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Vission 20/20 micro-controller
Operation and service manual • Version 1.9
Table of Contents
Section Title Section Number
Section 1 • Operational Flow Charts
Section 2 • Installation Recommendations
Section 3 • Hardware Architecture
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
TOC - 1
Table of Contents
Section Title Section Number
Section 4 • Main Screen
Section 5 • Menu Screen
Section 6 • Compressor Control
Section 7 • Alarms and Trips
TOC - 2
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Table of Contents
Section Title Section Number
Section 8 • Timers
Section 9 • Compressor Scheduling
Section 10 • Compressor Sequencing
Section 11 • Condenser Control
Section 12 • Service Options
Section 13 • Instruments Calibration
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
TOC - 3
Table of Contents
Section Title Section Number
Section 14 • Slide Calibration
Section 15 • Trend Chart
Section 16 • Event List
Section 17 • Input / Output
Section 18 • Auxiliary Input / Output
TOC - 4
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Table of Contents
Section Title Section Number
Section 19 • Configuration
Section 20 • Data Backup
Section 21 • Maintenance
Section 22 • User Access
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
TOC - 5
Table of Contents
Section Title Section Number
Section 23 • Help Screen
Section 24 • Twin Screw Control
Section 25 • Cool Compression Control
Section 26 • Remote Oil Cooler
Appendix A • Vission 20/20 Troubleshooting Guide
TOC - 6
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
List of Tables and Figures
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
TOC - 7
List of Tables and Figures
TOC - 8
END OF TOC
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
How to Use This Manual
This manual contains instructions for the Vission 20/20
Operation & Service Manual. It has been divided into 27 sections.
WARNING - Warning statements are shown when there are hazardous situations, if not avoided, will result in serious injury or death.
Section 1: Operational Flow Charts
Section 2: Installation Recommendations
Section 3: Hardware Architecture
Section 4: Main Screen
Section 5: Menu Screen
Section 6: Compressor Control
Section 7: Alarms & Trips
Section 8: Timers
Section 9: Compressor Scheduling
Section 10: Compressor Sequencing
Section 11: Condensor Control
Section 12: Service Options
Section 13: Instruments Calibration
Section 14: Slide Calibration
Section 15: Trend Chart
Section 16: Event List
Section 17: Input/Output
Section 18: Auxiliary Input/Output
Section 19: Confi guration
Section 20: Data Backup
Section 21: Maintenance
Section 22: User Access
Section 23: Help Screen
Section 24: Twin Screw Control
Section 25: Cool Compression Control
Section 26: Remote Oil Cooler
Appendix A: Vission 20/20 Troubleshooting Guide
It is highly recommended that the manual be reviewed prior to servicing the Vission 20/20 system parts.
CAUTION - Caution statements are shown when there are potentially hazardous situations, if not avoided, will result in damage to equipment.
NOTE - Notes are shown when there are addtional information pertaining to the instructions explained.
NOTICE - Notices are shown when there are important information that can help avoid system failure.
For additional information pertaining to the Vission
20/20, refer to www.Vission2020.net/documents.
Information that can be found on the site are:
• Manuals
• Release Advisories
• Application Notes
• Videos
Figures and tables are included to illustrate key concepts.
Safety precautions are shown throughout the manual.
They are defi ned as the following:
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
TOC - 9
Standard Vilter Warranty Statement
Seller warrants the products it manufactures to be free from defects in material and workmanship for a period of eighteen (18) months from the date of shipment from Seller’s manufacturing plant or twelve (12) months from date of installation at the initial end users location, whichever occurs fi rst. In addition, Seller provides the following extended warranties: (a) three (3) years from the date of shipment on single screw compressor internal rotating parts, (b) two
(2) years from the date of shipment on reciprocating compressors and single screw and reciprocating compressor parts, and (c) two (2) years on all other parts on a single screw compressor unit. Such warranties do not apply to ordinary wear and tear. Seller does not warrant that the product complies with any particular law or regulation not explicitly set forth in the specifi cations, and Buyer is responsible for ensuring that the product contains all features necessary to safely perform in Buyer’s and its customer’s plants and operations. Buyer must notify Seller of any warranty claim within ten (10) days after such claim arises, otherwise Buyer waives all rights to such claim. Products supplied by Seller, which are manufactured by others, are not warranted by Seller, but rather Seller merely passes through the manufacturer’s warranty to Buyer.
SELLER EXPRESSLY DISCLAIMS ALL OTHER WARRANTIES, WHETHER EXPRESS OR IMPLIED, INCLUDING THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
Unless otherwise agreed in writing, Buyer’s sole remedy for breach of warranty is, at Seller’s option, the re-pair of the defect, the correction of the service, or the providing a replacement part FOB Seller’s offi ce. Seller will not be responsible for costs of dismantling, lost refrigerant, reassembling, or transporting the product. Further, Seller will not be liable for any other direct, indirect, consequential, incidental, or special damages arising out of a breach of warranty.
THESE WARRANTY REMEDIES ARE EXCLUSIVE AND ALL OTHER WARRANTY REMEDIES ARE EXCLUDED. Products or parts for which a warranty claim is made are to be returned transportation prepaid to Seller’s factory. Any improper use, corrosion, neglect, accident, operation beyond rated capacity, substitution of parts not approved by Seller, or any alteration or repair by others which, in Seller’s judgement, adversely affects the Product, shall void all warranties and warranty obligations. Further, Seller shall not be liable under the above warranties should Buyer be in default of its payment obligations to Seller under this Agreement or any credit agreement.
TOC - 10
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 1 • Operational Flow Charts
Requirements to Start Compressor
Volume and
Capacity slides are less than 5%
Oil Separator Temp
>Oil Sep Start Trip
Setpt
Filter Diff Press <
Start Filter Diff Trip
Setpt
Oil Pump On: Prelub Oil Press is > Prelub Oil
Press Reset Setpt for “Min Compressor Prelub Timer” setting (typically 5 seconds)
Start Compressor
Critical Compressor Run Logic at Compressor Start
Start
Compressor
Is
Run Oil Press>
Prelub Oil Press
Reset setpt?
(Default 5 PSI)
No
Run Oil Press Failure
“Filter Diff Press Safety
Changeover” timer expires
(60 sec after start)
Yes
“Oil Press
Bypass at Comp
Start” timer expires (60 sec after start)
Yes
Is
Run Oil Press>
Run Oil Press
Reset setpt?
(Default 40 PSI)
No
Run Oil Press Failure
Is Filter Diff >
Hi Filter Diff Press Run
Trip Setpt for 5 seconds
Yes
Yes
No
Oil Separator Temp
Safety Changeover
Timer expires (5 min after start)
Yes
Is
Oil Sep Temp > Lo
Oil Sep
Run Reset setpt?
No
Yes Run
Lo Run Oil Sep Temp Failure
Run Filter Diff Press Failure
Compressor Amperage Load Limiting
Is
Motor Amps >
FLA (ON)
Setpt?
No
Yes
Capacity Increase
Disabled
High Discharge Pressure Load Limiting
Is
Dsch Press >
Cutin (ON)
Setpt?
No
Yes
Capacity Increase
Disabled
Is
Motor Amps >
FLA (OFF)
Setpt?
Yes
Capacity Decrease until Amps < FLA x
1.0625
Is
Dsch Press >
Cutout (OFF)
Setpt?
No
Normal Loading and
Unloading
No
Figure 1-1. Operational Flow Charts (1 of 2)
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Yes
Capacity Decrease until
Dsch Press < ON Setpt x
1.0625
Normal Loading and
Unloading
1 – 1
Section 1 • Operational Flow Charts
Suction Pressure Override Load Limit During Temperature Control
Is
Suction Press <
Suct Press Cap
Dec OFF
Setpt?
No
Yes
Capacity Increase
Disabled
Is
Suction Press <
Suct Press Cap
Dec ON
Setpt?
Yes
Decrease compressor capacity until Suction
Press > Suction Press Cap Decrease ON setpoint.
No
Normal Loading and
Unloading
Figure 1-1. Operational Flow Charts (2 of 2)
1 – 2
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 2 • Installation Recommendations
Proper Wiring Sizing
• Always size wire gauges as specifi ed by the National
Electrical Code (NEC) for electronic control devices.
• For improved noise immunity, install one size larger wire gauge than the NEC requirement to assure ample current-carrying capability.
• Never under size wire gauges.
Voltage Source
• Transformers block a large percentage of
Electro-Magnetic Interference (EMI). The Vilter
Vission 20/20 should be isolated with its own control transformer for the most reliable operation, see
Figure 2-1. Vission 20/20 with Individual Transformer.
• Connecting the Vilter Vission 20/20 to breaker panels and central control transformers exposes the Vission
20/20 to large amounts of EMI emitted from the other devices connected to the secondary terminals of the transformer. This practice should be avoided if possible, see Figure 2-2. EMI and Vission 20/20.
Figure 2-1. Vission 20/20 with Individual Transformer
Figure 2-2. EMI and Vission 20/20
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
2 – 1
Section 2 • Installation Recommendations
Grounding
• Continuous grounds must be run from the utility ground to the Vission 20/20, see Figure 2-3.
Grounding.
• Grounds must be copper or aluminum wire.
• Never use conduit grounds.
• Each voltage level must be run in separate conduit:
• 460 VAC • 120 VAC • DC Signals
• 230 VAC • 24 VAC
• If your installation site has wire-ways or conduit trays, dividers must be installed between the different voltages.
Mixing Voltages
• Separate different voltages from each other and separate AC from DC, see Figure 2-4. Mixed Voltage
Wiring.
DC signals
• If your installation site has wire-ways or conduit trays, dividers must be installed between the different voltages.
Figure 2-3. Ground Wiring
2 – 2
Figure 2-4. Mixed Voltage Wiring
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 2 • Installation Recommendations
Wiring Methods
• Each Vission 20/20 panel should have its own individual control transformer, see Figure 2-5. Correct
Transformer Wiring Method and Figure 2-6. Incorrect
Transformer Wiring Method.
Figure 2-5. Correct Transformer Wiring Method
Figure 2-6. Incorrect Transformer Wiring Method
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
2 – 3
Section 2 • Installation Recommendations
Best Practices
• Do:
• Keep AC wires away from circuit boards.
• Always run conduit into the bottom or sides of an enclosure.
• If the conduit must be placed in the top of an enclosure, use a water-tight conduit fi tting to keep water from entering the enclosure.
• The Vission 20/20 is supplied with prepunched conduit holes. Use them!
• Don’t:
• Don’t run wires through the Vission 20/20 enclosure that are not related to the compressor control.
• Don’t add relays, timers, transformers, etc. in the Vission 20/20 enclosure without fi rst checking with Vilter.
• Don’t run conduit into the top of an enclosure.
• Don’t run refrigerant tubing inside the enclosure.
• Don’t drill metal enclosures without taking proper precautions to protect circuit boards from damage.
2 – 4
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 3 • Hardware Architecture
Overview
The Vission 20/20 control panel utilizes X-86 PC technology with a Linux operating system. For hardware architecture, see Figure 3-1. Hardware Architecture
Overview.
The Vission 20/20 has the following attributes:
• Low power, Industrial rated X-86 CPU.
• 15” XGA, high resolution LCD display. (Outdoor viewable LCD optional).
• 8-wire touch screen operator interface.
• Flexible and expandable I/O.
• NEMA-4 enclosure (NEMA-4X optional).
• Industrial temperature range design.
Figure 3-1. Hardware Architecture Overview
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
3 – 1
Section 3 • Hardware Architecture
Digital Input/Output (I/O)
Refer to Table 3-1. Digital I/O.
Compressor Start Output:
• When the Vission 20/20 signals the compressor to start, this output is energized. When the Vission
20/20 signals the compressor to stop, this output is de-energized.
Oil Pump Start Output:
• When the Vission 20/20 signals the oil pump to start, this output is energized. When the Vission 20/20 signals the oil pump to stop, this output is de-energized.
Capacity Increase Output:
• This output is only active when the compressor is running. When the Vission 20/20 determines that the compressor should increase capacity by moving the slide valve to a higher percentage, this output is energized. Once the slide valve reaches 100%, this output will not energize.
Capacity Decrease Output:
• This output is only active when the compressor is running. When the Vission 20/20 determines that the compressor should decrease capacity by moving the slide valve to a lower percentage, this output is energized. Once the slide valve reaches 0%, this output will not energize.
Volume Increase Output:
• This output is only active when the compressor is running. When the Vission 20/20 determines that the compressor should increase Volume Index (VI) by moving the volume slide to a higher percentage, this output is energized. Once the volume slide reaches
100%, this output will not energize.
Volume Decrease Output:
• This output is only active when the compressor is running. When the Vission 20/20 determines that the compressor should decrease Volume Index (VI) by moving the volume slide to a lower percentage, this output is energized. Once the volume slide reaches
0%, this output will not energize.
Oil Sump Heater Output:
• This output is active and energized when the oil separator temperature is lower than the oil separator temperature setpoint. It is de-energized when the oil separator temperature is higher than the oil separator temperature setpoint.
Trip Output:
• This output is energized when the system has no
Trips. If a trip is issued, the output de-energizes and stays de-energized until the trip condition is cleared.
Slide Valve Setpoint #1 Output (Economizer Port #1):
• Normally used for an economizer solenoid, but could be used for other devices. When the compressor slide valve percentage is equal to or greater than “slide valve set-point #1”, the output is energized. When the compressor slide valve percentage is less than
“slide valve set-point #1”, the output is de-energized.
Slide Valve Setpoint #2 Output (Hot Gas Bypass):
• Normally used for a hot gas solenoid, but could be used for other devices. When the compressor slide valve percentage is equal to or greater than “slide valve set-point #2”, the output is energized. When the compressor slide valve percentage is less than
“slide valve set-point #2”, the output is de-energized.
Alarm Output:
• This output is energized when the system has no alarms. If an alarm is issued, the output de-energizes and stays de-energized until the alarm condition is cleared.
Economizer Port #2 Output:
• This output is energized when the compressor slide valve percentage is equal to or greater than slide valve set-point for economizer port 2. It is de-energized when the compressor slide valve percentage is less than slide valve set-point for economizer port 2.
Liquid Injection #1 Output:
• The function of this output will differ depending on what type liquid injection is selected. If the liquid injection solenoid only is chosen, then the output will energize when discharge temperature is above liquid injection setpoint #1 and the oil separator temperature is above the oil separator temperature override set-point. The output is de-energized when any one of the above condition is not met.
• If the compressor has liquid injection with motorized value oil cooling, then this output is energized when the compressor is running and the discharge temperature is above the oil separator temperature override set-point and the oil separator temperature is above the override setpoint. The output is de-energized when the discharge temperature falls below the “on” setpoint minus the solenoid differential or when oil separator temperature is below the oil separator temperature override set-point.
Liquid Injection #2 Output:
• Not Defi ned
3 – 2
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Board
1
4
4
4
4
4
4
4
3
4
3
3
3
3
3
3
2
3
2
2
2
2
2
2
2
2
1
1
1
1
1
1
I/O #
1
30
31
32
26
27
28
29
22
23
24
25
18
19
20
21
14
15
16
17
10
11
12
13
8
9
6
7
4
5
2
3
Section 3 • Hardware Architecture
Table 3-1. Digital I/O (1 of 2)
Description
Compressor Start
Oil Pump Start
Capacity Increase
Capacity Decrease
Volume Increase
Volume Decrease
Oil Separator Heater
Trip indicator (ON=Normal)
Slide Valve Set point #1 (Economizer Port #1)
Slide Valve Set point #2 (Hot Gas Bypass)
Alarm (ON=Normal)
Economizer Port #2
Liquid Injection #1
Liquid Injection #2
Remote Enabled
Shunt Trip
Comp Motor Starter Auxiliary Contact
High Level Shutdown
Oil Level Float Switch #1
Oil Level Float Switch #2
Remote Setpoint #1/#2 Selection
Remote Start/Stop
Remote Capacity Increase
Remote Capacity Decrease
Condenser / Remote Oil Cooler Step #1
Condenser / Remote Oil Cooler Step #2
Condenser / Remote Oil Cooler Step #3
Condenser / Remote Oil Cooler Step #4
Auxiliary Input #1
Auxiliary Input #2
Auxiliary Input #3
Auxiliary Input #4
Type
OUTPUT
INPUT
INPUT
INPUT
INPUT
INPUT
INPUT
INPUT
OUTPUT
OUTPUT
OUTPUT
OUTPUT
INPUT
INPUT
INPUT
INPUT
OUTPUT
OUTPUT
OUTPUT
OUTPUT
OUTPUT
OUTPUT
OUTPUT
INPUT
OUTPUT
OUTPUT
OUTPUT
OUTPUT
OUTPUT
OUTPUT
OUTPUT
OUTPUT
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
3 – 3
Section 3 • Hardware Architecture
Remote Enabled Output:
• This output is energized when the Vission 20/20 panel is enabled for remote control. If the compressor parameter does not satisfy start conditions or is placed into the manual stop position, this output is de-energized.
Shunt Trip:
• This output is designed to be connected to a master power breaker with a shunt trip input. If the Vission
20/20 detects the compressor motor is running when it’s not suppose to be, then this output can be energized to trip the breaker supplying power to a starter.
Comp Motor Starter Auxiliary Contact:
• This input looks for a feedback signal from the compressor starter, confi rming that the compressor starter is energized.
High Level Shutdown Input:
• This input must be energized in order for the compressor to operate. If de-energized, the compressor will shut down and issue a high level trip.
Oil Level Float Switch #1 Input:
• This input must be energized in order for the compressor to operate. If de-energized, the compressor will shut down and issue a oil level #1 trip.
Oil Level Float Switch #2 Input:
• This input must be energized in order for the compressor to operate. If de-energized, the compressor will shut down and issue a oil level #2 trip.
Remote Select #1/#2 Input:
• This input enables or disables remote I/O control.
Energizing this input enables the Remote Capacity
Increase and Remote Capacity Decrease inputs.
Remote Start/Stop Input:
• If the compressor is enabled for remote I/O control, this input is enabled. Energizing this input will issue a start for the compressor as long as it is available to run. De-energizing this input stops the compressor.
Remote Capacity Increase Input:
NOTE
The scan interval on the remote increase and decrease inputs is approximately ONE SECOND.
Please take that into account when developing a control scheme using the remote increase and remote decrease inputs for compressor control.
• If the compressor is enabled for remote I/O control, this input is enabled. Operational only when the compressor is running. Energizing this input will increase the slide valve position.
3 – 4
• The slide valve will continuously increase as long as this input is energized. The slide valve will not increase when this input is de-energized.
Remote Capacity Decrease Input:
• Operational only when the compressor is running.
This input is enabled if the compressor is enabled for remote I/O control. Energizing this input will decrease the slide valve position. The slide valve will continuously decrease as long as this input is energized. The slide valve will not decrease when this input is de-energized.
Condenser / Remote Oil Cooler Step #1 Output:
• This output is enabled when condenser control or
Remote Oil Cooler option is selected. A condenser /
Remote Oil Cooler fan or pump will be turned on or off by this output.
Condenser / Remote Oil Cooler Step #2 Output:
• This output is enabled when condenser control or
Remote Oil Cooler option is selected. A condenser /
Remote Oil Cooler fan or pump will be turned on or off by this output.
Condenser / Remote Oil Cooler Step #3 Output:
• This output is enabled when condenser or Remote
Oil Cooler control option is selected. A condenser /
Remote Oil Cooler fan or pump will be turned on or off by this output.
Condenser / Remote Oil Cooler Step #4 Output:
• This output is enabled when condenser or Remote
Oil Cooler control option is selected. A condenser /
Remote Oil Cooler fan or pump will be turned on or off by this output.
Auxiliary Inputs #1 - #8:
• Optional inputs that can be confi gured as an alarm or trip. Typically connected to external switched devices.
Auxiliary Outputs #1 - #4:
• Optional inputs that can be confi gured as an alarm or trip. Typically connected to external switched devices.
Analog Inputs
Refer to Table 3-2. Analog Inputs.
Motor Current:
• Default is a 0-5 Amp current transformer (CT). Current transformer ratio is set in the calibration screen.
Suction Pressure:
• Default signal is 4-20mA. Suction pressure transducer
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 3 • Hardware Architecture
Board
5
5
5
5
5
5
5
5
I/O #
33
34
35
36
37
38
39
40
Table 3-1. Digital I/O (2 of 2)
Description
Auxiliary Output #1
Auxiliary Output #2
Auxiliary Output #3
Auxiliary Output #4
Auxiliary Input #5
Auxiliary Input #6
Auxiliary Input #7
Auxiliary Input #8
Type
OUTPUT
OUTPUT
OUTPUT
OUTPUT
INPUT
INPUT
INPUT
INPUT
Board
6
7
8
7
7
8
8
8
7
7
7
7
6
7
6
6
6
6
6
6
9
9
9
8
8
8
8
I/O #
1
14
15
16
17
18
19
20
10
11
12
13
8
9
6
7
4
5
2
3
25
26
27
21
22
23
24
Table 3-2. Analog Inputs (1 of 2)
Description
Motor Current
Suction Pressure
Discharge Pressure
Oil Filter Inlet Pressure
Oil Manifold Pressure
Economizer Pressure
% Slide Valve Position
% Volume Position
Suction Temperature
Discharge Temperature
Oil Separator Temperature
Oil Manifold Temperature
Process Temperature
Chiller Inlet Temperature
Condenser Pressure
Remote Caphold Setpoint
Auxiliary #1
Auxiliary #2
Auxiliary #3
Auxiliary #4
Auxiliary #5
Auxiliary #6
Auxiliary #7
Auxiliary #8
Auxiliary #9
Auxiliary #10
Auxiliary #11
Type
4-20 mA, 0-5A
0-5V, 1-5 V, 0-10V, 4-20 mA
0-5V, 1-5 V, 0-10V, 4-20 mA
0-5V, 1-5 V, 0-10V, 4-20 mA
0-5V, 1-5 V, 0-10V, 4-20 mA
0-5V, 1-5 V, 0-10V, 4-20 mA
0-5V, 4-20 mA, Potentiometer
0-5V, 4-20 mA, Potentiometer
4-20 mA, RTD, ICTD
4-20 mA, RTD, ICTD
4-20 mA, RTD, ICTD
4-20 mA, RTD, ICTD
4-20 mA, RTD, ICTD
4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
3 – 5
Section 3 • Hardware Architecture range and calibration is set in the calibration screen.
Discharge Pressure
• Default signal is 4-20mA. Discharge pressure transducer range and calibration is set in the calibration screen.
Oil Filter Inlet Pressure:
• Default signal is 4-20mA. Oil fi lter pressure transducer range and calibration is set in the calibration screen.
Oil Manifold Pressure:
• Default signal is 4-20mA. Oil manifold pressure transducer range and calibration is set in the calibration screen.
Economizer Pressure:
• Default signal is 4-20mA. Economizer pressure transducer range and calibration is set in the calibration screen.
Slide Valve Position:
• Reads the 0-5 volt signal back from the slide position motor actuator to indicate current slide valve position.
Volume Position:
• Reads the 0-5 volt signal back from the slide volume motor actuator to indicate current volume position.
Suction Temperature:
• Default signal is RTD. Suction temperature calibration is set in the calibration screen.
Discharge Temperature:
• Default signal is RTD. Discharge temperature calibration is set in the calibration screen.
Oil Separator Temperature:
• Default signal is RTD. Oil separator temperature calibration is set in the calibration screen.
Oil Manifold Temperature:
• Default signal is RTD. Oil manifold temperature calibration is set in the calibration screen.
Process Temperature:
• Default signal is 4-20mA. Process temperature calibration and range are set in the calibration screen.
Chiller Inlet Temperature:
• Default signal is 4-20mA. Measures separator level.
Chiller Inlet Temperature calibration and range are set in the calibration screen.
Condenser Pressure:
• Default signal is 4-20mA. Condenser pressure transducer range and calibration is set in the calibration
3 – 6
screen.
Remote Caphold:
• Default signal is 4-20mA. Active in “Direct I/O” mode.
Adjusts the capacity of the compressor from 0-100%, proportional to the 4-20mA signal.
Auxiliary #1 - #16:
• Flexible analog inputs that can be confi gured to control, alarm or trip.
Analog Outputs:
Refer to Table 3-3. Analog Outputs.
Compressor VFD:
• 4-20mA output to control compressor motor speed with a Variable Frequency Drive (VFD).
Condenser / Remote Oil Cooler VFD:
• 4-20mA output to control one condenser / remote oil cooler fan which is interleaved between the remaining condenser / remote oil cooler steps for smoother control.
% Slide Valve Position:
• 4-20mA signal that transmits the slide valve position for remote monitoring.
Motorized Valve (V+):
• For a cool compression compressor, this 4-20mA signal controls a motorized valve to regulate the liquid refrigerant level in the oil separator. For a liquid injection application on a standard single screw, this
4-20mA signal controls a motorized valve to regulate the liquid refrigerant injected into the compressor for oil cooling purposes.
Auxiliary Outputs #1 - #4:
• Optional outputs that can be confi gured in user defi ned manner.
• When Oil Flow Control option is selected from confi guration screen, Auxiliary Output #1 which is 4-20mA signal is used to control the opening percentage of
Danfoss valve.
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Section 3 • Hardware Architecture
Board
9
9
9
9
9
Board
10
10
10
10
10
10
10
10
I/O #
1
2
3
4
7
8
5
6
I/O #
28
29
30
31
32
Table 3-2. Analog Inputs (2 of 2)
Description
Auxiliary #12
Type
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
Auxiliary #13 0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
Auxiliary #14
Auxiliary #15
Auxiliary #16
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
0-5V, 1-5 V, 0-10V, 4-20 mA, RTD, ICTD
Table 3-3. Analog Outputs
Description
Compressor VFD
Condenser / Remote Oil Cooler VFD
% Slide Valve Position
Motorized Valve (Cool Compression or Liquid
Injection), V+
Auxiliary Output #1
Auxiliary Output #2
Auxiliary Output #3
Auxiliary Output #4
Type
4-20 mA
4-20 mA
4-20 mA
4-20 mA
4-20 mA
4-20 mA
4-20 mA
4-20 mA
Digital & Analog I/O Boards Layout
It is important to install the boards in the proper layout.
For the correct digital and analog input/output (I/O) board layout, see Figure 3-2. Digital I/O Board Layout.
Dipswitches
• Each board has a dipswitch which sets its communications address so that it can communicate with the
CPU board. The dipswitch settings must be correct or the I/O will not function.
Jumpers
• Jumpers are required on the analog boards to confi gure them for the type of sensors used. The jumper table for the analog board shows the optional jumper confi gurations for sensors other than the default
Vilter standard. If a different sensor is to be used, the jumpers on the analog board need to be changed. In addition, the confi guration for this sensor must be changed in the Instrument Calibration screen. The following illustrations show the Vilter default confi gurations for the Vission 20/20.
Figure 3-2. Digital I/O Board Layout
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3 – 7
Section 3 • Hardware Architecture
Digital Output Boards
The digital output board convert signals generated by the Vission 20/20 program into 120Vac signals that can be energize or signal other devices. All the signals are digital in that the only two states available or either on or off. See board layout, Figure 3-3. Digital Output Board
Layout.
Signal LEDs:
• Marked in the diagram below in Blue. These LEDs indicated when a 120Vac output is being produced.
Voltage LEDs:
• Marked in the diagram below in Orange. These LEDs indicate the correct voltage of both the 5Vdc and
24Vdc power sources.
Communication LEDs:
• Marked in the diagram below in Green. These LEDs show the active communications between the digital output board and the Vission 20/20 CPU board.
Address Dipswitches:
• Marked in the diagram below in Red. These dipswitches are used to assign each board its address position.
The addresses are binary and therefore the address of a digital output board will either be address as 1
(0001) or 2 (0010).
3 – 8
Figure 3-3. Digital Output Board Layout
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 3 • Hardware Architecture
Digital Input Boards
The digital input board convert 120Vdc signals from external devices to signals for the Vission 20/20 program.
All the signals are digital in that the only two states available or either on or off. See board layout, Figure 3-4.
Digital Input Board Layout.
Signal LEDs:
• Marked in the diagram below in light Blue. These
LEDs indicate when a 120Vac input is detected.
Voltage LEDs:
• Marked in the diagram below in Orange. These LEDs indicate the correct voltage of both the 5Vdc and
24Vdc power sources.
Communication LEDs:
• Marked in the diagram below in Green. These LEDs show the active communications between the digital output board and the Vission 20/20 CPU board.
Address Dipswitches:
• Marked in the diagram below in Red. These dipswitches are used to assign each board its address position. The addresses are binary and therefore the address of a digital input board can only be addressed as 3 (0011).
Figure 3-4. Digital Input Board Layout
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3 – 9
Section 3 • Hardware Architecture
Digital In-Out Boards
The digital input - output board convert signals generated by the Vission 20/20 program into 120Vac signals as well as detect external 120Vac inputs to signal the
Vission 20/20 program.
All the signals are digital in that the only two states available or either on or off. See board layout, Figure 3-5.
Digital Input-Output Board Layout.
Signal LEDs:
• Marked in the diagram below in Blue or outputs and light blue for inputs. These LEDs indicate when a
120Vac output is being produced or a 120Vac signal is detected.
Voltage LEDs:
• Marked in the diagram below in Orange. These LEDs indicate the correct voltage of both the 5Vdc and
24Vdc power sources.
Communication LEDs:
• Marked in the diagram below in Green. These LEDs show the active communications between the digital output board and the Vission 20/20 CPU board.
Address Dipswitches:
• Marked in the diagram below in Red. These dipswitches are used to assign each board its address position.
The addresses are binary and therefore the address of a digital output board will either be address as 4
(0100) or 5 (0101).
3 – 10
Figure 3-5. Digital Input-Output Board Layout
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 3 • Hardware Architecture
Analog Input Boards
The analog input board convert varying DC signals into a signal that can interpreted by the Vission 20/20 program. The signals are considered analog because the input DC signal can vary from the minimum value to the maximum value. See board layout, Figure 3-6. Analog
Input Board Layout.
Confi guration Jumpers:
• Marked in the diagram below in Purple. The jumpers allow the operator to confi gure the signal type and range for incoming analog signals. For the correct jumper setting for a giving application, see Table 3-4.
Analog Input Jumper Tables.
Voltage LEDs:
• Marked in the diagram below in Orange. These LEDs indicate the correct voltage of both the 5Vdc and
24Vdc power sources.
Communication LEDs:
• Marked in the diagram below in Green. These LEDs show the active communications between the digital output board and the Vission 20/20 CPU board.
Address Dipswitches:
• Marked in the diagram below in Red. These dipswitches are used to assign each board its address position. The addresses are binary and therefore the address of a digital output board will be address as 6
(0110), 7 (0111), 8 (1000) or 9 (1001).
Figure 3-6. Analog Input Board Layout
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3 – 11
Section 3 • Hardware Architecture
Analog Input Jumper Tables
The following tables are used to confi gure each channel of the analog input board signal type and range desired by the operator, see Table 3-4. Analog Input Jumper Tables.
Table 3-4. Analog Input Jumper Tables
CHANNEL 1
Analog Input 1-A*
Analog input 1-B**
SIGNAL
0-5 AMP
0-5 VOLT
1-5 VOLT
0-10 VOLT
4-20 mA
ICTD
RTD
JP-1
OUT
OUT
OUT
OUT
IN
OUT
OUT
JP-2
OUT
OUT
OUT
OUT
OUT
IN
OUT
JP-3 JP-27 JP-35
OUT OUT IN
OUT OUT OUT
OUT
IN
OUT
OUT
OUT
OUT
OUT
OUT
OUT
IN
OUT
OUT
OUT
OUT
OUT
*Use Analog Input 1-A when 0-5 AMP secondary current transformers are installed in the motor starter.
**Use Analog Input 1-B when current transformers are installed in the motor starter.
CHANNEL 2
Analog Input 2
SIGNAL
0-5 VOLT
1-5 VOLT
0-10 VOLT
4-20 mA
ICTD
RTD
JP-4
OUT
OUT
OUT
IN
OUT
OUT
JP-5
OUT
OUT
OUT
OUT
IN
OUT
JP-6 JP-28
OUT OUT
OUT OUT
IN
OUT
OUT
OUT
OUT
OUT
OUT
IN
CHANNEL 3
Analog Input 3
3 – 12
CHANNEL 4
Analog Input 4
SIGNAL
0-5 VOLT
1-5 VOLT
0-10 VOLT
4-20 mA
ICTD
RTD
JP-7
OUT
OUT
OUT
IN
OUT
OUT
JP-8
OUT
OUT
OUT
OUT
IN
OUT
JP-9 JP-29
OUT OUT
OUT
IN
OUT
OUT
OUT
OUT
OUT
OUT
OUT
IN
SIGNAL
0-5 VOLT
1-5 VOLT
0-10 VOLT
4-20 mA
ICTD
RTD
JP-10 JP-11 JP-12 JP-30
OUT
OUT
OUT
IN
OUT
OUT
OUT
OUT
OUT
OUT
IN
OUT
OUT
OUT
IN
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
IN
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Section 3 • Hardware Architecture
Table 3-4. Analog Input Jumper Tables (Continued)
CHANNEL 5
Analog Input 5
SIGNAL
0-5 VOLT
1-5 VOLT
0-10 VOLT
4-20 mA
ICTD
RTD
JP-13 JP-14 JP-15 JP-31
OUT OUT OUT OUT
OUT OUT OUT OUT
OUT
IN
OUT
OUT
OUT
OUT
IN
OUT
IN
OUT
OUT
OUT
OUT
OUT
OUT
IN
CHANNEL 6
Analog Input 6
SIGNAL
0-5 VOLT
1-5 VOLT
0-10 VOLT
4-20 mA
ICTD
RTD
JP-16 JP-17 JP-18 JP-32
OUT OUT OUT OUT
OUT OUT OUT OUT
OUT
IN
OUT
OUT
OUT
OUT
IN
OUT
IN
OUT
OUT
OUT
OUT
OUT
OUT
IN
CHANNEL 7
Analog Input 7
SIGNAL
0-5 VOLT
1-5 VOLT
0-10 VOLT
4-20 mA
ICTD
RTD
ACTUATOR
POTENTIOMETER
JP-19 JP-20 JP-21 JP-33 JP-25
OUT OUT OUT OUT 2
OUT OUT OUT OUT 2
OUT
IN
OUT
OUT
OUT
OUT
OUT
OUT
IN
OUT
OUT
OUT
IN
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
IN
OUT
OUT
1
3
2
2
2
2
CHANNEL 8
Analog Input 8
SIGNAL
0-5 VOLT
1-5 VOLT
0-10 VOLT
4-20 mA
ICTD
RTD
ACTUATOR
POTENTIOMETER
JP-22 JP-23 JP-24 JP-34 JP-26
OUT OUT OUT OUT 2
OUT
OUT
IN
OUT
OUT
OUT
OUT
OUT
OUT
OUT
IN
OUT
OUT
OUT
OUT
IN
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
IN
OUT
OUT
1
3
2
2
2
2
2
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3 – 13
Section 3 • Hardware Architecture
Analog Output Boards
The Analog Output board convert signals from the
Vission 20/20 program into a current ranging from 4mA to 20mA, see Figure 3-7. Analog Output Board Layout.
Voltage LEDs:
• Marked in the diagram below in Orange. These LEDs indicate the correct voltage of both the 5Vdc and
24Vdc power sources.
Communication LEDs:
• Marked in the diagram below in Green. These LEDs show the active communications between the digital output board and the Vission 20/20 CPU board.
Address Dipswitches:
• Marked in the diagram below in Red. These dipswitches are used to assign each board its address position.
The addresses are binary and therefore the address of a digital output board will only be addressed as 10
(1010).
3 – 14
Figure 3-7. Analog Output Board Layout
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 4 • Main Screen
Overview
The Main Screen is the fi rst screen encountered when powering up the Vission 20/20 Panel, see Figure 4-1.
Main Screen. This screen is designed as the starting point for all succeeding screens and provides as much information as possible at a glance. The Main Screen is divided into four sections. Three of the sections are static;
Top Status Bar, Bottom Status Bar and Parameters Bar.
These three sections of the main screen will remain visible while navigating through other screens and provide a constant view of critical information. The splash screen is the only dynamic section. All navigation to any other screens will be performed through the Main Screen.
Figure 4-1. Main Screen
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4 – 1
Section 4 • Main Screen
Top Status Bar
The standard view of the status bar shows three pieces of information. From left to right , the bar shows the control method, the current run mode, and the difference between the desired control setpoint and the actual value of the processes control value, see Figure 4-2. Top
Status Bar.
The status bar also has an alternate function where it displays to the user any information that requires user attention or intervention. It accomplishes this by changing the status bar’s color and/or fl ashing a additional information bars over the standard status bar view.
Standard Bar – blue:
• Indicates a condition where the compressor motor is not running.
Standard Bar – green:
• Informs the operator that the compressor motor is currently running.
Information Bars will fl ash their information over the top of the status bar. The operator will see the status bar and then one or more information bars in a repetitive sequence.
Information Bar – blue:
• Shows various operational modes that are different than normal running condition. An example of this would be a load limit condition. The compressor is not able to completely load due to some parameter like high motor current and therefore the operator is notifi ed via this type of information bar.
Information bar – yellow
• This typically indicates an Alarm condition. Alarm conditions do not stop the compressor but it is meant to alert the operator of conditions that if corrective action is not taken, then a compressor trip can result.
Information bar – red
• Informs the operator that the compressor motor was stopped due the condition listed in the information bar. Compressor trips are designed to protect the equipment and any personnel operating the equipment.
4 – 2
Figure 4-2. Top Status Bar
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Section 4 • Main Screen
Parameter Bar
The main purpose of the Parameter Bar is to display the common operational parameters that the operator would be most concerned with. It also gives the operator access to critical buttons such as the stop and start buttons, see Figure 4-3. Parameter Bar.
Capacity Slide Indicator:
• Shows the position of the capacity slide from 0% to
100% via a horizontal blue bar. The buttons below the indicator are used in manual capacity control. The “-” button will decrease the capacity position and the
“+” button will increase the position.
Volume Slide Indicator:
• Shows the position of the volume slide from 0% to
100% via a horizontal blue bar. In some cases, increase and decrease buttons will appear below the volume indicator. The buttons only appear if the operator who is logged on has suffi cient privileges. If available, the buttons work to increase and decrease the volume slide position in the same manner as the capacity slide.
Stop Button:
• When pressed, stops the compressor in all cases.
Remote Lock Out Button:
• When pressed, activates the remote lock out option.
This is a safety feature that prevents any external devices from assuming control and starting the compressor. To release the remote lock out, the operator must press the unit start button and then the remote button when the start dialog box appears.
Alarm Reset Button:
• When pressed, clears any current alarms, trips or status messages that may be displayed on the information bar. Note, if the condition that created the alarm, trip or status message still exits, the message will reappear.
Figure 4-3. Parameter Bar
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4 – 3
Section 4 • Main Screen
Parameter Bar (Continued)
Unit Start Button:
• When pressed, a start dialog box will appear that will give the operator a number of run options; Auto,
Manual, Remote, or Auto Sequencing, see Figure 4-4.
Unit Start Pop-Up Window.
Control Parameter Boxes:
• The parameter boxes provide updated data on several key control parameters.
• The top box indicates the desired control setpoint that is set in the Compressor Control
Screen. In the case that the Run mode is in remote capacity control, this box will show the desired capacity position.
• The suction box shows the current suction pressure and suction temperature.
• The discharge box shows the current discharge pressure and discharge temperature .
• The oil box shows the pressure differential which is calculated as oil fi lter out pressure minus suction pressure. Filter differential is calculated as oil fi lter in pressure minus oil fi lter out pressure. “Inj Temp” is the temperature of the oil at the oil injection port and “Sep Temp” is the temperature of the oil in the separator.
• The motor box shows the motor current.
4 – 4
Figure 4-4. Unit Start Pop-Up Window
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 4 • Main Screen
Bottom Status Bar
The bottom status bar gives the operator easy access to some basic functions and information. The functions are available via the four button, see Figure 4-5. Bottom
Status Bar.
Maintenance Button:
• Pressing the maintenance button will give the operator access to the maintenance charts and sign off tables.
User Access Button:
• This button takes the operator to another login screen to create additional users.
Log off Button:
• Pressing the log off button logs off the correct user if any are logged in.
Help Button:
• Pressing the help button takes the operator to the help screen where the operator can access an operation and service manual and also get access to program information.
Status Bars
• The information available is provide by two status bars, one for maintenance activities and the other for any alarms or trips that might be active. To the right of the status bars are positions for displaying the current user (if any are logged in), the date and time, and the total run hours of the compressor.
Figure 4-5. Bottom Status Bar
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4 – 5
Section 4 • Main Screen
Splash Screen
The splash screen is the dynamic portion of the screen that will change as the operator navigates through the Vission 20/20 panel screen, see Figure 4-6. Splash
Screen. The main screen shows a graphic of a Vilter compressor with a number of data boxes spread across the screen. Also on the top left are several indicators.
Discharge:
• Displays the discharge pressure and temperature.
Oil Filter:
• Displays the oil fi lter inlet pressure, oil fi lter outlet pressure, and oil differential pressure across the oil fi lter.
Suction:
• Displays the suction pressure and temperature.
Motor:
• Displays the motor current. When the motor VFD is enabled, this box will also display the motor RPM.
Separator:
• Displays the temperature of the oil in the separator.
% Cap:
• Displays the position of the capacity slide from 0% to
100%.
Process:
• When the Process control is selected as the control mode, this box will appear and displays the process temperature.
% Vol:
• Displays the position of the volume slide from 0% to
100% .
Anti-Recycle:
• Displays the anti-recycle time, if applicable.
Oil Pump:
• The oil pump on a Vilter compressor often cycles on and off depending on differential pressure. This indicator informs the operator when the oil pump is running.
Oil Heater:
• The oil heater often cycles on and off depending on the separator oil temperature. This indicator informs the operator when the oil heater is on.
Remote Lock Out:
• Displays the current status of the remote lock out.
While on, no system controller can remotely assume control of the Vission 20/20 panel and start the compressor.
Menu Button:
• When pressed, navigates the operator to the menu screen.
4 – 6
Figure 4-6. Splash Screen
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 5 • Menu Screen
Overview
The menu screen is the launching point to every other section of the Vission 20/20 panel software. Every screen navigated to from this screen will return to the menu screen upon exiting, see Figure 5-1. Menu Screen.
Navigation Buttons
Compressor Control:
• Navigates to the compressor control screen where the operator can set the various compressor control parameters.
Alarms and Trips:
• Navigates to the alarms and trips screen where the operator can set the various alarm and trip parameters.
Timers:
• Navigates to the timer screen where the operator can set the various time related parameters.
Compressor Scheduling:
• Navigates to the compressor scheduling screen where the operator can set the scheduler to change the control method at settable dates and times.
Compressor Sequencing:
• Navigates to the compressor sequencing screen where the operator can set-up compressor to sequence up to four other compressors. This is also sometimes known as lead-lag control.
Condenser Control:
• Navigates to the condenser control screen where the operator can set up local condenser control parameter.
Vilter VFD:
• Not currently available.
Service Options:
• Navigates to the service options screen where the operator can manually turn on/off digital and analog outputs for maintenance and diagnostics purposes.
Figure 5-1. Menu Screen
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5 – 1
Section 5 • Menu Screen
Instrument Calibration:
• Navigates to the instrument calibration screen where the operator can calibrate all of the system sensors.
Slide Calibration:
• Navigates to the slide calibration screen where the operator can calibrate the capacity and volume slide actuators.
Trend Chart:
• Navigates to the trend chart screen where the operator can select up to four parameters for graphical historical data trending.
Event List:
• Navigates to the event list screen where the operator can view the systems events such as trips or alarms in descending chronological order.
Input/Output States:
• Allows viewing of the live data of all analog and digital input and outputs. Also allows viewing of a “snap shot” of all analog and digital input and outputs at the time of the last compressor fault event.
Auxiliary I/O
• Navigates to the auxiliary I/O screen where an operator can confi gure any auxiliary instruments or devices.
Confi guration:
• Navigates to confi guration screens where the initial system parameters are confi gured.
Data Backup:
• Allows the operator to backup setpoints, confi guration parameters, and calibration settings to a USB memory device. In addition, this allows the restoration of previously saved database fi les.
Main:
• Navigates back to the main screen.
Remote Oil Cooler:
• Navigates to the Remote Oil Cooler screen where the operator can set up local Remote Oil Cooler control parameter. Menu screen will show this option in place of condenser control option when enabled, see Figure
5-2. Menu Screen with Remote Oil Cooler Enabled.
5 – 2
Figure 5-2. Menu Screen with Remote Oil Cooler Enabled
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 6 • Compressor Control
Overview
The compressor control screen is where an operator can set the majority of the compressor settings. These setting defi ne how the compressor will operate and respond to changing loads. The compressor control screen consists of several screens but in order not to overwhelm the operator with options, many of the screens may not be visible.
NOTE gured in the confi guration screen (Section 19) will determine what compressor control pages are displayed.
It is important to note that there isn’t one correct way to set these parameters. Every application is different and requires the operator to tune these settings to achieve the best operation.
Suction Pressure Control and Process
Temperature Control
The Vission 20/20 uses a pulse proportional control method to control the compressor capacity slide valve in order to maintain the control setpoint. The control setpoint can either be process temperature control setpoint or suction pressure control setpoint depending on what the operator has selected as the control mode.
For screens, see Figure 6-1. Compressor Control Screen
- Suction Pressure Control and Figure 6-2. Compressor
Control Screen - Process Temperature Control.
The proportion control uses the Interval Time Setpoint to defi ne the time the algorithm waits to read the current setpoint and calculates the error from the process control setpoint. Based on the error from setpoint, the algorithm calculates a pulse time in which the capacity slide is moved in the direction of the error. The further away the process variable is from the control setpoint, the larger the corrective pulse will be. The duration of the pulse is limited by the Pulse Time Setpoint. By default
Figure 6-1. Compressor Control Screen - Suction Pressure Control
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6 – 1
Section 6 • Compressor Control the maximum pulse time is the same as the interval time. This means that the pulse time can be 100% of the interval time given a near continuous movement of the capacity slide. Adjusting these setpoints can be useful in slowing down the reaction time of the compressor if large thermal time contents are present in the refrigeration cycle.As mentioned in the above paragraph, the distance of the process variable from the control setpoint determines the size of the pulse used to move the capacity slide. This is called the proportional band and is set by the Proportional Setpoint. When the process variable is outside the proportional band, the slide will move in the direction of the error continuously. Increasing the size of the proportional band can help slow the compressors reaction by varying loads if desired, see Figure 6-3.
Proportional Band & Setpoint.
The Dead Band Setpoint defi nes area around the control setpoint where the algorithm stops adjusting the capacity slide. This area is a percentage of the proportional band. By default the proportional band is set to 4 Psig and the dead band is set to 10% of 4 Psig. Making the dead band +/- 0.4 Psig of the control setpoint. Once the process variable is within the dead band, the algorithm considers the compressor to be on setpoint. If the operator wishes the compressor to operate closer, the setpoint can be set to a smaller percentage. However this will result in the capacity slide excessively moving to maintain the setpoint and could over heat the actuator or shorten the actuators operational life.
Auto-Cycle
The auto-cycle setpoints defi ne the control points in which the compressor will automatically cycle on and off when the compressor has been placed into “Auto” run mode. These setpoints can be “enabled” or “disabled” using the check box. A delay can be entered to momentarily delay the start or stop from immediately occurring when the setpoint is met. If a compressor shutdown is desired on a suction pressure drop and a manual reset is required, set the OFF value below the Low Suction
6 – 2
Figure 6-2. Compressor Control Screen - Process Temperature Control
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 6 • Compressor Control
Pressure safety trip value. This will shut down the compressor and a Reset will be required to restart it.
The auto-cycle function will operate only in local “Auto” mode and Direct I/O “Remote Auto” mode. If the auto-cycle feature is enabled while running in any other remote mode, the function will simply be ignored.
However, the Minimum slide position will continue to be respected in Remote “Auto” mode. If the compressor changes from a remote mode back to Local “Auto” mode, the auto-cycle feature will operate normally.
NOTE
When the Pump-down Feature is enabled, the Autocycle setpoints are automatically disabled. Pumpdown mode will cause the compressor to cycle off via the Pump-down Stop Pressure setpoint, and will not allow the compressor to start again.
Enable:
• Enables the Auto-cycle control. Uncheck the box to disable the Auto-cycle set-points.
Start Pressure:
• When the suction pressure meets or exceeds this setpoint, the compressor will start.
Start Delay:
• Delays the compressor from starting when the suction pressure meets or exceeds this setpoint.
Stop Pressure:
• When the suction pressure meets or falls below this setpoint, the compressor will stop.
Stop Delay:
• Delays the compressor from stopping when the suction pressure meets or exceeds this setpoint.
Minimum Slide Position:
• The minimum capacity slide position that the compressor is allowed to run at.
Figure 6-3. Proportional Band & Setpoint
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6 – 3
Section 6 • Compressor Control
Variable Frequency Drive (VFD) Settings
Control
The VFD page is where the operator can tune the motor
VFD for desired operation, see Figure 6-4. Compressor
Control Screen - VFD Settings Control. A Vilter compressor uses the variable speed of a VFD controlled motor to vary the amount of work or capacity of the compressor.
The basic one step VFD control will use the capacity slide to control the fi rst half of the total available capacity and the motor speed to control the second half of the total available capacity, see Figure 6-5. VFD One-Step Control
Method. For example, if the compressor needs to load to 100% of its capacity. The control algorithm will fi rst move the capacity slide to its maximum position, then the motor speed will ramp up to its maximum speed.
In the unloading direction, the motor speed will ramp down to its minimum speed, then the capacity slide will move to its minimum position.
The two-step control method works much like the onestep method but divides the control into four sections, see Figure 6-6. VFD Two-Step Control Method. While loading; the compressor will fi rst move the capacity slide to the maximum set for step one then speed up the motor to its maximum speed for the same step. Once step one has completed, the control algorithm will again move the capacity slide to the maximum position and the maximum speed of step two. At this point the compressor would be fully loaded. Unloading occurs in the reverse direction. The two-step control method is not typical for most installations and is normally used when a Vilter engineer recommends it.NOTE
VFD installation is not covered in this manual. A VFD that is not properly installed and confi gured has the potential of causing intermittent and dangerous problems. Please consult your VFD manual.
1 Step VFD Control:
• Enables the fi rst step in the VFD control algorithm.
This check box is not deselectable by the operator.
Capacity Slide Position:
6 – 4
Figure 6-4. Compressor Control Screen - VFD Settings Control
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Section 6 • Compressor Control
• Defi nes the minimum and maximum positions for the capacity slide. While in 1 step control these values should be 0% for minimum and 100% for maximum.
VFD Speed:
• Defi nes the minimum and maximum speed for the motor speed. While in 1 step control these values should refl ect the full range of the VFD.
2 Step VFD Control:
• Enables the second step in the VFD control algorithm.
Capacity Slide Position:
• Defi nes the minimum and maximum position of the capacity slide in the 2 step VFD control.
VFD Speed:
• Defi nes the minimum and maximum speed for the motor in the 2 step VFD control.
setpoint and the process variable (SP - PV error).
This is a unit-less quantity and is used for coarse adjustment. This setpoint should be set to the lowest value that gives adequate control system response.
Increasing the proportional setting increases the control system’s sensitivity to small process fl uctuations and the tendency to hunt.
I = Integral (reset) setpoint:
• Used to adjust the capacity control action, integrating the error over time, to account for a small error that has persisted for a long time. This quantity is used for fi ne adjustment. This setpoint is used to smooth out process variations. This setpoint should be set high enough to prevent hunting but low enough to prevent control system overshoot.
P = Proportional (gain) setpoint:
• Used to adjust the motor speed action in direct proportion to the difference between the control
D = Derivative (rate) setpoint:
• Used to adjust the capacity control action, accounting for how fast the error is changing, positively or negatively. A standard PID loop variable, it is not used for our applications.
Figure 6-5. VFD One-Step Control Method
Figure 6-6. VFD Two-Step Control Method
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6 – 5
Section 6 • Compressor Control
Pumpdown Control
NOTE
For use of compressor control screen - page 4, see
Cool Compression Control in Section 25.
The Pumpdown Control defi nes a method of “pumping” down a chiller, which is to draw off refrigerant from the chiller. This feature can be enabled or disabled from this page, see Figure 6-7. Compressor Control
Screen - Pumpdown/Pulldown Control. If Pumpdown is enabled, this feature will only function when the compressor is running in local Auto Mode and Control Mode
Confi gured is Suction Pressure.
If Pumpdown Feature is enabled, then;
• The Auto-cycle functionality is ignored. Pumpdown mode will cause the compressor to cycle off via the
Pumpdown Stop Pressure setpoint. Normally, the
Pumpdown Stop Pressure setpoint will be set lower than the Auto-cycle Stop setpoint. Therefore, as the suction pressure is pulled down, the compressor is prevented from shutting down prematurely via the
Auto-cycle Stop setpoint by automatically ignoring the Auto-cycle feature.
• The compressor will be placed into “Stop” mode after the suction pressure is equal to, or goes below the
Pumpdown Stop Pressure.
Pumpdown:
• This checkbox enables the Pumpdown feature. If this box is unchecked, Pumpdown setpoints are ignored and the user is not allowed to edit Pumpdown setpoints.
Stop Pressure:
• This setpoint defi nes the suction pressure value at which the compressor will cycle off. Normally, this setpoint is set below the Suction Pressure Auto-cycle
Stop Pressure setpoint.
Stop Delay:
• This setpoint delays the compressor from stopping when the suction pressure is equal to or less than the
6 – 6
Figure 6-7. Compressor Control Screen - Pumpdown/Pulldown Control
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Section 6 • Compressor Control
Stop Pressure.
Min Slide Position:
• The minimum capacity slide is the setpoint that the compressor is allowed to run at. By forcing the compressor capacity to operate at a value above minimum, we insure that the suction pressure will be pulled down to the Stop Pressure setpoint.
Pumpdown Operation (Run/Stop):
• This button starts/stops the Pumpdown operation. This button is active only when compressor is in local Auto mode and Control Mode Confi gured is
Suction Pressure. This button will display “Run” when
Pumpdown operation has not started or stopped, while button will display “Stop” when Pumpdown operation is running.
When Pumpdown feature is enabled, Pulldown checkbox is automatically grayed out. Similarly when Pulldown feature is enabled, Pumpdown checkbox is automatically grayed out and hence, the user will not be able to operate Pumpdown feature. This is done to keep Pumpdown and Pulldown features mutually exclusive.
• Number of steps = delta 60 psig change * 1 step/5 psig = 12 steps.
• Delay per Step = 48 hours / 12 steps = 4 hours/step.
• So for the fi rst 4 hours, the compressor runs at 80 psig.
• Next 4 hours @ 75 psig
• Next 4 hours @ 70 psig
• And so forth.
After the 12th step (running at 25 psig), 48 hours will have elapsed, and the new setpoint becomes 20 psig, achieving the 20 psig setpoint after 48 hours. After the pulldown setpoint is equal to or is less than the control setpoint, the pulldown feature will disable itself.
Pulldown Control
The Pulldown Control defi nes a method of slowly pulling the suction pressure down from a high value. This is sometimes required on systems that have liquid recirculation systems or on new building to prevent structural damage by limiting the rate at which to build is cooled.
This feature can be enabled or disabled from this page, see Figure 6-7. Compressor Control Screen - Pumpdown/
Pulldown Control. If Pulldown is enabled, this feature will only function when the compressor is running in local
Auto, Auto Sequencing mode and the Control mode is
Suction Pressure 1.
The Pulldown feature provides a method to slowly pull the suction pressure down to operating conditions. The pulldown method used is to step the suction pressure down over a defi ned time interval.
Example:
Assume the suction pressure is at 85 psig and the setpoint we want to get to is 20 psig. The operator wants to allow 48 hours of pulldown time. Pick a reasonable step pressure of 5 psig for every step. This defi nes a change of
(80 – 20 = 60) psig.
• Note: First step is applied immediately. So fi rst step starts at (85 – 5 = 80) psig
Pulldown:
• This checkbox enables the Pulldown feature. If this box is unchecked, Pulldown setpoints are ignored and the operator is not allowed to edit Pulldown setpoints.
Initiate Pulldown at Next Start:
• This checkbox when enabled, turns on the Pulldown process at the next start cycle, Pulldown operation will work in the following manners:
• Pulldown only works when Control mode is
Suction Pressure 1.
• If not started in Suction Pressure 1 then
Pulldown process will not run until stopped and restarted in Suction Pressure 1.
• If started in Suction Pressure 1 and changed after start, then Pulldown process will be suspended and restart once Control mode is changed back to Suction Pressure 1.
Step Pressure:
• This setpoint defi nes the step decrements at which the suction pressure value will be controlled at.
Delay Per Step:
• This setpoint defi nes the time increment at which the compressor will be controlled at each step.
Stop Pressure:
• This setpoint defi nes the suction pressure value at which Pulldown operation will get completed. When suction pressure value is equal to or goes below this setpoint, Pulldown feature disables itself. Also
“Pulldown” and “Initiate Pulldown at Next Start” checkboxes will be automatically deselected as normally this is one time use feature.
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6 – 7
Section 6 • Compressor Control
Auto Cycle Differential:
• This setpoint defi nes the offset pressure values for
Auto Cycle Start Pressure and Stop Pressure from the
Suction Pressure setpoint. Auto Cycle Start Pressure setpoint will be Suction Pressure setpoint incremented by this setpoint pressure value, while Auto Cycle
Stop Pressure value will be Suction Pressure setpoint decremented by this setpoint pressure value.
When Pulldown feature is enabled, Pumpdown checkbox is automatically grayed out. Similarly when Pumpdown feature is enabled, Pulldown checkbox is automatically grayed out and hence, the user will not be able to operate Pulldown feature. This is done to keep Pulldown &
Pumpdown features mutually exclusive.
operator can also switch from setpoint 1 and setpoint 2 for each control method. What is available in this dropdown box is dependent on the number and type of control selected in the confi guration screen, see Figure 6-8.
Compress Control Screen - Misc 1 (Control Mode).
Stop Load and Force Unload
The stop load and force unload feature’s primary purpose is to attempt to prevent the compressor from tripping off due to particular instrument reading. For example, if the suction pressure drops too low, the compressor will trip off for safety reasons. However, the stop load & force unload algorithm recognizes a potential trip and either stops the compressor from loading up or even unloads the compressor to prevent the trip.
Control Mode
This drop down box gives the operator the ability to change the type of control mode such as suction pressure control or process temperature control. The
Stop load:
• When this value is reached, the capacity slide will not
6 – 8
Figure 6-8. Compressor Control Screen - Misc. 1 (Control Mode)
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Section 6 • Compressor Control advance in any condition.
Force Unload:
• When this value is reached, the capacity slide position will decrease until the variable reading is below this value.
High Motor Amps:
• Motor current values for stop load and force unload.
High Discharge Pressure:
• Discharge pressure value for stop load and force unload.
Low Suction Pressure:
• Suction pressure values for stop load and force unload
High Discharge Superheat:
• Discharge temperature superheat values for stop load and force unload. This is only used for Cool
Compression.
Capacity Slide Triggered Outputs
The Vission 20/20 offers two digital outputs that can be triggered at a specifi ed capacity slide position. By default, the outputs are preselected for economizer and hot gas bypass. However, these preselected outputs are customizable by the operator, see Figure 6-9.
Compressor Control Screen - Misc. 2 (Economizer & Hot
Gas Bypass Control).
Slide Valve Setpoint:
• Operator editable labels for the each output. Only
Economizer Port 2 Label is non-editable.
Slide %:
• Indicates the capacity slide position where the digital output is triggered.
State Below Setpoint:
• Defi nes the state of the digital output when the slide
Figure 6-9. Compressor Control Screen - Misc. 2 (Economizer & Hot Gas Bypass Control)
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
6 – 9
Section 6 • Compressor Control position is below the “Slide %” setpoint. The operator can choose between “N.O.” or “N.C.”. This setpoint is not available for Economizer Port 2, so Economizer
Port 2 follows the setpoint of Economizer Port 1.
Active:
• Check box to enable the digital output. There is no check box for enabling Economizer Port 2 digital output. Economizer Port 2 digital output is enabled when Compressor type selected from confi guration screen is “VSM7” and Economizer Port 1 digital output is enabled.
setpoint. This advanced feature of the Vission 20/20 closely monitors the rate of change of the process variable and compares it to the control setpoint. If the process variable is changing in the direction of the control setpoint at the specifi ed rate or greater, then the normal command to move the capacity slide is interrupted. The rate is calculated between time intervals set in the proportional control section of this screen.
Volume Slide Position Offset
These setpoints offer the ability to alter the Volume position table to take advantage of potential energy savings. Since the volume position is a function of the capacity position, the offset to the volume is based on the position of the capacity slide. The volume offset can be applied to the entire capacity slide range or just a portion using the Capacity Range minimum and maximum setpoints.
Enable Load Anticipation Algorithm:
• Allows the operator to choose if the load anticipation algorithm runs.
Rate Dead Band:
• Defi nes the rate at which the capacity slide movement will be interrupted. This value is an absolute value of the process variable. For example, the default value is 0.25. If the control mode is suction pressure, then this value is 0.25 Psig or if process temperature is the control mode then the value would be 0.25°F.
Volume Slide Adjustment %:
• The value in percentage of the volume slide offset.
Capacity Range:
• Defi nes the range that the volume position slide offset will be applied.
Soft Load
This setpoint is used to slow the loading of the compressor. In some refrigeration systems, a loading compressor can have dramatic effects on the system parameters.
This setpoint allows an operator to reduce the continuous load pulse as defi ned in the proportional control section to a percent duty cycle.
Soft load %:
• Defi nes the duty cycle of the continuous load pulse.
At 100%, the continuous pulse will truly be continuous. At 50%, the continuous pulse would be reduced to half time on and half time off in the time interval defi ned in the proportional control section.
Load Anticipating
The purpose of the load anticipating algorithm is to reduce the amount of overshoot of the capacity slide position while the compressor attempts to meet the control
6 – 10
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Section 6 • Compressor Control
Oil Control Liquid Injection
These setpoints determine how the Vission 20/20 will manage the oil of the compressor, see Figure 6-10.
Compressor Control Screen - Oil Control & Liquid
Injection Control.
Oil Pump Press Restart Ratio:
• The on and off setpoints defi ne when the oil pump will cycle on and off if the oil pump is selected to cycle from the confi guration screen.
Oil Separator Heater Temp:
• When the oil temperature falls below this setpoint the oil heater will turn on. Note, there is a 5°F differential associated with this setpoint. For example, when set at 100°F, the heater will turn on at 95°F and off at
105°F.
The setpoints is this section are to control the behavior of the liquid refrigerant injected into the compressor for oil cooling purposes. The liquid injection solenoid control is based off of discharge temperature whether the compressor uses just an injection solenoid or a motorized valve in conjunction with the solenoid.
Liquid Injection Solenoid Control ONLY
• When using only the liquid injection solenoid, the solenoid is activated once the value of discharge temperature meets or exceeds the value of “Liquid inj.
Setpoint 1” and the value of oil separator temperature meets or exceeds the value of “Oil Sep. Temp.
Override”. The injection solenoid will deactivate if either of setpoints are not met. This will prevent situations where the discharge temperature may rise quickly, but the oil temperature is still very cold. By preventing the liquid injection solenoid from turning on at this point, the oil separator will not be subjected to additional liquid refrigerant, that would cool the oil
Figure 6-10. Compressor Control Screen - Oil Control & Liquid Injection Control
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
6 – 11
even further.
Liquid Injection Control using a 4-20ma motorized valve.
• When a motorized valve is used to control the amount of liquid being injected into the compressor the previously mentioned setpoints have a slightly different function. The Oil Sep. Temp. Override is still used in controlling the injection solenoid, however the Liquid
Inj. Setpoint 1 is now used as the target temperature for the PID Algorithm that controls the position of the motorized valve. The algorithm compares the actual discharge temperature against the Liquid Inj.
Setpoint 1. The difference between these is the error.
The PID algorithm tries to drive the error to “zero” by moving the positioning valve to allow more or less liquid refrigerant to be injected into the compressor.
• PID algorithm can be notoriously hard to tune. As a result the Vission 20/20 offers a couple of additional features to help control wild fl uctuations in oil temperatures that could result in the compressor tripping off. The operator can choose to enable the minimum value position that automatically sets the liquid injection motorized value to the specifi ed value whenever the discharge temperature has fallen below the Liquid inj. Setpoint 1. This feature nearly eliminates the overshoot of the PID in the downward direction and reduces the chance of the compressor tripping off due to low oil temperature. The operator can also choose to use an average of the discharge temperature and the oil manifold temperature as the control variable. The discharge temperature can vary quite drastically forcing the PID algorithm to drastically adjust the motorized value. By averaging the more stable oil manifold temperature and discharge temperature, the control variable stabilizes and the
PID is more easily tuned.
• Please note that as stated above, PID algorithms can be diffi cult to tune and there is no one set of PID values that will work. The work required for a compressor to meet the requirement of its installation vary greatly and therefore the amount of heat transfered to the oil varies just as greatly. We recommend the operator consult PID tuning guides available from many different source before attempting to tune this
PID.
Oil Sep. Temp. Override:
• Defi nes the temperature the oil must reach before the liquid injection solenoid is allowed to be activated.
P = Proportional (Gain):
• Used to adjust the positioning valve in direct proportion to the difference between the control setpoint and the discharge temperature (SetPt - DT = error).
The proportional term is a unit-less quantity and is used for coarse adjustment. This setpoint should be set to the lowest value that gives adequate response to the control system. Increasing the proportional setting increases the control system’s sensitivity to small discharge temperature fl uctuations and the tendency to hunt.
I = Integral (reset):
• This parameter integrates the error over time, to account for a small error that has persisted for a long time. This quantity is used for fi ne adjustment. This setpoint is used to smooth out discharge temperature variations. This setpoint should be set high enough to prevent hunting but not too high or it will cause control system overshoot.
D = Derivative (rate):
• This parameter accounts for how fast the error is changing, positively or negatively.
Minimum Valve Open %:
• When enabled, this is the valve position used whenever the control variable drops below Liquid inj.
Setpoint 1. Use only if the compressor is tripping off for low oil temperature due to large overshoots and all other tuning methods have failed.
Avg. with Oil Manifold Temperature:
• When enabled, averages the Oil manifold temperature and the discharge temperature. This creates a more stable control variable and should result in more stable control.
Liquid Inj. Setpoint 1:
• Setpoint at which the liquid solenoid will activate if in solenoid control or if the setting for the control variable for the PID is in liquid motorized value control.
Liquid Inj. Setpoint 2:
• Not yet available
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Section 7 • Alarms and Trips
Overview
The Alarms and Trips screen allows the operator to view and adjust settings for compressor safety and alarm settings. For Alarms and Trips Screen Pages refer to Figures
7-1, 7-2, 7-3 and 7-4.
Vission 20/20 uses Alarms as a way to notify the operator of running parameters that if left unchecked could result in the compressor shutting down due to a trip.
Trips are the conditions that exceed the safety limits of the compressor or refrigeration system and stops the compressor. Trips are always displayed as a red banner and alarms are yellow banners on the top and bottoms status bars.
Alarms and trip conditions are also logged to provide an operational history for the operator. Both alarms and trips will be logged in the event list accessible from the menu screen. Trips also trigger the input/output screen to take a snapshot of all input and output values as freeze screen. The freeze screens are available as left side tabs in the input/output screens and are very useful as a troubleshooting tool for the operator.
The Vission 20/20 uses Warnings as a way to notify the operator of parameters that may inhibit the compressor when started. Warnings are monitored only when compressor is not running. Warnings are always displayed as a orange banner on bottom status bar. Warnings uses the alarm setpoint for detection and message. All warnings messages present can be seen collectively in a pop-up window. This pop-up is displayed when warning condition is present and bottom status bar used for displaying warnings is pressed.
Alarms and Trips Setpoints
Use Figure 7-1. Alarms and Trips Screen - Page 1.
Low Suction Pressure (Alarm & Trip):
• This is the low suction pressure safety. This safety is active in both temperature and pressure control
Figure 7-1. Alarms and Trips Screen - Page 1
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7 – 1
Section 7 • Alarms and Trips modes. An alarm or trip will be activated if the suction pressure falls below the setpoint values.
High Discharge Pressure (Alarm & Trip):
• This is the high discharge pressure safety. The alarm or trip will be activated if the discharge pressure rises above the setpoint value.
High Process Temperature (Alarm only)
• This alarm is active when the process temperature is at or above the setpoint value. There is no trip setpoint.
Low Process Temperature (Alarm & Trip):
• This is the low control temperature safety. This safety is active when process temperature control has been selected in the Control Mode dropdown selection found in the Compressor Control screen. An alarm or trip will be activated on a drop in process temperature below the setpoint value.
Use Figure 7-2. Alarms and Trips Screen - Page 2.
Low Suction Temperature (Alarm & Trip):
• This is the low suction temperature safety. The alarm or trip will be activated if the suction temperature drops below the setpoint value.
High Discharge Temperature (Alarm & Trip):
• This is the high discharge temperature safety. The alarm or trip will be activated if the discharge temperature rises above the setpoint value.
Low Oil Separator Start Temperature (Alarm & Trip):
• This is the starting low oil separator temperature safety. The compressor is prevented from starting or running if the oil in the separator is below the alarm value. After a time delay (setting of the Oil
Separator Temperature Safety Changeover timer), this safety is deactivated and the Low Oil Separator
Run Temperature alarm and safety setpoints become active.
Low Oil Separator Run Temperature (Alarm & Trip):
• This is the running low oil separator temperature
7 – 2
Figure 7-2. Alarms and Trips Screen - Page 1 as Level 2 User
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 7 • Alarms and Trips safety. After a time delay, (setting of the Oil Separator
Temperature Safety Changeover timer), the Low Oil
Separator Start Temperature is bypassed and Low
Oil Separator Run Temperature alarm and safety setpoints become active. The alarm or trip will be activated if the oil temperature in the separator drops below the setpoint value.
Low Oil Injection Temperature (Alarm & Trip):
• This is the low oil injection safety. The alarm and trip setpoints are bypassed at start for a time period (setting of the Oil Injection Temperature Safety
Changeover timer). The alarm and trip will be activated after the time delay has expired.
High Oil Injection Temperature (Alarm & Trip):
• This is the high oil injection temperature safety. The alarm or trip will be activated if the oil injection temperature rises above the setpoint value.
High Superheat Start Temperature (Trip Only):
• This is the starting high discharge superheat temperature safety. This safety is active when superheat monitor is enabled in the confi guration screen. The compressor is prevented from starting or running if the superheat is above the setpoint value. The warning or trip will be activated if the superheat temperature rises above the setpoint value. There is no
ALARM setpoint.
High Superheat Run Temperature (Alarm & Trip):
• This is the running high discharge superheat temperature safety. This safety is active when superheat monitor is enabled in the confi guration screen.
After a time delay, (setting of the High Superheat
Temperature Safety Changeover timer), the High
Superheat Start Offset Temperature is bypassed and
High Superheat Run Temperature alarm and safety setpoints become active. The alarm or trip will be activated if the superheat temperature rises above the setpoint value.
High Superheat Start Offset Temperature (Trip Only):
• This is the starting high discharge superheat temperature safety. This safety is active when superheat monitor is enabled in the confi guration screen.
Figure 7-2. Alarms and Trips Screen - Page 2
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7 – 3
Section 7 • Alarms and Trips
After a time delay, (setting of the High Superheat
Temperature Safety Changeover timer), this safety is deactivated and the High Superheat Run Temperature alarm and safety setpoints become active. The trip will be activated if the superheat temperature from start rises above the superheat temperature plus the setpoint value. There is no ALARM setpoint.
Use Figure 7-3. Alarms and Trips Screen - Page 3.
Prelube Oil Pressure (Alarm & Trip):
• This is the prelube oil pump failure safety. If prelube oil pressure does not rise by prelube alarm setting confi gured with in prelube oil pressure trials of prelube oil pressure monitor time for a minimum time set at Minimum Comp. Prelube Time, then the start sequence will be aborted. The prelube oil pressure trials, prelube oil pressure monitor time, Minimum
Comp. Prelube Time is set on the Timer screen. The prelube oil pressure is defi ned as manifold pressure minus discharge pressure during the start sequence, zeroed prelube oil pressure difference value is shown on main screen during start sequence. The prelube oil pressure is redefi ned as manifold pressure minus suction pressure after the start sequence. This safety insures adequate lubrication of the compressor at startup.
Low (Run) Oil Pressure (Alarm & Trip):
• This is the running oil pressure safety. The normal alarm and trip setpoints of this safety are “messaged” as soon as the compressor starts. The “Pre lube Oil
Pressure” Alarm and Trip setpoints are substituted into this safety setpoints for a time of the “Oil Pressure
Bypass” timer (typically 60 seconds). After this timer expires, then the setpoints return back to the normal settings. The action of adjusting the setpoints for about a minute allows the (Run) Oil Pressure to build up to normal running pressures after the compressor starts. After the Oil Pressure Bypass Timer has expired, the Oil Pressure must be above the normal setpoints, or else an Alarm or Trip will occur. An alarm or trip will be active if the oil pressure drops below the
7 – 4
Figure 7-2. Alarms and Trips Screen - Page 3
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Section 7 • Alarms and Trips normal setpoint values after the Oil Pressure Bypass timer has expired. This time limit is set on the Timer menu screen. Run oil pressure is defi ned as manifold pressure minus suction pressure.
High Filter Differential Pressure Start (Alarm & Trip):
• This safety allows a higher than normal fi lter differential pressure to exist during the fi rst minute after a compressor starts. This allows time for cold oil that is present in the oil piping and fi lters to be passed and replaced with warmer oil. After a time delay (setting of the Filter Diff Pressure Safety Changeover timer), this safety is deactivated and the High Filter
Differential Pressure-Run alarm and safety setpoints become active. An alarm or trip will be active if the fi lter differential (= Filter Inlet Pressure minus Filter
Outlet Pressure) exceeds the setpoint value.
High Filter Differential Pressure Run (Alarm & Trip):
• This safety setpoint is active when the compressor has started and the Filter Diff Pressure Safety
Changeover timer has timed out. An alarm or trip will be active if the fi lter differential (= Filter Inlet Pressure minus Filter Outlet Pressure) exceeds by the setpoint value.
High Motor Amps:
• This safety setpoint is active after the Volume
Decrease At Start Timer expires (this timer is not settable by the operator). A trip will occur if the motor amperage exceeds the safety setpoint value. For a motor with a 1.15 Service Factor, the trip setpoint should be set at 125% of the motor full load amperage value. The alarm setpoint should be set at 120% of the motor full load amperage value.
Low Run Pressure Ratio (Alarm & Trip):
• This is the low run pressure ratio safety. This safety is active when Cool Compression is enabled in the confi guration screen. An alarm or trip will be active if the pressure ratio drops below the setpoint values after the Low Pressure Ratio Bypass timer has expired.
Compressor Inhibits
The Vission 20/20 uses several start inhibits to prevent the compressor from starting to protect the compressor and the refrigeration system. While starting the compressor, the inhibits are checked fi rst before the oil pump is started or the motor is started. The failed starts due to an inhibit does not count toward any of the antirecycle timers including hot starts. The Inhibits uses the alarm setpoint to trigger an aborted start and message.
All inhibits will be logged in the event list.
Safety Failure Messages
Low Suction Pressure Trip
• This message will appear when the suction pressure falls below the safety setting of the Low Suction Pressure Trip Setpoint No.1 or No. 2.
High Discharge Pressure Trip
• This message will appear when the discharge pressure exceeds the safety setting of the Hi Dsch Press
Trip Setpoint No. 1 or No. 2.
Low Suction Temp Trip
• This message will appear when the suction temperature falls below the safety setting of the Low Suction
Temperature Trip setpoint.
High Discharge Temp Trip
• This message will appear when the discharge temperature rises above the safety setting of the High
Discharge Temperature Trip setpoint.
Low Oil Separator Temp Trip
• This message will appear when the Oil Separator
Temp is below the Low Oil Separator Start Temp Trip setpoint. In addition this message will appear after the Oil Separator Temp Safety Changeover timer times out and the Oil Separator temperature fails to rise above the Low Oil Separator Start Temp Reset after the compressor is started.
Low Oil Separator Temp Trip
• This message will appear when the Oil Separator
Temp is below the Low Oil Separator Run Temp
Reset setpoint after the Oil Separator Temp Safety
Changeover timer times out.
Low Process Temp Trip
• This message will appear when the Process Control
Temperature falls below the safety setting of the Lo
Control Temperature Trip Setpoint.
Prelube Oil Pump Inhibit
• This message will appear when the Prelube Oil
Pressure (Manifold minus Discharge) has remained below the Prelube Oil Pressure Reset setpoint. The oil pump will try to generate “prelube pressure” for the time period of the Low Oil Pressure Safety Bypass timer setting.
Low Oil Pressure Trip
• This message will appear when the Running Oil
Pressure (Manifold minus Suction) has remained below the low Oil Pressure Reset setpoint when the Oil
Pressure Bypass Start timer times out. This message will also appear when the Running Oil Pressure falls below the Low Oil Pressure trip setpoint after the Low
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7 – 5
Section 7 • Alarms and Trips
Oil Pressure Safety Bypass timer times out.
Low Oil Injection Temp Trip
• This message will appear when the Oil Injection temperature falls below the Low Oil Injection Temperature trip setpoint. This message will also appear when the
Oil Injection temperature fails to rise above the Low
Oil Injection Temperature reset setpoint after the
Low Oil Injection Temp Bypass timer times out.
High Oil Injection Temp Trip
• This message will appear when the Oil Injection temperature rises above the High Oil Injection
Temperature trip setpoint.
High Filter Differential Trip
• This message will appear if the Filter Differential
Pressure rises above the High Fltr Diff Press – Start setpoint before the Filter Differential Pressure Safety
Changeover timer times out.
High Filter Differential Trip
• This message will appear if the Filter Differential pressure rises above the High Fltr Diff Press Run setpoint after the Filter Differential Pressure Safety
Changeover timer times out.
High Motor Current Trip
• This message will appear if the motor amperage rises above the Hi Motor Amps trip setpoint.
Compressor Interlock Trip
• This message will appear if the Motor Auxiliary contact fails to close before the Compressor Starter
Auxiliary Contact Bypass timer times out. Refer to wiring diagram.
High Level Shutdown Trip
• This message will appear when power is removed from the input module that is designated as “Auxiliary
#1 Safety” Refer to wiring diagram.
False Start
• This message appears when the compressor stops and the motor auxiliary contact fails to open. The message will also appear if the compressor shuts down and the amperage is 20% of the maximum amp setting, indicating that the starter is still energized.
Low Oil Level Trip
• This message appears when power is removed from the designated input module, refer to wiring diagram. This safety will activate only after the oil level has been low for the time period defi ned by the “Low
Oil Separator Safety Trip Delay” timer.
7 – 6
Compressor Warnings
High Level Shutdown Warning
• This message will appear when High Level Shutdown switch is Active Low.
Low Process Temp Warning
• This message will appear when Process Control
Temperature falls below the safety setting of the
Low Process Temperature Alarm setpoint.
High Discharge Pressure Warning
• This message will appear when the Discharge
Pressure exceeds the safety setting of the High
Discharge Pressure Alarm setpoint.
High Discharge Temp Warning
• This message will appear when the Discharge
Temperature exceeds the safety setting of the High
Discharge Temperature Alarm setpoint.
Low Suction Pressure Warning
• This message will appear when Suction Pressure falls below the safety setting of Low Suction Pressure
Alarm setpoint.
Low Suction Temp Warning
• This message will appear when Suction Temperature falls below the safety setting of Low Suction
Temperature Alarm setpoint.
Low Oil Separator Start Temp Warning
• This message will appear when the Oil Separator
Temperature falls below the safety setting of the Low
Oil Separator Start Temp Alarm setpoint.
High Oil Injection Temp Warning
• This message will appear when the Oil Injection
Temperature exceeds the safety setting of the High
Oil Injection Temp Alarm setpoint.
High Filter Differential Warning
• This message will appear when the Filter Differential
Pressure exceeds the safety setting of the High Filter
Diff Start Pressure Alarm setpoint.
High Superheat Temp Warning
• This message will appear when the Discharge
Superheat Temperature exceeds the safety setting of the High Superheat Start Temp Trip setpoint.
Analog Aux in 1-16 Warning
• This message will appear when the Analog Aux in
1-16 exceeds / falls below the safety setting of the
High / Low Alarm setpoint.
Digital Aux in 1-16 Warning
• This message will appear when the Digital Aux in 1-8 is Active High / Low.
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Section 8 • Timers
Overview
The timers screen allows the operator to view and adjust timer settings associated with compressor operation.
There are different types of timers that the operator should be aware of listed below. For Timer Screen Pages, see Figures 8-1 and 8-2.
amount of time.
Timers:
• A general timer requiring the time to expire before the listed event can occur.
Timer Setpoints
Use Figure 8-1. Timers Screen - Page 1.
Changeover:
• The changeover timers will change from one type control to another once the compressor has started and then the timer has expired.
Bypass:
• The bypass timers prevent certain alarm and trip checks from occurring until the compressor has started and then the time has expired.
Delays:
• Delays require the condition to occur for the specifi ed
Capacity Increase Start Delay:
• At compressor startup, the capacity slide position is held at minimum position for this time period. This is to allow compressor and system conditions to stabilize. After the timer expires, the slide is free to move in accordance to the system demands.
Minimum Compressor Pre-lube Time:
• This is the length of time the oil pump will run, after establishing Pre-lube Oil Pressure, to prime the oil circuit before starting the compressor.
Figure 8-1. Timers Screen - Page 1
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8 – 1
Section 8 • Timers
Low Oil Pressure Safety Bypass:
• This is the length of time in which the normal Low
(Run) Oil Pressure setpoints will be adjusted by the values of the Pre-lube Oil Pressure setpoints. After the timer has expired, the normal Low Oil Pressure setpoints become active.
Prelube Oil Pressure Monitor Time:
• The Prelube Oil Pressure Monitor time defi nes timer to monitor raise in prelube oil pressure against prelube oil pressure alarm settings. If prelube oil pressure is unable to raise by oil pressure alarm settings in Prelube oil pressure monitor time then it restarts oil pump.
Prelube Oil Pressure Monitor Trials:
• The Prelube oil pressure monitor trials defi nes maximum number of retries to monitor prelube oil pressure.
Prelube Oil Pressure Safety Changeover:
• After compressor starts, drop in prelube oil pressure is monitored for prelube oil pressure safety changeover time. If prelube oil pressure drops with in prelube oil pressure safety changeover time then compressor trips on prelube oil pressure trip.
High Filter Differential Pressure Safety Changeover:
• This timer bypasses the High Filter Differential Run
Pressure safety settings when the compressor starts.
It defi nes how long the High Filter Differential Start
Pressure setpoints will be active after the compressor starts. After the timer has expired, then the High
Filter Differential Run Pressure safety setpoints will be active.
Oil Separator Level #1 Safety Trip Delay:
• This timer bypasses the low oil level switch for momentary drops in the oil level. This timer activates when the low oil level switch opens, and deactivates when the switch closes. If the switch is still open after the timer has timed out, the compressor will be shut down and a trip message will be displayed. This timer is available if the unit is equipped with a low oil separator fl oat switch (the oil level switch is standard on all liquid injection units and optional on all others).
Oil Separator Level #2 Safety Trip Delay:
• This timer bypasses the low oil level switch for momentary drops in the oil level. This timer activates when the low oil level switch opens, and deactivates when the switch closes. If the switch is still open after the timer has timed out, the compressor will be shut down and a trip message will be displayed. This timer is available if the unit is equipped with a low oil separator fl oat switch (the oil level switch is standard on all liquid injection units and optional on all others).
8 – 2
Low Oil Separator Temperature Safety Changeover:
• This timer allows Low Oil Separator Start Temperature safety setpoint to protect the compressor against cold oil during starting. After the timer has expired, the Low Oil Separator Run Temperature is then active.
Low Oil Injection Safety Bypass:
• This timer bypasses the Low Oil Injection Temperature
Safety setpoint during start-up, to allow any cold oil in the oil lines and fi lter to pass. After the timer expires, the Low Oil Injection Temperature safety is active.
Use Figure 8-2. Timers Screen - Page 2.
Max Restart After Power Failure:
• This timer forces the compressor to wait for the set time period after a power failure and the panels restarts before it can be started automatically. By staggering the time settings of this timer between other compressor panels, the compressors can be allowed to start automatically, one at a time, after a power failure. This will prevent excessive load demand on the power system that could occur if all of the compressor equipment were to start at the same time.
The Power-up Auto Re-Start [x]Enable option must be selected on the Confi guration screen for this option to be active.
Hot Starts per Hour:
• This counter counts compressor starts. After every start, a one-hour timer is reset and starts timing. If the timer times out, the hot starts counter is reset.
When the counter reaches its preset value, it will not allow another compressor start until the one-hour timer times out and resets the counter. The hot starts counter, therefore, will be reset when the time between compressor starts total one hour. This counter allows repetitive compressor starts, but once the counter has reached its set point, it requires a onehour window between compressor starts in order for the counter to be reset.
True Anti-Recycle Timer:
• Once the compressor turns off, this timer will keep the compressor off for the setting of the True Anti-
Recycle Timer. This timer is used to prevent short cycling of the compressor.
Accumulative Anti-Recycle Timer:
• This timer forces a specifi ed time between compressor starts. When the compressor starts, the timer resets and starts timing and accumulates running time. Once the compressor shuts down, it will not be allowed to restart for the remainder of time left on the Accumulative Anti-Recycle Timer. Unlike the
True Anti-Recycle Timer, if the compressor has run
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Section 8 • Timers for a time period that exceeds the setpoint of the
Accumulative Anti-Recycle Timer, then when the compressor shuts down, it will be allowed to restart immediately.
Compressor Interlock Bypass:
• Once the Vission 20/20 has sent a command to the compressor starter to start, a return signal is expected. This timer defi nes how much time to wait for that signal before setting a trip condition.
High Motor Amps Safety Bypass:
• Starting motors can typically pull much more than its rates full load amps for a short time. This timer ignores that sudden inrush of current for the specifi ed time.
Emergency Stop Timer:
• Defi nes the amount of time the compressor is in a
False start condition before activating the Emergency stop. The emergency stop output can be connected to a shunt-trip in the case of a run away compressor to remove all power to the system.
Low Suction Pressure Safety Bypass:
• Sets the time that the compressor is allowed to run at lower suction pressure then would usually be allow at start-up.
High Superheat Temp Safety Changeover:
• This timer activates at shutdown and changes the restart parameters if the time has not been met.
Figure 8-2. Timers Screen - Page 2
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8 – 3
8 – 4 / Blank
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Section 9 • Compressor Scheduling
Overview
This menu allows the operator to schedule control setpoint switching during the day and week. This feature can be enabled and disabled from the Compressor
Schedule screen. Up to four setpoint “switch” events can be scheduled per day, see Figure 9-1. Compressor
Scheduling Screen.
Scheduling Setpoint
Schedule:
• The options for selection are “Enable” & “Disable”.
The operator is allowed to confi gure setpoints related to schedule events, but only when the schedule is disabled.
• The operator can Enable Compressor Scheduling
Feature, only if Time Intervals are in order of Event 1
< Event 2 < Event 3 < Event 4 for all days. If events are not in order, invalid events are marked with caution symbol to indicate the operator to correct events and then enable feature.
Control Mode:
• These drop-down boxes allow selection of operating modes which gets switched once schedule event time is achieved.
• The list of allowable modes depends on the number of controllers selected in the confi guration screen.
For example, if the number of Suction Pressure
Control Setpoints selected is “2” and the number of Process Temperature Control Setpoints selected is “1”, then Control Mode drop-down box will have
“Unscheduled”, “Suction Pressure SP1”, “Suction
Pressure SP2” and “Process Temperature SP1” as options for selection.
• If Control Mode is selected as “Unscheduled” and
Time set in an event is achieved, then control mode will not get switched. Hence Control Mode can be set
Figure 9-1. Compressor Scheduling Screen
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9 – 1
Section 9 • Compressor Scheduling as “Unscheduled” if operator does not want to use all
4 events per day.
Time:
• This setpoint allows selection of Hours, Minutes and
AM/PM values for an event. When time set for an event is achieved, control mode will get changed as selected for that event.
• The range of values allowed to set for Hours setpoint is 0 – 12 for 12 hour format and 0 – 23 for 24 hour format. The range of values allowed to set for Minutes setpoint is 0 – 59. AM/PM selection is active for selection only when Time Format selected in confi guration screen is 12 hour.
When scheduling feature is enabled and No. of controllers for Suction Pressure Control & Process Temperature
Control are changed in confi guration screen which makes control modes selected in compressor scheduling screen as invalid, then feature will get disabled automatically and indication will be sent to operator to correct the setting.
9 – 2
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Section 10 • Compressor Sequencing
Overview
Compressor sequencing screen is where more than one
Vission 20/20 panels can be sequenced in network using
Modbus TCP. These settings defi ne how the master compressor should control sequenced Vission 20/20 panels.
This feature is enabled from the Confi guration Screen, see Section 19 for Compressor Sequencing.
Pressure / Temperature Control Setpoints
Compressor Sequencing screen defi nes settings those are used by master compressor for sequencing. For Pressure Control Setpoints see Figure 10-1, for
Temperature Control Setpoints see Figure 10-2.
Load Rate 2 offset (outer):
• Defi nes the outer pressure/temperature setpoint offset to monitor compressor load. If Suction pressure
/ process temperature surpasses Load Rate 1 offset and goes beyond Load Rate 2 setpoint offset then sequencing decisions are made according to Load Rate
2 timer.
Load Rate 1 offset (inner):
• Defi nes the inner pressure/temp setpoint offset to monitor compressor load. If Suction pressure / process temperature goes beyond Load Rate 1 setpoint offset then sequencing decisions are made according to Load Rate 1 timer.
Suction Pressure/Process Temperature Control Setpoint:
• The target setpoints are read only values here.
These setpoints can be changed by logging on to
“Compressor Control” Screen.
Unload Rate 1 Offset (inner):
• Defi nes the inner pressure/temp setpoint to monitor compressor load. If Suction Pressure/Process
Temperature Control drops below Unload Rate 1 setpoint offset then sequencing decisions are made according to Unload Rate 1 timer.
Figure 10-1. Compressor Sequencing Screen - Page 1
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10 – 1
Section 10 • Compressor Sequencing
Unload Rate 2 Offset (outer):
• Defi nes the outer Pressure/Temp setpoint offset to monitor compressor load. If Suction Pressure/
Process Temperature drops below Unload Rate 1 offset and goes below Unload Rate 2 setpoint offset, then sequencing decisions are made according to
Unload Rate 2 timer.
Capacity Load/Unload Timers
One of the following Capacity Load/Unload rate timers are used to make sequencing decisions periodically.
Suction Pressure/Process Temperature setpoints are monitored to identify which one of the following timers to be used.
Load Rate 2 (Outer):
• If Suction Pressure/Process Temperature surpasses
Load Rate 1 offset and goes beyond Load Rate 2 setpoint offset then Load Rate 2 timer is used to make periodic sequencing decisions.
Unload Rate 1 (Inner):
• If Suction Pressure/Process Temperature goes below
Unload Rate 1 setpoint offset then Unload Rate 1 timer is used to make periodic sequencing decisions.
Unload Rate 2 (Outer):
• If Suction Pressure/Process Temperature surpasses
Unload Rate 1 offset and goes below Unload Rate 2 setpoint offset then Unload Rate 2 timer is used to make periodic sequencing decisions.
Load Rate 1 (Inner):
• If Suction Pressure/Process Temperature goes beyond Load Rate 1 setpoint offset then Load Rate 1 timer is used to make periodic sequencing decisions.
10 – 2
Figure 10-2. Compressor Sequencing Screen - Page 2
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Section 10 • Compressor Sequencing
Compressor Sequencing Table
Compressor sequencing table menu allows operator to view and adjust settings those are used for compressor sequencing, see Figure 10-3. Compressor Sequencing
Screen - Page 3.
Equipment:
• Options of this combo box are updated automatically. This contains names of all the compressors in the network communicating with Master compressor.
Equipment name can be selected from drop-down list. Same Equipment name should not be confi gured more than once in Sequencing table.
Control:
• Inclusion/exclusion of compressor partaking in the sequencing can be decided on basis of this toggle button. Compressors can be included/excluded by toggling ON/OFF.
NOTE
Switching a compressor control to OFF when running in auto seq mode puts respective slave compressor into local auto mode. This feature is used to add or remove slave compressors to sequence table when running in auto sequence mode.
CFM:
• CFM column is read only. These values are updated automatically when Equipment combo box is changed. This indicates Slave compressor capacity in
CFM.
Priority:
• This defi nes priorities of compressors on the network.
This priority will decide the sequence in which compressors will be turned on and off during sequence cycle. Lower the priority number greater the priority of the compressor.
Figure 10-3. Compressor Sequencing Screen - Page 3
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10 – 3
Section 10 • Compressor Sequencing
Step:
• This parameter would decide stepwise increment or decrement value in percentage of the compressor capacity. In the case when last step makes total capacity greater than maximum capacity, total capacity will get reduced to maximum capacity. Same is applicable when last step makes total capacity lower than minimum capacity takes priority.
Min Cap:
• Defi nes the lowest capacity in percentage with which a compressor is allowed to run. Minimum capacity value takes preference on fi rst step value.
Max Cap:
• Defi nes the highest capacity in percentage with which a compressor is allowed to run. Maximum capacity value takes preference over last step value.
Status Symbols:
• Status symbols shows status of Slave compressors on the sequencing table, see Table 10-1. Status Symbols.
For further details, see Application Notes.
Machine Start Time:
• Machine start timer shows the time in seconds that the Master Compressor will hold before starting slave compressor once (Start) decision is taken.
Machine Stop Time:
• Machine Stop timer shows the time in sec that the
Master Compressor will hold before stopping slave compressor once (Stop ) decision is taken.
Refresh:
NOTE
Before Confi guring Sequencing table on Master
Compressor, log on to slave compressors one by one and enable sequencing in slave mode, put slave in remote mode. Then log on to Master Compressor and wait till all slaves show up their names under equipment List.
• Compressor Sequencing table is automatically refreshed every 1 minute. Pressing “Refresh” button refreshes the status of the Compressor Sequencing table on Master Compressor.
10 – 4
Symbol
Table 10-1. Status Symbols
Description
Slave Compressor is detected but is not confi gured in the sequencing table.
Default, If slave Compressor is not present.
Slave Compressor is confi gured in sequencing table but is not confi gured in “Remote” mode.
Slave Compressor confi gured in sequencing table and is in ready to run state.
Slave Compressor is running with Alarm condition.
Slave Compressor stopped due to Error Condition.
Slave Compressor running at maximum capacity without any error.
Slave Compressor under active control of Master
Compressor
Slave Compressor running into its stop timer, will be stopped.
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Section 11 • Condenser Control
Overview
This screen allows the operator to view and adjust condenser setpoint settings associated with condenser operation. This screen will only be active if the Condenser
Control option has been enabled from the Confi guration
Screen, see Figure 11-1. Condenser Control Screen.
The Condenser Control operation allows the cycling of fans and pumps in order to maintain a specifi c condensing pressure. The fi ve different steps in step control allow selection of fans, pumps and VFD in one or more steps. When a VFD is employed, VFD is allowed to reach maximum speed, if additional capacity is needed, the next fan or pump is turned on. The VFD will modulate down and then once it is back up to 100% again, then the next fan or pump is turned on. This method allows the smoothest condenser control by spacing the VFD between the fan and pump steps, while maintaining a condenser pressure that matches the setpoint.
Condenser Control Setpoint:
Run Mode:
• Run Mode allows the selection of different modes of operation for condenser control. The choices for selection are:
Run Never
• The mode of operation by default. Condenser Control operation will not be performed when this mode is active.
Run With Comp
• Automatic operation of condenser control selected when control of the condenser is required to only run when the compressor is running.
Run Always
• Automatic operation of condenser control selected when control of the condenser is required to run even when the compressor is off.
Figure 11-1. Condenser Control Screen - Page 1
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11 – 1
Section 11 • Condenser Control
Manual:
• Mode for controlling condenser control operation manually. Operator controls the operation by manual stepping using an on/off toggle button at each step.
Condenser Press:
• This is the read only parameter and it displays the present value of condenser pressure.
Condenser Setpoint:
• This is the condenser pressure setpoint that needs to be maintained.
Upper Deadband:
• This is the condenser pressure setpoint upper deadband value. No additional condenser capacity is added when the condenser is selected for automatic step control and the condenser pressure falls within this deadband.
Lower Deadband:
• This is the condenser pressure setpoint lower deadband value. Condenser capacity is not reduced when the condenser is selected for automatic step control and the condenser pressure falls within this deadband.
Ambient Temp:
• This is the read only parameter and it displays the present value of ambient temperature. This is displayed only when Ambient Sensor is enabled from
Confi guration Screen.
Wetbulb Temp:
• This is the read only parameter and it displays the present value of wetbulb temperature. This is displayed only when Wetbulb Sensor is enabled from
Confi guration Screen.
Wetbulb Offset:
• This is the offset value from wetbulb temperature as the override point.
Switch Temp:
• This is the ambient temperature setpoint used for automatic switching of profi le from summer to winter and vice-versa.
Profi le Selection:
• Profi le selection allows operator to have two different output profi les for summer and winter. Operator can have different selection of fans, pumps & VFD in fi ve steps of step control table. Different profi les allow inclusion/exclusion of water pumps in cold weather when summer/winter auto switch is enabled. This selection is inactive when Run mode is Auto and
Summer/Winter Auto Switch is enabled.
11 – 2
High to Low Speed Fan Delay:
• This is a time delay for the fan spin down in case of
2- speed motor/dual speed fan.
Summer/Winter Auto Switch:
• This checkbox when enabled allows profi les to switch automatically depending on ambient temperature setpoint when Run Mode is “Auto”. When ambient temperature falls below ambient temperature setpoint, winter profi le is used. Similarly when ambient temperature is above ambient temperature setpoint, summer profi le is used.
Wetbulb Override:
• This checkbox when enabled gives the operator a functionality to control energy wastage. When the condenser temperature reaches wetbulb temperature plus the operator given offset, then the condenser control operation does not add additional steps. This is done as it is not possible to lower the temperature anymore, and by adding more fans or pumps controls the operation by manually stepping using an on/off toggle button at each step.
Step Control
The Step Control allows the operator to setup the manner in which Fans, Pumps & VFD will be turned on/off.
Fans & Pumps are connected on digital outputs Out #1 to Out #4. VFD Fan is connected on Analog Output. Each step can have maximum of fi ve outputs connected to it.
Each step can be opted in or out depending on enabling of checkbox.
When Run Mode is Auto and condenser pressure rises above upper deadband, condenser step gets incremental from Step 1 to Step 5 and hence switching on/off
Pumps, Fans & VFD connected on outputs. This holds true for decremented of steps from Step 5 to Step 1 when condenser pressure falls below lower deadband.
Step Delay:
• Allows operator to set time delays between condenser steps. Condenser Pressure must be outside upper or lower deadband continuously for delay time in order to increase or decrease condenser steps. While in a VFD step, an additional step can only be added once VFD has reached its maximum speed setpoint and the delay timers are satisfi ed.
• Similarly in a VFD step, a step can only be removed once VFD has reached its minimum speed setpoint and the delay timers are satisfi ed. Step Delay acts as “ON” timer while loading and acts as “OFF” timer while unloading for the same step.
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Section 11 • Condenser Control
Low Speed Fan:
• Allows steps to have option for time delay in case of fan spin down. Any of Out #1 to Out #4 can be selected as Low Speed Fan through combo box. E.g.:
Let’s say Out #2 is selected as Low Speed Fan in Step
2. When step 2 becomes active during condenser control operation which is after Step 2 time-out delay, Out #2 is left off for time as set by the operator in
High to Low Speed Delay. After low speed fan energizes, then timer for Step 3 starts timing.
Control:
• Toggle any of the steps On/Off during Manual operation of Condenser Control. This button is active only when Run Mode selected is Manual. During Auto operation of Condenser Control, control button for active step will be “ON”.
percentage for Condenser VFD Fan at which it should run for continuous step delay time to increase condenser steps. E.g. let’s say setpoint is kept at 95%.
Then condenser VFD fan will have to run at speed of 95% or more to advance to next step. Maximum
Speed can be set as 100%, which is when analog output (at which condenser VFD fan is connected) reaches to 20mA in its normal range of 4-20 mA
Minimum Speed:
• This setpoint defi nes the minimum speed in percentage for Condenser VFD Fan at which it should run for continuous step delay time to decrease condenser steps. E.g. let’s say setpoint is kept at 5%. Then condenser VFD fan will have to run at speed 5% or less to advance to next step. Minimum Speed can be set as
0%, which is when analog output (at which condenser VFD fan is connected) reaches 4mA in its normal range of 4-20 mA.
VFD Settings
This page is active only when Condenser VFD is selected in the Confi guration Screen, see Section 19. For VFD controls refer to Figure 11-2. Condenser Control Screen
- Page 2. When a VFD Fan is used for condenser control operation, the speed of the VFD is controlled using PID algorithm.
P = Proportional (gain):
• Used to adjust the fan speed action in direct proportion to the difference between the control setpoint and the process variable (SP - PV = error). The proportional term is a unit less quantity and is used for coarse adjustment. This setpoint should be set to the lowest value that gives adequate control system response. Increasing the proportional setting increases the control system’s sensitivity to small process fl uctuations and the tendency to hunt.
I = Integral (reset):
• Used to adjust the capacity control action, integrating the error over time, to account for a small error that has persisted for a long time. This quantity is used for fi ne adjustment. This setpoint is used to smooth out process variations. This setpoint should be set high enough to prevent hunting but not too high or it will cause control system overshoot.
D = Derivative (rate):
• Used to adjust the capacity control action, accounting for how fast the error is changing, positively or negatively.
Maximum Speed:
• This setpoint defi nes the maximum speed in
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11 – 3
Section 11 • Condenser Control
Figure 11-2. Condenser Control Screen - Page 2
11 – 4
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Section 12 • Service Options
Overview
The Service Option screen allows the operator the ability to force individual digital or analog outputs ON. This feature is used for diagnostic purposes during initial setup and/or if the operator suspects an issue with the outputs. The buttons in this screen are not available while the compressor is running .
Digital Outputs
The digital output buttons are momentary toggle buttons. The output will be active while the operator has his fi nger on the button. The output will deactivate when the operators fi nger is removed. The operator can measure the output at the terminal block or view the output by watching the LEDs located on the cards. For Digital
Output screens, see Figures 12-1, 12-2, 12-3 and 12-4.
Use Figure 12-1. Service Options Screen - Digital Outputs
(Page 1)
Compressor Start:
• Activates the output assigned to the compressor motor starter. The output is connected to terminal 11 and is the 1st LED on card 1.
Oil Pump Start:
• Activates the output assigned to the oil pump. The output is connected to terminal 12 and is the 2nd
LED down on card 1.
Capacity Increase Motor:
• Activates the output assigned to the increase input of the capacity actuator. The output is connected to terminal 13 and is the 3rd LED down on card 1.
Capacity Decrease Motor:
• Activates the output assigned to the decrease input of the capacity actuator. The output is connected to terminal 14 and is the 4th LED down on card 1.
Figure 12-1. Service Options Screen - Digital Outputs (Page 1)
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12 – 1
Section 12 • Service Options
Volume Increase Motor:
• Activates the output assigned to the increase input of the volume actuator. The output is connected to terminal 15 and is the 5th LED down on card 1.
Volume Decrease Motor:
• Activates the output assigned to the decrease input of the volume actuator. The output is connected to terminal 16 and is the 6th LED down on card 1.
Oil Separator Heater
• Activates the output assigned to the oil separator heater. The output is connected to terminal 17 and is the 7th LED down on card 1.
Trip:
• Deactivates the output during a trip or inhibit condition. This is a reverse acting output. The output is connected to terminal 18 and is the bottom LED on card 1.
Use Figure 12-2. Service Options Screen - Digital Outputs
(Page 2)
Slide Valve Setpoint # 1 (Economizer):
• Activates the output typically assigned to the economizer solenoid, but can be changed by the operator.
The output is connected to terminal 21 and is the 1st
LED on card 2.
Slide Valve Setpoint # 2 (Hot Gas Bypass):
• Activates the output typically assigned to the hot gas bypass solenoid, but can be changed by the operator.
The output is connected to terminal 22 and is the 2nd
LED on card 2.
Alarm:
• Activates the output during an alarm condition. This is a reverse acting output. The output is connected to terminal 23 and is the 3rd LED on card 2.
Economizer Port # 2 :
• Activates the output typically assigned to the economizer solenoid. The output is connected to terminal
12 – 2
Figure 12-2. Service Options Screen - Digital Outputs (Page 2)
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Section 12 • Service Options
24 and is the 4th LED down on card 2.
Liquid Injection # 1:
• Activates the output assigned to the liquid injection solenoid. The output is connected on terminal 25 and is the 5th LED on card 2.
Liquid Injection # 2:
• Not currently used.
Remote Enabled:
• Activates the output assigned to notify a central control system of the Vission 20/20 run status. The output is connected to terminal 27 and is the 7th LED on card 2.
Shunt Trip:
• Activates the output during a false start condition and the emergency stop timer has expired. This output could be wired the a breaker with a shunt trip that feeds power to a starter to force a shutdown. The output is connected to terminal 28 and is the 8th LED on card 2.
Use Figure 12-3. Service Options Screen - Digital Outputs
(Page 3) and Figure 12-4. Service Options Screen - Digital
Outputs for Remote Oil Cooler (Page 3)
Condenser / Remote Oil Cooler Step # 1:
• Activates the output assigned to the 1st step of the
Condenser / Remote Oil Cooler. The output is connected to terminal 41 and is the 1st LED on card 4.
Condenser / Remote Oil Cooler Step # 2:
• Activates the output assigned to the 2nd step of the
Condenser / Remote Oil Cooler. The output is connected to terminal 42 and is the 2nd LED down on card 4.
Condenser / Remote Oil Cooler Step # 3:
• Activates the output assigned to the 3rd step of the
Condenser / Remote Oil Cooler. The output is connected to terminal 43 and is the 3rd LED down on card 4.
Figure 12-3. Service Options Screen - Digital Outputs (Page 3)
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12 – 3
Section 12 • Service Options
Condenser / Remote Oil Cooler Step # 4:
• Activates the output assigned to the 4th step of the
Condenser / Remote Oil Cooler. The output is connected to terminal 44 and is the 4th LED down on card 4.
Figure 12-4. Service Options Screen - Digital Outputs for Remote Oil Cooler (Page 3)
12 – 4
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 12 • Service Options
Analog Outputs
The Analog Output (AO) selections allow the operator to enter a desired value of the output then turn on the output, see Figure 12-5. Service Options Screen - Analog
Outputs (Page 4). The operator will have to measure the output using meter capable of measuring a 4-20mA signal.
Compressor VFD:
• Sets the analog output assigned to the compressor
VFD. The output is connected to AO #1 on card 10.
Condenser / Remote Oil Cooler VFD:
• Sets the analog output assigned to the Condenser /
Remote Oil Cooler VFD. The output is connected to
AO #2 on card 10.
% Slide Valve Position
• Sets the analog output assigned to the Slide Value position used to inform a central control system of the capacity position. The output is connected to AO
#3 on card 10.
Liquid injection Motorized Valve:
• Sets the analog output assigned to the liquid injection motorized value position. The output is connected to AO #4 on card 10.
Figure 12-5. Service Options Screen - Analog Outputs (Page 4)
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12 – 5
12 – 6 / Blank
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 13 • Instruments Calibration
Overview
The Instrument Calibration screen allows the operator to defi ne how the Vission 20/20 will interpret the signal from any devices attached to the panel’s analog inputs.
The instrument calibration screen is organized up to six pages. Each page is then divided into several left side selected tabs. Each tab will be headed with an information bar labeled “I/O” that give the basic information for that device. The “A/D bit Value” display box shows the unmodifi ed value read by the Vission 20/20 analog to digital converters. This display box is not affected by any changes to the calibrations settings. As long as a device is connected to the associated input, there will be a value in this display box. The “Calibrated Value” display box shows the end result of the calibration process.
Therefore, any changes to the calibration setpoint will effect what value is shown.
All instruments are calibrated using a two point linear calibration process. Any device that has a non-linear response to environmental stimuli will not be able to be calibrated through the Vission 20/20.
Pressure and Temperature Inputs
The most commonly used instruments are temperature and pressure sensors. The fi rst two pages of the
Instrument Calibration screen are dedicated to these instruments, see Figures 13-1 and 13-2.
Each tab on these two pages are divided into two sections, Device Calibration and Channel Calibration. The device calibration section is where the operation parameters of the instrument is defi ned. The channel calibration defi nes the type of signal sent by the instrument.
Default Devices:
• By selecting this option, the operator will have access via a drop-down box of several common devices. The devices are predefi ned and if one is selected, then all the setpoints will be set for the operator.
Figure 13-1. Instruments Calibration Screen - Analog Inputs (Page 1)
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13 – 1
Section 13 • Instruments Calibration
Custom Device:
• This option allows the operator to choose the minimum and maximum value of the instrument being used.
Offset:
• Once the two point calibration is completed, it is not uncommon for there to be a small error. By entering the value of the error from the calibrated value and the actual value into the adjustment entry box, that error will be added/subtracted from the total offset.
The offset is applied to the calibrated value which should correct the error.
Range:
• This option is available when the custom device option is chosen. Here the operator defi nes the signal type and range transmitted by the instrument. The operator can choose from several predefi ned ranges in the drop-down box or enter a value.
Motor Current
The Vission 20/20 has two options for measuring motor current. A 4-20mA signal transmitted from an external device or a 0-5Amp AC current Transformer. The type of device being used is selected in the Confi guration
Screen, Motor Current Device in Section 19.
The motor current tab has the ability to calibrate both measurement options through the 4-20mA scale and current transformer ratio sections, see Figure 13-3.
Instruments Calibration Screen - Analog Inputs (Page 3).
However, the device type that is selected in the confi guration screen will be the only section that will be available to the operator.
The calibration differs from all other calibration procedures in that the motor current must be calibrated while the compressor is running at close to full load amps as possible. In addition, the operator will need to enter a value into the “Enter Desired Value” entry box that is equal to the measured value in amps by a calibrating measurement device. After entering the measured value, the
13 – 2
Figure 13-2. Instruments Calibration Screen - Analog Inputs (Page 2)
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 13 • Instruments Calibration displayed motor current may still be off slightly. In this case reenter the desired value and the displayed value should get progressively closer.
4-20mA Scale:
• 4mA:
• Not editable by the operator. Defi nes the minimum value in amps represented by a 4ma inputs.
• 20mA:
• Defi nes the maximum value in amps represented by a 20ma inputs.
• Enter Desired Value:
• The operator enters the correct current value.
Each entry will recalculate the point-slope calculations of the current calibration.
• Total Error:
• Not editable by the operator. Displays the total error offset of entries from the “Enter
Desired Value” setpoint.
Current Transformer Ratio:
• Primary
• Defi nes the upper value of the current transformer.
• Secondary:
• Not editable by the operator. Defi nes the minimum value of the current transformer.
• Enter Desired Value:
• The operator enters the value of the correct current value. Each entry will recalculate the point-slope calculations of the current calibration.
• Total Error:
• Not editable by the operator. Displays the total error offset of entries from the “Enter Desired
Value” setpoint
Figure 13-3. Instruments Calibration Screen - Analog Inputs (Page 3)
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13 – 3
Section 13 • Instruments Calibration
Remote Capacity Analog Inputs
The remote capacity input allows a system controller such as the PLC to control the capacity position during direct I/O control.
Control Input:
• This dropdown box is not used at this time.
Scale:
• Defi nes the minimum and maximum Capacity position between 0% & 100% for the 4-20ma input.
Offset:
• Used to correct any error in the capacity position. By entering a value into the Adjustment entry box, that value will be added to the total offset displayed in the
“total offset” entry box.
This section of the Calibration screen allows the operator to defi ne the parameters of an installed auxiliary analog instrument. These instruments are usually not part of a typical compressor setup but Vission 20/20 provides a way for the operator to add additional capabilities. The layout of this screen is typical to the pressure and temperature calibration screens. For Analog Inputs screens, see Figures 13-4 and 13-5.
Device Calibration:
• These setpoints allow the operator to defi ne what the input from the auxiliary instrument means in terms of units and range. If a temperature measuring instrument is connected, then the operator would select temperature from the Unit drop-down box then set the maximum and minimum value for the scale.
Offset:
• Once the two-point calibration is completed, it is not
13 – 4
Figure 13-4. Instruments Calibration Screen - Analog Inputs (Page 4)
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Section 13 • Instruments Calibration uncommon for there to be a small error. By entering the value of the error from the calibrated value and the actual value into the adjustment entry box, that error will be added/subtracted from the total offset.
The offset is applied to the calibrated value which should correct the error.
Range:
• Here the operator defi nes the signal type and range transmitted by the instrument. The operator can choose from several predefi ned ranges in the dropdown box or enter a value.
Figure 13-5. Instruments Calibration Screen - Analog Inputs (Page 5)
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13 – 5
Section 13 • Instruments Calibration
Analog Outputs
The Analog output card of the Vission 20/20 generates a 4 – 20mA signal to any attached devices. However, it is not uncommon that small difference in the board components might result in small difference in the output. So this screen offers the operator the ability to fi ne tune the upper and lower output values, see Figure 13-6.
Instruments Calibration Screen - Analog Outputs (Page
6).
the output will go to either 4ma or 20 ma. The operator can then measure the output for accuracy.
Min (mA):
• If the 4ma output has an unacceptable amount of error. The operator can use the “+” & “-” buttons to adjust the output.
Max (mA):
• If the 20ma output has an unacceptable amount of error. The operator can use the “+” & “-” buttons to adjust the output
Test Limits:
• By pressing either the Test Min or Test Max buttons,
13 – 6
Figure 13-6. Instruments Calibration Screen - Analog Outputs (Page 6)
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 14 • Slide Calibration
Overview
The Slide Calibration screen is used in calibrating the slide actuators and to establish Vission 20/20 control parameters. It is important that the operator uses caution while operating in this screen, see Figure 14-1. Slide
Calibration Screen. The normal safety checks that prevent the slide from colliding with the mechanical stops are overridden. When the calibration process is completed and the operator exits the screen, Both actuator will return the slides back to their minimum positions.
Capacity Slide Valve Potentiometer
This section provides critical information and control parameters related to the capacity slide actuator. The “% cap” display shows the actual value in percent of the capacity slide with out any conditioning that might be applied to the other capacity position displays. In addition, this section displays the value of the actuator signals in millivolts in the “input Value” display box.
“-” Button:
• When the operator presses and holds this button, the output associated with capacity slide decrease is energized. If the actuator does not turn in the correct direction when this button is pressed, then the operator will have to alter how the actuator is wired to the panel.
“+” Button:
• When the operator presses and holds this button, the output associated with capacity slide increase is energized. If the actuator does not turn in the correct direction when this button is pressed, then the operator will have to alter how the actuator is wired to the panel.
Software limit setpoint:
• The Vission 20/20 uses the “Min Limit” and
“Max Limit” setpoint to defi ne an area within the
Figure 14-1. Slide Calibration Screen
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14 – 1
Section 14 • Slide Calibration mechanical stops for normal slide travel. These software limits purpose is to prevent the slide from actually hitting the mechanical stops which could result in a number of undesirable consequences. By default, the software limits are set to 150mV from either end point. The position percentage is calculated from the software limits. Therefore, it is possible to read a value greater than 100% or less than 0% if inertial carries the slides after these limits are reached.
Volume Slide Valve Potentiometer
This section provided critical information and control parameters related to the volume slide actuator. The “%
Vol” display shows the actual value in percent of the volume slide with out any conditioning that might be applied to the other volume position displays. In addition, this section displays the value of the actuator signals in millivolts in the “input Value” display box.
“-” Button:
• When the operator presses and holds this button, the output associated with volume slide decreases is energized. If the actuator does not turn in the correct direction when this button is pressed, then the operator will have to alter how the actuator is wired to the panel.
“+” Button:
• When the operator presses and holds this button, the output associated with volume slide increase is energized. If the actuator does not turn in the correct direction when this button is pressed, then the operator will have to alter how the actuator is wired to the panel.
Software limit setpoint:
• The Vission 20/20 uses the “Min Limit” and “Max
Limit” setpoint to defi ne an area within the mechanical stops for normal slide travel. These software limits purpose is to prevent the slide from actually hitting the mechanical stops which could result in a number of undesirable consequences. By default, the software limits are set to 150mV from either end point.
The position percentage is calculated from the software limits. Therefore It is possible to read a value greater than 100% or less than 0% if inertial carries the slides after these limits are reached.
directions from the main computer in the control panel.
The position sensor tells the main computer the position of the slide valve. The main computer uses the position and process information to decide where to move the slide valve next.
During calibration, the position sensor records the high and low count of motor turns. The operator tells the position sensor when the actuator is at the high or low position with the push button. Refer to the calibration instructions for the detailed calibration procedure.
The position sensor can get “lost” if the motor is moved while the position sensor is not powered. To prevent this, the motor can only be moved electrically while the position sensor is powered. When the position sensor loses power, power is cut to the motor. A capacitor stores enough energy to keep the position sensor circuitry alive long enough for the motor to come to a complete stop and then save the motor position to nonvolatile EEPROM memory. When power is restored, the saved motor position is read from EEPROM memory and the actuators resumes normal function This scheme is not foolproof. If the motor is moved manually while the power is off or the motor brake has failed, allowing the motor to free wheel for too long after the position sensor looses power, the actuator will loose its calibrated position.
A brake failure can sometimes be detected by the position sensor. If the motor never stops turning after a power loss, the position sensor detects this, knows it will be lost, and goes immediately into calibrate mode when power is restored.
Slide Valve Actuator Calibration for Optical
Style Motors
Assuming that the actuator motors have not been calibrated, the transmitter output of the actuator motor will fl uctuate wildly until they are calibrated. To prevent damage to actuator motors, do not connect the Power
Cable (Yellow TURCK cable) or the Position Transmitter
Cable (Gray TURCK cable) until instructed to do so in this procedure.
Slide Valve Operation
The slide valve actuator is a gear-motor with a position sensor. The motor is powered in the forward and reverse
14 – 2
1. Open the plastic cover of the capacity motor by removing the four #10 Pan Head Phillips screws. Gently lift the cover and tilt it toward the TURCK connectors. Raise the cover enough to be able to press the blue calibrate button and to be able to see the red LED on the top of the assembly, see Figure 14-2. Photochopper.
2. Remove actuator motor cover(s).
3. Log In on the Vission 20/20.
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 14 • Slide Calibration
4. From the main screen select the Menu button.
5. On the menu screen select the Slide Calibration button. When the “Slide Valve Calibration” screen appears, then you can safely connect the Power Cable (Yellow
TURCK cable) and the Position Transmitter Cable (Gray
TURCK cable) to the Capacity motor. Press “+” or “-” to move the slide valves to check the rotation. (See Table 1 below for proper shaft rotation). If for any reason the “+” or “-” command on the panel does not correspond to the slide increase or decrease, swap the blue & brown wires of the Yellow TURCK cable in the control panel to reverse the rotation of the motor.
CAUTION
DO NOT CONTINUE TO ENERGIZE THE ACTUATOR
MOTOR AFTER THE SLIDE HAS REACHED THE
MECHANICAL STOP. Doing so may cause mechanical damage to the motor or shear the motor shaft key. When the slide has reached the mechanical stop position, press the button in the center of the photochopper to release the brake, and thereby release the tension on the actuator motor.
9. Quickly press and release the BLUE CALIBRATION
BUTTON on the ACTUATOR motor once. The RED LED will stop fl ashing. This now instructs the ACTUATOR motor that this point is the maximum slide position. This point corresponds to 5 volts. The ACTUATOR calibration procedure is completed.
Now the Capacity Channel is automatically calibrated based on the calibration settings made to the actuator.
6. Quickly press and release the BLUE CALIBRATION
BUTTON on the ACTUATOR motor once. This instructs the ACTUATOR motor to enter the calibration mode. The red LED on the actuator control board will begin fl ashing. Use the “-” button on the Vission 20/20 panel to drive the capacity slide to its minimum mechanical stop position.
This will be apparent by a slowing of the motor rotation and a winding sound from the actuator motor. When you hear the motor wind-up, release the “-” button.
Then use the “+” button to pulse the motor so that the capacity slide is “just off” of its minimum position and there is no tension on the motor shaft.
7. Quickly press and release the BLUE CALIBRATION
BUTTON on the ACTUATOR motor once. The red LED will now fl ash at a slower rate. This now instructs the
ACTUATOR motor that this point is the minimum slide position. This point will correspond to 0 volts AFTER the
ACTUATOR calibration procedure is completed.
8. Use the “+” button on the Vission 20/20 to drive the capacity slide to its maximum mechanical stop position.
This will be apparent by a slowing of the motor rotation and a winding sound from the actuator motor. When you hear the motor wind-up, release the “+” button.
Figure 14-2. Photochopper
CAUTION
Do not over tigten screws. Failure to comply may result in damage to equipment.
.
10. Gently lower the plastic cover to where it contacts the base and O-ring seal. After making sure that the cover is not binding, gently tighten the four # 10 Phillips screws.
11. Repeat the same procedure for the Volume slide motor.
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14 – 3
Section 14 • Slide Calibration
Command Shaft Rotation
The following table describes the rotation direction required by the actuator. Every optical actuator has the ability to be wired to rotate in either direction. Energizing the blue actuator wire results in a CCW rotation and energizing the brown wire results in a CW rotation, see Table 14-1. Command Shaft Rotation Required By Actuator.
VSS 2101
VSS 2401
VSS 2601
VSS 2801
VSS 3001
VSM 71
VSM 91
VSM 101
VSM 151
VSM 181
VSM 201
VSM 301
VSM 361
VSM 401
VSM 501
VSM 601
VSM 701
VSR 111
VSR 151
VSR 221
VSR 301
VSS 451
VSS 601
VSS 751
VSS 901
VSS 1051
VSS 1201
VSS 1301
VSS 1501
VSS 1551
VSS 1801
VSS 1851
Compressor
Model
Table 14-1. Command Shaft Rotation Required By Actuator
CCW
CCW
CCW
CCW
CCW
CCW
CCW
CCW
Command Shaft Rotation
Capacity Volume
Number of Turns / Rotation Angle / Slide Travel
Capacity Volume
INC DEC INC DEC Turns Angle Travel Turns Angle Travel
CW CCW CW CCW 0.91
328 3.568” 0.52
187 2.045”
CW CCW CW CCW 0.91
328 3.568” 0.52
187 2.045”
CW CCW CW CCW
CW CCW CW CCW
CW CCW CW CCW
CW CCW CW CCW
CCW CW CCW CW
0.91
0.91
0.91
0.91
1.09
328
328
328
328
392
3.568”
3.568”
3.568”
3.568”
4.283”
0.52
0.52
0.52
0.52
0.63
187
187
187
187
227
2.045”
2.045”
2.045”
2.045”
2.473”
CW
CW
CW
CW
CW
CW CCW CW
CW CCW CW
CW
CCW
CCW
CCW
CCW
CCW
CCW
CW
CW
CW
CW
CW
CW
1.09
1.22
1.22
1.22
1.36
1.48
1.36
1.48
392
439
439
439
490
4.283”
4.777”
4.777”
4.777”
5.325”
0.63
0.74
0.74
0.74
0.82
227
266
266
266
295
533 5.823” 0.87
313
490 5.325” 0.82
295
533 5.823” 0.87
313
2.473”
2.889”
2.889”
2.889”
3.200”
3.433”
3.200”
3.433”
CCW
CCW
CCW
CCW
CCW
CW CCW CW
CW CCW CW
CW CCW CW
CW CCW CW
CW CCW CW
CW CCW CW CCW
CW CCW CW CCW
CW CCW CW CCW
CW CCW CW CCW
CW CCW CW CCW
CW CCW CW CCW
CW CCW CW CCW
CW CCW CW CCW
CW CCW CW CCW
CCW CW CCW CW
CCW
CCW
CW CCW CW
CW CCW CW
1.48
1.80
1.80
1.80
1.80
0.80
0.80
0.80
0.80
0.80
0.80
0.80
0.80
0.80
0.91
0.91
0.91
533
648
648
648
648
328
328
5.823”
7.072”
7.072”
7.072”
7.072”
3.568”
3.568”
0.87
1.36
1.36
1.36
1.36
0.52
0.52
313
490
490
490
490
288 3.141” 0.45
162
288 3.141” 0.45
162
288 3.141” 0.45
162
288 3.141” 0.45
162
288 3.141” 0.45
162
288 3.141” 0.45
162
288 3.141” 0.45
162
288 3.141” 0.45
162
288 3.141” 0.45
162
328 3.568” 0.52
187
187
187
1.767”
1.767”
1.767”
1.767”
2.045”
2.045”
2.045”
3.433”
5.341”
5.341”
5.341”
5.341”
1.767”
1.767”
1.767”
1.767”
1.767”
14 – 4
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
Section 14 • Slide Calibration
Slide Valve Troubleshooting Guide
The Analog output card of the Vission 20/20 produces a 4–20mA signal to any attached devices. However, it is not uncommon that small differences in the board components might result in small differences in the output. So this screen offers the operator the ability to fi ne tune the upper and lower output values, see Table 14-2. Slide Valve
Troubleshooting Guide.
Problem
Table 14-2. Slide Valve Troubleshooting Guide (1 of 2)
The actuator cannot be calibrated.
The actuator goes into calibration mode spontaneously.
The actuator does not transmit the correct position after a power loss.
There is a rapid clicking noise when the motor is operating.
Reason
Dirt or debris is blocking one or both optocoupler slots.
The photochopper fence extends less than about half way into the optocoupler slots.
The white calibrate wire in the grey
Turck cable is grounded.
Adjust the photochopper so that the fence extends further into the optocoupler slots. Make sure the motor brake operates freely and the photochopper will not contact the optocouplers when the shaft is pressed down.
Tape the end of the white wire in the panel and make sure that it cannot touch metal.
Dirt and/or condensation on the position sensor boards are causing it to malfunction.
Clean the boards with an electronics cleaner or compressed air.
The calibrate button is stuck down.
Try to free the stuck button.
The position sensor has failed.
Replace the actuator.
Push button is being held down for more that ¾ second when going through the calibration procedure.
The white calibrate wire in the grey Turck cable is grounding intermittently.
A very strong source of electromagnetic interference (EMI), such as a contactor, is in the vicinity of the actuator or grey cable.
Depress the button quickly and then let go. Each ¾ second the button is held down counts as another press.
Tape the end of the white wire in the panel and make sure that it cannot touch metal.
Increase the distance between the
EMI source and the actuator.
Install additional metal shielding material between the EMI source and the actuator or cable.
The motor was manually moved while the position sensor was not powered.
The motor brake is not working properly.
Solution
Clean the optocoupler slots with a cotton swab and rubbing alcohol.
Recalibrate.
Get the motor brake to where it operates freely and then recalibrate.
The position sensor’s EEPROM memory has failed.
The photochopper is misaligned with the slotted optocouplers.
The motor brake is not working properly.
Replace the actuator.
Try to realign or replace the actuator.
Get the motor brake to where it operates freely and then recalibrate.
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14 – 5
Section 14 • Slide Calibration
Table 14-2. Slide Valve Troubleshooting Guide (2 of 2)
Problem
There is a rapid clicking noise when the motor is operating. (Continued)
Reason
The position sensor’s EEPROM memory has failed.
The photochopper is misaligned with the slotted optocouplers.
Solution
Replace the actuator.
Try to realign or replace the actuator.
There is a rapid clicking noise when the motor is operating.
The photochopper is positioned too low on the motor shaft.
Adjust the photochopper so that the fence extends further into the optocoupler slots.
Replace the actuator.
The motor operates in one direction only.
A motor bearing has failed.
There is a loose connection in the screw terminal blocks.
There is a loose or dirty connection in the yellow Turck cable.
The position sensor has failed.
There is a broken motor lead or winding.
Tighten.
Clean and tighten.
Replace the actuator.
Replace the actuator.
The thermal switch has tripped because the motor is overheated.
The motor will resume operation when it cools. This could be caused by a malfunctioning control panel.
Consult the factory.
The motor will not move in either direction.
Any of the reasons listed in “The motor operates in one direction only”.
The command shaft is jammed.
Broken gears in the gear-motor.
See above.
The motor runs intermittently, several minutes on, several minutes off.
Blown relays or fuses.
Motor is overheating and the thermal switch is tripping.
Free the command shaft.
Replace the actuator.
Check and replace blown relays and/ or fuses.
This could be caused by a malfunctioning control panel. Consult the factory.
Replace the actuator.
The motor runs sporadically.
The motor runs but output shaft will not turn.
Bad thermal switch.
Any of the reasons listed in “The motor will not move in either direction”.
Stripped gears inside the gear rotor, or the armature has come unpressed from the armature shaft.
See above.
Replace the actuator.
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Section 14 • Slide Calibration
Slide Valve Actuator Troubleshooting Guide Blink Code
Vilter actuators communicate problems discovered by the internal diagnostics to the technician by LED blink codes.
Only one blink code is displayed, even though it is possible that more than one problem has been detected. The actuator motor will not operate until the error code is cleared by pressing the blue bottom, see Table 14-3. LED Blink Codes and Troubleshooting Guide.
Table 14-3. LED Blink Codes and Troubleshooting Guide (1 of 2)
Flash Pattern
Meaning
* = ON - = OFF
*-*-*-*-*-*-*-*-*-*-*-*-
Calibration step 1.
*---*---*---*---*---*---
Calibration step 2.
This indicates a zero span. This error can only occur during calibration. The typical cause is forgetting to move the actuator when setting the upper limit of the span.
If this is the case, press the blue button to restart the calibration procedure. This error can also occur if either or both of the slotted optocouplers are not working. If this is the case, the slide valve actuator will have to be replaced.
*--*--------------------
*-----------------------
The operation of the slotted optocouplers can be tested as follows:
1. Manually rotate the motor shaft until the aluminum photochopper fence is not blocking either of the optocoupler slots.
2. Using a digital multimeter, measure the DC voltage between terminal 3 of the small terminal block and TP1 on the circuit board (see Note 1). The measurement should be between 0.1 and 0.2 Volts.
3. Next, measure the DC voltage between terminal 3 and TP2 on the circuit board. You should measure between 0.1 and 0.2 Volts.
A motor over-speed occurred. At some time during operation, the motor armature spun too fast for the encoder to measure. A nonfunctional motor brake is usually to blame. This error means that the slide valve actuator is no longer transmitting accurate position information. The actuator should be recalibrated as soon as possible, after the cause of the over-speed is identifi ed and corrected. This error will not clear until the actuator is re-calibrated.
Note 1: TP1 and TP2 are plated-thru holes located close to the slotted optocouplers on the board. They are clearly marked on the board silkscreen legend.
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14 – 7
Section 14 • Slide Calibration
Table 14-3. LED Blink Codes and Troubleshooting Guide (2 of 2)
Flash Pattern
* = ON - = OFF
Meaning
*--*--*-----------------
*********************
-********************
*****----*--------------
The motor is overheated. The actuator motor will not run until it cools. Once the motor cools, the actuator will resume normal operation.
Motor overheating is sometimes a problem in hot humid environments when process conditions demand that the slide valve actuators reposition often. Solutions are available; consult your Vilter authorized distributor for details.
Another possible cause for this error is a stuck motor thermal switch. The thermal switch can be tested by measuring the DC voltage with a digital multimeter between the two TS1 wire pads (see Note 2). If the switch is closed (normal operation) you will measure 0 Volts.
The 24V supply voltage is low. This will occur momentarily when the actuator is powered up and on power down.
If the problem persists, measure the voltage using a digital multimeter between terminals 3 and 4 of the small terminal block. If the voltage is less than 24V, the problem is in the supply to the board.
If the voltage is >= 24V, replace the actuator..
The EEPROM data is bad. This is usually caused by loss of
24V power before the calibration procedure was completed. The actuator will not move while this error code is being displayed. To clear the error, calibrate the actuator. If this error has occurred and the cause was not loss of 24V power during calibration, the EEPROM memory is bad and the actuator will need to be replaced.
Microcontroller program failure. Please notify your
Vilter authorized distributor.
Note 2: The TS1 wire pads are where the motor thermal switch leads solder into the circuit board. They are clearly marked on the board silkscreen legend and are oriented at a 45° angle.
14 – 8
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Section 15 • Trend Chart
Overview
This screen allows the operator to view and adjust settings for the trend chart, see Figure 15-1. Trend Chart
Screen. Trending feature can be started & stopped from this screen. Up to four variables can be selected for plotting on screen. Each variable is assigned one of four colors; the plotted trace and the vertical axis labels for a variable will be in its assigned color. The operator can select from viewing the plot to selecting which variables and time intervals to show as often as necessary. The vertical axis scaling and offset for each variable plotted is based on its range of values over the entire data plotted on screen. The data available for display is 120 hours maximum.
Chart Operation
Pen Selection:
• Pen selection allows operator to select different pens for plotting of data on the screen. The operator can select “None” as an option for disabling plotting of data for particular pen. Options in pen selection drop-down box will depend on channels selected in
Trend Setup screen.
Start/Stop:
• This button allows the operator to start/stop trend feature. When trend feature is not running, button will display “Start” and will be green in color. While trend feature is running, button will display “Stop” and will be red in color. When “Stop” button is pressed, trend data is saved to a fi le.
Zoom In/Out:
• These buttons allow the operator to adjust the number of data points plotted on the screen. At maximum
Figure 15-1. Trend Chart Screen
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15 – 1
Section 15 • Trend Chart zoom level operator can view 3 minutes of trend data and Zoom In button will be inactive. At minimum zoom level operator can view full 120 hours of trend data and Zoom Out button will be inactive.
Back/Forward:
• These buttons allow the operator to move the plot and view trend data at different time intervals.
• Forward button will be inactive when the operator is viewing the fi rst data point plotted on the screen
(i.e. when time interval is displaying 0:00). Back button will be inactive when the operator is viewing the last data point on the screen (i.e. when time interval is displaying 120:00). At minimum zoom level, Back
& Forward buttons will be inactive.
Trace:
• This button allows the operator to move a white cursor line across all four trend lines and receive a readout of all four variables at that point in time. When the
Trace button is pressed, cursor position is displayed along with value of all four variables on the screen.
Hold:
• This button allows the operator to stop the data from advancing on the display without stopping the trend feature. When the Hold button in pressed, Hold Time is displayed on the screen.
Trace Back( < ) / Forward ( > ):
• These buttons allow the operator to move a white cursor line across trend lines and view trend data value at that point. These buttons will only be active when Trace button is pressed. When these buttons are pressed, cursor is moved and trace position is updated on the screen.
Setup:
• This button allows operator to open the Trend Setup screen. This button is inactive when the trend feature is running.
Trend Data Storage
The trend analysis screen shows recorded data for problem analysis or tuning improvements. A logging buffer holds 5 minutes of data sampled at 10 second intervals.
When the logging buffer fi lls with 5 minutes of data, it is automatically transferred to a temp csv fi le. A temp trend fi le will hold up to 1MB of accumulated data.
When the temp fi le has accumulated 1MB of data, data from temp fi le is written to new trend fi le and temp fi le is overwritten with new data in logging buffer till next
1MB of data. When a total of 15MB of trend data is accumulated, and the logging buffer has fi lled with another
5 minutes of data to write, the fi le with the oldest trend data is deleted.
15 – 2
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Section 15 • Trend Chart
Setup
The operator can modify trending options through the
Trend Setup screen, see Figure 15-2. Trend Setup Screen.
Trend Setup screen can be accessed by pressing the
Setup button when the trending feature is not running. Trend Setup screen allows the operator to select a maximum of 10 analog I/O channels for trending. The operator can also set a path for trend data fi les from the drop-down box in the setup screen. The USB will appear as an option in drop-down box only when a USB drive is mounted on the panel.
If there is no space available on the USB or when the USB is unmounted from the panel and USB is selected for saving trend fi les, trend data fi les will be written to hard disk.
If the operator changes Press/Temp units from the confi guration screen when running the trending feature, then the background trending will stop.
Figure 15-2. Trend Setup Screen
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15 – 3
15 – 4 / Blank
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Section 16 • Event List
Overview
This screen is designed to display compressor events in chronological order. The information available on the screen is valuable for understanding the operation of the compressor and troubleshooting, see Figure 16-1. Event
List Screen. This screen Is divided into four columns and can list up to 128 separate events. The operator can download the information on the event list through the
Data Backup Screen.
Event list Columns
Time:
• Displays the time of the event in HH:MM:SS format.
Event Type:
• Displays the type of message for a particular listing.
Common type are “Start”, “Stop”, “Trip”, “Inhibit”,
“Alarm”, and “System”. These help the operator to understand the meaning of the message in the next column.
Message:
• Displays the informational string that describes the event.
Date:
• Displays the date of the event in MM-DD-YYYY format.
Figure 16-1. Event List Screen
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16 – 2 / Blank
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Section 17 • Input / Output
Overview
This screen displays “Live Data” of all the analog points and digital points being monitored. There are four pages of Input / Outputs (I/O) available for viewing, see
Figures 17-1, 17-2, 17-3 , 17-4 and 17-5. This screen also takes a snapshot of all the I/O points if the compressor experiences a trip condition and saves this data as Freeze pages, for example, see Figure 17-6. Up to fi ve Freeze pages can be saved. The oldest Freeze page will be removed when more than fi ve Freeze events occur. These
Freeze events can be downloaded to a USB drive though the Data Backup screen, see Section 20.
Figure 17-1. Input/Output Screen - Page 1
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17 – 1
Section 17 • Input / Output
Figure 17-2. Input/Output Screen - Page 2
17 – 2
Figure 17-3. Input/Output Screen - Page 3
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Section 17 • Input / Output
Figure 17-4. Input/Output Screen - Page 4
Figure 17-5. Input/Output Screen - Page 4 (Remote Oil Cooler Enabled)
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17 – 3
Section 17 • Input / Output
Figure 17-6. Input/Output Screen - Freeze Data Page
17 – 4
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Section 18 • Auxiliary Input / Output
Overview
The Auxiliary Input/Output (I/O) section of the Vission
20/20 gives the operator fl exibility to add peripheral instruments and/or devices such as motors, valves and solenoids. With these additions, customer confi gurable
I/Os are useful in expanding the functions of the Vission
20/20 where it was not explicitly designed to control.
Setting up one or more of the auxiliary inputs or outputs start with the confi guration screen. In order to enable the auxiliary I/O, the Vission 20/20 must fi rst be equipped with one of the available expandable I/O cards and the card must be selected on page 6 of the confi guration screen. Once the appropriate card is available, then the operator will be permitted to enable and name the desired auxiliary I/O. The operator can then navigate to the Auxiliary I/O screen where the operator can defi ne how that I/O will operate.
Digital Inputs:
The Digital Inputs section of the auxiliary I/O allows an operator to confi gure the auxiliary digital inputs, see
Figure 18-1. Auxiliary I/O Screen - Digital Inputs (Page
1). The digital input can be confi gured to produce an alarm, a trip, and an inhibit on either a high or low input. A low input is 0vac and a high is 120vac on the enabled input. Leaving all options in their default setting will mean no action will be taken on an enable input. The input will simply be available for viewing at the panel or by communications.
Trip/Alarm Check:
• Selecting this checkbox enables the alarms and/or trip functions of the Vission 20/20 for the desired digital input. The accompanying drop-down box gives the operator the fl exibility to choose whether the alarm and/or tip occurs if the input is high or low.
Inhibit Check:
• Selecting this checkbox enables the inhibit function of the Vission 20/20 for the desired digital input. An inhibit check prevents the compressor from starting if the condition is true where a trip will shut down the compressor after it as started. The inhibit can be selected to inhibit on a high or low input and can be selected to work with or without the alarm and trip function
Figure 18-1. Auxiliary I/O Screen - Digital Inputs (Page 1)
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18 – 1
Section 18 • Auxiliary Input / Output
Digital Outputs
The digital outputs section of the Auxiliary I/O screen allows an operator to confi gure the auxiliary digital outputs, see Figure 18-2. Auxiliary I/O Screen - Digital
Outputs (Page 2). The digital output can be confi gured to activate (go High, 120vac) based on either a digital input or a specifi ed level on an analog input. Every digital and analog input in the Vission 20/20 are made available for controlling a digital output.
Analog Input:
• Selecting the Analog Input radio button fi lls the
Active Input drop-down box with all available analog inputs. One of the analog inputs can then be selected to control the digital outputs.
Digital Input:
• Selecting the Digital Input radio button fi lls the
Active Input drop-down box with all available digital inputs. One of the digital inputs can then be selected to control the digital outputs.
Run Always:
• Selecting this checkbox enables the function that controls the digital output to operate only when the compressor is running or runs all the time.
Analog Trigger:
• The analog trigger toggles the digital output based on a specifi ed value plus the specifi ed differential value.
• Analog Trigger value:
• This defi nes the specifi ed value in which the output will toggle. This is an absolute value and not based on units. For example, 100 could mean temperature or pressure depending on the type of input selected.
• N/O & N/C:
• Choosing the Normally Open (N/O) or
Normally Closed (N/C) radio buttons defi nes what the output will be above or below the trigger value. In the N/O setting, the output will be off (0vac) while the input value is below the trigger value.
• Differential:
• This is the differential around the trigger value. For example, if a trigger value of 100 is entered with a differential of 1, then as the value increases to 101, the output will be triggered. If the value decreases to 99, then the output will be toggled in the opposite direction.
Digital Relay:
• The digital relay option is used to pass along the information from a digital input to another control device or to operate a peripheral device. This output can be confi gured to either refl ect the selected input or show the opposite value.
• Mirror:
• Selecting this option will produce a high output when the selected input is High; and produce a low output when the selected input is low.
• Invert:
• Selecting this option will produce a low output when the selected input is high; and produce a High output when the selected input is low.
Analog Inputs
The Analog inputs section of the auxiliary I/O screen allows an operator to defi ne the function of an instrument connected to the Vission 20/20. For Auxiliary Analog
Inputs Screens, see Figure 18-3, 18-4 and 18-5. The analog inputs can be confi gured to simply monitor an input for informational purposes or used as a control input for the auxiliary digital and analog outputs. The analog inputs can also be confi gured to alarm, trip, and inhibit on specifi ed values.
• Alarm / Trip:
• This drop-down box allows the operator to select whether the analog input should generate an alarm, trip, or both when the input value exceeds the limits entered into the alarm and trip entry boxes.
• Inhibit:
• Selecting this checkbox will prevent a start if the input value exceeds the alarm limit values.
• Low Alarm:
• This defi nes the lower limit of the input value that when exceeded will generate an alarm.
• High Alarm:
• This defi nes the upper limit of the input value, that when exceeded will generate an alarm.
• Low Trip:
• Defi nes the lower limit of the input value that when exceeded will generate a trip.
• High Trip:
18 – 2
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Section 18 • Auxiliary Input / Output
Figure 18-2. Auxiliary I/O Screen - Digital Outputs (Page 2)
Figure 18-3. Auxiliary I/O Screen - Analog Inputs (Page 3)
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18 – 3
Section 18 • Auxiliary Input / Output
• Defi nes the upper limit of the input value that when exceeded will generate a trip.
Analog Outputs
This screen allows to map any standard analog input or auxiliary input to any of the four analog auxiliary outputs. There are two pages of auxiliary output confi guration, each consists of two analog auxiliary outputs. For
Auxiliary Outputs Screens, see Figures 18-6 and 18-7.
I = Integral (reset):
• Used to integrate the error over time, to account for a small error that has persisted for a long time. This quantity is used for fi ne adjustment. This setpoint is used to smooth out process variations. This setpoint should be set high enough to prevent hunting but not too high or it will cause control system overshoot.
D = Derivative (rate):
• Used to account for how fast the error is changing, positively or negatively.
• Active Input:
• Active Input can be selected from available standard analog inputs or auxiliary inputs.
Selected Active Input gets mapped to auxiliary output.
• Run Always:
• “Run Always” option can be selected to enable mapped auxiliary output irrespective of the compressor’s run state. If “Run Always” is not selected then the mapped auxiliary output is enabled only when compressor is running.
• Trigger:
• Trigger confi guration is used to enable / disable auxiliary output according to the confi gured trigger input. Trigger input can be selected from available standard analog inputs , auxiliary analog inputs or digital inputs. Trigger value and differential in combination with trigger type (“enable if above / On” or “enable if below /
Off”) enables or disables auxiliary output.
Scalable Control:
• Minimum Input / Maximum Input:
• These setpoints defi nes minimum and maximum Input range for confi gured active input .
• Minimum Output / Maximum Output:
• These setpoints defi nes minimum and maximum output. The Auxiliary output produces a linear value based on these settings.
Control
Auxiliary outputs can be PID Controlled or Scalable
Controlled.
PID Control:
P = Proportional (gain):
• Used to adjust the auxiliary output in direct proportion to the difference between the control setpoint and the active input . The proportional term is a unit less quantity and is used for coarse adjustment. This setpoint should be set to the lowest value that gives adequate control system response. Increasing the proportional setting increases the control system’s sensitivity to small process fl uctuations and the tendency to hunt.
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Section 18 • Auxiliary Input / Output
Figure 18-4. Auxiliary I/O Screen - Analog Inputs (Page 4)
Figure 18-5. Auxiliary I/O Screen - Analog Inputs (Page 5)
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18 – 5
Section 18 • Auxiliary Input / Output
Figure 18-6. Auxiliary I/O Screen - Analog Outputs (Page 6)
18 – 6
Figure 18-7. Auxiliary I/O Screen - Analog Outputs (Page 7)
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Section 19 • Configuration
Overview
The confi guration screen is where most of the Vission
20/20 features are enabled and confi gured. The initial setup of the Vission 20/20 will generally start here, see
Figure 19-1. Confi guration Screen - Initial Setup (Page
1). Depending on what is selected, different portions of the Vission 20/20 will be available to the operator.
Units
This section sets how values will be represented through out the program.
Temp Units:
• Drop-down box to select the temperature units from
Fahrenheit and Celsius. Once selected, all screen temperatures will be displayed in the chosen units.
Press Units:
• Drop-down Box to select the pressure units. Psig, Bar, and Kpa are the possible selections and the units will be displayed for every pressure value throughout the screens.
Order Num:
• Identifi es the Order number of the purchase of the compressor. This Number will be needed If the operator requires help from Vilter.
Run Hours:
• Offers the ability to change the compressor run hours. This is typically used when replacing an older micro controller on and existing compressor with a new Vission 20/20.
Figure 19-1. Confi guration Screen - Initial Setup (Page 1)
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19 – 1
Section 19 • Configuration
Time & Date
This section sets the time and date of the Vission 20/20.
Accurate time and date are accentual for accurate logging and troubleshooting. Setting these parameter will set the hardware clock embedded in the Vission 20/20
CPU. If the time is not retained after powering down the panel, the operator should check and/or replace the coin style battery on the panel SBC behind the touchscreen.
Format:
• Selection to choose between 12 hour or 24 hours clock.
Hour:
• Entry box to set the clock hours. AM or PM drop-down box will available if the 12 hour format is selected.
Minute:
• Entry Box to set the clock minutes.
Second:
• Entry Box to set the clock seconds.
Year:
• Entry Box to set the current year.
Month:
• Entry Box to set the current month.
Day:
• Entry Box to set the current date.
Communications
The communication section is the control center for all communications to the Vission 20/20 panel. It is possible to have multiple modes of communications enabled and used. However, only one mode can be used to control the Vission 20/20 which is selected in the “Active
Remote Control” drop-down box. For a complete list of communication registers, please refer to the Vission
20/20 communication table.
selected, the remainder of the serial setpoints will be available for editing.
Panel ID:
• Panel Identifi er used by the controller when communicating with multiple panels.
Port:
• The Vission 20/20 has two ways to communicate on serial bus. Either via the built in serial port, P12, or through one of the USB ports. This drop-down box allows the operator to chose which one will be used.
Baud Rate:
• Sets the Baud Rate for the serial communication.
Data Bits:
• Fixed at 8 Data bits.
Stop Bits:
• Identifi es the end of character for re-synchronizing.
Parity:
• Identifi es the type of error detection.
Ethernet:
• Enables the Ethernet port. Once selected, the remainder of the Ethernet setpoints will be available for editing.
Panel ID:
• Panel Identifi er used by the controller when communicating with multiple panels.
IP Address:
• Entry box to set the IP address.
Subnet Mask:
• Entry box to set the Subnet Mask.
Gateway:
• Entry box to set the Gateway address.
Protocol:
• Drop-down box to select the type of protocol used to remotely control the Vission 20/20.
Active Remote Control:
• Selects the mode of remote control. The operator can select between Direct I/O, Serial, or Ethernet.
Direct I/O:
• Enables the Direct I/O inputs. Once selected a pop-up will be displayed and the operator will need to choose a one of the three Direct I/O options
Serial (Modbus RTU):
• Enables the Serial Modbus RTU protocol. Once
19 – 2
Touchscreen
The “Calibrate” button changes the screen into touchscreen calibration mode. Calibrating the touchscreen is only required if the operator fi nds that the pointer arrow no longer follows his fi nger. The calibration mode requires the operator to touch the four corners of the touchscreen and then the accept button.
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Section 19 • Configuration
Anti-Recycle
Anti-Recycle defi nes the method of motor protection due to repeated motor starts. The operator has 3 choices of protection. Hot starts allows only a certain number of starts per hour before setting an hour to the anti-recycle timer. The number of starts is set in the timer page.
Accumulative immediately adds time to the anti-recycle timer once the compressor is started and the time can be set in the timers screen. True anti-recycle adds to the anti-recycle timer once the compressor is shutdown. The motor of the compressor can not be restarted as long as there is anti-recycle time left and the operator can view this time on the top left corner of the main screen.
Restart On Power Failure
This feature of the Vission 20/20 offers the ability to defi ne how the Vission 20/20 will handle a power failure.
This can also be useful to allow system controller to regain control of the Vission panel without the need for operator intervention.
Always:
• When selected, initiates a start after the panel powers back up after a power failure, but only if the compressor was running before the power failure and starts the compressor in Auto mode.
Never:
• When selected, prevents any automatic action once the panel powers back up after a power failure.
Timed:
• When selected, initiates a start after the panel powers back up after a power failure and the operator set timer runs out. When there are multiple compressor in a larger system, it is recommended that the operator gives each compressor a different start times. A restart will only occur if the compressor was running before the power failure and starts the compressor in
Auto mode.
Remote Lock Off:
• When selected, turns the remote lock out off when the panel powers up. Select this option if the operator wishes a system controller to regain control of the
Vission 20/20 without human interference.
Boot in Remote (Direct I/O)
• When selected, places the panel into remote mode when the panel powers up. Select this option when under direct I/O control and the system controller is to gain control of the Vission 20/20 without human interference.
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19 – 3
Section 19 • Configuration
Compressor Sequencing
The compressor sequencing is a feature of the Vission
20/20 that allows the operator to setup as many as fi ve compressor to automatically start, stop and maintain system loads. The compressor that is designated as the master will monitor systems parameter and make decisions on how many compressor are required to meet the load as effi ciently as possible.
Compressor Name:
• Unique identifi er that is broadcasted to all other
Vission 20/20 units in the sequencing network.
Language
Allows the operator to select the language in which all screens will be displayed in.
Compressor Sequencing:
• Enables the compressor sequencing algorithms and allows access to the compressor sequencing screen.
Master:
• Identifi es the panel as the master while in sequencing control.
Slave:
• Identifi es the panel as a slave while in sequencing control.
Model & Refrigerant
The values in this section provide the Vission 20/20 algorithm critical information on how to effi ciently and safely control the compressor, see Figure 19-2. Confi guration
Screen - Compressor Sequencing (Page 2).
Compressor:
• Dropdown box to select the compressor type. This
19 – 4
Figure 19-2. Confi guration Screen - Compressor Sequencing (Page 2)
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Section 19 • Configuration selection is critical for proper volume slide control.
Model:
• Drop-down box to select the compressor size. This selection is critical for proper volume slide control.
Refrigerant:
• Drop-down box to select the type of refrigerant. This selection is critical for proper volume slide control.
Other (K-Factor):
• Optional setting to adjust volume slide control.
Condenser Control
The values in this section enables the condenser control feature of the Vission 20/20. Once selected the checkboxes will become available for selection and the condenser control screen will be available via the menu screen. Some of the options check boxes in this section may not be available for selection unless the proper
I/O cards are installed and enabled, see Figure 19-2.
Confi guration Screen - Page 2.
Compressor Control
Vilter compressors typically run in one of two control modes, suction pressure or process temperature control, see Figure 19-2. Confi guration Screen - Page 2.
Compressor VFD:
• Enables the compressor motor VFD option.
% Slide Volume Position:
• Unused.
Economizer Pressure:
• Enables the economizer pressure input.
Superheat Monitor:
Ambient Sensor:
• Enables the ambient temperature option for the condenser control algorithm.
Wetbulb Sensor:
• Enables the wetbulb temperature override option for the condenser control algorithm.
VFD Fan:
• Enables the VFD output option for the condenser control algorithm.
Suction Pressure Control:
• This defi nes the suction pressure input as the process variable and all controls will be based on suction pressure. The operator has the option to select up to two controllers where each can have its own set of setpoints.
Process Temp. Control:
• This defi nes the process temperature input as the process variable and all controls will be based on the process temperature. The operator has the option to select up to two controllers where each can have its own set of setpoints.
Optional Function Selection
The following options are additional features of the
Vission 20/20 that can be selected. Some of these options will not be available for selection unless the proper
I/O cards are installed and enabled, see Figure 19-2.
Confi guration Screen - Page 2.
• Enables the superheat safety algorithms.
Oil Pump
This section defi nes how the Vission 20/20 will control the oil pump, see Figure 19-2. Confi guration Screen -
Page 2.
No Pump:
• Disables all functions for oil pump control.
Cycling:
• Enables option for cycling oil pump. Oil pump is cycled on and off depending on compressor differential pressure.
Full Time:
• Enables option for full time oil pump. Oil pump will always be running while the compressor is running.
# Pumps:
• Not currently used
Oil Flow Control:
• Enables option for oil fl ow control. Oil fl ow control will vary analog output for controlling danfoss valve opening % depending on capacity slide position. Oil fl ow control output will be regulated only when compressor is running, start condition is over i.e. low oil pressure timer is elapsed, pumpdown control operation is not running and oil injection temperature is above oil injection temperature override setpoint. If any of the above condition is not satisfi ed, then oil fl ow analog output will be 4 mA which corresponds
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19 – 5
Section 19 • Configuration to 100 % valve open.
Oil Cooling
The section defi nes how the Vission 20/20 will monitor and/or control the temperature of the compressor oil, see Figure 19-2. Confi guration Screen - Page 2.
Thermosyphon:
• This defi nes the compressor oil cooling method as thermosyphon.
H20 Oil Cooler:
• This defi nes the compressor oil cooling method as water heat exchange.
Liquid Injection:
• This defi nes the compressor oil cooling method as liquid refrigerant injection.
Solenoids:
• Enables the solenoid for liquid injection control.
Motorized Valve:
• Enables the motorized value for liquid injection controlled by PID settings.
Remote Oil Cooler:
• Defi nes the compressor oil cooling method as
Remote Oil Cooler. Remote Oil Cooler vfd fan can be enabled when Auxiliary Output board is installed and enabled. Rest of the Remote Oil Cooler setpoints can be defi ned by navigating to Remote Oil Cooler
Screen. Remote Oil Cooler and Condenser Control feature are mutually exclusive.
Motor Current Device
The Vission 20/20 can read the motor current in a couple of different ways. The following selections defi nes the method, see Figure 19-2. Confi guration Screen - Page 2.
Current Transformer:
• This defi nes the input used for motor current when a current transformer is used.
4-20ma Transformer:
• This defi nes the input used for motor current.
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Section 19 • Configuration
Digital Inputs
The Vission 20/20 has several digital inputs that the operator can choose how the input will be used. Once an input is enabled, the Auxiliary I/O screen will be available from the menu screen where the operator can further defi ne the inputs operation, see Figure 19-3.
Confi guration Screen - Digital Auxiliaries (Page 3).
Enable Input #:
• Enables the selected digital input.
Set Name:
• Allows the operator to assign a name to the input.
Figure 19-3. Confi guration Screen - Digital Auxiliaries (Page 3)
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19 – 7
Section 19 • Configuration
Analog Inputs
The Vission 20/20 has several Analog inputs that the operator can choose how the input will be used. Once an input is enabled, the Auxiliary I/O screen will be available from the menu screen where the operator can further defi ne the inputs operation, see Figure 19-4.
Confi guration Screen - Analog Auxiliaries (Page 4).
Enable Input #:
• Enables the selected analog input.
Set Name:
• Allows the operator to assign a name to the input.
19 – 8
Figure 19-4. Confi guration Screen - Analog Auxiliaries (Page 4)
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Section 19 • Configuration
Analog Outputs Digital Outputs
The Vission 20/20 has several Analog outputs that the operator can choose how the outputs will be used. Once an output is enabled, the Auxiliary I/O screen will be available from the menu screen where the operator can further defi ne the outputs operation, see Figure 19-5.
Confi guration Screen - Analog Outputs (Page 5).
The Vission 20/20 has several Digital outputs that the operator can choose how the output will be used. Once an output is enabled, the Auxiliary I/O screen will be available from the menu screen where the operator can further defi ne the outputs operation, see Figure 19-5.
Confi guration Screen - Page 5.
Enable Output #:
• Enables the selected analog output.
Set Name:
• Allows the operator to assign a name to the output.
Enable Output #:
• Enables the selected digital output.
Set Name:
• Allows the operator to assign a name to the output
Figure 19-5. Confi guration Screen - Analog and Digital Outputs (Page 5)
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19 – 9
Section 19 • Configuration
I/O Confi guration
If any additional I/O card are added to Vission 20/20, this is where these cards are enabled for use by the Vission
20/20 algorithms. Some feature of the Vission 20/20 will not be available unless specifi c expansions cards are selected, see Figure 19-6. Confi guration Screen - I/O
Confi guration (Page 6).
Digital Output 1:
• Not editable by the operator. Identifi es that the
Digital Output card 1 is enabled.
Digital Output 2:
• Not editable by the operator. Identifi es that the
Digital Output card 2 is enabled.
Digital Input 1:
• Not editable by the operator. Identifi es that the
Digital Input card 1 is enabled.
Digital Input/Output 1:
• Enables the optional digital input/output card 1
Digital Input/Output 2:
• Enables the optional digital input/output card 2
Analog Input 1:
• Not editable by the operator. Identifi es that the
Analog Input card 1 is enabled.
Analog Input 2:
• Not editable by the operator. Identifi es that the
Analog Input card 2 is enabled.
Analog Input 3:
• Enables the optional Analog input card 3.
Analog Input 4:
• Enables the optional Analog input card 4.
Analog Output:
• Enables the optional Analog Output card.
19 – 10
Figure 19-6. Confi guration Screen - I/O Confi guration (Page 6)
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Section 20 • Data Backup
Overview
The database backup screen provides the operator a way to extract information out of the Vission 20/20 for backup purposes or diagnostics, see Figure 20-1 Data
Backup Screen. Through this screen, the operator can download all the Setpoint Databases, Maintenance Logs,
Event Lists, Freeze Data, Trend Data and Compressor Run
Hours to a portable USB fl ash drive. That information can then be uploaded back to the Vission 20/20 in the case of data corruption or to update the Vission program.
Built in migrate function examines the previous setpoint databases, compares it with newer program setpoint database, and moves the old information into the new program. In addition, this screen also allows the operator to reset all values to the factory defaults.
All of the information saved to the USB fl ash drive is open information. Meaning none of the information is encrypted and the operator is free to examine it. The log fi les are all saved as simple ASCII text and the databases can be examined with SQLite.
Refresh:
• The Refresh button is used to initiate a scan of the
USB ports and list any devices found in the “Available
Devices” window.
Save / Load
Save / Load section is where the operator can either save the Vission 20/20 setpoints and log information to a
USB fl ash drive or load from a USB fl ash drive back to the
Vission 20/20.
Save:
• Selecting save allows the operator to save the Vission
20/20 data to a USB fl ash drive using the information provided further down the screen. The bottom button will be labeled “Save” when this is selected.
Figure 20-1. Data Backup Screen - Save/Load
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20 – 1
Section 20 • Data Backup
Load:
• Selecting load allows the operator to load data from a USB fl ash drive to the Vission 20/20 using the information provided further down the screen. The bottom button will be labeled “Load” when this is selected.
Available Devices:
• This window displays any USB fl ash drive plugged into one of the Vission 20/20 USB ports. Once one of the available devices is selected, then the drives contents will be displayed in the “Select Folder / File” window. If the USB fl ash drive that is plugged in by the operator is not showing up, then the operator can try pressing the “Refresh” button at the bottom of the screen. Unfortunately, not all USB fl ash drives are compatible with the Vission 20/20 and will never show up as available device.
Select Folder/File:
• This window displays the folders and fi les contained in the USB fl ash drive selected in the “Available Devices” window. The information from the Vission 20/20 will be contained into a .zip fi le. So a zip fi le will have to be selected to load or overwritten when saved. Once a zip fi les is selected, the name will be shown in the fi lename window.
Unmount:
• By pressing the Unmount button, any USB drive selected in the “Available Devices” window will be disconnected from the operating system and can be safely removed from the USB port.
Back:
• The back button returns the operator to the preceding window display of fi les and folders.
Filename:
• This window is where the operator can give a name to a saved backup fi le. This fi eld will automatically be populated if a fi le is selected in the “Select Folder/
File” window.
Settings:
• Using this table, the operator can choose to save or load all or part of the information contained in the
Vission 20/20.
Data Items:
• Using this table, the operator can choose to save or load all or part of the information contained in the
Vission 20/20 according to checkbox selections.
Save / Load Button:
• This button initiates the save or load process.
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Section 20 • Data Backup
Migrate
Loading data from an older version of the Vission 20/20 software to a newer one can be complicated due to differences in databases. This migrate function closely examines each fi eld in the database being loaded and determines whether it can be used in the new program.
The Migrate function is executed automatically when a data is loaded from a USB fl ash drive. The only time an operator should have to use the following migrate button is if a new Vission 20/20 program is loaded over an existing Flash card, see Figure 20-2. Data Backup Screen
- Migrate and Factory Reset.
Factory Reset
The Factory reset button offers the operator the ability to reset all the Vission 20/20 setpoints back to the factory default settings or a specifi c database. If the operator fi nds that a screen will not load when selected, it is likely that the database associated with that screen has been corrupted. Unfortunately, data corruption is always a possibility in any system. So this function was designed to help the operator to regain control, see Figure 20-2.
Data Backup Screen - Migrate and Factory Reset.
Migrate:
• This button initiates the migrate function.
Reset:
• This button initiates the process to revert the Vission
20/20 back to the factory default settings.
Figure 20-2. Data Backup Screen - Migrate and Factory Reset
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20 – 4 / Blank
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Section 21 • Maintenance
Overview
The maintenance screen is a convenient place to keep track of the the maintenance performed and any upcoming maintenance recommended by Vilter. Based on this page, banners will be displayed on the lower status bar. Yellow banners are to warn the operator of any upcoming maintenance and red banners indicate maintenance that is overdue.
Checklist
The check list is where the operator will perform the maintenance sign-off, see Figure 21-1. Maintenance
Screen - Checklist. Once the operator has selected the item to sign off, pressing the “Update” button at the bottom of the page will perform the sign-off operation and list the maintenance performed in the maintenance log.
Maintenance Name:
• This column of tasks that should be performed at the run hours indicated in Maintenance interval column.
Select the checkbox from the maintenance task name and press “update” button to perform the sign-off.
Maintenance Interval (Hours):
• This column indicates the Run hours at which the task in the fi rst column should be performed. When a task is selected, the maintenance interval will change to refl ect the next interval.
Time Remaining (Hours):
• This column indicates the Run hours left before the maintenance task should be performed.
Figure 21-1. Maintenance Screen - Checklist
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21 – 1
Section 21 • Maintenance
Notes
The notes tab allows the operator to make notes to any other personnel that might have access to the Vission
20/20.
Log
The maintenance log tab lists all the maintenance tasks performed in descending order, see Figure 21-2.
Maintenance Screen - Log.
Time:
• Lists the time the maintenance task was performed.
User:
• Lists the operator name who performed the maintenance task.
Maintenance Performed:
• Lists the maintenance task that was performed.
Run Hours:
• Lists the run hours at which the maintenance task was performed.
Date:
• Lists the date the maintenance task was performed.
Chart
This chart is the original maintenance chart that is provided with the compressor, see Figure 21-3. Maintenance
Screen - Chart.
21 – 2
Figure 21-2. Maintenance Screen - Log
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Section 21 • Maintenance
Figure 21-3. Maintenance Screen - Chart
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21 – 4 / Blank
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Section 22 • User Access
Overview
The user access screen is where all operators go to log in. In the Vission 20/20, each screen has a security level, whereby allowing operators, technicians and/or supervisors the ability to modify different sets of setpoints. The
Vission 20/20 has four levels of security, see Figure 22-1.
User Access Screen - Login.
• Level 0 – This is the default level with no operator logged in. The function available to the operator are very limited and basically only allows someone to start and stop the compressor.
• Level 1 – This is a technician level of access. All the setpoints needed to operate and adjust the performance of the compressor will be available to an operator with this level of access.
• Level 2 – This is a supervisor level of access. Setpoints that require a higher level of knowledge such as calibrating instrument will be available to an operator with this level of access.
• Level 3 – This is considered a contractor level of access. The setpoints available at this level have the most potential of causing damage to the compressor.
Therefore, this access is restricted to those only with the highest level of competence.
The user access screen is also where new operators are added, changed or removed. Any operator can add an additional operator but can only add an operator of lesser or equal security level.
Apply
When selected, applies the user name and password for security evaluation. If the User name and password matches an existing user then the operators name will be applied to the lower status bar and the operator will be given access to screens of equal security level.
Figure 22-1. User Access Screen - Login
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22 – 1
Section 22 • User Access
Login
The login tab is where an operator will enter the users name and password in order to gain access to Vission
20/20 screens.
password can be entered by touching the password entry box and entering the password via the pop-up keyboard.
Manage Accounts
Operators:
• All operators that have been added to the Vission
20/20 user tables will be displayed in this window. If a name of an operator is selected from this window, the name is added to the “Operator Name” entry box.
Operator Name:
• This entry box is for the operator’s username. The operator can either select the username from the operators window or enter the username manually by touching the entry box and entering the name via the pop-up keyboard.
Operator Password:
• This entry box is for the operator’s password. The
This tab allows the addition, removal, and modifi cation of authorized users, see Figure 22-2. User Access Screen
- Manage Accounts.
Operators:
• This window contains the list of authorized users already added to the Vission 20/20. Selecting a name from this list will add that name to the “Operator
Name” entry box.
Operator Name:
• This entry box is for the operator’s username who is to be added, removed or modifi ed. The operator can
22 – 2
Figure 22-2. User Access Screen - Manage Accounts
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Section 22 • User Access either select the username from the operators window or enter the username manually by touching the entry box and entering the name via the pop-up keyboard.
Operator Password:
• This entry box is for the operator’s password. The password can be entered by touching the password entry box and entering the password via the pop-up keyboard.
Verify Password:
• This entry box is to verify the operator’s password.
Verifying the password can be entered by touching the “Verify Password” entry box and entering the password via the pop-up keyboard.
Security Level:
• Select a security level for the account being added or modifi ed. Only levels that are equal to or less than the operator’s own security level will be shown.
Add / Update:
• Pressing this button will initiate the creation or modifi cation of the specifi ed account.
Delete:
• Pressing this button will delete the specifi ed account.
VNC Account
Vission 20/20 panels can be accessed remotely by using a VNC client over TCP/IP network. This tab allows the operator to change default VNC Password and VNC
Port number, see Figure 22-3. User Access Screen - VNC
Accounts.
Change VNC Password
New Password:
• The operator will add the password by touching the entry box and typing the password via the pop-up keyboard.
Figure 22-3. User Access Screen - VNC Accounts
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22 – 3
Section 22 • User Access
Verify New Password:
• The operator will re-enter the password by touching the entry box and typing the password via the popup keyboard.
Update:
• Pressing this button will initiate the modifi cation of the VNC account.
Change VNC Port Number
Port Number:
• The operator will change the port number for VNC server by touching the entry box and typing via the pop-up keyboard. Default port number is 5900.
Operator can assign port number ranging between
5900 to 6000.
Update:
• Pressing this button will initiate the modifi cation of the specifi ed VNC account Port number.
Screen Security Levels
The following table lists all screen and their base security levels, see Table 22-1. Security Access Levels. The majority of the screens have more than one security level.
The base security level gives the user access to the setpoints that can change to performance of the compressor. The secondary security level is typically level 3 and is reserved for those setpoints that require great care and knowledge of the system in order to change safely.
Page
Event List
Input/Output States
Trend Chart
Help
Alarms & Trips
Compressor Scheduling
Compressor Sequencing
Condenser Control
Compressor Control
Maintenance
Data Backup
Instrument Calibration
Service Option
Confi guration
Slide Calibration
Timers
VNC Account
Table 22-1. Security Access Levels
Security Access Levels
User Level
Level 0
Level 0
Level 0
Level 0
Level 1*
Level 1
Level 1
Level 1*
Level 1*
Level 1
Level 1*
Level 2
Level 2
Level 2*
Level 2
Level 2*
Level 3
*Note
-
-
Level 3 required for constraints
-
-
-
-
Level 3 required for constraints
Level 3 required for constraints
-
Level 3 required to upload data
-
-
Level 3 required for pages 3 - 6
-
Level 3 required for constraints
22 – 4
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Section 23 • Help Screen
Overview
Use this screen to receive help on other setpoint screens contained within the software. These help fi les can be accessed from any screen. The help fi les describe the functionality of that screen as well as compressor operation.
Screen Features:
Manual Tab:
• Contains the list of available manual sections to be displayed in the display window, see Figure 23-1.
Help Screen - Manual.
USB tab:
• The operator as the option to view other manuals, typically Vilter compressor manuals on the Vission
20/20 from a USB drive, see Figure 23-2. Help Screen
- USB. If there are any PDF type documents on a connected USB drive, the names will be listed in this section. The operator will have to navigate through the fi le structure of the USB drive to fi nd the documents. The top box in the USB drive will display any
USB drives mounted to the Vission 20/20 OS.
• Touching one of the listed USB devices will select that device and list any fi les or PDF documents contained on the USB drive. Selecting a folder will open that folder and display any sub-folders of PDF documents.
Unmount:
• Pressing the unmount button will disconnect the USB drive from the Vission 20/20 operating system. Once the device has been remove from the device list, the
USB drive can be safely removed
Refresh:
• Pressing this button will reread the USB ports and display any new USB drives.
Figure 23-1. Help Screen - Manual
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23 – 1
Section 23 • Help Screen
Back:
• Pressing the back button will rewrite the fi le/folder list with the previous folder level.
Display Window:
• This window displays the context of the manual.
Fullscreen:
• Pressing this button expand the display window to fi t the entire screen.
Page:
• Enter the page number the operator wishes to be displayed in the display window.
Previous:
• Changes the page in the display window one page less then what was showing.
Next:
• Changes the page in the display window one page more then what was showing.
Version:
• Pressing the Version button displays a pop-up screen that gives the operator information of the version of software running on the Vission 20/20, see Figure
23-3. Version Pop-Up Screen.
Figure 23-2. Help Screen - USB
23 – 2
Figure 23-3. Version Pop-Up Screen
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Section 24 • Twin Screw Control
Overview
The Vission 20/20 is capable of operating a twin screw compressor from a number of different manufacturers.
The Vission 20/20 currently operates as a twin screw controller in the full time oil pump and the no oil pump confi guration.
Setup - Confi guration Screen
Confi guration Screen:
• To setup the Vission 20/20 panel for twin screw, navigate to the Confi guration Screen, page 2, and select
“VRS” from the dropdown box label “Compressor”, see Figure 24-1. Twin Screw Control Screen. Once selected, another dropdown box labeled “Operation
Type” will appear directly below the “Compressor” drop-down box. You should also notice that the oil pump control becomes grayed out because the oil pump operation is now determined by the type of compressor that is select from the “Type” drop-down box.
• Standard - Selects the oil pump operation as
“Full Time”.
• Stal - Selects the oil pump control as “No pump”.
Menu Changes:
• When selecting the twin screw option there will be other changes that occur in other menu pages.
• Volume position indicator will disappear from the main screen and right data panel.
• Prelube oil pump alarms and trip values will be changed to default values for the twin screw
• Run oil pump alarm and trip values will be changed to default values for the twin screw.
Figure 24-1. Confi guration Screen - Twin Screw Option
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24 – 1
Section 24 • Twin Screw Control
Operation
Once the twin screw is confi gured, its operation is very similar as the single screw and all options that are available for single screw confi guration are also available for twin screw. The only operational difference is the manual mode of operation. Twin screw compressors can experience leaky slide seals that can cause the capacity slide to drift after it has been positioned by the controller. To counteract the capacity slide drift problem, the twin screw manual mode operation has an added anti-drift feature that automatically maintains the position of the hydraulic actuator.
Slide Calibration - Capacity Slide Valve
Potentiometer
This section provides critical information and control parameters related to the capacity slide actuator. The “% cap” display shows the actual value in percent of the capacity slide with out any conditioning that might be applied to the other capacity position displays. In addition, this section displays the value of the actuator signals in millivolts in the “input Value” display box, see Figure
24-2. Slide Valve Calibration - Twin Screw Control.
“-” Button:
• When the operator presses and holds this button, the output associated with capacity slide decrease is energized. If the actuator does not turn in the correct direction when this button is pressed, then the operator will have to alter how the actuator is wired to the panel.
“+” Button:
• When the operator presses and holds this button, the output associated with capacity slide increase is energized. If the actuator does not turn in the correct direction when this button is pressed, then the operator will have to alter how the actuator is wired to the panel.
Software limit setpoint:
• The Vission 20/20 uses the “Min Limit” and “Max
Limit” setpoint to defi ne an area within the mechanical stops for normal slide travel. These software limits purpose is to prevent the slide from actually hitting the mechanical stops which could result in a number of undesirable consequences. By default, the software limits are set to 150mV from either end point.
24 – 2
Figure 24-2. Slide Calibration - Twin Screw Control
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Section 24 • Twin Screw Control
The position percentage is calculated from the software limits. Therefore, it is possible to read a value greater than 100% or less than 0% if inertial carries the slides after these limits are reached.
Position Signal Type:
• Position signals can be 0-5 VDC or 4-20mA to indicate current slide valve position.
Compressor Bump Pop-Up Window
• This window allows the operator to bump the compressor to fl ush out any oil in the compressor after a slide valve calibration, see Figure 24-3. Slide Valve
Calibration - Twin Screw Bump Pop-Up Window.
Figure 24-3. Slide Calibration - Twin Screw Bump Pop-Up Window
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Section 25 • Cool Compression Control
Overview
The cool compression compressor operation is similar to the standard single screw compressor units, except there is no external oil cooler to the unit. A blanket of liquid ammonia lies on top of the oil in the oil separator. The liquid ammonia level is regulated by sensing the liquid ammonia level with a level probe, and using a positioning valve to vary the amount of liquid ammonia being added to the separator. The cooling occurs through the entire compression and separation process.
The Cool Compression compressor does not have an oil pump. When the Cool Compression compressor unit is commanded to start, the control panel fi rst insures that the slide valves are at their minimum positions. The suction oil injection solenoid (SOI) is energized – allowing a path for oil to fl ow into the compressor. The compressor now starts. There is an initial pressure drop in the suction chamber of the compressor and a corresponding increase in pressure on the discharge of the compressor. This creates a pressure differential that forces the oil and liquid ammonia mixture through the suction oil injection line into the suction chamber of the compressor. This oil and liquid provides lubrication and cooling until full pressure differential lubrication is attained. As the differential pressure increases, the oil and liquid ammonia is now injected into the screw during the compression process and the oil injection valve is allowed to close.
Setup
Confi guration Screen:
• To setup the Vission 20/20 panel for Cool Compression, fi rst ensure that an analog output card is installed in the panel, and it is selected from page 6 of the confi guration screen, see Section 19. Navigate to confi guration page 2, and select “R717-Cool Comp” from the drop-down box that is labeled “Refrigerant”, see Figure 25-1. Cool Compression Control Screen.
Once selected “Cool Compression” option will appear in Oil Pump and Oil Cooling sections and “Cool
Compression” gets selected automatically. It will also
Figure 25-1. Cool Compression Control Screen
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25 – 1
Section 25 • Cool Compression Control enable Superheat Monitoring on the screen.
• As previously described, Cool Compression compressor does not have an oil pump. Instead it has a suction oil injection solenoid to provide oil and liquid ammonia for lubrication and cooling.
• Cool Compression liquid injection 1 and liquid injection 2 outputs will operate as high / low pressure ratio solenoid outputs.
Control Functions
In the Compressor Control Menu, special cool compression control functions are now available, see Figure 25-2.
Compressor Control Screen - Cool Compression Control
(Page 4). These new functions are:
• Auto Load
• Suction Oil Injection Settings
• Danfoss Positioning Valve Settings
Auto Load
• Auto load operation will force the compressor to load to a minimum value once the compressor has started. By loading the compressor to a minimum value, and maintaining this capacity, a pressure ratio is created across the compressor, to ensure adequate lubrication of the compressor, and also that the compressor does not experience high discharge superheat conditions. Since compressor lubrication is of great importance, all load limiting is disabled when auto load is engaged.
• Auto Load at Start
• Defi nes the value at which Compressor (capacity slide) should be loaded (and maintained) at start if Auto Load is enabled.
• Auto Load Timer
• This timer defi nes the maximum time that the Auto Load operation will be engaged. After the timer expires, Auto Load will be disengaged.
25 – 2
Figure 25-2. Compressor Control Screen - Cool Compression Control (Page 4)
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Section 25 • Cool Compression Control
• Auto load will be disengaged when one of the following conditions occur;
• Pressure ratio reaches a value of 2.0 or greater.
• Compressor has been running for 10 minutes
(defi ned by Auto Load Timer).
• Suction pressure setpoint has been reached.
Suction Oil Injection Setting
• In order to maintain adequate lubrication during low pressure ratio conditions, the Suction Oil Injection
(SOI) solenoid is turned ON and the capacity of the compressor is reduced.
• The SOI solenoid will cycle ON and OFF based on the pressure ratio across the compressor.
• SOI Solenoid ON
• Defi nes the Pressure ratio value at which
SOI is turned ON (default 2.00) (Digital Output
Board #1:2).
• SOI Solenoid OFF
• Defi nes the Pressure ratio value at which SOI is turned OFF (default 2.04) (Digital Output
Board #1:2).
• SOI Load Limit
• Defi nes the capacity slide position at which the compressor capacity slide will unload to if pressure ratio falls below “SOI Solenoid ON” setpoint. This setpoint is not active until Auto Load disengages.
• The SOI solenoid will also cycle on if the discharge temperature superheat reaches a value of 5°F (this value is not settable). Generally, anytime the SOI solenoid cycles on, the capacity is limited to the SOI
Load Limit setpoint. However, this is not true if the
SOI solenoid cycles on based on the discharge temperature superheat 5°F rule. If discharge temperature superheat continues to climb and reaches a value of
6°F, the compressor will be inhibited from loading. If discharge temperature superheat still continues to climb and reaches a value of 8°F or more, then the compressor will be unloaded until the superheat drops below 8°F or the capacity has reached the SOI
Load Limit setting.
Using a Positioning Valve for Liquid Ammonia Level
Control
• A level probe inserted in the oil separator detects liquid ammonia level. Based on the level of the ammonia (0-100%), the level probe sends a directly proportional 4-20 mA signal to the Vission 20/20 panel.
The positioning valve is then positioned based on the
Positioning Valve settings graph shown in Figure 25-
2. Cool Compression Control Functions Screen.
• Looking at the graph, when the compressor starts, the positioning valve placement (Vertical Axis) is determined based on the liquid ammonia level that is sensed in the oil separator (Horizontal Axis). It can be seen that as the liquid ammonia level increases
(corresponding to a larger mA value), the positioning valve moves towards a closed position.
• The Positioning Valve position (0-100% limits) is defi ned at three distinct levels;
• Start Level (lowest liquid ammonia level - positioning valve at maximum open position).
• Leakage (normal operating position and ammonia level).
ll Leakage (highest liquid ammonia level–positioning valve at minimum open position).
• Liquid ammonia levels are defi ned at four distinct levels (4-20ma limits);
• Start SP (minimum liquid ammonia level in separator – the positioning valve is maximum open).
• Linear SP (minimum level of liquid ammonia for normal operating position).
• Upper SP (maximum level of liquid ammonia for normal operating position).
• Max SP (maximum liquid ammonia level – positioning valve is minimum open position, maintaining some leakage).
• On Alarms and Trips screen, Low Oil Separator Start
Temperature, High Filter Diff Start Pressure settings are disabled.
• On Timers screen Oil Level #1 Safety Trip Delay, Oil
Level #2 Safety Trip Delay settings are disabled.
Operational Differences from Single Screw
Once the Cool Compression is confi gured, most setup options available for a single screw are also available for Cool Compression. However, there are signifi cant
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
25 – 3
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 fi rst 60 seconds of running 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 ratio drops to a lower value (typically below 2.00) then it energizes SOI solenoid and maintains the position of capacity 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 resumes the run mode and control normally.
5. It performs Cool Compression specifi c checks periodically 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.
5.0, the solenoid is turned on. When the pressure ratio 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 operation, 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 fl ashing “add oil to middle of sight glass” message appears on the main screen. When the operator adds enough oil to close the high level switch, the message 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 compressor 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 compressor 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 compressor 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 after the compressor stops.
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 superheat. 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
25 – 4
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Section 26 • Remote Oil Cooler
Overview Remote Oil Cooler Setpoint
This screen allows the operator to view and adjust
Remote Oil Cooler setpoint settings associated with
Remote Oil Cooler operation, see Figure 26-1. Remote
Oil Cooler Screen (Page 1). This screen will only be active if the Remote Oil Cooler Control option has been enabled from the Confi guration Screen, see Section 19.
The Remote Oil Cooler Control operation allows the cycling of fans and pumps in order to maintain a specifi c
Remote Oil Cooler Temperature. The fi ve different steps in step control allow selection of fans, pumps and VFD in one or more steps. When a VFD is employed, VFD is allowed to reach maximum speed, then if additional capacity is needed, the next fan or pump is brought on.
The VFD will modulate down and then back up to 100% again, then the next fan or pump is brought on. This method allows the smoothest Remote Oil Cooler control by spacing the VFD between the fan and pump steps, while maintaining a Remote Oil Cooler Temperature pressure that matches the setpoint.
Run Mode:
• Run Mode allows the selection of different modes of operation for Remote Oil Cooler. The choices for selection are;
Run Never
• The mode of operation by default. Remote Oil Cooler operation will not be performed when this mode is active.
Run With Comp
• Automatic operation of Remote Oil Cooler selected when cooling control is required to only run when the compressor is running.
Run Always
• Automatic operation of Remote Oil Cooler selected when cooling control is required to run even when the compressor is off.
Figure 26-1. Remote Oil Cooler Screen (Page 1)
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26 – 1
Section 26 • Remote Oil Cooler
Manual
• Mode for controlling Remote Oil Cooler operation manually. Operator controls the operation by manual stepping using an on/off toggle button at each step.
Remote Oil Cooler Temperature:
• This is the read only parameter and it displays the present value of Remote Oil Cooler Temperature.
Remote Oil Cooler Temperature is mapped on Analog
Auxiliary Input #5.
Remote Oil Cooler Temperature Setpoint:
• This is the Remote Oil Cooler Temperature setpoint that needs to be maintained.
Upper Deadband:
• This is the Remote Oil Cooler Temperature setpoint upper deadband value.
Lower Deadband:
• This is the Remote Oil Cooler Temperature setpoint lower deadband value.
High to Low Speed Fan Delay:
• This is time delay for fan spin down in case of 2 speed motor/dual speed fan.
setpoint and the delay timers are satisfi ed. Step Delay acts as “ON” timer while loading and acts as “OFF” timer while unloading for the same step.
Low Speed Fan:
• Allows steps to have option for time delay in case of fan spin down. Any of Out #1 to Out #4 can be selected as Low Speed Fan through combobox. E.g.:
Let’s say Out #2 is selected as Low Speed Fan in Step
2. When step 2 becomes active during Remote Oil
Cooler operation which is after Step 2 timeout delay, Out #2 is left off for time as set by the operator in High to Low Speed Delay. After low speed fan energizes, then timer for Step 3 starts timing.
Control:
• Toggle any of the steps On/Off during Manual operation of Remote Oil Cooler. This button is active only when Run Mode selected is Manual. During Auto operation of Remote Oil Cooler Control, control button for active step will be “ON”.
VFD Settings
Step Control
This page is active only when Remote Oil Cooler VFD is selected in Confi guration Screen, see Section 19. For
Remote Oil Cooler VFD Screen, see Figure 26-2. When a
VFD fan is used for the remote oil cooler oil cooling, the speed of the VFD is controlled using PID algorithm.
The Step Control allows the operator to setup the manner in which Fans, Pumps & VFD will be turned on/off.
Fans & Pumps are connected on digital outputs Out #1 to Out #4. VFD Fan is connected on Analog Output. Each step can have maximum of fi ve outputs connected to it.
Each step can be opted in or out depending on enabling of checkbox.
When Run Mode is Auto and Remote Oil Cooler
Temperature rises above upper deadband, Remote Oil
Cooler step gets incremented from Step 1 to Step 5 and hence switching on/off Pumps, Fans & VFD connected on outputs. This holds true for decrementing of steps from
Step 5 to Step 1 when Remote Oil Cooler Temperature falls below lower deadband.
Step Delay:
• Allows operator to set time delays between Remote
Oil Cooler steps. Remote Oil Cooler Temperature must be outside upper or lower deadband continuously for delay time in order to increase or decrease
Remote Oil Cooler steps. While in a VFD step, an additional step can only be added once VFD has reached its maximum speed setpoint and the delay timers are satisfi ed. Similarly in a VFD step, a step can only be removed once VFD has reached its minimum speed
26 – 2
P = Proportional (gain):
• Used to adjust the fan speed action in direct proportion to the difference between the control setpoint and the process variable (SP - PV = error). The proportional term is a unit less quantity and is used for coarse adjustment. This setpoint should be set to the lowest value that gives adequate control system response. Increasing the proportional setting increases the control system’s sensitivity to small process fl uctuations and the tendency to hunt.
I = Integral (reset):
• Used to adjust the capacity control action, integrating the error over time, to account for a small error that has persisted for a long time. This quantity is used for fi ne adjustment. This setpoint is used to smooth out process variations. This setpoint should be set high enough to prevent hunting but not too high or it will cause control system overshoot.
D = Derivative (rate):
• Used to adjust the capacity control action, accounting for how fast the error is changing, positively or negatively.
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Section 26 • Remote Oil Cooler
Maximum Speed:
• This setpoint defi nes the maximum speed in percentage for Remote Oil Cooler VFD Fan at which it should run for continuous step delay time to increase
Remote Oil Cooler steps. E.g. let’s say setpoint is kept at 95%. Then Remote Oil Cooler VFD fan will have to run at speed of 95% or more to advance to next step.
Maximum Speed can be set as 100%, which is when analog output (at which Remote Oil Cooler VFD fan is connected) reaches to 20mA in its normal range of
4-20 mA
Minimum Speed:
• This setpoint defi nes the minimum speed in percentage for Remote Oil Cooler VFD Fan at which it should run for continuous step delay time to decrease
Remote Oil Cooler steps. E.g. let’s say setpoint is kept at 5%. Then Remote Oil Cooler VFD fan will have to run at speed 5% or less to advance to next step. Minimum
Speed can be set as 0%, which is when analog output
(at which Remote Oil Cooler VFD fan is connected) reaches 4mA in its normal range of 4-20 mA
Figure 26-2. Remote Oil Cooler VFD Screen (Page 2)
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26 – 3
26 – 4 / Blank
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Appendix A • Vission 20/20 Troubleshooting Guide
Vission 20/20 Troubleshooting Guide
In the event of a problem with the Vilter Vission 20/20, the help screen, along with your electrical drawings will help determine the cause.
NOTICE
Before applying power to the Vission 20/20 control panel, all wiring to the panel should be per the
National Electrical Code (NEC). Specifi cally check for proper voltage and that the neutral is grounded at the source. An equipment ground should also be run to the panel.
Table A. Vission 20/20 Troubleshooting Guide
Problem Solution
Vission 20/20 does not boot up, no lights light on any boards.
Vission 20/20 appears to be booted, lights are lit on the boards, but no touchscreen display is evident:
Check that 120VAC is run to circuit breaker CB1 located on the terminal strip. The neutral should be brought to any “N” terminal on the terminal strip.
Check that circuit breaker CB1’s switch is in the ON position.
Use a voltmeter to insure 120VAC is being applied to the power supply, located on the door. Check that 120 volts is present at the F1 fuse on the power supply, located on the front of the door. If all of the above are OK, the power supply may be bad. To test the power supply, check DC voltages at the power supply output. If proper voltages are not found at these test points, the power supply may be faulty.
Remove power COMPLETELY from the Vission 20/20 and restart the controller.
WARNING
The inverter board creates a high rms voltage to drive the backlight - it can exceed 1500VAC. Use extreme caution and insure that voltage has been removed from the board before physical inspection. Visually check cable connections located on the LCD inverter board. This board is located inside the door on the
LCD touch screen back plane next to the single board computer. Physically inspect board to insure that all cable connectors are connected tightly to the board connectors. If these are inserted correctly, the problem could be a bad LCD inverter board or a component failure.
Vission 20/20 boots up but all data temperatures and pressures are zeroed and do not update.
Check analog board jumpers to insure proper node addresses are set up on all boards. Physically inspect power and communication jumper cables to insure they are inserted properly and completely. Two LEDs on all boards show the status of the communications for the board. LED1 is on when a command is received at the board from the single board computer
(SBC), and LED2 is on when a response is sent from the board to the SBC.
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A - 1
A - 2 / Blank
Vission 20/20 • Operation and Service Manual •Vilter/Emerson • 35391SC 1.9
35391SC 1.9 (1/13) Emerson and Vilter are trademarks of Emerson Electric Co. or one of its affi liated companies. © 2012 Emerson Climate Technologies, Inc. All rights reserved. Printed in the USA.
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Table of contents
- 1 Front_Cover
- 3 Table of Contents
- 11 How to Use This Manual
- 12 Standard Vilter Warranty Statement
- 13 01_Operational_Flow_Chart
- 15 02_Installation_Recommendations
- 19 03_Hardware_Architecture
- 33 04_Main_Screen
- 39 05_Menu_Screen
- 41 06_Compressor_Control
- 53 07_Alarms_and_Trips
- 59 08_Timers
- 63 09_Compressor_Scheduling
- 65 10_Compressor_Sequencing
- 69 11_Condenser_Control
- 73 12_Service_Options
- 79 13_Instrument_Calibration
- 85 14_Slide_Calibration
- 93 15_Trend_Chart
- 97 16_Event_List
- 99 17_Input_Output
- 103 18_Auxiliary_Input/Output
- 109 19_Configuration
- 119 20_Data_Backup
- 123 21_Maintenance
- 127 22_User_Access
- 131 23_Help_Screen
- 133 24_Twin_Screw_Control
- 137 25_Cool_Compression_Control
- 141 26_Remote_Oil_Cooler
- 145 Appendix A - Vission 20/20 Troubleshooting Guide
- 148 Back_Cover
- 148 Operation and Service Manual Version