JOHNSON CONTROLS
138
FORM 160.84-OM1
ISSUE DATE: 9/21/2017
SECTION 6 - PRINTING
YORK UPDATE
Status or History
YORK History 1 (line only displayed for History Report)
YORK Live Data (line only displayed for Status Report)
¬Sales Order Job Name here
Sales Order Model Number here
Sales Order Serial Number here
Sales Order Compressor Model here
Sales Order Evaporator Model here
Sales Order Condenser Model here
Sales Order VSD Model here
YMC2 Chiller ID 1
(c) 2010 Johnson Controls
Sun 05 Dec 2010 8:04:27 AM
SAFETY SHUTDOWN - MANUAL RESTART
MBC - SPEED SIGNAL FAULT
VSD - DC BUS ACTIVE
Controls C.OPT.18.00.213
Run Time 0 Days 1 Hr 14 Min 6 Sec
Operating Hours = 83 Hr
Number Of Starts = 41
Control Source = Digital
Run Permissive = True
Evaporator
------------------------------------------------------
Chilled Liquid Pump = Run
Chilled Liquid Flow Switch = Closed
Active LCHLT Setpoint = 44.0 ~F
Shutdown Temperature = 40.0 ~F
Leaving Chilled Liquid Temperature = 44.8 ~F
Entering Chilled Liquid Temperature = 50.3 ~F
Evaporator Pressure = 46.4 PSIG
Evaporator Saturation Temperature = 50.9 ~F
Evaporator Refrigerant Temperature = 50.9 ~F
(when sensor is Enabled)
Evaporator Small Temp Difference = -6.1 ~F
Condenser
------------------------------------------------------
Condenser Liquid Pump = Stop
Condenser Liquid Flow Switch = Closed
Leaving Condenser Liquid Temperature = 70.6 ~F
Entering Condenser Liquid Temperature = 67.9 ~F
Condenser Pressure = 68.3 PSIG
Condenser Saturation Temperature = 68.1 ~F
Condenser Small Temp Difference = -2.5 ~F
Drop Leg Refrigerant Temp = 68.5 ~F
Subcooling Temperature = -0.4 ~F
Head Pressure = 2.7 PSID
(when HPC is Enabled)
Head Pressure Setpoint = 23.0 PSID
(when HPC is Enabled)
PID Control Mode = Inactive
(when HPC is Enabled)
Control Valve Command = 0.0 %
(when HPC is Enabled)
Isolation Valves Opening = On
(when Iso Vlv is Enabled)
Isolation Valves Opened Limit Switch = On
(when Iso Vlv is Enabled)
Isolation Valves Closing = Off
(when Iso Vlv is Enabled)
Isolation Valves Closed Limit Switch = Off
(when Iso Vlv is Enabled)
Compressor
-----------------------------------------------------
Discharge Temperature = 79.0 ~F
Discharge Superheat = 14.0 ~F
Surge
-----------------------------------------------------
Surge Count = 0
Delta P / P = 1.23
Surge Window Time = 0 Min
Surge Window Count = 0
FIGURE 53 - SAMPLE PRINTOUT (STATUS OR HISTORY)
Condenser Refrigerant Level Control
-----------------------------------------------------
Condenser Refrigerant Level = 7.3 %
Condenser Active Level Setpoint = 7.3 %
Condenser Level Control State = Inactive
Condenser Level Control Valve Command = 25.0 %
Subcooler Effectiveness = 0.100
Subcooler Effectiveness High Threshold = 1.500
Subcooler Effectiveness Low Threshold = 0.400
Variable Geometry Diffuser
------------------------------------------------------
Active Stall Voltage = 0.22 V
Active Stall Voltage Type = Standard
Mach Number = 1.25
Sec
Discharge Pressure = 46.3 PSIG
VGD Feedback Counts = 23456
VGD Fault Code = 0000 0000 0000 0000
Variable Speed Drive
------------------------------------------------------
VSD Inverter = C.H035.04.01.02
VSD Rectier = C.H035.03.01.02
Motor Run = Off
VSD Fault = Off
Input % Full Load Amps = 0.0 %
Input Job Full Load Amps = 200 A
VSD Output Voltage = 0 V
VSD Output Frequency = 0.00 Hz
Max Chiller Frequency = 345.00 Hz
Input Power = 0 kW
Input kW Hours = 5543 kWh
L1 Voltage Total Harmonic Distorti = 8.0 %
L2 Voltage Total Harmonic Distortion = 8.0 %
L3 Voltage Total Harmonic Distortion = 3.0 %
L1 Input Current Total Demand Distortion = 0.0 %
L2 Input Current Total Demand Distortion = 0.0 %
L3 Input Current Total Demand Distortio = 0.0 %
Input KVA = 1 kVA
Input Power Factor = 0.00
Motor % Full Load Amps = 0.0 %
VSD Command = Run
VSD Control State = Run
VSD Inverter State = Run
Phase Rotation = ABC
Precharge Active = On
Precharge Complete = False
DC Bus Regulating = Off
DC Bus Voltage = 696 V
Input Current Limit = Off
Cooling System = On
L1 Input Voltage (peak) = 698 V
L2 Input Voltage (Peak) = 707 V
L3 Input Voltage (Peak) = 696 V
L1 Input Voltage (RMS) = 698 V
L2 Input Voltage (RMS) = 707 V
L3 Input Voltage (RMS) = 696 V
L1 Input Current (RMS) = 1 A
L2 Input Current (RMS) = 1 A
L3 Input Current (RMS) = 0 A
Phase A Output Voltage (RMS) = 0 V
Phase B Output Voltage (RMS) = 0 V
Phase C Output Voltage (RMS) = 0 V
Phase A Output Current (RMS) = 0 A
Phase B Output Current (RMS) = 0 A
Phase C Output Current (RMS) = 0 A
Phase A Rectier Baseplate Temperature = 81 ~F
Phase B Rectier Baseplate Temperature = 80 ~F
Phase C Rectier Baseplate Temperature = 77 ~F
Phase A Inverter Baseplate Temperature = 87 ~F
Phase B Inverter Baseplate Temperature = 82 ~F
Phase C Inverter Baseplate Temperature = 80 ~F
Internal Ambient Temperature 1 = 77 ~F
Internal Ambient Temperature 2 = 77 ~F
Test Mode = Disabled
Manual DC Bus = Disabled
Manual VSD Cooling = Disabled
ID Faults = 0
Checksum Errors = 0
Error Packets = 0
Timeout Faults = 0
VSD Fault Waveform Available = Yes
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