SMC Networks 5000 manual Counterbalance Pressure Transducer Mounting

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Section 3.3.1 Counterbalance Pressure Transducer Mounting

The system uses an automatic method of control in which the fill valve or dump valve is energized to raise or lower the pressure of the system and a pressure transducer is used to “tell” the ASM what pressure is in the system. The pressure transducer is constantly monitored to verify that the system is at the proper pressure. When filling or dumping air into or out of the counterbalance, the transducer tells the system when to stop. Because air pressure drops occur across air lines when filling or dumping, proper placement of the pressure transducer is very important for correct operation of the system. Possible pressure transducer mounting locations from best to worst are (refer to Figure 3.8):

a)A spare port on the counterbalance surge tank.

b)The same port that the safety pop-off valve is mounted on if it has its own port on the surge tank.

c)Right at the outlet on the surge tank that goes to the counterbalance cylinder.

d)Right at the inlet on the surge tank from the Fill/Dump valves.

e)If there is no surge tank the pressure transducer should be mounted right at the inlet on the counterbalance cylinder.

Figure 3.8: Acceptable Locations for Mounting Counterbalance Pressure

Transducer.

April 17, 2000 Man ual Versio n 1.0

3.6

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Contents OmniLink Table of Contents April 17, 2000 Man ual Versio n Iii April 17, 2000 Man ual Versio n Counterbalance Control Section IntroductionCushion Control Hydraulic Overload Control Shut Height Control1 Numeric Entries Parameter Entry and Access Control2 Text Entry April 17, 2000 Man ual Versio n 1 Key Only Mode Access Control2 Key or Password Mode 6.1 RUN/PROG Key Switch Operation 3 Password Only Mode4 Key and Password Mode 6 Access Control OperationExample Password Entry Sequence 6.2 Password System OperationApril 17, 2000 Man ual Versio n Installation Auto-Setup Module Installation April 17, 2000 Man ual Versio n Valve Systems Type B Valve ConfigurationCounterbalance Control Installation Type C Valve ConfigurationAuto-Counterbalance with Type a Integrated Valve 1 Counterbalance Pressure Transducer Mounting Cushion System Installation 3 Counterbalance System Wiring2 Counterbalance Air Valve System Mounting 1 Cushion Pressure Transducer Mounting 3 Cushion System Wiring2 Cushion Air Valve System Mounting Slide Adjust System Installation Hydraulic Overload System Installation1 Rotary Transducer Mounting 3 Linear Transducer Mounting 2 Rotary Slide Adjust Wiring4 Linear Transducer Slide Adjust Wiring Setting up the OmniLink 5000 for the Auto-Setup Module ConfigurationExample Air Configuration Screen Configuring the Auto-Setup boardAir Pressure HelpAir Slot Hardware DetectedDisplay Weight As Regulator settingMax. Die Weight Min. Die WeightMax. Trip Point Max. Cushion ForceMin. Cushion Force Display Force AsValve Type Fault TimeTolerance Transducer Types2 Configuring Slide Adjust Modules Shutheight Slide SlotShut Height Units Pulse Time Upper LimitLower Limit Pulse DistanceLock Time 2.1 Calibrating Linear Slide Adjust SystemsSerious injury or death Or death 2.2 Calibrating Rotary Slide Adjust SystemsResolver Turns System may fail to calibrateApril 17, 2000 Man ual Versio n April 17, 2000 Man ual Versio n Section Operation April 17, 2000 Man ual Versio n Setpoint Slide Adjust OperationActual Position MAN manual Fault1 Slide On, Manual, and Off Settings StatusApril 17, 2000 Man ual Versio n Pressure Set 4 Slide Fault and StatusDie Weight Set 3 Manual Slide Movement2 Pressure and Force Setpoints 1 Air System On, Manual, and Off SettingsPress Trip Set Actual PressureJob Storage and Recall Issues 3 Air System Fault and StatusApril 17, 2000 Man ual Versio n Main Module Messages Diagnostics Fault and Status MessagesMax. Press. Exceeded Pressure Switch LowUnable to Fill Unable to DumpSlide Adjust Fault Messages Slide Adjust Status Messages Moving Up Auto-AdjustingWaiting S/A Switch Min Position ReachedSection A.1 Example Counterbalance Configuration Section A.2 Example Cushion Configuration Section A.3 Example Hydraulic Overload Configuration April 17, 2000 Man ual Versio n Section A.4 Example Linear Slide Adjust Configuration April 17, 2000 Man ual Versio n Section A.5 Example Rotary Slide Adjust Configuration April 17, 2000 Man ual Versio n April 17, 2000 Man ual Versio n Figure B.1 Typical Counterbalance Wiring Diagram Appendix B Typical Wiring DiagramsFigure B.2 Typical Cushion Wiring Diagram Figure B.3 Conceptual Dual Resolver Mounting Figure B.4 Typical Amci Dual Resolver Wiring Diagram Figure B.5 Typical Gemco Dual Resolver Wiring Diagram Figure B.6 Conceptual Linear Transducer Mounting Figure B.7 Typical Gemco Linear Transducer Wiring April 17, 2000 Man ual Versio n Figure B.11 Typical Slide Air Motor Solenoid Wiring April 17, 2000 Man ual Versio n Figure C.1 Logic Module Firmware Chip Locations Appendix C Installation Of OmniLink 5000 FirmwareApril 17, 2000 Man ual Versio n Power is on Section D.2 Valve Type a Lockout ProcedureMust be done even if a LOX valve is opened in since Section D.4 Valve Type C Lockout Procedure Section D.3 Valve Type B Lockout ProcedureApril 17, 2000 Man ual Versio n April 17, 2000 Man ual Versio n Section E.2 Shut height Calibration Sheets April 17, 2000 Man ual Versio n Section F.3 5000-10C Rotary Shut Height Control Board Section F.2 5000-10B Linear Shut Height Control Board

5000 specifications

SMC Networks 5000 is a robust and versatile networking solution designed to meet the demands of modern digital infrastructures. This device is a part of SMC Networks' extensive product lineup, which caters to both enterprise and small to medium-sized businesses. The SMC 5000 stands out due to its high performance, reliability, and advanced feature set.

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