The BSP delivered with the phyCORE-STM32MP1 usually includes drivers and/or software for controlling all components such as interfaces, memory, etc. Programming close to hardware at the register level is not necessary in most cases. For this reason, this manual contains no detailed description of the controller's registers or information relevant to software development. Please refer to the STM32MP157C Reference Manual, if such information is needed to connect customer designed applications.

PHYTEC delivers expansion boards like the HDMI interface (PEB-AV-01) or LCD screen module (PEB-AV-02) that can be plugged on those two connectors. PEB-AV-02 module is used to connect a capacitive/resistive touchscreen 7'' display. For resistive touchscreen, the phyBOARD is equipped with a STMPE811 resistive touchscreen driver at U20 (I2C address 0x44 or 0x41).

Ac4 Usb To Rs485 Converter Driver For Mac

Download: https://tinurll.com/2vFUM6

Since the 1980s, helium-3 has been used as a converter in neutron detectors. A high cross section for neutron conversion, low gamma sensitivity, stability of response and flexibility of the design geometry make helium-3 an ideal converter for neutron detection. The so-called helium-3 crisis in 2009 has triggered worldwide research into alternative neutron detection concepts. Although it has become scarce and expensive ever since, helium-3 is still the gold standard of neutron detection.

In particular for ESS, over half of the detectors will be based upon thin film converters of 10Boron Carbide. The highlights of the developments so far over the past 6 years are shown. In particular, examples of how these have been tested to determine that scientific requirements are met are shown, based upon demonstrating key aspects of scientific performance. Additionally for the first time, simulation of detailed detector and instrumental performance has been used to refine and determine the detector design. The state of the art of these simulation techniques is shown as well as future prospects.

The different types of instruments for condensed matter investigation on the external beams of the IBR-2 pulsed research reactor in Frank Laboratory of Neutron Physics of Joint Institute for Nuclear Research (FLNP JINR) require different neutron detectors for them. This leads to the necessity of developing a variety of detectors in the Laboratory that are used in experiments. The neutron detection systems developed and used at the instruments on the external beams of the IBR-2 pulsed research reactor (gaseous 3He based detectors: 1D and 2D detectors (MWPC), "ring" detectors; 6Li scintillator based detectors with wavelength shifting fibers, detectors and monitors with solid 10B converters etc.) as well as the current status and projects carried out at FLNP on development of detectors and data acquisition systems will be presented.

To connect the spectrometer hardware to PC the USB-RS485/232 interface is used.Control system of executive mechanisms is based on interface RS 485. AC4 USB-RS485 adapter (OWEN) communicates with a PC via the RS485 group up to 32 stepper motor controllers OSM42 or OSM88 (Onitex) by RS485 link.Data acquisition system from sensors is also based on the RS485 interface. AC4 adapter communicates with a PC via the RS485 group up to 32 controllers LIR915 (SSI-RS485, SKB IS"). Controllers LIR915 are used for information retrieval from the absolute multi-turn angular sensors MCD (FRABA Inc.).To connect devices with RS232 interface to the RS485 line. RS485-RS232 converters are used. As part of spectrometers temperature controllers such as LakeShore (LakeShore Cryotroniccs Inc.) is used, DT670 sensors and thermocouples as E and K.

The neutron scattering instruments of the Jülich Centre for Neutron Science JCNS with allsubstations are continuously developed and improved. A key role is taken by motion controlsolutions that are tuned to specific requirements of science or developed as a standard forcross-instrumental tasks. Alongside with the mechanics, the electric motor with its differentcharacteristics as an electromechanical converter and with the support of current controltechnologies is a central element for the automation of a neutron instrument.The development of new hard- and software products is extremely fast with shortinnovation cycles. 2ff7e9595c