Svantek SV 106D Human Vibration Meter
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Antal kanaler: 6
Kommunikationsgrænseflader: USB-C, I/O
Display: Ja
Tastatur: 9 knapper
Memory: 32 GB
Batteritype: AA
Driftstid: 12-16 timer
Driftstemperaturområde: -10 °C til 50 °C
Fugtighedsområde: op til 90 % RF, ikke-kondenseret
Vægt: 390 gram
Størrelse: 140 x 83 x 33 mm
Opdag mulighederne
Mere information
Beskrivelse
SV 106D is a compact, high-precision human vibration meter and analyser that supports simultaneous six-channel measurements using two triaxial accelerometers. The instrument complies fully with ISO 8041-1:2017 and is ideal for evaluating hand-arm and whole-body vibration in accordance with ISO 5349, ISO 2631, and the European Directive 2002/44/EC. Engineers and safety specialists use SV 106D for reliable A(8) exposure calculations, triaxial SEAT transmission assessment, and tool-handle vibration monitoring. Features such as real-time octave analysis, WAV signal recording, and extended time-history logging support detailed diagnostics and reporting. The unit’s portability and power efficiency make it a field-proven solution in workplace exposure evaluations.
Highlights
- SV 106D enables six-channel vibration analysis: supporting simultaneous measurements with two triaxial accelerometers for complex field setups.
- The instrument measures hand-arm vibration: in accordance with ISO 5349, capturing precise exposure at the tool-handle interface.
- It supports whole-body vibration: monitoring based on ISO 2631, using seat and backrest sensors to evaluate seated exposure.
- Low-frequency vibration from 0.1 Hz: measured vertically in compliance with ISO 2631 for motion sickness and comfort studies.
- Real-time 1/3 octave analysis and WAV recording: (options) provide detailed insight into dominant frequencies, transients, and artefacts.
Practical Features in Use
Hand Arm Vibration Testing
Calculation of the daily exposure A(8)
The hand-arm vibration testing is based on the calculation of the daily exposure value normalized to an eight-hour reference period. This value is A(8), which is the square root of the sum of the squares (RMS) of the frequency-weighted acceleration values, determined on the orthogonal axes X, Y, Z defined in ISO 5349-1.
Vibration Dose Value
Calculating VDV for whole-body vibration
The vibration dose value VDV is calculated using the fourth power of the frequency-weighted instantaneous vibration acceleration. The whole-body vibration daily exposure A(8) is calculated at the highest (RMS) value or the highest vibration dose value (VDV).
Types of Accelerometers
MEMS vs IEPE Accelerometers Types
ISO 8041 mentions two types of accelerometers - IEPE and MEMS. Their construction and operation are very different. In IEPE accelerometers, piezoelectric materials are used, while semiconductor fabrication facilities are used in MEMS. As a result, MEMS accelerometers are more shock resistant and do not have a DC shift effect. They also consume less power and have a flat frequency response down to DC.
Human vibrational frequencies
How do you measure human vibrational frequency?
According to ISO 5349 and ISO 2631, human vibrational frequencies are measured using unweighted frequency spectra to identify the vibration sources. Once it is installed, the data logger stores the information about 1/3 octaves with configurable logging intervals.
Applications
HAVS
Hand arm vibration syndrome
HAVS is a form of vascular disorder with low blood circulation in the fingers that manifests as an occupational disease as a result of hand-arm vibrations. Learn how to take measurements of hand-arm vibration to prevent hand-arm vibration syndrome.
Whole-Body Vibration
What causes human vibration?
Whole-body vibration which, according to ISO 2631, are vibrations from machinery, vehicles, and industrial processes that have an impact on people's comfort, activities, and health. This type of human vibration measurement is done with sensors that are flat and in the shape of a seat pad. It is placed directly on the seat cushion, floor, or fastened to the rear of the seat.
Specifikationer
Applications
- Hand-arm vibration
- Whole-body vibration
Hardware Features
- Number of channels: 6
- Communication Interfaces: USB-C, I/O
- Display: Yes
- Keyboard: 9 buttons
- Memory: 32 GB
- Battery type: AA
- Operating time: 12-16h
- Operating temperature range: -10 °C to 50 °C
- Humidity range: up to 90 % RH, non-condensed
- Weight: 390 grams
- Size: 140 x 83 x 33mm
Vibration measurement features
- Standards: ISO 8041, ISO 2631, ISO 5349, UNI ISO 2631-1:2017, UNI ISO 2631-2:2018, UNI EN ISO 5349-1:2004, UNI EN ISO 5349-2:2015
- Number of channels: 6
- Sensor type: IEPE / MEMS
- Input type: 2 x LEMO 5-pin
- Measurement range: Transducer dependent
- Frequency range: 0.1 - 2000 Hz
- Profiles per channel: 2 acceleration velocity
- Weighting filters: Wd, Wk, Wm, Wb, Wc, Wj, Wg, Wf, Wh, Wp, HP, KB, Vel3
- Time constants: Linear
- 1/1 octave: option
- 1/3 octave: option
- WAV recording: option
Valgmuligheder
Video
Human Vibration Meter | One device, six channels
Human Vibration Meter | Smart Setup
What is a Human Vibration?
The world's reference human vibration meter
Looking for a human vibration meter and analyzer?
SV 106D is a compact, high-precision human vibration meter and analyser that supports simultaneous six-channel measurements using two triaxial accelerometers. The instrument complies fully with ISO 8041-1:2017 and is ideal for evaluating hand-arm and whole-body vibration in accordance with ISO 5349, ISO 2631, and the European Directive 2002/44/EC. Engineers and safety specialists use SV 106D for reliable A(8) exposure calculations, triaxial SEAT transmission assessment, and tool-handle vibration monitoring. Features such as real-time octave analysis, WAV signal recording, and extended time-history logging support detailed diagnostics and reporting. The unit’s portability and power efficiency make it a field-proven solution in workplace exposure evaluations.
Highlights
- SV 106D enables six-channel vibration analysis: supporting simultaneous measurements with two triaxial accelerometers for complex field setups.
- The instrument measures hand-arm vibration: in accordance with ISO 5349, capturing precise exposure at the tool-handle interface.
- It supports whole-body vibration: monitoring based on ISO 2631, using seat and backrest sensors to evaluate seated exposure.
- Low-frequency vibration from 0.1 Hz: measured vertically in compliance with ISO 2631 for motion sickness and comfort studies.
- Real-time 1/3 octave analysis and WAV recording: (options) provide detailed insight into dominant frequencies, transients, and artefacts.
Practical Features in Use
Hand Arm Vibration Testing
Calculation of the daily exposure A(8)
The hand-arm vibration testing is based on the calculation of the daily exposure value normalized to an eight-hour reference period. This value is A(8), which is the square root of the sum of the squares (RMS) of the frequency-weighted acceleration values, determined on the orthogonal axes X, Y, Z defined in ISO 5349-1.
Vibration Dose Value
Calculating VDV for whole-body vibration
The vibration dose value VDV is calculated using the fourth power of the frequency-weighted instantaneous vibration acceleration. The whole-body vibration daily exposure A(8) is calculated at the highest (RMS) value or the highest vibration dose value (VDV).
Types of Accelerometers
MEMS vs IEPE Accelerometers Types
ISO 8041 mentions two types of accelerometers - IEPE and MEMS. Their construction and operation are very different. In IEPE accelerometers, piezoelectric materials are used, while semiconductor fabrication facilities are used in MEMS. As a result, MEMS accelerometers are more shock resistant and do not have a DC shift effect. They also consume less power and have a flat frequency response down to DC.
Human vibrational frequencies
How do you measure human vibrational frequency?
According to ISO 5349 and ISO 2631, human vibrational frequencies are measured using unweighted frequency spectra to identify the vibration sources. Once it is installed, the data logger stores the information about 1/3 octaves with configurable logging intervals.
Applications
HAVS
Hand arm vibration syndrome
HAVS is a form of vascular disorder with low blood circulation in the fingers that manifests as an occupational disease as a result of hand-arm vibrations. Learn how to take measurements of hand-arm vibration to prevent hand-arm vibration syndrome.
Whole-Body Vibration
What causes human vibration?
Whole-body vibration which, according to ISO 2631, are vibrations from machinery, vehicles, and industrial processes that have an impact on people's comfort, activities, and health. This type of human vibration measurement is done with sensors that are flat and in the shape of a seat pad. It is placed directly on the seat cushion, floor, or fastened to the rear of the seat.
Applications
- Hand-arm vibration
- Whole-body vibration
Hardware Features
- Number of channels: 6
- Communication Interfaces: USB-C, I/O
- Display: Yes
- Keyboard: 9 buttons
- Memory: 32 GB
- Battery type: AA
- Operating time: 12-16h
- Operating temperature range: -10 °C to 50 °C
- Humidity range: up to 90 % RH, non-condensed
- Weight: 390 grams
- Size: 140 x 83 x 33mm
Vibration measurement features
- Standards: ISO 8041, ISO 2631, ISO 5349, UNI ISO 2631-1:2017, UNI ISO 2631-2:2018, UNI EN ISO 5349-1:2004, UNI EN ISO 5349-2:2015
- Number of channels: 6
- Sensor type: IEPE / MEMS
- Input type: 2 x LEMO 5-pin
- Measurement range: Transducer dependent
- Frequency range: 0.1 - 2000 Hz
- Profiles per channel: 2 acceleration velocity
- Weighting filters: Wd, Wk, Wm, Wb, Wc, Wj, Wg, Wf, Wh, Wp, HP, KB, Vel3
- Time constants: Linear
- 1/1 octave: option
- 1/3 octave: option
- WAV recording: option
Human Vibration Meter | One device, six channels
Human Vibration Meter | Smart Setup
What is a Human Vibration?
The world's reference human vibration meter
Looking for a human vibration meter and analyzer?