CS
CV-10
The new system for calibration of acceleration sensors offers all the advantages of a mobile calibration system - plus the proven user-friendly interface of SPEKTRA.
Downloads:
Product Video:
- Frequency Range: 5 Hz ... 10 kHz
- Max. Stroke (peak-peak): 5 mm
- Max. Amplitude: 200 m/s²
- Standard Signal Conditioner: DIR, ICP, CHA
- Max. Payload: 900 g
- Weight: 9 kg
Your Advantages:
- Fully operational in a rugged case
- Easy to understand and user-friendly interface
- Smart data processing and system integration
- Connectivity via Ethernet (WiFi as option)
- Transfer data to other SPEKTRA systems
- Comprehensive integrated signal conditioners e.g. for PR sensors (option)
CV-10 Prox
CV-10 Prox
CV-10 Accessory set for proximity sensors
Device for mobile calibrating proximity sensors with the SPEKTRA CV-10.
chevron_right
CV-10 PR
CV-10 PR
CV-10 Extension Module for PR S ensors
mobile check and calibration of piezo-resistive accelerometers - fast and reliable
chevron_right
Adapters & Cables
Adapters & Cables
We offer a wide range of DUT adapters, cables, cable adapters and other accessories for the mobile calibrator CV-10.
chevron_right
Similar Products:
CS18 MF
CS18 MF
Secondary calibration according to ISO 16063-21 (comparison method) of charge type, IEPE, voltage, capacitive and piezo-resistive sensors for acceleration, velocity and displacement, with Sine excitation with high accuracy
chevron_right
CS18P HF
CS18P HF
This system is used as national reference at many National Metrology Institutes (e.g. Switzerland, Poland, Spain, China, Thailand, Singapore and others).
chevron_right
CS18 VLF
CS18 VLF
Secondary calibration according to ISO 16063-21 (comparison method) of charge type, ICP®, voltage, capacitive and piezo-resistive sensors for acceleration, velocity and distance, with Sine excitation with high accuracy
chevron_right
CS18 HF
CS18 HF
Secondary calibration according to ISO 16063-21 (comparison method) of charge type, ICP®, voltage, capacitive and piezo-resistive sensors for acceleration, velocity and distance, with Sine excitation with high accuracy
chevron_right