infra v10, v11 and v12 - academy.sigicom.com
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Manual Copyright ©Sigicom AB Art.no ML089-0311x-0En
INFRA V10, V11 and V12 Geophone
Art no. 080-03110-0,
080-03111-0 and
080-03112-0
Manual ver. I Valid for firmware version 2.2
Copyright ©Sigicom AB 1
Developed and manufactured by: Sigicom AB
Alfred Nobels Allé 214
SE – 146 48 Tullinge, Sweden
Email address for support issues: [email protected]
IMPORTANT SAFETY INSTRUCTIONS – read this before use.
US customers:
This device complies with Part 15 of the FCC Rules. Operation is
subject to the following two conditions:
(1) this device may not cause harmful interference, and
(2) this device must accept any interference received, including
interference that may cause undesired operation.
Canadian customers:
This Class B digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe B est conforme à la norme NMB-
003 du Canada.
EU customers:
This equipment complies with directives: EMC 2004/108/EC and
LVD 2006/95/EC.
2 Copyright ©Sigicom AB
Read instructions on electrical equipment waste before operating this
product.
This equipment falls under the Waste Electrical and Electronic
Equipment Directive (WEEE directive) 2002/96/EC with its last
update 2009, category 9: monitoring and control instruments:
Scrapped equipment should be sent back to the manufacturer of
the equipment (Sigicom) for proper handling according to the
WEEE directive.
Sigicom’s partner for recycling of scrapped equipment is Hans
Andersson Recycling Stockholm AB, with transport certificate
no. 562-1372-2012 (Länsstyrelsen i Stockholms län).
Copyright ©Sigicom AB 3
Table of Contents
1 Introduction .................................................................................................. 4 1.1 About this manual ......................................................................... 5 1.2 Features ......................................................................................... 6 1.3 Unpacking and parts identification ................................................ 7 2 General description ................................................................................. 8 3 Design features ....................................................................................... 9 3.1 Measurement standards ................................................................. 9 3.2 Measurement Data ......................................................................... 9 3.3 Display device ............................................................................. 12 4 Configuration and operation ................................................................. 13 4.1 Mounting ..................................................................................... 13 4.2 Parameters ................................................................................... 14 4.3 Quick Start V10 and V11 ............................................................ 22 4.4 Quick start V12 ........................................................................... 23 4.5 The LED ...................................................................................... 24 5 Consider this ......................................................................................... 25 6 Post-processing of data ......................................................................... 26 7 Maintenance and calibration ................................................................. 26 8 Accessories ........................................................................................... 27 8.1 Specific accessories: ............................................................................... 27 8.2 Other accessories: ................................................................................... 28 9 Contact and support .............................................................................. 29 Appendix A Specifications ........................................................................... 30 A.1 Reference conditions (factory calibration) ............................................. 30 A.2 Accuracy ................................................................................................ 30 A.3 Overload handling .................................................................................. 31 A.4 Power consumption ................................................................................ 31 A.5 Mechanical data ..................................................................................... 32 A.6 Approvals ............................................................................................... 32 Appendix B Glossary .................................................................................... 33 Appendix C Standards .................................................................................. 34 Appendix D Example of using a weighting standard .................................... 43 Appendix E Removed standards ................................................................... 47
4 Copyright ©Sigicom AB
1 Introduction
Welcome to INFRA V10, V11 and V12, Sigicom’s Geophones, built
for easy integration with the INFRA Field Monitoring System.
V10 measures vertically
V11 measures horizontally
V12 and V12R1 measures in all three dimensions.
V1x will be used as the common term for all geophones V10, V11 and
V12/V12R.
The figure below shows an example of the INFRA Field Monitoring
System setup:
one V12 geophone
one Air blast microphone
one Sound level meter
one Datalogger (INFRA Master, Mini or Micro) which
stores and communicates data.
Example of a setup of the INFRA Field Monitoring System
1 V12 and V12R are equivalent, except that V12R shall be mounted on the ceiling. In this
manual the term V12 refers to both V12 and V12R.
Copyright ©Sigicom AB 5
There are a large number of available sensor types, and up to 16 nodes
can be connected to one Datalogger.
Note! V12 consists of three nodes. Maximum 16 nodes can be
connected to each Datalogger, however to ensure smooth operations it
is recommended not to exceed nine nodes per Datalogger. Therefore a
maximum of three V12s may be connected per Datalogger.
INFRA Net is used to post-process and analyze all measured data. For
a comprehensive description of the INFRA Monitoring System, please
consult:
INFRA Master User manual
INFRA Datalogger Reference manual
1.1 About this manual
This manual covers the following topics:
Chapter 1 – Introduction: Overview of V1x’s measurements
capabilities and some introductory information.
Chapter2 – General description: An overview of V1x and the
INFRA Field Monitoring System.
Chapter 3 – Design features: Description of standards,
parameter settings and measurement data files.
Chapter 4 – Configuration and operation: Mounting
description, and detailed description of V1x’s standards and
parameter settings. It also includes a Quick start guide and
how periodical testing is performed.
Chapter 5 – Consider this: Important information about
different environmental aspects.
Chapter 6 – Post-processing of data: How data is transferred
and processed in the INFRA Field Monitoring System.
Chapter 7 – Maintenance and calibration: Information about
calibration interval etc.
Chapter 8 – Accessories: Lists the accessories for V1x, and
V1x-related accessories for the INFRA Field Monitoring
System.
Chapter 9 – Contact and support: Contains contact
information to Sigicom AB.
6 Copyright ©Sigicom AB
1.2 Features
INFRA V1x Geophones measure vibration level in one or three
directions. They offer the following features:
Measures up to 250 mm/s (10 in/s).
Easy wall, floor or ceiling mounting.
Full integration with INFRA Field Monitoring System that
makes it possible to combine the geophone(s) with sound
level meter and a numerous of other sensor types.
Interval and transient data are recorded in the Datalogger and
can be automatically sent to the database via GPRS.
Selectable time interval of the interval data.
A trigger level for recording a transient of up to 40 seconds
duration, plus pre-trig (the one second prior to the trigger).
Possibility in post processing to apply frequency analysis of
transients.
Numerous of measurement standards are pre-programmed
into the sensor and can be selected as needed.
A LED indicates transient recording, overload and special
settings.
Copyright ©Sigicom AB 7
1.3 Unpacking and parts identification
Your INFRA V1x Geophone has been shipped in protective
packaging. Please keep the protective packaging for shipping your
device back to Sigicom when calibration is due.
Verify the package content with the following list:
V1x Geophone.
Foam (which protects your V1x from shock during
transportation).
Calibration Document.
Immediately report any damage or omissions to Sigicom.
Keep record of your instrument’s serial number. You will be asked to
give this number in any V1x related communication you may have
with Sigicom. Note! The V12 Geophone has three serial numbers, one
for each direction.
8 Copyright ©Sigicom AB
2 General description
The V1x Geophone is a precision sensor to be integrated with INFRA
Field Monitoring System. It measures vibration level in the
dimensions:
V10 measures vertically
V11 measures horizontally
V12 measures in all three dimensions.
The V1x Geophone is to be connected to the INFRA Field Monitoring
System by any of the available INFRA Sensor Cables, which supplies
your V1x Geophone with both electrical power and all necessary
communication.
Within INFRA Field Monitoring System it is possible to measure a
number of parameters simultaneously in addition to the vibration level
measurements, for example:
noise level
air blast
dust (particle concentration)
wind speed and wind direction
rain intensity
air temperature
air humidity
atmospheric pressure
etc.
Copyright ©Sigicom AB 9
3 Design features
3.1 Measurement standards
The V1x Geophone contains a number of pre-defined measurement
standards. Each of them filters the frequency curve according to the
selected standard. The standard also decides the level range. See
section 4.2.1 for a complete list of the standards that can be selected.
3.2 Measurement Data
Interval and transient data are recorded simultaneously within your
V1x Geophone, and will be stored by your connected Datalogger in
interval files and transient files, respectively. For traceability of the
registered data, all data files have an extensive header where all
necessary meta-data is saved, for example serial number and
calibration date, selected standard, threshold level etc.
3.2.1 Interval data
Interval data is normally the maximum vibration level over each time
interval and is sent to the Datalogger which saves it in an interval file.
The interval data are filtered according to the selected standard.
Instead of taking the maximum level of the measured values, some
standards calculate RMS value before extracting the maximum.
Attached to the saved data in the interval file, there is information
about overload, invalid data and registration status changes.
10 Copyright ©Sigicom AB
3.2.2 Transient data
The V1x Geophone records transient data after a trigger event. The
trigger event happens when any of the following is valid:
The vibration level becomes larger than the threshold level
(threshold must be active).
Another sensor connected to the same Datalogger triggers.
The operator of the Datalogger triggers manually.
The transient data is anti-alias filtered, but not further filtered
digitally. Instead, it is possible to apply any of the available standards
on the recorded transient in INFRA Net. Pre-trig is always 1 second,
and recording post-trig length is adjustable between 1 and 40 seconds.
Recording limitations:
The transient memory in V1x has a length of 42 seconds. If
the recording length is set longer than 20 seconds, each
recorded transient must be transferred to the Datalogger
before a new transient can be recorded. When the recording
length is maximum 20 s, the transient memory is split into
two or more transient files. This enables more than one
transient file to be recorded, without latency, before the V1x-
memory becomes temporarily full.
Transfer capabilities to the Datalogger are set to enable long
cables and low power consumption. Approximately 0.3 - 0.6
s of vibration level data are transferred per second. This
means for example that if you have set transient files to 40
seconds, there must be at least 70 seconds between the
transients for V10 and V11, and 3.5 minutes between the
transients for V12. Otherwise cannot transients be recorded
because the memory is occupied by the previous transient
(which is being transferred to the Datalogger).
NOTE! The transfer times above is per sensor which means
that you must multiply the times with the number of sensors
connected to the same Datalogger. A solution to this
limitation is to use more than one Datalogger.
Copyright ©Sigicom AB 11
3.2.3 Frequency detection and weighting
Certain standards have a second channel of interval data containing
the frequency of the maximal vibration level during the interval time.
Which standards having this second channel are written in the table of
International standards in section 4.2. These standards may also
include a number of frequency weighting models, which re-calculates
interval data according to the weighting algorithm:
1. Detect all zero crossings in the vibration level signal
2. For each zero crossing, calculate the frequency based on the
number of samples since last zero crossing
3. Depending of weighting model, recalculate the maximum
vibration level value within the half period
4. Check if the new weighted value is larger than last saved
maximum in the interval
Each weighting model recalculates the vibration level signal as stated
in its standard.
More facts about standards with weighting model:
Transient files are not affected by the weighting.
The trigger system uses weighted data, see a descriptive
example in Appendix D.
Note! The trigger event is delayed to the zero crossing after
the signal maximum.
Direct SMS messages from the Datalogger send weighted
vibration level values.
X85 Alarm Beacon uses weighted vibration level values for
the decision when to trigger an alarm.
LIVE, LAST and EVENT data2 in the Datalogger display
shows weighted vibration level values.
Live mode in INFRA Net shows weighted vibration level
values.
The log file still contains the unweighted vibration level, and
considers only post-trig data.
2 LIVE (=current value), LAST (= last interval data) and EVENT (= transient data)
12 Copyright ©Sigicom AB
Description of how to select weighting model is described in section
4.2.5.
Note! The Vibration level / Frequency interval diagram in INFRA Net
is plotted with unweighted vibration level. This implies that the
vibration level values are “anti-weighted”, based on the frequency and
used weighting model before they are plotted.
3.3 Display device
Data is presented and post-processed by the web application
INFRA Net.
Copyright ©Sigicom AB 13
4 Configuration and operation
4.1 Mounting
The V1x Geophone shall be mounted according to:
V10 shall be mounted either on the wall or on the floor, and
have the label parallel with the wall (readable from the side)
V11 shall be mounted either on the wall or on the floor, and
have the label parallel with the floor (readable from above)
V12 shall be mounted either on the wall or on the floor, and
have the label parallel with the floor (readable from above)
V12R shall be mounted in the ceiling and have the label
parallel with the ceiling (readable from below)
Note! For correct measuring results, the mounting angle of the V1x
Geophone must not exceed 5º relative to the reference plane.
Note! To facilitate proper communication in electrically harsh
environments, the metallic enclosure must not be in contact with any
kind of conductive surfaces (the sensor feet are isolated). All cable
junctions touching any metal or the ground shall be protected by
vulcanized tape.
Example of V10 and V12 Geophone mounting.
14 Copyright ©Sigicom AB
4.2 Parameters
4.2.1 International standard selection
The table below contains all available measurement standards included. As
new countries with their local measurement standards (blasting, human
comfort and sensitive equipment) are added, some standards exist on only
one of the defined sales regions:
NO: Nordic countries
EU: European countries (except the Nordic countries)
IN: All countries outside Europe
This is due for V12, from firmware version 2.0. V10 and V11 will
have the same standards as V12 for the Nordic countries (NO).
Explanations for the table below:
Frequency: Tells whether the standard has a second interval channel/file
with frequency values. 0.5Hz resolution.
Weighting: Standard can be set, or is permanently set, to use frequency
weighting of interval values and trigger levels. This is implemented in
different ways for the various standards.
Note! All filters mentioned below are implemented as time continuous digital
filters, calculated in real-time on each sample (4096Hz).
1. “No”
No extra filtering in the pass-band between the frequency limits stated
in the standard definition. Geophone compensation filters may exist
when the standard is stated to have its low frequency limit below the
natural resonance frequency of the geophone.
2. “ISO2631-2 type”
Used in human comfort standards only. Implemented by inserting a
high-pass filter (single pole at 5.6 Hz) prior to the RMS detector.
3. “Norwegian type”
Used in some Norwegian standards. Implemented by more complex
Copyright ©Sigicom AB 15
skewing filters prior to the peak/trigger detectors, as described in the
specific Norwegian standards (NS8141:2012 and NS8141:2013).
4. “Discrete frequency type”
These weighting characteristics needs to be implemented in another way
compared to the ones above, and are instead calculated using the
frequency and unweighted peak value, calculated after every zero
crossing.
Stan-
dard
Name Fre-
quency
Weigh-
ting
Level
range
Frequency
range
Sales
region
S01 SS 4604866
Spräng
No No 250
mm/s
5 – 300 Hz NO
S02 SS 4604866
Spräng
No No 25 mm/s 5 – 300 Hz NO
S03 SS 025211
Schakt
No No 25 mm/s 5 – 150 Hz NO
S05 SS 025211
Schakt
No No 25 mm/s 2 – 150 Hz NO
S06 ISO 8569
Accel
No No 25 m/s2 5 – 300 Hz All3
S07 SS 4604861
Komfort
RMS 1s
No ISO2631-2
type 20 mm/s 1 – 80 Hz NO
S08 SS 4604861
Komfort
RMS 1s
No ISO2631-2
type 700
mm/s2
1 – 80 Hz NO
S09 DIN 4150-2 KB
RMS 125ms
No ISO2631-2
type 20 mm/s 1 – 80 Hz All
S11 DIN 4150-3
Anlage
No No 250
mm/s
1 – 315 Hz NO
S12 DIN 4150-3
Anlage
No No 25 mm/s 1 – 315 Hz NO
S15
ÖNORM S
9012
RMS 1s
No ISO2631-2
type 700
mm/s2
1 – 80 Hz EU
3 All = NO + EU + IN
16 Copyright ©Sigicom AB
S16 ISO 8569
Accel
No No 125 m/s2 5 – 300 Hz All
S17 ISO 10816-2
RMS 1 s
No No 200
mm/s
5 – 500 Hz All
S18 DIN 4150-3
Anlage
Yes Discrete
frequency type
250
mm/s
1 – 315 Hz All
S19 DIN 4150-3
Anlage
Yes Discrete
frequency
type
25 mm/s 1 – 315 Hz All
S20 NS8141
Byggverk
No No 250
mm/s
5 – 300 Hz NO
S21 NS8141
Byggverk
No No 25 mm/s 5 – 300 Hz NO
S22 NS8176
Komfort
RMS 1s
No No 20 mm/s 1 – 80 Hz NO
S25 NS8141: 2013 No Norwegian
type 250
mm/s
3 – 400 Hz NO
S26 NS8141: 2013 No Norwegian
type 25 mm/s 3 – 400 Hz NO
S27 ISO2631-2
RMS 1s
No ISO2631-2
type 20 mm/s 1 – 80 Hz All
S28 SN640 312a Yes Discrete
frequency
type
250
mm/s
5 – 150 Hz EU
S29 SN640 312a Yes Discrete
frequency
type
25 mm/s 5 – 150 Hz EU
S30 BS 7385 No No 250
mm/s
1 – 300 Hz EU
S31 ISEE
Seismograph
Yes No 10 in/s 2 – 250 Hz IN
S32 ISEE
Seismograph
Yes No 1 in/s 2 – 250 Hz IN
S33 ANSI S2.71
RMS 1s
No ISO2631-2
type 0.8 in/s 1 – 80 Hz IN
S35 AS 2187.2-2006 No No 250
mm/s
2 – 250 Hz IN
S38 ÖNORM S
9020
No No 250
mm/s
1 – 315 Hz EU
Copyright ©Sigicom AB 17
S39 ÖNORM S
9020
No No 25 mm/s 1 – 315 Hz EU
S40 Arrêté du 1994 Yes Discrete
frequency
type
250
mm/s
1 – 150 Hz EU
S41 ICPE-Circ86 Yes Discrete
frequency
type
25 mm/s 1 – 150 Hz EU
S42 IN1226 Yes Discrete
frequency
type
250
mm/s
1 – 150 Hz EU
S43 IN1226 Yes Discrete
frequency type
25 mm/s 1 – 150 Hz EU
S50 DIN4150-3
Anlage
No No 5000
µm/s
1 – 80 Hz All
S53 Geophone No No 250
mm/s
5 – 500 Hz All
S54 Geophone No No 5000
µm/s
5 – 500 Hz All
The desired standard is selected using either:
Datalogger.
INFRA Net – Remote control.
Note! Each standard has its own unique parameter setting
Interval time
Threshold
Recording time
Customer string
meaning that they are set individually for each standard. When another
standard is selected, these parameters need to be reviewed.
Additional and updated standards may be added later through software
upgrades. For upgrade of software, the V1x Geophone must be sent to
Sigicom or other authorized agent. Some standards have been
removed, see Appendix E Removed standards.
18 Copyright ©Sigicom AB
4.2.2 Interval time
The interval time is the parameter that decides how often the
maximum value4 is stored. The maximum value of each interval is
saved to an interval file. The interval time can be selected to any of the
values:
5, 6, 10, 15, 20, 30 seconds
1, 2, 4, 5, 6, 10, 15, 20 minutes
The default value of the interval time is 2 minutes.
4.2.3 Threshold
If the measured vibration level becomes larger than the
threshold level, a Trigger event happens, implying that the
measured signal is recorded in a transient file.5
The threshold can be set to OFF, which means that the
threshold level has no effect on the system.
Even if threshold is set to OFF, other sensors within the same
INFRA system may trigger a recording on all sensors in its
INFRA system.
4.2.4 Record time
This is the length of the recorded transient file described in section
3.2. It can be selected to any of the values:
1, 2, 3, 4, 5, 6, 8, 10, 16, 20, 25, 30, 40 seconds
The default value is 2 seconds.
4 Velocity or acceleration 5 All sensor nodes connected to the same Datalogger will simultaneously start a
transient recording. This feature called bus trigger can be disabled.
Copyright ©Sigicom AB 19
4.2.5 Customer string
The Customer string is a four character string that can be changed.
The default string is “GEO “. The intention is here that you can use
this as a description of your measurement.
For some standards the last two characters in the Customer string are
used to set a weighting model of that standard, see the tables below.
The first two characters are free to use as you wish (marked with ** in
the tables).
Note! If the customer string is set to something else, no weighting is
performed. This is not due for Standard 40 (Arrêté du 1994), for
which weighting always is active.
Stan-
dard
Standard
name
Variant Reference
frequency
Reference
level
Customer
string
S18,
S19
DIN 4150-3
Anlage
Zeile 1 <10 Hz 20 mm/s **Z1
S18,
S19
DIN 4150-3
Anlage
Zeile 2 <10 Hz 5 mm/s **Z2
S18,
S19
DIN 4150-3
Anlage
Zeile 3 <10 Hz 3 mm/s **Z3
Stan-
dard
Standard
name
Variant Reference
frequency
Reference
level
Customer
string
S28,
S29
SN640 3122a Gele-
gentlich
<30 Hz 15 mm/s **X1
S28,
S29
SN640 3122a Häufig <30 Hz 6 mm/s **X2
S28,
S29
SN640 3122a Perma-
nent
<30 Hz 3 mm/s **X3
20 Copyright ©Sigicom AB
Stan-
dard
Standard
name
Variant Reference
frequency
Reference
level
Customer
string
S40 Arrêté du
1994
- 5 - 30 Hz 10 mm/s ****
Stan-
dard
Standard
name Variant Reference
frequency
Reference
level
Customer
string
S41 ICPE-
Circ86 Continu
résistant
<8 Hz 5 mm/s **C1
S41 ICPE-
Circ86 Continu
sensible
<8 Hz 3 mm/s **C2
S41 ICPE-
Circ86 Continu
très sensible
<8 Hz 2 mm/s **C3
S41 ICPE-
Circ86 Impulsion
résistant
<8 Hz 8 mm/s **I1
S41 ICPE-
Circ86 Impulsion
sensible
<8 Hz 6 mm/s **I2
S41 ICPE-
Circ86 Impulsion
très sensible
<8 Hz 4 mm/s **I3
Stan-
dard
Standard
name
Variant Reference
frequency
Reference
level
Customer
string
S42,
S43
IN1226 SNCF
résistant
5 – 10 Hz 15 mm/s **S1
S42,
S43
IN1226 SNCF
sensible
5 – 10 Hz 10 mm/s **S2
S42,
S43
IN1226 SNCF
très sensible
5 – 10 Hz 5 mm/s **S3
S42,
S43
IN1226 SNCF
Plateforme
5 – 10 Hz 20 mm/s **S4
S42,
S43
IN1226 Vibration
continu
résistant
<10 Hz 5 mm/s **C1
S42,
S43
IN1226 Vibration
continu
sensible
<10 Hz 3 mm/s **C2
Copyright ©Sigicom AB 21
S42,
S43
IN1226 Vibration
continu
très sensible
<10 Hz 2 mm/s **C3
S42,
S43
IN1226 Vibration
continu
Plateforme
<10 Hz 5 mm/s **C4
S42,
S43
IN1226 Vibration
transitoire
résistant
<10 Hz 8 mm/s **I1
S42,
S43
IN1226 Vibration
transitoire
sensible
<10 Hz 6 mm/s **I2
S42,
S43
IN1226 Vibration
transitoire
très sensible
<10 Hz 4 mm/s **I3
S42,
S43
IN1226 Vibration
transitoire
Plateforme
<10 Hz 8 mm/s **I4
22 Copyright ©Sigicom AB
4.3 Quick Start V10 and V11
In this section, V1x means V10 or V11.
1. Connect your V1x Geophone with your INFRA Datalogger
by using any of the available INFRA Sensor Cables.
2. Start the Datalogger and wait for the initialization process to
complete.
3. Under the menu Nodes you’ll find your V1x unit as
GEO V1x-<serial.no>,
where GEO is the Customer string and <serial.no> is the
serial number.
4. Select GEO V1x-<serial.no> in order to set Standard (S01,
S02, etc.). Then, for the chosen standard, select
• Interval time
• Record time
• Threshold (level and ON/OFF).
Note! When performing a test or reference measurement,
make sure that the threshold is set to OFF. Otherwise
unnecessary transients will be recorded.
5. Activate REG ON, and the measurement will be initiated.
6. Note! First registration of interval data is delayed to
synchronize to the local time. The delay may last up to one
interval period. First presentation of data will then be delayed
up to two interval periods. Transient triggering and readout
of Live-values are available directly after activation of REG
ON.
Copyright ©Sigicom AB 23
4.4 Quick start V12
1. Connect your V12 Geophone with your INFRA Datalogger
by using any of the available INFRA Sensor Cables.
2. Start the Datalogger and wait for the initialization process to
complete.
3. Under the menu Nodes you’ll find your V12 unit as three
separate sensors:
GEO V12V-<serial.no>,
GEO V12L-<serial.no>,
GEO V12T-<serial.no>,
where GEO is the Customer string and <serial.no> is the
serial number.
4. For each of the three sensors, set Standard (S01, S02, etc.).
Then for the chosen standard select
• Interval time
• Record time
• Threshold (level and ON/OFF).
It is also possible to change the Customer string which in
some standards is used to select weighting type.
Note! When performing a test or reference measurement,
make sure that the threshold is set to OFF. Otherwise
unnecessary transients will be recorded.
5. Activate REG ON, and the measurement will be initiated.
6. Note! First registration of interval data is delayed to
synchronize to the local time. The delay may last up to one
interval period. First presentation of data will then be delayed
up to two interval periods. Transient triggering and readout
of Live-values are available directly after activation of REG
ON.
24 Copyright ©Sigicom AB
4.5 The LED
V1x has a red LED which indicates different events and states.
V10 (its LED marked with the red arrow).
The LED lights
during transient recording.
if there is a detection of an internal overload . Remains lit the
rest of the interval.
after power up, if theV1x is not initiated by the Datalogger.
if long cable mode6 is set, the LED lights shortly once just
after start-up of the Datalogger.
6 see Datalogger manual
Copyright ©Sigicom AB 25
5 Consider this
V1x Geophone can be used and stored in a wide range of
ambient temperatures. However, allow your V1x Geophone
ample time to adjust to abrupt temperature changes.
Whenever the V1x Geophone is shipped, care should be
taken in repackaging using the original packaging provided
by Sigicom.
Is not intended to be used under water, though it is certified
for IEC60529 IPx7.
The operating ambient temperature range is –20 ºC to
+ 50 ºC.
V1x Geophone is a precision sensor which makes it sensitive
to shock. If it is dropped on a hard surface it must be
recalibrated, see contact information below.
The sensor cables, ports and terminations supplied by
Sigicom are designed to work properly with the system. Do
not use other types of these devices.
Never attempt to disassemble the instrument.
Never attach your V1x Geophone to anything other than
devices and accessories within the INFRA Field Monitoring
System.
26 Copyright ©Sigicom AB
6 Post-processing of data
Post-processing is done in the web application INFRA Net.
Data is sent from the Datalogger to an Internet accessible
database server where each Infra Customer has its own
database access.
INFRA Net connects to the database via the Internet to
access all data for analyzing and reporting, and also remote
control of the equipment.
7 Maintenance and calibration
Send the device to Sigicom for calibration and adjustment.
See contact information below. Recommended calibration
interval is 12 months.
If sent to repair, please carefully write down the description
of the problem. It is also recommended contacting Sigicom
before shipping the unit for repair.
Copyright ©Sigicom AB 27
8 Accessories
8.1 Specific accessories:
Sensor Bolts, art. no. 080-01710-0 to 080-01714-0
Sensor bolts of the lengths 80, 100 and 120 mm, for
mounting of the V1x Geophone.
Expansion Plug, art. no. 080-01720-0
Expansion plugs for concrete walls etc. Suitable together
with Sensor Bolts (1710-1714).
Ground Spike Conical M6 125 mm, art. no. 080-01720-0
For ground mounting of V10, V11 and V12.
Ground Spike Conical M6 500 mm, art. no. 080-01810-0
Long ground spike for geophone mounting in softer soil.
Ground Spike Protection, art. no. 080-01809-0
Protects ground spike when using a hammer or a
sledgehammer.
Magnet Mount, art. no. 080-01740-0
Very heavy duty magnet for mounting of geophones V10,
V11 and V12.
Mounting Plate V10, art. no. 080-01812-0.
Can be fastened to a flat surface with double sided adhesive
tape.
Mounting Plate V12, art. no. 080-01813-0.
Can be fastened to a flat surface with double sided adhesive
tape.
28 Copyright ©Sigicom AB
Leveling Plate V12, art. no. 080-01815-0.
Adjustable leveling plate.
Comfort Measuring Plate V12, art. no. 080-01820-0.
Fulfills requirements for measuring comfort with V12,
according to Swedish, Norwegian and German standards.
8.2 Other accessories:
Sensor drop cable 0.3m (1ft), art.no 080-01100-0
Sensor drop cable 1.0m (3.3ft), art.no 080-01101-0
Sensor drop cable 2.0m (6.6ft), art.no 080-01102-0
Sensor drop cable 5.0m (16ft), art.no 080-01105-0
Sensor cable 15m (49ft), art.no 080-01115-0
Sensor cable 40m (131ft), art.no 080-01140-0
Sensor cables in other lengths on special order, please contact
Sigicom.
Self-vulcanizing tape, art.no 080-01892-0
Cable winder (max. 50m), art.no 080-01200-0
Window feed through cable, art.no 080-01472-0
T-port, art.no. 080-01230-1
Y-port, art.no. 080-01232-0
Termination plug, art.no 080-01236-0
Tool kit, art.no 080-01891-0
Feed through connector, art.no 080-01239-0
Copyright ©Sigicom AB 29
9 Contact and support
Address
Sigicom AB Sigicom Inc.
Alfred Nobels Allé 214 2649 East Mulberry Street, Unit 17
SE-146 48 TULLINGE Fort Collins, CO 80524 Sweden United States
Phone +46 8 44 99 770 +1 (970) 493-1552
Internet www.sigicom.com
E-mail [email protected]
30 Copyright ©Sigicom AB
Appendix A Specifications
A.1 Reference conditions (factory calibration)
Standard S18
Vibration level 10 mm/s
Frequency 80 Hz
Ambient temperature 23 ºC
Static-pressure 101.3 kPa
A.2 Accuracy
Noise and interference certified according to EMC demands in
IEC61326-1:2006.
Transient file low-pass filter characteristics (except for frequency
weighting):
- 0.5 dB at 630Hz
-3dB at 665Hz
Copyright ©Sigicom AB 31
A.3 Overload handling
Interval values are tagged with an overload flag if analog or
digital overload occurs in one single sample during the
interval period. Overload is presented in INFRA Net.
Transient files are tagged with overload flag if analog or
digital overload occurs in one single sample during recording
of the transient. Overload is presented in INFRA Net.
The red LED of the V1x will be lit during the rest of the
interval when an overload condition occurs.
A.4 Power consumption
V1x is powered via the INFRA Sensor Cable (11-15 VDC). The
power consumption in monitoring mode is approximately
V10/V11: 40 mW
(45 mW during communication with the Datalogger).
V12: 120 mW
(135 mW during communication with the Datalogger).
32 Copyright ©Sigicom AB
A.5 Mechanical data
The enclosure is made of anodized aluminium.
Weather proof by using O-rings in all seems.
Protection class equivalent to IPx7.
Hole for M6-bolt in two directions.
Dimensions (without feet),
V10 and V11:
78 x 78 x 43 mm (3.1 x 3.1 x 1.7 in)
V12:
102 x 78 x 75 mm (4.0 x 3.1 x 3.0 in)
Weight,
V10 and V11:
500 g (1.1 lb)
V12:
1200 g (2.6 lbs)
Density,
V10 and V11:
1.9 kg/m3 (119 lbs/ft
3)
V12:
2.0 kg/m3 (125 lbs/ft
3)
A.6 Approvals
Fulfills EMC and safety demands according to:
LVD 2006/95/EC
EMCD 2004/108/EC
EN 61326-1:2006
IEC60529 IPx7
FCC part 15 Radio frequency device, Subpart B
Canadian ICES-003 Issue 4 February 2004
Copyright ©Sigicom AB 33
Appendix B Glossary
Datalogger: The same as any of:
• INFRA Master
• INFRA Mini
• INFRA Micro
This is the central unit in the INFRA Field Monitoring
System.
Transient file: The transient file contains measured vibration
data, with sample frequency 4096 Hz. The first second is pre-
trig data (before the trigger event), and the post-trig length
(after the trigger event) is adjustable between 1 and 40
seconds.
Interval file: The interval file contains one data per interval
time, processed according to the selected standard. Each data
is the maximum vibration value over the selected interval
time.
34 Copyright ©Sigicom AB
Appendix C Standards
Explanations:
Frequency: Standard has a second interval channel/file with frequency
values. 0.5Hz resolution.
Weighting: Standard can be set, or is permanently set, to use frequency
weighting of interval values and trigger levels.
________________________________________
1. SS 460 48 66 Spräng
Vibration och stöt – Riktvärden för sprängningsinducerade vibrationer
i byggnader.
Level, frequency ranges: 250 mm/s, 5-300 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
2. SS 460 48 66 Spräng
Vibration och stöt – Riktvärden för sprängningsinducerade vibrationer
i byggnader.
Level, frequency ranges: 25 mm/s, 5-300 Hz
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 22 mm/s.
Transient file resolution: ~0.001 mm/s.
3. SS 02 52 11 Schakt
Vibration och stöt – Riktvärden för vibrationer i byggnader härrörande
från pålning, spontning, schaktning och packning för bedömning av
skaderisk.
Level, frequency ranges: 25 mm/s, 5-150 Hz
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 22 mm/s.
Transient file resolution: ~0.001 mm/s.
Copyright ©Sigicom AB 35
5. SS 02 52 11 Schakt
Vibration och stöt – Riktvärden för vibrationer i byggnader härrörande
från pålning, spontning, schaktning och packning för bedömning av
skaderisk.
Level, frequency ranges: 25 mm/s, 2-150 Hz
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 22 mm/s.
Transient file resolution: ~0.001 mm/s.
6. ISO 8569 Accelerometer (It is normally recommended to use
standard 16 instead of this standard)
Mechanical vibration and shock -- Measurement and evaluation of shock and
vibration effects on sensitive equipment in buildings
Level, frequency ranges: 25 m/s2, 5-300 Hz
Max. resolution in presentation: 0.005 m/s2 and 3 significant digits.
Threshold range 0.04 – 22 m/s2. Transient file resolution: ~0.001 m/s
2.
Note! The stated range/resolution in acceleration is only valid at
160Hz because sensor element measures velocity. At lower
frequencies the range/resolution is scaled down. Above 160Hz,
range/resolution is scaled up.
7. SS 460 48 61 Komfort
Vibration och stöt – Mätning och riktvärden för bedömning av
komfort i byggnader.
Level, frequency ranges: 20 mm/s, RMS 1s, 1-80 Hz
Filtered according to ISO 2631-2.
Max. resolution in presentation: 0.005 mm/s RMS and 3 significant
digits.
Threshold range 0.04 – 15 mm/s.
Transient file resolution: ~0.001 mm/s.
36 Copyright ©Sigicom AB
8. SS 460 48 61 Komfort
Vibration och stöt – Mätning och riktvärden för bedömning av komfort i
byggnader.
Level, frequency ranges: 700 mm/s2, RMS 1s, 1-80 Hz
Filtered according to ISO 2631-2.
Max resolution in presentation: 0.1 mm/s2 RMS and 3 significant digits.
Threshold range 1 – 550 mm/s2.
Transient file resolution: ~0.04 mm/s2.
9. DIN 4150-2 KB
Erschütterungen im Bauwesen – Teil 2: Einwirkungen auf Menschen
in Gebäuden.
Level, frequency ranges: 20 mm/s, RMS 125ms, 1-80 Hz
Filtered according to ISO 2631-2.
Max. resolution in presentation: 0.005 mm/s RMS and 3 significant
digits.
Threshold range 0.04 – 15 mm/s.
Transient file resolution: ~0.001 mm/s.
11. DIN 4150-3 Anlage (Replaced by standard 18)
Erschütterungen im Bauwesen – Teil 3: Einwirkungen auf bauliche
Anlage.
Level, frequency ranges: 250 mm/s, 1-315 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
12. DIN 4150-3 Anlage (Replaced by standard 19)
Erschütterungen im Bauwesen – Teil 3: Einwirkungen auf bauliche
Anlage.
Level, frequency ranges: 25 mm/s, 1-315 Hz
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 20 mm/s.
Transient file resolution: ~0.001 mm/s.
Copyright ©Sigicom AB 37
15. ÖNORM S 9012
Beurteilung der Einwirkung von Schwingungsimmissionen des
landgebundenen Verkehrs auf den Menschen in Gebäuden ―
Schwingungen und sekundärer Luftschall .
Level, frequency ranges: 700 mm/s2, RMS 1s, 1-80 Hz
Filtered according to ISO 2631-2.
Max. resolution in presentation: 0.1 mm/s2 RMS and 3 significant
digits.
Threshold range 1 – 550 mm/s2.
Transient file resolution: ~0.04 mm/s2.
16. ISO 8569 Accelerometer (Replaces standard 6, if not very small
levels)
Mechanical vibration and shock -- Measurement and evaluation of shock and
vibration effects on sensitive equipment in buildings.
Level, frequency ranges: 125 m/s2, 5-300 Hz
Max. resolution in presentation: 0.01 m/s2 and 3 significant digits.
Threshold range 0.1 – 110 m/s2. Transient file resolution: ~0.005 m/s
2.
Note! The stated range/resolution in acceleration is only valid at 80Hz
because sensor element measures velocity. At lower frequencies the
range/resolution is scaled down. Above 80Hz, range/resolution is
scaled up.
17. ISO 10816-2
Mechanical vibration -- Evaluation of machine vibration by
measurements on non-rotating parts -- Part 2: Land-based steam
turbines and generators in excess of 50 MW with normal operating
speeds of 1500 r/min, 1800 r/min, 3000 r/min and 3600 r/min.
Level, frequency ranges: 200 mm/s, RMS 1s, 5-500 Hz
Max. resolution in presentation: 0.05 mm/s RMS, and 3 significant
digits.
Threshold range 0.2 – 180 mm/s.
Transient file resolution: ~0.01 mm/s.
38 Copyright ©Sigicom AB
18. DIN 4150-3 (+ Frequency +Weighting)
Erschütterungen im Bauwesen – Teil 3: Einwirkungen auf bauliche
Anlage.
Level, frequency ranges: 250 mm/s, 1-315 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
19. DIN 4150-3 (+ Frequency +Weighting)
Erschütterungen im Bauwesen – Teil 3: Einwirkungen auf bauliche
Anlage.
Level, frequency ranges: 25 mm/s, 1-315 Hz
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 20 mm/s.
Transient file resolution: ~0.001 mm/s.
20. NS 8141 Byggverk (Before the 2012 version)
Vibrasjoner og støt - Måling av svingehastighet og beregning av
veiledende grenseverdier for å unngå skade på byggverk.
Level, frequency ranges: 250 mm/s, 5-300 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
21. NS 8141 Byggverk (Before the 2012 version)
Vibrasjoner og støt - Måling av svingehastighet og beregning av
veiledende grenseverdier for å unngå skade på byggverk.
Level, frequency ranges: 25 mm/s, 5-300 Hz
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 22 mm/s.
Transient file resolution: ~0.001 mm/s.
22. NS8176 Komfort
Vibrasjoner og støt - Måling i bygninger av vibrasjoner fra landbasert
samferdsel og veiledning for bedømmelse av virkning på mennesker.
Level, frequency ranges: 20 mm/s RMS, 1-80 Hz
Filtered according to ISO 2631-2, time constant 1 s.
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 15 mm/s.
Transient file resolution: ~0.001 mm/s.
Copyright ©Sigicom AB 39
25. NS 8141:2013 (NS 8141-1:2012/A1:2013)
Vibrasjoner og støt - Veiledende grenseverdier for bygge- og
anleggsvirksomhet, bergverk og trafikk - Del 1: Virkning av
vibrasjoner og lufttrykkstøt fra sprengning på byggverk, inkludert
tunneler og bergrom.
Level, frequency ranges: 250 mm/s, 4-400 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
26. NS 8141:2013 (NS 8141-1:2012/A1:2013)
Vibrasjoner og støt - Veiledende grenseverdier for bygge- og
anleggsvirksomhet, bergverk og trafikk - Del 1: Virkning av
vibrasjoner og lufttrykkstøt fra sprengning på byggverk, inkludert
tunneler og bergrom.
Level, frequency ranges: 25 mm/s, 3-400 Hz
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 22 mm/s.
Transient file resolution: ~0.001 mm/s.
27. ISO 2631-2
Human exposure to mechanical vibration and shock.
Level, frequency ranges: 20 mm/s RMS, 1-80 Hz
Filtered according to ISO 2631-2, time constant 1 s.
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 15 mm/s.
Transient file resolution: ~0.001 mm/s.
28. SN 640312a (+ Frequency)
Erschütterungseinwirkungen auf Bauwerke.
Level, frequency ranges: 250 mm/s, 1-315 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
40 Copyright ©Sigicom AB
29. SN 640312a (+ Frequency)
Erschütterungseinwirkungen auf Bauwerke.
Level, frequency ranges: 25 mm/s, 1-315 Hz
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 22 mm/s.
Transient file resolution: ~0.001 mm/s.
30. BS 7385
Evaluation and measurement for vibration in buildings - Part 2: Guide
to damage levels from ground-borne vibration.
Level, frequency ranges: 250 mm/s, 1-300 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
31. ISEE Seismograph (+ Frequency)
ISEE Performance Specifications For Blasting Seismographs.
Level, frequency ranges: 10 in/s, 2-250 Hz
Max. resolution in presentation: 0.002 in/s and 3 significant digits.
Threshold range 0.02 – 9 in/s. Transient file resolution: ~0.0004 in/s.
32. ISEE Seismograph (+ Frequency)
ISEE Performance Specifications For Blasting Seismographs.
Level, frequency ranges: 1 in/s, 2-250 Hz
Max. resolution in presentation: 0.0002 in/s and 3 significant digits.
Threshold range 0.002 – 0.9 in/s.
Transient file resolution: ~0.00004 in/s.
33. ANSI S2.71
Guide to the Evaluation of Human Exposure to Vibration in Buildings.
Level, frequency ranges: 0.8 in/s RMS, 1-80 Hz
Filtered according to ISO 2631-2, time constant 1 s.
Max. resolution in presentation: 0.0001 in/s and 3 significant digits.
Threshold range 0.001 – 0.75 in/s.
Transient file resolution: ~0.00004 in/s.
Copyright ©Sigicom AB 41
35. AS 2187.2-2006
Explosives - Storage, transport and use - Use of explosives
Level, frequency ranges: 250 mm/s, 2-250 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
38. ÖNORM S 9020
Bauwerkserschütterungen; Sprengerschütterungen und vergleichbare
impulsförmige Immissionen.
Level, frequency ranges: 250 mm/s, 1-315 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
39. ÖNORM S 9020
Bauwerkserschütterungen; Sprengerschütterungen und vergleichbare
impulsförmige Immissionen.
Level, frequency ranges: 25 mm/s, 1-315 Hz
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 22 mm/s.
Transient file resolution: ~0.001 mm/s.
40. Arrêté du 1994 (+ Frequency + Weighting)
Arrêté du 22 septembre 1994 relatif aux exploitations de carrières et aux
installations de premier traitement des matériaux de carrières
Level, frequency ranges: 250 mm/s, 1-150 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
41. ICPE-Circ86 (+ Frequency + Weighting)
French standard ICPE Circulaire du 23/07/86.
Level, frequency ranges: 25 mm/s, 1-150 Hz
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 22 mm/s.
Transient file resolution: ~0.001 mm/s.
42 Copyright ©Sigicom AB
42. IN 1226 (+ Frequency + Weighting)
French standard IN 1226.
Level, frequency ranges: 250 mm/s, 1-150 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
43. IN 1226 (+ Frequency + Weighting)
French standard IN 1226.
Level, frequency ranges: 25 mm/s, 1-150 Hz
Max. resolution in presentation: 0.005 mm/s and 3 significant digits.
Threshold range 0.04 – 22 mm/s.
Transient file resolution: ~0.001 mm/s.
50. DIN 4150-3 Anlage
Erschütterungen im Bauwesen – Teil 3: Einwirkungen auf bauliche
Anlage.
Level, frequency ranges: 5000 um/s, 1-80 Hz
Max. resolution in presentation: 1 um/s and 3 significant digits.
Threshold range 10 – 4000 um/s. Transient file resolution: ~0.2 um/s.
53. Geophone
Unfiltered geophone signal. Upper frequency limit 500 Hz
Level, frequency ranges: 250 mm/s, 5-500 Hz
Max. resolution in presentation: 0.05 mm/s and 3 significant digits.
Threshold range 0.4 – 220 mm/s.
Transient file resolution: ~0.01 mm/s.
54. Geophone
Unfiltered geophone signal. Upper frequency limit 500 Hz
Level, frequency ranges: 5000 µm/s, 5-500 Hz
Max. resolution in presentation: 1 µm/s and 3 significant digits.
Threshold range 10 – 4000 um/s. Transient file resolution: ~0.2 um/s.
Copyright ©Sigicom AB 43
Appendix D Example of using a weighting standard
Suppose we have configured:
Standard 18, DIN 4150-3, with Zeile 1 (selected according to
section 4.2.5).
Threshold level = 20 mm/s.
The standard DIN 4150-3 is described with the graph:
Figure D1. Standard DIN 4150-3 with the limits for Zeile 1 - 3 (Line 1 - 3)
and the weighting depends directly on these lines.
As written in section 4.2.5, the reference frequency range is: <10 Hz. In this
example we study Zeile 1 (Line 1), which for example allows
2.0 times higher velocities at 50 Hz compared to frequencies <10 Hz
2.5 times higher velocities at 100 Hz compared to frequencies <10 Hz
The limits in figure I1 lead to the weighting curves in figures I2 – I4, which
are implemented in the firmware of INFRA C12.
44 Copyright ©Sigicom AB
Figure I2. The weighting of the measured signal, made by the
C12 firmware when configured with standard DIN 4150-3, Zeile 1.
So, in this example, a maximum vibration level detected as
35 mm/s
50.0 Hz
will be used as
17.5 mm/s
50.0 Hz
These two points are illustrated with the red stars in Figure I1.
Note! This means that a trigger event will not occur in this example,
although 35 mm/s is measured and threshold level = 20 mm/s.
Copyright ©Sigicom AB 45
Figure I3. The weighting of the measured signal, made by the
C12 firmware when configured with standard DIN 4150-3, Zeile 2.
46 Copyright ©Sigicom AB
Figure I4. The weighting of the measured signal, made by the
C12 firmware when configured with standard DIN 4150-3, Zeile 3.
Copyright ©Sigicom AB 47
Appendix E Removed standards
The table below lists standards that have been removed, and suggests an
alternative to each of them.
Standard Last version this
standard existed
Alternative
S10
DIN4150-2 KB
700 mm/s2 RMS 125ms
1.6.1 S09
DIN4150-2 KB
20 mm/s RMS 125ms
S13
DIN4150-3 Anlage
250 mm/s 1-80 Hz
1.6.1 S18
DIN4150-3 Anlage
250 mm/s 1-315 Hz
S14
DIN4150-3 Anlage
25 mm/s 1-80 Hz
1.6.1 S19
DIN4150-3 Anlage
25 mm/s 1-315 Hz
S23
NS8141—1:2012
250 mm/s 3-400 Hz
1.7.0 S25
NS8141—1:2013
250 mm/s 3-400 Hz
S24
NS8141—1:2012
25 mm/s 3-400 Hz
1.7.0 S26
NS8141—1:2013
25 mm/s 3-400 Hz
Note! S08 was removed in version 1.7, but is put back in version 2.2. If you
have a V1x of version 1.7, 2.0 or 2.1 and need S08 (standard 8), please send
in your device to Sigicom for upgrade. For contact information, see chapter 9
Contact and support.