IFM VSE163 handleiding
Handleiding
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Diagnostic electronics with Modbus TCP interface VSE163
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4.1 Function description
This device allows for
• vibration monitoring (total vibration to ISO)
• condition monitoring (condition-based monitoring on the basis of vibration characteristics)
• machine protection/process monitoring (monitoring vibration characteristics in real time with a very fast
response time up to 1 ms)
to be implemented.
• Monitoring of up to 24 objects (indicators for different machine parts, vibration characteristics or pro-
cess values)
• Dynamic values within the time range (e.g. v-RMS to ISO)
• Dynamic values within the frequency range FFT or HFFT (e.g. unbalance or rolling element bearing)
• Process values (analogue signals) for current value above or below the limit
The device has an internal history memory (> 850,000 values) with real-time clock and flexible memory in-
terval per object. The memory is a ring memory (FIFO).
Up to 32 counters can be configured to measure the duration of operating times and/or how long a limit
value is exceeded.
The signals at the inputs are permanently picked up and continuously monitored according to the set pa-
rameters.
With objects in the frequency range (unbalance, rolling element bearing,...), monitoring is done in multiplex
mode.
With objects in the time range (v-RMS, a-RMS and a-Peak), all 4 dynamic inputs are monitored simultane-
ously and without interruption.
The two outputs OU1/2 can be used for alarms. The respective object states per sensor are also indicated
via the 4 sensor LEDs.
The system LED displays the operating status of the device.
Parameter setting of monitoring tasks and alarming is done via the VES004 software. The software allows
to display and record the current measured values, spectra and time signals (online data).
Via the Ethernet interface of the device, networking is possible to visualise data (measured values, alarm
states,...) in other systems (e.g. SCADA, MES,....).
Data (e.g. measured values, alarm states, limits, rotational speeds, timer readings, ...) is exchanged be-
tween the diagnostic electronics and the Modbus TCP client/master (e.g. PLC) via the Modbus TCP ports.
The internal device memory (EEPROM) only allows a limited number of write accesses (max.
1,000,000).
Frequent writing will affect the lifetime of the device.
The following actions or settings have a significant impact on write accesses to the device memory (EE-
PROM):
• Each variant change leads to a write access to the EEPROM.
• Avoid frequent changes of variants as they reduce the lifetime of the device.
As long as the variant is not changed, there is no write access to the EEPROM.
• Both the number and frequency of entries in the internal memory, in particular the entries regarding
variant change and damage, result in a higher number of write accesses to the EEPROM (not every
history entry causes a write cycle).
•
• Frequent changes to the base line increase the number of write accesses to the EEPROM (not every
change to the base line causes an immediate write access).
Bekijk gratis de handleiding van IFM VSE163, stel vragen en lees de antwoorden op veelvoorkomende problemen, of gebruik onze assistent om sneller informatie in de handleiding te vinden of uitleg te krijgen over specifieke functies.
Productinformatie
| Merk | IFM |
| Model | VSE163 |
| Categorie | Niet gecategoriseerd |
| Taal | Nederlands |
| Grootte | 1654 MB |
