Use: 1) EMI regional contacts, 2) AVEVA PI Square (community forum), 3) AVEVA Knowledge Hub (official docs & white papers). For support tickets, register on the EMI Customer Portal to open a “Case”.
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Reporting options include PI Vision (web dashboards), PI Datalink (Excel integration), PI ProcessBook (legacy desktop displays), and AVEVA BI Gateway (advanced BI tools like Power BI).
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Usually no—validation is added on top of existing infrastructure, and it integrates automatically with the AVEVA PI system and OPC data source(s)
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Business decision making and utilization of digital transformation platforms, heavily rely on accurate data input, in order to provide more accurate KPIs, better operational decisions, reduced downtime and trusted analytics and AI enablement.
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Bad or invalid data can be identified with the following parameters: range checks (min/max), outlier detection, flatline detection and cross-variable consistency checks, TDV solution from EMI provides real-time validation detection.
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Data Validation starts with; data acquisition, data cleansing, data consistency checks, contextual validation, rule validation, monitoring & continuous validation, and TDV an EMI solution offers industrial process.
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TDV identifies invalid or unreliable PI System data before it’s used for reporting or analytics. Integrated with a Network Monitoring Tool (NMT), it provides visibility into the PI network’s performance via a single interface.
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Poor data quality causes inaccurate analytics and false alarms. Validated and cleansed data ensures reliable predictive insights and better operational decisions.
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AVEVA Predictive Analytics uses historical and real-time data to detect patterns and early warning signs of equipment failure, reducing downtime and optimizing maintenance planning.
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APM solutions provide ROI through reduced unplanned downtime, optimized maintenance costs, extended asset lifecycle, and improved operational efficiency.
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Timelines vary by scope and complexity. Foundational deployments can take a few months, with phased optimization afterward. Pilot implementations with proof-of-value (POV) projects are recommended.
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HA ensures operational continuity during hardware or software failures. Features include synchronized PI Data Archives for redundancy and AF Failover via Windows Failover Clustering or SQL Always On.
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Use: 1) PI Interface for Performance Monitor – collects Windows performance counters into PI tags, 2) PI System Health (PISysHealth) – monitors PI Server internals, 3) AF Diagnostics – checks AF service latency and health.
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No. The PI AF Service connects to its SQL database using Windows Authentication, requiring a two-way trust between domains. Without trust, a local service account or same-domain setup is needed.
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PI AF is a relational metadata layer that organizes raw data into a hierarchy mimicking your physical plant (Site > Line > Machine > Sensor). Templates ensure consistency across equipment, enabling easier analysis and reporting.
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The PI Server consists of three main pillars: 1) Data Archive – stores and retrieves time-series data, 2) Asset Framework (AF) – organizes data into logical models of equipment, 3) Analysis & Notifications – calculates KPIs in real-time and sends alerts.
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Yes. AVEVA PI integrates seamlessly with SCADA, DCS, CMMS, ERP, and other enterprise systems to create a unified operational data view and centralized visibility.
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The AVEVA PI System is an industrial data infrastructure platform that collects, stores, and analyzes real-time operational data from SCADA, DCS, PLCs, and other sources. It provides actionable insights, enabling better decision-making and performance optimization across the enterprise.
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IT/OT integration connects operational technology systems with enterprise IT platforms, enabling centralized visibility, KPI analytics, advanced reporting, and enterprise-wide digital transformation. AVEVA PI bridges this gap by integrating OT data with IT systems seamlessly.
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| Organizations typically begin with a system assessment and pilot use cases that demonstrate measurable business value before scaling enterprise wide.
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| Industries such as Oil & Gas, Power Generation & Distribution, Utilities, Manufacturing, and Water/Wastewater treatment benefit significantly from real-time data historians and analytics platforms.
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EMI combines 30+ years of industrial expertise with certified OPC integration services for reliable, scalable solutions.
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EMI provides expert support, including server diagnostics, network checks, and configuration guidance.
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OPC DA handles real-time data, while OPC UA provides secure, platform-independent communication with historical and event data.
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Yes, OPC servers can connect with IoT platforms to enable real-time industrial IoT data analytics.
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EMI offers hands-on training, workshops, and documentation for effective OPC implementation.
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It provides automatic failover between OPC servers to maintain continuous data flow.
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Yes, it supports remote data access, monitoring, and control over secure networks.
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Matrikon OPC includes monitoring tools, smart alerts, and troubleshooting features for performance tracking.
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Yes, EMI Softech enables seamless integration of Matrikon OPC with AVEVA PI for enhanced data management.
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Yes, OPC data can feed predictive maintenance and analytics platforms for better decision-making.
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It connects Modbus-compatible devices to OPC clients for real-time data exchange and monitoring.
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Redundancy ensures uninterrupted data access by automatically switching to backup servers if the primary server fails.
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OPC tunneling allows secure and reliable communication between OPC clients and servers across networks.
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Yes, EMI Softech provides consulting, integration, and support services for Matrikon OPC solutions.
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Matrikon OPC ensures secure data transfer with encryption, authentication, and access controls.
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Yes, it easily integrates with SCADA, MES, and HMI systems to enhance real-time data visualization.
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Matrikon offers OPC servers for Modbus, Siemens, Allen-Bradley, and other industrial protocols.
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It provides seamless data exchange, reduces downtime, improves operational efficiency, and supports real-time monitoring.
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Matrikon OPC is a software solution that enables secure and reliable communication between industrial devices and applications.
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HS code is 8537109060.
EMI provides expert technical support with installation, configuration, troubleshooting for ControlByWeb solutions, ensuring you get reliable help without needing to visit external websites.
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You can manage dozens to hundreds of devices centrally through the ControlByWeb Cloud platform.
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Yes, data logging is built-in and can store historical data locally or in the cloud for analysis and reporting.
Response times are usually under one second for local control and a few seconds over remote connections, depending on network conditions.
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Devices use HTTPS, user authentication, and optional VPNs for secure remote access, plus configurable user access levels.
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Yes, they work locally via Ethernet or Wi‑Fi. Internet access is only needed for remote monitoring or cloud features.
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Yes, devices include a user-friendly web interface with wizards for setup, scheduling, alerts, and advanced logic such as complex sensor equations.
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They support digital inputs, digital outputs, analog inputs, analog outputs, temperature sensors, relays, and pulse counters depending on the device model.
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Yes, ControlByWeb devices support protocols like MQTT, Modbus TCP/IP and SNMP, allowing integration with SCADA and other automation systems.
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Yes, devices can be configured to send email alerts when conditions are triggered. SMS alerts are available through email gateways.
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ControlByWeb devices are used in industrial automation, remote monitoring & control, water/waste water, building management, energy monitoring, remote equipment control, weather stations, environmental monitoring, and much more.
No special software is required. Devices can be accessed from any standard web browser.
Yes, ControlByWeb Apps are available for free for iOS and Android. In addition to that, devices can be accessed from web browser on mobile devices after secure log-in.
The X-400 can handle 64 I/O points. The X-600 can handle up to 64 expansion modules, which makes it able to monitor and control 1,024 I/O points. For projects with thousands of I/O points, EMI offers a web-based on-premise software IOPlatform which is dedicated to aggregate and visualize data from thousands of ControlByWeb controllers. This software is stress tested to handle more than 100,000 I/O points.
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Easily scalable. You can start with a deployment of one device or two at the factory and easily scale the system a later stage.
ControlByWeb controllers come with a built-in web server, can be configured through any web browser, do not require a special software – therefore license free.
ControlByWeb controllers do not require ladder logic programming. Configuring logic into the controllers is very simple and user friendly.
ControlByWeb doesn’t lock you into their ecosystem. Devices can be easily integrated into third party hardware and system since ControlByWeb controllers have have open communication protocols like MQTT, Modbus TCP/IP, SNMP, XML, JSON, HTTP, HTTPS, and open API.
ControlByWeb controllers come with a built-in web server, can be configured through any web browser, do not require a special software – therefore license free.
ControlByWeb controllers do not require ladder logic programming. Configuring logic into the controllers is very simple and user friendly.
ControlByWeb doesn’t lock you into their ecosystem. Devices can be easily integrated into third party hardware and system since ControlByWeb controllers have have open communication protocols like MQTT, Modbus TCP/IP, SNMP, XML, JSON, HTTP, HTTPS, and open API.
Yes, ControlByWeb devices are an alternative to expensive PLCs. ControlByWeb devices can operate independently and can connect to SCADA systems as well.
ControlByWeb advanced weather station suite can be easily connected to SCADA systems by Modbus TCP/IP.
Yes, third party sensors can be connected to ControlByWeb controllers.
Yes, third party HMI can be connected to ControlByWeb controllers through Modbus TCP/IP.
ControlByWeb has Modbus RS485 master controller which can be connected to Modbus sensors or slave devices such as smart electric meters through Modbus RS485 bus.
ControlByWeb digital inputs can be configured to be in On/Off mode to monitor the state of a relay.
ControlByWeb digital inputs can be configured to be in counter mode to be used for example on a bottling line).
Digital inputs voltage range: 4-26VDC. Optically-Isolated.
You can connect three types of sensors to ControlByWeb controllers: digital sensors, analog sensors, and Modbus RS485 sensors or devices.
ControlByWeb controllers have open communication protocols like MQTT, Modbus TCP/IP, SNMP, XML, JSON, HTTP, HTTPS, and open API.
Yes, there are ControlByWeb versions with cellular/WiFi connectivity coupled with a satellite fallback connection.
ControlByWeb controllers are perfect to monitor equipment in remote fields since they have cellular connectivity with GPS location with a satellite fallback connection.
ControlByWeb devices are made in USA and have FCC, IEC, CE, UL certifications.
ControlByWeb is a USA manufacturer of Internet of things IoT controllers and sensors with a variety of connectivity options through Ethernet, WiFi, Cellular, and Satellite.
ControlByWeb devices come in either a standalone type or modular type with expansion modules.
ControlByWeb Devices can be accessed through any web browser such as Chrome, Edge, Brave, Firefox. No need for special software to access or configure the device since every controller comes with a built-in web server.
ControlByWeb devices can be easily integrated into SCADA systems, DCS, and data historians such as AVEVA PI System.
All devices have P2P (peer to peer) communication and can easily communicate to each other.
ControlByWeb devices come in either a standalone type or modular type with expansion modules.
ControlByWeb Devices can be accessed through any web browser such as Chrome, Edge, Brave, Firefox. No need for special software to access or configure the device since every controller comes with a built-in web server.
ControlByWeb devices can be easily integrated into SCADA systems, DCS, and data historians such as AVEVA PI System.
All devices have P2P (peer to peer) communication and can easily communicate to each other.