This site uses cookies which allow us to give you the best browsing experience possible. To find out more, please see our Privacy Policy.

Menu

Actuators and Control Systems for Turbomachinery

Turbomachinery Control Systems, Turbine Actuators and Control Systems, Actuation and Controls

Voith actuators and control systems ensure that gas turbines, steam turbines and compressors can be operated more efficiently, safely and reliably.
Our product portfolio includes:

  • Actuators
  • Turbomachinery control systems
  • Turbomachinery protection systems
  • Engineering, service and retrofitting

We not only offer components, but also complete solutions – hardware and software, all from one source. An advantage that simplifies a lot and lowers costs. The control system of turbines and compressors runs smoothly.

Get in contact with us

I/H Converter

Technical information

    DSG I/H Converter

      Current to Pressure Converter (CPC), Electro-hydraulic Converter, Electro-hydraulic Actuator Control for Steam Turbines and other Applications

      I/H Converter Type DSG, CPC Current to Pressure Converter
      Voith electro-hydraulic I/H converters are current-to-pressure converters (CPC), which adjust hydraulic positioning cylinders by means of a pilot valve. The positioning cylinders operate a valve that controls the mass flow needed to drive machinery. Voith I/H converters (CPC) ensure very precise and high dynamic control of the mass flow.
      I/H converters change a constant input pressure into a variable output pressure. A standard 0/4 – 20 mA signal specifies the output pressure.
      The major components of the I/H converter are a hydraulic unit and a
      force-controlled electromagnet.
      The I/H converter features a simple and compact design. This ensures reliable operation. The Mean Time Between Failures (MTBF) for Voith
      I/H converters is over 600 years. Your equipment runs for a very long
      period of time without unplanned downtime; availability is increased.
      The I/H converter (CPC) is also available in a redundant design
      (hot redundancy): DSM I/H Converter Module (DX-CPC).

      Specifications

      Flow rate Up to 140 l/min [37 gpm] at 1 bar [14.5 psi] differential pressure
      Input pressure Up to 70 bar [1,015 psi]
      Maximum output pressure range 0 – 35 bar [0 – 508 psi]
      MTBF (Mean Time Between Failures) 600 years (calculated in accordance to MIL‑HDBK‑217 and Siemens SN 29500,
      actual MTBF evaluations from installed products show even higher values
      Supply voltage 24 VDC
      Current consumption 1.0 A (3.0 A for t < 1 s)
      Input signal 0/4 – 20 mA
      Fail-safe operation Fail-safe position through output pressure
      Explosion proof rating (optional)
      • ATEX (II 2G IIC T4, Ta = -30 to +60°C)
      • CSA C/US (Class 1, Div. 1, 2, Group B, C, D, Temp. Code T4)
      • IECEx (Ex db llC T4, Ta = -30 to +60°C)
      • KOSHA (Ex db llC T4, Ta = -30 to +60°C)
      • others on request
      Protection class IP 65
      Safety integrity level SIL 2

       

      I/H Converter, Current to Pressure Converter (CPC), Electro-hydraulic Converter, Electro-hydraulic Actuator Control for Steam Turbines and Other Applications

      Advantages and benefits

      • The Mean Time Between Failures (MTBF) is over 600 years. Your equipment operates very reliably. Productivity increases and the costs associated with lost production remain low.
      • Voith I/H converters are insensitive to contaminated pilot oil. Turbine lubricating oil is suitable as the operating fluid. One oil supply system for both lubricating and pilot oil suffices. Maintenance is simple, which helps you lower operating costs.
      • Very good control response, almost no hysteresis and a resolution better than 0.1% ensure very fast and accurate control. You benefit from having a stable process with high product quality.
      • Connections are industry-standard. This means the I/H converter can be integrated into your equipment easily. Standard adapter plates are available to allow the I/H converter to interface with systems designed for Woodward CPC and CPC‑II converters.
        You reduce the costs for system integration.
      • The output pressure range can be adjusted easily on-site by means of pot­enti­ometers.
        This allows you to adjust the output pressure for the application quickly and without any delays.
      • For use in hazardous areas, we offer explosion proof I/H converters with the required certificates.

      Specifications

        Typical fields of use

        • Operation of the control valve of
          • steam turbines
          • gas turbines
          • compressors
        • Retrofit of mechanic-hydraulic valve controls
        • Upgrade of systems with Woodward CPC or CPC-II converters

        Product inquiry

        Technical Information

        Design

        DSG I/H Converter – Design

        Advantages and benefits

          With the aid of a controller, a force FMag is generated in a 24-V DC magnet. This magnetic force is proportional to the 0/4 – 20 mA input signal. The desired output pressure range is set by means of two potentiometers X0 and X1. The combination of electronic control, measurement of the magnetic flux, the physical design of the magnet and hydraulic pilot control results in an almost hysteresis-free, dynamic functional unit. The control magnet applies the force FMag to the control piston. This force acts in opposition to the hydraulic force FHydr, which results from the pressure at the A port applied to the face of the control piston (pressure balance). As a consequence of this control, the exactly required pressure and oil flow needed to position the steam or fuel valve are always available in the output line A of the I/H converter.

          DSG I/H Converter – Functionality

          Control schematic

          DSG I/H Converter – Control schematic

          Selection table

          Typ Maximum
          input
          pressure [bar]
          Control range
          of the output
          pressure [bar]
          Flow rate [l/min] at
          1 bar differential pressure
          P > A A > T
          DSG -B03XXX 40 0 – 3 30 30
          DSG -B05XXX 40 0 – 5 30 30
          DSG -B05X48 20 0 – 5 100 140
          DSG -B07XXX 40 1 – 7 30 30
          DSG -B10XXX 40 0 – 10 30 30
          DSG -B30XXX 70 0 – 30 30 30
          DSG -B35XXX 70 10 – 35 30 30

           

          Typ Maximum
          input
          pressure [bar]
          Control range
          of the output
          pressure [bar]
          Flow rate [l/min] at
          1 bar differential pressure
          P > A A > T
          DSG -B03XXX 40 0 - 3 30 30
          DSG -B05XXX 40 0 - 5 30 30
          DSG -B05X48 20 0 - 5 100 140
          DSG -B07XXX 40 1 - 7 30 30
          DSG -B10XXX 40 0 - 10 30 30
          DSG -B30XXX 70 0 - 30 30 30
          DSG -B35XXX 70 10 - 5 30 30

           

          I/H Converter Module

          I/H Converter Module DSM

            DSM I/H Converter Module

              Redundant I/H Converter, Redundant Current to Pressure Converter Assembly, Dual/Duplex Current to Pressure Converter (DX-CPC)

              I/H Converter Module Type DSM, Redundant Current to Pressure Converter CPC-DX
              Voith I/H converter modules are redundant dual/duplex current-to-pressure converters (DX-CPC), which adjust hydraulic positioning cylinders by means of a pilot valve in processes requiring high availability. The positioning cylinders operate a valve that controls the mass flow needed to drive machinery. The pressure control module provides very precise and high dynamic control of the mass flow.
              An I/H converter module consists of two I/H converters connected in parallel. An I/H converter changes a constant input pressure into a variable output pressure. A stand­ard 4 – 20 mA signal specifies the output pressure. The major components of the I/H converter are a hydraulic unit and a
              force-controlled electromagnet.
              Every I/H converter has a monitoring circuit that detects a malfunction of the con­verter. In the event of converter malfunction, a hydraulic maximum selection circuitry ensures that the other I/H converter assumes control automatically. This makes it possible to remedy the cause of the malfunction during operation.
              The Mean Time Between Failures (MTBF) for Voith pressure control modules is over 20,000 years. Your equipment runs for a very long period of time without unplanned downtime; availability is increased.

              Technical data

              Flow rate

              Up to 30 l/min [7.9 gpm] at 1 bar [14.5 psi] differential pressure

              Input pressure

              Up to 40 bar [580 psi]

              Maximum output pressure range 0 – 10 bar [0 – 145 psi]
              MTBF (Mean Time Between Failures) 20,000 years (calculated in accordance to MIL‑HDBK‑217 and Siemens SN 29500,
              actual MTBF evaluations from installed products show even higher values)
              Supply voltage

              24 VDC

              Current consumption 1.0 A (3.0 A for t < 1 s)
              Input signal 4 – 20 mA
              Fail-safe operation

              Fail-safe position through output pressure

              Redundancy Hot redundancy
              Ambient temperature -20 to +80°C [-4 to +176°F] (standard version, not rated for use in potentially explosive areas)

              Explosion proof rating (optional)

              • ATEX (II 2G IIC T4, Ta = -20 to +60°C)
              • CSA C/US (Class 1, Div. 1, 2, Group B, C, D, Temp. Code T4)
              • others on request
              Protection class IP 65
              Safety integrity level SIL 2

               

              Advantages and benefits

              • Thanks to the redundancy provided by the two I/H converters, the Mean Time Between Failures (MTBF) for the pressure control module is over 20,000 years. Your equipment operates with maximum availability. Productivity increases and the costs associated with lost production remain low.
              • It is possible to replace a faulty I/H converter during operation. You avoid un­planned downtime and their associated high costs.
              • Voith pressure control modules are not sensitive to contaminated pilot oil. Turbine lubricating oil is suitable as the operating fluid. One oil supply system for both lubricating and pilot oil suffices. Maintenance is simple, which helps you lower operating costs.
              • Very good control response, almost no hysteresis and a resolution better than 0.1% ensure very fast and accurate control. You benefit from having a stable process with high product quality.
              • Connections are industry-standard. This means the I/H converter module can be integrated into your equipment easily. Standard adapter plates are available to allow the I/H converter module to interface with systems designed for Woodward CPC and CPC‑II converters. You reduce the costs for system integration.
              • The output pressure range can be adjusted easily on-site by means of potenti­ometer. This allows you to adjust the output pressure for the application quickly and without any delays.
              • For use in hazardous areas, we offer explosion proof pressure control modules with the required certificates.

              Typical fields of use

              • Operation of the control valve of
                • steam turbines
                • gas turbines
                • compressors
              • Retrofit of mechanic-hydraulic valve controls         
              • Upgrade of systems with Voith DSG I/H converters
              • Upgrade of systems with partially or non-redundant
                Woodward CPC or CPC‑II converters

              Product inquiry

              Technical Information

              Functionality

              DSM I/H Converter - Functionality

              The pressure control module employs a two-channel design. A redundant control system provides the two input signals w1 and w2 for the two
              I/H converters. The hydraulic output pressure pA1 or pA2 from each of the I/H converters is proportional to the applied 4 – 20 mA input signal.
              The two pressures are connected to a hydraulic maximum selection circuitry, which then selects the higher pressure. Lowering the setpoint from the control system gradually during operation allows additional built-in pressure sensors to provide continuous monitoring of the hy­draulic function. This pressure variation makes it possible to diagnose each of the subsystems while operating. Each I/H converter has an electronic monitoring circuit that detects a malfunction of the converter. If one I/H converter fails, a hydraulic maximum selection circuitry ensures that the other converter assumes control automatically.
              The output pressure from the correctly operating I/H converter is used. This makes it possible to remedy the cause of the malfunction during operation.

              Control schematic

              DSM I/H Converter - Control schematic

              Selection table

              Typ Maximum
              input
              pressure [bar]
              Output
              pressure
              range [bar]
              Flow rate [l/min] at
              1 bar differential pressure
              P > A A > T
              DSM -B05XXX 40 0 - 5 30 30
              DSM -B10XXX 40 0 - 10 30 30

               

              Typ Maximum
              input
              pressure [bar]
              Output
              pressure
              range [bar]
              Flow rate [l/min] at
              1 bar differential pressure
              P > A A > T
              DSM -B05XXX

              40

              0 – 5 30 30
              DSM -B10XXX 40 0 – 10 30 30

               

              Way Valve

              WSR Way Valve

                E/H Converter, Servo Directional Control Valve, Servo-Proportional Valve

                Way Valve Type WSR, Proportional Directional Control Valve

                Voith electro-hydraulic way valves are servo directional control valves. They have integrated position control and provide direct control of hydraulic positioning cylinders. The positioning cylinders operate a valve that controls the mass flow needed to drive machinery. Voith way valves ensure very precise and high dynamic control of the mass flow.
                Working in conjunction with a hydraulic cylinder, the way valve converts a constant input pressure into a variable stroke. A standard 4 – 20 mA signal specifies the stroke of the positioning cylinder. The major components of a way valve are a 3/3 way hy­draulic unit for single-acting positioning cylinders or a 4/3 way hydraulic unit for double-acting positioning cylinders and a force-controlled electromagnet with integrated position control. An additional pilot valve is not needed with the Voith electrohydraulic way valve.
                The way valve features a simple, compact design. This ensures consistent, reliable operation. The Mean Time Between Failures (MTBF) for Voith way valves is over 180 years. Your equipment runs for a very long period of time without unplanned down­time. Availability is increased.
                The way valve is available in two redundant designs:

                • T-WSR Tandem Way Valve (Dual Coil Way Valve) with redundant control magnets (cold redundancy)
                • WSM Way Valve Module (hot redundancy)

                Technical data

                Flow rate Up to 600 l/min [158 gpm] at 1 bar [14.5 psi] differential pressure
                Input pressure Up to 200 bar [2,900 psi]
                MTBF (Mean Time Between Failures) 180 years (calculated in accordance to MIL‑HDBK‑217 and Siemens SN 29500,
                actual MTBF evaluations from installed products show even higher values)
                Supply voltage

                24 VDC

                Current consumption

                1.0 A (3.0 A for t < 1 s)

                Input signal 4 – 20 mA
                Communication (optional)
                • EtherNet/IP
                • Sercos
                • EtherCAT
                • VARAN
                • PROFINET
                • others on request
                Fail-safe operation Internal return spring
                Ambient temperature -20 to +80°C [-4 to +176°F] (standard version, not rated for use in potentially explosive areas)
                Explosion proof rating (optional)
                • ATEX (II 2G IIC T4, Ta = -30 to +60°C)
                • CSA C/US (Class 1, Div. 1, 2, Group B, C, D, Temp. Code T4)
                • IECEx (Ex db llC T4, Ta = -30 to +60°C)
                • KOSHA (Ex db llC T4, Ta = -30 to +60°C)
                • others on request
                Protection class IP 65
                Safety integrity level SIL 2

                 

                Advantages and benefits

                • The Mean Time Between Failures (MTBF) is over 180 years. Your equipment operates very reliably. Productivity increases and the costs associated with lost production remain low.
                • Voith way valves are not sensitive to contaminated pilot oil. Turbine lubricating oil is suitable as the operating fluid. One oil supply system for both lubricating and pilot oil suffices. Maintenance is simple, which helps you lower operating costs.
                • During load rejection, the way valve shifts the control valve to the partial-load position very rapidly (approx. 300 ms). When a shutdown command is received, the way valve shifts the control valve to the safe position (open or closed) very rapidly (approx. 300 ms). This ensures high availability of your equipment.
                • The way valve incorporates fast and exact position control. Very good control response, almost no hysteresis and a resolution better than 0.1% ensure very fast and accurate control. You benefit from having a stable process with high product quality.
                • Connections are industry-standard. The way valve mounts to your equipment easily. This reduces the costs for integration.
                • The stroke and control gain can be adjusted easily on-site by means of potenti­ometer. This allows you to adjust both quantities to the application quickly and without any delays.
                • For use in hazardous areas, we offer explosion proof way valves with the required certificates.

                Typical fields of use

                • Operation of the control valve of
                  • steam turbines
                  • gas turbines
                  • compressors
                • Retrofit of mechanic-hydraulic valve controls
                • Upgrade of systems with Voith DSG I/H converters
                • Upgrade of systems with Woodward CPC or CPC-II converters

                Product inquiry

                Technical Information

                Design

                4/3 way valve design

                3/3 & 4/3 Way Valve WSR – Design

                Functionality

                3/3 & 4/3 Way Valve WSR – Functionality

                On the basis of the control deviation (setpoint w – actual value x) and the control gain settings KPU and KPD, a command variable UMAG is generated for the magnetic force's controller. The magnetic force FMag is determined indirectly by measuring the magnetic flux with the aid of UHall and sent to the controller.
                FMag acts on the control piston in the hydraulic pilot valve via the plunger. The piston is forced against the control spring until the stroke-dependent spring force FF equals FMag. This provides a volume flow that varies in direction and magnitude, and produces stroke s in an externally mounted hydraulic cylinder.
                A position sensor determines the actual position and feeds an electrical signal back to the position controller. This ensures closed-loop control of hydraulic cylinder positioning.

                4/3 way valve for double-acting hydraulic cylinders

                Control schematic

                3/3 & 4/3 Way Valve WSR – Control schematic

                Selection table

                Selection table for 3/3 way valves

                Type Maximum 
                input
                pressure [bar]
                Flow rate [l/min] at
                1 bar differential pressure
                P > A A > T
                WSR-C25XXX 200 17 62
                WSR-C45XXX up to 40 22 75
                WSR-C60XXX up to 40 35 150
                WSR-E60XXX up to 40 30 350
                WSR-E80XXX up to 40 50 600
                WSR-K120XXX 25 600 600

                 

                Control schematic for a 4/3 way valve

                Selection table for 4/3 way valves

                Type Maximum
                input
                pressure [bar]
                Flow rate [l/min] at
                1 bar differential pressure
                P > A/B A/B > T
                WSR-D16XXX up to 160 14 14
                WSR-D24XXX 40 40 40
                WSR-D45XXX up to 40 80 80
                WSR-D60XXX 40 130 130
                WSR-D80XXX 25 180 180
                WSR-K120XXX 25 600 600

                 

                Type Maximum 
                input
                pressure [bar]
                Flow rate [l/min] at
                1 bar differential pressure
                P > A A > T
                WSR-C25XXX 200 17 62
                WSR-C45XXX up to 40 22 75
                WSR-C60XXX up to 40 35 150
                WSR-E60XXX up to 40 30 350
                WSR-E80XXX up to 40 50 600
                WSR-K120XXX 25 600 600

                 

                Selection table for 4/3 way valves

                Type Maximum
                input
                pressure [bar]
                Flow rate [l/min] at
                1 bar differential pressure
                P > A/B A/B > T
                WSR-D16XXX up to 160 14 14
                WSR-D24XXX 40 40 40
                WSR-D45XXX up to 40 80 80
                WSR-D60XXX 40 130 130
                WSR-D80XXX 40 180 180
                WSR-K120XXX 25 600 600

                 

                Tandem Way Valve

                Tandem Way Valve T-WSR

                  T-WSR Tandem Way Valve

                    Servo Directional Control Valve with Redundant Control Magnet Unit (Dual Coil System)

                    Tandem Way Valve Type T-WSR
                    Voith tandem way valves are way valves with two control magnets (dual coil system). The control magnets are connected in series and create a redundant unit. Tandem way valves with integrated position control adjust hydraulic positioning cy­lin­ders by means of a pilot valve in processes requiring high availability. The positioning cy­linders operate a valve that controls the mass flow needed to drive machinery. Voith tandem way valves ensure very precise and high dynamic control of the mass flow.
                    A tandem way valve consists of two electromagnets with integrated position control connected in series and a 3/3 way hydraulic unit for single-acting positioning cylinders or a 4/3 way hydraulic unit for double acting positioning cylinders. Working in con­junc­tion with a hydraulic cylinder, the way valve converts a constant input pressure into a variable stroke.
                    A standard 4 – 20 mA signal specifies the stroke of the positioning cylinder. An additional pilot valve is no longer needed with the Voith electrohydraulic tandem way valve.
                    In the event of a malfunction, control magnet 1 switches off automatically and control magnet 2 switches on. The switching logic is located in the external control system and monitors the control magnets.
                    The Mean Time Between Failures (MTBF) for Voith tandem way valves is over 360 years. Your equipment runs for a very long period of time without unplanned down­time; productivity is increased.

                    Technical data

                    Flow rate

                    Up to 600 l/min [158 gpm] at 1 bar [14.5 psi] differential pressure

                    Input pressure Up to 200 bar
                    MTBF (Mean Time Between Failures) 360 years (calculated in accordance to MIL‑HDBK‑217 and Siemens SN 29500,
                    actual MTBF evaluations from installed products show even higher values)
                    Supply voltage

                    24 VDC

                    Current consumption 1.0 A (3.0 A for t < 1 s)
                    Input signal 4 – 20 mA
                    Communication (optional)
                    • Sercos
                    • EtherCAT
                    • EtherNet/IP
                    • VARAN
                    • PROFINET
                    • others on request
                    Fail-safe operation Internal return spring
                    Redundancy 2 Control magnets (cold redundancy)
                    Ambient temperature -20 to +80°C [-4 to +176°F] (standard version,
                    not rated for use in potentially explosive areas)
                    Explosion proof rating (optional)
                    • ATEX (II 2G IIC T4, Ta = -30 to +60°C)
                    • CSA C/US (Class 1, Div. 1, 2, Group B, C, D, Temp. Code T4)
                    • IECEx (Ex db llC T4, Ta = -30 to +60°C)
                    • KOSHA (Ex db llC T4, Ta = -30 to +60°C)
                    • others on request
                    Protection class

                    IP 65

                    Safety integrity level SIL 2 (on request)

                     

                    Advantages and benefits

                    • Thanks to the redundancy provided by the two way valve magnets, the Mean Time Between Failures (MTBF) for the tandem way valve is over 360 years. Your equipment operates with maximum availability. Productivity increases and the costs associated with lost production remain low.
                    • Voith tandem way valves are not sensitive to contaminated pilot oil. Turbine lubricating oil is suitable as the operating fluid. A common oil supply system for both lubricating and pilot oil suffices. Maintenance is simple, which helps you lower operating costs.
                    • During load rejection, the way valve shifts the control valve to the partial-load position very rapidly (approx. 300 ms). When a shutdown command is received, the way valve shifts the control valve to the safe position (open or closed) very rapidly (approx. 300 ms). This ensures high availability of your equipment.
                    • The way valve incorporates fast and exact position control. Very good control response, almost no hysteresis and a resolution better than 0.1% ensure very fast and accurate control. You benefit from having a stable process with high product quality.
                    • The tandem way valve mounts to your equipment easily. This reduces the costs for integration.
                    • The stroke and positioning function can be adjusted easily on-site by means of potentiometers.
                      This allows you to adjust the stroke to the application quickly and without any delays.
                    • For use in hazardous areas, we offer explosion proof tandem way valves with the required certificates.

                    Typical fields of use

                    • Operation of the control valve of
                      • steam turbines
                      • gas turbines
                      • compressors
                    • Retrofit of mechanic-hydraulic valve controls
                    • Upgrade of systems with Voith DSG I/H converters or
                      WSR way valves
                    • Upgrade of systems with partially or
                      non-redundant Woodward CPC or CPC-II converters

                    Product inquiry

                    Technical Information

                    Functionality

                    3/3 Tandem Way Valve T-WSR – Function
                    F Force
                    FMag Magnetic force
                    FF Spring force
                    U Voltage
                    UHall Voltage applied to magnetic force
                    X0, X1 Parameters for stroke adjustment (potentiometers)
                    KPU, KPD Control gain settings (potentiometers)
                    w1, w2 Position setpoints
                    x1in, x2in Position sensor
                    x1out, x2out Position sensor display

                     

                    4/3 T-WSR Tandem way valve for double-acting hydraulic cylinders

                    4/3 Tandem Way Valve T-WSR – Function

                    A redundant control system provides the two setpoints w1 and w2 in the form of standard 4 – 20 mA signals for the two control magnets. A separate position sensor (x1in and x2in) is connected to each control magnet. The armature of control magnet 1 acts through control magnet 2 to move the control piston of the hydraulic pilot valve. If control magnet 1 is energized, control magnet 2 is de-energized, but powered. In the event of a malfunction, control magnet 1 is
                    de-energized and control magnet 2 is energized via setpoint w2 with a brief delay ("warm redundancy"). The switching logic is located in the external control system and monitors the control magnets (position sensor displays x1out and x2out). The switching logic also generates the switching signals.

                    Control schematic

                    Control schematic for a 3/3 T-WSR Tandem way valve

                    3/3 Tandem Way Valve T-WSR – Schematic

                    Control schematic for a 4/3 T-WSR Tandem way valve

                    4/3 Tandem Way Valve T-WSR – Schematic

                    Way Valve Module

                    WSM Way Valve Module

                      Redundant Way Valve, Redundant Servo Directional Control Valve

                      Voith way valve modules are redundant servo directional control valves. They have integrated position controls and provide direct control of hydraulic positioning cylinders in processes re­quiring high availability. The positioning cylinders operate a valve that controls the mass flow needed to drive ma­chin­ery. Voith way valves ensure very pre­cise and highly dynamic control of the mass flow.
                      A way valve module consists of two way valves connected in parallel. Working in conjunction with a hydraulic cylinder, the way valve converts a constant input pres­sure into a variable stroke. A standard 4 – 20 mA signal specifies the stroke of the pos­itioning cylinder. The major components of the way valves are a
                      3/3 way hy­draulic unit for single-acting positioning cylinders and a force-controlled electro­magnet with integrated position control.
                      An additional pilot valve is not needed with the Voith electrohydraulic way valve module.
                      Every way valve has a monitoring circuit that detects malfunction of a way valve. In the event of way valve malfunction, a hydraulic maximum selection circuitry ensures that the other way valve assumes control. This makes it possible to remedy the cause of the malfunction during operation.
                      The Mean Time Between Failures (MTBF) for Voith way valve modules is over 8,800 years. Your equipment runs for a very long period of time without unplanned down­time; availability is increased.

                      Technical data

                      Flow rate Up to 700 l/min [182 gpm] at 4 bar [58 psi] differential pressure
                      Input pressure Up to 40 bar [580 psi]
                      MTBF (Mean Time Between Failures) 8,800 years (calculated in accordance to MIL‑HDBK‑217, Siemens SN 29500 and taking into
                      account diagnostic capability and reparability during operation at the actual redundancy)
                      Supply voltage 24 VDC
                      Current consumption 2.0 A (6.0 A for t < 1 s)
                      Input signal 4 – 20 mA
                      Communication (optional)
                      • EtherNet/IP
                      • Sercos
                      • EtherCAT
                      • VARAN
                      • PROFINET
                      • others on request
                      Fail-safe operation Internal return spring in each way valve
                      Redundancy Hot redundancy
                      Ambient temperature -20 to +80°C [-4 to +176°F] (standard version, not rated for
                      use in potentially explosive areas)
                      Explosion proof rating (optional)
                      • ATEX (II 2G IIC T4, Ta = -20 to +60°C)
                      • others on request
                      Protection class IP 65
                      Safety integrity level SIL 2 (on request)

                       

                      Advantages and benefits

                      • Thanks to the redundancy provided by two way valves, the Mean Time Between Failures (MTBF) for the way valve module is over 8,800 years. Your equipment operates with maximum availability. Productivity increases and the costs associated with lost production remain low.
                      • It is possible to replace a faulty way valve during operation. You avoid unplanned downtime and their associated high costs.
                      • Voith way valve modules are not sensitive to contaminated pilot oil. Turbine lubricating oil is suitable as the operating fluid. One oil supply system for both lubricating and pilot oil suffices. Maintenance is simple, which helps you lower operating costs.
                      • During load rejection, the way valve shifts the control valve to the partial-load position very rapidly (approx. 300 ms). When a shutdown command is received, the way valve shifts the control valve to the safe position (open or closed) very rapidly (approx. 300 ms). This ensures high availability of your equipment.
                      • The way valve incorporates fast and exact position control. Very good control response, almost no hysteresis and a resolution better than 0.1% ensure very fast and accurate control. You benefit from having a stable process with high product quality.
                      • Connections are industry-standard. The way valve module mounts to your equipment easily.
                        This reduces the costs for integration.
                      • The stroke and positioning speed can be adjusted easily on-site by means of a potentiometers.
                        This allows you to adjust the stroke to the application quickly and without any delays.
                      • For use in hazardous areas, we offer explosion proof way valve modules with the required certificates.

                      Typical fields of use

                      • Operation of the control valve of
                        • steam turbines
                        • gas turbines
                        • compressors
                      • Retrofit of mechanic-hydraulic valve controls
                      • Upgrade of systems with Voith DSG I/H converters,
                        WSR way valves or T‑WSR tandem way valves
                      • Upgrade of systems with Woodward current-to-pressure converters CPC, CPC-II or CPC-DX

                      Product inquiry

                      Technical Information

                      Control schematic

                      Functionality

                      The way valve module employs a two-channel design. A redundant control system provides the two setpoints w1 and w2 in the form of a standard 4 – 20 mA signal for the two way valves. The control gain setting is the same for both valves. The output pressures pA1 and pA2 or the corresponding volume flows are directed to the "Max. Module", the A port of which is connected to the single-acting cylinder. If one of the two way valves fails, the associated force exerted by the magnetic force FMag and the output pressure drop to zero. The resulting connection of the A port in the way valve to the tank return line T causes the ball in the "Max. Module" to block the output of the failed way valve automatically. The pressure gauge and pressure transmitter on the associated way valve module display 0 bar. The functional way valve assumes control automatically and keeps the equipment operating. It is possible to replace the faulty way valve during operation.

                      Control Servo Motor

                      SMR Control Servo Motor

                        Linear Electro-hydraulic Actuator for Steam Turbines, Gas Turbines and other Applications

                        A Voith control servo motor is a linear electro-hydraulic actuator. It operates a valve that controls the mass flow needed to drive machinery. Voith servo motors ensure very precise and high dynamic control of the mass flow.
                        The control servo motor is an intelligent and compact functional unit consisting of a hydraulic cylinder, control magnet with integral position control, hydraulic pilot valve and position sensor. When a servo motor is used, no additional components such as pilot valve and hydraulic cylinder, for instance, are needed to operate the control valves.
                        A standard 4 – 20 mA signal specifies the position of the piston rod. The control servo motors feature a simple and compact design. This ensures con­sist­ent and reliable operation. The Mean Time Between Failures (MTBF) for Voith control servo motors is over 103 years. Your equipment runs for a very long period of time without unplanned downtime; availability is increased. The control servo motor is also available in a redundant design (position feedback system and way valve control).

                        Technical data

                        Full-stroke closing time (Trip) < 0.3 s
                        Maximum pressure Up to 200 bar [2,900 psi]
                        Effective forces Up to 500 kN [112,000 lbf]
                        MTBF (Mean Time Between Failures) 103 years (calculated in accordance to MIL‑HDBK‑217 and Siemens SN 29500,
                        actual MTBF evaluations from installed products show even higher values)
                        Supply voltage 24 VDC
                        Current consumption 1.0 A (3.0 A for t < 1 s)
                        Input signal 4 – 20 mA
                        Communication (optional)
                        • EtherNet/IP
                        • Sercos
                        • EtherCAT
                        • VARAN
                        • PROFINET
                        • others on request
                        Fail-safe operation Internal return spring in way valve and additionally in hydraulic cylinder on single acting designs
                        Redundancy (optional)

                        Position feedback system and way valve control magnets

                        Ambient temperature -20 to +80°C [-4 to +176°F] (standard version, not rated for use in potentially explosive areas)
                        Explosion proof rating (optional)
                        • ATEX (II 2G IIC T4, Ta = -20 to +60°C)
                        • others on request
                        Protection class

                        IP 65

                        Safety integrity level SIL 2

                         

                        Advantages and benefits

                        • The Mean Time Between Failures (MTBF) is over 103 years. Your equipment operates very reliably. Productivity increases and the costs associated with lost production remain low.
                        • Voith control servo motors are not sensitive to contaminated pilot oil. Turbine lubricating oil is suitable as the operating fluid. One oil supply system for both lubricating and pilot oil suffices. Maintenance is simple, which helps you lower operating costs.
                        • During load rejection, for instance, the control servo motor reaches the safe position in less than
                          300 ms. This ensures that your equipment operates with high reliability and availability. After a malfunction, the equipment is ready to operate again very quickly.
                        • The high dynamic behavior (response time in the closing direction: < 200 ms) and almost no hysteresis (< 0.01% of maximum stroke) ensure fast, accurate control. You benefit from having a stable process with high product quality.
                        • The integral electronic position control in the Voith servo motor eliminates the need for
                          time-consuming tuning of controller, position sensor and actuator during test runs and commissioning.
                          This reduces the time required for commissioning and saves money.
                        • We design our servo motors to be compatible with existing machine designs. This gives you design flexibility. Engineering costs are lowered and the time you need for design is shortened.
                        • For use in hazardous areas, we offer explosion-proof control servo motors with the required certificates. The interface to the machine control system is the same for conventional and
                          explosion-proof versions.

                        Typical fields of use

                        • Actuation of the control valve of
                          • steam turbines
                          • gas turbines
                          • compressors
                        • Retrofit of mechanic-hydraulic valve controls
                        • Retrofit of hydraulic, electro-mechanical and
                          pneumatic linear actuators
                        • Upgrade of systems with Voith I/H converters DSG
                          or way valves WSR
                        • Upgrade of systems with Woodward actuators:
                          • Varistroke Linear Electro-hydraulic Actuator
                          • EHPC Electrohydraulic Power Cylinder
                          • EHPS Electrohydraulic Power Servo
                          • PGPL Hydraulic Powered Electric Actuator
                          • EG-3P Hydraulic Amplifier
                          • TM‑25LP or TM‑200LP Linear Proportional Actuators
                          • CPC or CPC‑II Current to Pressure Converters

                        Product inquiry

                        Product inquiry

                        Technical Information

                        Functionality

                        SMR Control Servo Motor – Function

                        Control servo motor with 4/3 way valve and double-acting hydraulic cylinder

                        SMR Control Servo Motor – Function

                        The servo motor is controlled by a standard 4 – 20 mA signal from the control system. The piston rod position is proportional to this standard signal w. In the position control loop, the setpoint w is compared with the actual position x of the piston rod measured by the position sensor and any deviation causes the controller to adjust the magnetic force FMag. This force (FMag) shifts the control piston in the way valve against a spring, causing a change in the direction and magnitude of the volume flow to the actuating chamber of the cylinder. In conjunction with the spring pack, the hydraulic force resulting from the volume flow changes the position s of the piston rod. The piston rod moves at a speed determined by the volume flow into or out of the actuator.

                        Control schematic

                        SMR Control Servo Motor – Control Schematic

                        Selection Table

                          Low pressure   High pressure  
                        Type

                        SMR-A51xxx

                        SMR-D13xxx

                        SMR-A11xxx

                        SMR-A41xxx

                        Max. piston spindle diameter 90 – 250 mm 105 – 210 mm 85 – 200 mm

                        55 – 120 mm

                        Full-stroke closing time < 0,3 s < 0,4 s – 0,8 s < 0,3 s < 0,3 s
                        Opening force for
                        piston spindle stroke of 0 mm
                        13.000 – 97.000 N 13.000 – 56.000 N 39.000 – 108.000 N 75.000 – 230.000 N
                        Opening /(closing) force for
                        max. piston spindle stroke
                        7.000 – 91.000 N 14.000 – 58.000 N 33.000 – 94.000 N 67.000 – 219.000 N
                        Principle of operation Single-acting Double-acting Single-acting Single-acting

                         

                        SelCon Linear Actuator

                        SelCon Linear Actuator for Actuating Valve Control Equipment

                          SelCon Self-contained Electrohydraulic Linear Actuator with Fail-safe Function, Linear Servo Hydraulic Valve Actuator, Linear Actuator for Governor Valve Control with Trip Function, e.g. for Gas Turbine or Steam Turbine Applications

                          The SelCon is a self-contained, electrohydraulic linear actuator with a spring-assisted trip function. It operates, for example, a valve that regulates the mass flow in a prime mover or a driven machine. Typical machines are gas turbines, steam turbines or compressors. The SelCon provides you with highly dynamic and precise control of the mass flow.
                          This innovative actuator is a reliable plug-and-play solution with fail-safe function. The SelCon is a compact design, provides high force density and is a true alternative to conventional actuators. With the SelCon you don't need an additional hydraulic power pack with an oil tank, control block and pipework. The amount of hydraulic fluid in the system is minimal. On the outside the SelCon only has electrical and mechanical interfaces. Handling and system integration is extremely simple. No knowledge of hydraulics is required for installation and commissioning.
                          Our engineers selected proven components when designing the SelCon. The core components consist of a servo motor, a Voith internal gear pump, a cylinder with an internal return spring and a displace­ment transducer.
                          A control unit with implemented application software acts as the brain of the system. The actuator exhibits a high degree of operational safety and reliability; the estimated mean time between failures (MTBF) is 35 years.
                          The SelCon is optionally available as a trip actuator with no control function (switch actuator).

                          Technical data

                          Closing time for full stroke (trip) typically < 0.3 s
                          Motion time for full stroke (controlled) typically 0.5 s
                          Effective forces up to 500 kN [112,000 lbf]
                          MTBF (Mean Time Between Failures) 35 years (estimated, theoretical value
                          Supply voltage for the SelCon electronics 24 VDC
                          Current consumption for the SelCon electronics 5 A
                          Supply voltage for the control unit 3 x 207 – 528 VAC, 50/60 Hz
                          Current consumption for the control unit 17 A, max. 32 A
                          when balanced < 1 A
                          Input signal

                          4 – 20 mA

                          Communication (optional):
                          • EtherCAT
                          • CANopen
                          • CANsync
                          • Sercos
                          • PROFIBUS-DP
                          • Others upon request
                          Fail-safe function Internal return spring
                          Ambient temperature 0 to +60°C (standard version, not rated for use in potentially explosive areas)
                          Explosion protection (optional)
                          • ATEX (II 2G ck IIB T3, Ta = 0 to +60°C)
                          • Others upon request
                          Protection class IP 65
                          Safety integrity level

                          SIL 2 (upon request)

                          Optional

                          Design as a trip actuator with no control function (switch actuator)

                           

                          Typical applications

                          • Actuation of the control valve in
                            • steam turbines
                            • gas turbines
                            • compressors
                          • Retrofit of mechanical-hydraulic valve controls
                          • Retrofit of hydraulic, electro­mechanical and pneumatic actuators
                          • Linear actuator for process valves with fail-safe function
                          • Upgrade of systems with the Voith DSG I/H converters, WSR way valves and SMR control servo motors
                          • Upgrade of systems with Woodward actuators:
                            • Varistroke linear, electro­hydraulic actuator
                            • EHPC Electrohydraulic Power Cylinder
                            • EHPS Electrohydraulic Power Servo
                            • PGPL Hydraulic Powered Electric Actuator
                            • EG 3P Hydraulic Amplifier
                            • TM 25LP or TM 200LP Linear Proportional Actuators
                            • CPC or CPC II Current to Pressure Converters

                          Advantages and benefits

                          Features

                          Advantages

                          Benefits

                          • Self-contained, closed hydraulic system.
                          • The linear actuator works without an external oil supply.
                          • You save the procure­ment and
                            main­tenance costs required for an external hydraulic power pack with an oil tank and the pipe­work. Up to 35% of the procure­ment costs can be saved compared to a conventional system.
                          • System integration is simple and economical.
                          • Your entire system has a higher operational reliability. External hydraulic dis­turb­ances such as pressure fluctuations, mismatched line diameters or negative pressure in the tank line are precluded.
                          • The considerably reduced fire hazard increases your safety. This may reduce your insurance costs.
                          • The linear actuator is an optimal solution for new systems and for retrofits.
                          It is impossible for dirt or water to enter the hydraulic system.
                          • You save up to 5 days during commissioning because it is not necessary to flush and vent any pipes.
                          • Operation of the SelCon is
                            wear-resistant and main­tenance costs are low.
                          • Safety function is provided by a durable return spring and a reliable seat type trip valve.
                          • The fail-safe function is achieved simply and safely.
                          • The trip speed is fast, the trip time is typically < 300 ms.
                          • Your system has a high degree of operational reliability.
                          • A reliable trip of the control valve reduces the danger of immediate and con­se­quen­tial damage.
                          • The safety function (tripping) and the operating function (control mode) are decoupled.
                          • Tripping is initiated by means of a separate safety control circuit.
                          • Position control of the hydraulic cylinder using a servo pump (displacement principle).
                          • No classic control valves
                            (throttle principle).
                          • The linear actuator has a high level of energy efficiency.
                          • The level of heat intro­duced into the integrated hydraulic system is low.
                          • You reduce energy costs for operating the actuator by up to 50% compared to an actuator using con­ven­tional valves and a hydraulic power pack.
                          • With lower CO2 emissions, you play your part in protecting the environment.
                          • Modular design with few components – compatible with existing hydraulic, electro­mechanical and pneumatic actuators.
                          • The application flexibility is high.
                          • Integration into your system is simple and the planning effort is minimal.
                          • The actuator matches price and function in your application.
                          • The SelCon is a high-quality,
                            cost-effective actuator solution for new systems, retrofits or modernization projects.
                          • Low-maintenance design using reliable system components.
                          • Very small amounts of operating fluid in the system.
                          • The time and money spent on maintenance are minimal.
                          • Your costs for maintenance and oil management are considerably less compared to conventional solutions.
                          • With significantly reduced oil capacities, you play your part in protecting the environment.
                          • Continuous control using an internal gear pump that operates constantly
                            (no intermittent duty).
                          • The control system of the linear actuator operates with no response delay.
                          • The actuator is ready to operate immediately, especially even after a trip.
                          • You have high system availability leading to higher productivity.
                          • The valve actuator operates with virtually no hysteresis.
                          • The control system is precise and highly dynamic.
                          • Your processes are stable and product quality is high.

                           

                          Design "SelCon Self-contained Linear Actuator – parallel"
                          Parallel
                                    1          Synchronous motor

                                    2          Voith internal gear pump

                                    3          Cylinder with internal return spring

                                    4          Diaphragm accumulator

                                    5          Trip solenoid valve

                                    6          Displacement transducer

                                    7          Piston rod
                          Design "SelCon Self-contained Linear Actuator – linear"
                          Linear

                          Technical information

                          Design

                          Function

                          SelCon Self-contained Linear Actuator - Function
                          The control system activates the SelCon using a 4 – 20 mA standard signal. The stroke of the piston rod is proportional to this standard signal w (setpoint). In the event of a fast-acting trip, the trip solenoid valve opens and connects the two cylinder chambers. The return spring moves the piston rod to its safety position within 300 ms. During this action, the hydraulic fluid flows from one cylinder chamber into the other.
                          The SelCon has two functions, namely providing a control function and a safety function (trip). In control mode, the SelCon regulates the position of the piston rod using the setpoint signal w from the control system.
                          The piston rod is connected to the control valve that controls the mass flow and changes its opening cross-section. If the setpoint signal is switched off, the trip solenoid valve opens. The piston rod is moved to its safety position by the energy stored in the return spring. This is carried out in an uncontrolled manner and at high speed. An auxiliary electrical power supply is required for operating the SelCon. All electrical components are protected against environmental influences. The electronic position detection system is integrated in the actuator. The control loop parameters for position control and the parameters for scaling the piston rod position are set using the application software implemented in the control unit.

                          Control schematic

                          EMA Electromechanical Linear Actuator

                          EMA Electromechanical Linear Actuator

                            EMA Electromechanical Valve Actuator with Fail-safe Function, Linear Servo Electric Valve Actuator, Linear Actuator for Governor Valve Control with Trip Function, e.g. for Gas Turbine or Steam Turbine Applications

                            The EMA is an electromechanical linear actuator with trip function.
                            It operates, for example, a valve that regulates the mass flow in a prime mover or a driven machine. Typical machines are gas turbines, steam turbines or compressors. The EMA provides you with highly dynamic and precise control of the mass flow.
                            This innovative linear actuator with fail-safe function has only electrical and mechanical interfaces. It is oil-free. This eliminates all costs for oil management that arise when operating a hydraulic linear actuator;
                            an 80% lower energy consumption reduces operating costs even more.
                            In addition, an oil-free actuator reduces the fire load of the entire system; insurance companies usually reward this with lower premiums. There is also nothing hindering the use of the actuator in places with strict environmental requirements.
                            With the EMA, you get an operationally safe and reliable plug-and-play solution having its own particular charm. The estimated mean time between failures (MTBF) of the Voith EMA is 35 years. As a result, your machine is very durable and you increase the productivity in your plant.
                            PS: Are you thinking about an oil-fee turbine? If you are, the EMA is certainly worth considering.

                            Technical data

                            Closing time for full stroke (trip) Typically < 0.3 s
                            Motion time for full stroke (controlled) Typically 0.5 s
                            Spring force Up to 30 kN
                            Actuating force

                            Up to 40 kN

                            MTBF (Mean Time Between Failures) 35 years
                            Supply voltage for the EMA electronics 24 VDC
                            Current consumption for the EMA electronics 3.4 A
                            Supply voltage for the control unit 3 x 207 – 528 VAC, 50/60 Hz
                            Current consumption for the control unit 17 A, max. 32 A,
                            when balanced < 1 A
                            Input signal

                            4 - 20 mA

                            Communication (optional):
                            • EtherCAT
                            • CANopen
                            • CANsync
                            • Sercos
                            • PROFIBUS DP
                            • Others upon request
                            Fail Safe Operation Piston rod retracted or extended, depending on the design
                            Ambient temperature -20 to +80°C (standard version, not rated for use in potentially explosive areas)
                            Degree of protection

                            IP 65

                            Safety integrity level SIL 2 (optional)
                            Optional Design as a trip actuator with no control function (switch actuator)

                             

                            Typical applications

                            • Actuation of the control valve in
                              • steam turbines
                              • gas turbines
                              • compressors
                            • Retrofit of mechanical-hydraulic valve controls
                            • Retrofit of hydraulic, electromechanical and pneumatic actuators
                            • Linear actuator for process valves with fail-safe function
                            • Upgrading systems with the Voith DSG I/H converters,
                              WSR way valves and SMR control servo motors
                            • Upgrading systems with Woodward actuators:
                              • PGPL Hydraulic Powered Electric Actuator
                              • TM 25LP or TM 200LP Linear Proportional Actuators
                              • CPC or CPC II Current to Pressure Converters

                            Advantages and benefits

                            Features Advantages Benefits
                            • Electromechanical design with synchronous motor and screw drive
                            • The linear actuator is oil-free.
                            • The actuator has only electrical and mechanical interfaces.
                            • You save the procurement and maintenance costs required for an external hydraulic power pack with an oil tank and the pipework. Up to 35% of the procurement costs can be saved compared to a conventional system.
                            • System integration is simple and economical.
                            • Your entire system has high operational safety. Malfunctions such as those caused by contaminated pilot oil or by an oil leak just cannot happen.
                            • The lower fire load increases your safety.
                              This often reduces your insurance premiums.
                            • The actuator is an optimal solution for new systems and for retrofits.
                            • Commissioning is considerably simpler and is much faster than for hydraulic linear actuators. You save up to 5 days during commissioning because it is not necessary to flush and vent any pipes.
                            • No knowledge of hydraulics is required for installation and commissioning.
                            • The EMA is the ideal linear actuator for areas with stricter environmental regulations.
                            • The design is low-wear and
                              low-maintenance.
                            • This will save maintenance costs for you.
                            • Safety function is provided by a high-strength return spring and magnetic coupling.
                            • The fail-safe function is achieved simply and safely.
                            • The trip speed is fast, the trip time is typically < 300 ms
                            • Your system has a high degree of operational reliability.
                            • A reliable trip of the control valve reduces the danger of immediate and consequential damage.
                            • The safety function (trip) and the operating function (control mode) are decoupled.
                            • Trip is initiated by means of a separate safety control circuit.
                            • Electromechanical position control with synchronous motor and threaded spindle.
                            • No valves.
                            • The linear actuator has a high level of energy efficiency.
                            • You reduce energy costs for operating the actuator by up to 80% compared to an actuator using conventional valves and a hydraulic power pack.
                            • With lower CO2 emissions, you play your part in protecting the environment.
                            • Modular design with few components – compatible with existing hydraulic, electromechanical and pneumatic actuators.
                            • The application flexibility is high.
                            • Integration into your system is simple and the planning effort is minimal.
                            • The actuator matches your application in price and function.
                            • The EMA is a high-quality, cost-effective actuator solution for new systems, retrofits or modernization projects.
                            • Constant control with the permanently excited synchronous motor.
                            • The control system of the linear actuator operates with no response delay.
                            • The actuator is ready to operate immediately, especially after a trip.
                            • You have high system availability leading to higher productivity.
                            • The valve actuator operates with virtually no hysteresis.
                            • The control system is precise and highly dynamic.
                            • Your processes are stable and product quality is high.

                             

                            Technical information

                            Design

                            EMA Electromechanical Drive – Design
                            1              Coupling

                            2              Synchronous motor

                            3              Junction box

                            4              Gearbox

                            5              Displacement transducer

                            6              Return spring

                            7              Piston rod

                            Function

                            EMA Electromechanical Drive – Function

                            Control schematic

                            EMA Electromechanical Drive – Control Schematic

                            How it works

                            The control system activates the EMA using a 4 – 20 mA standard signal. The stroke of the piston rod is proportional to this standard signal w. In the event of tripping, when the valve closes quickly, an electromagnetic coupling opens and decouples the motor mass. The return spring moves the piston rod into the safety position within 300 ms, either fully retracted or fully extended.
                            The EMA has two functions, namely providing a control mode and ensuring safety. In control mode, the EMA regulates the position of the piston rod using the setpoint w from the control system. The piston rod is connected to the control valve that controls the mass flow and changes its opening cross-section.
                            If the setpoint signal is switched off (< 3.2 mA), the electromagnetic coupling opens. The piston rod is moved to the safety position by the energy stored in the return spring. This is carried out in an uncontrolled manner and at high speed. The piston rod is held in the safety position. Additionally, the power section of the VFD (variable frequency drive) in the control unit is switched off. This ensures that the piston rod moves to its safety position even in the event of an electromagnetic coupling malfunction. An auxiliary electrical power supply is required for operating the EMA. All electrical components are protected against environmental influences. Electrical position detection is integrated in the drive. The controllers with circuitry for setpoint limitation and minimum value switch-off are integrated into the control unit. The control loop param­eters and the parameters for scaling the piston rod position are set on the control unit using the relevant software.

                            TripCon Trip Block

                            TripCon Trip Block

                              Electro‐hydraulic Trip Block Assembly for Quick Trip, Electro-hydraulic Safety Control Unit, Fast‑Acting Control System for Actuators, Turbine Trip System

                              The trip block is an extremely flexible electro-hydraulic safety control unit, which is used for releasing the trip valves (quick trip) on steam turbines, gas turbines and in process engineering. The TripCon has a modular design and the components can be combined in a variety of ways. As a result, Voith provides a trip block with optional functions which offers the best fit for your application, both technically and economically.
                              All variants of the trip block have a triple-redundant design with a
                              2oo3 selection (2 out of 3 voting). This means that turbine trips do not take place until at least two channels have been deactivated. An integrated
                              1oo1 partial stroke test enables a simple check of the function of the trip valve, even during operation. The partial stroke test is available with optional
                              2oo2 redundancy. An expansion module is also available, which allows the replacement of all solenoid valves during operation.
                              The TripCon is certified with the SIL 3 Safety Integrity Level. The Mean Time Between Failures (MTBF) for the Voith TripCon is over 100,000 years.
                              When developing the TripCon, our engineers paid particular attention to large dis­charge volumes and a dirt-resistant design. This allows you to achieve quick and safe turbine shutoff.

                              Technical data

                              Operating pressure 6 to 180 bar [87 to 2,610 psi]
                              Flow rate max. 320 l/min [85 gpm] at 6 bar [87 psi] differential pressure
                              Trip function 2oo3 (2-out-of-3)
                              Valve partial stroke test
                              • 1oo1 (1-out-of-1)
                              • Optional 2oo2 (2-out-of-2)
                              MTBF (Mean Time Between Failures) 100,000 years (calculated in accordance to MIL‑HDBK‑217 and Siemens SN 29500,
                              actual MTBF evaluations from installed products show even higher values)
                              Ambient temperature

                              -20 to +70°C [-4 to +158°F]

                              Oil temperature +10 to +70°C [50 to +158°F]
                              Supply voltage 24 VDC
                              Current consumption 0.8 A per solenoid
                              Fail Safe Operation Internal return spring on each solenoid valve
                              Protection class

                              IP 65

                              Explosion protection (optional) ATEX/IECEx (II 2G IIC T4, Ta = -20°C to +60°C)
                              Safety integrity level SIL 3

                               

                              Typical applications

                              • Safety control for steam turbines
                              • Safety control for gas turbines
                              • Control of process safety valves
                              • Retrofit of non-redundant trip systems

                              Advantages and benefits

                              Features Advantages

                              Benefits

                              Modularity    
                              • Modular and compact trip block with a 2oo3 configuration.
                              • The TripCon has a great degree of functional flexibility.
                              • A range of TripCon models are avail­able for different levels of safety re­quirements in the turbine control system.
                              • The TripCon model you select will be suited to your system, both econom­ically and functionally.
                              • The competitiveness of the turbine is increased in terms of price, per­form­ance, and quality.
                              • Integrated solenoid valves for the partial stroke test.
                              • Additional valves, sensors, and pipe­lines for an external partial stroke test system are unnecessary.
                              • You get a cost-effective and compact partial stroke test system for the trip valve.
                              • A partial stroke test is easy to perform.
                              • The safety of your system increases.
                              • Extended maintenance intervals for the trip valve reduce the maintenance costs and the outage costs during down times.
                              Safety    
                              • Solenoid valves with large magnetic forces.
                              • The valves are extremely dirt-resistant.
                              • In the event of a trip, the turbines are safely shut off.
                              • You avoid secondary damage re­sulting from turbine overspeed.
                              • Turbine lubricating oil is suitable as the operating medium.
                              • One oil supply system for both lu­bri­cating and pilot oil suffices. This keeps maintenance simple, which helps you lower operating costs.
                              • Large discharge volumes (320 l/min [85 gpm] at Δp = 6 bar [87 psi]) using the integrated NG16 valve.
                              • The flow volumes are very high without an additional shutoff valve.
                              • The trip time is short.
                              • The TripCon provides you with a safe, simple, and cost effective trip system.
                              • Solenoid valves with position feedback.
                              • Every solenoid valve can be tested individually during operation be­cause of the 2oo3 selection logic.
                              • Automatic test routines are possible for regular testing of the solenoid valves.
                              • Your turbine control system will achieve increased safety with little effort.
                              • Automatic switching from the 2oo3 selection to the 1oo2 selection when replacing a solenoid valve.
                              • Replacement of the solenoid valve improves safety results.
                              • Your turbine control system has increased safety.
                              Cost-Effectiveness    
                              • All the solenoid valves can be
                                de­coupled from the hydraulic system.
                              • It is possible to replace a solenoid valve during operation.
                              • Your production continues to run without interruption.
                              • Manually adjustable orifice at the pressure connection P.
                              • The closing time of the connected trip valve is adjustable.
                              • The TripCon can be optimized to your turbine control system.
                              • Hydraulic connection via pipe or flange connection.
                              • The TripCon is suitable both for standalone mount­ing and for mounting on the cylinder of the trip valve.
                              • Integration into your turbine control system is flexible and can be im­ple­mented economically.

                               

                              Technical Information

                              Control schematic

                              Elektro-hydraulic Safety Control Unit TripCon Control Schematic

                              TripCon – Superior

                              Feautures:

                              • Trip function: 2oo3
                              • Partial stroke test: 2oo2 during operation
                              • Replacement of the MV1 – MV5 solenoids during operation
                              • Replacement of the MV1 – MV5 solenoid valves during operation
                              • Optional Atex

                              Elektro-hydraulic Safety Control Unit TripCon Superior
                              Features:
                              • Trip function: 2oo3
                              • Partial stroke test: 2oo2 during operation
                              • Replacement of the MV1 – MV5 solenoids during operation
                              • Replacement of the MV1 – MV5 solenoid valves during operation
                              • Optional Atex
                              Elektro-hydraulic Safety Control Unit TripCon Superior

                              TripCon – Advanced

                              Features:

                              • Trip function: 2oo3
                              • Partial stroke test: 1oo1 during operation
                              • Replacement of the MV1 – MV4 solenoids during operation
                              • Replacement of the MV1 – MV4 solenoid valves during operation
                              • Optional Atex

                              Elektro-hydraulic Safety Control Unit TripCon Advanced
                              Features:
                              • Trip function: 2oo3
                              • Partial stroke test: 1oo1 during operation
                              • Replacement of the MV1 – MV4 solenoids during operation
                              • Replacement of the MV1 – MV4 solenoid valves during operation
                              • Optional Atex
                              Elektro-hydraulic Safety Control Unit TripCon Advanced

                              TripCon – Special

                              Features:

                              • Trip function: 2oo3
                              • Partial stroke test: 2oo2 during operation
                              • Replacement of the MV1 – MV5 solenoids during operation
                              • Replacement of the MV4 – MV5 solenoid valves during operation
                              • Optional Atex

                              Elektro-hydraulic Safety Control Unit TripCon Special
                              Features:
                              • Trip function: 2oo3
                              • Partial stroke test: 2oo2 during operation
                              • Replacement of the MV1 – MV5 solenoids during operation
                              • Replacement of the MV4 – MV5 solenoid valves during operation
                              • Optional Atex
                              Elektro-hydraulic Safety Control Unit TripCon Special

                              TripCon – Basic

                              Features:

                              • Trip function: 2oo3
                              • Partial stroke test: 1oo1 during operation
                              • Replacement of the MV1 – MV4 solenoids during operation
                              • Replacement of the MV4 solenoid valve during operation
                              • Optional Atex

                              Elektro-hydraulic Safety Control Unit TripCon Basic
                              Features:
                              • Trip function: 2oo3
                              • Partial stroke test: 1oo1 during operation
                              • Replacement of the MV1 – MV4 solenoids during operation
                              • Replacement of the MV4 solenoid valve during operation
                              • Optional Atex
                              Elektro-hydraulic Safety Control Unit TripCon Basic

                              CTo Overspeed Protection

                              CTo Overspeed Protection

                                The CTo consists of a 3/2 way hydraulic unit, a current-controlled electromagnet and the signal processing and control electronics. If there are no trip criteria, the control magnet generates the force FMag. This magnetic force presses the control piston of the hydraulic unit against a return spring. In this position, the hydraulic unit connects the pressure supply to the actuator of the trip valve, causing it to open. If there is a trip criterion (e.g. overspeed), the control magnet exciter current is interrupted immediately. The spring force FF exerted by the return spring shifts the control piston back to its original position, draining the actuator of the trip valve and causing it to close.
                                The Voith CTo overspeed protection system consists of an electronic signal pro­cessing unit that detects overspeed and an electrohydraulic assembly that actuates a hydraulic positioning cylinder directly. This positioning cylinder opens or closes a trip valve that releases or blocks the mass flow needed to drive machinery.
                                The CTo is a compact assembly and is intended for direct mounting to the actuator of the trip valve. This keeps signal paths short, making the unit immune to inter­ference.
                                The CTo features a simple design. This ensures reliable operation. The Mean Time Between Failures (MTBF) for the Voith CTo is over 200 years.

                                Technical data

                                Flow rate (A to T) 330 l/min [87gpm] at  Δp = 4 bar [58 psi]
                                Input pressure Up to 25 bar [362 psi]
                                MTBF (Mean Time Between Failures) 200 years (calculated in accordance to MIL‑HDBK‑217 and Siemens SN 29500,
                                actual MTBF evaluations from installed products show even higher values)
                                Supply voltage 24 VDC
                                Current consumption

                                0.5 A (2.5 A for t < 1 s)

                                Fail-safe operation Internal return spring
                                Trigger frequency 4,000 to 10,000 Hz, adjustable
                                Ambient temperature -20 to +80°C [-4 to +176°F] (standard version, not rated for use in potentially explosive areas)
                                Explosion proof rating (optional)
                                • ATEX (II 2G IIC T4, Ta = -30 to +60°C)
                                • IECEx (Ex db llC T4, Ta = -30 to +60°C)
                                • others on request
                                Protection class

                                IP 65

                                Safety integrity level

                                SIL 2

                                 

                                Advantages and benefits

                                • The Mean Time Between Failures (MTBF) is over 200 years. Your equipment operates very reliably. Productivity increases and the costs associated with lost production remain low.
                                • The Voith CTo is not sensitive to contaminated pilot oil. Turbine lubricating oil is suitable as the operating fluid. One oil supply system for both lubricating and pilot oil suffices.
                                  Maintenance is simple, which helps you lower operating costs.
                                • The CTo features a simple design. Overspeed detection and tripping are de­cen­tralized.
                                  This is a cost-effective solution – for both new equipment and when retrofit to existing equipment.
                                • A partial stroke test ("Trip-Sim") permits testing of the trip valve during turbine operation.
                                  This eliminates the need for additional hardware and keeps the system uncomplicated.
                                • A separate speed feedback signal in the form of a 4 – 20 mA signal is available.
                                  This makes installation of an additional speed measuring device unnecessary.

                                Typical fields of use

                                • Actuation of trip valves at
                                  • steam turbines
                                  • gas turbines
                                  • compressors

                                Technical information

                                Design

                                Overspeed Protection Type CTo - Design
                                A        Load connection (output)

                                T        Tank connection

                                P       Oil supply connection (input)

                                1       Control magnet housing

                                2       Plunger

                                3       Electrical connection

                                4       Hydraulic section

                                5       Control piston

                                Functionality

                                Overspeed Protection Type CTo - Function

                                The CTo consists of a 3/2 way hydraulic unit, a current-controlled electromagnet and the signal processing and control electronics. If there are no trip criteria, the control magnet generates the force FMag. This magnetic force presses the control piston of the hydraulic unit against a return spring. In this position, the hydraulic unit connects the pressure supply to the actuator of the trip valve, causing it to open. If there is a trip criterion (e.g. overspeed), the control magnet exciter current is interrupted immediately. The spring force FF exerted by the return spring shifts the control piston back to its original position, draining the actuator of the trip valve and causing it to close.

                                TurCon DTc Steam Turbine Controller

                                TurCon DTc Steam Turbine Controller

                                  Turbine Governor for Steam Turbines with max. 6 Control Valves, Digital Control for Steam Turbines

                                  The TurCon DTc is a compact, cost-effective steam turbine controller which can be used on mechanical driven machines or generator applications.
                                  It is pre-engineered with standard software. The software is based on proven, reliable algorithms for turbomachinery controls. 
                                  The parameters for control modes, such as speed control, demanding frequency control or complex extraction pressure control can be setup quickly and easily.
                                  The controller consists of two robust assemblies of outstanding industrial quality. One is a touchscreen control panel with integrated CPU and the other a remote I/O unit. In addition, a PC or an optional 15" control panel can be easily connected via LAN. This is especially practical, for example, during commissioning or for remote monitoring. Communication with a higher-level control system (DCS) uses Ethernet with Modbus TCP or OPC.
                                  The TurCon DTc is, in principle, a steam turbine controller for everyone.
                                  If you are an OEM, you have a controller solution that economically fits in your overall system. If you are a contractor or modernizer, you can offer your clients an easy-to-use solution, whilst you benefit from our consulting expertise. If you are a steam turbine operator, you have a reliable product with proven control algorithms that ensures high process quality and productivity.

                                  Technical data

                                  Control panel  
                                  Operating voltage 9.6 – 28.8 VDC
                                  Operating temperature 0 °C to +55 °C
                                  Degree of protection

                                  IP 54

                                  Dimensions (W x H x D) 179 x 119 x 42 mm
                                  Assembly Panel flush mounting
                                  HMI 7" WVGA color TFT touchscreen with 800 x 480 pixels
                                  Remote I/O  
                                  Operating voltage 20.4 – 28.8 VDC
                                  Operating temperature 0 °C to +55 °C
                                  Degree of protection

                                  IP 20

                                  Dimensions (W x H x D) 390 x 130 x 52 mm
                                  Fastening 35 mm DIN rails
                                  Inputs
                                  • 15 x digital/discrete (physical, LOW: -3 – 0.5 VDC, HIGH: 13 – 28.8 VDC)
                                  • 32 x digital/discrete (virtual, via bus)
                                  • 8 x analog (physical, 0 – 20 mA, input impedance: 200 Ω, measuring range:
                                    0 – 20.475 mA, resolution: 12 bits)
                                  • 16 x analog (virtual, via bus)
                                  • 3 x frequency (for speed pickups, active or passive speed sensors, measuring range:
                                    0.5 – 20 kHz, short circuit and open circuit detection)
                                  Outputs
                                  • 6 x digital/discrete (high-side switch, 0.5 A @ 24 VDC)
                                  • 8 x digital/discrete (relays, 2 A @ 24 VDC, max. 12 A @ 250 VAC)
                                  • 32 x digital/discrete (virtual, via bus)
                                  • 8 x analog (physical, 0 – 20 mA, load resistance: < 500 Ω, resolution:
                                    12 bits, AO0…3 and AO4…7 electrically isolated to the system)
                                  • 16 x analog (virtual, via bus)
                                  Communication  
                                  Interface
                                  • Ethernet (Modbus TCP or OPC)
                                  • Others upon request
                                  RemoteView & Control
                                  • Standard PC with specified browser via LAN
                                  • Voith 15" touch panel via LAN
                                  Configurable functions  
                                  Control modes for pumps, compressors, fans, etc.
                                  • Speed control
                                  • Extraction pressure control
                                  Control modes for generators
                                  • Speed control
                                  • Frequency control
                                  • Power control
                                  • Live steam pressure control
                                  • Back pressure control/exhaust steam pressure control
                                  • Extraction pressure control
                                  Control options Turbines with a maximum of 4 HP control valves and a maximum of 2 LP control valves
                                  Other
                                  • Cold/warm startup mode
                                  • Start-up ramp with a maximum of 12 sampling points (Critical Speed Avoidance)
                                  • Max. 8 configurable limiters:
                                    • Min. back pressure limiter
                                    • Max. back pressure limiter
                                    • Min. load limiter
                                    • Max. load limiter
                                    • Min. live steam pressure limiter
                                    • Max. live steam pressure limiter
                                    • Max. speed limiter
                                    • Max. wheel chamber pressure limiter
                                  • External analog setpoint
                                  • Simulation mode

                                   

                                  Typical applications

                                  • Control of steam turbines that drive compressors, pumps, fans and other driven machines
                                  • Control of steam turbines that drive generators
                                  • Upgrade/retrofit of mechanical steam turbine controllers
                                  • Upgrade/retrofit of analog steam turbine controllers, in particular
                                    • Voith TurCon A
                                    • Siemens / KKK SC800
                                    • MAN / GHH Turbolog EKU
                                    • Dresser Nadrowski / M+M / AEG
                                    • Kanis / ABB CTn, CTp and CTf
                                  • Upgrade of Woodward 505 and Woodward 505E steam turbine controllers

                                  Advantages and benefits

                                  Features Advantages Benefits
                                  • Easy to configure controller parameters for virtually every steam turbine.
                                  • Simple save and upload of the configuration and parameters.
                                  • The turbine controller has a high degree of flexibility and is suitable for all standard steam turbine applications.
                                  • The controller is pre-engineered with standard software.
                                  • The configuration and parameter data sets can be reused.
                                  • Integration of the controller into your system is quick, easy and economical.
                                  • The controller is suited both for new systems and for the modernization of existing equipment.
                                  • This keeps your commissioning effort and costs low.
                                  • A maximum of 4 HP and a maximum of 2 LP control valves can be controlled directly.
                                  • Individual valve control variables can be set to linearize the flow characteristic curve.
                                  • For turbines with more than one HP or
                                    LP control valve, there is no need to adjust the valves mechanically using a camshaft.
                                  • Fewer mechanical components mean lower maintenance and repair costs for you.
                                  • For turbines with more than one HP or
                                    LP control valve, a separate electronic valve coordinator (split range) is not required.
                                  • Having fewer electronic components reduces system complexity and improves reliability. You thus benefit from higher system availability.
                                  • The commissioning effort is lower, allowing you to make considerable cost savings.
                                  • The turbine control valves can be controlled in a flexible manner.
                                  • You can optimize the control of the process easily.
                                  • 7-inch TFT LCD control panel with intuitive touchscreen operator interface.
                                  • The HMI is both user-friendly and modern.
                                  • All parameters can be changed on-site and the relevant process values can be visualized.
                                  • The initial training of your operating personnel can be kept short.
                                  • On-site you have quick, very informative process visualization and monitoring.
                                  • RemoteView & Control via LAN using a standard PC with specified browser or via an optional 15" touch panel.
                                  • All operating, setting and monitoring functions can be executed just like on the standard control panel.
                                  • You have an additional, inexpensive HMI at another location.
                                  • A large-area visualization system, for example when commissioning or for monitoring purposes, can be set up quickly and simply.
                                  • Compact design with just two robust assemblies.
                                  • Tested, industry-proven standard hardware.
                                  • The TurCon DTc is a plug-and-play solution, which is ready to operate after connection and configuration.
                                  • The components of the control system are optimally matched to one another.
                                  • Your control system is very operationally reliable and easy to service.
                                  • Up to 3 speed sensors can be connected, 2oo3 voting
                                    (2 out of 3 selection) is possible.
                                  • The speed measuring equipment is fault-tolerant, whilst providing high reliability and availability.
                                  • You increase the reliability of your system and minimize the risk of downtimes and secondary damage.
                                  • Integrated monitoring of the speed sensors.
                                  • Faults in the speed measuring system can be detected in real time.
                                  • The current controller and sensor states are displayed using informative graphics.
                                  • Archiving of the last 1,000 status, warning and alarm messages with time stamps.
                                  • Process flows and process faults are easy to trace.
                                  • You optimize your process in a quick and targeted manner.
                                  • System availability, product quality and, last but not least, productivity increase.
                                  • Integrated tool for optimizing the controller during operation without any related process faults.
                                  • Control loops and control loop performance can be quickly optimized.
                                  • Shorter commissioning time saves you money.
                                  • The process quality is high.
                                  • An integrated simulation mode is available.
                                  • The validity of the configuration and the parameters of the turbine controller can be effectively checked, and optimized if needed, prior to actual commissioning.
                                  • Pre-simulation enables easier commissioning and reduces commissioning time.
                                  • You minimize the risk of damage resulting from incorrect parameters.
                                  • Multilevel password protection
                                  • Optimal security for controller operation.
                                  • Your turbine control system is secure and protected against unauthorized access.

                                   

                                  Technical Information

                                  Control schematic

                                  Steam Turbine Control System with TurCon DTc - Schematic

                                  Maximum configuration

                                  Steam Turbine Control System with TurCon DTc - Maximum Configuration

                                  Panel images

                                  TurCon DTc steam turbine controller in quality control

                                  TurCon DTc steam turbine controller in quality control

                                  TurCon DTm Steam Turbine Controller

                                  TurCon DTm Steam Turbine Controller

                                    Single-Valve/Two-Valve Steam Turbine Governor, Steam Turbine Control

                                    The TurCon DTm is a configurable digital controller which can be used on a wide range of steam turbines. It supports all established control modes –
                                    from speed control and high-performance frequency control to complicated extraction pressure control. The controller is pre-engineered. This means that it is ready for operation after connecting and setting the parameters.

                                    The controller is a modular assembly using standard hardware that is industry-proven. Standard software and a consistent, intuitive operating concept makes the TurCon DTm one of the most modern turbine controllers. As a user, you get a re­li­able plug-and-play solution featuring components that are optimally matched to each other. In addition, the TurCon DTm has an outstanding price/performance ratio.

                                    Using Profibus DP the integration into a central control system is made easy. Be­sides this, the TurCon DTm, with its TFT LCD control panel, provides a
                                    user-friendly and modern HMI with a touchscreen operator interface. The configuration and parameterization of the controller are performed via the control panel or optionally with a PC.

                                    The TurCon DTm is available in three versions:

                                    1. Standard:
                                      All hardware components wired in a cabinet incl. software.
                                    2. OEM version:
                                      CPU, memory card and LCD control panel, not wired incl. software.
                                    3. Retrofitter version:
                                      All hardware components without cabinet, not wired incl. software.

                                    Technical Data

                                    Operating voltage 21 – 28 VDC
                                    Ambient temperature 0 to +40°C [+32 to +104°F]
                                    Dimensions 500 x 500 x 210 mm
                                    HMI 7" TFT LCD control panel with touchscreen operator interface
                                    Protection class IP 65
                                    Communication
                                    • Profibus DP

                                    Optional:

                                    • Ethernet (Modbus TCP or OPC)
                                    • CAN
                                    Configuration and parameterization
                                    • Using the control panel
                                    • Using the PC configurator as an option
                                    Inputs
                                    • 8 x digital (physical, LOW: 0 – 5 VDC,
                                    • HIGH: 13 – 28 VDC)
                                    • 32 x digital (virtual via Profibus)
                                    • 6 x analog (physical, 4 – 20 mA, input impedance 50 Ohm, via 3-way isolating amplifier,
                                      measuring range 0 – 20.5 mA, resolution 14 Bit, wire-break detection at current < 1.185 mA)
                                    • 16 x analog (virtual via Profibus)
                                    • 2 x frequency (for speed pickups, only active speed sensors, measuring range 0.05 – 20 kHz,
                                      short circuit and wire-break monitoring)
                                    Outputs
                                    • 8 x digital (relays, 6 A @ 24 V)
                                    • 32 x digital (virtual via Profibus)
                                    • 4 x analog (physical, 4 – 20 mA,
                                    • load resistance < 500 Ohm, resolution 16 Bit, each channel electrically isolated)
                                    • 16 x analog (virtual via Profibus)
                                    Driven machines
                                    • Pumps, compressors, fans etc.
                                    • Generators
                                    Control modes for pumps, compressors, fans etc.
                                    • Speed control
                                    • Extraction pressure control
                                    Control modes for generators
                                    • Speed control
                                    • Frequency control
                                    • Power control
                                    • Live steam pressure control
                                    • Back pressure control/exhaust steam pressure control
                                    • Extraction pressure control
                                    Other
                                    • Cold/warm startup mode
                                    • Start-up ramp with a maximum of 12 sampling points (Critical Speed Avoidance)
                                      • Max. 8 configurable limiters:
                                      • Min. back pressure limiter
                                      • Max. back pressure limiter
                                      • Min. load limiter
                                      • Max. load limiter
                                      • Min. live steam pressure limiter
                                      • Max. live steam pressure limiter
                                      • Max. speed limiter
                                      • Max. wheel chamber pressure limiter
                                    • External analog setpoint
                                    • Simulation mode
                                    • Optional software package for optimizing control parameters

                                     

                                    Typical Applications

                                    • Control of steam turbines that drive compressors, pumps, fans and other driven machines
                                    • Control of steam turbines that drive generators
                                    • Upgrade/retrofit of mechanical steam turbine governors/controllers
                                    • Upgrade/retrofit of analog steam turbine governors/controllers, especially
                                      • Voith TurCon A
                                      • Siemens / KKK SC800
                                      • MAN / GHH Turbolog EKU
                                      • Dresser Nadrowski / M+M / AEG Kanis / ABB CTn, CTp and CTf
                                    • Upgrade of steam turbine controllers Woodward 505 and Woodward 505E

                                    Advantages and benefits

                                    Features Advantages

                                    Benefits

                                    • Free configuration and
                                      parameteriza­tion of the controller for steam turbines with one or two control valves.
                                    • Saving and loading of the
                                      configura­tion and parameters.
                                    • The turbine controller has a high degree of flexibility and is suitable for all standard industrial steam turbine applications.
                                    • The controller is pre-engineered with standard software.
                                    • The configuration and parameter data sets can be reused.
                                    • Integration of the controller into your system is quick, easy and econom­ical.
                                    • The controller is suited both for new systems and for the modernization of existing equipment.
                                    • This keeps your commissioning effort and costs low.
                                    • 7-inch TFT LCD control panel with intuitive touchscreen operator interface.
                                    • The HMI interface is convenient and modern.
                                    • All relevant parameters can be con­figured and visualized on site.
                                    • The initial training of your operating personnel is short.
                                    • On site you have quick, very in­forma­tive process visualization and moni­toring.
                                    • Modular, industry-proven hardware.
                                    • All electronic components are integrated into a cabinet.
                                    • The TurCon DTm is a plug-and-play solution which is ready to operate after connecting and setting the parameters.
                                    • The components of the control sys­tem are optimally matched to one another.
                                    • Your control system is very operationally reliable and easy to service.
                                    • 2 speed sensors can be connected.
                                    • The speed measuring equipment is fault-tolerant, whilst providing good reliability and availability.
                                    • You increase the reliability of your system and minimize the risk of downtimes and secondary damage.
                                    • Integrated monitor for the speed sensors.
                                    • Faults in the speed measuring sys­tem can be detected in real time.
                                    • The current controller and sensor status are displayed using informative graphics.
                                    • Archiving of the last 1,000 status, warning and alarm messages with time stamps.
                                    • It is easy to trace process flows and process faults.
                                    • You optimize your process in a quick and targeted manner.
                                    • System availability, product quality and,
                                      last but not least, productivity increase.
                                    • Configuration and parameterization are accomplished using the control panel or with a PC available as an option.
                                    • Controller operation is flexible.
                                    • You save time and money during commissioning.
                                    • Individual parameters can be ad­justed quickly and easily during operation.
                                    • Simulation mode.
                                    • The configuration and parameterization of the turbine controller can be easily checked to make sure they are correct.
                                    • Pre-simulation enables easier commissioning and reduces commissioning time.
                                    • Incorrect controller operation and the resulting damage are less likely.
                                    • Multilevel password protection.
                                    • Optimal security for controller operation.
                                    • Your turbine control system is safe and incorrect operations are prevented.
                                    • Optional software package available for optimizing control parameters.
                                    • The control loops and the control loop performance can be quickly optimized using this tool.
                                    • A shorter commissioning time saves you money.
                                    • The process quality is high.

                                     

                                    Technical Information

                                    Control schematic

                                    TurCon DTm Control Schematic

                                    Maximum configuration

                                    TurCon DTm Maximum Configuration

                                    Panel Images

                                    Application example

                                    How can we help you?

                                      J.M. Voith SE & Co. KG | DSG

                                      Actuators and Governors

                                      Voithstraße 1 74564 Crailsheim Germany

                                       

                                      t +49 7951 32-470

                                      f +49 7951 32-605

                                      Publications

                                        RIGHT OFFCANVAS AREA