16 x voltage inputs, up to +/-10V, 16bit, 2 analog outputs +/- 10V, 16bit, 32 DI/DO, LAN, POE

Measuring module for analog in / out and digital in / out
16 x analog inputs 16 bit, (± 10V, ± 5V, ± 2V, ± 1V)
2 x analog outputs 16 bit, (± 10V )
32 x digital inputs / outputs Choose with SW
Total Sample Rate 250khz
Galvanically Isolated for LAN
Digital Inputs / Outputs are TTL / CMOS <3 x Counter 32 Bit, Max. 16 MHz
pulse, increment decoder or pulse measurement
TCP / IP Ethernet
power supply from PoE or externally with 12-40VDC
synchronized for real-time
comes with programming examples in VB, C++ Delphi ,. Net
Can be used with NextView, LabVIEW and Profilab Graphic
14 days free trial with NEXTVIEW 4

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16 analog inputs with 16-bit solution and 250 kHz total sampling rate. The measurement range (± 10V, ± 5V, ± 2V, ± 1V) is selected via software separately to each channel. The two ± 10V outputs can be used for analogous controls with 16 bit accuracy.
32 digital inputs or outputs. The direction of the two 16-bit ports is set via software.
LAN technology allows for measurement programs over large distances. The number of measurement points where the devices are installed are basically not limited. Data transfer to a server PC is fast and reliable. 3 pieces. 32-bit counters with the heart rate function can e.g. Exactly measure rotation on an axle.
The device can be supplied with power via network (Power over Ethernet). This reduces wiring to a minimum and makes mobile measurements much easier.

Supported by Windows 8.1 and 10 in 64bit. The complete software for installation and programming is delivered free of charge.
The DAQ system is supported by the NEXTVIEW software for data collection and analysis. 14-day trial at www.nextView.de. So it is possible directly to test the functionality of the device.
The number of DAQ systems and thus the number of available channels is limited only by the network bandwidth. More devices can be synchronized with each other. If so, all measured data in distributed operation always keeps time, even with long-term measurements.