Welcome to the official website of CNIACS Automation Technology Co., Ltd!

Bachmann M-JVIS, M-JSYS Java Libraries

M-JVIS, M-JSYS Java Libraries

M-JVIS and M-JSYS are libraries for creation of visualizations

under Java that can be used platform-independently on

Java-capable devices. The components are based on Java

version 1.1.8.

M-JVIS consists of the following packets:

● M-JVIS/DACC

● M-JVIS/UTIL

● M-JVIS/GUI

The packets are divided into two types of classes:

● Configuration classes that are implemented in the form

of beans

● Runtime classes that permit a dynamic configuration

and during runtime handle the management or presen

tation of the data

The configurations of all objects are stored in XML files.

M-JVIS/DACC

The M-JVIS/DACC packet manages process variables and

their values (DACC = Data Access).

M-JVIS/DACC consists of the following components:

● Process variable management

● Recipe management

● Unit switchover

● Communication interface

M-JVIS/UTIL

The M-JVIS/UTIL packet consists of the following compo

nents:

● Language management / language switchover

● Protocols

● Alarm handling

● Quality table / statistical process control

M-JVIS/GUI

The M-JVIS/GUI packet contains the graphic components.

The graphic components are based on AWT.

M-JVIS/GUI consists of the following components:

● XY diagram

● Table

● Tree view

● Touch screen keyboard

● Input fields

● Button

M-JSYS

The M-JSYS packet permits general access to the control

system:

● Read-out and change of the controller configuration

● RPCs for control

● Access to system software modules

Bachmann The packets are divided into two types of classes

The packets are divided into two types of classes:

● Configuration classes that are implemented in the form

of beans

● Runtime classes that permit a dynamic configuration

and during runtime handle the management or presen

tation of the data

The configurations of all objects are stored in XML files.

M-JVIS/DACC

The M-JVIS/DACC packet manages process variables and

their values (DACC = Data Access).

M-JVIS/DACC consists of the following components:

● Process variable management

● Recipe management

● Unit switchover

● Communication interface

M-JVIS/UTIL

The M-JVIS/UTIL packet consists of the following compo

nents:

● Language management / language switchover

● Protocols

● Alarm handling

● Quality table / statistical process control

M-JVIS/GUI

The M-JVIS/GUI packet contains the graphic components.

The graphic components are based on AWT.

M-JVIS/GUI consists of the following components:

● XY diagram

● Table

● Tree view

● Touch screen keyboard

● Input fields

● Button

M-JSYS

The M-JSYS packet permits general access to the control

system:

● Read-out and change of the controller configuration

● RPCs for control

● Access to system software modules

Bachmann CFA200 MLC CFast Memory for HMI devices only

CFA200 MLC CFast Memory

for HMI devices only

With the high-performance CFast memory cards, system

updates and repairs can be carried out simply and quickly

by changing the mass storage. The CFast memory cards in

use are specially selected industrial types which meet the

requirements of demanding operation conditions.

In contrast to SLC flash memory media, MLC technology

remains reasonably priced even for larger memory capaci

ties. Compared to SLC technology, the lower lifetime is due

to the higher level of wear and tear at the same memory

capacity – depending on the deployment scenario. How

ever, this can be counteracted by choosing a correspond

ingly larger memory capacity.

Features

● Memory capacity 16/32/64/128 GB

● Fast data transfer

● Extended temperature range

Bachmann CFA200 SLC CFast Memory Memory card

CFA200 SLC CFast Memory

The full speed of the SATA interface is available with the

CFast memory card for powerful controllers. Transfer rates

up to 30 times higher than CF cards can be achieved.

Given the high availability demands placed on automation

systems, program and data memory must be selected with

particular care. The CFast memory cards CFA200 SLC are

therefore especially selected industrial types that can cope

with the requirements of harsh daily working routines.

Use of the CFA200 SLC both in CPUs of the M200 family

as well as in our visualization devices is strongly recom

mended due to the extreme environmental conditions, the

large number of supported write cycles and the many years

of lasting experience with suppliers. The robustness was

significantly increased in comparison with a CF card via a

stable edge connector.

Features

● CFast Type I

● Memory capacity 4/8/16 GB

● Fast data transfer

● Write protection via software

● Extended temperature range

● Long lifetime / MTTF

Bachmann Das Web Terminal OT1200 Features

Das auf Debian Linux basierende System stellt eine

einfach zu verwendende, webbasierte Konfigurationsober

fläche zur Verfügung. Sämtliche Einstellungen können per

Touch-Eingaben direkt am Gerät oder remote über einen

Browser vorgenommen werden. Die Systemsoftware bein

haltet weitere nützliche Services (z. B. SSH, NTP, VNC), sowie

eine Web-API mit sicherem Zugriff auf Hardware-Funkti

onen. Damit lassen sich beispielsweise Hardware-Funkti

onstasten auslesen oder LEDs und die Displayhelligkeit aus

Web-Applikationen heraus regeln.

Gerne liefern wir Ihnen eine gewünschte Software-Konfigu

ration auch ab Werk: Auspacken, anstecken, fertig.

Features

● Vorinstallierter Webbrowser mit einfacher Konfiguration

● Gestenbedienung mit PCAP Multi-Touch realisieren

● Ideal für Web-Visualisierungen aller Art

● Visualisierung über OPC-UA als Gesamtpaket mit

atvise® erhältlich

● Brillante Displays mit hoher Auflösung in 7″, 10.1″, 12.1″

und 15.6″ Widescreen

● Cortex®-A9 Dual-Core CPU, 2x ETH 10/100. 2x USB,

CFast-Slot, 4 GB eMMC onboard

● Robuste Ausführung und erweiterter Temperaturbe

reich bis +60 °C

Bachmann Operator Terminal System Software

All operator terminals use system software comprising the

operating system (Linux or Windows Embedded) and addi

tional Bachmann software components.

The Bachmann software components simplify configura

tion, commissioning and diagnostics locally on the device

and remotely via a web browser or the SolutionCenter.

Furthermore, the system software provides the option

of importing updates and accessing the device interfaces

from a visualization.

Additional useful services and software packages are pre

installed on the operating system in order to reduce the

development time for common application scenarios. Thus,

web-based visualization solutions such as M1 webMI pro

and atvise SCADA are very easy to set up. The integrated

browser is tailored to industrial applications and offers,

among other things, an on-screen keyboard (comparable

with a smartphone) for user inputs.

The system software can be extended and adapted to suit

your needs if required and is supplied from the factory

customized with the terminals.

Bachmann Die Operator Terminals der OT1300-Produktserie vereinen

Die neuesten Geräte der OT1300-Produktfamilie mit

projektiven-kapazitiven Multi-Touch bestechen im neuen

Design mit brillanten Full-HD Displays in den Breitbild-Dia

gonalen 10.1″ bis 21.5″. Der konsequente Einsatz von

industrietauglichen Komponenten garantiert Langzeitver

fügbarkeit, eine hohe Lebensdauer und somit Investitions

schutz. Die lüfterlose Bauweise ohne bewegliche Teile

erfüllt höchste Anforderungen an Schock und Vibration.

Features:

● Prozessor/RAM:

Intel Celeron 3955U

Intel Core i3-1115GRE

Intel Core i7-1185GRE

Intel Core i3-6100U

Intel Core i5-6300U

Intel Core i7-6600U

● Ultraschnelle CFast- oder SSD-Massenspeicher

● Integrierte Schnittstellen:

2x GBit/s Ethernet, 2x USB 3.0. 2x USB 2.0. 1x USB-C,

1x HDMI; um zusätzliche Schnittstellen erweiterbar

● Standard-Betriebstemperatur:

0 °C bis +60 °C lüfterlos

● Betriebssystem: Windows 10 IoT Enterprise

● Erweiterter Temperaturbereich auf Anfrage

Bachmann OT1300 Operator Terminal

OT1300 Operator Terminal

Panel-PC Serie

Die Operator Terminals der OT1300-Produktserie vereinen

moderne Technik, Flexibilität, Langzeitverfügbarkeit und

ein modernes Design. Die große Auswahl an Bildschirmdi

agonalen, Leistungsklassen und Massenspeicheroptionen

sichern das optimale Verhältnis zwischen Preis und Perfor

mance.

Durch den Einsatz der 11. Generation von Intel Core

Prozessoren setzt die OT1300-Serie neue Maßstäbe. Per

formance-Engpässe bei Anwendungsprogrammen gehören

damit der Vergangenheit an.

Mit Windows 10 IoT Enterprise kommt ein industrietaugli

ches Embedded-Betriebssystem zum Einsatz. Im Ausliefe

rungszustand ist alles für den reibungslosen Betrieb einer

Web-Visualisierung wie atvise® vorbereitet. Die Installation

ist individuell an Kundenanforderungen anpassbar und für

eine effiziente Inbetriebnahme vorkonfiguriert ab Werk lie

ferbar.

Moog GCE RELIABILITY FEATURES

RELIABILITY FEATURES

• All Parts SEL Immune

• 100% Dual Redundant

• The GCE contains primary and redundant incremental encoder interface circuits

• The GCE contains two primary and two redundant 3 phase motor  drive outputs.

• >15 kRad Standard (100 kRad Option)

• Conduction Cooled Design

• All Parts MIL-883B

OPTIONS

• Single String Version

• RS-422. RD-485. or LVDS interface

• Custom Command & Telemetry ICD

• >2 Motor Versions

• Custom Form Factor

The Moog Broad Reach Gimbal Control Electronics (GCE) system controls and

drives two types of dual axis redundant actuators. The system contains two

primary and two redundant motor drive outputs. These motor drive outputs

control and drive small, three phase Wye, six state, and permanent-magnet

actuators. The GCE contains two primary and redundant incremental encoder

interface circuits. The GCE communicates with the spacecraft via a dual redundant

MIL-STD-1553B bus. The spacecraft provides the 31VDC nominal voltage and

the side enable pulsed discretes. The GCE assembly consists of two identical

Controllers circuit boards, two identical Motor Driver circuit boards, two identical

DC to DC converters boards, two Backplane boards and the chassis.

The GCE implements programmable micro-stepping to reduce jitter in increments

of 1.2.4.8.16.32 or 64 micro steps/cardinal-steps. Current in all phases driven as a

sinusoid for smooth movement. Optical encoder feedback is provided but not

required to command motor movements. Positional feedback, detection of skipped

steps, and state of health (SOH) current for each motor along with 8 variable

power settings per motor are implemented.

Moog Gimbal Control Electronics (GCE)

The high-reliability Gimbal Control Electronics System controls the motion of two

or more motors, such as used in solar array actuators and antenna gimbals.

FEATURES

• Use pulsed discretes to turn on active side

• Spacecraft Interface via dual redundant Mil-STD-1553B buses

• Uses +5 V and ±15 V DC/DC Converters with separate EMI Filter

• Motor drive has micro-stepping capabilities

• Motor uses half Bridge driver and QuadPower Mosfet to drive the motor

• Provides 8 Iset power points for each motor

• Provides Encoder LED bias current selectable 20 mA or 35 mA

• Provides SOH Monitoring circuit, 12 bit ADC (internal  voltages and motor current)

• Provides 1 mA constant current for PRTs and Thermistors (8)

GIMBAL CONTROL ELECTRONICS

MASS, POWER, DIMENSIONS

• 3.8 kg

• 24 to 35V Input

• 12 W Nominal per active side (excluding motor current)

• 190 mm x 158 mm x 118 mm

• -10°C to +40°C Operational Temperature

• -20°C to +50°C Qualification Temperature

Search for products

Back to Top
Product has been added to your cart