User's Manual
Table Of Contents
- Home
- Contents
- CSI 2140 Machinery Health Analyzer
- Introduction to the analyzer
- Transfer files with CSI 2140
- AMS Machinery Manager Data Transfer
- AMS Machinery Manager Standalone Data Transfer application
- Communication setup
- Routes and jobs
- Load a route from AMS Machinery Manager into the analyzer
- Load multiple routes from AMS Machinery Manager to the analyzer
- Load a Balance job from AMS Machinery Manager into the analyzer
- Dump a job from the analyzer to AMS Machinery Manager
- Dump a route from the analyzer to AMS Machinery Manager
- Dump a route or job from the analyzer to a folder on a computer
- Analyzer firmware and programs
- Screen captures
- Splash screens
- Printing
- Route
- Route overview
- Manage routes
- Set data collection and display parameters
- Set the plot type for collected data
- Enable or disable Point Advance to automatically move to the next measurement point
- Set High Frequency Detection averages
- Set the route data storage mode
- Set the overlap
- Set the plot type for live data
- Set the overall mode
- Set the integrate mode
- Enable or disable multi-channel group data collection
- Display a summary of data collected for grouped measurement points
- View or hide warning alarms on the Route Data Collection screen
- Restore default values for route data collection and display parameters
- Override the sensor setup for a route
- Enter new speed or load for a measurement point
- Tachometers
- Multiple inputs and measurements
- Collect route data
- Notes
- Plot data
- Run Analyze to collect data for a route measurement point
- View the measurement point setup and history
- Route reports
- Plots
- Analyze and Advanced Analyze
- Analyze overview
- Manage jobs
- Job Setup
- View all saved Analyze jobs
- Create an Analyze job
- Open a saved Analyze job
- Change the job ID
- Edit the equipment ID and description in a job
- Edit the measurement ID and description in a job
- Add a measurement
- Delete a measurement
- Delete data from the current measurement point
- Save a job to equipment in a route
- Set display parameters
- Multi-input measurements
- Sensors and inputs
- Tachometers
- Common data collection parameters
- Collecting data using an Analysis Expert
- Recommended uses of Analysis Experts
- Enable or disable the help text in the Analysis Experts
- High Frequency Analysis
- High Resolution Analysis
- Bearing/Gear Analysis - PeakVue
- Low Frequency Analysis - Slow Speed Technology
- Turning Speed Detection
- Laser Speed Detection
- Bump Tests
- Bump Test Equipment Off
- Bump Test Equipment Running
- Coast Down Peak Hold
- Coast Down Peak and Phase
- Rotor Bar Test Motor Current
- Order Tracking
- Synchronous Analysis
- Synchronous Analysis and Synchronous Averaging
- Orbit Plot
- Cross Channel Amplitude/Phase
- Collect data using Manual Analyze
- Listen to live vibration data in Analyze
- Redo a measurement
- Store data to a route or a job
- Review collected data
- Print an Analyze plot to AMS Machinery Manager
- Print a plot to a memory card
- Reset Analyze defaults
- Advanced Transient
- ODS/Modal
- ODS/Modal overview
- Manage jobs
- Sensors and inputs
- Tachometers
- Set up the plots
- Set up the job
- Collect ODS/Modal data
- Display the data for a measurement point
- Print an ODS/Modal plot to AMS Machinery Manager
- Print an ODS/Modal plot to a memory card
- Balance
- Balance overview
- Manage jobs
- Job Setup
- Sensor Setup
- Measurement Plane Setup
- Weight Plane Setup
- Acquire Data
- Balance correction
- Trim run
- One-run balance job
- Notes
- Balance summary reports
- Review balance data
- Manually enter balance job data
- Calculator Mode
- Determine another location to place weights
- Combine multiple weights on a rotor
- Calculate a new balance solution to use only the available weights
- Calculate weight placement using static and couple components
- Estimate trial weights
- Calculate weight location around the outside rotor circumference
- Calculate new balance solution to use only available locations and weights
- Amplification Factor
- Convert magnitude or frequency values to a different measurement unit
- Tips and additional information
- Balance accessories
- Technical specifications
- Glossary
- Index
Option Description
F3 Select Weight
Plane
Select the weight plane to use. You may want to select the plane
nearest the measurement plane that has the readings you want to use.
The default is weight plane 1.
F4 Enter Rotor
Weight
Enter the weight of the rotor between 0.00 and 100,000 lbs or 0.00
and 45,454.54 kg. The default is 1.
F5 Enter Tr Wght
Radius
Enter the radius where you place the trial weights on the rotor.
Enter a value between 0.00 and 650.00 inches or 0.00 and 1651 cm.
The default is 1.00.
F6 Enter Sensor Lag Enter the sensor/phase lag in degrees introduced by the sensor. The
default is 0.
F9 Select MPT in
Plane
Specify the measurement points to use. You can average all readings in
a specific measurement plane.
F10 Select Speed Enter the measurement speed to use, if you defined more than one.
The default is speed 1.
F11 Select Trial Run Enter the trial run. The first trial run is the default.
Note
A trial run must be specified where a weight was added to the specified
weight plane.
F12 Trial Weight
Units
Enter the units of the trial weight. If the weight units are unitless, the
default is ounces (oz).
3. Press F1 Calculate Solution.
The Amplification Factor Solution screen displays the amplification and system lag.
The Enter key is inactive on this screen.
4.
Press F7 Amp. Factor Calc. to exit and return to the calculation screen.
9.15.9 Convert magnitude or frequency values to a different
measurement unit
The Units Conversion option lets you enter magnitude, engineering units, units type,
frequency, and frequency units and the Balance program calculates the units in
acceleration, velocity, and displacement units.
Enter information on the left side of the screen. The calculated solutions are on the right
side of the screen.
Note
This is available only in Advanced Balance mode.
Balance
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