Amplifier for Voltages to 1000 V
The QuantumX MX403B 4-channel module has been developed specifically for precise acquisition of voltages up to 1000 V. It also allows measurement of small differential voltages at a high electric potential. Its high level of protection is guaranteed through compliance with the latest versions of the IEC 61010 measuring instrument standard as well as certification and production monitoring by the German VDE Association for Electrical, Electronic and Information Technologies.
QuantumX MX403B has four isolated differential measurement channels for direct measurement of voltages up to 1000 V DC or 1000 Vrms AC. The measuring ranges of 10, 100, and 1,000 V can be freely parameterized, and enable both acquisition of high voltages against reference ground and measurement of small differential voltages at a high potential against reference ground.
Every channel offers analog anti-aliasing filters, 24-bit AD converter, and digital filters, and can be individually parameterized. Seamless integration into the established QuantumX series allows synchronous acquisition of mechanical, electrical, and thermal quantities, as well as acquisition of CANbus signals.
The module can be used in the laboratory, in test benches, or in the field. Potential applications include:
In general, QuantumX MX403B is designed for CAT II and CAT III measurement category applications.
|QuantumX MX403B - Caractéristiques téchniques||French|
|QuantumX MX403B - Data Sheet||English|
|QuantumX MX403B - Data Sheet||Chinese|
|QuantumX MX403B - Data Sheet (Japanese)||Japanese|
|QuantumX MX403B - Datenblatt||German|
|QuantumX - Brochure||English|
|QuantumX - Brochure||Chinese|
|QuantumX - Brochure||Japanese|
|QuantumX - Brochure (US-Version)||English (US)|
|QuantumX - Broschüre||German|
|QuantumX - Folheto||Portuguese|
|HBM Common API - User Manual||多語言|
|HBM LabVIEW Driver - User Manual||多語言|
|QuantumX - Bedienungsanleitung||German|
|QuantumX - Manuale di istruzione||Italian|
|QuantumX - Operating Manual||Chinese|
|QuantumX - Operating Manual||English|
|QuantumX - Operating Manual (Japanese)||Japanese|
|QuantumX CANape Driver - Operating Manual||English, German|
|QuantumX CANbus - Operating Manual||English, German|
|QuantumX CX22B / CX22B-W - Operating Manual||German, English|
|QuantumX CX27 Gateway - Operating Manual||English|
|QuantumX Driver per CANape - Manuale di istruzione||Italian|
|QuantumX MX403B / MX809B - Operating Manual||French, German, English|
|Mechanical mounting case clips (CASECLIP)||Italian|
|QuantumX - Mounting case clips||English|
|QuantumX / SomatXR - Uninterruptible Power Supply - Data Sheet||English|
|QuantumX / SomatXR - Unterbrechungsfreie Stromversorgung - Datenblatt||German|
|QuantumX BPX001/BPX002 Backplane - Information||German, English|
|QuantumX Portamoduli BPX001 - Informativa||Italian|
|Declaration of Conformity|
|QuantumX - EU Declaration of Conformity||多語言|
|QuantumX - Product Type Pattern Approval Russia||多語言|
|QuantumX - Product-Type Pattern Approval Russia||多語言|
|QuantumX MX403B - EU Declaration of Conformity||多語言|
TECH NOTE - Analog to Digital Data Path in QuantumX Modules
This TECH NOTE describes in general the digitalization path in QuantumX data acquisition modules, explaining anti-aliasing filter, analog to digital conversion, digital filtering, scaling, datarate and distribution of data within the data acquisition system or to a data sink whether this is a storage medium or gateway.
TECH NOTE - IEEE1588:2008 PTPv2-Switches and Grandmaster Clocks
This TECH NOTE shows available and tested PTP components together with HBM equipment and can be used as reference source giving you some recommendations.
TECH NOTE - IEEE1588:2008 Precision Time Protocol in Data Acquisition and Testing
This TECH NOTE explains the highly accurate time sync mechanism Precision Time Protocol or short PTP, its advantages and its use in Test & Measurement applications.
TECH NOTE - QuantumX and catman AP for electrical power analysis
This TECH NOTE deals with data acquisition in mainly the electrical world with constant or alternating voltage and current and its calculation to electrical power.