Emerson 20/20 service manual Cool Compression Control

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Section 25 • Cool Compression Control

operational differences that are mostly associated with the compressor safeties:

1.The Cool Compression program ignores,

Low Oil Separator Alarm / Trip at start

High Filter Differential at start

Prelube Oil Pressure Alarm and Trip

Run Oil Pressure Alarm and Trip (Pressure Ratios are monitored instead).

High Discharge Temp Alarm and Trip (Discharge Temp Superheat is monitored)

Low Suction Temp Alarm and Trip

Low Oil Injection Temp Alarm and Trip

High Oil Injection Temp Alarm and Trip

2.SOI solenoid is forced on for first 60 seconds of run- ning and 10 minutes after compressor is stopped.

3.Auto Load Enabled: When Auto Load is engaged at start, it then maintains the position of capacity slide to the Auto Load limit (approx : 30 %, but less than 50 %). It displays status message “Cool Compression Capacity Hold” when it is running. Unless Auto load is disengaged compressor will run at auto load limit position. Auto load disengages if enough Pressure Ratio is built (typically more than 2.04) or setpoints are achieved.

4.SOI Solenoid: During normal operation if pressure ra- tio drops to a lower value (typically below 2.00) then it energizes SOI solenoid and maintains the position of ca- pacity slide to the SOI Load limit (approx : 30 %, less than

50%). It also displays status message “Cool Compression Capacity Hold”. If enough Pressure Ratio is built across the compressor (typically more than 2.04), it again re- sumes the run mode and control normally.

5.It performs Cool Compression specific checks periodi- cally like:

Controlling the liquid level positioning valve as liquid ammonia level changes .

Low / high Pressure Oil Injection ports control as Pressure Ratio and Superheat temperature changes.

Supplemental Oil Cooling Solenoids

Some cool compression units will have supplemental oil cooling solenoids. One is called the suction liquid injection solenoid and is controlled via discharge su- perheat. When the discharge superheat reaches 5°F, the solenoid is turned on. When it falls back to below 4°F, the solenoid is turned off. An additional solenoid (referenced as SV4 – as called the High Press Ratio solenoid) provides supplemental oil cooling based on pressure ratio. When the pressure ratio rises above

5.0, the solenoid is turned on. When the pressure ra- tio falls back to below 4.8, the solenoid is turned off.

Level Switches

There are two level switches in the oil separator, a “high” and a “low”. During normal running opera- tion, the oil level is above both switches. When the oil level starts to drop and opens the high level switch, a 10 minute timer starts. When the timer elapses a flashing “add oil to middle of sight glass” message ap- pears on the main screen. When the operator adds enough oil to close the high level switch, the mes- sage disappears.

NOTICE

If oil is not added and the oil level continues to drop thereby opening the “low” oil level switch, a 10 minute timer starts again. When the timer elapses, the com- pressor shutdowns immediately and displays “Low Oil Level” failure. If enough oil is added to close the low level switch, then this will allow the opeator to press the reset button and clear the “Low Oil Level” failure and “Add Oil” message.

Oil Level Messaging After Compressor Stops

The low level switch is monitored after the compres- sor stops. If the switch opens after the compressor stops, a two minute timer starts. If the switch stays open, and the timer expires, a failure is generated called “Lo Oil Level Fail after Stop” and the compres- sor is disabled from restarting until oil is added to close the low level switch. Note that this failure is generated ONLY when the low level switch opens af- ter the compressor stops.

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Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.8.5153

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Contents Vission 20/20 micro-controller Page Table of Contents TOC Digital I/O Board Layout Top Status BarCompressor Sequencing Event List Data Backup List of Tables and Figures END of TOC How to Use This Manual Critical Compressor Run Logic at Compressor Start Operational Flow ChartsRequirements to Start Compressor Compressor Amperage Load LimitingOperational Flow Charts 2 Proper Wiring Sizing Installation RecommendationsVoltage Source Grounding DC signalsMixing Voltages Wiring Methods Correct Transformer Wiring MethodBest Practices Hardware Architecture OverviewDigital Input/Output I/O Digital I/O 1 Board Description TypeAnalog Inputs Refer to -2. Analog Inputs Motor CurrentDigital I/O 2 Analog Inputs 1Analog Outputs Digital & Analog I/O Boards LayoutAnalog Inputs 2 Digital I/O Board LayoutDigital Output Boards Digital Output Board LayoutDigital Input Boards Digital Input Board LayoutDigital In-Out Boards Digital Input-Output Board LayoutAnalog Input Boards Analog Input Board LayoutChannel Signal Analog Input Jumper TablesJP-13 JP-14 JP-15 JP-31 Analog Output Boards Analog Output Board LayoutMain Screen Main ScreenTop Status Bar Parameter Bar Unit Start Pop-Up Window Bottom Status Bar Splash Screen Menu Screen Navigation ButtonsMenu Screen Compressor Control Pulse Proportional ControlAuto-Cycle Proportional Band & SetpointVariable Frequency Drive VFD VFD One-Step Control MethodPumpdown Control Pulldown Control Stop Load and Force Unload Control ModeVolume Slide Position Offset Capacity Slide Triggered OutputsOil Control Load AnticipatingLiquid Injection Compressor Control Alarms and Trips Alarms and Trips SetpointsAlarms and Trips Safety Failure Messages Compressor InhibitsFalse Start Timers Timer SetpointsOil Separator Level #2 Safety Trip Delay Timers Blank Compressor Scheduling Scheduling SetpointCompressor Scheduling Compressor Sequencing Pressure Control SetpointsCFM Equipment List 10 4 / Blank Condenser Control Condenser Control SetpointStep Control VFD Settings Step Control Screen11 4 / Blank Service Options Digital OutputsAnalog Outputs Pressure and Temperature Inputs Instruments CalibrationMotor Current Remote CapacityAnalog Inputs 13 4 / Blank Slide Calibration Capacity Slide Valve PotentiometerSlide Valve Operation Volume Slide Valve PotentiometerSlide Valve Actuator Calibration for Optical Style Motors Photochopper Command Shaft Rotation Command Shaft Rotation Required By ActuatorSlide Valve Troubleshooting Guide Slide Valve Troubleshooting Guide 1Slide Valve Troubleshooting Guide 2 Slide Valve Actuator Troubleshooting Guide Blink Code LED Blink Codes and Troubleshooting Guide 1LED Blink Codes and Troubleshooting Guide 2 Pleted. The actuator will not move while this error codeTrend Chart Chart OperationTrend Data Storage Setup Trend Setup Screen15 4 / Blank Event List Event list Columns16 2 / Blank Input / Output Input/Output Screen17 2 / Blank Auxiliary Input / Output Digital InputsDigital Outputs Control 18 4 / Blank Units ConfigurationTime & Date Touchscreen CommunicationsAnti-Recycle Language Restart On Power FailureCompressor Sequencing Model & RefrigerantCompressor Control Optional Function SelectionOil Cooling Condenser ControlOil Pump Motor Current DeviceDigital Inputs Analog Inputs Analog Outputs Configuration 19 10 / Blank Data Backup Save / LoadData Backup Factory Reset Migrate20 4 / Blank Maintenance ChecklistChart LogUser Access ApplyLogin Manage AccountsSecurity Access Levels Screen Security Levels22 4 / Blank Screen Features Help ScreenVersion Pop-Up Screen Twin Screw Control Twin Screw Control ScreenOperation Cool Compression Control Cool Compression Control ScreenControl Functions Cool Compression Control Functions ScreenAuto Load Timer Operational Differences from Single ScrewCool Compression Control

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