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Gearmotors \ Industrial Gear Units \ Drive Electronics \ Drive Automation \ Services
DUV10A Diagnostic Unit
Manual
FE500000
Edition 06/200611425016 / EN
SEW-EURODRIVE – Driving the world
Contents
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1 Important Notes................................................................................................. 51.1 Explanation of symbols ............................................................................. 51.2 Integral part of the product........................................................................ 51.3 Designated use ......................................................................................... 61.4 Qualified personnel ................................................................................... 61.5 Liability for defects .................................................................................... 61.6 Product names and trademarks................................................................ 61.7 Waste disposal.......................................................................................... 6
2 Safety Notes ...................................................................................................... 72.1 Preliminary information ............................................................................. 72.2 General information .................................................................................. 72.3 Shipping / putting into storage .................................................................. 82.4 Installation / startup................................................................................... 82.5 Inspection and maintenance ..................................................................... 8
3 Product Description.......................................................................................... 93.1 Hardware .................................................................................................. 93.2 Continuous monitoring .............................................................................. 93.3 Theory of operation................................................................................... 9
4 Delivery Scope and Unit Design .................................................................... 124.1 Scope of delivery .................................................................................... 124.2 Types and options................................................................................... 124.3 Unit designation and nameplate ............................................................. 144.4 Design of the DUV10A diagnostic unit.................................................... 15
5 Installation and Startup .................................................................................. 165.1 System overview..................................................................................... 165.2 Before you begin..................................................................................... 165.3 DUV10A-S installation software.............................................................. 175.4 Installation and startup procedure........................................................... 185.5 Evaluating the switching outputs............................................................. 27
6 Operation and Service .................................................................................... 296.1 Settings ................................................................................................... 296.2 Operation ................................................................................................ 306.3 Maintenance ........................................................................................... 336.4 Customer service .................................................................................... 336.5 Faults / repairs ........................................................................................ 34
7 Unit Functions ................................................................................................. 357.1 Sensor functions ..................................................................................... 357.2 Parameters ............................................................................................. 387.3 Application .............................................................................................. 397.4 Diagnosis objects.................................................................................... 447.5 Rolling element bearing database .......................................................... 567.6 Monitoring ............................................................................................... 607.7 Universal assignment.............................................................................. 627.8 History..................................................................................................... 637.9 LED code ................................................................................................ 647.10 Data string............................................................................................... 65
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Contents
8 Technical Data................................................................................................. 688.1 General technical data ............................................................................ 688.2 Dimension drawing ................................................................................. 69
9 Appendix.......................................................................................................... 709.1 Lexicon.................................................................................................... 709.2 Dimension sheets for installation locations on the drive ......................... 71
10 Index................................................................................................................. 80
Quick Startup................................................................................................... 91
Betriebsanleitung – Explosionsgeschützte Getriebe, Typ R147 LX140 BMG8DManual – DUV10A Diagnostic Unit
1Explanation of symbolsImportant Notes
Manual1 Important Notes1.1 Explanation of symbols
Always follow the safety and warning notes in this documentation.
1.2 Integral part of the product
This manual is an integral part of the DUV10A diagnostic unit and contains importantinformation on operation and service. The manual is intended for all persons who per-form assembly, installation, startup and service work on the DUV10A diagnostic unit.
Electrical hazard
Possible consequences: Severe or fatal injuries.
Hazard
Possible consequences: Severe or fatal injuries.
Hazardous situation
Possible consequences: Slight or minor injuries.
Harmful situation
Possible consequences: Damage to the unit and the environment.
Note
Tips and useful information.
Documentation reference
Indicates a reference to a document, such as operating instructions, catalog, data sheet.
Manual – DUV10A Diagnostic Unit
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1 esignated usemportant Notes
1.3 Designated use
The term designated use refers to the procedure specified in the manual.
The DUV10A diagnostic unit is designed for use in industrial and commercial systems.If you intend to use the DUV10A diagnostic unit in applications other than those inindustrial and commercial systems, it is essential that you contact SEW-EURODRIVEfirst.
In compliance with the EC Machinery Directive 98/37/EC, the DUV10A diagnostic unitis a component designed for installation in machinery and systems. In line with the ECDirective, you must not take the unit into operation in the designated fashion until youhave established that the end product complies with the Machinery Directive 98/37/EC.
1.4 Qualified personnel
The DUV10A diagnostic unit represents a potential hazard for persons and property.Consequently, assembly, installation, startup and service work may only be performedby trained personnel who are aware of the potential hazards.
Employees must be appropriately qualified for the task in hand and must be familiar withthe assembly, installation, startup and operation of the product. The personnel mustread the manual, in particular the safety notes section, carefully and ensure that theyunderstand and comply with them.
1.5 Liability for defects
Incorrect handling or any action performed that is not specified in this manual couldimpair the properties of the product. In this case, you lose any right to claim under limitedwarranty against SEW-EURODRIVE GmbH & Co KG.
1.6 Product names and trademarks
The brands and product names in this manual are trademarks or registered trademarksof the titleholders.
1.7 Waste disposal
Please follow the current national regulations.
Dispose of the individual materials separately in accordance with the country-specificregulations in force.
DI
Manual – DUV10A Diagnostic Unit
2Preliminary informationSafety Notes
2 Safety Notes2.1 Preliminary information
The following safety notes apply to the DUV10A diagnostic unit.
2.2 General information
Only qualified personnel may carry out the following work:
• Putting into storage
• Installation/assembly
• Connection
• Startup
• Maintenance
• Servicing
The following information and documents must be observed during these processes:
• Relevant operating instructions and wiring diagrams
• Warning and safety signs on the unit
• System-specific regulations and requirements
• National/regional regulations governing safety and the prevention of accidents
Please also observe the supplementary safety notes in the individual sections ofthis manual.
Danger of burns during installation on drives!
Touching the drive when it has not cooled down will result in burns. The drive can havea surface temperature of up to 95 °C.
Only install the DUV10A diagnostic unit once the drive has cooled down after discon-nection.
Never install damaged products or take them into operation.
Submit a complaint to the shipping company immediately in the event of damage.
Damage to property may result from:
• Improper use
• Incorrect installation or operation
• Unauthorized removal of necessary protection covers or housing
Manual – DUV10A Diagnostic Unit
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2 hipping / putting into storageafety Notes
2.3 Shipping / putting into storage
Inspect the shipment for any damage that may have occurred in transit as soonas you receive the delivery. Inform the shipping company immediately. Do notoperate the DUV10A diagnostic unit if it is damaged.
2.4 Installation / startup
See the information in section 5, "Installation and Startup."
2.5 Inspection and maintenance
See the information in section 6, "Operation and Service."
Possible damage caused by incorrect storage!
Store the diagnostic unit in a dry, dust-free room if it is not to be installed straight away.
SS
Manual – DUV10A Diagnostic Unit
3HardwareProduct Description
3 Product Description3.1 Hardware
The DUV10A diagnostic unit evaluates vibration signals using frequency analysismethods. A micromechanical acceleration sensor is used in the unit. Data can berecorded, processed and evaluated decentrally without any expert knowledge.
3.2 Continuous monitoring
The DUV10A diagnostic unit is suitable for early recognition of rolling element bearingdamage or unbalance. The continuous monitoring function offers a reliable and cost-effective solution compared to intermittent methods.
The DUV10A unit can be used to monitor up to 5 different objects or 20 frequencies. Arolling element bearing or a shaft is defined as an object, for example.
The DUV10A diagnostic unit enables immediate, permanent vibration monitoring.
3.3 Theory of operation
3.3.1 Brief description
The structure-borne noise is recorded and the frequency spectrum calculated to evalu-ate the condition of the rolling element bearings, unbalance in the unit etc. The conditioncan be read off directly and is visualized using binary switching outputs.
The switching signal can be transmitted via unshielded cables. The unit can also be con-nected to a bus system.
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3 heory of operationroduct Description
3.3.2 Detailed description
• The DUV10A diagnostic unit continuously records the vibration acceleration of a non-rotating machine surface (32,000 values/second) and calculates the amplitudes ofdamage frequencies (rolling element bearing: inner ring, outer ring and rolling ele-ment) of up to 5 different diagnosis objects comprising a maximum of 20 individualfrequencies. The rolling element bearings or diagnosis objects to be monitored aredefined using PC software. They are then transferred as parameter sets to the sen-sor via an RS-232 interface. The condition of the rolling element bearing is then eval-uated and monitored relative to the teach-in value (reference value).
58483AEN
ObjectDiagnosis objects
Individual frequencies
Weighted average
Peak value
Analysis methods
FFT / H-FFT
Object Object Object Object LEVEL
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TP
Manual – DUV10A Diagnostic Unit
3Theory of operationProduct Description
• As an option, the diagnostic unit can also calculate the maximum weighted averageor maximum acceleration value. In this case, evaluation and monitoring is performedusing absolute limit values without a reference value.
• Indication of early warning or main alarm: The diagnosis object or the level with thehighest degree of damage is indicated via the switching outputs.
• The damage progress of the diagnosis object is also indicated by the LED series onthe DUV10A diagnostic unit.
• The DUV10A diagnostic unit can be used with both constant and variable speeds. Toensure correct diagnosis when using variable speeds, the current speed has to besupplied via a 0 ... 20 mA current loop or a pulse input.
• If the roller bearing monitoring function is used with variable speeds, you mustensure that the operating speed related to the set values remains constant for inter-mittent periods.
• The maximum operating range is from 12 min–1 to 3500 min–1 shaft speed.
• The sensor is screwed onto the unit near the rolling element bearing radial to therotational axis (see section 5 "Installation and Startup"). If the sensor is not installeddirectly next to the bearing seat, you must perform an impulse test to check whetherthe installation location is suitable for the monitoring mode "Rolling element bearingmonitoring."
The DUV10A diagnostic unit uses different object limit values for early warning (yellow)and main alarm (red) for all defined spectral diagnosis objects. The limit values of thediagnosis objects are always based on the set teach-in value and describe a signal fan-out. "Green" always corresponds to 100 %.
To compensate differences caused by the trigger level for different speeds during vari-able-speed operation, the diagnostic value is weighted according to the "Weighted sig-nal" curve. Individual weighted curves are defined for each diagnosis object.
The DUV10A diagnostic unit uses broadband limit values to monitor the vibration levelin the time domain. In contrast to the diagnosis objects, these are absolute accelerationvalues (unit 'mg'). To compensate differences caused by the trigger level for differentspeeds during variable-speed operation, the level is weighted according to the"Weighted signal" curve.
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4 cope of deliveryelivery Scope and Unit Design
4 Delivery Scope and Unit Design4.1 Scope of delivery
Scope of delivery of the DUV10A diagnostic unit
• 1 manual per order
4.2 Types and options
4.2.1 Options for the DUV10A diagnostic unit
DUV10A diagnostics unit
Product no. Meaning Designation
14066297 Diagnostic unit DUV10A
Product no. Meaning Designation
14066300 Configuration software DUV10A-S
14066319 Cable for software DUV10A-K-RS232-M8
14066327 Power supply unit DUV10A-N24DC
14066335 Impulse tester DUV10A-I
14066343 Cable with 1 connector, length 2 m DUV10A-K-M12-2m
14066351 Cable with 1 connector, length 5 m DUV10A-K-M12-5m
SD
Manual – DUV10A Diagnostic Unit
4Types and optionsDelivery Scope and Unit Design
4.2.2 Adapter for installation
Base for mounting on standard gear units (R, F, K, S)
Base for mounting on standard motors
Base for mounting on industrial gear units
Product no. Meaning
13434411 Mounting base with sealing ring M10 x 1
13438271 Mounting base with sealing ring M12 x 1.5
13438298 Mounting base with sealing ring M22 x 1.5
13438301 Mounting base with sealing ring M33 x 2
13438328 Mounting base with sealing ring M42 x 2
Product no. Meaning
13438425 Mounting base M12
13438441 Mounting base M16
Product no. Meaning
13438336 Mounting base with sealing ring G 3/4
13438344 Mounting base with sealing ring G 1
13438352 Mounting base with sealing ring G1 1/4
13438360 Mounting base with sealing ring G1 1/2
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4 nit designation and nameplateelivery Scope and Unit Design
4.3 Unit designation and nameplate
4.3.1 Unit designation of the DUV10A diagnostic unit
4.3.2 Nameplate
58212AXXFigure 1: DUV10A diagnostic unit
DUV 10 A
Revision number
Type
Diagnostic Unit Vibration (diagnostic unit)
58504AXXFigure 2: Nameplate
SEW-EURODRIVE
IP67
1: L +, 10 ... 32 VDC2: OUT2, REACT I = 100 mA
4: OUT1, CHECK I = 100 mA3: L –
5: IN, CURRENT / PULSE
1: VCC (OUT)2: TxD (OUT)3: 0 V (GND)4: RxD (IN)
GmbH & Co KGD-76646 Bruchsal
14066297
UD
Manual – DUV10A Diagnostic Unit
4Design of the DUV10A diagnostic unitDelivery Scope and Unit Design
4.4 Design of the DUV10A diagnostic unit
58210AXXFigure 3: Design of the DUV10A diagnostic unit
[1] M5 screw
[2] Washer
[3] Spacer bushing
[4] Sensor base
[5] Machine surface
[A] Measuring axis
[A]
[1]
[2]
[4]
[3]
[5]
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5 ystem overviewnstallation and Startup
5 Installation and Startup5.1 System overview
5.2 Before you begin
5.2.1 Prerequisites for installation and startup
5.2.2 Required tools / resources
• Set of wrenches/Allen keys
• PC or notebook with RS-232 interface for parameter setting
59361AXXFigure 4: DUV10A system overview
[1] Object to be monitored
[2] DUV10A diagnostic unit
+ DC 24 V
[2][1]
The diagnostic unit may only be installed if:
• the data on the nameplate of the diagnostic unit matches the voltage supply systemdata
• the diagnostic unit is undamaged (no damage caused by shipping or storage)
Ensure that the following requirements have been met:
• Ambient temperature must be between –30 °C and +60 °C. Please contactSEW-EURODRIVE if the ambient temperatures are higher or lower.
SI
Manual – DUV10A Diagnostic Unit
5DUV10A-S installation softwareInstallation and Startup
5.3 DUV10A-S installation software
5.3.1 DUV10A-S configuration and monitoring software
The optional DUV10A-S configuration and programming software can be used tomonitor up to 5 different objects or 20 individual frequencies.
A configuration file is generated in the DUV10A-S software. The file is then transferredto the DUV10A diagnostic unit.
An online help is available for all functions. To call up the help text for each function,press the <F1> key.
5.3.2 System prerequisites
The DUV10A-S software requires a PC with:
• Pentium II 266 MHz processor or higher (Pentium III recommended)
• At least 128 MB main memory (RAM)
• VGA 800 x 600m or higher
• Microsoft Windows 95 / 98 / NT / 2000 / XP operating system.
5.3.3 Installing the DUV10A-S software
The configuration and programming software is supplied on a CD. When you place theCD in your CD ROM drive the installation will start automatically. If not, select [Run...]from the Start menu and enter the command D:/DUV10A-S.exe (D: stands for the CDROM drive). Install the programming software by clicking on the name and following theinstructions.
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5 nstallation and startup procedurenstallation and Startup
5.4 Installation and startup procedure
Perform the following steps to start up the DUV10A diagnostic unit. Each step isdescribed in detail.
5.4.1 Loading or creating a parameter file
Use the software provided to create a suitable parameter set.
58213AEN
Open or load
parameter file
Mount
Electrical connection
Conduct impulse test
Transfer parameters
to sensor
Teach-in and
data recording
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Manual – DUV10A Diagnostic Unit
5Installation and startup procedureInstallation and Startup
• Click the button [Load or create parameter file].
• The software now asks you to enter the parameter data using the wizard or load anexisting file.
• If you have not created a parameter file yet, call up the wizard. Enter the requireddata and choose [Finished].
5.4.2 Installation
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5 nstallation and startup procedurenstallation and Startup
The DUV10A diagnostic unit is installed using a sensor base (see section 4.2.2 on page13), which is screwed into either a screw plug bore of the gear unit or a crane hook eyeof the motor. Observe the following installation rules:
• Install the unit close to the rolling element bearing and, preferably, radial to the rota-tional axis (see section 9.2 on page 71).
• Use the washer and bushing provided with the diagnostic unit.
All 'rolling element bearing' diagnosis objects defined must have a sufficiently goodsignal strength. A transfer constant of >5 mg/N is required.
• Tighten the M5 screw using a torque of 7 Nm.
• Once you have installed the DUV10A diagnostic unit, click on the button [Mountsensor] in the DUV10A software.
Ensure that the following prerequisites are met during installation:
• The DUV10A diagnostic unit must always be freely accessible.• The LEDs must always be visible.• Do not connect the unit at the oil drain plug or breather valves.• Pay attention to the oil level during installation.
Bear in mind that if the unit is installed below the oil level, oil may leak out of the gear unit.
• If machines are separated by couplings, we recommend that you use one diagnosticunit for each machine.
• For mounting using an adapter, note the screw sizes in section 4.2.2. page 13.
• Install the DUV10A diagnostic unit using the spacer bushing provided to ensurethermal isolation.
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Manual – DUV10A Diagnostic Unit
5Installation and startup procedureInstallation and Startup
5.4.3 Electrical connection
Connection wir-ing diagram
Procedure • Connect the voltage supply and switching outputs and, if necessary, set the speed.
• Once you have connected the DUV10A diagnostic unit, click on the button [Mountsensor] in the software.
• You can now establish a connection with the sensor using the menu[Connection] / [Connect].
• The unit may only be installed by a qualified electrician.
• Observe the national and international guidelines on setting up electrical systems.
• Voltage supply to EN 50178, SELV, PELV.
• The unit must be supplied with energy from an electrically isolated source andprotected with an overcurrent device in such a way that the "limited voltage / currentcircuit" requirements, in accordance with UL508 para. 32, are met.
• Disconnect the system before connecting the diagnostic unit.
• The outputs are short-circuit proof.
Connector Pin Assignment
M12 1 Supply +
2 (red function) Switching output 2 (main alarm), 100 mAProgrammable NC contact / NO contact
3 Supply –
4 (yellow function) Switching output 1 (early warning), 100 mAProgrammable NC contact / NO contact
5 Speed (0 ... 20 mA) or pulse input
M8 1 Not assigned
2 T × D
3 GND
4 R × D
4 3
5
21
1
2
3
4
See section 5.5 for information on evaluating switching outputs.
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5 nstallation and startup procedurenstallation and Startup
5.4.4 Conducting an impulse test
The installation position can be checked using the impulse tester (order number14066335). For the test, a defined force is provided as close to the installation positionof each rolling element bearing as possible. The sensor measures the correspondingpulse response. The determined transfer factor is given in acceleration per force (mg/N).This value describes the quality of the signal strength. The value of the transfer factormust be greater than 5 mg/N. Reliable monitoring cannot be guaranteed if the value islower.
Procedure • Click the [Conduct impulse test] button.
• Choose the object from the table.
• Click on [Impulse test].
• Start the measurement. The basic level is measured first (baseline measurement).
• Then, execute at least one impulse using the impulse tester per measurement asclose to the rolling element bearing as possible. The software indicates the suitabilityof the installation position in a graphic and as a text.
Note The impulse test can usually be carried out during operation.
If the message "The difference between the noise level and impulse test is too small" isdisplayed, repeat the measurement when the machine is at a standstill.
If the message "Mounting location not suitable" is displayed, change the installationposition and repeat the impulse test.
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Manual – DUV10A Diagnostic Unit
5Installation and startup procedureInstallation and Startup
5.4.5 Writing parameters to the sensor
• Click the button [Write parameters to sensor] to transfer the parameters to the sensorvia the RS-232 interface.
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Only complete parameter can be transferred.
A complete parameter set must at least include the speed, a frequency factor, for rollingelement bearings the signal transfer factor and the teach-in value.
Manual – DUV10A Diagnostic Unit
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5 nstallation and startup procedurenstallation and Startup
The following parameters are transferred to the sensor:
• Speed, constant or variable of at least 12 min–1 up to a maximum of 3500 min–1
• The diagnosis objects and their frequency factors:
• The analysis methods (HFFT and / or FFT)
• The number of averages and hysteresis
Calculation: Averages × hysteresis × 1.6 seconds = maximum diagnostic time
• The threshold values for red and yellow LEDs
• The frequency window; that is, the frequency range of a damage frequency (typicalvalue: +2 ... 7 % of the damage frequency)
• The threshold values for the level monitor
• The signal transfer constant per object
• The basic values of the teach-in run
The speed must be constant for the maximum diagnostic time at least once a day.
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Manual – DUV10A Diagnostic Unit
5Installation and startup procedureInstallation and Startup
5.4.6 Teach-In
The teach-in is an automatic self-learning process performed by the sensor under typi-cal operation conditions triggered by pressing the Teach-in button on the unit or usingthe software.
The teach-in speed must lie within the range previously defined for the operating speedand should, ideally, be close to the upper operating speed.
The teach-in function (Menu [Sensor] / [Teach-In]) is used to measure the reference val-ues of the machine and store them in the sensor. Diagnostic analyses are based on theteach-in value. Therefore, you must ensure that the teach-in process is performed cor-rectly under typical operating conditions.
To ensure that the preset limit values can be used for the monitoring type 'rolling elementbearings,' you must make sure that the bearing to be monitored is not already damaged.
If the sensor is operated with different machine speeds, the teach-in run is performed ata typical speed with homogeneous operating conditions, preferably in a mid speedrange. The number of averages set is also in effect in the teach-in run.
The reference data is then recorded (FFT envelope and FFT spectrum). The file shouldbe archived. The data can be used as a reference for diagnostics performed at a laterdate.
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5 nstallation and startup procedurenstallation and Startup
Teach-in process After you have connected the DUV10A diagnostic unit all the LEDs light up (delivery sta-tus).
Teach-in using the DUV10A
• Press the <TEACH> button for 5 seconds. The configured DUV10A diagnostic unitadjusts itself to the operating conditions automatically. The yellow LEDs 2, 3 and 4flash.
Teach-in using the software
• For a teach-in using a PC / notebook, LED 1 is lit up and LED 2 flashes. A messageis displayed on the screen and the unit switches to monitoring mode. In monitoringmode, LEDs 1 and 2 are lit up green continuously.
• The unit is now in monitoring mode and shows the damage progress using the LEDs.
58307AXXFigure 5: LEDs - delivery status
NEXT TEACH
A B L
O.K. CHECK REACT
II
Manual – DUV10A Diagnostic Unit
5Evaluating the switching outputsInstallation and Startup
5.5 Evaluating the switching outputs
The sensors can be evaluated using:
• Frequency inverters
• Decentralized technology
(The binary signals are connected to the modules MFP/MFI/MFD/MFO orMQP/MQI/MQD/MQO and information is transmitted in the 4th PD word via Profibus,Interbus, DeviceNet or CANopen. The binary signals can also be connected to otherfieldbus modules).
• A controller
5.5.1 Evaluation using a frequency inverter
58382AENFigure 6: Evaluation using a frequency inverter
M12
1
2
3
4
5
+24 V/100 mA
+24 V backup mode
Switching output1 / warning
Switching output1 1 / error
Optional speed 4...20 mA
GND
GND
DIxx
DIxx
GND
VIO24
+24VMDX B
Optional DIO 11BOptional analog
module
MC07B
VI24
VO24
DCOM
GND
DIxx
DIxx
AOCx AOxx
Manual – DUV10A Diagnostic Unit
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5 valuating the switching outputsnstallation and Startup
5.5.2 Evaluation using decentralized technology
5.5.3 Evaluation using a controller
58372AENFigure 7: Evaluation using decentralized technology
DIO DI2 DI4
DI3 DI5DI1
DI1 DI3 DI5
24 V(V024)
24 V(V024)
24 V(V024)
24 V(V024)
24 V(V024)
24 V(V024)
DI2 DI4
DI3 DI5
DI0
DI1
M12
1
2
3
4
5
+24 V/100 mA
+24 V/max. 100 mA
Switching output 1 / warning DI0
Switching output1 / error DI1
Optional speed 4...20 mA k.A.
GND
GNDGND GNDGND
GNDGND GND
Profibus
Interbus
CANopenDeviceNet
58381AENFigure 8: Evaluation using a controller
M12
1
2
3
4
5
+24 V/100 mA
Switching output 1 / warning
Switching output 1 / error
Optional speed 4...20 mA
GND
PLC
24 V
GND
DIxx
DIxx
Iout
EI
Manual – DUV10A Diagnostic Unit
6SettingsOperation and Service
6 Operation and Service6.1 Settings
6.1.1 Country settings
Choose [Extras] / [Settings] to change the parameter input units from metric (comma,mm) to US (period, inch).
To select the language, choose [File] / [Language].
6.1.2 Finding a COM port
Choose [Extras] / [Scan COM ports] to update the list of COM ports available ([Connec-tion] / [Settings]). In this way, any virtual serial ports (e.g. from USB converters E30098)connected after the program was started are now added to the list.
6.1.3 Program settings
Select your preferred settings for units of length (millimeter or inch) and decimal sepa-rators (comma or period). The individual frequency windows for the subobjects shownin the spectral display (monitor) can be displayed.
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6 perationperation and Service
6.2 Operation
Once you have completed the teach-in process (see section 5.2.6 on page 25), the unitis in monitoring mode and shows the damage progress using the LEDs.
Make sure that the DUV10A diagnostic unit has been configured correctly for yourapplication using the expert software. See sections 7.2 and 7.3 for more information.
If no parameter sets are available, all the LEDs light up (delivery status).
58307AXXFigure 9: LEDs - delivery status
NEXT TEACH
A B L
O.K. CHECK REACT
OO
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Manual – DUV10A Diagnostic Unit
6OperationOperation and Service
6.2.1 Damage progress display on the unit
Display Description Meaning
• LED 1 green "O.K." is lit up • Voltage supply is OK
• LEDs 1 and 2 green "O.K." are lit up
• The diagnostic unit is ready for opera-tion
• LEDs 1 and 2 green "O.K." are lit up
• LED 3 yellow "CHECK" is lit up
• Damage has been detected (at an early stage)
• The first switching output is activated (early warning)
• The drive will break down in a few weeks.
• Press the <NEXT> button to display the diagnosis of the early damage. (see the section "Displaying the damaged object" on page 32.)
• You can track the damage progress using the yellow "CHECK" LEDs
• LEDs 1 and 2 green "O.K." are lit up
• LEDs 3 ... 6 yellow "CHECK" are lit up
• LED 7 red "REACT" is lit up con-tinuously
• The second switching output is acti-vated (main alarm)
• Total failure is imminent.• The damage must be repaired immedi-
ately!
O.K. CHECK REACT
O.K. CHECK REACT
O.K. CHECK REACT
O.K. CHECK REACT
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6 perationperation and Service
Displaying the damaged object
When the first yellow LED lights up, you can display where the damage has occurred.Proceed as follows:
• Press the <NEXT> button to display the diagnosis of the early damage.
• The flashing red "REACT" LED indicates which object is damaged.
• Assess the damage using the DUV10A-S software.
LED red A Object 1 or 4
LED red B Object 2 or 5
LED red L Object 3 or level monitor
NEXT TEACH
A B L
O.K. CHECK REACT
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6MaintenanceOperation and Service
6.2.2 Displaying the damage development in the DUV10A-S software
6.3 Maintenance
If used as specified in the catalog, the DUV10A diagnostic unit does not require anymaintenance.
6.4 Customer service
Please have the following information to hand if you require the assistance of our cus-tomer service:
• Nameplate data (complete)
• Type and extent of the problem
• Time the problem occurred and any accompanying circumstances
• Assumed cause
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6 aults / repairsperation and Service
6.5 Faults / repairs
If the DUV10A diagnostic unit does not work properly, please contact theSEW-EURODRIVE service team.
If you have to send in the diagnostic unit to SEW-EURODRIVE, please include thefollowing information:
• Serial number (→ nameplate)
• Unit designation
• Brief application description, incl. drive designation
• Nature of the error
• Accompanying circumstances
• Your own presumptions as to what has happened
• Unusual events preceding the problem
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7Sensor functionsUnit Functions
7 Unit Functions7.1 Sensor functions
7.1.1 Testing switching outputs
The function of the switching outputs 1 and 2 can be tested by setting them manually.To do so, choose [Sensor] / [Test switching output 1] or [Test switching output 2].
7.1.2 Teach values
The teach values are set in the sensor for each object and can be transferred andchanged manually using the function [Sensor] / [Teach values].
If you set the teach values manually, you do not have to perform the teach-in processlater. The DUV10A diagnostic unit is ready for operation immediately.
The process of setting teach values manually can be used to reuse a known referencevalue for, for example, machines of the same type.
An absolute limit value can also be obtained by multiplying the teach value by the triggerlevel.
Example:
Nominal trigger level for early warning diagnosis object 1: 800 mg
Nominal trigger level for main alarm diagnosis object 1: 1,600 mg
Set reference value: 80 mg
Results in a limit value setting for:
Early warning: 10 (corresponds to 800 mg = 80 mg x 10)
Main alarm: 20 (corresponds to 1,600 mg = 80 mg x 20)
7.1.3 Read
To read off a parameter set from the sensor, choose [File] / [Read from sensor]
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7.1.4 Teach-In
The teach-in function (Menu [Sensor] / [Teach-In]) is used to measure the referencevalues of the machine and store them in the sensor. Diagnosis analyses relate to theteach-in value. Therefore, you must ensure that the teach-in process is performedcorrectly under typical operating conditions.
To ensure that the preset limit values can be used in the monitoring mode 'rollingelement bearings' you must make sure that the bearings to be monitored are not alreadydamaged.
If the sensor is operated with different speeds, the teach-in run is conducted at a typicalspeed with similar operating conditions, preferably using a mid-range speed.
The set number of averages is also in effect in the teach-in run.
7.1.5 Write
To write a parameter set to the sensor, choose the menu [File] / [Write to sensor]).
7.1.6 Reset
Resets the contents of the sensor. To delete all the data, including the teach-in data,choose [Sensor] / [Reset parameters].
7.1.7 Lock the teach button
To lock the teach button on the sensor, choose [Sensor] / [Teach button locked]).
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7Sensor functionsUnit Functions
7.1.8 Sensor settings
To change the sensor settings, choose [Extras] / [Settings...].
• You can set up either write protection or both read and write protection for the sensorby using the password function.
• To enable monitoring using a fieldbus controller, activate the mode "Net Mode 1".The data protocol "Net Mode 1" will be sent continuously automatically even if thesensor is restarted after a power failure or if the sensor comes to a standstill (speedoutside the operating range).
• To activate and configure the history memory, choose [Sensor] / [Sensor settings].To do so, select the [Activate history] check box and enter a value between 1 secondand 12 hours in the [Interval] field. Click [Accept] to start the history memory.
7.1.9 Display sensor information
To display the serial number, firmware version and hardware version, choose [?] / [Info].
Important: These settings are only activated when the parameter data is written to thesensor!
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7.2 Parameters
7.2.1 Set diagnosis objects
The "Set diagnosis" input screen in the wizard gives you an overview of all the diagnosisobjects currently defined. You can create additional diagnosis objects as long as themaximum number of diagnosis objects or all subobjects is not exceeded.
If you do not want to create any more diagnosis objects, the wizard moves on to the set-tings for the level monitor and the project data.
If an object is selected from the list, the wizard can be activated again for this object.
7.2.2 Header data
Header data is used to archive the application. Alphanumerical entries for the followingdata are stored in the sensor:
• Company
• City
• Address
• Installation site
• Machine
7.2.3 Project description
The project description is used to archive notes relating to the project.
Maximum number of diagnosis objects Maximum number of subobjects
5 20
The data is stored in the parameter file, not in the sensor.
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7.2.4 Print parameters
Choose the menu item [Print] in the wizard to print out a list of the set parameters.
7.2.5 Save parameters
Use the buttons [Save to hard drive] and [Write to sensor] to save the parameters as afile or to transfer them to the sensor.
7.3 Application
7.3.1 Parameters
Parameter sets can be created for different types of sensors. The possible input valuesvary according to the sensor type and are, therefore, taken into account in the inputfields.
7.3.2 Speed characteristics
Operating speed data is important for defining speed-related damage frequencies. TheDUV10A diagnostic unit can be used with both constant and variable speeds. To ensurecorrect diagnosis when using variable speeds, the current speed must be supplied viaa 0 ... 20 mA current loop or a pulse input.
If the nominal speed is used as information for asynchronous motors, it is important toenter the rated speed under rated load. Deviations caused by slip can be compensatedby the frequency window. If the slip exceeds 5 %, the actual speed should be takendirectly from the shaft, e.g. using a proximity switch.
Entry:
• Constant operating speed
• Variable operating speed
7.3.3 Speed input
With variable-speed applications, the DUV10A diagnostic unit must be provided with theoperating speed. A 0 ... 20 mA current loop or a pulse signal (for example, from aproximity switch) can be used to provide information on the speed. The maximumadjustment of the current loop is 20 mA. The pulse signal must not exceed a maximumswitching frequency of 10 kHz.
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7.3.4 Speed calibration
The sensor has to be provided with the operating speed to monitor applications with vari-able speed. If the speed is supplied via a 0 ... 20 mA current loop, the speed input signalis calibrated using user-defined lower and upper speeds.
58668AXX
[1] Lower speed
[2] Upper speed
mA
[1] [2]
[1]
[2]
n [min–1]
The speed at 20 mA, calculated using the given data, must not drop below 12 min–1 andnot exceed 3500 min–1.
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7.3.5 Operating range
The sensor must receive information on the operating speed range to monitor applica-tions with variable speed. This is done by specifying the lower and upper operatingspeed.
7.3.6 Pulses per revolution
Enter the number of pulses per revolution. A value between 1 and 32 pulses per revo-lution can be entered. The maximum pulse frequency that the DUV10A diagnostic unitcan process is 10 kHz. The minimum pulse band is 3 µs.
58675AXX
[1] Lower operating speed
[2] No monitoring
[3] Monitoring
[4] Teach-In speed
[5] Upper operating speed
Minimum rpm 12
Maximum rpm 3500
n [min–1]
[3]
[1]
[2]
[4] [5]
If the sensor is configured for variable-speed operation, the sensor only performs themeasurements when the current speed is higher than the minimum operating speed andlower than the maximum operating speed. Measurements cannot be performed if thespeed input is not connected.
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7.3.7 Constant speed
Number of revolutions per minute. You can only define one machine speed. If the diag-nosis objects (e.g. rolling element bearing) are based on different speeds (gear unit),you must also define the transmission ratio for each diagnosis object.
For machines using mains operation, the operating speed is assumed to be constant. Ifthe nominal speed is used for asynchronous motors, it is important to enter the ratedspeed under rated load. As with asynchronous machines, deviations caused by slip canbe compensated by the frequency window. If the actual operating speed deviates morethan 5 %, it is a good idea to detect the speed.
7.3.8 Teach-In speed
If the machine to be monitored is operated with variable speeds, you must define whichspeed is to be used for the teach-in run, in order to take the weighting of the referencevalue into account. The teach-in speed must be within the range previously defined forthe operating speed and should ideally be close to the upper operating speed.
58675AXX
[1] Lower operating speed
[2] No monitoring
[3] Monitoring
[4] Teach-In speed
[5] Upper operating speed
n [min–1]
[3]
[1]
[2]
[4] [5]
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7.3.9 Averages for diagnosis objects
Number of individual measurements required to calculate a spectral diagnostic analysis.A measurement takes 8 seconds, corresponds to the frequency resolution of 0.125 Hzin the spectrum, as long as all the specified frequencies are in one frequency range(0 ... 50; 50 ... 150; 150 ... 250 etc.). Ensure constant-speed operation for the resultingtotal measurement time.
Possible values: 1 (=none); 2; 4; 8; 16; 32
Recommended setting: 2
Averages can be set for the level monitor regardless of these settings.
7.3.10 Frequency window
The frequency window specifies the relative search width in the frequency spectrum foreach damage frequency. The frequency window is positioned above and below themonitored frequency. The frequency window is used to compensate for inaccuracies inthe description of the frequency location.
The input values are relative in percent.
The frequency window setting applies to all set objects, as the maximum search rangeof the individual diagnosis objects comes into effect.
Example:
Frequency window = 5 %; damage frequency = 311.5 Hz corresponds to spectral line249.
Search range = Spectral lines 237 to 286 correspond to 296.25 Hz to 357.5 Hz
Minimum value range 0.1 %
Maximum value range 20 %
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7.4 Diagnosis objects
7.4.1 Response delay of the diagnosis object
To avoid false alarms, the sensor is set as standard to a response delay (hysteresis) of5. This means that an increase in the diagnostic value is only displayed after a sustain-ability check confirms 5 subsequent increases. In this way, the sustainability of the dis-played diagnostic analysis is guaranteed.
The response delay can be set from 1 (no delay) to 10. The total response time thenresults from the number of averages multiplied by the defined response delay.
The response delay is triggered by a deviations of more than ± 1 in the diagnosis level,which corresponds to ± 100 %. The function applies to both increasing and decreasingvalues. The set response delay has the same effect on all defined diagnosis objects. Aresponse delay can be set for the level monitor regardless of this setting.
7.4.2 Output stage
The switching signals (output stage) of the DUV10A diagnostic unit can be set as bothnormally closed and normally open contacts. We recommend that you use the setting"Normally closed" (cable break detection).
58666AXX
[1] Switching output: RED
[2] Switching output: YELLOW
[3] Response delay of the diagnosis objects
[1]
[2]
[3]
t
If you want to evaluate the switching signals of the DUV10A diagnostic unit using aMOVIDRIVE® MDX60B/61B frequency inverter, you must set the switching signals to"Normally closed contacts".
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7.4.3 Level monitor
In addition to the frequency selective (i.e. narrow-band) rolling element bearings and/ordiagnosis object measurement, the level monitor enables vibration condition monitoringin the time domain. This so called broadband measurement provides general informa-tion on the entire system by evaluating the raw acceleration signal with regards to max-imum acceleration or mean acceleration.
7.4.4 Monitoring mode
The monitoring mode determines whether the level monitor should monitor the maxi-mum peak (peak monitoring) or the weighted average (vibration monitoring) of theacceleration signal. In contrast to the diagnosis objects, the subsequent monitoringfunction uses absolute values.
Two alarm levels and a speed-dependent signal weighting can be set.
The response delay and number of averages are set depending on the settings of thediagnosis objects.
Peak monitoring
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Vibration monitoring
7.4.5 Constant switch points
The DUV10A diagnostic unit use different limit values to monitor the vibration level in thetime domain. In contrast to the diagnosis objects, the acceleration values are absolute(unit mg).
For variable speed monitoring, the vibration level to be monitored is weighted accordingto the "Weighted signal" curve to compensate for differences caused by the trigger level.
You can define two trigger levels (red and yellow), which are also used to switch the out-puts.
Alarm indication with yellow LED:
First yellow LED lights up and switching output 1 is activated
Alarm indication with red LED:
First yellow LED lights up and 3rd red LED (L) lights up and switching output 2 is acti-vated
Minimum: 200 mg
Maximum: 25,000 mg
Units:
1 mg = 0.001 g
1 g = 9.81 m/s² (gravitational acceleration)
7.4.6 Variable switch points
Variable limit values can be set via the operating speed range for variable speed oper-ation. The curve for the early warning alarm is dragged using the left mouse button andthe distance between yellow and red is specified as a percentage value. Only values thatresult in trigger levels < 25,000 mg are accepted. The exact values are displayed for thedefined teach-in speed.
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7.4.7 Average level
The average level is the number of individual measurements required to calculate adiagnosis value.
The averaging of the vibration level (time domain) is set independent of the average fordetermining the diagnostic values (frequency range).
The measuring interval is 8 seconds for calculating the weighted average and determin-ing the maximum peak.
7.4.8 Response delay level
A response delay can be set separately for the level monitor independent of the settingsfor the spectral diagnosis objects. To avoid false alarms, the sensor is set as standardto a response delay (hysteresis) of 5. This means that the level value is only displayedafter a sustainability check confirms 5 subsequent increases. This ensures the rele-vance of the displayed values.
The response delay can be set from 1 (no delay) to 10. The total response time thenresults from the number of averages multiplied by the defined response delay.
58667AXX
[1] Switching output: RED
[2] Switching output: YELLOW
[3] Response delay level monitor
[1]
[2]
[3]t
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7.4.9 Diagnosis objects
The machine diagnosis carried out by the DUV10A diagnostic unit is automatically built-up by defining a machine model via so-called diagnosis objects. The software canmonitor up to 5 different diagnosis objects at the same time. A diagnosis object is agroup of symptomatic damage frequencies that are defined as so called frequencyfactors. Multiplying the speed frequency by the frequency factor results in the actualdamage frequency. Therefore, applications operated at constant speed have a constantdamage frequency.
The diagnosis object is assigned an analysis method depending on the damage type.For example, tooth meshing frequencies and unbalances are monitored with the FFTmethod and rolling element bearing damage with the H-FFT method.
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Bearing AS Bearing BS Unbalance Level
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7.4.10 Analysis methods
The signal analysis is used to generate informative properties from the raw accelerationdata. The software for the DUV10A diagnostic unit uses methods of fast frequency anal-ysis (Fast Fourier Transformation = FFT). The analysis method differentiates betweenthe calculation of the linear spectrum from the raw acceleration data (FFT) and from theenvelope curve of the acceleration data (H-FFT). The selected analysis method can beassigned to a specific diagnosis object. In this way, for example, unbalance and rollingelement bearing damage can be monitored in one sensor.
58501AEN
40000,0
-30000,0
-20000,0
-10000,0
0,0
10000,0
20000,0
30000,0
18000 0 2000 4000 6000 8000 10000 12000 14000 16000
1100,0
0,0 100,0 200,0 300,0 400,0 500,0 600,0 700,0 800,0 900,0 1000,0
4000 20 40 60 80 100 120 140 160 180 200 220 240 260 280 300 320 340 360 380
Envelope curve FFT
28,0
0,0 2,0 4,0 6,0 8,0 10,0 12,0 14,0 16,0 18,0 20,0 22,0 24,0 26,0
400 0 20 40 60 80 100 120 140 160 180 200 220 240 260 280 300 320 340 360 380
Raw signal FFT
Bearing damage time signal
Bearing damage frequency analysis
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Frequency resolution of the linear spectrum
FFT:
Evaluation of harmonic signals, for example, unbalance, cavitation, resonance, align-ment errors, tooth meshing.
H-FFT:
Evaluation of high-frequency, peak-shaped signals, such as rolling element bearingdamage.
7.4.11 Diagnostic type
If you select the diagnostic type "Rolling element bearing" or "Unbalance", default valuesare set automatically for diagnosing rolling element bearings or detecting unbalance.This option simplifies the parameter setting process.
If you select "Other", it is possible to set parameters for any machine damage if it char-acterized by assigned symptomatic frequencies / factors.
7.4.12 Rolling element bearing
The parameter setting "Rolling element bearing " determines the rolling element bearingcondition from the amplitudes of the ball pass frequencies:
• Inner ring
• Outer ring
• Rolling element
You can use the rolling element bearing database or enter your own bearing data.
7.4.13 Unbalance
The parameter setting "Unbalance" determines the machine condition using the ampli-tudes at rotational frequency.
Sensor Frequency range Frequency resolution
DUV10A 1 Hz ... 750 Hz 0.125 Hz
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7.4.14 Other
The damage type "Other" can be used to set any machine damage by specifying thedamage frequencies (factors) for each diagnosis object.
7.4.15 Transmission ratio
Gear transmission measuring speed / object speed
The transmission ratio specifies the differences in speed between the motor shaft andthe shaft to which the rolling element bearing object) to be monitored is connected, aslong as the specified speed relates to the motor shaft and the shafts are connected viaa gear unit.
(Meas. / obj.) < 1 => increase in speed relating to the motor
(Meas. / obj.) > 1 => decrease in speed relating to the motor
7.4.16 Designation
Enter an alphanumeric designation for the diagnosis object to be monitored.
The frequency factor (subobject) divided by the gear transmission ratio (quotient ofmeas. / obj.) must not exceed the value 50.
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7.4.17 Damage frequencies
Enter the damage frequencies (subobjects) that are to be assigned to a particular typeof machine damage (object).
A maximum of 20 individual frequencies can be defined using the DUV10A diagnosticunit. These frequencies can be assigned to a maximum of 5 diagnosis objects.
The characteristic data for the object is calculated using the total of the individual ampli-tudes at a given frequency.
The frequencies are described using the so called fundamental frequency analysis.Hereby, the required frequency from a fundamental frequency is multiplied by the cur-rent rotational frequency.
The fundamental frequency is a multiplication of the rotational frequency. The damagefrequency is calculated as follows:
Damage frequency = fundamental frequency x rotational frequency
Example: Fundamental frequency = 6.23, rotational frequency = 50 Hz => damagefrequency = 311.5 Hz
The fundamental frequency always relates to the corresponding frequency of thedefined error object. If different speeds are used between the objects, the correspondinggear reduction has to be taken into account.
7.4.18 Frequency window
The frequency window specifies the relative search range in the frequency spectrum foreach damage frequency. The frequency window is positioned above and below themonitored frequency. The frequency window is used to compensate for inaccuracies inthe description of the frequency location (tolerance corridor).
The input values are relative in percent.
The frequency window setting applies to all set objects, as the maximum search rangeof the individual diagnosis objects comes into effect.
Example:
Frequency window = 5 %; damage frequency = 311.5 Hz corresponds to spectral line249.
Search range = Spectral lines 237 to 261 correspond to 296.25 Hz to 326.25 Hz
Minimum value range 0.1 %
Maximum value range 20 %
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7.4.19 Limit values - diagnosis objects
The software for the diagnostic unit uses different limit values for early warning (yellow)and main alarm (red) for all defined spectral diagnosis objects. The limit values of thediagnosis objects are always based on the set teach-in value and describe a signal fan-out. "Green" always corresponds to 100 %.
Value range for early warning: 2; 3; 4;...; 20 (in whole numbers) corresponds to: 200 %;300 %; etc. Value range for the main alarm: 6; 7; 8;.....; 99 (in whole numbers that al-ways have to be 4 more than the set yellow value to achieve whole intermediate valuesfor the yellow LEDs).
To compensate differences caused by the trigger level for different speeds during vari-able-speed operation, the diagnostic value is weighted according to the "Weighted sig-nal" curve. Individual weighted curves are defined for each diagnosis object.
If the diagnosis type "Rolling element bearing" is selected, the limit values and weightedcurves are set automatically.
7.4.20 Transmission characteristics
The transmission factor measures the mechanical transmission of peak pulsesequences relating to rolling element bearing damage.
The transmission factor can be tested using a mechanical impulse test when the sensoris connected. The sensor must be mounted correctly in the designated location and theimpulse must be provided as close to the bearing to be monitored as possible.
The transmission factor can also be entered manually offline. The unit is mg/N, i.e.acceleration per force.
If the sensor is mounted directly on the bearing seat, you do not have to perform theimpulse test. The manual input value is typically 10 mg/N.
58669AXX
[1] Teach-in = 100 %
[2] Main alarm
[3] Early warning
[1]
[2]
[3]
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7.4.21 Signal weighting
For variable speed monitoring, it is possible to correct the variables independent of thespeed. The values displayed indicate how the variables of constant damage changewith speed. The change is taken into account during the evaluation and calculation inthe sensor.
The teach value and the measured value are weighted using the signal weighting table.The teach value is weighted using the specified teach-in speed, and the measured valueusing the measured speed. You must keep to the teach-in speed during the teach-in run.
You can either use predefined curves or create and load your own. If you use the diag-nosis type "Rolling element bearing damage" when setting parameters, preconfiguredsettings are loaded. These can be changed as required.
Also indicated is the extent to which the teach-in value is adjusted in the signal-weighteddiagram shown in the "Subobjects" and "Objects" modes. (D = (c / b) x 100 %)
The following formula applies:
11302AEN
Damage level (or limit value) =
Measured value in mg / signal weighting at measured speed (a)
Teach-in value in mg / signal weighting at teach-in speed (b)
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Determine the damage level (300 mg at 5,000 rpm, teach-in 65 mg), taking the signalweighting into account:
The required teach value can also be determined in order to exceed the yellow limitvalue (4) for given values (300 mg at 5,000 rpm)
Solved according to X (teach-in value)
X = 66.5 mg
7.4.22 Conflict check
The purpose of the conflict check is to ensure that the monitoring parameters arecomplete and compatible.
X =300 mg / 97 %
65 mg / 86 %
4 =300 mg / 97 %
X mg / 86 %
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7.5 Rolling element bearing database
The most common rolling element bearings from a range of manufacturers are stored inthe bearing database. They can be defined by entering a brief description of the bearing.The bearings listed in the user-defined bearing database can be included in the searchand displayed ([Extras] / [Settings] / [Rolling element database] / [Search]). The letter"E" is added to the manufacturer’s designation.
Short description (=DIN)
Each standard rolling element bearing has a short description according to DIN 623 withwhich it can be uniquely assigned to a specific bearing group. Furthermore, geometricdata can also be identified from this designation.
The ball pass frequencies are also described.
Suffixes and prefixes do not usually have any influence on the ball pass frequencies.Only the suffix "E" usually indicates a reduced number of rolling elements and is there-fore relevant to the ball pass frequencies.
There are only marginal differences between the manufacturers. Bearing designationswith more than 5 digits are special designs. In this case, you should consult the manu-facturers’ databases.
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7.5.1 Bearing designations
The last 2 digits multiplied by 5 define the inner diameter of the bearing.
Example
Bearing 6(0)212:
Inner diameters = 12 x 5 = 60 mm
X X X X X
Bearing size
Dimension series
Bearing series
1 Self-aligning ball bearing
2 Spherical roller bearing and axial spherical roller bearing
3 Tapered roller bearing
4 Double-row deep-groove ball bearing
5 Axial deep-groove ball bearing
6 Single-row grooved ball bearing
7 Single-row angular contact ball bearing
N Cylindrical roller bearing
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7.5.2 Creating rolling element bearings
As an alternative to using the rolling element bearing database, the ball pass frequen-cies can be input manually by entering the fundamental frequencies (= multiplier withrotational frequency) for the inner ring, outer ring and rolling element bearing in the inputscreen.
If you know the bearing geometry, you can use the bearing calculator to calculate thefrequency factors.
The bearing data can be stored in the user-defined database. The bearings in the user-defined data base are taken into account and displayed when using the rolling elementdatabase (An "E" is added to the manufacturers’ designation).
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7.5.3 Database settings
To optimize the search speed and to avoid double entries in the search results, thesearch function in the rolling element database can be limited to search the databaseprovided on the CD or to search the user-defined database.
The path for the user-defined database can be entered again in order to reintegratepreviously stored bearing databases or to include new bearing databases.
7.5.4 Impulse test
The impulse test measures the signal transmission from the object to be measured tothe installation location of the sensor. This test determines the suitability of the installa-tion location ([Signal path] / [Mounting test]). Furthermore, limit value parameters can beset automatically ([Signal path] / [Diagnosis object]).
The impulse test is triggered using the start button. Before a pulse is emitted, the back-ground noise of the machines is measured.
Next, a pulse is input at the relevant bearing seat using the impulse tester (part number14066335), and three pulse responses are measured at the designated installationlocation.
The results of the impulse test are only valid if there is sufficient distance between thebackground noises and the test results, and the value deviations do not exceed 40 %.
If the background noises are too strong, we recommend repeating the measurementswhen the machine is not in operation.
A minimum result of 5 mg/N is required to reliably monitor rolling element bearings.
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7.6 Monitoring
7.6.1 Spectrum monitoring
Considers the linear spectra, the raw time signal and the envelope-modulated timesignal. The amplitudes are given in „mg-peak“. The total frequency range is displayed in7 different areas.
Furthermore, maximum and minimum acceleration, as well as the weighted average ofthe acceleration per time interval are displayed. A spectrum is calculated every 8seconds, which corresponds to a spectral resolution of 0.125 Hz. Windowing takesplace via a Hanning window.
Switching the display from H-FFT to FFT. The cursors refer to the damage frequenciesconfigured in the sensor. If you want to alter these values, the settings in the sensormust be changed. In the program settings you can choose whether the frequency rangefor the corresponding damage frequency should be displayed.
Use the right mouse button to choose from acceleration (mg), (mm/s) velocity or vibra-tion displacement (µm). In the same way, amplitude values can be displayed as peak(basic setting, calculation basis in the sensor) or RMS. To zoom into the diagram, drawa rectangle by keeping the left mouse button pressed and moving the mouse from topleft to bottom right. To zoom out, use the context menu (right mouse button).
The averages (1, 2, 4, 8, 16, 32) can also be simulated using the context menu.
Furthermore, maximum and minimum acceleration, as well as the weighted average ofthe acceleration per time interval are displayed.
7.6.2 Subobjects
In the subobject mode, the damage-relevant frequency groups are displayed with theamplitudes and found frequencies per object. The spectral evaluation can be performedusing either the raw signal or the modulated envelope time signal. The settings in thesensor are valid. If you want to change the analysis method, you must adjust the sensorparameters accordingly. New values are calculated every 8 seconds.
The diagram represents a frequency factor analysis. Furthermore, maximum and mini-mum acceleration, as well as the weighted average of the acceleration per time intervalare displayed.
You can use the right mouse button to choose from acceleration (mg), velocity (mm/s)or vibration displacement (µm). It is also possible to include or exclude the signal weight-ing of the subobjects.
The averages (1, 2, 4, 8, 16, 32) can also be simulated using the context menu.
In the spectral mode, the function to monitor diagnosis objects is deactivated, whichmeans switching outputs cannot be switched. Do not interrupt the cable connectionbetween the sensor and PC in spectral mode, as otherwise the sensor would remain inthe spectral mode and monitoring would not be possible.
MU
Manual – DUV10A Diagnostic Unit
7MonitoringUnit Functions
7.6.3 Object mode
The weighted and average characteristic values are displayed for each object in theobject mode. The reference values from the teach-in are shown in the form of "blue bars"as long as a teach-in run has been performed beforehand.
The evaluation can be performed using either the raw signal or the modulated envelopetime signal. The settings in the sensor are valid. If you want to change the analysismethod, you must adjust the sensor parameters accordingly. As soon as new valueshave been calculated (according to the number of set averages), a new value is dis-played (see the section "Averages" page 43).
The object values can be displayed with or without weighting (make the selection usingthe right mouse button).
7.6.4 Diagnosis value
The weighted and average characteristic values are displayed for each object in thecondition mode or diagnosis value mode. The teach-in values are the reference values.
The evaluation can be performed using either the raw signal or the modulated envelopetime signal. The settings in the sensor are valid. If you want to change the analysismethod, you must adjust the sensor parameters accordingly. As soon as new valueshave been calculated (according to the number of set averages), a new value isdisplayed (see the section "Averages" page 43).
The limit values shown correspond with the set limit values in the sensor and correlatewith the LED display on the sensor.
If different averages have been set for the level monitor and diagnosis objects, the datafrom the level and diagnosis objects according to the number of averages, which are setfor the diagnosis objects, are displayed anew. The set parameters are valid formonitoring.
7.6.5 Recording data
According to the diagnosis depth (spectrum-subobjects-objects-diagnosis value), thecorresponding data can be stored continually (data streaming) and then displayedagain. This means that the DUV10A diagnostic unit can also be used as a measuringdevice.
To record or play a measurement, first open the file. The file has to be created beforeyou can record any data. The data can be recorded or visualized using the functionsdata recording or play.
11303AXX
Manual – DUV10A Diagnostic Unit
6162
7 niversal assignmentnit Functions
7.7 Universal assignment
If no data is available for the bearings when you set the parameters for the DUV10Adiagnostic unit, in addition to the level / peak monitor, you can also configure a universalassignment, which monitors a specified frequency field using the broadband frequency.
The 20 individual frequencies of the subobjects are assigned center frequencies of aselected logarithmic frequency series and a frequency range of 10 %. The frequencyseries can be structured as follows:
The example is recommended for a velocity of 25 Hz (= 1500 upm). Monitoring will takeplace in the frequency field between 4.5 Hz and 250 Hz. Selecting a frequency range of10 % corresponds to setting a classification with approximately 4 bands per octave.
The following basic settings are required:
Number Center frequency (Hz) Fundamental frequency
1 5.02 0.2
2 6.14 0.25
3 7.5 0.3
4 9.17 0.37
5 11.2 0.45
6 13.69 0.55
7 16.73 0.67
8 20.45 0.82
9 25 1
10 30.55 1.22
11 37.34 1.49
12 45.64 1.83
13 55.78 2.23
14 68.18 2.73
15 83.33 3.33
16 101.85 4.07
17 124.48 4.98
18 152.14 6.09
19 185.95 7.44
20 227.27 9.09
Speed Constant or variable
Basic ratio 1/1
Diagnosis object type Other
Analysis method H-FFT
Subobjects Frequency factors from the table above
Required frequency range 10 %
Limit values • Yellow: 6• Red: 10
UU
Manual – DUV10A Diagnostic Unit
7HistoryUnit Functions
Once you have entered the frequency factor and a short designation, create the subob-ject by selecting [Add]. Once you have entered 5 subobjects, you must create anotherobject. The DUV10A diagnostic unit now indicates when the vibration amplitudes in oneof the created frequency bands increases by the set limit values.
7.8 History
To activate and configure the history memory, choose [Sensor] / [Sensor settings]. Todo so, select the [Activate history] check box and enter a value between 1 second and12 hours in the [Interval] field. Click [Accept] to start the history memory.
After a preset period has elapsed, the sensor continues to store the highest object valuemeasured per diagnosis object, together with the corresponding speed (with variable-speed operation), in internal memory modules. The list of the history data can be readout of the sensor using the function [History] / [Read history from sensor] or by clickingthe icon .
The display can be extended to show more values. To do so, select the correspondingcheck box in the lower section of the screen. The corresponding speeds taken at differ-ent points can also be shown (dotted line, right scaling axis).
The history data also includes the read-out time. The data can be stored as a CSV fileor XML file by selecting the icon or the following menu path: [History] / [Save/Histo-ry]. The history data can also be opened again from the file using the icon or via thefollowing menu path: [History] / [Open.../History].
11456AEN
Manual – DUV10A Diagnostic Unit
6364
7 ED codenit Functions
7.9 LED code
58333AEN
O.K. CHECK REACT
O.K. CHECK REACT
O.K. CHECK REACT
O.K. CHECK REACT
O.K. CHECK REACT
O.K. CHECK REACT
O.K. CHECK REACT
Connected to voltage
Damage progression
Object has exceeded red imit
Level has exceeded red limit
Object has exceeded yellow limit
Sensor ready
Teach-in
Flashes (1 s on, 1 s off)
O.K. CHECK REACT
FFT transfer (to PC)
Flashes (1 s on, 0,1 s off)
NEXT
Early warning
Diagnosis
Hold down briefly
flashes
LU
Manual – DUV10A Diagnostic Unit
7Data stringUnit Functions
7.10 Data string
After each measurement, the DUV10A diagnostic unit outputs a data string via theRS-232 interface.
This data can be evaluated separately to create a progression.
7.10.1 Data string structure table
Position Variable To determine
1 Px Peak max
2 Pn Peak min
3 Mw Mean value
4 EMw Mean value
5 A1 Diagnosis object 1
6 A2 Diagnosis object 2
7 – –
8 – –
9 A5 Diagnosis object 5
10 E1 Diagnosis object 1
11 E2 Diagnosis object 2
12 – –
13 – –
14 E5 Diagnosis object 5
15 M Averages
16 N Speed
17 T1 Teach value (diagnosis object 1)
18 T2 Teach value (diagnosis object 2)
19 – –
20 – –
21 T5 Teach value (diagnosis object 5)
22 ET1 Teach value (diagnosis object 1)
23 ET2 Teach value (diagnosis object 2)
26 ET5 Teach value (diagnosis object 5)
27 K1 Weighting (diagnosis object 1)
28 K2 Weighting (diagnosis object 2)
29 – –
30 – –
31 K5 Weighting (diagnosis object 5)
32 E Dummy
33 E Dummy
34 KT1 Weighting (teach value diagnosis object 1)
35 KT2 Weighting (teach value diagnosis object 2)
36 – –
37 – –
38 KT5 Weighting (teach value diagnosis object 5)
39 NT Speed characteristics
Manual – DUV10A Diagnostic Unit
6566
7 ata stringnit Functions
7.10.2 Data string conversion
Speed = N × 1.5 rpm
Peak max = Px × 1.99 mg
Peak min = Pn × 1.99 mg
Mean value = ((Mw × (2^EMw)) / 15500) × 1.407 mg
Number of averages = M + 1
Speed characteris-tics:
NT = 1 → constant
NT = 2 → variable (pulse counter)
NT = 3 → variable (current loop)
Diagnosis object
Subobject total
Non-weighted Weighted
1 (A1 × 2^E1) / (8,625 × (M + 1)) mg Subobject total × (K1 / 65535) mg
2 (A2 × 2^E1) / (8,625 × (M + 1)) mg Subobject total × (K2 / 65535) mg
3 – –
4 – –
5 (A2 × 2^E1) / (8,625 × (M + 1)) mg Subobject total × (K5 / 65535) mg
Diagnosis object
Teach value
Non-weighted Weighted
1 (T1 × 2^[ET1 – 5]) / 8,625 mg Teach value × (KT1 / 65535) mg
2 (T2 × 2^[ET2 – 5]) / 8,625 mg Teach value × (KT2 / 65535) mg
3 – –
4 – –
5 (T5 × 2^[ET5 – 5]) / 8,625 mg Teach value × (KT5 / 65535) mg
Weighting values (K1 – K5; KSchw; KSt; KT1 – KT5) are interpreted was integers with-out a positive or negative sign (0 – 65535).
DU
Manual – DUV10A Diagnostic Unit
7Data stringUnit Functions
Example To give a better overview, the characters sent and received are shown as ASCII char-acters. Characters that cannot be represented are given in hexadecimal figures h in curlybrackets.
‚StartP{00h}Zÿ÷wA{00h}{05h}{00h}Q{00h}/...{00h}{00h}{00h}{00h}{00h}{00h}...{00h}{00h}{00h}{00h}{02h}T{00h}{09h}{00h}{09h}...{00h}{00h}{00h}{05h}{00h}{05h}...{00h}{02h}ò¹ÿÿ...{00h}{00h}ÿÿÿÿê{0Dh}ÿÿ...{00h}{01h}{00h}{01h}StopPe'
16-bit digit Variable Value Formula Result
{00h} Z Px 90 90 × 1.990049751 179.10 mg
ÿ ÷ Pn –9 –9 × 1.990049751 –17.91 mg
w A Mw 30529 – –
{00h} {05h} EMw 5 ((30529 (2^5)) / 15500 1.406965173957 88.68 mg
{00h} Q A1 81 – –
{00h} / A2 47 – –
{00h} {00h} A5 0 – –
{00h} {00h} E1 0 (81 × 2^0) / (8.625 × 1) 9.39 mg
{00h} {00h} E2 0 (47 × 2^0) / (8.625 × 1) 5.45 mg
{00h} {00h} E5 0 (0 × 2^0) / (8.625 × 1) 0 mg
{00h} {00h} M 0 0 + 1 1
{02h} T N 596 596 × 1.5 894 rpm
{00h} {09h} T1 9 – –
{00h} {09h} T2 9 – –
{00h} {00h} T5 0 – –
{00h} {05h} ET1 5 (9 × 2^(5 – 5)) / 8.625 1.04 mg
{00h} {05h} ET2 5 (9 × 2^(5 – 5)) / 8.625 1.04 mg
{00h} {02h} ET5 2 (9 × 2^(2 – 5)) / 8.625 0. mg
ò ¹ K1 62137 (81 × 2^0) / 8.625 × (62137 / 65535) 8.90 mg
ÿ ÿ K2 65535 (47 × 2^0) / 8.625 × (62137 / 65535) 5.45 mg
{00h} {00h} K5 0 (0 × 2^0) / 8.625 × (0 / 65535) 0 mg
ÿ ÿ E 65535 – –
ÿ ÿ E 65535 – –
ê {0Dh} KT1 59917 (9 × 2^(5 – 5)) / 8.625 × (59917 / 65535) 0.95 mg
ÿ ÿ KT2 65535 (9 × 2^(5 – 5)) / 8.625 × (65535 / 65535) 8.90 mg
{00h} {01h} KT5 1 (9 × 2^(2 – 5)) / 8.625 × (1 / 65535) 0 mg
{00h} {01h} NT 1 – Constant
Manual – DUV10A Diagnostic Unit
6768
8 eneral technical dataechnical Data
8 Technical Data8.1 General technical data
Technical Data Value
Measuring range ± 20 g
Frequency range 0.125 ... 500 Hz
Spectral resolution 0.125 Hz
Diagnostic processes FFT, envelope-FFT, trend analysis
Minimum measuring period 8.0 s
Speed range 12 ... 3500 rpm
Operating voltage 10 ... 32 V
Current consumption for DC 24 V 100 mA
Enclosure III
EMW IEC 1000-4-2/3/4/6
Overload capacity 100 g
Temperature range –30 ... +60 °C
Enclosure IP67
Housing materials • Zinc die casting• Coating based on epoxy finish• Polyester membrane keypad
Electrical connection for supply and switching output
M12 plug connector
Electrical connection for RS-323 communication
M8 plug connector
GT
Pi
fkVA
Hz
n
Manual – DUV10A Diagnostic Unit
8Dimension drawingTechnical Data
8.2 Dimension drawing
58351AXX
[1] Programming keys
[2] LEDs
36
M8x
1
10
37,6
∅ 5,3
5
∅ 4
6
20 M5∅5,3
[1]
[1]
[2]
46,4
58,2
M12
x1
14
Manual – DUV10A Diagnostic Unit
Pi
fkVA
Hz
n
69
70
9 exiconppendix
9 Appendix9.1 Lexicon
Term Explanation
Spectral line The calculated frequency spectrum comprises discrete frequency lines, the so called spectral lines. The DUV10A diagnostic unit has a standard frequency resolution of 0.125 Hz in the spectrum. The distance between the spectral lines is 0.125 Hz.
Net mode 1 Parameters of the Com interface: 57600 baud, 8 data bits, 1 start bit, 1 stop bit, no parity.The data string to be received is limited by a start string and a stop string (StartP and StopPe).The data string is divided into 39 16-bit integer numbers (with sign).Each integer number has a parameter value or measured value. Using the formulas and constants listed in the data string structure table, the expected values can be determined on the basis of the parameters val-ues and measured values.
LA
Manual – DUV10A Diagnostic Unit
9Dimension sheets for installation locations on the driveAppendix
9.2 Dimension sheets for installation locations on the drive
9.2.1 Positions of the installation locations on the gear units F, FA 27 ... FA 157
58580AXX
ba F37-157 F27
hd
c
k
g l
f
i em
d
c
M1,M2,M3,M4,M5,M6
DUV10A
M1,M3,M4,M5,M6
DUV10A
M1,M3,M4,M5,M6
DUV10A
M1,M2,M4,M5
DUV10A
M1,M2,M3,M4,M6
DUV10A
Type a b c d e f g h i k l m Screw plug bore
F / FF / FA / FAF 27 – – 57 25 – – – – – – – M10 x 1
F / FF / FA / FAF 37 20 20 60 61 6 66 25 63 6 66 66 61 M10 x 1
F / FF / FA / FAF 47 22 20 61 43 20 70 39.5 74 20 70 70 70 M10 x 1
F / FF / FA / FAF 57 25 25 70 93 30 78.5 29 95 30 78.5 78.5 80 M10 x 1
F / FF / FA / FAF 67 26 30 78 106 32 83 40 100 32 83 83 90 M10 x 1
F / FF / FA / FAF 77 30 40 92.5 136 30 100 43.5 122 35 110 110 106.5 M12 x 1.5
F / FF / FA / FAF 87 36 45 120 170 60 115 40 130.5 60 136 139 148 M12 x 1.5
F / FF / FA / FAF 97 45 45 135 175 65 150 63 155 70 160 165 170 M22 x 1.5
F / FF / FA / FAF 107 45 60 155 215 60 165 55 165 55 188 188 195 M22 x 1.5
F / FF / FA / FAF 127 50 70 190 235 60 195 75 202 60 210 210 230 M33 x 2
F / FF / FA / FAF 157 60 110 215 290 75 265 65 257 75 265 265 250 M42 x 2
Manual – DUV10A Diagnostic Unit
7172
9 imension sheets for installation locations on the driveppendix
9.2.2 Positions of the installation locations on the gear units K, KA 37 ... K 157
58581AXX
b
a
c
ef
ih
g
l
k
n
M2,M3,M4,M6
DUV10A
M1,M3,M4,M5,M6
DUV10A
K37-157KH/KA/KV47B-107B
KA/KF/KAF/KAZ/KHF/KHZ127-157KH127-157
M1,M3,M4,M5,M6
DUV10A
M2,M3,M4,M5
DUV10A
M1,M2,M4,M5,M6
DUV10A
M1,M2,M4,M5,M6
DUV10A
Type a b c e f g h i k l m n Screw plug bore
K / KF / KA / KAF 37 35 80 48 46 84 117 5 37 15 –46 46 15 M10 x 1
K / KF / KA / KAF 47 42 – 42 55 95 139 – 42 18.5 –47 47 18.5 M10 x 1
K / KF / KA / KAF 57 38 111 49 65 115 145 5 51 23.5 –21 56 15 M10 x 1
K / KF / KA / KAF 67 41 117 56 66 122 152 4 62 22 –20 69 22 M10 x 1
K / KF / KA / KAF 77 50 156 50 84 158 171 2 74 23.5 9 86 23.5 M12 x 1.5
K / KF / KA / KAF 87 63 178.5 62 102.5 188 224 7 90 23.5 17 103 23.5 M12 x 1.5
K / KF / KA / KAF 97 116 225 85 116 235 238 5 114 47 12 123 47 M22 x 1.5
K / KF / KA / KAF 107 123 268 85 153 285 290 10 146 46.5 38 157 46.5 M22 x 1.5
K / KF / KA / KAF 127 144 319 105 172 332 335 –15 164 61 40 178 61 M33 x 2
K / KF / KA / KAF 157 207 380 123 192 400 368 –7 200 50 44 214 50 M42 x 2
DA
Manual – DUV10A Diagnostic Unit
9Dimension sheets for installation locations on the driveAppendix
9.2.3 Positions of the installation locations on the gear units K, KH 167 and KH 187
58579AXX
a
c
b
e
k n
f
M1,M2,M3,M4,M5,M6
DUV10A
M1,M2,M3,M4,M5
DUV10A
M1,M2,M3,M4,M6
DUV10A
M1,M2,M3,M4,M5,M6
DUV10A
Type a b c e f k n Screw plug bore
K / KH 167 286 159 456 120 454 50 50 M42 x 2
K / KH 187 345 180 527.5 135 550 65 65 M42 x 2
Manual – DUV10A Diagnostic Unit
7374
9 imension sheets for installation locations on the driveppendix
9.2.4 Positions of the installation locations on the gear units R 07 ... R 167
58578AXX
a
b
h
g
f
d
e
c
i
k
n
o
R37 - R167
M1,M2,M3,M4,M5,M6
DUV10A
M1,M2,M3,M4,M5
DUV10A
M3,M4,M5,M6
DUV10A
M1,M2,M3,M4,M5,M6
DUV10A
M1,M2,M4,M5,M6
DUV10A
M1,M2,M3,M4,M5,M6
DUV10A
m
Type a b c d e f g h i k m n o p Screw plug bore
R 07 – – – – – – – – 48 – – 87.5 – –16.6 M10 x 1
R 17 – – – – – – 40 101 58 – – 111 – 19 M10 x 1
R 27 – – – – – – 40 116 75 – – – – – M10 x 1
R 37 27 44 102 14 48 90 54 111 75 48 30 48 16 – M10 x 1
R 47 30 65 117 15 55.5 115 58 142 90 37 23.5 67 -23.5 – M10 x 1
R 57 31.5 63 128 18 57.5 115 66 144.5 100 44 27 81 -27 – M10 x 1
R 67 39 70 150 18.5 80 130 72 165 100 45.5 – – 0 – M10 x 1
R 77 37 66 156 19 72.5 140 81 182 115 52.5 37.5 96.5 11.5 – M12 x 1.5
R 87 42 88 197 23 92 182 97 232 140 63 47.5 110 47.5 – M12 x 1.5
R 97 65 130 240 30 115 225 115 294 160 76.5 60 132.5 60 – M22 x 1.5
R 107 70 133 265 32 128 250 130 330 185 91 65 141 40 – M22 x 1.5
R 137 84 155 321 38 157 315 150 422 220 105 54 176 72 – M22 x 1.5
R 147 97 175 383 46 179 355 185 470 260 125 70 205 75 – M33 x 2
R 167 125 206 462 53 210 425 205 560 270 150 90 240 90 – M42 x 2
DA
Manual – DUV10A Diagnostic Unit
9Dimension sheets for installation locations on the driveAppendix
9.2.5 Positions of the installation locations on the gear units RX 57 ... RX 107
58582AXX
e g
f
l
h
a
c
b di
e g
f h
c
ab d
k i
M1,M2,M3,M4,M5,M6
DUV10A
M1,M2,M3,M4,M5,M6
DUV10A
M2,M3,M4,M5,M6
DUV10A
M2,M3,M4,M5,M6
DUV10A
Type a b c d e f g h i k l Screw plug bore
RX 57 12.5 83 12.5 88 65 63.5 65 63.5 56 – 17 M10 x 1
RXF 57 12.5 99 12.5 104 65 0.5 65 0.5 40 61.5 – M10 x 1
RX 67 15 90 15 96.5 72 80.5 72 80.5 75 – 24 M10 x 1
RXF 67 15 115 15 121.5 72 0.5 72 0.5 50 70 – M10 x 1
RX 77 30 99 30 107.5 89 92 89 92 85 – 21 M12 x 1.5
RXF 77 30 124 30 132.5 89 2 89 2 60 74 – M12 x 1.5
RX 87 30 114.5 30 121.5 115 100.5 115 100.5 110 – 20 M12 x 1.5
RXF 87 30 144.5 30 151.5 115 0.5 115 0.5 80 91 – M12 x 1.5
RX 97 40 120 40 138 138 114 138 114 140 – 26 M22 x 1.5
RXF 97 40 160 40 178 138 2 138 2 100 103 – M22 x 1.5
RX 107 40 144 40 166 157 138 157 138 152 – 33 M22 x 1.5
RXF 107 40 176 40 198 157 –2 157 –2 120 112 – M22 x 1.5
Manual – DUV10A Diagnostic Unit
7576
9 imension sheets for installation locations on the driveppendix
9.2.6 Positions of the installation locations on the gear units S 37 ... S 97
58577AXX
ah
i
g
f
ah
i g
e
f
k
n
lm
S37 S47 - S97
M1,M2,M3,M4,M5,M6
DUV10A
M1,M2,M3,M4,M5,M6
DUV10A
M1,M3,M4,M5,M6
DUV10A
Type a e f g h i k l m n Screw plug bore
S 37 37 – 58 16.5 80 37 – – – – M10 x 1
S 47 16 48 83 75 100 53 15 – 26 15 M10 x 1
S 57 23 60 96 85 112 57 18.5 – 25 18.5 M10 x 1
S 67 30 74 120 105 140 84 22 4 45 22 M10 x 1
S 77 40 90 158 127 180 90 23.5 42 53 23.5 M12 x 1.5
S 87 45 109.5 196 150 225 114 28 53 67 28 M12 x 1.5
S97 66 136 245 198 280 140 45 67 68 45 M12 x 1.5
DA
Manual – DUV10A Diagnostic Unit
9Dimension sheets for installation locations on the driveAppendix
9.2.7 Positions of the installation locations on the gear units SA, SF 37 ... SF 97
58576AXX
M1,M2,M3,M4,M5,M6
DUV10A
M1,M3,M4,M5,M6
DUV10A
f
e
g
l
k
n
a
h
f
a
g
i
SF/SA37
SF47-97 SA47-97
h
m
Type a e f g h i k l m n Screw plug bore
SF / SA 37 – – 60 21.5 82 45 – – – – M10 x 1
SF / SA 47 16 83 48 75 100 – 15 – 26 15 M10 x 1
SF / SA 57 23 96 60 85 112 – 18.5 – 25 18.5 M10 x 1
SF / SA 67 30 120 74 105 140 – 22 4 45 22 M10 x 1
SF / SA 77 40 158 90 127 180 – 23.5 42 53 23.5 M12 x 1.5
SF / SA 87 45 196 109.5 150 225 – 28 53 67 28 M12 x 1.5
SF / SA 97 66 245 136 198 280 – 45 67 68 45 M22 x 1.5
Manual – DUV10A Diagnostic Unit
7778
9 imension sheets for installation locations on the driveppendix
9.2.8 Positions of the installation locations on AC motors DV132M ... DV225
58531AXX
DUV10A
DUV10A XBX
DUV10A
DUV10A
Type X XB
DV132M 123.5 335.5
DV132ML + DV160M 253.5 365.5
DV160L 278 434
DV180M + DV180L 314 470
DV200 342.5 497.5
DV225 383.5 538.5
DA
Manual – DUV10A Diagnostic Unit
9Dimension sheets for installation locations on the driveAppendix
9.2.9 Positions of the installation locations on AC motors DV250M ... DV280S
58532AXX
DUV10A
XBX178
DUV10A
DUV10A
178
DUV10A
Type X XB
DV250M + DV280S 321.5 506
Manual – DUV10A Diagnostic Unit
7910
80
Index
10 IndexAAppendix .............................................................70Application ..........................................................39
BBearing designations ..........................................57
CConfiguration and monitoring software
Description ....................................................17Connection
electrical .......................................................21Wiring diagram .............................................21
Continuous monitoring ..........................................9Conversion, data string .......................................66Country settings ..................................................29Customer service ................................................33
DDamage progress ...............................................31Data string ...........................................................65Data string conversion ........................................66Design of the DUV10A diagnostic unit ................15Designated use .....................................................6Diagnosis object ..................................................44Dimension drawing .............................................69Dimension sheets for installation locations on the drive ....................................................................71DUV10A-S
Description ....................................................17System prerequisites ....................................17
EElectrical connection ...........................................21Evaluating the switching outputs .........................27Explanation of symbols .........................................5
FFaults ..................................................................34Functions
Application ....................................................39Data string ....................................................65Diagnosis object ...........................................44LED code ......................................................64Monitoring .....................................................60Parameters ...................................................38Rolling element bearing database ................56Sensors ........................................................35
HHardware ..............................................................9History .................................................................63
IImpulse test .................................................. 22, 59Installation ...........................................................16Installation and startup ........................................16
Before you begin .......................................... 16Procedure .................................................... 18
Installation, HMI-Builder ..................................... 17Installation, prerequisites ................................... 16
LLED
Code ............................................................ 64Lexicon ............................................................... 70Liability for defects ............................................... 6
MMaintenance ....................................................... 33Monitoring .......................................................... 60Monitoring, continuous ......................................... 9
NNameplate .......................................................... 14Notes
Safety ............................................................. 7
OOperation ..................................................... 29, 30Options ............................................................... 12
PParameter
Write to sensor ............................................. 23Parameters ......................................................... 38
Load or create a parameter file .................... 18Prerequisites for installation ............................... 16Product description .............................................. 9Program settings ................................................ 29Putting into storage .............................................. 8
RRecycling .............................................................. 6Repairs ............................................................... 34Rolling element bearing database ...................... 56
SSafety notes ......................................................... 7Scope of delivery ................................................ 12Sensor functions ................................................ 35Serial number ..................................................... 34Service ............................................................... 29Settings .............................................................. 29Shipping ............................................................... 8Speed calibration ............................................... 40Startup ................................................................ 16Switching outputs, evaluation ............................. 27System prerequisites, DUV10A-S software ....... 17
Manual – DUV10A Diagnostic Unit
10Index
TTeach-In ..............................................................25Technical data .....................................................68Theory of operation ...............................................9Tools ...................................................................16Types ..................................................................12
UUnit designation ..................................................14Universal assignment ..........................................62
WWaste disposal ......................................................6
Manual – DUV10A Diagnostic Unit 81
Address List
82
Address ListGermany
HeadquartersProductionSales
Bruchsal SEW-EURODRIVE GmbH & Co KGErnst-Blickle-Straße 42 D-76646 BruchsalP.O. BoxPostfach 3023 • D-76642 Bruchsal
Tel. +49 7251 75-0Fax +49 7251 75-1970http://[email protected]
Service Competence Center
CentralGear units / Motors
SEW-EURODRIVE GmbH & Co KGErnst-Blickle-Straße 1 D-76676 Graben-Neudorf
Tel. +49 7251 75-1710Fax +49 7251 [email protected]
CentralElectronics
SEW-EURODRIVE GmbH & Co KGErnst-Blickle-Straße 42 D-76646 Bruchsal
Tel. +49 7251 75-1780Fax +49 7251 [email protected]
North SEW-EURODRIVE GmbH & Co KGAlte Ricklinger Straße 40-42 D-30823 Garbsen (near Hannover)
Tel. +49 5137 8798-30Fax +49 5137 [email protected]
East SEW-EURODRIVE GmbH & Co KGDänkritzer Weg 1D-08393 Meerane (near Zwickau)
Tel. +49 3764 7606-0Fax +49 3764 [email protected]
South SEW-EURODRIVE GmbH & Co KGDomagkstraße 5D-85551 Kirchheim (near München)
Tel. +49 89 909552-10Fax +49 89 [email protected]
West SEW-EURODRIVE GmbH & Co KGSiemensstraße 1D-40764 Langenfeld (near Düsseldorf)
Tel. +49 2173 8507-30Fax +49 2173 [email protected]
Drive Service Hotline / 24 Hour Service +49 180 5 SEWHELP+49 180 5 7394357
Additional addresses for service in Germany provided on request!
France
ProductionSalesService
Haguenau SEW-USOCOME 48-54, route de Soufflenheim B. P. 20185F-67506 Haguenau Cedex
Tel. +33 3 88 73 67 00 Fax +33 3 88 73 66 00http://[email protected]
AssemblySalesService
Bordeaux SEW-USOCOME Parc d'activités de Magellan62, avenue de Magellan - B. P. 182F-33607 Pessac Cedex
Tel. +33 5 57 26 39 00Fax +33 5 57 26 39 09
Lyon SEW-USOCOME Parc d'Affaires RooseveltRue Jacques TatiF-69120 Vaulx en Velin
Tel. +33 4 72 15 37 00Fax +33 4 72 15 37 15
Paris SEW-USOCOME Zone industrielle 2, rue Denis Papin F-77390 Verneuil I'Etang
Tel. +33 1 64 42 40 80Fax +33 1 64 42 40 88
Additional addresses for service in France provided on request!
Algeria
Sales Alger Réducom 16, rue des Frères ZaghnounBellevue El-Harrach16200 Alger
Tel. +213 21 8222-84Fax +213 21 8222-84
Argentina
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Buenos Aires SEW EURODRIVE ARGENTINA S.A.Centro Industrial Garin, Lote 35Ruta Panamericana Km 37,51619 Garin
Tel. +54 3327 4572-84Fax +54 3327 [email protected]
Address List
Australia
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Tel. +61 3 9933-1000Fax +61 3 9933-1003http://[email protected]
Sydney SEW-EURODRIVE PTY. LTD.9, Sleigh Place, Wetherill Park New South Wales, 2164
Tel. +61 2 9725-9900Fax +61 2 [email protected]
Austria
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Wien SEW-EURODRIVE Ges.m.b.H. Richard-Strauss-Strasse 24A-1230 Wien
Tel. +43 1 617 55 00-0Fax +43 1 617 55 00-30http://[email protected]
Belgium
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Tel. +32 10 231-311Fax +32 10 231-336http://[email protected]
Brazil
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Sao Paulo SEW-EURODRIVE Brasil Ltda.Avenida Amâncio Gaiolli, 50Caixa Postal: 201-07111-970Guarulhos/SP - Cep.: 07251-250
Tel. +55 11 6489-9133Fax +55 11 6480-3328http://[email protected]
Additional addresses for service in Brazil provided on request!
Bulgaria
Sales Sofia BEVER-DRIVE GmbHBogdanovetz Str.1BG-1606 Sofia
Tel. +359 2 9151160Fax +359 2 [email protected]
Cameroon
Sales Douala Electro-ServicesRue Drouot AkwaB.P. 2024Douala
Tel. +237 4322-99Fax +237 4277-03
Canada
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Toronto SEW-EURODRIVE CO. OF CANADA LTD. 210 Walker Drive Bramalea, Ontario L6T3W1
Tel. +1 905 791-1553Fax +1 905 791-2999http://[email protected]
Vancouver SEW-EURODRIVE CO. OF CANADA LTD.7188 Honeyman Street Delta. B.C. V4G 1 E2
Tel. +1 604 946-5535Fax +1 604 [email protected]
Montreal SEW-EURODRIVE CO. OF CANADA LTD.2555 Rue Leger Street LaSalle, Quebec H8N 2V9
Tel. +1 514 367-1124Fax +1 514 [email protected]
Additional addresses for service in Canada provided on request!
Chile
AssemblySalesService
Santiago de Chile
SEW-EURODRIVE CHILE LTDA.Las Encinas 1295Parque Industrial Valle GrandeLAMPARCH-Santiago de ChileP.O. BoxCasilla 23 Correo Quilicura - Santiago - Chile
Tel. +56 2 75770-00Fax +56 2 [email protected]
China
ProductionAssemblySalesService
Tianjin SEW-EURODRIVE (Tianjin) Co., Ltd.No. 46, 7th Avenue, TEDA Tianjin 300457
Tel. +86 22 25322612Fax +86 22 [email protected]://www.sew.com.cn
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Address List
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AssemblySalesService
Suzhou SEW-EURODRIVE (Suzhou) Co., Ltd.333, Suhong Middle RoadSuzhou Industrial ParkJiangsu Province, 215021P. R. China
Tel. +86 512 62581781Fax +86 512 [email protected]
Additional addresses for service in China provided on request!
Colombia
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Bogotá SEW-EURODRIVE COLOMBIA LTDA. Calle 22 No. 132-60Bodega 6, Manzana BSantafé de Bogotá
Tel. +57 1 54750-50Fax +57 1 54750-44http://[email protected]
Croatia
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Zagreb KOMPEKS d. o. o.PIT Erdödy 4 IIHR 10 000 Zagreb
Tel. +385 1 4613-158Fax +385 1 [email protected]
Czech Republic
Sales Praha SEW-EURODRIVE CZ S.R.O.Business Centrum Praha Luná 591CZ-16000 Praha 6 - Vokovice
Tel. +420 a220121236Fax +420 220121237http://[email protected]
Denmark
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Tel. +45 43 9585-00Fax +45 43 9585-09http://[email protected]
Estonia
Sales Tallin ALAS-KUUL ASMustamäe tee 24EE-10620Tallin
Tel. +372 6593230Fax +372 [email protected]
Finland
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Lahti SEW-EURODRIVE OYVesimäentie 4FIN-15860 Hollola 2
Tel. +358 201 589-300Fax +358 3 780-6211http://[email protected]
Gabon
Sales Libreville Electro-ServicesB.P. 1889Libreville
Tel. +241 7340-11Fax +241 7340-12
Great Britain
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Normanton SEW-EURODRIVE Ltd.Beckbridge Industrial Estate P.O. Box No.1GB-Normanton, West- Yorkshire WF6 1QR
Tel. +44 1924 893-855Fax +44 1924 893-702http://[email protected]
Greece
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Athen Christ. Boznos & Son S.A.12, Mavromichali StreetP.O. Box 80136, GR-18545 Piraeus
Tel. +30 2 1042 251-34 Fax +30 2 1042 251-59http://[email protected]
Hong Kong
AssemblySalesService
Hong Kong SEW-EURODRIVE LTD.Unit No. 801-806, 8th FloorHong Leong Industrial ComplexNo. 4, Wang Kwong Road Kowloon, Hong Kong
Tel. +852 2 7960477 + 79604654Fax +852 2 [email protected]
China
Address List
Hungary
SalesService
Budapest SEW-EURODRIVE Kft.H-1037 BudapestKunigunda u. 18
Tel. +36 1 437 06-58Fax +36 1 437 [email protected]
India
AssemblySalesService
Baroda SEW-EURODRIVE India Pvt. Ltd.Plot No. 4, GidcPor Ramangamdi • Baroda - 391 243Gujarat
Tel. +91 265 2831086Fax +91 265 2831087http://[email protected]
Technical Offices Bangalore SEW-EURODRIVE India Private Limited308, Prestige Centre Point7, Edward RoadBangalore
Tel. +91 80 22266565Fax +91 80 [email protected]
Ireland
SalesService
Dublin Alperton Engineering Ltd. 48 Moyle RoadDublin Industrial EstateGlasnevin, Dublin 11
Tel. +353 1 830-6277Fax +353 1 830-6458
Israel
Sales Tel-Aviv Liraz Handasa Ltd. Ahofer Str 34B / 22858858 Holon
Tel. +972 3 5599511Fax +972 3 [email protected]
Italy
AssemblySalesService
Milano SEW-EURODRIVE di R. Blickle & Co.s.a.s.Via Bernini,14 I-20020 Solaro (Milano)
Tel. +39 02 96 9801Fax +39 02 96 799781http://[email protected]
Ivory Coast
Sales Abidjan SICASte industrielle et commerciale pour l'Afrique165, Bld de MarseilleB.P. 2323, Abidjan 08
Tel. +225 2579-44Fax +225 2584-36
Japan
AssemblySalesService
Toyoda-cho SEW-EURODRIVE JAPAN CO., LTD 250-1, Shimoman-no,IwataShizuoka 438-0818
Tel. +81 538 373811Fax +81 538 [email protected]
Korea
AssemblySalesService
Ansan-City SEW-EURODRIVE KOREA CO., LTD. B 601-4, Banweol Industrial Estate Unit 1048-4, Shingil-DongAnsan 425-120
Tel. +82 31 492-8051Fax +82 31 492-8056http://[email protected]
Latvia
Sales Riga SIA Alas-KuulKatlakalna 11CLV-1073 Riga
Tel. +371 7139253Fax +371 7139386http://[email protected]
Lebanon
Sales Beirut Gabriel Acar & Fils sarlB. P. 80484Bourj Hammoud, Beirut
Tel. +961 1 4947-86 +961 1 4982-72+961 3 2745-39Fax +961 1 4949-71 [email protected]
85
ddress List
86
Lithuania
Sales Alytus UAB IrsevaNaujoji 19LT-62175 Alytus
Tel. +370 315 79204Fax +370 315 [email protected]://www.sew-eurodrive.lt
Luxembourg
AssemblySalesService
Brüssel CARON-VECTOR S.A.Avenue Eiffel 5B-1300 Wavre
Tel. +32 10 231-311Fax +32 10 231-336http://[email protected]
Macedonia
Sales Skopje SGS-Skopje / Macedonia"Teodosij Sinactaski" 6691000 Skopje / Macedonia
Tel. +389 2 385 466Fax +389 2 384 [email protected]
Malaysia
AssemblySalesService
Johore SEW-EURODRIVE SDN BHD No. 95, Jalan Seroja 39, Taman Johor Jaya81000 Johor Bahru, JohorWest Malaysia
Tel. +60 7 3549409Fax +60 7 [email protected]
Mexico
AssemblySalesService
Queretaro SEW-EURODRIVE, Sales and Distribution, S. A. de C. V.Privada Tequisquiapan No. 102Parque Ind. Queretaro C. P. 76220Queretaro, Mexico
Tel. +52 442 1030-300Fax +52 442 1030-301http://[email protected]
Morocco
Sales Casablanca Afit5, rue Emir AbdelkaderMA 20300 Casablanca
Tel. +212 22618372Fax +212 [email protected]
Netherlands
AssemblySalesService
Rotterdam VECTOR Aandrijftechniek B.V. Industrieweg 175 NL-3044 AS RotterdamPostbus 10085NL-3004 AB Rotterdam
Tel. +31 10 4463-700Fax +31 10 4155-552http://[email protected]
New Zealand
AssemblySalesService
Auckland SEW-EURODRIVE NEW ZEALAND LTD. P.O. Box 58-428 82 Greenmount driveEast Tamaki Auckland
Tel. +64 9 2745627Fax +64 9 2740165http://[email protected]
Christchurch SEW-EURODRIVE NEW ZEALAND LTD. 10 Settlers Crescent, FerrymeadChristchurch
Tel. +64 3 384-6251Fax +64 3 [email protected]
Norway
AssemblySalesService
Moss SEW-EURODRIVE A/SSolgaard skog 71N-1599 Moss
Tel. +47 69 241-020Fax +47 69 241-040http://[email protected]
Peru
AssemblySalesService
Lima SEW DEL PERU MOTORES REDUCTORES S.A.C.Los Calderos, 120-124Urbanizacion Industrial Vulcano, ATE, Lima
Tel. +51 1 3495280Fax +51 1 3493002http://[email protected]
A
Address List
Poland
AssemblySalesService
Lodz SEW-EURODRIVE Polska Sp.z.o.o.ul. Techniczna 5 PL-92-518 Lodz
Tel. +48 42 67710-90Fax +48 42 67710-99http://[email protected]
Portugal
AssemblySalesService
Coimbra SEW-EURODRIVE, LDA. Apartado 15 P-3050-901 Mealhada
Tel. +351 231 20 9670Fax +351 231 20 3685http://[email protected]
Romania
SalesService
Bucuresti Sialco Trading SRL str. Madrid nr.4 011785 Bucuresti
Tel. +40 21 230-1328Fax +40 21 230-7170 [email protected]
Russia
AssemblySalesService
St. Petersburg ZAO SEW-EURODRIVE P.O. Box 36 195220 St. Petersburg Russia
Tel. +7 812 3332522 +7 812 5357142Fax +7 812 3332523http://[email protected]
Senegal
Sales Dakar SENEMECA Mécanique GénéraleKm 8, Route de Rufisque B.P. 3251, Dakar
Tel. +221 849 47-70Fax +221 849 [email protected]
Serbia and Montenegro
Sales Beograd DIPAR d.o.o.Ustanicka 128aPC Košum, IV floorSCG-11000 Beograd
Tel. +381 11 347 3244 / +381 11 288 0393Fax +381 11 347 [email protected]
Singapore
AssemblySalesService
Singapore SEW-EURODRIVE PTE. LTD. No 9, Tuas Drive 2 Jurong Industrial Estate Singapore 638644
Tel. +65 68621701Fax +65 68612827http://[email protected]
Slovakia
Sales Bratislava SEW-Eurodrive SK s.r.o.Rybnicna 40SK-83107 Bratislava
Tel. +421 2 49595201Fax +421 2 49595200http://[email protected]
Zilina SEW-Eurodrive SK s.r.o.ul. Vojtecha Spanyola 33SK-010 01 Zilina
Tel. +421 41 700 2513Fax +421 41 700 [email protected]
Banská Bystrica SEW-Eurodrive SK s.r.o.Rudlovská cesta 85SK-97411 Banská Bystrica
Tel. +421 48 414 6564Fax +421 48 414 [email protected]
Slovenia
SalesService
Celje Pakman - Pogonska Tehnika d.o.o.UI. XIV. divizije 14SLO - 3000 Celje
Tel. +386 3 490 83-20Fax +386 3 490 [email protected]
South Africa
AssemblySalesService
Johannesburg SEW-EURODRIVE (PROPRIETARY) LIMITEDEurodrive House Cnr. Adcock Ingram and Aerodrome RoadsAeroton Ext. 2Johannesburg 2013P.O.Box 90004Bertsham 2013
Tel. +27 11 248-7000Fax +27 11 494-3104http://[email protected]
87
ddress List
88
Capetown SEW-EURODRIVE (PROPRIETARY) LIMITED Rainbow ParkCnr. Racecourse & Omuramba RoadMontague GardensCape TownP.O.Box 36556Chempet 7442 Cape Town
Tel. +27 21 552-9820Fax +27 21 552-9830Telex 576 [email protected]
Durban SEW-EURODRIVE (PROPRIETARY) LIMITED2 Monaceo PlacePinetownDurbanP.O. Box 10433, Ashwood 3605
Tel. +27 31 700-3451Fax +27 31 [email protected]
Spain
AssemblySalesService
Bilbao SEW-EURODRIVE ESPAÑA, S.L. Parque Tecnológico, Edificio, 302E-48170 Zamudio (Vizcaya)
Tel. +34 9 4431 84-70Fax +34 9 4431 84-71http://[email protected]
Sweden
AssemblySalesService
Jönköping SEW-EURODRIVE ABGnejsvägen 6-8S-55303 JönköpingBox 3100 S-55003 Jönköping
Tel. +46 36 3442-00Fax +46 36 3442-80http://[email protected]
Switzerland
AssemblySalesService
Basel Alfred lmhof A.G.Jurastrasse 10 CH-4142 Münchenstein bei Basel
Tel. +41 61 417 1717Fax +41 61 417 1700http://[email protected]
Thailand
AssemblySalesService
Chon Buri SEW-EURODRIVE (Thailand) Ltd.Bangpakong Industrial Park 2700/456, Moo.7, Tambol DonhuarohMuang DistrictChon Buri 20000
Tel. +66 38 454281Fax +66 38 [email protected]
Tunisia
Sales Tunis T. M.S. Technic Marketing Service7, rue Ibn EI Heithem Z.I. SMMT2014 Mégrine Erriadh
Tel. +216 1 4340-64 + 1 4320-29Fax +216 1 4329-76
Turkey
AssemblySalesService
Istanbul SEW-EURODRIVE Hareket Sistemleri San. ve Tic. Ltd. Sti. Bagdat Cad. Koruma Cikmazi No. 3 TR-34846 Maltepe ISTANBUL
Tel. +90 216 4419163 + 216 4419164 + 216 3838014Fax +90 216 [email protected]
Ukraine
SalesService
Dnepropetrovsk SEW-EURODRIVEStr. Rabochaja 23-B, Office 40949008 Dnepropetrovsk
Tel. +380 56 370 3211Fax +380 56 372 2078http://[email protected]
USA
ProductionAssemblySalesService
Greenville SEW-EURODRIVE INC. 1295 Old Spartanburg Highway P.O. Box 518Lyman, S.C. 29365
Tel. +1 864 439-7537Fax Sales +1 864 439-7830Fax Manuf. +1 864 439-9948Fax Ass. +1 864 439-0566Telex 805 550 http://[email protected]
South Africa
A
Address List
AssemblySalesService
San Francisco SEW-EURODRIVE INC. 30599 San Antonio St.Hayward, California 94544-7101
Tel. +1 510 487-3560Fax +1 510 [email protected]
Philadelphia/PA SEW-EURODRIVE INC. Pureland Ind. Complex 2107 High Hill Road, P.O. Box 481Bridgeport, New Jersey 08014
Tel. +1 856 467-2277Fax +1 856 [email protected]
Dayton SEW-EURODRIVE INC.2001 West Main Street Troy, Ohio 45373
Tel. +1 937 335-0036Fax +1 937 [email protected]
Dallas SEW-EURODRIVE INC.3950 Platinum Way Dallas, Texas 75237
Tel. +1 214 330-4824Fax +1 214 [email protected]
Additional addresses for service in the USA provided on request!
Venezuela
AssemblySalesService
Valencia SEW-EURODRIVE Venezuela S.A.Av. Norte Sur No. 3, Galpon 84-319Zona Industrial Municipal NorteValencia, Estado Carabobo
Tel. +58 241 832-9804Fax +58 241 838-6275http://[email protected]@cantv.net
USA
89
Manual – DUV10A Diagnostic Unit
Quick Startup
HandbuchQuick StartupStep Illustration Procedure Note
1 Define application
• What is to be monitored?• Define fault tree starting from the machine
structure.• Is the operating speed constant or vari-
able? If variable, how can information on the speed be supplied?
– Pulse detection– 0 ... 20 mA current loop
• Rolling element bearings can only be differentiated with different damage fre-quencies, otherwise they can be com-bined in one diagnosis object
• In case of fluctuations in the operating speed > 5% due to the load, we recom-mend that you detect the speed at the shaft.
2 Open or load a parameter file
• Set the parameter values in the DUV10A-S operating software using the wizard.
• Ensure correct bearing designation (or manufacturer).
• Ensure the correct nominal speed (observe number of pole pairs in case of multipole motors).
3 Installation
• Only install the DUV10A diagnositc unit on massive housing
• Mount vertical to the machine surface
• Transmission of mechanical vibrations has to be guaranteed,
• The installation location has to be suit-able for screw fixtures
• The tightening torque for the screw fix-ture is 7 Nm.
4
1: Supply +2: Switching output 2, 100 mA3: Supply –4: Switching output 1, 100 mA5: Speed (0 ... 20 mA) or impulse input
Electrical connection
• Connect the voltage supply and switching outputs and supply the speed, if required.
• The electrical connection may only be made by a specialist
• Disconnect the system before connect-ing the unit.
• The outputs are short-circtui proof.
5 Conduct impulse test
Check signal path with input test• The result of the impulse test must be
>5 mg/N.
6 Transfer parameters to sensor
• Transfer the complete parameters to the sensor via the RS-232 interface.
• Only complete parameter sets can be transferred to the sensor.
7 Teach-in
• Press the <Teach> button to measure the reference condition of the rolling element bearing vibrations.
• The subsequent diagnosis is based on this data
Prerequisites for the reference run:
• Check that the machine is not already damaged
• Nominal performance at nominal speed (take the set teach-in speed into account with variable operation)
• Teach-in values can also be entered manually.
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