436, Rev. 0 Liebert® MC™ User Manual 12 Site Preparation Figure 2-2 Condenser planning dimensional data—MCS056, MCM080, MCL110 575V Option 575V Option H TOP OF G FAN GUARD A* A F 2 Lee-Temp or DSE Receiver C Entering Hot Gas and Leaving Liquid Piping D A Anchor Plan Main Electric Box End Full height leg supplied for each Lee-Temp or DSE Receiver required M L K 15 1/4" 387mm Left Side of Unit 13/16" 21mm Typ. J Lee-Temp or DSE Only 3 3 6 1/2" 165mm 3 6 1/2" 165mm Ref. Ref. Dual Circuit Only 15 1/4" K 387mm Dual Circuit Only Front View (Lee-Temp Shown) 3 3 5/8" 93mm Typ. 7" 178mm Typ. Note: 1. Emerson recommends a clearance of 36” (915mm) on each side for proper operation and component access. 1 7/8" 48mm Typ. 1/2" (13mm) X 1" (25mm) Obround Typ. 2 Cross bracing required for legs longer than 18" (457mm). Quantity varies per model & options selected. 3 For DSE models only, 6-1/2" (165mm) dimension is 9-1/4" (235mm) and 15-1/4 (387mm) dimension is not applicable. DETAIL A Typical All Legs DPN00437 Rev. 2 Cabinet Dimensions in. (mm) J Liebert Model No. A A* (575V only) C MCS056 94-7/8 (2411) 103-1/8 (2619) 88-3/8 (2245) MCM080 105-1/4 2674) 113-7/16 (2882) 96-1/16 (2440) MCL110 124-1/8 (3152) 133-1/8 (3381) 112-1/8 (2848) Leg-height Dimensions in. (mm) D Lee-Temp or DSE Receivers Only L M 86-3/4 (2203) 42-1/2 (1079) 42-1/2 (1080) 40-7/8 (1038) 35-7/8 (910) 94-7/16 (2398) 45-5/19 (1177) 46 (1168) 44-3/8 (1127) 39-5/16 (999) 110-1/2 (2806) 54-3/8 (1381) 55-1/2 (1410) 53-7/8 (1368) 48-34 (1238) All Models F 18 (457) 36 (914) 48 (1219) 60 (1524) MCS056 MCM080 G 31-5/8 (803) 49-5/8 (1260) 61-5/8 (1565) 73-5/8 (1870) 81-5/8 (2073) MCL110 K H 39-5/8 (1006) 57-5/8 (1464) 69-5/8 (1768) G 35-7/8 (911) 53-7/8 (1368) 65-7/8 (1673) 77-7/8 (1978) H 43-5/8 (1108) 61-5/8 (1565) 73-5/8 (1870) 85-5/8 (2175) Source: DPN003437, Rev. 2 13 Liebert® MC™ User Manual Site Preparation Figure 2-3 Condenser planning dimensional data—MCL165 575V Option 575V Option B Lifting Eyebolts Typ. (4) Places H TOP OF FAN GUARD G A A* F 2 C E Lee-Temp or DSE Receiver Entering Hot Gas and Leaving Liquid Piping D 54 1/8" 1374mm Typ. A Main Electric Box End Full height Leg supplied for each Lee-Temp or DSE Receiver required Anchor Plan M L K J Lee Temp or DSE Only Left Side of Unit : 3 5/8" 93mm Typ. 13/16" 21mm Typ. Ref. K Front View (Lee-Temp shown) Note 1. Emerson recommends a clearance of 36” (915mm) on each side for proper operation and component access. 7" 178mm Typ. 2 Cross Bracing required for legs longer than 18" (457.2mm). quantity varies per model & options selected. 1 7/8" 48mm Typ. DETAIL A 3 6 1/2" 165mm 3 15 1/4" 387mm 3 For DSE models only, 6-1/2" (165mm) dimension is 9-1/4" (235mm) and 15-1/4 (387mm) dimension is not applicable. 1/2" (13mm) X 1" (25mm) Obround Typ. DPN003438 Rev. 2 Typical All Legs Dimensions in. (mm) Liebert Model No. MCL165 J A A* (57V only) B C D E 180-1/4 (4578) 189-1/4 (4807) 73-7/16 (1866) 168-1/4 (4274) 110-1/2 (2806) 56-1/8 (1425) Lee-Temp or DSE Receivers Only 54-3/8 (1381) K L M 55-1/2 (1410) 53-7/8 (1368) 48-3/4 (1238) Leg-height Dimensions in. (mm) MCL165 F 18 (457) 36 (914) 48 (1219) 60 (1524) G 35-7/8 (911) 53-7/8 (1368) 65-7/8 (1673) 77-7/8 (1978) H 43-5/8 (1108) 61-5/8 (1565) 73-5/8 (1870) 85-5/8 (2175) Source: DPN003438, Rev. 2 Liebert® MC™ User Manual 14 Site Preparation Figure 2-4 Condenser planning dimensional data—MCM160 and MCL220 575V Option B 575V Option Lifting Eyebolts Typ. (4) Places F 2 A* A G H TOP OF FAN GUARD Lee-Temp or DSE Receiver Entering Hot Gas and Leaving Liquid Piping C E D 54 3/16" 1376mm Typ. A Main Electric Box End Full height Leg supplied for each Lee-Temp or DSE Receiver required Anchor Plan J Lee-Temp or DSE Only Left Side of Unit 3 5/8" 93mm Typ. 13/16" 21mm Typ. M L K 3 6 1/2" 165mm Ref. 6 1/2" 165mm Ref. Dual Circuit Only 15 1/4" 387mm 3 3 15 1/4" 387mm Dual Circuit Only 3 K 1 7/8" 48mm Typ. Front View (Lee-Temp shown) Note: 1. Emerson recommends a clearance of 36” (915mm) on each side for proper operation and component access. 7" 178mm Typ. Cross bracing required for legs longer than 18" (457.2mm). 2 Quantity varies per model & options selected. 3 For DSE models only, 6-1/2" (165mm) dimension is 9-1/4" (235mm) and 15-1/4 (387mm) dimension is not applicable. 1/2" (13mm) X 1" (25mm) Obround Typ. DETAIL A DPN003439 Rev. 2 Typical all legs Cabinet Dimensions in. (mm) J Liebert Model No. MCM160 MCL220 A A* (575V only) B C D 202-7/16 (5142) 236-5/16 (6003) 210-5/8 (5350) 245-5/16 (6231) 113-1/2 (2883) 129-9/16 (3291) 192-1/4 (4883) 224-3/8 (5699) 94-7/16 (2398) 110-1/2 (2806) E Lee-Temp or DSE Receivers Only K 96-3/16 45-5/16 (1177) 46 (1168) (2444) 112-1/4 55-1/2 54-3/8 (1381) (2851) (1410) L M 44-3/8 (1127) 53-7/8 (1368) 39-5/16 (999) 48-3/4 (1238) Leg-height Dimensions in. (mm) All Models MCM160 MCL220 F 18 (457) 36 (914) 48 (1219) 60 (1524) G 31-5/8 (803) 49-5/8 (1260) 61-5/8 (1565) 73-5/8 (1870) H 39-5/8 (1006) 57-5/8 (1464) 69-5/8 (1768) 81-5/8 (2073) G 35-7/8 (911) 53-7/8 (1368) 65-7/8 (1673) 77-7/8 (1978) H 43-5/8 (1108) 61-5/8 (1565) 73-5/8 (1870) 85-5/8 (2175) Source: DPN003439, Rev. 2 15 Liebert® MC™ User Manual Site Preparation Figure 2-5 Liebert DSE receiver mounting—MCL165 and MCL220, single-circuit condenser, left-side condenser outlet receiver RECEIVER MOUNTING HOLES SINGLE CIRCUIT. DETAIL A A TRIM PIPING AS NEEDED RECEIVER LEG IS SAME HEIGHT AS OTHER LEGS AND NEEDS TO BE ANCHORED WITH THEM. 11 1/8" 282.6mm SMALL RECEIVER SHOWN. ACTUAL RECEIVER SIZE MAY VARY. 36" 914mm CLEARANCE REQUIRED FOR VIEWING SIGHT GLASS 64 3/4" 1645mm CROSS BRACING NOT SHOWN DPN002554 Pg. 1 Rev. 4 Liebert® MC™ User Manual 16 Site Preparation Figure 2-6 Liebert DSE receiver mounting—MCL165 and MCL220, single-circuit condenser, right-side condenser outlet receiver RECEIVER MOUNTING HOLES SINGLE CIRCUIT. TRIM PIPING AS NEEDED DETAIL B B RECEIVER LEG IS SAME HEIGHT AS OTHER LEGS AND NEEDS TO BE ANCHORED WITH THEM. 11 1/8" 282.6mm 64 3/4" 1645mm 36" 914mm CLEARANCE REQUIRED FOR VIEWING SIGHT GLASS SMALL RECEIVER SHOWN. ACTUAL RECEIVER SIZE MAY VARY. CROSS BRACING NOT SHOWN DPN002554 Pg. 2 Rev. 7 17 Liebert® MC™ User Manual Site Preparation Figure 2-7 Liebert DSE receiver mounting—MCL110 and MCL220, dual-circuit condenser C D CIRCUIT 2 CIRCUIT 1 TRIM PIPING AS NEEDED DETAIL C RECEIVER MOUNTING HOLES DUAL CIRCUIT (CIRCUIT 2 ONLY). TRIM PIPING AS NEEDED DETAIL D RECEIVER LEG IS SAME HEIGHT AS OTHER LEGS AND NEEDS TO BE ANCHORED WITH THEM. 11 1/8" 283mm 74 1/16" 1881mm 36" 914mm SMALL RECEIVER SHOWN. ACTUAL RECEIVER SIZE MAY VARY. TYP CLEARANCE REQUIRED FOR VIEWING SIGHT GLASS CROSS BRACING NOT SHOWN Liebert® MC™ User Manual DPN002554 Pg. 3 Rev. 7 18 Site Preparation Figure 2-8 Liebert DSE receiver mounting—MCM160 dual circuit condenser 11.13" 282.6mm 64.63" 1641.7mm 36.00" 914.4mm TYP CLEARANCE REQUIRED FOR VIEWING SIGHT GLASS. CROSS BRACING NOT SHOWN DPN002383 Rev. 7 19 Liebert® MC™ User Manual Site Preparation Page intentionally left blank. Liebert® MC™ User Manual 20 Inspection and Installation 3.0 Inspection and Installation SAFETY INFORMATION ! WARNING Risk of improper handling. Can cause equipment damage, injury or death. Read all of the following instructions before attempting to move, lift, remove packaging from or preparing unit for installation. ! WARNING Risk of heavy condenser falling or tipping over. Can cause property damage, serious injury or death. Confirm that all components of the lifting system are rated for the weight of the condenser by an OSHA Certified rating organization before attempting to lift and/or move the condenser. See Tables 2-1 through 2-4 for the condenser weights. ! CAUTION Risk of contact with sharp edges, splinters and exposed fasteners. Can cause personal injury. Only properly trained and qualified personnel wearing appropriate safety headgear, gloves, shoes and glasses should attempt to move, lift, remove packaging from or prepare unit for installation. NOTICE Risk of interference with building doorways, openings and passages. Can cause unit and/or building damage. Refer to the installation plans and measure the unit and building opening before moving the unit to verify clearances. NOTICE Risk of improper forklift handling. Can cause unit damage. Keep the forklift tines level and at a height that will fit under the skid. NOTICE Risk of improper storage. Can cause unit damage. Keep unit upright and protected from contact damage. 21 Liebert® MC™ User Manual Inspection and Installation 3.1 Equipment Inspection Upon arrival of the unit and before unpacking, verify that the labeled equipment matches the Bill of Lading. Carefully inspect all items for either visible or concealed damage. Damage should be immediately reported to the carrier and a damage claim filed with a copy sent to Liebert Corporation or to your sales representative. If you have the seismic mounting kit, refer to Liebert MC Seismic Application— Optional Unit Configuration 3.1.1 Packing Material All material used to package this unit is recyclable. Save it for future use or dispose of the material appropriately. Figure 3-1 Equipment recommended for handling a Liebert condenser Forklift Liebert® MC™ User Manual Lift Beam, Slings and Spreader Bars 22 Crane 308111 Pg. 1, Rev. 3 Inspection and Installation 3.2 Handling Unit on the Skid Transport unit using a fork lift or a crane with sling and spreader bars. NOTICE Risk of improper forklift handling. Can cause unit damage. Keep the forklift tines level and at a height that will fit under the skid. • If using a fork lift, make sure the forks (if adjustable) are spread to the widest allowable distance to still fit under the skid. • Type of fork lift used will be Dependant on the terrain the unit is be moved across during handling. • Minimum fork lift fork length for use on one-fan and two-an unit must be 48" (1219mm). • Minimum fork lift fork length for use on three-fan and four-fan unit must be 72" (1829mm). • When moving the packaged unit, do not lift it any higher than 6" (152mm). If the unit must be lifted higher than 6" (152mm), great care must be exercised and no one may be closer than 20' (6m) to the lift point. Figure 3-2 Forklift position with one-fan or two-fan condensers 308111 Pg. 1, Rev. 3 • When the Liebert MC is being moved with a forklift, Emerson recommends lifting one end off the ground no more than 6" (152mm)and using the forklift to push or pull the unit. • When the Liebert MC is lifted with a crane, Emerson recommends using slings rated for the unit weight. • Spreader bars must be used for sling stability and to keep the slings from pressing against the unit. Make sure spreader bars are wider than the unit. • Place the slings near the ends of the unit, under the top deck boards of the skid. 3.3 Unit Storage Store the condenser in the original packaging in an area protected from excessive dirt, debris and contact damage until final installation 23 Liebert® MC™ User Manual Inspection and Installation 3.4 Unpacking the Condenser—All Unit Sizes ! CAUTION Risk of contact with sharp edges, splinters and exposed fasteners. Can cause personal injury. Only properly trained and qualified personnel wearing appropriate safety headgear, gloves, shoes and glasses should attempt to move, lift, remove packaging from or prepare unit for installation. To unpack a condenser: 1. Remove the fence for domestic packaging (for export packaging, remove the crate). 2. Remove the exterior foam from around the unit and the electric box. 3. Remove the steel straps securing the unit to the skid. 4. Set the legs aside, but keep accessible if legs are shipped together with the unit. 5. Depending on the number of fans, more or less steel strap may be removed at this step. 6. Remove corrugated panels covering the Liebert MC’s coil(s). 7. Remove the bolts securing unit to the skid. 8. Remove the bolts securing the brackets to the unit and recycle the brackets. Liebert® MC™ User Manual 24 Inspection and Installation Figure 3-3 Removing protective material Step 1-Domestic Step 1 - Export Step 2 Steps 3 - 5 Step 6 Legs for Liebert MC Fasteners are in bag attached to the legs Step 7 - 8 Detail Area 25 308111 Rev. 3 Liebert® MC™ User Manual Inspection and Installation 3.5 Preparing a Condenser for Moving and Installation The following procedure is one method for removing a Liebert condenser from its shipping skid. Other methods may be used, provided that they are safe for personnel, the condenser and other equipment. 3.5.1 Attaching 18" (457mm) Legs, Removing the Skid and Attaching Slings 1. Attach legs to the unit at indicated locations, using the fasteners provided with the legs. Recommended tools for attachment is a 1/2” (13mm) socket and ratchet. More legs may be available for installation than are shown. This will depend on the unit type and number of fans. Units supplied with 36-60” (914-1524mm) legs go to 3.5.2 - Special Considerations for 36-60” (9141524mm) Legs Figure 3-4 Attaching legs to one-fan or two-fan condensers B 308111 Pg. 2, Rev. 3 Detail B Liebert® MC™ User Manual 26 Inspection and Installation 2. Place slings around the unit between the unit and the top deck boards of the skid: • One-fan and two-fan units: against the inside of the attached legs. • Three-fan and four-fan units: against the outside of the attached eye bolts. 3. Use spreader bars, a lift beam and a crane to lift the unit off the skid. Make sure spreader bars are wider than the unit. NOTICE Risk of improper lifting. Can cause equipment damage. Make sure that the spreader bars wider are than the unit. If the spreader bars are too short, the slings may crush the unit. Figure 3-5 Securing slings to condensers for lifting off skid Straps or chains go against eye bolts on three-fan and four-fan units Straps go against the legs on one-fan and two-fan units 308111 Pg. 3, Rev. 3 4. Lift the unit 24" (610mm) off the top deck of the skid. 5. Remove the skid from under the unit. 6. A mechanized method is recommended, but if one is not available, use a minimum of four properly protected individuals to rotate the elevated unit 90 degrees. Unit legs are to be pointing toward the ground. Figure 3-6 Remove skid, set condenser on floor 308111 Pg. 3, Rev. 3 27 Liebert® MC™ User Manual Inspection and Installation 7. Set the upright unit on the ground so the legs support unit weight. 8. Remove the straps from around unit. 9. One-fan and two-fan units: Route the straps through the large holes in the side of the legs. Spreader bars are still required. Make sure that the spreader bars are wider than the unit. On three-fan and four-fan units: Secure straps or chains to the eye bolts on top of the unit. Spreader bars are still required. Make sure that the spreader bars are wider than the unit. NOTICE Risk of improper lifting. Can cause equipment damage. Make sure that the spreader bars wider are than the unit. If the spreader bars are too short, the slings may crush the unit. The unit is ready to be lifted and moved to its installation location. Figure 3-7 Lifting condensers with one, two, three or four fans Spreader Bars (must be wider than the Liebert MC to prevent crushing force) Straps or chains go through eye bolts on three-fan and four-fan units Straps go through holes in legs on one-fan and two-fan units Liebert® MC™ User Manual 28 308111 Pg. 3, Rev. 3 Inspection and Installation 3.5.2 Special Considerations for 36-60” (914-1524mm) Legs Figure 3-8 Recommended bolt locations Recommended Bolt Location (4 Places) Detail C Secondary Bolt Location (4 Places) Cross-Bracing on Condensers Using Four Legs (example) Detail C 308111 Pg. 4, Rev. 3 1. Insert four leg bolts into the threaded holes near the corners along the long edges of the unit, leaving approximately 1/4” (6mm) of the fastener threads exposed (see Figure 3-8). These will serve as sling containment guides during condenser lifting and rotation. This will also permit leg attachment at the secondary bolt locations while using the slings to lift and support the condenser weight. 2. Assemble the leg structure according to the instructions supplied with the legs. NOTE When assembling the leg structure, DO NOT tighten the cross-brace hardware until the condenser cabinet is fastened to the legs. 3. Place slings around the first and second fan units against the inside of the inserted leg bolts. 4. Place slings around the third and fourth fan units against the outside of the attached eye bolts. 5. Slings are to be placed between the unit and the top deck boards of the skid. 6. Use spreader bars, lift beam and crane to lift the unit off the skid. Make sure spreader bars are wider than the unit. 29 Liebert® MC™ User Manual Inspection and Installation Figure 3-9 Remove bolts along the long edge of the unit Rotate Liebert MC 90 Degrees 308111 Pg. 4, Rev. 3 D Detail D 7. Lift the unit 24" (610mm) off the skid. Remove the skid from under the unit. 8. A mechanized method is recommended, but if one is not available, use a minimum of four properly protected people to rotate the elevated unit 90 degrees. The fans will be facing up. 9. Place the unit on the leg structure, resting the unit on its legs (see Figure 3-9). 10. Remove the bolts inserted in the long edges. If the secondary locations are used, the bolts must be removed just before setting the unit on its legs. 11. Align, insert and tighten all hardware securing the Liebert MC to the leg structure. 12. Square up the leg structure and tighten all cross-brace angle hardware. Liebert® MC™ User Manual 30 Inspection and Installation Figure 3-10 Lifting the unit for installation 308111 Pg. 4, Rev. 3 13. Lower the unit so the leg structure supports the weight of the unit. 14. Remove the straps from around the unit. 15. On one- and two-fan units, route the straps through the large holes on the side of the legs. Spreader bars are still required; they must be wider than the unit. 16. On three- and four-fan units, use the eye bolts on top of the unit to secure straps or chains. Spreader bars are still required. Make sure spreader bars are wider than the unit. The unit is now ready to be lifted into position for installation. 31 Liebert® MC™ User Manual Inspection and Installation 3.6 Mounting the Condenser The condenser must be installed so that it is level within 1/2” (13mm) to ensure proper refrigerant flow. For roof installation, mount the condenser on suitable curbs or other supports. Follow all local and national codes. 3.6.1 Standard Mounting Requirements Secure the legs to the mounting surface using field-supplied 3/8” (9.5mm) diameter Grade 5 bolts with a flat washer in each of the two 1/2” x 1" (12.7 x 25.4mm) obround holes in each leg. See Figures 2-1 through 2-4 for anchor dimensions. 3.6.2 Seismic-Certified and Wind-Certified Mounting Requirements Mounting requirement details such as anchor brand, type, embedment depth, edge spacing, anchor-to-anchor spacing, concrete strength, special inspection and attachment to non-building structures must be outlined and approved by the engineer of record for the project or building. Structural floors and housekeeping pads must also be designed and approved by the project or building structural engineer of record to withstand the seismic or wind anchor loads as defined on the installation drawings. The installing contractor is responsible for the proper installation of all anchors and mounting hardware, observing the mounting requirements detailed in the seismic or wind installation drawings and additionally outlined by the engineer of record. At a minimum, 3/8” Grade 5 anchors with American National Standard Series W, Type A, plain washers (ANSI B18.22.1-1965, R1975) selected to match the nominal anchor diameter must be installed at each anchor location between the anchor head and equipment for tension load distribution. See 10.0 - Liebert MC Seismic Application—Optional Unit Configuration for additional information. Liebert® MC™ User Manual 32 Electrical Connections 4.0 Electrical Connections Line voltage electrical service is required for all models. Refer to the equipment’s nameplate regarding wire size and circuit protection requirements. Electrical service must conform to national and local electrical codes. Refer to Figure 4-8 for electrical service entrances into unit. Refer to electrical schematic when making connections. A manual electrical disconnect switch should be installed in accordance with local codes. Consult local codes for external disconnect requirements. All internal wiring is completed at the factory. ! WARNING Risk of electrical shock. Can cause injury or death. The fan speed control and the EC fan electrical enclosures may contain a stored electrical charge. Open all local and remote electric power disconnect switches, wait 10 minutes and verify with a voltmeter that power is Off before working within the fan speed control and the EC fan electrical enclosures. The Liebert MC contains lethal voltage in some circuits. The line side of the disconnect remains energized when the condenser unit disconnect is switched to the Off position. Use a voltmeter to verify that the line-side electrical power is Off before making any electrical connections or performing any electrical and/or mechanical service and/or maintenance operations. ! WARNING Risk of contact with high-speed, rotating fan blades. Can cause serious injury or death. Fan blades can automatically start rotating without warning at any time during a cooling cycle or after power is restored after a power failure. Open all local and remote electric power supply disconnect switches and verify with a voltmeter that the power is Off and that the fan blades have stopped rotating before working within the cabinet or servicing fan motors. Each unit is shipped from the factory with all internal wiring completed. Refer to the electrical schematic supplied with the condenser when making line voltage supply, low-voltage indoor unit interlock and any low-voltage alarm connections. All wiring must be done in accordance with all applicable local, state and national electrical codes. NOTE Installation and service of this equipment should be done only by properly trained and qualified personnel who have been specially trained in the installation of air conditioning equipment. NOTE Use copper wiring only. Make sure that all connections are tightened to the proper torque mentioned on the component. 33 Liebert® MC™ User Manual Electrical Connections 4.1 Line Voltage Wiring ! WARNING Risk of electrical fire and short circuit. Can cause property damage, injury or death. Select and install the line side electrical supply wire and overcurrent protection device(s) according to the specifications on the unit nameplate(s), per the instructions in this manual and according to the applicable national, state and local code requirements. Use copper conductors only. Verify that all electrical connections are tight. Unit-specific wiring diagrams are provided on each unit. NOTE The Liebert MC Condenser is designed to operate with Wye-connected power with a solidly grounded neutral. It will not operate properly with Wye-connected power with high-resistance (or impedance) ground or with delta-connected power. Refer to 4.1.1 - Wye- vs. Delta-Connected Power Supply. Condenser-rated voltage should be verified with available power supply before installation. Refer to the unit’s electrical schematic and serial tag for specific electrical requirements. Liebert MC condenser power connections are provided for three-phase wires and 1 earth ground wire. Line voltage electrical service is required for all condensers at the location of the condenser. The voltage supply to the condenser may not be the same voltage supply as required by the indoor unit. Consider using a UPS on both data center cooling units and Liebert MC condensers to maintain uninterrupted cooling capability. Refer to the unit’s serial tag for specific condenser electrical requirements. A unit disconnect is standard. However, a site disconnect may be required by local code to isolate the unit for maintenance. Route the supply power to the site disconnect switch and then to the unit. Route the conduit to the knockout provided in the bottom right end of the electrical control enclosure. Connect the earth ground wire lead to the marked earth ground connection terminal provided near the factory-installed disconnect switch (see Figure 4-8). NOTE Liebert Lee-Temp™ kits require a separate line voltage electrical supply for the heated receivers. See Table 4-2 for power requirements. Liebert® MC™ User Manual 34 Electrical Connections Table 4-1 Electrical data, three-phase, 60Hz condenser, premium models Model Small Platform MCS028 MCS056 Voltage FLA WSA OPD 208/230V 380V 460V 575V 208/230V 380V 460V 575V 3.0 1.4 1.4 1.2 6.0 2.8 2.8 2.3 3.8 1.8 1.8 1.5 6.8 3.3 3.3 2.8 15 15 15 15 15 15 15 15 208/230V 380V 460V 575V 208/230V 380V 460V 575V 208/230V 380V 460V 575V 2.3 1.4 1.4 1.2 4.6 2.8 2.8 2.3 9.2 5.6 5.6 4.7 3.2 1.9 1.9 1.6 5.5 3.3 3.3 2.8 9.8 6.0 6.0 5.0 15 15 15 15 15 15 15 15 15 15 15 15 208/230V 380V 460V 575V 208/230V 380V 460V 575V 208/230V 380V 460V 575V 208/230V 380V 460V 575V 5.7 2.8 2.8 2.3 11.4 5.6 5.6 4.7 17.1 8.4 8.4 7.0 22.8 11.2 11.2 9.3 7.1 3.5 3.5 2.9 12.8 6.3 6.3 5.3 18.5 9.1 9.1 7.6 24.2 11.9 11.9 9.9 15 15 15 15 15 15 15 15 20 15 15 15 25 15 15 15 Medium Platform MCM040 MCM080 MCM160 Large Platform MCL055 MCL110 MCL165 MCL220 1. FLA = Full Load Amps; WSA = Wire Size Amps; OPD = Maximum Overcurrent Protection Device. 2. 208V–575V premium models must be connected to Wye three-phase systems. 3. Wye 3-phase systems with solidly grounded neutral. Refer to 4.1.1 - Wye- vs. Delta-Connected Power Supply. Table 4-2 Electrical data, Liebert Lee-Temp™ receiver, 60Hz Rated Voltage - Single-Phase Watts/Receiver Amps Wire Size Amps Maximum Overcurrent Protection Device, Amps 120 208/230 150 1.4 1.8 300 2.8 3.5 150 0.7 0.9 300 1.4 1.8 15 15 15 15 The Liebert Lee-Temp receiver requires a separate power feed for heaters. The condenser is not designed to supply power to the receiver heater pads. 35 Liebert® MC™ User Manual Electrical Connections 4.1.1 Wye- vs. Delta-Connected Power Supply Figure 4-1 Wye- vs. delta-connected power supply connection diagram Delta-Connected Power Diagram Wye-Connected Power Diagram Phase A Phase B Phase A Winding A-B Winding C-A Phase B Winding B-C Phase C Phase C Ground NOTICE Risk of improper input power. Can cause equipment damage. The Liebert MC Condenser is designed to operate with Wye-connected power with a solidly grounded neutral. It will not operate properly with Wye-connected power with high-resistance (or impedance) ground or with delta-connected power. Refer to 4.1.1 - Wye- vs. Delta-Connected Power Supply NOTE A separate neutral wire does not need to be run to the Liebert MC. 4.1.1.1 Acceptable Power Supplies—208V to 575V Nominal Units • 208V Wye with solidly grounded neutral and 120V line-to-ground • 380V Wye with solidly grounded neutral and 220V line-to-ground • 480V Wye with solidly grounded neutral and 277V line-to-ground • 575V Wye with solidly grounded neutral and 332V line-to-ground (uses step-down tranformers) 4.1.1.2 Unacceptable Power Supplies—208V to 575V Nominal Units • Wye with high-resistance (or impedance) ground • Delta without ground or with floating ground • Delta with corner ground • Delta with grounded center tap Liebert® MC™ User Manual 36 Electrical Connections 4.2 Low-voltage Control Wiring—CANbus Communication and Interlock Connections NOTICE Risk of control malfunction. Can cause improper unit operation. Verify that all low-voltage electrical wiring has been performed per the schematic diagram provided and that all low-voltage wiring connections are tight. CANbus communication and interlock wiring are required between the indoor and the outdoor units. CANbus cables are supplied by others to connect the indoor unit to the outdoor condenser. No special considerations are required when the total external cable connection between the indoor unit and outdoor unit is less than 450 ft. (137m). A CANbus isolator is required for total external cable connections longer than 450 ft. (137m) but less than 800 ft. (243m). CANbus Cable Requirements • conductors 22-18AWG stranded tinned copper • twisted pair (minimum four twists per foot) • braided shield or foil shield with drain wire • shield must always be wired to ground at the indoor unit • low capacitance (15pF/ft or less) • UL-approved temperature rated to 75°C • UL-approved voltage rated to 300V • UV-resistant and moisture-resistant if not run in conduit • plenum-rated NEC Type CMP, if required by national or local codes • Examples include: Belden 89207 (plenum-rated), or Alpha Wire 6454 Category 5, 5e or higher Interlock wiring is field-supplied wiring between Terminals 70 and 71 for single-circuit models and Terminal 230 also for dual-circuit models. Total interlock wire length must be less than 1000 ft. (305 m). Field-Supplied Interlock Wire • 18AWG or greater • rated 600V Notes on Electrical Connections • Do not run CANbus cable and interlock wires in same conduit, racewary or chase as high-voltage wiring. • No special considerations are required when the total external cable connection between the indoor unit and outdoor unit(s) is less than 450 ft. (137m). A CANbus isolator is required for total external cable connections greater than 450 ft. (137m) but less than 800 ft. (243m). • All wiring must be sized and selected for insulation case per NEC and other applicable codes. • Do not bend cables to less than four times the diameter of the cable. • Do not deform cables when securing in bundles or when hanging them. • Avoid running the cables by devices that may introduce noise, such as machines, fluorescent lights, and electronics. • Avoid stretching cables. • Keep CANbus cables at least 12 inches (305mm) from high-voltage sources, including wiring. 37 Liebert® MC™ User Manual Electrical Connections Figure 4-2 CANbus communication and interlock connections between a Liebert DSE, one premium Liebert MC and a Liebert EconoPhase FACTORY WIRING BETWEEN CONTROL BOARDS AND TERMINAL STRIP. ECONOPHASE CONTROL BOARD SINGLE CIRCUIT (FACTORY SET) ECONOPHASE CONTROL BOARD DUAL CIRCUIT (FACTORY SET) CIRCUIT ONE CIRCUIT ONE 1 1 J6 J6 4 3 3 ON ON CAN SW6 CAN SW6 CIRCUIT TWO 1 NO SHIELD CONNECTION CANbus ADDRESSING SWITCH J6 3 DETAIL 4 CAN CABLE CONNECT ION (B) ECONOPHASE UNIT ON CAN LAST DEVICE ON CANBUS (IF PRESENT) SW6 B P80 ONE CONDENSER TB50 D58 L CAN L 1 CAN H J6 H 1 J6 B CANBUS COMMUNICATION CABLE TB49 3 L ON ON 1 1 2 3 J4 3 INPUT 3 TB49 ONE CONDENSER WITH ECONOPHASE 1 OUTPUT 1 2 3 P15 A H TB50 B 3 CAN CAN SW6 SW6 BOOTPSWD SYS APP A 1 2 3 1 2 3 CANbus ADDRESSING SWITCH ON CAN SW6 DETAIL 3 CAN CABLE CONNECT ION (A) (B) 3 SHIELD CONNECTION B A FACTORY WIRING BETWEEN MC CONTROL BOARD AND TERMINAL STRIP. SH 70 71 230 F LOW VOLTAGE FIELD ENTRANCE LOCATED ON BOTTOM LEFT OF CONDENSER ENCLOSURE. CONDENSER J6 REMOVE JUMPER FOR DUAL CIRCUIT HEAT REJECTION F INTERLOCK WIRE HEAT REJECTION INTERLOCK (F) DETAIL 2 HEAT REJECTION INTERLOCK (F) 70 71 230 F SHIELD CONNECTION SH 49-1 49-3 COMMUNICATION A CANBUS CABLE 2 1 A DETAIL 1 CAN CABLE CONNECTION (A) FACTORY WIRING BETWEEN ICOM AND TERMINAL STRIP. INDOOR DSE UNIT DPN003284 Pg. 1 Rev. 1 CANbus Cable: A, B Interlock Wire: F See Section 4.2 for cable and wire requirements. Liebert® MC™ User Manual 38 Electrical Connections Figure 4-3 CANbus communications and interlock connections between a Liebert DSE, two Liebert MC condensers and a Liebert EconoPhase ECONOPHASE CONTROL BOARD DUAL CIRCUIT (FACTORY SET) ECONOPHASE CONTROL BOARD SINGLE CIRCUIT (FACTORY SET) CIRCUIT ONE CIRCUIT ONE 1 1 FACTORY WIRING BETWEEN CONTROL BOARDS AND TERMINAL STRIP. J6 J6 3 3 ON 4 ON CAN CAN SW6 SW6 CIRCUIT TWO 1 J6 3 NO SHIELD CONNECTION CANbus ADDRESSING SWITCH DETAIL 4 CAN CABLE CONNECTION (C) ECONOPHASE UNIT ON TWO CONDENSERS TWO CONDENSERS WITH ECONOPHASE CONDENSER 2 CONDENSER 2 1 1 J6 J6 CONDENSER 2 CAN SW6 CONDENSER 1 3 J6 A (CONDENSER 1) B (CONDENSER 2) DETAIL 3 CAN CABLE CONNECTION CONDENSER 1 (B) (A) CONDENSER 2 (C) (B) ON F 1 2 3 3 ON CAN SW6 HEAT REJECTION INTERLOCK WIRE CONDENSER 2 B SH SHIELD CONNECTION REMOVE JUMPER CONDENSER 1 A 1 2 3 J6 CAN SW6 SHIELD CONNECTION B CONDENSER 1 CANbus ADDRESSING SWITCH 3 3 (CONDENSER 1) B (CONDENSER 2) C J6 1 1 1 1 2 3 TB49 H CAN SW6 L TB49 ON ON CAN SW6 INPUT C CANBUS COMMUNICATION CABLE H CAN L TB50 ON CAN H L 1 2 3 3 3 TB50 OUTPUT LAST DEVICE ON CANBUS (IF PRESENT) CAN SW6 C 70 71 230 70 71 230 G G CONDENSER 1 SH 1 2 3 1 2 3 B G 3 HEAT REJECTION INTERLOCK F FACTORY WIRING BETWEEN iCOM AND TERMINAL STRIP SH 49-1 49-3 HEAT REJECTION INTERLOCK WIRE A CANBUS COMMUNICATION CABLE A 2 1 DETAIL 1 CAN CABLE CONNECTION (A) 70 71 230 F DETAIL 2 HEAT REJECTION INTERLOCK (F) INDOOR DSE UNIT DPN002361 Pg. 1 Rev. 8 CANbus Cable: A, B, C Interlock Wire: F, G See Section 4.2 for cable and wire requirements. 39 Liebert® MC™ User Manual Electrical Connections Figure 4-4 CANbus communications and interlock connections between a Liebert DS and Liebert MC condenser B P15 A CAN L TB50 CAN H D58 J6 L OUTPUT 1 2 3 1 TB50 1 H 3 J6 TERMINATION JUMPER MUST BE SET TO PINS 1 AND 2. TB49 J4 L 1 2 3 CANbus ADDRESSING SWITCH 1 1 2 3 3 TB49 INPUT CONDENSER H P80 ON 3 J6 CAN 1 2 3 3 SW6 BOOTPSWD SYS APP ON CAN SW6 DETAIL 3 CAN CABLE CONNECTION (A) A FACTORY WIRING BETWEEN MC CONTROL BOARD AND TERMINAL STRIP. SH F LOW VOLTAGE FIELD ENTRANCE LOCATED ON BOTTOM LEFT OF CONDENSER ENCLOSURE. SHIELD CONNECTION REMOVE JUMPER FOR DUAL CIRCUIT 70 71 230 F HEAT REJECTION INTERLOCK HEAT REJECTION INTERLOCK (F) A DETAIL 2 HEAT REJECTION INTERLOCK (F) CANbus CONNECTION 2 70 71 230 1 SHIELD CONNECTION F SH 49-1 49-3 A INDOOR DS UNIT DETAIL 1 CAN CABLE CONNECTION (A) FACTORY WIRING BETWEEN ICOM AND TERMINAL STRIP. CANbus Cable: A Interlock Wire: F See Section 4.2 for cable and wire requirements. Liebert® MC™ User Manual 40 DPN003267 Rev. 1 Electrical Connections Figure 4-5 CANbus communication and interlock connections between a Liebert CRV 600 mm (24 in.) and a Liebert MC premium condenser TB50 CAN H CAN L D58 CONDENSER J6 L 1 2 3 J6 TERMINATION JUMPER MUST BE SET TO PINS 1 AND 2. P15 A 1 TB50 OUTPUT B H P80 1 H 3 J4 TB49 1 2 3 L INPUT 3 TB49 1 ON 3 J6 CANbus ADDRESSING SWITCH CAN SW6 TB50 OUT P UT 1 2 3 CAN H CAN L TB49 INPUT 1 2 3 1 BOOTPSWDSYS APP ON CAN SW6 DETAIL1 CAN CABLE CONNECTION (A) SHIELD CONNECTION FACTORY WIRING BETWEEN MC CONTROL BOARD AND TERMINAL STRIP. SH A B LOW VOLTAGE FIELD ENTRANCE LOCATED ON BOTTOM LEFT OF CONDENSER ENCLOSURE. 70 71 230 B HEAT REJECTION INTERLOCK WIRE A CANBUS COMMUNICATION CABLE HEAT REJECTION INTERLOCK (B) P78 1 3 P78 TERMINATION JUMPER FACTORY SET TO PINS 2 AND 3, FIELD MUST REMOVE JUMPER AND REPLACE ON PINS 1 AND 2. SHIELDED CONNECTION PARTIAL VIEW SHOWN FOR CLARITY FACTORY WIRING BETWEEN ICOM & TERMINAL STRIP PARTIAL VIEW SHOWN FOR CLARITY DPN002841 Pg. 1 Rev. 4 CANbus Cable: A Interlock Wire: B See Section 4.2 for cable and wire requirements. 41 Liebert® MC™ User Manual Electrical Connections Figure 4-6 CANbus communications and interlock connection between Liebert CRV 300 mm (12 in.) and a Liebert MC premium condenser CAN L TB50 CAN H D58 J6 L 1 2 3 P15 A 1 OUTPUT B H P80 TB50 J6 TERMINATION JUMPER MUST BE SET TO PINS 1 AND 2. CONDENSER 1 H 3 TB49 J4 L CANbus ADDRESSING SWITCH 1 1 2 3 3 TB49 INPUT ON 3 J6 CAN SW6 1 2 3 1 2 3 1 BOOTPSWD SYS APP ON CAN SW6 DETAIL1 CAN CABLE CONNECTION (A) SHIELD CONNECTION A LOW VOLTAGE FIELD ENTRANCE LOCATED ON BOTTOM LEFT OF CONDENSER ENCLOSURE. A CANbus CABLE CONNECTION FACTORY WIRING BETWEEN MC CONTROL BOARD AND TERMINAL STRIP. SH B 70 71 230 B HEAT REJECTION INTERLOCK HEAT REJECTION INTERLOCK (B) CRV300 INDOOR UNIT SHIELD CONNECTION PARTIAL VIEW SHOWN FOR CLARITY P78 1 3 P78 TERMINATION JUMPER FACTORY SET TO PINS 2 AND 3, FIELD MUST REMOVE JUMPER AND REPLACE ON PINS 1 AND 2. FACTORY WIRING BETWEEN ICOM AND TERMINAL STRIP. CANbus Cable: A Interlock Wire: B See Section 4.2 for cable and wire requirements. Liebert® MC™ User Manual 42 DPN003036 Rev. 2 Electrical Connections Figure 4-7 CANbus communication and interlock connection between Liebert PDX™ and a Liebert MC premium condenser CAN L TB50 CAN H D58 J6 L 1 2 3 P15 A 1 OUTPUT B H P80 TB50 J6 TERMINATION JUMPER MUST BE SET TO PINS 1 AND 2. CONDENSER 1 H 3 J4 TB49 1 2 3 CANbus ADDRESSING SWITCH L INPUT 3 TB49 1 ON 3 J6 CAN SW6 1 1 2 3 1 2 3 BOOTPSWD SYS APP ON CAN SW6 DETAIL1 CAN CABLE CONNECTION (A) SHIELD CONNECTION A LOW VOLTAGE FIELD ENTRANCE LOCATED ON BOTTOM LEFT OF CONDENSER ENCLOSURE. FACTORY WIRING BETWEEN MC CONTROL BOARD AND TERMINAL STRIP. SH B A B HEAT REJECTION INTERLOCK WIRE CANbus CABLE CONNECTION 70 71 230 HEAT REJECTION INTERLOCK (B) INDOOR UNIT 58 58 59 49-3 82 SH 83 37-C 88 38-C 89 87-B 75 88-B 76 38 95 24 24 96 50 50 97 51 51 91 55 55 92 56 56 93 70 70 80 71 71 81 94 49-1 38 94 88-B 76 87-B 75 38-C 89 37-C 88 SH 83 49-3 82 49-1 59 95 96 97 91 92 93 80 81 PARTIAL VIEW SHOWN FOR CLARITY DPN003266 Pg. 1 Rev. 1 CANbus Cable: A Interlock Wire: B See Section 4.2 for cable and wire requirements. 43 Liebert® MC™ User Manual Electrical Connections 4.2.1 Electrical Field Connection Descriptions Figure 4-8 Typical connections, Premium Efficiency Control FAN2 Lee-Temp receiver tank (1 per circuit). FAN1 NOTE: Heater pad voltage available for FAN 2 120V/1 phase/60 Hz or 230V/1 phase/60Hz 150 or 300 Watt, varies by condenser. Electrical connection box with cover. (Cover removed for clarity.) FAN 1 Electrical service connection. Pigtails in electric handy box are factory wired to Lee-Temp heater pads for field connection of separate continuous electric source, wire not by Liebert. 8 10 SH 12 9 13 70 71 230 DPN002169 Rev. 7 4.2.1.1 DPN002374 Rev. 6 Key Electrical Details—Typical Connections, Premium Efficiency Control Source: DPN002169, Rev. 7 and DPN002374, Rev. 6. The following numbered items correspond to the callouts in Figure 4-8. 1. Three-Phase Electrical Service—Terminals are on the top of the disconnect switch for one-fan and two-fan units. Terminals are on the bottom of the disconnect switch for three-fan and four-fan units. Three-phase service not by Emerson. See NOTICE on page 37. 2. Earth Ground—Field lug terminal for earth ground connection. Ground terminal strip for fan motor ground connection. Liebert® MC™ User Manual 44 Electrical Connections 3. Primary High-Voltage Entrance—Two knockouts, each 7/8” (22.2mm) diameter, located at the bottom of the enclosure. 4. SPD Field Connection Terminals—High-voltage surge protective device (SPD) terminals. SPD is an optional device. 5. CANbus Terminal Connections—Field terminals for CANbus cable connection. • 5A is the CANbus connectors • TB49-1 is the input terminal for CANbus high. • TB49-3 is the input terminal for CANbus low. • TB50-1 is the output terminal for CANbus high. • TB50-3 is the output terminal for CANbus low. • Each CANbus cable shield is connected to terminal “SH;” see 9 below. • 5B is the “END OF LINE” jumper. • 5C is the CANbus “DEVICE ADDRESS DIP SWITCH.” CANbus cable not by Emerson. See requirements in Notes on Electrical Connections on page 37. 6. Remote Unit Shutdown—Replace exiting jumper between Terminals TB38-1 and TB38-2 with fieldsupplied, normally closed switch having a minimum 75VA, 24VAC rating. Use field-supplied Class 1 wiring. (This is an optional feature.) 7. Alarm Terminal Connections a. Common Alarm Relay indicates when any type of alarm occurs. TB74-1 is common; TB74-2 is normally open; and TB74-3 is normally closed. 1A 24VAC is the maximum load. Use field-supplied Class 1 wiring. b. Shutdown Alarm Relay indicates when condenser loses power or when a critical alarm has occurred that shuts down the condenser unit. TB74-4 is common; TB74-5 is normally open; and TB74-6 is normally closed. 1 Amp 24VAC is the maximum load. Use field-supplied Class 1 wiring. 8. Indoor Unit Interlock and SPD Alarm Terminals a. On any call for compressor operation, normally open contact is closed across Terminals 70 and 71 for Circuit 1 and normally open contact is closed across Terminals 70 and 230 for Circuit 2 from indoor unit. b. During SPD alarm, normally open contact is closed across Terminals 12 and 13. (SPD is an optional device.) 9. CANbus Shield Terminal—Terminal for field shield connection of the CANbus field-supplied cables. The shield of CANbus field-supplied cables must not be connected to ground at the condenser. 10. Primary Low-Voltage Entrance—One knockout, 7/8” (22.2mm) diameter, that is free for customer low-voltage wiring. 11. SPD entrance—One knockout, 7/8” (22.2mm) diameter at the bottom of the enclosure. (High-voltage surge protective device is optional.) 45 Liebert® MC™ User Manual Electrical Connections Page intentionally left blank. Liebert® MC™ User Manual 46 Piping 5.0 Piping ! WARNING Risk of explosive discharge from high-pressure refrigerant. Can cause equipment damage, injury or death. Relieve pressure before working with or cutting into piping. ! WARNING Risk of refrigerant system rupture or explosion from overpressurization. Can cause equipment damage, injury or death. Local building and plumbing codes may require that a fusible plug or other type of pressure relief device be installed in the system. Do not install a shutoff valve between the compressor and the field-installed relief device. Consult local building and plumbing codes for installation requirements of additional pressure relief devices when isolation valves are installed as shown in Figure 5-1. Do not isolate any refrigerant circuits from over-pressurization protection. NOTE POE (polyol ester) oil, required with R-407C/R-410A and used with some R-22 systems, is much more hygroscopic than mineral oils. This means that POE oil absorbs water at a much faster rate when exposed to air than previously used mineral oils. Because water is the enemy of a reliable refrigeration system, extreme care must be used when opening systems during installation or service. If water is absorbed into the POE oil, it will not be easily removed and will not be removed through the normal evacuation process. If the oil is too wet, it may require an oil change. POE oils also have a property that makes them act as a solvent in a refrigeration system. Maintaining system cleanliness is extremely important because the oil will tend to bring any foreign matter back to the compressor or plug the microchannel coil. Always use a flow of dry nitrogen when brazing. 5.1 Piping Guidelines Indoor units and condensers both ship with holding charges of inert gas. Do not vent the condenser until all refrigerant piping is in place, ready for connection to indoor unit and condenser. • Use copper piping with a brazing alloy with a minimum temperature of 1350°F (732°C), such as SilFos. Avoid soft solders such as 50/50 or 95/5. • Use a flow of dry nitrogen through the piping during brazing to prevent formation of copper oxide scale inside the piping. When copper is heated in the presence of air, copper oxide forms. POE oil will dissolve these oxides from inside the copper pipes and deposit them throughout the system, clogging filter driers and affecting other system components. • A pure dry nitrogen flow of 1-3 ft3/min (0.5-1.5 l/s) inside the pipe during brazing is sufficient to displace the air. Control the flow using a suitable metering device. • Ensure that the tubing surfaces to be brazed are clean and that the ends of the tubes have been carefully reamed to remove any burrs. • Ensure that all loose material has been cleaned from inside the tubing before brazing. • Protect all refrigerant line components within 18" (460mm) of the brazing site by wrapping them with wet cloth or suitable heat sink compound. • Isolate piping from building using vibration isolating supports. • Refer to the indoor unit’s user manual for appropriate piping sizes. • Install traps on the hot gas (discharge) lines at the bottom of any rise over 5 feet high. If the rise exceeds 25 feet (7.5m), then install a trap in 20 foot (6m) increments or evenly divided. 47 Liebert® MC™ User Manual Piping • Pitch horizontal hot gas piping down at a minimum rate of 1/2” per 10 ft. (42mm per 10m) so that gravity will aid in moving oil in the direction of refrigerant/oil flow. • Consult factory if Liebert Lee-Temp™ condenser is below the evaporator or if a condenser not equipped with Liebert Lee-Temp is more than 15 ft (4.6m) below the evaporator. • Consult factory if piping run exceeds 150 feet (46m) equivalent length on traditional R-407C DX units. • Consult factory if piping run exceeds 300 feet (91m) equivalent length on traditional R-410A DX units. • Consult factory if piping run exceeds 300 feet (91m) actual length or 450 feet (137m) equivalent length on units installed with Liebert EconoPhase units. • Keep piping clean and dry, especially on units with POE oil (R-407C, R-410A or R-22 refrigerant). • Avoid piping runs through noise-sensitive areas. • Do not run piping directly in front of indoor unit discharge air stream. • Refrigerant oil – do not mix oil types or viscosities. Consult indoor unit for refrigerant type and oil requirements. NOTE Failure to use compressor oils recommended by compressor manufacturer will void compressor warranty. Consult Emerson or the compressor manufacturer for further recommendations or if you have questions about compressor oils. Refer to ASHRAE Refrigeration Handbook for general good practices for refrigeration piping. The Liebert indoor cooling unit has a factory-installed high-pressure safety switch in the high side refrigerant circuit. A pressure relief valve is provided with Liebert Lee-Temp™ receivers. A fusible plug is factory installed in the Liebert DSE™ receivers. Consult local building codes to determine if condensers without receivers will require field-provided pressure relief devices. A fusible plug kit is available for field installation. Liebert® MC™ User Manual 48 Piping Figure 5-1 Piping schematic—DX systems Check Valve Relief Valve Service Valve LIQUID RETURN Head Pressure Control Valve LEE-TEMP RECEIVER Check Valve CONDENSER COIL CONDENSER COIL (Includes factory provided inverted trap. No external trap required) (Includes factory provided inverted trap. No external trap required) OPTIONAL FIELD INSTALLED FUSIBLE PLUG HOT GAS DISCHARGE LEE-TEMP LIQUID Sensing Bulb EVAPORATOR COIL 3 SUCTION Service Valve Check Valve COMPRESSOR Service Valve For rises over 25ft. (7.6m), trap every 20ft. (6m) or evenly divided Field installed relief valve(s) required for 50Hz EU CE units. External Equalizer 3 4 Expansion Solenoid Valve Valve Sight Glass HOT GAS DISCHARGE LIQUID LINE Filter Drier 3 3 REFRIGERANT PIPING FIELD PIPING Isolation Valve SERVICE/SCHRADER (ACCESS) CONNECTION NO VALVE CORE Isolation Valve Trap at base of risers over 5ft. (1.5m) SERVICE/SCHRADER (ACCESS) CONNECTION WITH VALVE CORE Notes: 1. Single refirigeration circuit shown for clarity. 2. Schematic representation shown. Do not use for specific connection locations. 3. Components are not supplied by Liebert, but are required for proper operation and maintenance. Traps must be installed and horizontal lines pitched to ensure proper oil return and to reduce liquid floodback to compressor. 4. Pitch horizontal hot gas piping at a minimum of 1/2" per 10 feet (42mm per 10m) so that gravity will aid in moving oil in the direction of the refrigeration flow. 49 DPN002188 Rev. 4 Liebert® MC™ User Manual Piping Figure 5-2 Piping schematic—CRV 600 mm (24 in.) DX systems LIEBERT MC CONDENSER WITH LEE-TEMP RECEIVER LIEBERT MC CONDENSER Pressure Transducer Head Pressure Control Valve Optional Field Installed Fusible Plug Pressure Transducer Liquid Condenser Coil Includes factory provided inverted trap. No external trap required. Condenser Coil Liquid Includes factory provided inverted trap. No external trap required. Hot Gas Discharge Relief Valve Service Valve Check Valve Lee-Temp Receiver Liquid Return Hot Gas Discharge Liebert CRV Unit and associated Piping Filter Drier Sight Glass Expansion Valve Solenoid Valve Distributor Evaporator Coil Sensing Bulb External Equalizer Service Valve CR020 Digital Solenoid Valve * For rises over 25ft (7.6m), trap every 20ft (6m) or evenly divided. High Pressure Transducer Vibration Absorber High Pressure Cut Out Suction Line Low Pressure Transducer CR035 Digital Solenoid Valve Digital Scroll Compressor Service Valve *Isolation Valve Hot Gas Discharge Check Valve Vibration Absorber Isolation Valve *Isolation Valve Liquid Return FACTORY REFRIGERANT PIPING FIELD PIPING SERVICE / SCHRADER (ACCESS) CONNECTION NO VALVE CORE SERVICE / SCHRADER (ACCESS) CONNECTION WITH VALVE CORE NOTES: 1. SCHEMATIC REPRESENTATION SHOWN. DO NOT USE FOR SPECIFIC CONNECTION LOCATIONS. 2. ONE OR MORE ADDITIONAL PRESSURE RELIEF VALVES ARE REQUIRED DOWNSTREAM OF ANY AND ALL FIELD-INSTALLED ISOLATION. DO NOT ISOLATE ANY REFRIGERANT CIRCUITS FROM OVERPRESSURIZATION PROTECTION. Liebert® MC™ User Manual 50 * Components are not supplied by Liebert but are recommended for proper circuit operation and maintenance. Should be located near the indoor Liebert CRV unit. DPN002858 Rev. 1 Piping Figure 5-3 Piping schematic—CRV300 mm (12 in.) DX systems LIEBERT MC CONDENSER WITH LEE-TEMP RECEIVER LIEBERT MC CONDENSER Optional Field Installed Fusible Plug Pressure Transducer Condenser Coil Includes factory provided inverted trap. No external trap required. Pressure Transducer Liquid Head Pressure Control Valve Condenser Coil Liquid Includes factory provided inverted trap. No external trap required. Hot Gas Discharge Check Valve Relief Valve Service Valve Lee-Temp Receiver Liquid Return Hot Gas Discharge LIEBERT CRV UNIT AND ASSOCIATED PIPING Filter Drier Solenoid Valve Sight Glass Expansion Valve Distributor Evaporator Coil Sensing Bulb External Equalizer CR019 Digital Solenoid Valve High Pressure Transducer * For rises over 25ft (7.6m), trap every 20ft (6m) or evenly divided. Low Pressure Transducer Suction Line Digital Scroll Compressor Check Valve Hot Gas Discharge *Isolation Valve *Isolation Valve Liquid Return FACTORY REFRIGERANT PIPING FIELD PIPING SERVICE / SCHRADER (ACCESS) CONNECTION WITH VALVE CORE NOTES: 1. SCHEMATIC REPRESENTATION SHOWN. DO NOT USE FOR SPECIFIC CONNECTION LOCATIONS. 2. ONE OR MORE ADDITIONAL PRESSURE RELIEF VALVES ARE REQUIRED DOWNSTREAM OF ANY AND ALL FIELD-INSTALLED ISOLATION. DO NOT ISOLATE ANY REFRIGERANT CIRCUITS FROM OVERPRESSURIZATION PROTECTION. 3. REFER TO OUTDOOR CONDENSER DOCUMENTS ABOVE FOR PROPER TRAP PLACEMENT. 51 * Components are not supplied by Liebert but are required for proper circuit operat ion and maintenance. Isolation valves should be located near the indoor Liebert CRV unit. DPN002808 Rev. 3 Liebert® MC™ User Manual Piping Figure 5-4 Piping schematic—DS DX systems Check Valve Relief Valve Service Valve LIQUID RETURN Head Pressure Control Valve LEE-TEMP RECEIVER Check Valve CONDENSER COIL CONDENSER COIL (Includes factory provided inverted trap. No external trap required) (Includes factory provided inverted trap. No external trap required) OPTIONAL FIELD INSTALLED FUSIBLE PLUG HOT GAS DISCHARGE LEE-TEMP LIQUID Sensing Bulb 28-42kW digital Solenoid Valve 53-70kW digital Solenoid Valve Service Valve Check Valve COMPRESSOR EVAPORATOR COIL 3 SUCTION Service Valve For rises over 25ft. (7.6m), trap every 20ft. (6m) or evenly divided Field installed relief valve(s) required for 50Hz EU CE units. External Equalizer 3 5 Muffler 4 Expansion Solenoid Sight Valve Glass Valve OPTIONAL FACTORY PIPING HOT GAS DISCHARGE LIQUID LINE Filter Drier 3 3 REFRIGERANT PIPING FIELD PIPING Isolation Valve SERVICE/SCHRADER (ACCESS) CONNECTION NO VALVE CORE Isolation Valve Trap at base of risers over 5ft. (1.5m) SERVICE/SCHRADER (ACCESS) CONNECTION WITH VALVE CORE Notes: 1. Single refirigeration circuit shown for clarity. 2. Schematic representation shown. Do not use for specific connection locations. 3. Components are not supplied by Liebert, but are required for proper operation and maintenance. Traps must be installed and horizontal lines pitched to ensure proper oil return and to reduce liquid floodback to compressor. 4. Pitch horizontal hot gas piping at a minimum of 1/2" per 10 feet (42mm per 10m) so that gravity will aid in moving oil in the direction of the refrigeration flow. 5. Component supplied by Liebert and must be field installed on units with semi-hermetic compressors (70kW, 77kW, & 105kW models only). Liebert® MC™ User Manual 52 DPN003730 Rev. 0 Piping Figure 5-5 Piping schematic—Liebert DSE™, air-cooled DA050, DA080 and DA085 models Differential Check Valve 1-3/8" Liquid from Condenser see note 2. LIEBERT MC CONDENSER Optional "EconoPhase" UNIT Check Valve LIEBERT DSE RECEIVER 7/8" Liquid to Indoor Unit see note 2. Solenoid Valve Ball Valve HOT GAS DISCHARGE Ball Valve 1-1/8" Hot Gas Discharge from Indoor Unit see note 2. Includes Factory traps. No external trap required. DA050, DA080, & DA085 Differential Check Valve LIQUID EVAPORATOR COIL Service Valve For rises over 25ft. (7.6m), trap every 20ft. (6m) or evenly divided* SUCTION Check Valve Field installed relief valves required for 50Hz EU CE units rated maximum 650 PSIG (45 bar) Trap at base of risers over 5ft. (1.5m)* *Full Ported Ball Valve See note 4. Service Valve Check Valve HOT GAS DISCHARGE see note 2. LIQUID RETURN Electronic Expansion see note 2. Valve REFRIGERANT PIPING FIELD PIPING SERVICE/SCHRADER (ACCESS) CONNECTION, NO VALVE CORE. *Full Ported Ball Valve See note 4. Differential Check Valve (Required) SERVICE/SCHRADER (ACCESS) CONNECTION, WITH VALVE CORE. 1. Two refrigeration circuits provided on DA080 & DA085. Single refrigeration circuit provided on DA050. Single refrigeration circuit shown for clarity. * Components are not supplied by 2. Circuit 1 must be maintained between indoor unit, condenser and EconoPhase unit. Liebert but are required for Circuit 2 must be maintained between indoor unit, condenser and EconoPhase unit. proper circuit operation and 3. Schematic representation shown. Do not use for specific connection locations. 4. Port in ball must be the same diameter as the piping I.D. maintenance. 5. Length of piping between condenser and indoor unit shall be no greater than 300 ft (91.4 m) [Maximum equivalent length of 450 ft (137.2 m)]. 6. Vertical height of condenser above indoor unit shall be no greater than 60ft (18.3m). 7. All indoor and outdoor field refrigerant piping must be insulated, 1/2" minimum thickness. All outdoor insulation must be UV and ozone resistant. 53 DPN002615 Rev. 5 Liebert® MC™ User Manual Piping Figure 5-6 Piping schematic—Liebert DSE™, air-cooled DA125, DA150 and DA165 models Differential Check Valve Check Valve 1-3/8" Liquid from Condenser see note 2. LIEBERT MC CONDENSER Differential Check Valve Optional "EconoPhase" UNIT DA125 - 7/8" DA150/165 - 7/8" or 1-1/8" Liquid to Indoor Unit (Depending on length of line) see note 2. LIEBERT DSE RECEIVER Ball Valve Solenoid Ball Valve Valve HOT GAS DISCHARGE 1-3/8" Hot Gas Discharge from Indoor Unit see note 2. Includes Factory traps. No external trap required. DA125 & DA150 LIQUID EVAPORATOR COIL Service Valve For rises over 25ft. (7.6m), trap every 20ft. (6m) or evenly divided* SUCTION Field installed relief valves required for 50Hz EU CE units rated maximum 650 PSIG (45 bar) Check Valve Trap at base of risers over 5ft. (1.5m)* *Full Ported Ball Valve See note 4. Service Valve Check Valve HOT GAS DISCHARGE see note 2. LIQUID RETURN see note 2. Electronic Expansion Valve REFRIGERANT PIPING FIELD PIPING SERVICE/SCHRADER (ACCESS) CONNECTION, NO VALVE CORE. SERVICE/SCHRADER (ACCESS) CONNECTION, WITH VALVE CORE. 1. Two refrigeration circuits provided. Single refrigeration circuit shown for clarity. 2. Circuit 1 must be maintained between indoor unit, condenser and EconoPhase unit. Circuit 2 must be maintained between indoor unit, condenser and EconoPhase unit. 3. Schematic representation shown. Do not use for specific connection locations. 4. Port in ball must be the same diameter as the piping I.D. 5. Length of piping between condenser and indoor unit shall be no greater than 300 ft (91.4 m) [Maximum equivalent length of 450 ft (137.2 m)]. 6. Vertical height of condenser above indoor unit shall be no greater than 60ft (18.3m). 7. All indoor and outdoor field refrigerant piping must be insulated, 1/2" minimum thickness. All outdoor insulation must be UV and ozone resistant. Liebert® MC™ User Manual 54 *Full Ported Ball Valve See note 4. Differential Check Valve (Required) * Components are not supplied by Liebert but are required for proper circuit operation and maintenance. DPN002340 Rev. 8 Piping 5.2 Field Piping Guidelines One discharge line and one liquid line must be field-installed for each circuit of the indoor unit and the outdoor condenser(s). Dual circuit condensers are available for most dual circuit indoor unit applications. Refer to Figures 5-1 through 5-8 for additional field-installed piping needed at the condenser. This piping is needed for proper system performance and for installation/interconnecting receivers and head pressure control valves for Liebert Lee-Temp™ systems. NOTE Keep the evaporator unit and condenser closed with their factory charge of inert gas while all field piping is installed. Keep the field piping clean and dry during installation, and do not allow it to stand open to the atmosphere. When all the field interconnecting piping is in place, vent the condenser’s inert gas charge and connect to the field piping. Finally, vent the evaporator unit’s charge of inert gas and make its piping connection last. Follow all proper brazing practices, including a dry nitrogen purge to maintain system cleanliness. The condenser connection pipes must be wrapped with a wet cloth to keep the pressure and temperature sensors cool during any brazing. 55 Liebert® MC™ User Manual Piping 5.2.1 Field Piping Guidelines for a Liebert DX System and Liebert MC Condenser Figure 5-7 Liebert MC Condenser piping—Single-circuit, 1-, 2-, 3- and 4-fan units COVER* LEAVING LIQUID LINE INVERTED TRAPS ARE FACTORY PROVIDED INSIDE CONDENSER ENTERING HOT GAS LINE FIELD PIPING VERTICAL OPTIONAL FUSIBLE PLUG SERVICE KIT TO BE BRAZED INTO THE LIQUID LINE(S) IN EITHER THE VERTICAL OR HORIZONTAL POSITION. (WHERE REQUIRED) HORIZONTAL HORIZONTAL DETAIL A (VERTICAL POSITION IS PREFERRED, HORIZONTAL POSITION IS OPTIONAL.) VERTICAL LEAVING LIQUID LINE MCS028 ONLY ENTERING HOT GAS LINE * SHIPPING COVER IS NOT NECESSARY FOR PROPER CONDENSER OPERATION AND MAY BE RECYCLED IF FIELD PIPING INTERFERES WITH PROPER REATTACHMENT. Table 5-1 DPN002166 Rev. 3 Liebert MC Condenser piping sizes—Single-circuit units Model No. Number of Fans Condenser Circuits Connection Sizes, OD, in (mm) Hot Gas Line Liquid Line MCS028 1 1 7/8 5/8 MCM040 1 1 7/8 5/8 MCM080 2 1 1-1/8 7/8 MCL055 1 1 1-1/8 7/8 MCL110 2 1 1-3/8 1-1/8 MCL165 3 1 1-3/8 1-1/8 MCL220 4 1 1-5/8 1-3/8 Source: DPN002166, Rev. 3 Liebert® MC™ User Manual 56 Piping Figure 5-8 Condenser piping for single-circuit condensers (with Liebert Lee-Temp™) HOT GAS LINE TO CONDENSER ENTERING HOT GAS LINE COVER * B VIEW METAL CLAMP POSITION ELBOW TO DIRECT RELIEF VALVE DOWNWARD ISOLATOR FASTEN HOT GAS LINE TO CABINET USING FLAT SURFACE CLAMPS WITH ISOLATORS(FIELD SUPPLIED) SEE DETAIL A-A B VIEW DETAIL A FIELD PIPING LIQUID LINE FROM CONDENSER LEAVING LIQUID LINE GENERAL ARRANGEMENT LIEBERT SUPPLIED PIPING ASSEMBLY WILL INCLUDE 1 TO 3 HEAD PRESSURE VALVES AND CHECK VALVES DEPENDENT ON CONDENSER CAPACITY AND REFRIGERANT. NOTE: 1.THE FOLLOWING MATERIALS ARE SUPPLIED BY LIEBERT,SHIPPED LOOSE FOR EACH CIRCUIT AND FOR FIELD INSTALLATION: INSULATED LEE-TEMP RECEIVER TANK WITH ELECTRIC HEATER PADS AND SIGHT GLASSES, PIPING ASSEMBLY WITH HEAD PRESSURE CONTROL VALVE AND CHECK VALVE, ROTO-LOCK VALVE AND PRESSURE RELIEF VALVE. ALL OTHER PIPING AND ELECTRICAL WIRING TO BE SUPPLIED AND INSTALLED BY OTHERS. ADDITIONAL CONDENSER LEG PER CIRCUIT WHEN REQUIRED, SHIPS WITH THE CONDENSER. * SHIPPING COVER IS NOT NECESSARY FOR PROPER CONDENSER OPERATION AND MAY BE RECYCLED IF FIELD PIPING INTERFERES WITH PROPER REATTACHMENT. Table 5-2 DPN002167 Rev. 6 Condenser piping connection sizes—Single-circuit condensers with Liebert Lee-Temp Condenser Connections, OD, In Liebert Lee-Temp Connections Model # Hot Gas Liquid Hot Gas Tee IDS, In. MCS028 7/8 5/8 7/8 Liquid Line to Liebert Lee-Temp Valve, ODS, In. Receiver Out Rotalock, IDS, In. 5/8 5/8 MCM040 7/8 5/8 7/8 5/8 5/8 MCM080 1-1/8 7/8 1-1/8 7/8 1-1/8 MCL055 1-1/8 7/8 1-1/8 7/8 7/8 MCL110 1-3/8 1-1/8 1-3/8 1-1/8 1-1/8 MCL165 1-3/8 1-1/8 1-3/8 1-1/8 1-1/8 MCL220 1-5/8 1-3/8 1-5/8 1-3/8 1-3/8 Source: DPN002167, Rev. 6 57 Liebert® MC™ User Manual Piping Figure 5-9 Piping: dimensions—Dual circuit two-fan and four-fan units COVER * VERTICAL INVERTED TRAPS ARE FACTORY PROVIDED INSIDE CONDENSER FIELD PIPING LEAVING LIQUID LINE HORIZONTAL ENTERING HOT GAS LINE DETAIL A CIRCUIT #1 CIRCUIT #2 OPTIONAL FUSIBLE PLUG SERVICE KIT TO BE BRAZED INTO THE LIQUID LINE(S) IN EITHER THE VERTICAL OR HORIZONTAL POSITION (WHERE REQUIRED). (VERTICAL POSITION IS PREFERRED, HORIZONTAL POSITION IS OPTIONAL.) FOR TWO CIRCUIT SYSTEMS, ONE FUSIBLE PLUG KIT WILL NEED TO BE INSTALLED IN EACH CIRCUIT. A * SHIPPING COVER IS NOT NECESSARY FOR PROPER CONDENSER OPERATION AND MAY BE RECYCLED IF FIELD PIPING INTERFERES WITH PROPER REATTACHMENT. Table 5-3 Piping: dimensions—Dual-circuit, two-fan and four-fan units Model # Condenser Circuits Hot Gas Line MCS056 2 2 7/8 5/8 MCM080 2 2 7/8 5/8 Liquid Line MCL110 2 2 1-1/8 7/8 MCM160 4 2 1-1/8 7/8 MCL220 4 2 1-3/8 1-1/8 Source: DPN002425, Rev. 5 Liebert® MC™ User Manual Connection Sizes, OD, in # of Fans 58 DPN002425 Rev. 5 Piping Figure 5-10 Piping: Dimensions with Liebert Lee-Temp™—Dual circuit condensers METAL CLAMP HOT GAS LINE TO CONDENSER ENTERING HOT GAS LINE ISOLATOR DETAIL A-A FIELD PIPING C VIEW B VIEW COVER* * SHIPPING COVER IS NOT NECESSARY FOR PROPER CONDENSER OPERATION AND MAY BE RECYCLED IF FIELD PIPING INTERFERES WITH PROPER REATTACHMENT. POSITION ELBOW TO DIRECT RELIEF VALVE DOWNWARD LEAVING LIQUID LINE B VIEW LIQUID LINE FROM CONDENSER FASTEN HOT GAS LINE TO CABINET USING FLAT SURFACE CLAMPS WITH ISOLATORS(FIELD SUPPLIED) SEE DETAIL A-A HOT GAS LINE TO CONDENSER GENERAL ARRANGEMENT LIEBERT SUPPLIED PIPING ASSEMBLY WILL INCLUDE 1 OR 2 VALVE AND CHECK VALVES DEPENDENT ON CONDENSER CAPACITY AND REFRIGERANT ENTERING HOT GAS LINE C VIEW LIQUID LINE FROM CONDENSER POSITION ELBOW TO DIRECT RELIEF VALVE DOWNWARD LEAVING LIQUID LINE NOTE: 1. THE FOLLOWING MATERIALS ARE SUPPLIED BY LIEBERT, SHIPPED LOOSE FOR EACH CIRCUIT, AND FOR FIELD INSTALLATION: INSULATED LIEBERT LEE-TEMP RECEIVER TANK WITH ELECTRIC HEATER PADS AND SIGHT GLASSES, PIPING ASSEMBLY WITH HEAD PRESSURE CONTROL VALVE AND CHECK VALVE, ROTO-LOCK VALVE AND PRESSURE RELIEF VALVE. ALL OTHER PIPING AND ELECTRICAL WIRING TO BE SUPPLIED AND INSTALLED BY OTHERS. AN ADDITIONAL CONDENSER LEG PER CIRCUIT TO BE SHIPPED WITH THE CONDENSER. 2.FOR RUNS LONGER THAN 150FT.(45.7M)EQUIV. LENGTH, CONSULT FACTORY FOR PROPER LINE SIZING. Table 5-4 Condenser piping connection sizes—Dual-circuit condensers with Liebert Lee-Temp Condenser Connections, OD.In Model # DPN002426 Rev. 6 Condenser Circuits Hot Gas Liquid Liebert Lee-Temp Connections Hot Gas Tee IDS In. Liquid Line to Lee-Temp Valve ODS, In. Receiver Out Rotalock IDS In. MCS056 2 7/8 5/8 7/8 5/8 5/8 MCM080 2 7/8 5/8 7/8 5/8 5/8 MCL110 2 1-1/8 7/8 1-1/8 7/8 78 MCL160 2 1-1/8 7/8 1-1/8 7/8 1-1/8 MCL220 2 1-3/8 1-1/8 1-3/8 1-1/8 1-1/8 Source: DPN002426, Rev. 6 59 Liebert® MC™ User Manual Piping 5.2.2 Field Piping Guidelines for a Liebert DSE and Liebert Premium MC Condenser Figure 5-11 Condenser and Liebert EconoPhase™, typical unit arrangement diagram layout for dual-circuit system TOP VIEW CIRCUIT 1 CIRCUIT 2 Air Cooled Condenser Entering Hot Gas Line CIRCUIT 1 42" 1067mm Minimum Clearance Air Cooled Condenser LIQUID LINE TO ECONOPHASE UNIT FROM BOTTOM OF RECEIVER Entering Hot Gas Line CIRCUIT 2 TOP VIEW *Liquid from Condenser 1-3/8". DO NOT TRAP LINE! Slope (2 in. per 10 ft.) down towards EconoPhase unit. *Liquid from Condenser 1-3/8". DO NOT TRAP LINE! Slope (2 in. per 10 ft.) down towards EconoPhase unit. EconoPhase Unit *Liquid from Condenser 1-3/8". DO NOT TRAP LINE! Slope (2" per 10') down towards EconoPhase unit. CIRCUIT 1 CIRCUIT 2 60" 1524mm 60" leg height Typical, see note 1. FACTORY SUPPLIED, FIELD INSTALLED FIELD PIPING Notes: 1. For proper pump function, a minimum elevation difference of 60” (1524 mm) must be maintained between the bottom of condenser box to the bottom of EconoPhase unit. 2. All indoor and outdoor field refrigerant piping must be insulated, 1/2" minimum. All outdoor insulation must be UV and ozone resistant. Liebert® MC™ User Manual * Components are not supplied by Liebert but are required for proper circuit operation and maintenance. * * Components supplied by Liebert and must be DPN002324 field installed. Rev. 7 60 Piping Figure 5-12 Condenser and Liebert EconoPhase™, typical unit arrangement diagram layout for single-circuit system TOP VIEW Air Cooled Condenser Entering Hot Gas Line 42" 1067mm Minimum Clearance TOP VIEW *Liquid from Condenser 1-3/8". DO NOT TRAP LINE! Slope (2 in. per 10 ft.) down towards EconoPhase unit. EconoPhase Unit *Liquid from Condenser 1-3/8". DO NOT TRAP LINE! Slope (2" per 10') down towards EconoPhase unit. 60" 1524mm 60" leg height Typical, see note 1. EconoPhase Unit FACTORY SUPPLIED, FIELD INSTALLED FIELD PIPING Notes: 1. For proper pump function, a minimum elevation difference of 60” (1524 mm) must be maintained between the bottom of condenser box to the bottom of EconoPhase unit. 2. All indoor and outdoor field refrigerant piping must be insulated, 1/2" minimum. All outdoor insulation must be UV and ozone resistant. 61 * Components are not supplied by Liebert but are required for proper circuit operation and maintenance. DPN003552 Rev. 0 Liebert® MC™ User Manual Piping Figure 5-13 Typical receiver Liebert DSE mounting, MCL110, MCL165 and MCL220 single-circuit condenser, left-side condenser outlet receiver RECEIVER MOUNTING HOLES SINGLE CIRCUIT. TYP. (4) PLACES 4 3 2 1 DETAIL A TRIM PIPING AS NEEDED A 16 15 3 1 7 14 4 8 13 12 2 11 1/8" 282.6mm 3 4 36" 914mm CLEARANCE REQUIRED FOR VIEWING SIGHT GLASS 64 3/4" 1645mm CROSS BRACING NOT SHOWN NOTES: 1. USE ITEMS 15 AND 16 AS NEEDED FOR MOUNTING OF ITEM 1. 2. ITEM 12 TO BE USED ON MCL110 & MCL165 UNITS. ITEM 13 TO BE USED ON MCL220 UNITS. 3. SMALL RECEIVER SHOWN. ACTUAL RECEIVER SIZE MAY VARY. 4. RECEIVER LEG IS SAME HEIGHT AS OTHER LEGS AND NEEDS TO BE ANCHORED WITH THEM. Item No. DPN002554 Pg. 1 Rev. 7 Description Qty 1 Receiver and Bracket Assembly 1 2 Cap Screw HXDIN933M8-1.25X25A2 8 3 Fender Washer DIN9021 M8X24 A2 12 4 Lock Nut Hex NYL INSR M8 8 7 90° Elbow FTGXFTG 7/8” Copper 1 8 Copper Formed Tube 1-1/8” 1 12 Coupling Copper 1-1/8” 1 13 Reducer Copper CXC 1-3/8”x1-1/8” 1 14 Reducer Copper CXC 1-1/8”x7/8” 1 15 Support Leg 1 16 Fastener Assembly: Cap Screw, Lock Washer, Fender Washer 4 Liebert® MC™ User Manual 62 Piping Figure 5-14 Typical receiver Liebert DSE mounting, MCL110, MCL165 and MCL220 single-circuit condenser, right-side condenser outlet receiver RECEIVER MOUNTING HOLES SINGLE CIRCUIT. TRIM PIPING AS NEEDED 2 12 13 8 2 3 4 TYP. (4) PLACES B 1 7 3 15 16 1 DETAIL B 4 14 9 5 6 11 1/8" 282.6mm 64 3/4" 1645mm 36" 914mm CLEARANCE REQUIRED FOR VIEWING SIGHT GLASS 3 4 NOTES: 1. USE ITEMS 15 AND 16 AS NEEDED FOR MOUNTING OF ITEM 1. CROSS BRACING NOT SHOWN 2. ITEM 12 TO BE USED ON MCL110 & MCL165 UNITS. ITEM 13 TO BE USED ON MCL220 UNITS. 3. SMALL RECEIVER SHOWN. ACTUAL RECEIVER SIZE MAY VARY. 4. RECEIVER LEG IS SAME HEIGHT AS OTHER LEGS AND NEEDS TO BE ANCHORED WITH THEM. Item No. 1 2 3 4 5 6 7 8 9 12 13 14 15 16 DPN002554 Pg. 2 Rev. 7 Description Qty Receiver and Bracket Assembly Cap Screw HXDIN933M8-1.25X25A2 Fender Washer DIN9021 M8X24 A2 Lock Nut Hex NYL INSR M8 Clamp Omega 7/8” Screw SD HWH YZ 10-16 x 5/8 90° Elbow FTGXFTG 7/8” CU Copper Formed Tube 1-1/8” Copper Formed Tube 1-1/8” Coupling Copper 1-1/8” Reducer Copper CXC 1-3/8”x1-1/8” Reducer Copper CXC 1-1/8”x7/8” Support Leg Fastener Assembly: Cap Screw, Lock Washer, Fender Washer 1 8 12 8 7 2 1 1 2 1 1 2 1 4 63 Liebert® MC™ User Manual Piping Figure 5-15 Typical receiver Liebert DSE mounting, MCL110 and MCL220 dual-circuit condenser, two outlet receivers C 4 3 2 TYP (4) PLACES 5 1 16 15 3 19 20 D 1 12 14 7 14 8 19 20 CIRCUIT 2 CIRCUIT 1 18 2 8 TRIM PIPING AS NEEDED 4 18 DETAIL C 8 12 14 2 RECEIVER MOUNTING HOLES DUAL CIRCUIT (CIRCUIT 2 ONLY). TRIM PIPING AS NEEDED DETAIL D 2 3 4 TYP (4) PLACES 8 8 15 16 1 11 1/8" 283mm 5 6 74 1/16" 1881mm 36" 914mm 5 14 9 NOTES: 1. USE ITEMS 15 AND 16 AS NEEDED FOR MOUNTING OF ITEM 1. TYP CLEARANCE REQUIRED FOR VIEWING SIGHT GLASS CROSS BRACING NOT SHOWN 3 1 7 2. ITEM 14 TO BE USED ON MCL110 UNITS. ITEM 12 TO BE USED ON MCL220 UNITS. 3. SMALL RECEIVER SHOWN. ACTUAL RECEIVER SIZE MAY VARY. 4. ITEM 20 TO BE USED ON MCL110 UNITS. ITEM 19 TO BE USED ON MCL220 UNITS. 5. RECEIVER LEG IS SAME HEIGHT AS OTHER LEGS AND NEEDS TO BE ANCHORED WITH THEM. Item No. 1 2 3 4 5 6 7 8 9 12 14 15 16 18 19 20 Liebert® MC™ User Manual Description Receiver and Bracket Assembly Cap Screw HXDIN933M8-1.25X25A2 Fender Washer DIN9021 M8X24 A2 Lock Nut Hex NYL INSR M8 Clamp Omega 7/8” Screw SD HWH YZ 10-16 x 5/8 90° Elbow FTGXFTG 7/8” Copper Copper Formed Tube 1-1/8” Copper Formed Tube 1-1/8” Coupling Copper 1-1/8” Reducer Copper CXC 1-1/8”x7/8” Support Leg Fastener Assembly: Cap Screw, Lock Washer, Fender Washer Copper Tube 1-1/8” Swaged 90° Elbow CXC 1-1/8” Copper 90° Elbow CXC 1-1/8”X7/8” Copper 64 DPN002554 Pg. 3 Rev. 7 Qty 2 12 20 12 1 2 2 2 1 1 3 2 8 1 1 1 Piping Figure 5-16 Typical receiver Liebert DSE mounting, MCM160 dual-circuit condenser, two outlet receivers 7 4 3 CIRCUIT 2 CIRCUIT 1 2 TYP (4) PLACES 2 TRIM PIPING AS NEEDED A 12 DETAIL A 8 16 15 1 12 1 7 8 7 8 TRIM PIPING AS NEEDED 2 3 4 TYP (4) PLACES 8 15 16 8 11.13" 282.6mm 7 1 64.63" 1641.7mm 36.00" 914.4mm TYP CLEARANCE REQUIRED FOR VIEWING SIGHT GLASS. 9 6 2 NOTES 1. SMALL RECEIVER SHOWN. ACTUAL RECEIVER SIZE MAY VARY. 2. RECEIVER LEG IS SAME HEIGHT AS OTHER LEGS AND NEEDS TO BE ANCHORED WITH THEM. CROSS BRACING NOT SHOWN Item No. 5 1 Description DPN002383 Rev. 7 Qty 1 Receiver and Bracket Assembly 2 2 Cap Screw HXDIN933M8-1.25X25A2 12 3 Fender Washer DIN9021 M8X24 A2 20 4 Lock Nut Hex NYL INSR M8 12 5 Clamp Omega 7/8” 1 6 Screw SD HWH YZ 10-16 x 5/8 2 7 90° Elbow FTGXC 7/8” Copper 3 8 Copper Formed Tube 7/8” 2 9 Copper Formed Tube 7/8” 1 12 Copper Tube 7/8” Swaged 1 15 Support Leg 1 16 Fastener Assembly: Cap Screw, Lock Washer, Fender Washer 4 65 Liebert® MC™ User Manual Piping 5.3 Refrigerant Planning Values Planning for the refrigerant requirements of the completed system is the total of the charges from Indoor Unit, Condenser (including Liebert Lee-Temp™ receiver, if used) and the interconnecting piping. Tables 55, 5-6, 5-8 and 5-9 provide the approximate charge required for the condensers, recommended refrigerant pipe sizes and the interconnecting piping. Consult indoor unit manuals for indoor unit charge requirements. These values can be used for obtaining adequate refrigerant for the system, but should not be used for final charging. NOTE Due to the much smaller coil volume, the performance, especially subcooling, of a Liebert MC condenser is quite sensitive to the amount of refrigerant charge. Ensure that an accurate amount of refrigerant charge is added. Table 5-5 Condenser Models Refrigerant required, R-407C, approximate Single Circuit, lb/circuit (kg/circuit) Dual Circuit, lb/circuit (kg/circuit) Approximate R-407C Refrigerant Needed Condensers without Liebert Lee-Temp Condensers with Liebert Lee-Temp MCS028 2.2 (1.0) 23.1 (10.5) — — MCS056 N/A N/A 2.2 (1.0) 23.1 (10.5) Condensers without Liebert Lee-Temp Condensers with Liebert Lee-Temp MCM040 3.0 (1.4) 23.9 (10.8) N/A N/A MCM080 7.5 (3.4) 44.5 (20.2) 3.0 (1.4) 23.9 (10.8) MCM160 — — 7.5 (3.4) 44.5 (20.2) MCL055 5.0 (2.3) 25.9 (11.7) — — MCL110 10.5 (4.8) 52.1 (23.7) 5.1 (2.3) 26.0 (11.8) MCL165 18.3 (8.3) 84.8 (38.5) — — MCL220 27.0 (12.3) 108.9 (49.4) 12.2 (5.6) 53.8 (24.4) Source: DPN002411, Rev. 7 Table 5-6 Refrigerant required, R-410A, approximate Single Circuit, lb/circuit (kg/circuit) Condenser Models Condensers w/o Liebert Lee-Temp Condensers with Liebert Lee-Temp MCS028 2.5 (1.2) 21.7 (9.8) Dual Circuit, lb/circuit (kg/circuit) Condensers with Condensers Liebert DSE Small Receiver/ w/o Liebert Condensers with Large Receiver 1 Lee-Temp Liebert Lee-Temp Condensers with Liebert DSE Small Receiver/ Large Receiver 1 — — — — MCS056 — — — 2.5 (1.2) 21.7 (9.8) — MCM040 3.5 (1.6) 22.7 (10.3) — — — — MCM080 8.5 (3.8) 39.8 (18.1) 17.0 (7.7) 3.5 (1.6) 22.7 (10.3) — MCM160 — — — 8.5 (3.8) 39.8 (18.1) 17 (7.7) / 24 (10.9) MCL055 5.0 (2.3) 24.2 (11.0) — — — — MCL110 10.7 (4.9) 49.1 (22.3) 19.2 (8.7) 5.2 (2.4) 24.4 (11.1) 13.7 (6.2) MCL165 18.4 (8.4) 79.9 (36.2) 26.9 (12.2)/ 33.9 (15.4) — — — MCL220 27.0 (12.3) 102.9 (46.7) 42.5 (19.3) 12.3 (5.6) 50.7 (23.0) 20.8 (9.4) / 27.8 (12.6) 1. Small receiver is used with DA050, DA080 and DA085; large receiver is used with DA125, DA150 and DA165. 2. Source: DPN002411, Rev. 7 Liebert® MC™ User Manual 66 Piping 5.3.1 Recommended Refrigerant Line Sizes Table 5-7 Recommended Refrigerant Line Sizes, OD Cu System Fluid : R-410A Model CR019RA/ CR020RA CR035RA PX011 50 ft (15m) 100 ft (30m) 150 ft (45m) 300 ft (91m) 450ft (137m) Hot Gas Line Liquid Line Hot Gas Line Liquid Line 3/4 5/8 7/8 3/4 3/4 5/8 7/8 3/4 3/4 5/8 7/8 3/4 7/8 3/4 1-1/81 7/8 — — — — Hot Gas Line 1/2 5/81 1/2 5/8 1/2 3/4 5/8 7/8 5/8 1-1/8 7/8 1-3/8 7/8 1-3/8 5/81 1/2 5/8 1/2 3/4 5/8 7/8 5/8 1-1/8 7/8 1-3/8 7/8 1-3/8 5/81 — 1-1/82 1-3/8 1-1/82 1-3/8 1-1/82 1-1/82 Liquid Line Hot Gas Line PX018 Liquid Line Hot Gas Line PX023 Liquid Line Hot Gas Line PX029 Liquid Line DA050/ DA080/ Hot Gas Line DA085 Liquid Line Hot Gas Line DA125 Liquid Line Hot Gas Line DA150 Liquid Line Hot Gas Line DA165 Liquid Line System Fluid : R-407C Model DS028 DS035 DS042 DS053 DS070 DS0773 DS1053 Standard and Digital Scroll Models Equivalent Length, in. 3/8 5/8 1/2 3/4 5/8 7/8 5/8 1-1/8 7/8 1-3/8 7/8 1-3/8 7/8 1-3/8 7/8 Standard Scroll Models (Non-Digital Scroll) 1 1/2 — — — 1 — 7/8 5/8 — — 1-1/81 3/4 — 1-1/8 1-1/8 7/8 7/8 1-3/8 1-3/8 7/8 7/8 1-3/8 1-3/8 1-1/8 1-1/8 1-3/8 1-3/8 1-1/8 1-1/8 4-Step Semi-Hermetic or Digital Scroll Models 3/41 5/8 Equivalent Length, in. 50 ft (15m) 100 ft (30m) 150 ft (45m) 50 ft (15m) 100 ft (30m) 150 ft (45 m) Hot Gas Line Liquid Line Hot Gas Line Liquid Line Hot Gas Line Liquid Line Hot Gas Line Liquid Line Hot Gas Line Liquid Line Hot Gas Line Liquid Line Hot Gas Line Liquid Line 7/8 1/2 7/8 1/2 7/8 1/2 7/8 5/8 1-1/8 7/8 1-1/8 7/8 1-3/8 7/8 7/8 5/8 7/8 5/8 7/8 5/8 1-1/8 7/8 1-1/8 7/8 1-1/8 7/8 1-3/8 7/8 7/8 5/8 7/8 5/8 7/8 5/8 1-1/8 7/8 1-1/8 7/8 1-1/8 7/8 1-3/8 1-1/8 3/4 1/2 3/4 1/2 7/8 5/8 7/8 7/8 3/4 5/8 7/8 5/8 7/8 5/8 7/8 5/8 7/8 5/8 1-1/81 5/8 1-1/81 7/8 1-1/81 7/8 1-1/81 7/8 1-1/8 7/8 1-3/8 7/8 1-1/81 7/8 1-1/8 7/8 1-3/8 7/8 1-1/81 7/8 1-1/8 7/8 1-3/8 1-1/8 Consult factory for proper line sizing for R-410A DX-only system-piping runs longer than 300 ft. (91.4 m), R410A Liebert DSE system piping runs longer than 450 ft. (137 m), or R407-C runs longer than 150 ft. (45.7 m) equivalent length. 1. Downsize vertical riser one trade size (1-1/8” to 7/8” or 7/8” to 3/4” or 5/8” to 1/2”). 2. When the vertical elevation between the indoor DA150/165 unit exceeds 25 ft., the liquid-line pipe diameter can be 7/8”. 3. Digital scroll not available on 077 and 105 models. 67 Liebert® MC™ User Manual Piping Table 5-8 Interconnecting piping refrigerant charge for self-contained DX units with remote condenser R-407C, lb/100ft. (kg/30m) R-410A, lb/100ft. (kg/30m) Line Size O.D., in. Hot Gas Line Liquid Line Hot Gas Line Liquid Line 3/8 — 3.6 (1.6) — 3.2 (1.4) 1/2 0.5 (0.2) 6.7 (3.0) 0.7 (0.3) 5.9 (2.7) 5/8 0.8 (0.4) 10.8 (4.8) 1.1 (0.5) 9.6 (4.3) 3/4 1.2 (0.5) 16.1 (7.2) 1.6 (0.7) 14.3 (6.4) 7/8 1.7 (0.8) 22.3 (10.0) 2.3 (1.0) 19.8 (8.8) 1-1/8 2.9 (1.3) 38.0 (17.0) 3.9 (1.7) 33.8 (15.1) 1-3/8 4.4 (2.0) 57.9 (25.9) 5.9 (2.6) 51.5 (23.0) 1-5/8 6.2 (2.8) — 8.4 (3.7) — 1. Data based on 50°F Evap 15°F superheat 125°F SCT 10°F subcooling 2. Source: DPN003099, Rev. 0 5.4 Equipment Application Guidelines Pump-down must be disabled on the indoor unit when using the Liebert MC condenser, due to the reduced volume in the condenser coil. Emerson® recommends adding a discharge line check valve and crankcase heater when connecting the Liebert MC condenser to Liebert indoor units built before 2012. The check valve and crankcase heater are needed for compressor protection. Additional liquid line Schrader ports are required at the indoor unit to properly charge systems with Liebert MC condensers. 5.5 Refrigerant Oil Addition Procedures Consult the user manual for the indoor unit to determine whether additional oil is required for each circuit. Factors such as compressor, condenser type, piping lengths, receiver and total circuit refrigerant charge influence this requirement. 5.6 System Dehydration/Leak Test Procedures for leak check and evacuation of the entire refrigeration system are contained in the indoor unit’s installation manual. Use the proper manual section corresponding to the winter control system used on the condenser (with or without Liebert Lee-Temp™ or Liebert DSE™ receivers) and the refrigerant to be charged into the system. 5.7 System Charging with Liebert MC 5.7.1 Liebert MC Charging, Units with Liebert Lee-Temp™ Receivers Consult the indoor unit’s manual for charging systems with Liebert Lee-Temp receivers. These procedures will be identical to systems with fin/tube condenser coils, but the refrigerant volumes will be much lower. Consult Tables 5-5 and 5-6 for refrigerant required by a condenser with Liebert Lee-Temp. 5.7.2 Liebert MC Condenser Charging with Liebert DSE™ Receivers Consult the Liebert DSE manual (SL-18925) for charging Liebert DSE systems. All Liebert DSE require installation of a Liebert DSE receiver on each condenser circuit, with or without a Liebert EconoPhase pump module installed. Consult Table 5-6 for condenser and receiver refrigerant requirements. Liebert® MC™ User Manual 68 Piping 5.7.3 Liebert MC Charging, Premium Efficiency Control, Units without Receivers Source: DPN002411, Rev. 7 Liebert MC condensers are charge-sensitive and require accurate calculation of the system charge to avoid overcharging. To avoid overcharge, additional guidelines are recommended to ensure trouble-free operation. • When charging system in an outdoor ambient below 50°F (10°C), recheck the subcooling against Table 5-10 when the ambient temperature is above 60°F (15.6°C) • The indoor space should be maintained at 70-80°F (21-26.7°C) return air before final charge adjustments are made. • Charging a unit at temperatures above 80°F (26.7°C) return air may result in the unit being overcharged. • Charge by subcooling measurement at the indoor unit. See Table 5-10 for target subcooling temperatures. • Pressure and temperature measuring instruments should be capable of measuring to ±10 psig (68.9kPa) and ± 2°F (1.1°C) for best subcooling measurement. 1. Check the nameplate on the indoor unit for refrigerant type to be used. Unit control configurations differ depending on refrigerant type. 2. Refrigerant charging requires the unit to be in operation. Refer to the indoor unit’s user manual for the Checklist for Completed Installation. 3. Calculate the amount of charge for the system. Refer to the indoor unit user manual, and condenser and refrigerant line charge data in Tables 1 and 2. 4. Weigh in as much of the system charge as possible before starting the unit. Do not exceed the calculated charge by more than 0.5 lb. (0.23kg). NOTICE Risk of improper refrigerant charging. Can cause equipment damage. Refrigerant R-407C and R-410A are blended refrigerants and must be introduced and charged from the cylinder only as a liquid. When adding liquid refrigerant to an operating system, it may be necessary to add the refrigerant through the compressor suction service valve. Care must be exercised to avoid damage to the compressor. Emerson recommends connecting a sight glass between the charging hose and the compressor suction service valve. This will permit adjusting the cylinder hand valve so that liquid can leave the cylinder while allowing vapor to enter the compressor. NOTICE Risk of refrigerant overcharge. Can cause equipment damage. Do not use the sight glass as an indicator when charging Liebert MC condenser systems. 5. Turn On the Liebert MC disconnect switch. 6. Turn on the indoor unit disconnect switch. Operate the unit for 30 minutes using the charging function of the indoor unit control for each circuit of the system. The charging function is in the diagnostic section of the Liebert iCOM® (see Liebert iCOM user manual, SL-18847, available at the Liebert Web site (www.liebert.com). 69 Liebert® MC™ User Manual Piping The charging function operates the compressor(s) at full capacity and energizes the liquid line solenoid valve(s). The reheat and humidifier are disabled. Manual operation of the indoor fans from the diagnostic menu of the Liebert iCOM is required. A minimum 20psig (138kPa) must be established and maintained for the compressor to operate. The charging function can be reset as many times as required to complete unit charging. Table 5-9 Line Size O.D., in. 3/8 Charge amounts per 100 ft. (30m) of pipe by line size R-407C (R-22), lb/100 ft. (kg/30m) R-410A, lb/100 ft. (kg/30m) Hot Gas Line Liquid Line Hot Gas Line Liquid Line — 3.6 (1.6) — 3.2 (1.4) 1/2 0.5 (0.2) 6.7 (3.0) 0.7 (0.3) 5.9 (2.7) 5/8 0.8 (0.4) 10.8 (4.8) 1.1 (0.5) 9.6 (4.3) 3/4 1.2 (0.5) 16.1 (7.2) 1.6 (0.7) 14.3 (6.4) 7/8 1.7 (0.8) 22.3 (10.0) 2.3 (1.0) 19.8 (8.8) 1-1/8 2.9 (1.3) 38.0 (17.0) 3.9 (1.7) 33.8 (15.1) 1-3/8 4.4 (2.0) 57.9 (25.9) 5.9 (2.6) 51.5 (23.0) 1-5/8 6.2 (2.8) — 8.4 (3.7) — Data based on 50°F Evap, 15°F superheat, 125°F SCT, 10°F subcooling. Source: DPN002411, Rev. 7 7. Attach pressure and temperature instruments to the liquid line of the indoor unit. Measure the initial subcooling and continue to add charge until reaching the recommended subcooling for the current outdoor ambient temperature (see Table 5-10). The outdoor ambient can be read from the Liebert MC condenser control menu ID F02. NOTE To determine subcooling measurement, a liquid line pressure reading (at the factory-installed Schrader tap) needs to be measured along with obtaining a temperature reading on the liquid line. Convert the liquid line pressure reading into a temperature by utilizing a Pressure-Temperature Guide or Table 5-11. The difference between this converted temperature and the actual temperature will determine the system’s subcooling. For R-407C make sure to use the saturated liquid temperature to calculate subcooling. Table 5-10 Target subcooling for ambient outdoor temperature Ambient Temp °F (C°) Subcooling °F (C°) 0 (-17.8) 22 (12.0) 10 (-12.2) 22 (12.0) 20 (-6.7) 22 (12.0) 30 (-1.1) 22 (12.0) 40 (4.4) 22 (12.0) 50 (10.0) 21 (11.7) 60 (15.6) 19 (10.8) 70 (21.1) 17 (9.3) 80 (26.7) 13 (7.2) 90 (32.2) 9 (5.0) 95 (35.0) 7 (3.9) 100 (37.8) 5 (2.9) 105 (40.6) 3 (1.8) 110 (43.3) 1 (0.7) 125 (51.7) 0 DPN002411, Rev. 7 Liebert® MC™ User Manual 70 Piping 8. As head pressure builds, the variable fan speed controlled condenser fan begins rotating. The fan will run at full speed when sufficient head pressure is developed. Table 5-11 Liquid pressures and temperatures Pressure Psig (Bar) R407C 1 °F (°C) R410A 1 °F (°C) R22 °F (°C) 170 (11.7) 81.5 (27.5) 59.8 (15.4) 90.6 (32.6) 180 (12.4) 85.1 (29.5) 63.1 (17.3) 94.3 (34.6) 190 (13.1) 88.6 (31.5) 66.3 (19.1) 97.9 (36.6) 200 (13.8) 92.0 (33.3) 69.5 (20.8) 101.4 (38.6) 210 (14.5) 95.2 (35.1) 72.5 (22.5) 104.7 (40.4) 220 (15.2) 98.3 (36.8) 75.4 (24.1) 108.0 (42.2) 230 (15.9) 101.4 (38.5) 78.2 (25.7) 111.1 (44.0) 240 (16.6) 104.3 (40.2) 80.9 (27.2) 114.2 (45.7) 250 (17.2) 107.2 (41.8) 83.6 (28.7) 117.1 (47.3) 260 (17.9) 109.9 (43.3) 86.2 (30.1) 120.0 (48.9) 270 (18.6) 112.6 (44.8) 88.7 (31.5) 122.8 (50.4) 280 (19.3) 115.3 (46.3) 91.1 (32.8) 125.5 (52.0) 290 (20.0) 117.8 (47.7) 93.5 (34.2) 128.2 (53.4) 300 (20.7) 120.3 (49.1) 95.8 (35.5) 130.8 (54.9) 310 (21.4) 122.8 (50.4) 98.1 (36.7) 133.3 (56.3) 320 (22.1) 125.2 (51.8) 100.3 (38.0) 135.8 (57.7) 330 (22.8) 127.5 (53.1) 102.5 (39.2) 138.2 (59.0) 340 (23.4) 129.8 (54.3) 104.6 (40.3) 140.6 (60.3) 350 (24.1) 132.1 (55.6) 106.7 (41.5) 142.9 (61.6) 360 (24.8) 134.3 (56.8) 108.7 (42.6) 145.2 (62.9) 370 (25.5) 136.4 (58.0) 110.7 (43.7) 147.4 (64.1) 380 (26.2) 138.6 (59.2) 112.7 (44.8) 149.6 (65.4) 390 (26.9) 140.6 (60.3) 114.5 (45.9) 151.8 (66.5) 400 (27.6) 142.7 (61.5) 116.4 (46.9) 153.9 (67.7) 500 (34.5) 161.3 (71.8) 133.5 (56.4) 173.1 (78.4) 600 (41.4) 177.4 (80.8) 148.1 (64.5) 189.5 (87.5) 1. Values are for saturated liquid. 2. Source: DPN002411, Rev. 7 71 Liebert® MC™ User Manual Piping Page intentionally left blank. Liebert® MC™ User Manual 72 Checklist for Completed Installation 6.0 Checklist for Completed Installation 6.1 Moving and Placing Equipment ___ 1. Unpack and check received material. ___ 2. Proper clearance for service access has been maintained around the equipment. ___ 3. Equipment is level and mounting fasteners are tight. 6.2 Electrical ___ 1. Line voltage connected and matches equipment nameplate. ___ 2. Power line circuit breakers or fuses have proper ratings for equipment installed. ___ 3. Control wiring connections completed between indoor cooling unit and condenser. ___ 4. All internal and external high-voltage and low-voltage wiring connections are tight to the proper torque ratings shown on the components. ___ 5. Confirm that unit is properly grounded to an earth ground. ___ 6. Electrical service conforms to national and local codes. ___ 7. Monitoring wiring connections completed, when equipped, to indoor cooling unit or external monitoring panel. ___ 8. Verify that the Premium EC fan condenser is not connected to a delta power supply. ___ 9. Verify that the CANbus wiring, CANbus “END of Line” jumper position and the CANbus “Device Address DIP Switch” setting is correct according to the application at the job site. ___ 10. Verify that Terminals 70, 71 and 230 (when applicable) are used and that they are properly wired, particularly on systems that use two condensers for one indoor unit. 6.3 Piping ___ 1. Piping is completed to corresponding indoor cooling unit refrigeration circuit. ___ 2. Piping is leak-checked, evacuated and charged with specified refrigerant. ___ 3. Additional refrigerant oil added, if required, per circuit. ___ 4. Piping is properly sized, sloped and trapped for proper oil return. ___ 5. Piping is routed to reduce potential of rub-through or chaffing. ___ 6. Hot gas line on Liebert Lee-Temp™ is fastened to the side of the cabinet and isolated for vibration reduction. 6.4 Other ___ 1. Foreign material removed from in and around all equipment installed (construction materials, construction debris, etc.). ___ 2. Installation materials and tools have been removed from in and around all equipment (literature, shipping materials, tools, etc.). ___ 3. Blank startup sheet located, ready for completion by installer or start-up technician. 73 Liebert® MC™ User Manual Checklist for Completed Installation Page intentionally left blank. Liebert® MC™ User Manual 74 Initial Startup Checks and Commissioning 7.0 Initial Startup Checks and Commissioning ! WARNING Arc flash and electric shock hazard. Open all local and remote electric power disconnect switches, verify with a voltmeter that power is Off and wear personal protective equipment per NFPA 70E before working within the electric control enclosure. Failure to comply can cause serious injury or death. Customer must provide earth ground to unit, per NEC, CEC and local codes, as applicable. Before proceeding with installation, read all instructions, verify that all the parts are included and check the nameplate to be sure the voltage matches available utility power. The Liebert iCOM® microprocessor does not isolate power from the unit, even in the “Unit Off” mode. Some internal components require and receive power even during the “Unit Off” mode of Liebert iCOM control. The factory-supplied disconnect switch is inside the unit. The line side of this switch contains live high-voltage. The only way to ensure that there is NO voltage inside the unit is to install and open a remote disconnect switch. Refer to unit electrical schematic. Follow all local codes. ! WARNING Risk of electric shock. Can cause injury or death. Open all local and remote unit electric power supply disconnect switches, wait 10 minutes and verify with a voltmeter that power is Off before working within the fan speed control, the EC fan electrical enclosures or checking any electrical connections or functions. Unit contains potentially lethal electrical voltage. Line side of factory disconnect remains energized when disconnect is Off. Only properly trained and qualified personnel may perform repair, maintenance and cleaning operation. ! WARNING Risk of high-speed, rotating fan blades. Can cause injury or death. Fan blades can start rotating without warning at any time during a cooling cycle or after power is restored after a power failure. Open all local and remote unit electrical power supply disconnect switches, verify with a voltmeter that the power is Off and verify that all fan blades have stopped rotating before working on or near the fans. 7.1 Startup Checklist Refer to 6.0 - Checklist for Completed Installation and verify that all installation items have been completed before beginning to start the condenser. 7.2 Initial Startup 1. Locate Liebert MC Condensers Warranty Inspection Check Sheet, Document # PSWI-8542-408CO. 2. Turn the condenser disconnect On. 3. Turn the indoor unit ON and set for cooling to allow operation of condenser. 4. Check the fans for proper rotation: Counterclockwise when viewing the unit from the fan guard (top) side. 75 Liebert® MC™ User Manual Initial Startup Checks and Commissioning 5. Check that air is being drawn through the coil and discharged out the fan assembly. 6. Complete Liebert MC Condensers Warranty Inspection Check Sheet, Document # PSWI-8542408CO. NOTE This document must be completed and forwarded to your local Emerson sales office to validate warranty. • Contact your local Emerson sales representative or Emerson Network Power® Liebert Services support about any questions or problems during unit startup and commissioning. Local Emerson sales offices and Liebert Thermal Management support contacts can be found at www.liebert.com or by calling 1-800-LIEBERT. Liebert® MC™ User Manual 76 Troubleshooting 8.0 Troubleshooting Table 8-1 Symptom Condenser will not start Troubleshooting Possible Cause Check or Remedy No power to condenser. Check voltage at input terminal block. Circuit breaker or fuse for low-voltage transformer in condenser is tripped. Locate problem in condenser electrical panel and repair. No low-voltage signal to/from indoor unit. Locate open circuit and repair. Low discharge pressure High discharge pressure SPD green and red LEDs are extinguished SPD red LED is illuminated Faulty head pressure control valve or premium efficiency control board. Replace if defective. Dirty condenser fins. Clean coil. Check for low-voltage signal from indoor unit. Condenser fans not operating. Check fan motors and fuses. High refrigerant charge Check refrigerant charge. No voltage or improper phasing exists at condenser. Check voltage at input terminal block. Electrical connections to SPD are faulty. Locate connection problem and repair. Condenser disconnect is turned Off. Recheck lights with disconnect switch in the On position. A surge exceeding the rating of the SPD has occurred. Replace SPD and inspect other components for damage and replace them if necessary. Check the connection to P24 to verify that is connected securely. Connection to P24 is loose or disconnected. Check the connector from the transformer for loose terminals. Fuse located next to P24 has blown. Verify that the fuses next to P24 have not blown. Replace as needed. 24V transformer has failed. With a voltmeter verify that the output from the transformer is 24Vac ±10%. If the value exceeds ±10%, verify that the correct primary leads are being used. Premium Efficiency Control Board has failed. If there is no output voltage, verify that the primary connections are secure and receiving the correct voltage. If they are, replace the transformer. Jumper not installed between 24V and DIN1 (for Ziehl-Abegg fan motor). Install jumper between 24V and DIN1 (for Ziehl Abegg fan motor). Control Board LEDs do not light. Fan will not run 77 Liebert® MC™ User Manual Troubleshooting Page intentionally left blank. Liebert® MC™ User Manual 78 Control Operation 9.0 Control Operation The Liebert MC Premium Efficiency Control takes approximately 30 seconds to boot up once power is applied to the condenser. The LED on the Premium Efficiency Control Board reads “888” while the board is booting up. Once the control has booted up, the display shows “F00” and then the value for F00. With the control operational, the condenser fan(s) turn in less than 5 seconds after receiving a signal from the indoor unit that the compressor(s) are On. Consider using UPS equipment on both data center cooling units and Liebert MC condensers to maintain uninterrupted cooling capability. For the first 60 seconds of operation after the compressor turns on, the condenser fan(s) will run at a fixed speed, set at the factory, based on ambient temperature: faster at higher temperatures, slower at lower temperatures. After 60 seconds, the control adjusts the fan speed based on the liquid pressure transducer. If the liquid pressure transducer fails, the condenser uses temperature sensors to control the fan speed based on the liquid line temperature. The condenser fans continue to operate for approximately 30 seconds after compressors turn Off. The Liebert MC fans have various alarm conditions, such as loss of voltage and loss of control signal, that will stop the condenser fans. Once the alarm condition is no longer present the Liebert MC fans will turn on automatically if compressors are On. 9.1 Premium Efficiency Control Board and Interface The Liebert MC Premium Efficiency Control board has a stacked board arrangement. There are three seven-segment LED’s and four keys as human machine interface (see Figure 9-2). NOTE Indicator lights should be On to indicate signal is present. See Figure 9-1, #1, 2 and 3. 79 Liebert® MC™ User Manual Control Operation Figure 9-1 Premium efficiency fan control board Spare Analog Outputs (Not Used) RS485 Service Terminal 1 A 1 BAR CODE P15 A 1 P81 B A B 1 P79 H B TB57 P80 RS485 Communications to Fans 1 P54 See Note 1 1 D58 TB56 TB50 1 L Communication from Indoor Unit H 1 CANbus P64 J4 1 TB49 3 1 J5 P29 1 L Communication from Indoor Unit 1 P28 Indicator lights: ON - signal present Temperature Inputs Circuit1 #1 P27 LED1 LED2 LE Circuit 2 Circuit1 #3 D57 D2 Call for Cooling Ethernet and CANbus addressing and signal indication ENT P21 F3 T3.15A, 250Vac 1 ACM01M1 TB74 Fan 1 UP Indicator lights: ON - signal present 1 Fan Contactor Output SW1 1 Circuit2 Fan2 1 J2 J8 J7 J6 DOWN 1 P20 Ambient P19 1 See Note 2 1 Earth Ground Remote Shutdown CAUTION: E1 Alarm & Shutdown Circuits 24VAC 1 F2 T3.15A, 250Vac Motherboard VER:A02 2010.08.10 1 #2 TB38 Circuit2 P18 1 Fan 3 1 P23 P67 CPU Board BOOTPSWD SYS APP X Y No. P17 1 Fan 4 TB11 BAR CODE Circuit1 Pressure Inputs ACM01U1 VER:A03 2010.08.10 3 J6 1 Service Spare Digital Outputs (Not Used) P24 24VAC For Continued Protection Against Risk of Fire, Replace Only With Same Type and Rating of Fuse. Control Fuses NOTE: 1. J6 is the CANbus termination jumper. J4 is the RS485 service termination jumper. If the condenser is the last device in the CANbus communication line, the jumper must be placed between Pins 1 and 2 of J6. If the condenser is not the last device in the CANbus communication line, the jumpers on J6 must be placed on Pins 2 and 3. If the jumper is not in the correct positions, CANbus communication errors may occur. The jumper on J4 will always be placed between Pins 1 and 2. 2. A jumper must be present at J2. If a jumper is not present, the control board will not boot properly during power startup. Max. Fuse Rating: 3A/250V 301471 Pg. 2, Rev. 4 Figure 9-2 Premium Efficiency Control Interface - Human Machine Interface (HMI) The Premium Efficiency Controls are factory-configured for refrigerant type and whether the condenser was sold with or without a Liebert Lee-Temp™ or Liebert DSE system. No field-configuration is necessary for proper and efficient condenser operation. Liebert® MC™ User Manual 80 Control Operation 9.1.1 Initial Screen Upon Power-On The controller displays the initial screen after it is powered On. The initial screen shows the first item of analog signals menu. The F00 and value of condenser pressure 1 are displayed alternatively and F00 means the item ID of condenser pressure 1. The display sequence is shown Figure 9-3. In the figure, 16.1 is an example and the value is dependent on the sampling result. Figure 9-3 Initial controller display F00 9.1.2 16.1 F00 16.1 Main Menu Description In initial screen, presses ESC key, the LED enters the first menu of the main menu. The main menu includes four menus: • Analog Signals Menu • Active Alarms Menu • History Alarms Menu • Configuration Menu In the Main Menu, press Up and Down keys to switch to different menus, and press the ENT key to enter the sub menus of the current menu. The operation and structure of main menu are shown in the following figure. Figure 9-4 Main Menu operation and structure F-------Analog Signals Menu A-------Active Alarms Menu H--------0 C-------- History Alarms Menu Configuration Menu Down Up NOTICE Risk of improperly altered configuration menu settings. Can compromise equipment operation. Changing the configuration menu settings can cause unanticipated results. These settings should be changed only by properly trained and qualified personnel or as directed by the factory. 81 Liebert® MC™ User Manual Control Operation 9.1.3 Analog Signals Menu Description In analog signals menu F-----------, press the ENT key to enter its items. The information of analog signal items includes condenser pressure, temperature and EC Fan actual speed. The display mode is that the item ID and signal value are displayed alternatively. The operation and item structure of analog signals menu are shown in Figure 9-5. Table 9-1 defines the signals. Figure 9-5 Analog Signals Menu F------- ENT Down F00 16.1 F01 15 F02 0 F03 -15 F04 20 F10 200 ... ... F92 000 Initial Screen ESC Liebert® MC™ User Manual 82 Up Control Operation Table 9-1 Analog signal definitions Units (C90) Item ID Imperial Metric F00 Condenser pressure 1 Meaning psi bar F01 Condenser pressure 2 psi bar F02 Ambient temperature °F °C F03 Refrigerant temperature 1 °F °C F04 Refrigerant temperature 2 °F °C F10 EC Fan 1 actual speed RPM RPM F11 EC Fan 1 requested speed % % F12 EC Fan 1 power kW kW F13 EC Fan 1 firmware version F20 EC Fan 2 actual speed F21 Hex format Hex format RPM RPM EC Fan 2 requested speed % % F22 EC Fan 2 power kW kW F23 EC Fan 2 firmware version F30 EC Fan 3 actual speed F31 Hex format Hex format RPM RPM EC Fan 3 requested speed % % F32 EC Fan 3 power kW kW F33 EC Fan 3 firmware version F40 EC Fan 4 actual speed F41 Hex format Hex format RPM RPM EC Fan 4 requested speed % % F42 EC Fan 4 power kW kW F43 EC Fan 4 firmware version F50 Subcooling 1 °F °C F51 Subcooling 2 °F °C F90 Firmware Version Major F91 Firmware Version Minor — 1.02.004 F92 Firmware Version Build — Hex format Hex format Source: 303847P1 Rev. 4 83 Liebert® MC™ User Manual Control Operation 9.2 Premium Efficiency Condenser Alarm Codes The following procedure and chart details the alarm codes that may be displayed from the Active and History Alarm registers. 9.2.1 Active Alarms Menu Description In active alarms menu “A——,” press the ENT key to enter its items. The active alarm item displays all the active alarms of condenser. When there is an active alarm, the alarm information ID will be directly displayed. When there is no alarm, “---” is displayed. When there are multiple alarms, the alarm information IDs will be displayed according to the time sequence (the most-recent alarm will be displayed first). The operation and items structure of active alarms menu are shown in the following figure. The meanings of alarm information ID are found in Tables 9-2 and 9-3. Figure 9-6 Active alarms menu A------- ENT Down --- or No Alarm 001 105 ESC 304 210 033 Liebert® MC™ User Manual 84 Up Control Operation 9.2.2 History Alarms Menu Description In history alarms menu “H——―”, press ENT key to enter its items. The history alarm items display 100 history alarm records of the condenser. The item ID is for the sequence number of the history alarms. The display mode is that the item ID and alarm information ID are displayed alternatively. When there is no alarm, “---” is displayed. Alarm history can be cleared using the C98 configuration menu item. The operation and items structure of history alarms menu are shown in the following figure. The meanings of alarm information ID are given in Tables 9-2 and 9-3. Figure 9-7 History alarms menu H------- ENT Down H01 or 001 H02 105 H03 304 H04 --- --- --- H00 -- ESC 85 Up Liebert® MC™ User Manual Control Operation Table 9-2 Alarm ID System alarm information Meaning Possible Cause Handling Method 000 CAN communication failure Communication circuit missing or damaged Check communication circuit. Ignore alarm on condensers without CAN connections 001 Ethernet communication failure Ethernet hardware or connection failure Ignore alarm, Ethernet connection is not present 002 USB communication failure USB device or file is damaged. Replace USB device or file. 003 Data corruption Memory chip is damaged Replace PCB board 004 System error Internal error Reboot. If reboot fails, consult factory. 005 Remote shutdown 1. Remote shutdown signal is available 2. TB38 is not connected For Cause 1, check the remote shutdown signal. For Cause 2, connect TB38. 006 Shutdown due to EC Fan alarm All fans have failed Consult factory 007 SPD alarm SPD damaged Replace SPD 008 Condenser pressure Sensor 2 failure Condenser pressure Sensor 1 damaged Replace condenser pressure Sensor 1 009 Condenser pressure Sensor 2 failure Condenser pressure Sensor 2 damaged Replace condenser pressure Sensor 2 010 Condenser pressure 1 high alarm 011 Condenser pressure 2 high alarm 012 Condenser pressure 1 low alarm 013 Condenser pressure 2 low alarm 014 EC Fan speed mode maximum must be overridden due to condenser pressure 1 high Condenser pressure 1 high No action is needed. 015 EC Fan speed mode maximum must be overridden due to condenser pressure 2 high Condenser pressure 2 high No action is needed. 016 Ambient temperature sensor failure Ambient temperature sensor damaged Replace ambient temperature sensor 017 Ambient temperature high alarm Ambient temperature high No action is needed. 018 Ambient temperature low alarm Ambient temperature low No action is needed. 019 Condenser temperature Sensor 2 failure Condenser temperature Sensor 2 damaged Replace condenser temperature Sensor 1 020 Condenser temperature Sensor 2 failure Condenser temperature Sensor 2 damaged Replace condenser temperature Sensor 2 021 Condenser temperature 1 high alarm 022 Condenser temperature 2 high alarm 023 Condenser temperature 1 low alarm 024 Condenser temperature 2 low alarm High temperature: Fan failure, clogged coils. Low temperature: Consult factory High-temperature alarms: Fix fan and clean coils. Low-temperature alarms: consult factory. 025 EC Fan speed mode maximum must be overridden due to refrigerant temperature 1 high Refrigerant temperature 1 high No action is needed. 026 EC Fan speed mode maximum must be overridden due to refrigerant temperature 2 high Refrigerant temperature 2 high No action is needed. Liebert® MC™ User Manual High-pressure alarms: Fix fan and High pressure: Fan failure, clogged clean coil. coils. Low-pressure alarms: Check for Low pressure: Loss of charge refrigerant leak. 86 Control Operation Table 9-3 Alarm ID EC Fan alarm information Meaning Possible Cause Handling Method (1-4) 00 EC Fan high link current 1. EC Fan is locked. 2. EC Fan is damaged. For cause 1, check if EC Fan is locked. For cause 2, replace EC Fan (1-4) 01 EC Fan drive error EC Fan is damaged. Replace EC Fan (1-4) 02 EC Fan earth to ground fault EC Fan is damaged. Replace EC Fan (1-4) 03 EC Fan electronics heat sink thermal overload 1. EC Fan is locked. 2. EC Fan is damaged. 3. Ambient temperature is too high For cause 1, check if EC Fan is locked. For cause 2, replace EC Fan For cause 3, check ambient temperature. (1-4) 04 EC Fan Hall failure EC Fan is damaged. Replace EC Fan (1-4) 05 EC Fan IGBT failure EC Fan is damaged. Replace EC Fan (1-4) 06 EC Fan line fault Power supply abnormal Check power supply (1-4) 07 EC Fan motor locked Motor is locked Check if EC Fan is locked. (1-4) 08 EC Fan motor thermal overload 1. EC Fan is locked. 2. EC Fan is damaged. 3. Ambient temperature is too high For cause 1, check if EC Fan is locked. For cause 2, replace EC Fan For cause 3, check ambient temperature. (1-4) 09 EC Fan phase failure alarm Phase failure Check power supply (1-4) 10 EC Fan-specific uncategorized alarm detected Internal EC Fan issue Re-boot condenser if fans not running. If alarm persists and fans not running, replace fan. For cause 1, check if EC Fan is locked. For cause 2, replace EC Fan For cause 3, check ambient temperature. (1-4) 11 EC Fan-specific uncategorized warning detected (1-4) 12 EC Fan electronics high-temperature condition. 1. EC Fan is locked. 2. EC Fan is damaged. 3. Ambient temperature is too high (1-4) 13 EC Fan high link voltage 1. EC Fan input power supply high voltage 2. EC Fan is damaged. (1-4) 14 EC Fan low link voltage 1. EC Fan input power supply low voltage 2. EC Fan detection error EC Fan 485 communication failure 1. Communication between EC Fan and PCB board failure 2. EC Fan 485 communication failure 3. Board has problems 4. EC fan not receiving power (1-4) 15 For cause 1, measure power supply voltage and check if the voltage is normal For cause 2, replace EC Fan For cause 1, check EC Fan communication circuit For cause 2, replace EC Fan For cause 3, replace PCB board For cause 4, check fan model is not set for “0”, check that the contactor for the particular fan is energized, and check fan fuses. NOTE (1-4) means the EC Fan addresses. For example, (1-4) 00 means 100 for EC Fan1, and means 200 for EC Fan2, and means 300 for EC Fan3, and means 400 for EC Fan4. 87 Liebert® MC™ User Manual Control Operation Page intentionally left blank. Liebert® MC™ User Manual 88 Liebert MC Seismic Application—Optional Unit Configuration 10.0 Liebert MC Seismic Application— Optional Unit Configuration 10.1 Seismic Anchoring Considerations • Mounting requirement details such as anchor brand, type, embedment depth, edge spacing, anchorto-anchor spacing, concrete strength, special instruction and attachment to non-building structures must be outlined and approved by the engineer of record for the project or building. Structural floors and housekeeping pads must also be seismically designed and approved by the project or building structural engineer of record to withstand the seismic anchor loads defined in Table 10-1. The installing contractor is responsible for the proper installation of all anchors and mounting hardware, observing the mounting requirements detailed in the seismic installation drawings as outlined by the engineer of record. • All braces and fasteners are required to maintain IBC/OSHPD certification of conformity. • Use a washer, lock washer and screw to connect the brace to the bottom beam of the condenser. (See Figure 10-2.) • Use a washer, lock washer and screw to connect the brace to the condenser leg. (See Figure 10-2) • Place anchorage plate inside each condenser foot of 18-in. legs prior to fastening to the structure. MC condensers with 36-in., 48-in. or 60-in. legs do not require separate anchorage plates for the legs. Use a flat washer, lock washer and nut to connect the condenser to the customer-supplied anchor on the solid surface (reference Detail A in Figure 10-1). As a minimum, 3/8” grade anchors with American National Standard Series W, Type A, plain washers (ANSI B18.22.1-1965, R1975) selected to match the nominal anchor diameter must be installed at each anchor location between the anchor head and equipment for tension load distribution. 89 Liebert® MC™ User Manual Liebert MC Seismic Application—Optional Unit Configuration Figure 10-1 Seismic anchorage data for one-fan models WITH RECIEVER (VIEWS SHOW RECEIVER BRACKET ONLY. RECEIVER REMOVED FOR CLARITY). WITHOUT RECIEVER A FIGURE 2 FIGURE 1 CUSTOMER SUPPLIED: -NUT -LOCK WASHER -FLAT WASHER -ANCHOR ANCHORAGE PLATE (LIEBERT SUPPLIED FOR 18" ALUMINUM LEGS ONLY) DETAIL A TYPICAL ALL 18" ALUMINUM LEGS DPN002414 Pg. 1 Rev. 3 Table 10-1 Seismic anchorage loads for one-fan models Importance Factor Iρ = 1.0 Figure # in Figure 10-1 Maximum Compressive Reaction lb Without Receiver Figure 1 With Receiver Importance Factor Iρ = 1.5 Tensile lb Shear lb Maximum Compressive Reaction lb 37 14 14 Figure 2 43 15 Without Receiver Figure 1 37 With Receiver Figure 2 43 Without Receiver Figure 1 With Receiver Figure 2 Models Maximum Anchor Maximum Anchor Tensile lb Shear lb 47 24 21 23 56 27 35 14 14 47 24 21 15 23 56 27 35 37 14 14 47 24 21 43 15 23 56 27 35 MCS028 MCM040 MCL055 * All loads are calculated per ASCE 7-05, Chapter 13.6 Sds = 2.0, Rρ = 6.0, a = 2.5 Source: DPN002414 Rev. 3 Liebert® MC™ User Manual 90 Liebert MC Seismic Application—Optional Unit Configuration Figure 10-2 Seismic anchoring for a two-fan Liebert MC WITHOUT RECEIVER WITH RECEIVER (VIEWS SHOW RECEIVER BRACKET ONLY. RECEIVER NOT SHOWN FOR CLARITY) B FIGURE 3 FLAT WASHER LOCK WASHER FIGURE 4 SCREW BRACE NUT SCREW DETAIL B TYPICAL FIGURE 5 DPN002414 Pg. 2 Rev. 3 Table 10-2 Seismic anchoring loads for a two-fan Liebert MC Importance Factor Iρ = 1.0 Model # Importance Factor Iρ = 1.5 Maximum Maximum Anchor Maximum Maximum Anchor Compressive Compressive Figure # Reaction Reaction Tensile Shear Tensile Shear in Figure 10-2 lb lb lb lb lb lb MCS056 Without Receiver Figure 3 63 20 23 78 35 34 With Receiver Figure 5 69 15 30 75 30 45 Single or Dual Circuit without Receivers Figure 3 94 30 34 116 53 50 Single Circuit with Receiver Figure 4 87 34 38 99 59 57 Dual Circuit with Receivers Figure 5 90 24 38 98 44 57 Single or Dual Circuit without Receivers Figure 3 146 42 55 179 76 82 Single Circuit with Receiver Figure 4 131 47 53 158 83 80 Dual Circuit with Receivers Figure 5 117 31 51 136 59 77 MCM080 MCL110 * All loads are calculated per ASCE 7-05, Chapter 13.6 Sds = 2.0, Rρ = 6.0, a = 2.5 Source: DPN002414 Rev. 3 91 Liebert® MC™ User Manual Liebert MC Seismic Application—Optional Unit Configuration Figure 10-3 Seismic anchoring loads for a three-fan Liebert MC WITH RECEIVER (VIEWS SHOW RECEIVER BRACKET ONLY. RECEIVER NOT SHOWN FOR CLARITY) WITHOUT RECEIVER FLAT WASHER FIGURE 6 DPN002414 Pg. 3 Rev. 3 FIGURE 7 LOCK WASHER SCREW BRACE NUT SCREW DETAIL B TYPICAL Table 10-3 Seismic anchoring loads for a three-fan Liebert MC Importance Factor Iρ = 1.0 Model # Importance Factor Iρ = 1.5 Maximum Anchor Maximum Anchor Maximum Maximum Loads (ASD) Loads (ASD) Compressive Compressive Figure # Reaction Reaction Tensile Shear Tensile Shear in Figure 103 lb lb lb lb lb lb MCL165 Single Circuit without Receiver Figure 6 158 39 62 181 73 93 Single Circuit with Receiver Figure 7 153 38 65 170 73 97 * All loads are calculated per ASCE 7-05, Chapter 13.6 Sds = 2.0, Rρ = 6.0, a = 2.5 Source: DPN002414 Rev. 3 Liebert® MC™ User Manual 92 Liebert MC Seismic Application—Optional Unit Configuration Figure 10-4 Seismic anchorage loads for a four-fan Liebert MC WITHOUT RECEIVER FLAT WASHER LOCK WASHER SCREW FIGURE 8 BRACE WITH RECEIVER NUT (VIEWS SHOW RECEIVER BRACKET ONLY. RECEIVER NOT SHOWN FOR CLARITY) SCREW DETAIL B TYPICAL FIGURE 9 FIGURE 10 DPN002414 Pg. 4 Rev. 3 FIGURE 11 Table 10-4 Seismic anchorage loads for a four-fan Liebert MC Importance Factor Iρ = 1.0 Importance Factor Iρ = 1.5 Maximum Anchor Maximum Anchor Maximum Maximum Loads, ASD Loads, ASD Compressive Compressive Reaction Reaction Tensile Shear Tensile Shear lb lb lb lb lb lb Models Figure # in Figure 10-4 Dual Circuit without Receivers Figure 8 122 37 42 148 65 62 Dual Circuit with Receivers Figure 9 120 33 42 145 59 63 Single or Dual Circuit without Receivers Figure 8 194 53 69 232 95 104 Single Circuit with Receiver Figure 10 191 51 74 221 92 110 Dual Circuit with Receivers Figure 11 176 45 60 211 82 90 MCM160 MCL220 * All loads are calculated per ASCE 7-05, Chapter 13.6 Sds = 2.0, Rρ = 6.0, a = 2.5 Source: DPN002414 Rev. 3 93 Liebert® MC™ User Manual Liebert MC Seismic Application—Optional Unit Configuration Figure 10-5 Seismic anchorage loads for 36-60” extended leg 1 TO 4 FAN WITH RECEIVER(S) TYPICAL. VIEW SHOWS RECEIVER BRACKET ONLY. RECEIVER NOT SHOWN FOR CLARITY. 1 TO 4 FAN TYPICAL DPN002414 Pg. 5 Rev. 3 Table 10-5 Seismic anchorage loads for 36-60” extended leg Importance Factor Iρ = 1.0 Models MCS028 and MCS056 MCS028 without Receiver MCS028 with Receiver MCS056 without Receiver MCS056 Dual Circuit with Receivers MCM040 through MCM160 MCM040 without Receiver MCM040 with Receiver MCM080 without Receiver MCM080 Single Circuit with Receiver MCM080 Dual Circuit with Receivers MCM160 Dual Circuit without Receivers MCM160 Dual Circuit with Receivers MCL055 through MCL220 MCL055 without Receiver MCL055 with Receiver MCL110 Single or Dual Circuit without Receivers MCL110 Single Circuit with Receiver MCL110 Dual Circuit with Receiver MCL165 Single Circuit without Receiver MCL165 Single Circuit with Receiver MCL220 Single or Dual Circuit without Receivers MCL220 Single Circuit with Receiver MCL220 Dual Circuit with Receivers Maximum Compressive Reaction lb Maximum Anchor Loads (ASD) Tensile lb Shear lb 104 110 126 107 42 43 43 36 31 40 40 44 132 141 157 131 70 74 73 65 46 60 61 66 103 114 154 129 123 190 182 39 40 50 56 40 60 54 32 40 51 53 51 62 60 130 144 191 159 154 234 221 66 70 87 96 73 104 94 48 61 77 79 77 93 90 165 176 223 191 162 201 188 265 248 232 57 58 63 70 47 53 51 72 68 61 56 64 80 73 67 78 79 93 94 78 207 220 273 230 201 235 211 322 287 278 98 102 113 122 87 97 95 130 124 109 84 95 119 110 101 118 118 140 141 117 * All loads are calculated per ASCE 7-05, Chapter 13.6 Sds = 2.0, Rρ = 6.0, a = 2.5 Source: DPN002414 Rev. 3 Liebert® MC™ User Manual Importance Factor Iρ = 1.5 Maximum Compressive Reaction lb 94 Maximum Anchor Loads (ASD) Tensile lb Shear lb Liebert MC Seismic Application—Optional Unit Configuration 10.2 Seismic piping considerations Condensers for seismic application must be attached to the piping system with field-supplied, flexible loops designed for seismic movement. Flexible loops must be capable of movement in three dimensions and must isolate the condenser from the field piping. The loops must be suitable for the operating pressure and temperature of the system. Follow manufacturer’s installation instructions for proper seismic application of flexible loops. The selection of isolation brand and type must be outlined and approved by the engineer of record for the project or building. 10.3 Seismic wiring considerations Condensers for seismic application must be connected to power and control circuits using field-supplied flexible conduit and conductors to allow movement of the condenser in three dimensions during a seismic event. The flexible conduit must have at least one bend between the rigid connection at the unit cabinet and the connection to rigid conduit or foundation. Figure 10-6 Seismic piping and wiring considerations ELECTRICAL SEISMIC ISOLATION PIPING SEISMIC ISOLATION DPN002414 Pg. 6 Rev. 3 95 Liebert® MC™ User Manual Liebert MC Seismic Application—Optional Unit Configuration Page intentionally left blank. Liebert® MC™ User Manual 96 System Maintenance 11.0 System Maintenance ! WARNING Arc flash and electric shock hazard. Open all local and remote unit electric power disconnect switches, verify with a voltmeter that power is Off and wear protective equipment per NFPA 70E before working within the electric control enclosure. Failure to comply can cause injury or death. Unit contains potentially lethal voltage in some circuits. ! WARNING Risk of electric shock. Can cause serious injury or death. Open all local and remote unit electric power disconnect switches, wait 10 minutes and verify with a voltmeter that power is Off before working within the unit electric connection enclosures or working within the fan speed control and the EC fan enclosures. These devices can retain a stored high-voltage electrical charge for up to 10 minutes. Only properly trained and qualified personnel may perform repair, maintenance and cleaning. ! WARNING Risk of contact with high-speed, rotating fan blades. Can cause serious personal injury or death. Fan blades can automatically start rotating without warning at any time during a cooling cycle or after power is restored after a power failure. Open all local and remote electric power supply disconnect switches, wait 10 minutes and verify with a voltmeter that power is Off before working within the unit cabinet, removing the fan guards or servicing the fan speed control, fan blades or EC fan motors. 11.1 General Procedures NOTE When ordering replacement parts for equipment, it is necessary to specify unit model number, serial number and voltage. Please record those numbers in the spaces below. • Model Number ________________ • Serial Number ________________ • Voltage / Phase / Frequency ________________ Periodic attention is necessary for continued satisfactory operation of your unit. Restricted air flow through the condenser coil, reduced airflow from non-functioning fans and low refrigerant system charge levels will reduce the operating efficiency of the unit and can result in high condensing temperatures and loss of cooling. In winter, do not permit snow to accumulate around the sides or underneath the condenser coil. Monthly and semi-annual inspections and maintenance are recommended for proper system operation. Use copies of 12.0 - Preventive Maintenance Checklist for each of these inspections. If performance or operation problem are detected at anytime, refer to 9.2 - Premium Efficiency Condenser Alarm Codes for required action. 97 Liebert® MC™ User Manual System Maintenance 11.2 Condenser Cleaning Keeping the outdoor condenser coils clean is an important factor in maintaining peak efficiency, reliability and long life of the equipment. The unit will operate more efficiently with frequent cleanings. Delaying cleaning until heavy buildup occurs may create head pressure problems with the evaporator units. 11.2.1 When to Clean the Condenser Coil Normal conditions typically dictate cleaning twice a year, spring and fall. On-site or area conditions such as cottonwood trees, construction, etc., can increase cleaning frequency. On your standard monthly preventive maintenance schedule, Emerson recommends a visual inspection of the coil to monitor conditions. 11.2.2 What to Use to Clean the Condenser Coil The best overall condenser coil cleaner to use is plain water. If the coil has been maintained and cleaned at regular intervals, water is sufficient to remove dirt and debris from the fins. Heavy build up on the exterior of the fins can be removed with a brush. Water pressure from a garden hose and sprayer usually works well. If a pressure washer is used, make sure the equipment is set to a lower pressure setting and that the nozzle is set to the fan spray, not stream. Otherwise, damage to the fins could result. If a cleaner is required, Emerson recommends using a neutral cleaner, neither acidic nor base. Acid-type cleaners can damage the coil fins and surrounding areas. Many sites do not allow the use of acidic cleaners for environmental reasons. 11.2.3 How to Clean the Condenser Coil The Liebert MC coil is accessible for cleaning through the innovative cleaning window design, allowing you to clean the coil without removing the fans from the unit. First, this requires disconnecting the power supply before working on the unit and then opening the cleaning window(s) on the side of the unit by loosing the mounting screws. Then insert a spray nozzle on the end of a suitable extension and apply the water/cleaning solution, working back and forth across the coil face. The solution will push the dirt and debris out the bottom of the coil. If you are using a cleaner along with the spraying process, follow recommended manufacturer instructions and be sure to rinse the coil thoroughly. Any residue left on the coil can act as a magnet to dirt. Reinstall the cleaning window(s) and reconnect the power supply to the condenser. Spraying the coil from the outside repeatedly can push a majority of the dirt to the inner section of the fins and continue to restrict air flow. Keep in mind you may not have the luxury of shutting the unit(s) down for an extended time. A scheduled shutdown with the operator may be in order. NOTICE Risk of using damaging cleaning agents, including non-base paint solvents. Can cause equipment damage and damage to property and loss of refrigerant charge. Using acid-based or sodium hydroxide-based cleaners can damage the Liebert MC condenser coil and cause a loss of charge. This could cause equipment damage as well as damage to the surrounding structure. NOTE Clean the EC fan with water only when temperatures are greater than 50°F (10°C) • Make sure that no water gets into the inside of the motor. • Do not hold the jet spray directly on the motor openings and seals. • During cleaning work using a jet spray, no guarantee is assumed regarding corrosion formation/paint adhesion for unpainted/painted fans. Liebert® MC™ User Manual 98 System Maintenance 11.3 Fan Replacement Source: INST-9168, Rev. 3 ! WARNING Arc flash and electric shock hazard. Open all local and remote unit electric power disconnect switches, verify with a voltmeter that power is Off and wear protective equipment per NFPA 70E before working within the electric enclosure. Failure to comply can cause injury or death. Unit contains potentially lethal voltage in some circuits. Only properly trained and qualified personnel may perform repair, maintenance and cleaning on these units. ! WARNING Risk of electric shock. Can cause serious injury or death. The fan motor control can contain a residual electric charge after power is disconnected. Do not open the motor electrical-connection enclosure within the first 10 minutes after disconnection of all phases. ! WARNING Risk of contact with high-speed, rotating fan blades. Can cause injury or death. The fan blades can start rotating without warning any time during a cooling cycle or after power is restored after a power failure. Disconnect all local and remote electrical power supplies to the unit, wait 10 minutes and verify with a voltmeter that the power is Off and that all fan blades have stopped rotating before working on or near the fans. ! CAUTION Risk of contact with hot surfaces. Can cause injury. Use proper skin protection when touching the electronics housing or allow time for the housing to cool before replacing parts. The electronics housing can get hot and can cause severe burns. The fan motors and refrigerant discharge lines are extremely hot during unit operation. Allow sufficient time for them to cool before working within the unit cabinet. Use extreme caution and wear protective gloves and arm protection when working on or near fan motors and discharge lines. ! CAUTION Risk of improper moving, lifting and handling of heavy fan modules. Can cause equipment damage or injury. Only properly trained and qualified personnel should work on this equipment. Fan modules for MCL models weigh in excess of 92lb. (40.8kg) each and fan modules for MCS and MCM models weigh in excess of 40lb. (18.1kg.) each. Use OSHA-approved lifting techniques, proper body mechanics and extreme caution to avoid injury and dropping of fans during removal and installation. NOTE If at any time a parameter is entered and the display does not show 888 or if the display shows Err, re-enter the parameter. If the display still shows Err after ENT is pressed, power cycle the control board by unplugging P24, waiting 15 seconds and plugging P24 back in. Contact the factory if the parameter still displays Err after ENT is pressed. 1. Turn Off power to the unit using the disconnect. 2. Use a voltmeter verify that voltage is no longer present at the unit. Wait a minimum of 10 minutes to allow the EC fan capacitors to discharge before proceeding. 99 Liebert® MC™ User Manual System Maintenance 3. Remove the fan cover, disconnect electrical connections internal to the EC fan and remove the cable glands from the EC fan to be replaced (see Figures 11-2, 11-3 and 11-1). 4. Remove hardware that attaches the EC fan to the condenser. 5. Use lifting equipment or an adequate number of personnel to remove the EC fan from the Liebert MC. NOTE A spreader bar may be required for the lifting equipment if only one technician is performing the fan replacement. 6. Install a spreader bar over the new EC fan if only one technician is performing the fan replacement. 7. Verify that the wire harness on the new EC fan is secured out of the way before lifting the fan. 8. Verify that the lifting cable/chains are not coming into contact with fan blades before lifting the new fan into place on the condenser. 9. Install the new fan in the Liebert MC and connect the mounting hardware. 10. Verify that the fan blades rotate freely when installed in unit. 11. Install the new cable glands included with the new EC Fan. Torque for the cable glands is: • 630mm and 710mm fans: 19.5 to 24.75 in-lb (2.2 to 2.8 Nm) • 800mm fans: 32.75 to 38 in-lb (3.7 to 4.3Nm) Dispose of the old cable glands once the new glands are installed. 12. Add a compression nut to the wire—Do not tighten the nut. 13. Reconnect the wiring to the proper terminals and verify that the run jumper is in place. Refer to Figures 11-2, 11-3 and 11-1 for wiring details. The torque for the electrical terminals is 11.5 in-lb (1.3 Nm). Tighten the compression nut to a torque of 22 in-lb (2.5 Nm). 14. With the PCB powered, the display should read F00. Refer to Figures 9-1 and 9-2. 15. Press the ESC button. 16. Press the Up arrow key once—If P- - is displayed, perform Step 17; if P- - is not displayed, perform Steps 18 through 49. Liebert® MC™ User Manual 100 System Maintenance 17. If P- - is displayed, press the ENT button to enter the P- - Menu. The P- - Menu allows for compact setup/preparation of the unit either in the factory or in the field. Use these functions in the table below to establish a default control configuration for the board. Items in the preparation menu are described in Table 11-1. Table 11-1 P-- menu items and definitions Item ID P01 Meaning Default Notes 0 Setting this value to ‘1’ will enable preparation mode. All other ‘P—‘menu items will be disabled until this value is ‘1’. Note that control operations may be affected during preparation mode therefore the indoor unit should be off. Setting this value back to ‘0’ will cause the board to create new default values based upon selections in this menu. After default values are established the board will exit preparation mode and reboot. Enter Preparation Mode P02 Automatic VSD Configuration 1 This item should only be used to address the VSDs for the unit. The value entered indicates the model of the VSD: 1 – EBM 2 – Ziehl-Abegg 3 – Fans Tech All fans must be the same model to use this parameter. When ENT is pressed, the board will operate and power contactors for the VSDs and assign ModBus addresses. This procedure may take up to 5 minutes to complete. P03 Refrigerant Type 2 1 = R22 2 = R407C 3 = R410A P04 Number of Circuits 1 1 = Single Circuit 2 = Dual Circuit P05 Liebert Lee Temp Option 0 0 = No Lee Temp installed 1 = Liebert Lee-Temp installed P06 Condenser 1 0 = Small 18. Turn the power On. 19. The control board will flash F00 on the display when it has completed its boot cycle. 20. Press the ESC button. 21. Use the Up or Down arrow key until C-- is on the display. 22. Press the ENT button. 23. Use the Up or Down arrow until C03 is on the display 24. Press the ENT button. 25. Use the Up or Down arrow key to select one of three options. Configuration Code Fan # C03 Fan 1 C04 Fan 2 C05 Fan 3 C06 Fan 4 Value 0 = No Fan 1 = EBM Papst 2 = Ziehl-Abegg 26. Press the ENT button. 27. If the new value was entered into the control board, the display will flash 888. 28. Press the ESC button for C03 to show on the display. 101 Liebert® MC™ User Manual System Maintenance 29. Repeat Steps 20 through 27 for the remaining fans’ configuration codes, C04, C05 and C06. 30. Unplug all the contactor output plugs except for the fan to be addressed. Plugs are: • P23 = Fan 1 • P27 = Fan 2 • P28 = Fan 3 • P29 = Fan 4 31. Wait 30 seconds. 32. Use the Up or Down arrow to select one of the following parameters. The correct parameter depends on the supplier of the fan that will be addressed. • C00—EBM Papst fan • C01—Ziehl-Abegg fan 33. Press the ENT button. 34. Use the Up or Down arrow to the correct fan address number. Fan 1 should be 1 (fan closest to electric panel end). Fan 2 should be 2, etc. 35. Press the ENT button. The display will flash 888 when the command is accepted. 36. Press the ESC button for the parameter to be shown on the display. 37. Repeat Steps 30 through 36 for the rest of the fans that need to be addressed. 38. After the last fan is addressed, unplug the power plug, P24, from the control board. 39. Wait 30 seconds. 40. Plug all the contactor output plugs back into the board in their correct positions. 41. Plug P24 back into the control board. 42. Once the control board has completed its boot cycle and all the contactors are energized, wait 5 seconds. 43. Press the ESC button. 44. Use the Up or Down arrow until A-- is on the display. 45. Press ENT button. 46. Use the Up or Down arrow to see if any of the following errors are shown. • 115: Unable to communicate with Fan 1. • 215: Unable to communicate with Fan 2. • 315: Unable to communicate with Fan 3. • 415: Unable to communicate with Fan 4. 47. If any of these errors appear, check the communication wiring at the problem fan and the fan before it. 48. If the wiring is correct and properly wired to the terminal, repeat the fan addressing procedure in Steps 30 through 36. 49. If none of the errors in Step 46 is displayed, press the ESC button. Liebert® MC™ User Manual 102 System Maintenance 11.3.1 Verify the Fan Address Verify that each fan has a unique address by: 1. Use the Up or Down arrow until C-- is on the display. 2. Press the ENT button. 3. In the Manual/System Control Selection parameter use the Up or Down arrow until C24 is on the display. 4. In the Manual Control configuration parameter, press the ENT button. 5. Use the Up or Down arrow to select 0. 6. Press the ENT button. The display will read 888 if the command was accepted. 7. Press the ESC button for C24 to show on the display. 8. Use the Up or Down arrow until C34 is on the display. 9. Press ENT button. 10. If Fan 1 is running, the fans speed should be displayed in terms of percentage of full speed. If Fan 1 is not running, 0.00 should be displayed. 11. Use the Up or Down arrow to enter 100% speed. 12. Press the ENT button. The display will read 888 if the command was accepted. • Fan 1 should speed up to 100%, and all the other fans should stay the same speed. 13. If Fan 1 is not running or if any of the other fans also speed up to 100%, the fan-addressing procedure (Steps 30 through 36) must be repeated. 14. Press the ESC button for the parameter to be shown on the display. 15. Repeat Steps 3 through 8 for the rest of the fans, if present. • C35: for Fan 2. • C36: for Fan 3. • C37: for Fan 4. 16. All fans should be at 100% speed. 17. Use the Up or Down arrow until C24 is on the display. 18. Press the ENT button. 19. In the System Control configuration parameter, use the Up or Down arrow to select 1. 20. Press the ENT button. The display will flash 888 if the command was accepted. 21. Press the ESC button for C24 to be shown on the display. All fans should return to a normal speed based on the pressure input and the state of indoor unit’s compressor. Premium Efficiency Control Board Configuration Notes • J6 is the CANbus termination jumpers. If the condenser is the last device in the CANbus communication line, the jumper must be placed between Pins 1 and 2 of J6. If the condenser is not the last device in the CANbus communication line, then the jumper on J6 must be placed on Pins 2 and 3. CANbus communication errors may occur if the jumpers are not in the correct positions. • A jumper must be present at J2. If a jumper is not present, the control board will not boot properly during power startup. 103 Liebert® MC™ User Manual System Maintenance Table 11-2 Premium Efficiency Control Board Configuration-parameter List Default R407c Submenu ID Meaning Metric Default R410a Imperial Metric Default R407C W/LT Default R410a W/LT Comments Imperia Imperial Metric Imperial Metric l C00 EBM address 1 1 1 1 C01 ZIEHL_ABEGG address 1 1 1 1 C02 FANS_TECH address 1 1 1 1 C03 EC Fan 1 model ID 0 0 0 0 C04 EC Fan 2 model ID 0 0 0 0 C05 EC Fan 3 model ID 0 0 0 0 C06 EC Fan 4 model ID 0 0 0 0 C07 System model ID 0 0 0 0 "0" = Single, "1" = Dual C09 System refrigerant type 2 3 2 3 "2" = R407c, "3" = R410a C10 Condenser pressure absolute max 1 18.0 bar 261 psi 28.0 bar 406 psi 18.0 bar 261 psi 28.0 bar 406 psi R407c - 17-25 bar; 247-362 psi C11 Condenser pressure absolute max 2 18.0 bar 261 psi 28.0 bar 406 psi 18.0 bar 261 psi 28.0 bar 406 psi R410a - 25-38 bar; 363-550 psi C12 Condenser pressure absolute min 1 12.0 bar 174 psi 18.0 bar 261 psi 14.0 bar 203 psi 20.0 bar 290 psi R407c - 11-17 bar; 160-246 psi C13 Condenser pressure absolute min 2 12.0 bar 174 psi 18.0 bar 261 psi 14.0 bar 203 psi 20.0 bar 290 psi R410a - 16-24 bar; 232-347 psi C14 Condenser pressure PID Kp 1.00 1.00 1.00 1.00 C15 Condenser pressure PID Kip 0.02 0.02 0.02 0.02 C16 Condenser pressure PID Kdp C17 Refrigerant temperature max 1 35°C 95.0°F 35°C 95.0°F 35°C 95.0°F 35°C 95.0°F C18 Refrigerant temperature max 2 35°C 95.0°F 35°C 95.0°F 35°C 95.0°F 35°C 95.0°F 0.00 0.00 0.00 Do not change unless properly instructed. Do not change unless properly instructed. 0.00 C19 Refrigerant temperature min 1 25°C 77.0°F 25°C 77.0°F 25°C 77.0°F 25°C 77.0°F C20 Refrigerant temperature min 2 25°C 77.0°F 25°C 77.0°F 25°C 77.0°F 25°C 77.0°F Range 30 - 40°C; 86 - 104°F Range 20 - 30°C, 68 - 86°F C21 Refrigerant temperature PID Kp 0.36 0.36 0.36 0.36 C22 Refrigerant temperature PID Kip 162.00 162.00 162.00 162.00 C23 Refrigerant temperature PID Kdp 1.00 1.00 1.00 1.00 C24 System control state 1 1 1 1 C25 Condenser pressure setting point 1 14.0 bar 203 psi 20.0 bar 290 psi 16.0 bar 232 psi 22.0 bar 319 psi R407c - 12-18 bar; 174-261 psi C26 Condenser pressure setting point 2 14.0 bar 203 psi 20.0 bar 290 psi 16.0 bar 232 psi 22.0 bar 319 psi R410a - 18-26 bar; 261-376 psi C27 Lee Temp Option C28 Minimum Speed with LeeTemp C32 Refrigerant temp. set point 1 1.67°C 35°F 1.67°C 35°F 1.67°C 35°F 1.67°C 35°F C33 Refrigerant temp. set point 2 1.67°C 35°F 1.67°C 35°F 1.67°C 35°F 1.67°C 35°F 0 0 10% 0 10% "0" = Manual, "1" = Auto "0" - No Lee Temp installed, "1" - Lee Temp installed 0 10% Do not change unless properly instructed. 10% Range 8 - 20% Range -40 - +40°C; -39.9 - +104°F C34 EC Fan1 request speed 0% 0% 0% 0% C35 EC Fan2 request speed 0% 0% 0% 0% C36 EC Fan3 request speed 0% 0% 0% 0% C37 EC Fan4 request speed 0% 0% 0% 0% C38 EC Fan Reverse Request 0 0 0 "0" = Off, "1" - On C39 EC Fan startup speed offset for pressure mode 0 0 0 Offset to the startup speed of the EC Fan in range -10% to 10% 1 1 1 "0" = Metric (bar, °C) "1" = Imperial(psi, °F) C50-C58 0 Manually sets fan speed (RPM) when C24 is set to "0". Internal system use only! C90 Prefered display units. 1 C91 Save configuration to USB flash drive. Pressing ENT will execute the function immediately. C92 Load configuration from USB flash drive. Pressing ENT will execute the function immediately. C98 Clear alarm history. C99 Restore Factory Defaults except EC fan control parameters Note: Please consult factory before making any changes to the parameter settings. Changing the parameters without proper instructions can lead to poor system performance. Liebert® MC™ User Manual 104 System Maintenance Figure 11-1 Ziehl-Abegg small, medium and large fan, Liebert MC series MCS, MCM and MCL Not used on last fan or single-fan models Maximum torque value on power and GND terminals is 22 lb-in (2.5Nm) GND A (RSA) B (RSB) ID GND A (RSA) B (RSB) ID L1 L2 L3 +24V +10V D1 E1 123 Maximum torque value on module terminals is 11 lb-in (1.3Nm) GND Edge of cable outer jacket should extend into the enclosure only as far as necessary to make the electrical connections Communication cable connection from previous fan or electrical box Tightening torque of the cable gland to the enclosure and around the cable MCS and MCM: 22 lb-in (2.5Nm); MCL: 35 lb-in (4Nm). Communication cable connection to the next fan; not used on last fan 300307DWG01 Pg. 13, Rev. 11 105 Liebert® MC™ User Manual System Maintenance Figure 11-2 EBM small and medium fan, Liebert MC series MCS/MCM OUT GND 0-10V/PWM +10V +20mA +20V GND RSB RSA RSB L3 GND L2 RSA 123 L1 A 0-10V/PWM Not used on last fan or single fan models Communication cable connection from previous fan or electrical box Communication cable connection to the next fan; not used on last fan DETAIL A 300307DWG01, Pg. 16, Rev. 11 MCS, MCM Tightening torque of the cable gland to the enclosure and around the cable 22 lb-in (2.5Nm) AIN 21 +20V AIN 2U GND DIN3 DIN2 Figure 11-3 EBM large fan—Liebert MC series MCL L2 DIN1 +10V AIN 1U RSB GND L3 L1 A RSA 123 RSB Not used on last fan or single fan models GND Edge of cable outer jacket should only extend far enough into enclosure to be able to make the electrical connections. 1 Communication cable connection from previous fan or electric box. DETAIL A Tightening torque of the cable gland to the enclosure and around the cable 35 lb-in (4Nmn) Communication cable NOTE: connection to the next fan; The existing terminal must be removed from the end of the wires on the communication cable for all fans not used on last fan 1. except the last fan. The same labeled conductors of the input and output communication cable. insert the wires into the properly marked terminal on the fan, two wires per RSA, RSB and GND terminal 300307DWG01 as shown in Detail A. Pg. 16. Rev. 11, MCL Liebert® MC™ User Manual 106 System Maintenance 11.4 Premium Efficiency Control Board Replacement ! WARNING Arc flash and electric shock hazard. Open all local and remote electric power disconnect switches, verify with a voltmeter that power is Off and wear personal protective equipment per NFPA 70E before working within the electric enclosure. Failure to comply can cause serious injury or death. This kit should be installed by properly trained and qualified personnel. 11.4.1 Replacement Preparation 1. Verify that the following jumpers are installed on the new board (see Figure 11-4): • Jumper at J4 and J6 on Pins 2 and 3. • Jumper on J2. • Jumper on J5 on Pins 1 and 2. 2. Locate the latest revision of the HMI parameters label, 303847P1, included with the new control board. Figure 11-4 Jumper locations on Control Board J4 RS485 Service Terminal 1 A Spare Analog Outputs (Not Used) 1 BAR CODE RS485 Communications to Fans P15 A 1 P81 B A B J2 1 P79 H B J5 TB57 P80 J6 1 P54 See Note 1 D58 1 TB56 TB50 1 L Communication from Indoor Unit H 1 CANbus P64 J4 1 TB49 3 1 J5 P29 1 L Communication from Indoor Unit 1 P28 P19 P27 See Note 2 Fan2 Fan Contactor Output LED1 LED2 P23 1 J2 J8 J7 J6 LE Fan 1 SW1 Circuit 2 Circuit1 UP D57 D2 DOWN 1 Call for Cooling Ethernet and CANbus addressing and signal indication ENT 1 1 Indicator lights: ON - signal present P21 Circuit2 Fan 3 1 F3 T3.15A, 250Vac 1 ACM01M1 1 TB74 Mother Board CAUTION: E1 1 Earth Ground Alarm & Shutdown Circuits P24 24VAC NOTE: 1. J6 is the CANbus termination jumper. J4 is the RS485 service termination jumper. If the condenser is the last device in the CANbus communication line, the jumper must be placed between Pins 1 and 2 of J6. If the condenser is not the last device in the CANbus communication line, the jumpers on J6 must be placed on Pins 2 and 3. If the jumper is not in the correct positions, CANbus communication errors may occur. The jumper on J4 will always be placed between Pins 1 and 2. 2. A jumper must be present at J2. If a jumper is not present, the control board will not boot properly during power startup. 107 Remote Shutdown 1 F2 T3.15A, 250Vac VER:A02 2010.08.10 24VAC TB38 Circuit1 Fan 4 TB11 P67 P17 P18 Indicator lights: ON - signal present P20 Temperature Inputs CPU Board 1 1 Ambient 1 BOOTPSWD SYS APP X Y No. Circuit2 BAR CODE Circuit1 Pressure Inputs ACM01U1 VER:A03 2010.08.10 3 J6 1 Service Spare Digital Outputs (Not Used) For Continued Protection Against Risk of Fire, Replace Only With Same Type and Rating of Fuse. Control Fuses Max. Fuse Rating: 3A/250V 301471 Pg. 2, Rev. 4 Liebert® MC™ User Manual System Maintenance 11.4.2 Installation ! WARNING Risk of arc flash and electric shock hazard. Open all local and remote electric power supply disconnect switches, verify with a voltmeter that power is Off and wear appropriate personal protective equipment per NFPA 70E before working within the electric control enclosure or the fan motor connection box(es). Failure to comply can cause serious injury or death. This unit contains lethal voltage. The line side of the unit disconnect switch remains energized when the unit disconnect switch is in the “Off” position. Use a voltmeter to verify that the line side input electric power to the unit disconnect switch is Off before working on any electrical components or connections. 1. Turn Off the disconnect switch on the enclosure cover. 2. Open the control enclosure cover. 3. Manually turn On the disconnect switch. Power is On and a shock hazard exists with exposure to hazardous voltage components. 4. If the board can still be powered up and has a display, record the parameter settings. To obtain parameters go to the C-- menu and press the Up or Down button to read and record the values for C03-09 and C27. 5. Record all of the DIP switch positions for the CANbus DIP switch package. Retain these for setting up the new board. 6. Record the positions of the jumpers for J2, J4, J5 and J6 on control board in the unit. Retain these for setting up the new board. 7. Disconnect power from the Liebert MC by turning Off the main disconnect switch. 8. Use a voltmeter to verify that voltage is no longer present in the unit. 9. Remove the plugs and field-installed wires from the old board. Note the polarity for the CANbus wiring going to P49 and P50, if present. 10. Mark wires P49-1, P49-3, etc, if they are not already marked. 11. Remove the mechanical fasteners holding the control board in place and remove the old control board. 12. Install the new control board using the fasteners removed in Step 11. 13. Reattach the plugs. Refer to the hot-stamps on the wire harnesses that correspond to the correct plug on the board. Verify that the plugs are installed properly. 14. Change the CANbus DIP switch positions so they match the control board that was removed. If the Liebert MC is the second condenser on the CANbus communication line, set Position 1 of the CANbus DIP switch from On to Off. 15. Change the jumper positions for J2, J4, J5 and J6 to match the control board that was removed. If the Liebert MC is the last device on the CANbus communication line, move the jumper at J6 from Pins 2 and 3 to Pins 1 and 2 (see Figure 11-4). 16. Power up the unit. 17. Change the parameters to match the parameters from the control board that was removed if they were obtained from the old board in Step 4. See Step 18 if the parameters were unavailable. 18. If the old board parameters were unavailable, use the new HMI label included in kit to obtain the proper settings. Parameters C03, C04, C05 and C06 must be programmed with the proper EC fan supplier used on the unit. 19. Address the fans (refer to 11.3 - Fan Replacement). Liebert® MC™ User Manual 108 System Maintenance 20. Compare the HMI label on the unit with the latest revision. • If there are differences, clean and dry the surface of the old HMI label; attach the new label on top of the old label, covering the old label with the new one. 21. Verify that the control board is reading pressure and temperature. 22. Verify that there are no communication alarms with the fans or with the cooling unit the Liebert MC is serving. 23. Verify proper fan operation by adjusting the cooling unit that this condenser serves so that it calls for cooling. 109 Liebert® MC™ User Manual System Maintenance Page intentionally left blank. Liebert® MC™ User Manual 110 Preventive Maintenance Checklist 12.0 Preventive Maintenance Checklist Source: DPN003119, Rev. 0 MC Preventive Maintenance Worksheet Preventive Maintenance Worksheet Inspection Date Job Name Indoor Unit Model # Indoor Unit Serial Number # Condenser/Drycooler Model # Condenser/Drycooler Serial # Room Temperature/Humidity ° % Ambient Temperature ° Good maintenance practices are essential to minimizing operation cost and maximizing product life. Read and follow all applicable maintenance checks listed below. At a minimum, these checks should be performed semi-annually. However, maintenance intervals may need to be more frequent based on sitespecific conditions. Review the unit user manual for further information on unit operation. Emerson recommends the use of trained and authorized service personnel, extended service contracts, and factory-certified replacement parts. Contact your local Emerson Representative for more details. Check all that apply: Air-Cooled Fin-and-Tube Condenser/Drycooler (if equipped) ___ 1. Coil clean free of debris ___ 2. Motor mounts tight ___ 3. Piping support/clamps secure ___ 4. Check/Re-torque wire connections ___ 5. Check contactors for pitting (replace if pitted) ___ 6. Check fuses ___ 7. Verify fan operation ___ 8. Check surge-protection device status-indicator lights (if equipped) ___ 9. Ambient thermostat settings ______ ______ ______ ______ ___ 10. Refrigerant level (Lee-Temp™ ) ___ 11. Glycol level ___ 12. Glycol solution __________________% ___ 13. Water/Glycol solution flowing continuously/clean and free of debris ___ 14. Water-treatment plan established and followed for open cooling-tower application ___ 15. Check refrigerant/glycol lines for signs of leaks/repair as found ___ 16. Motor amp draw #1 L1 L2 L3 #2 L1 L2 L3 #3 L1 L2 L3 #4 L1 L2 L3 #5 L1 L2 L3 #6 L1 L2 L3 #7 L1 L2 L3 #8 L1 L2 L3 111 Liebert® MC™ User Manual Preventive Maintenance Checklist Glycol Pump (if equipped) ___ 1. Check pump rotation ___ 2. Check for glycol leaks ___ 3. Pump pressures #1 Suction Discharge #2 Suction Discharge #3 Suction Discharge ___ 4. Amp Draw #1 L1 L2 L3 #2 L1 L2 L3 #3 L1 L2 L3 ___ 5. Verify pump changeover (if multiple pumps) Liebert MC Condenser (if equipped) ___ 1. Coil clean ___ 2. Fans free of debris ___ 3. Fans securely mounted ___ 4. Motor bearings in good condition ___ 5. Check all refrigerant lines for vibration isolation. Support as necessary ___ 6. Check for refrigerant leaks ___ 7. Check surge-protection device (if installed) status-indicator lights ___ 8. Check/Re-torque wire connections ___ 9. Check contactors for pitting (replace if pitted) ___ 10. Verify operation sequence/set points ___ 11. Charge verification: ___ a. Outdoor Ambient Temperature __________ ___ b. Subcooling __________ ___ c. Indoor-unit Return-air Temperature __________ ___ d. Sight-glass level (if Lee-Temp or pumped refrigerant) __________ ___ 12. Motor amp draw #1 L1 L2 L3 (L1 and L2 on Fan Speed Control Motor) #2 L1 L2 L3 #3 L1 L2 L3 #4 L1 L2 L3 #5 L1 L2 L3 #6 L1 L2 L3 #7 L1 L2 L3 #8 L1 L2 L3 Liebert® MC™ User Manual 112 Preventive Maintenance Checklist Liebert EconoPhase Pumped-refrigerant Economizer (if equipped) ___ 1. Check for refrigerant leaks ___ 2. Check/Re-torque wire connections ___ 3. Check contactors for pitting (replace if pitted) ___ 4. Verify pump-speed control operation ___ 5. Check pump mounting 113 Liebert® MC™ User Manual Preventive Maintenance Checklist Maintenance Notes Name Signature Company Make photocopies for your records. Compare readings/information to previous maintenance worksheet. To locate your local Liebert representative for Liebert engineered parts, check the Liebert Web site : www.liebert.com or Ccall 1-800-Liebert. Liebert® MC™ User Manual 114 Technical Support / Service Web Site www.liebert.com Monitoring [email protected] 800-222-5877 Outside North America: +00800 1155 4499 Single-Phase UPS & Server Cabinets [email protected] 800-222-5877 Outside North America: +00800 1155 4499 Three-Phase UPS & Power Systems 800-543-2378 Outside North America: 614-841-6598 Environmental Systems 800-543-2778 Outside the United States: 614-888-0246 Locations United States 1050 Dearborn Drive P.O. Box 29186 Columbus, OH 43229 Europe Via Leonardo Da Vinci 8 Zona Industriale Tognana 35028 Piove Di Sacco (PD) Italy +39 049 9719 111 Fax: +39 049 5841 257 Asia 7/F, Dah Sing Financial Centre 108 Gloucester Road, Wanchai Hong Kong 852 2572220 Fax: 852 28029250 While every precaution has been taken to ensure the accuracy and completeness of this literature, Liebert Corporation assumes no responsibility and disclaims all liability for damages resulting from use of this information or for any errors or omissions. © 2016 Liebert Corporation All rights reserved throughout the world. Specifications subject to changewithout notice. ® Liebert is a registered trademark of Liebert Corporation. All names referred to are trademarks or registered trademarks of their respective owners. SL-19536_REV4_4-16 590-1329-501A Emerson Network Power Liebert www.emersonnetworkpower.com