PiControl Solutions
PiControl Solutions

APC200 - Advanced Process Control Training Course

Hands-on advanced process control training on real-time simulation software - 3 days in the classroom or 21 hours online, building cascade, constraint, model-based, and dead-time-compensated control schemes from real plant data.

PITOPS + SIMCET real-time softwarePDH/CEU eligible completion certificate
Overview

Industrial Advanced Process Control Design

The APC200 advanced process control training course teaches engineers, technicians, and supervisors to design, build, and commission optimizing controllers inside the DCS or PLC using real-time process control software. Known formally as PiControl's Industrial Advanced Process Control Design course, APC200 runs as 3 days of classroom training or 21 hours online, with lab sessions on the PITOPS and SIMCET software from the first day.

APC200 begins where PID100 ends. Attendees use real time-series plant data to identify multivariable closed-loop and open-loop dynamics, then build control schemes entirely inside PITOPS: cascade, constraint override, maximizing and minimizing constraint controllers, selectors, model-based controllers, dead-time compensators, and more. The course also covers advanced PID controller functions in greater depth, and closes with the practical judgment call of when to use traditional advanced regulatory control and when to use multivariable model-predictive control.

Curriculum

What You Learn in the APC200 Advanced Process Control Course

APC200 moves from process control hierarchy and APC strategy selection to applied controller design, with lab sessions on real plant data throughout. After completing the course, attendees can study a process and its P&IDs, talk to the right people in the plant or control room, and then design and build controllers in the DCS or PLC. Attendees become skilled in PID tuning, feedforward implementation, and parameter specification for every controller type in the DCS or PLC, and use process control software to calculate tuning and other DCS parameters scientifically rather than by guesswork.

The course also trains attendees to commission new control schemes carefully: avoiding common activation mistakes and starting up a control chain in the correct sequence. The following topics are covered.

Module 01 · 5 topics

APC fundamentals and strategy selection

  • Process control hierarchy
  • Advanced process control (APC) options and strategies
  • Need for automatic process control
  • Benefits of process control
  • How to maximize throughput and minimize utilities using APC
Module 02 · 10 topics

Feedforward, cascade, and constraint control

  • Feedforward control theory and calculations
  • Feedforward lab session using PITOPS
  • Decoupler strategies
  • Advanced cascade control
  • Cascade control lab session illustrating an AC-TC triple cascade
  • Cascade control tuning guidelines
  • Constraint override selector control procedures and calculations
  • How to build correct DCS configuration for long-chain control schemes
  • Startup and chain activation procedures in the DCS
  • Practical rules and tips for PID and APC schemes
Module 03 · 7 topics

Model-based control and dead-time compensation

  • Model-based control
  • Bias update for automatic control
  • Closed-loop dynamics
  • GC-based online correction and PV sample hold
  • Using rigorous models for closed-loop control
  • Advanced control with PID integration dead-time compensation
  • Internal model-based control, with a lab session
Module 04 · 8 topics

System identification labs using real plant data

  • Identifying process dynamics from operator experience and knowledge
  • Identifying process dynamics from DCS trends and historical data
  • Continued lab sessions on system identification and tuning optimization
  • Identification of SISO closed-loop process transfer functions
  • Multi-input closed-loop transfer function identification
  • Identifying process dynamics by analyzing actual time-sampled data
  • Lab session using PITOPS to identify first and second order transfer functions from real plant data
  • Lab session using PITOPS to identify multivariable transfer functions from real plant data in closed-loop mode
Module 05 · 6 topics

MPC selection, troubleshooting, and online monitoring

  • Model-predictive control
  • When to use PID, cascade PID, advanced regulatory control, DMC, RMPCT, and rule-based control
  • Identifying, debugging, and troubleshooting PID tuning and process control problems
  • Online PID and APC control quality monitoring and reporting
  • Online oscillation detection and online control sluggishness detection
  • PID control quality alerting to smartphones for proactive maintenance

The process control software used in APC200 is straightforward enough that new and less experienced technicians can follow the course comfortably, so these topics remain accessible across plant roles.

Who the Course Is For

APC200 is built for the people who design and maintain advanced control schemes in the plant: process control engineers, advanced process control engineers, instrument engineers, lab technicians, DCS and PLC technicians, managers, and supervisors. Completion of the PID100 course is required, because APC200 assumes a working command of PID tuning and builds directly on top of it. A 2-year or 4-year degree in engineering or operations is recommended, and a few months of plant or engineering experience is desirable but not mandatory.

01

Process control engineers

Study a process and its P&IDs, identify multivariable dynamics from real plant data, and design, build, and commission control schemes entirely inside PITOPS.

02

Operators, technicians & lab staff

No advanced programming knowledge is required. Concepts are introduced progressively, so lab technicians and operators moving into a control engineering role can follow the material and complete the exercises.

03

Managers & supervisors

Gain the vocabulary and judgment to evaluate APC proposals, sequence a control upgrade, and understand what the engineering team is committing to, without needing to operate the process optimization software directly.

Bring your whole team

APC200 also suits full teams from a single plant. Group participation works well when a team is responsible for an APC project or a DCS upgrade, and custom corporate sessions are available in which examples and labs are tailored to your own control environment and industry processes. Onsite training is available on request so a team trains together on its own loops and its own data.

Schedule On-Site Training
Hands-on labs

Hands-On Labs With PITOPS and SIMCET

Hands-on labs separate a working advanced process control course from a lecture. This is why APC200 is taught on production process control software rather than on classroom exercises. APC design fails most often at commissioning rather than at the whiteboard, so engineers learn most when they identify dynamics from their own kind of plant data and build the scheme themselves. APC200 uses closed-loop PID tuning software, the PITOPS software PiControl uses to extract process models from normal operating data without open-loop step tests, as the lab environment for every design exercise: feedforward, triple cascade, internal model-based control, and multivariable closed-loop identification.

Attendees work with real time-series plant data rather than idealized examples, identifying SISO and multivariable closed-loop transfer functions and then building the control scheme on top of the model they just produced. This is the same closed-loop system identification method PiControl applies in production plants. The SIMCET real-time simulator supports the PID work the APC schemes depend on, and for the theory underneath the whole course, APC200 draws on the Advanced Process Control Guide.

Engineers who continue past the course into full multivariable projects move on to closed-loop MPC model identification and, where a plant wants the work delivered rather than taught, DCS-resident advanced process control.

SIMCET · LOOP TC-104REAL-TIMEPVSPSETPOINT CHANGEt →GAIN Kc1.84RESET Ti42sRATE Td6.5sTUNING GRADEA · 96%
PITOPS · LOOP TC-104MODEL FITPVPLANT DATAPITOPS MODELt →GAIN K1.42TIME CONST38sDEAD TIME6.2sMODEL FITR² 98.4%
SIMCET · real-time software used in every APC200 lab
Certification & materials

Certification and Course Materials

APC200 attendees receive a PiControl Certified APC200 Completion Certificate, which supports professional development records and can be added to a resume or LinkedIn profile. Many organizations and licensing boards accept APC200 training hours as PDH or CEU credits; check with your local authority, and PiControl provides documentation support on request. Skill is assessed through automated performance reporting inside the process control software, covering APC implementation, PID tuning effectiveness, and control quality, rather than through a written exam alone.

All course materials are provided, including training slides and temporary software licenses, so attendees do not need to bring anything. You may bring your own plant data for the practical exercises if your organization pre-approves it. Online participants receive recorded sessions, so a missed session can be caught up with instructor approval. After the course, attendees keep trial licenses for PITOPS and SIMCET for further practice, with post-training licensing packages available for continued use, and are invited to the PiControl alumni LinkedIn group to discuss control problems with other engineers. For employers, PiControl supplies pre- and post-training assessment tools, plant-specific problem-solving tasks, and performance benchmarks to quantify the value of trained staff.

  • Completion certificate
  • PDH & CEU eligible
  • Digital training materials
  • Temporary software licenses
  • Recorded online sessions
  • Alumni LinkedIn group
Download the Syllabus
PiControl Solutions
Certificate of Completion
APC200
Industrial Advanced Process Control Design
Instructor
Date
FAQ

APC200 Frequently Asked Questions

Short answers to the questions engineers ask most before enrolling in the APC200 advanced process control course.

APC200 runs as 3 days of classroom training or 21 hours online. The classroom format is instructor-led, and the online format lets engineers complete the course around plant duties. Both formats cover the same curriculum and the same labs on PiControl's process control software.
Yes. Completion of PID100 is required, because APC200 builds directly on PID tuning skills. A 2-year or 4-year degree in engineering or operations is recommended, and a few months of plant or engineering experience is desirable but not mandatory.
APC200 is designed for process control engineers, advanced process control engineers, instrument engineers, lab technicians, DCS and PLC technicians, managers, and supervisors. Anyone responsible for designing, commissioning, or approving advanced control schemes benefits from the course.
APC200 uses PITOPS and SIMCET, plus Process Control CBT, ACSSI, and training slides. Attendees build control schemes and identify process dynamics on the real-time software rather than working only from theory.
Yes. Attendees run lab sessions in PITOPS using real time-series plant data, covering feedforward control, triple cascade control, internal model-based control, system identification, and multivariable transfer function analysis. Hands-on design, parameter calculation, and performance diagnosis on real-world cases is one of the course's defining features.
APC200 covers feedforward control, decoupler strategies, advanced cascade control, constraint override selector control, model-based and internal model-based control, dead-time compensation, and model-predictive control, along with the judgment of when to apply each one. Each technique is designed and tested in advanced process control software before it reaches the DCS.
Yes. APC200 is vendor-agnostic and applies across controllers from different manufacturers, because the methods are based on real process data and process dynamics rather than navigation of one manufacturer's configuration environment.
Attendees receive a PiControl Certified APC200 Completion Certificate. It documents completion of the course and can be added to professional credentials or a LinkedIn profile.
Many organizations and licensing boards accept APC200 training hours as PDH or CEU credits. Confirm with your local authority, and contact PiControl for documentation support.
Yes. Attendees receive trial licenses for PITOPS and SIMCET for further practice after the course, and PiControl offers post-training licensing packages for continued use.
Yes. PiControl runs onsite and private training for engineering teams worldwide, and custom corporate sessions can tailor the examples and labs to your plant's control environment and industry processes. Contact PiControl for a quote based on group size and location.
Enroll now

Register for APC200

Register for APC200 to give your engineering team the ability to design, build, and commission advanced control schemes in your own DCS or PLC, using the same process control software PiControl applies in operating plants, with a completion certificate on finishing. Online, 3-day classroom, and onsite formats are available, so teams in any location or time zone can start.

Supporting resources: Download the course syllabus. Questions: info@PiControlSolutions.com, Tel: (832) 495 6436.