A brief description of tasks and ongoing projects

We specialize in carrying out projects in the electrical and instrumentation industries, including inter-industry coordination (constructional, structural and technological). We make arrangements and develop uniform power supply and control standards for all sub-suppliers.

Design scopes:

  • Complete electrical installations (LV, MV and works related to, among others, connecting block transformers to the 110 [kV] and 220 [kV] HV networks),
  • Traditional communication networks (e.g. Ethernet 7 cat., ProfiBus,….) and fiber optic networks
  • Complete I&C installations, stainless steel impulse routes, ..
  • Software for control and visualization systems,
  • Performing complete electrical measurements, including Ex intrinsically safe circuits in potentially explosive zones, lighting, and other measurements required at a given facility,
  • Tests and commissioning of the installation, including trial and adjustment operations,
  • Preparation of complete operational and repair instructions, including commissioning and staff training,
  • Developments ranging from designs and inter-industry coordination to installation, software and commissioning.

Branches of industry:

  • Commercial power industry (including Kozienice Power Plant, Opole Power Plant, Stalowa Wola Power Plant)
  • hermal energy (EC-Wrocław, EC-Gdańsk, EC-Żerań, EC-Bielsko Biała)
  • Refineries, chemical and metallurgical industries (Rafineria Trzebinia, Siarkopol Tarnobrzeg, KGHM)
  • ines and gas switching stations (LMG, Kopalnia Dzików, Wilków, Tarnów…)
  • Automotive industry (GoodYear, Michelin, MERCEDES, BENTLEY)
  • Food and brewing industry (MasterFood, HORTEX, Browar Leżajsk, Browar Okocim)
  • Aerospace and defense industry (PZL Świdnik, METZELER – for BOEING and AIR BUS, Tank and special platforms),
  • LNG gas terminal ŚWINOUJŚCIE

Reference

Selected projects conducted in recent years.

  1. “Połaniec” Power Plant – 200 [MW] power unit (150 drives with regulations for approx. 1,300 signals). Design of the I&C facility part and connection to the OVATION system by WESTINGHOUSE.
  2. “Kozienice” Power Plant – unit no. 9 – 500 [MW] power unit (approx. 140 three-position control valves, approx. 450 flaps and gate valves controlled by contactors, 160 pneumatic drives, 23 hydraulic drives, 11 speed-controlled drives) Design of the I&C facility part and connection to the OVATION system by WESTINGHOUSE.
  3. “Kozienice” Power Plant – Ash sending station – section I (approx. 600 signals) Design of the digital part in the SIMATIC S5-115H system from SIEMENS. Delivery, assembly, software and commissioning of the SIMATIC S5-115H system with the InTouch V5.0 visualization system from WONDERWARE. Ethernet connection – SINEC H1 cable.
  4. “Kozienice” Power Plant – auxiliary switchboard 6 [kV] PR1 (approx. 1200 signals) Design of the digital part in the SIMATIC S5-135U system from SIEMENS. Delivery, assembly, software and commissioning of the SIMATIC S5-135U system with the WIN CC V4.0 visualization system from SIEMENS. SINEC H1 fiber optic connection.
  5. “Kozienice” Power Plant – water treatment plant of 200 [MW] units (approx. 400 signals). Design of the digital part in a system of two SIMATIC S7-314 and one S5-155U controllers from SIEMENS. Delivery, assembly, software and commissioning of the SIMATIC system along with the WIN CC V4.0 visualization system from SIEMENS. SINEC H1 fiber optic connection.
  6. “Kozienice” Power Plant – Coaling, Stage II (approx. 1,000 signals). Design of the digital part in the SIMATIC S7-400 system from SIEMENS. Delivery, assembly, software and commissioning of the SIMATIC system along with the WIN CC V4.0 visualization system from SIEMENS. SINEC H1 fiber optic connection.
  7. “Kozienice” Power Plant – Ash Removal Installation (approx. 2,500 signals). Replacement and commissioning of the visualization system. Use of WIN CC V4.0 from SIEMENS instead of InTouch from Wonderware.
  8. KiZPS “SIARKOPOL” Tarnobrzeg – Installation for the production of technologically new fertilizer (approx. 500 signals). Design of the object and digital part in the SIMATIC S7-300 system from SIEMENS. Delivery, assembly, software and commissioning of the SIMATIC system with the OP37 operating panel.
  9. UNILEVER – Trzebinia – Oil hardening installation (approx. 500 signals). Design of the object and digital part in the SIMATIC S7-300 system from SIEMENS. Fiber optic communication between controllers. Delivery, assembly, software and commissioning of the SIMATIC system along with the WinCC visualization system.
  10. UNILEVER – Katowice – Instrumentation and control installation for storage tanks (approx. 500 signals). Design of the digital part in the SIMATIC S7-300 system from SIEMENS. Fiber optic communication between controllers. Software and commissioning of the SIMATIC system with the WinCC visualization system.
  11. Pątnów Power Plant – Combustion control system for unit no. 2 – 200MW (approx. 100 signals). Design of the object and digital part in the SIMATIC S7-300 system from SIEMENS. Software and commissioning of the SIMATIC system with the OP37 operating panel.
  12. Pątnów Power Plant – Combustion control system for unit no. 5 – 200MW (approx. 100 signals) Design of the object and digital part in the SIMATIC S7-300 system from SIEMENS. Software and commissioning of the SIMATIC system with the OP37 operating panel.
  13. Kozienice Power Plant – Control system for the loader and stacker. Design of the object and digital part in the SIMATIC S7-200 system, radio modem communication. Software and commissioning of the SIMATIC system.
  14. “Kozienice” Power Plant – Ash sending station, part III (approx. 600 signals) Design of the digital part in the SIMATIC S7-300 system from SIEMENS. Delivery, assembly, software and commissioning of the SIMATIC S7 system with the WinCC visualization system.
  15. “Kozienice” Power Plant – auxiliary switching station 6 [kV] PR4 (approx. 1200 signals). Design of the digital part in the SIMATIC S7-400 system from SIEMENS. Delivery, assembly, software and commissioning of the SIMATIC S7-400 system with the WIN CC V4.02 visualization system from SIEMENS. SINEC H1 fiber optic connection.
  16. HORTEX Plant in Przysucha near Radom – Start-up of the carrot puree production line. Start-up of the line – removal of control faults in the S5-115U controller and verification of graphics in the OP37 panel (SIEMENS).
  17. Hortex Plant in Ryki near Lublin – start-up of the frozen food production line. Commissioning of the line – Network of Allan-Bradley controllers 1xSLC500, 3xML1500, 4x operator panel, RH485 bus: Removal of faults limiting proper operation, expansion of the control system with additional sensors.
  18. THOMSON – Żyrardów – Software for automatic operation of two lines for automatic assembly of television motherboards (line no. 1 and 3). Each line has three testers, 6 manual control stations, a soldering line and a line for manual component replenishment. Transport between the stations is provided by a system of roller conveyors which, depending on signals from the testers, direct the boards to different parts of the line. The control function was implemented based on a network of 23 Modicon TSX and 1x COMPACT controllers (for each line).
  19. Tire Company “DĘBICA” – Modernization and renovation of the existing installation for feeding liquid raw materials in two warehouses MS-1 and MS-2. Software for two ALLEN-BRADLEY controllers (approx. 600 signals). Software for three operator stations using the RS-VIEW program. Full service (logistical and technical) of liquid raw materials warehouses.
  20. “Kozienice” Power Plant – visualization of the operation of the excitation control system on unit No. 9. The excitation control system was implemented by ENERGOTEST Gdańsk based on the ALSTOM controller and the SIMATIC S7-300 controller. These devices communicate with the operator station programmed by us and the OP27 operator panel via PROFIBUS DP.
  21. Tire Company “DĘBICA” – Modernization and renovation of the heating plant. Relocation, inspection and connection of three exchangers from the old installation to the new one. Construction of a complete technological installation, including circulation pumps and a desilter. Construction of electrical and automation installations.
  22. HORTEX Plant in Przysucha near Radom – Construction of a complete juice bottling line. Electrical and instrumentation design. Execution of complete technological works (tanks, piping, overpasses, media connection, connection panels, pumps, filters, mixers). Construction of electrical and automation installations with cabinets. Software for the S5-115U controller, frequency converters, OP-37 panel. Activation of the installation.
  23. EC-Kawęczyn – Complete modernization of carburizing in the control part. Design of the digital and object parts in the SAIA PCD-4 system with PCD-3 remote cassettes. Delivery, assembly, software and commissioning of the digital control system along with the WIZCON visualization system ver. 8.3 by AXEDA. ETHERNET fiber optic connection. PROFIBUS-DP fiber optic connection. Monitoring system based on a fiber optic network.
  24. Tire Company “DĘBICA” – Modernization and mechanical overhaul of bead wire from the GoodYear plant in Australia. Execution of electrical installation and automation based on Allen-Bradley servo drives, SLC-500 controller, RS-View visualization with a touch panel.
  25. MICHELIN Olsztyn – mechanical and electrical design, construction and commissioning of the Horizontal Machine. Allen-Bradley SLC-500 controller, RS-View visualization with a touch panel and industrial computer, systems based on Allen-Bradley ULTRA 3000 series servo drives.
  26. EC-Żerań – Complete modernization of measurement in heating areas in terms of design, execution of impulse and heating routes, replacement of transducers with new generation EMERSON 3051S1 series transducers (with parameter stability for at least 10 years) and introduction of new points to the Westinghouse system.
  27. Tire Company “DĘBICA” – Complete project, supervision and modernization of the mixer drive. The modernization included adapting the 6 [kV] switchboard to handle the new system. Installation of a 6 [kV] converter with an 18-pulse transformer and an auxiliary transformer from Allen-Bradley. Installation and connection of a 6 [kV] motor with a power of 1.2 [MW] with an encoder. Connecting the system to the SLC-500 controller and visualization.
  28. Tire Company “DĘBICA” – design, construction and commissioning of the tread cooling system on the Berstorff line.
  29. EC-Żerań – design, construction, software and launch of the biomass co-combustion system. S7-314 2DP controller from SIEMENS with integration into the METSO master control system, technological devices, power supply along with the construction of an electrical switchboard.
  30. Tire Company “DĘBICA” – modernization of the packaging machine for the production of tires with high speed indexes. Design, implementation and commissioning of a pneumatic and electric control system using a multi-axis positioning system using KINETIX servo drives from AllenBradley. – six PR1C machines
  31. Tire Company “DĘBICA” – modernization of the packaging machine for the production of tires with high speed indexes. Design, implementation and commissioning of a pneumatic and electric control system using a multi-axis positioning system using KINETIX servo drives from AllenBradley. – six RS-1216 machines.
  32. “Kozienice” Power Plant – design, implementation, software and launch of a digital control system and visualization of the operation of the BUSLER excitation control system, SIPROTEC digital protections, AZR systems in the P6 and K6 switchboard for unit No. 6. The excitation control system was implemented by ENERGOTEST Gdańsk based on BUSLER regulator and SIMATIC S7-412 controllers – 4 sets. Communication via ETHERNET TCPiP protocol, “TURBORING” fiber optic links 100 Mbit/s.
  33. Voronezh (Russia) – Participation in the launch of an automatic building ceramics factory based on S7-416 controllers from SIEMENS.
  34. Kozienice” Power Plant – design, implementation, software and launch of a digital air compressor cooling control system. Regulation and control system based on the SIMATIC S7-314 controller. Communication via ETHERNET TCPiP protocol, 100 Mbit/s fiber optic links.
  35. Lagenbeck (Germany) – Participation in the launch of an automatic building ceramics factory based on SIEMENS S7-416 controllers.
  36. EC-Białystok – I&C design, implementation, software and launch of the biomass feeding system. Two S7-314 2DP controllers from SIEMENS with integration into the HONEYWELL master control system, billing system, traffic management at the biomass yard.
  37. “Kozienice” Power Plant – I&C and technology design, implementation, software and launch of a complete control and visualization system for the experimental oil feeding installation for BLOCK No. 1. Regulation and control system based on the SIMATIC S7-314 controller. WIN-CC visualization. Communication via ETHERNET TCPiP protocol, 100 Mbit/s fiber optic links.
  38. Madrid (Spain) – Participation in the launch of an automatic building ceramics factory based on S7-416 controllers from SIEMENS.
  39. “Kozienice” Power Plant – design, implementation, software and launch of the digital control and visualization system for electrostatic precipitators and ash pumps of units “1, 2, 5, 6, 7. Regulation and control system based on the SIMATIC S7-314 controller. Communication via ETHERNET TCPiP protocol, 100 Mbit/s fiber optic links.
  40. “Kozienice” Power Plant – electrical, instrumentation, technological and construction design of the dredging pumping station No. 2 based on the SIMATIC S7-314 controller. Communication via ETHERNET TCPiP protocol, 100 Mbit/s fiber optic links.
  41. Rostof nad Don (Russia) – design, implementation and commissioning of the control system for feeding and removing furnace charges in an aluminum smelter. Regulation and control system based on the SIMATIC S7-314 controller and the MP-170 operator panel.
  42. EC-Kawęczyn – Complete modernization of boiler no. 4. Design of the digital and object parts in the YOKOGAWA system. Delivery, assembly and commissioning of the facility part and the 6[kV] and 0.4[kV] switchboard. Delivery, assembly, software and commissioning of the YOKOGAWA digital control system. ETHERNET and MODBUS RTU fiber optic connection. PROFIBUS-DP fiber optic connection. Monitoring system based on a fiber optic network.
  43. “Kozienice” Power Plant – Modernization of the digital security part of BLOCK No. 6. Electrical design, instrumentation and control, software and launch of a digital control and visualization system based on two WIN-CC ver.7.x visualization stations and an engineering station with STEP 7 software. Communication, visualization and control of 6 [kV] switchboard bays with SEPAM series 40 protection. Control and visualization of four AZRS machines from ENERGOTEST Gliwice. Control, communication via the PROFIBUS-DP protocol and protection visualization of the SIPROTEC generator type 7SJ62, 7UT63, 7UM62. Visualization and control of the primary and reserve excitation system based on two BASLER Elektric modules. The control system is based on four SIMATIC S7-412 2DP controllers. The sum of binary and analog signals is approx. 2000. Communication via ETHERNET TCPiP, MODBUS/TCP, Profibus-DP, MODBUS RTU, fiber optic links 1 Gbit/s.
  44. ORANGE – implementation and launch of a wired and wireless communication system at the “Kraków” plant. Construction and participation in the launch of 12 server cabinets with Fo and Cu distribution frames.
  45. PHILIP-MORIS – implementation and launch of a wired and wireless communication system at the “Kraków” plant. Construction and participation in the launch of 20 server cabinets with Fo and Cu distribution frames.
  46. “Kozienice” Power Plant – Modernization of the digital security part of BLOCK No. 8. Electrical design, instrumentation and control, software and launch of a digital control and visualization system based on two WIN-CC ver.7.x visualization stations and an engineering station with STEP 7 software. Communication, visualization and control of 6 [kV] switchboard bays with SEPAM series 40 protections. Control and visualization of four AZRS automatic machines from ENERGOTEST Gliwice. Control, communication via the PROFIBUS-DP protocol and protection visualization of the SIPROTEC generator type 7SJ62, 7UT63, 7UM62. Visualization and control of the primary and reserve excitation system based on two BASLER Elektric modules. The control system is based on four SIMATIC S7-412 2DP controllers. The sum of binary and analog signals is approx. 2000. Communication via ETHERNET TCPiP, MODBUS/TCP, Profibus-DP, MODBUS RTU, fiber optic links 1 Gbit/s.
  47. Heat and Power Plant “BIAŁYSTOK” – design, instrumentation, control and fire protection, industrial cameras, implementation, software and commissioning of a digital control and visualization system, reception, unloading, storage and feeding of biomass. Regulation and control system based on SIMATIC S7-314 controllers, approx. 1200 binary and digital signals. Communication via ETHERNET TCPiP, Profibus-DP, MODBUS protocol, 100 Mbit/s fiber optic connections.
  48. “Kozienice” Power Plant – electrical, construction, technological and I&C design, fire protection, implementation, software and launch of a digital control and visualization system for the reception, unloading, storage and feeding of biomass. Regulation and control system based on SIMATIC S7-314 controllers, approx. 400 binary and digital signals. Communication via ETHERNET TCPiP, Profibus-DP, MODBUS protocol, 100 Mbit/s fiber optic connections.
  49. “Kozienice” Power Plant – Modernization of the digital security part of BLOCK No. 7. Electrical design, instrumentation and control, software and launch of a digital control and visualization system based on two WIN-CC ver.7.x visualization stations and an engineering station with STEP 7 software. Communication, visualization and control of 6 [kV] switchboard bays with SEPAM series 40 protection.Control and visualization of four AZRS machines from ENERGOTEST Gliwice. Control, communication via the PROFIBUS-DP protocol and protection visualization of the SIPROTEC generator type 7SJ62, 7UT63, 7UM62. Visualization and control of the primary and reserve excitation system based on two BASLER Elektric modules. The control system is based on four SIMATIC S7-412 2DP controllers. The sum of binary and analog signals is approx. 2000. Communication via ETHERNET TCPiP, MODBUS/TCP, Profibus-DP, MODBUS RTU, fiber optic links 1 Gbit/s.
  50. Heat and Power Plant “WROCŁAW” – electrical design, instrumentation and control, implementation, software and launch of a digital control and visualization system for receiving, unloading, storing and feeding biomass. Regulation and control system based on SIMATIC S7-412 controllers, approx. 1200 binary and digital signals. Communication via ETHERNET TCPiP, Profibus-DP, MODBUS protocol, 100 Mbit/s fiber optic connections.
  51. “Kozienice” Power Plant – Installation and commissioning of four coal samplers from yard conveyors T17, T18, T117, T118. Construction, electrical, control and instrumentation design, software and launch of a digital control and visualization system based on two WIN-CC ver.6.x visualization stations. The control system is based on four SIMATIC S7-226 controllers with local visualization using graphic operator panels. The sum of binary and analog signals is approx. 600. Communication via ETHERNET TCPiP, MODBUS/TCP protocols, fiber optic links 100 Mbit/s.
  52. “Kozienice” Power Plant – Project. installation and commissioning of the electrostatic precipitator of unit no. 10 of the 500 [MW] unit. I&C design, software and launch of a digital control and visualization system based on two WIN-CC ver.6.x visualization stations in the ash removal control room, one WIN-CC ver.7.x visualization station in the block control room and an MP277 operator panel in the electrostatic precipitator installation switchboard. The control system is based on SIMATIC S7-414 2 DP controllers with local visualization using graphic operator panels. The sum of binary and analog signals is approximately 600. Communication via ETHERNET TCPiP, MODBUS/TCP protocols, 1 Gbit/s fiber optic links.
  53. “Kozienice” Power Plant – Modernization of the excitation of BLOCK No. 10. Electrical design, instrumentation and control, software and launch of a digital control and visualization system based on two WIN-CC ver.7.x visualization stations. Visualization and control of the primary and reserve excitation system based on two modules BASLER Electric. The control system is based on SIMATIC S7-412 2DP and SIMATIC S7-314 2DP controllers. The sum of binary and analog signals is approx. 200. Communication via ETHERNET TCPiP, MODBUS/TCP, Profibus-DP, MODBUS RTU, fiber optic links 1 Gbit/s.
  54. Building Ceramics Plant – CHMIELÓW Complete mechanical, electrical and instrumentation assembly for the building ceramics production line, including: mixing room, forming, drying room, furnace, loading and unloading and packaging line. Participation in the launch of an automatic building ceramics factory based on S7-416 controllers from SIEMENS, SEW drives, industrial robots from FANUC. Work carried out with the participation of KELLER-HCW from Germany. The sum of binary and analog signals is approx. 1200. Communication via the ETHERNET TCPiP, MODBUS/TCP, Profibus-DP protocol.
  55. Karpacka Spółka Gazownictwa – “Construction of the administration and office building of KSG Sp. z o. o. in Tarnów at Bandrowskiego Street 14 with a technical segment and land development in the scope of: telecommunication installations for the telephone exchange, structured cabling installation with full certification and a 25-year warranty, telecommunications installations for the HP server room and IT-Room cabin, audio-visual installation.
  56. PGNiG – LMG – automation installations with circuits for Ex zones, electrical installations with MV and LV switchboards, transformer stations, commissioning of gas compressors and switchboards for gas mines. Performing measurements along with protocols for the switchboard, power supply installation, and circuits in the Ex zone.
  57. EC Bielsko Biała – Construction, commissioning, test operation and commissioning of the external coaling system as part of the reconstruction of generating capacity at PKE SA – Construction of a 50 [MW] power unit operating in cogeneration at ZEC Bielsko-Biała EC-1.
  58. “Kozienice” Power Plant – Modernization of the digital security part of BLOCK No. 3. Electrical design, instrumentation and control, software and launch of a digital control and visualization system based on two WIN-CC ver.7.x visualization stations and an engineering station with STEP 7 software. Communication, visualization and control of 6 [kV] switchboard bays with SEPAM series 40 protections. Control and visualization of four AZRS automatic machines from ENERGOTEST Gliwice. Control, communication via the PROFIBUS-DP protocol and protection visualization of the SIPROTEC generator type 7SJ62, 7UT63, 7UM62. Visualization and control of the primary and reserve excitation system based on two BASLER Elektric modules. The control system is based on four SIMATIC S7-412 2DP controllers. The sum of binary and analog signals is approx. 2000. Communication via ETHERNET TCPiP, MODBUS/TCP, Profibus-DP, MODBUS RTU, fiber optic links 1 Gbit/s.
  59. Krosno MPGK Łężańska Heat Plant – Construction of a cogeneration unit for heat of 6.8 MWt and electricity of 1.255 MWe fired with biomass at the Łężańska Heat Plant in Krosno, along with arrangements and obtaining all permits for receiving electricity from PGE o/Rzeszów.
  60. Stalowa Wola Power Plant – Development and implementation of the instrumentation and control engineering design, database of system variables and control algorithms for the installation of biomass preparation, storage and transport.
  61. “Kozienice” Power Plant (RAFAKO S.A.) – Project. Installation and commissioning of the electrostatic precipitator of unit no. 3, unit 500 [MW]. I&C design, software and launch of a digital control and visualization system based on two WIN-CC ver.6.x visualization stations in the ash removal control room, one WIN-CC ver.7.x visualization station in the block control room and an MP277 operator panel in the electrostatic precipitator installation switchboard. The control system is based on SIMATIC S7-414 2 DP controllers with local visualization using graphic operator panels. The sum of binary and analog signals is approximately 600. Communication via ETHERNET TCPiP, MODBUS/TCP protocols, 1 Gbit/s fiber optic links.
  62. EC Żerań Warszawa – Modernization of no longer produced and unmaintained S5 controllers manufactured by Siemens at EC Żerań with the corresponding newer generation S7 controllers for all power units.
  63. Stalowa Wola Power Plant – Delivery, prefabrication, assembly, connection and commissioning of instrumentation and control equipment for the EBA line 10 biomass unloading and transport installation. Development of object connections and system connections along with control algorithms for the EMERSON DCS system.
  64. “Kozienice” Power Plant – unit no. 8 with a capacity of 200 [MW] dismantling, preparatory and assembly works for the TB-8 unit transformer and TR-3 and TR-4 auxiliary transformers. Disconnection of the 220[kV] HV line and two 110[kV] lines along with re-connection to the national power system and necessary arrangements with the Polish Power Grids.
  65. ENERGA Kogeneracja Sp. z o. o., Żychlin Heating Plant – Expansion of the Żychlin Heating Plant into a combined heat and electricity generation system using ORC technology. Design development, implementation and launch of a digital SCADA control system based on GE Proficy iFIX software. The system is composed of redundant Unlimited server stations, a client operator station with remote WebSpace viewing and a historical server with a capacity of 500pts. Integration of three control systems, boiler, turbine and heat accumulator into one SCADA system.
  66. “Kozienice” Power Plant – Control and visualization system for the power output system for unit No. 9. Programming and design work on S7-412 2DP controllers and operator stations. Development of software for two SIEMENS S7-412 2DP series controllers, operator stations with WIN-CC v6.x visualization and an engineering station with STEP – 7 tool software. Work was carried out with the fiber optic network and related to the introduction to the existing controller network.
  67. “Kozienice” Power Plant – Construction of a supercritical power unit fired with hard coal with a gross electrical capacity of 1,075 MWe. Implementation of basic and emergency lighting installations, earthing installations, lightning protection installations and renovation services for buildings: engine room, boiler room, electrostatic precipitator and electrostatic precipitator switchboard,
  68. Starting systems based on controllers: SIEMENS, YOKOGAWA, Fanuc, Allen-Bradley, Modicon, Saia, Mitsubishi, used in the energy industry to control the operation of power units.

Team competence:

  • Programming and servicing of S7 controllers from SIEMENS ATEMPOL
  • Programming and servicing of Allen-Bradley controllers in Germany
  • Programming and servicing of measurement systems. MILLTRONICS Canada
  • Programming and servicing of Wonderware ASTOR products
  • Full electrical design and supervision qualifications.
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