2. DEIF Headquarters
DEIF maintains its quality
standards and benefits from
innovation synergy by grouping
production, R&D, Test Lab,
training and central shipping at its
HQ in Skive, Denmark.
•21.600 m2
plant
•600 employees
•Production Plant
•R&D
•Type Test Lab
•Group Marketing, Finance, HR
3. » «
Global Reach, Record Response
• Sales & competence centres in 17 key markets
• Distributors in 35 countries and territories
• Strong local understanding and capability
DEIF
Distributors
DEIF’s sales offices and
distribution network supply
the products, solutions and
support for your demands.
Europe
Locations: DK, DE, FR, NL, NO, TR, UK
North America
Office: US, MX
South America
Locations: BR
Asia
Locations: CN, ID, IN, KR, SG, UAE, VN
4. The DEIF Group
Wind
•Main & Pitch Control
•SCADA Systems
•Wind Park
Power Management
•Controllers, Pitch Drives,
Motors etc.
Energy
• Diesel
• Gas
• Hydro
• Steam
• Switchboard Equipment
Marine & Offshore
•Marine
•Oil & Gas
•Bridge Instrumentation
•Switchboard Equipment
5. » «
Solutions for Hydro Projects
A complete controller range, from basic to complex
quality solutions.
• 3 controller variants cover full application ranges
• Free choice of automation level
• Proven record for new installations & retrofits
DEIF offers quality solutions that match the requirements of all types of
applications, from simple single units to complex all-in-one setups.
Naturally, our systems are equally suitable for new installations and
retrofits.
7. Traditional Controls of Hydro Turbine
Generator
Protections
Governor
Speed Sensor
Synchronizer
Mechanical
Protection
Load
Controller
PLC
SCADA
8. Problems with Traditional & PLC Based System
• Many Components –
• Reduces Availability and increase maintenance of System
• More Wiring and hence more copper loss and reduce reliability
• More time in commissioning.
• Difficult in fault finding and assigning the responsibility
• More Spare parts inventory.
• Standardization
• PLC Programs are programmer specific and site specific and no standardization for operation.
• Difficult to operate and maintain.
• Require complete modification in software while adding new unit or power plant expansion
• Multiple Suppliers
• Difficult to coordinate and commission the system.
• Fault finding and diagnostics
• Long term Service & Support
• Frequent absolution of components and no long term service and support
10. Advantages of Modern DEIF Controllers
• Integrated system increases the reliability and maintainability.
• Fast reaction to events (internal interaction between functions), no data
transfer delay time between different units
• Reduces risk of wiring problems compared to components solution
• Reduces panel space requirement (footprint on base plate)
• Integration of control functions within one unit secures a bumpless
transition between control modes.
• Only three modules as spares for complete system.
• Single supplier, no problems with defining areas of responsibility
11. Unique combination of
Functional flexibility and
reliability..
Controllers according to functionality and
Complexity.
GPC-3 Hydro
GPC-3 – Hydro
Valve Control
DM-400 - Hydro
DEIF Controllers for Hydro Power Plants
12. DEIF Products for Hydro Power Plants
Mini Hydro Turbine
100-1000KW
Micro Hydro Turbine
10-100KW
Small Hydro Turbine
1-25MW
Large Hydro
Turbine
Above 25MW
13. Delomatic-400 Hydro
The controller DM 400 Hydro is designed as a modular
process controller. It covers demands for:
•Reliability
•Robustness
•Flexibility
•remote access
The DM 400 control of a hydro turbine generator is
designed for unmanned operation.
The user interface provides full information to the user
and allows an efficient diagnosis and a fast
reestablishment of the operation locally as well as
remotely.
14. Advanced Graphical Interphase – AGI 300
• The AGI 300 series contains three screen size
models: AGI 304 (4”), AGI 307 (7") and AGI
315 (15”).
• Compatible with DEIF's Multi-line controllers
and other DEIF/third party products with
Modbus/Ethernet protocol
• Full vector graphic support with True Type
fonts. Portrait mode operation
• Multiple objects properties with dynamic control,
including visibility and position.
• Data acquisition and trend presentations. Trend
data can be transferred to a host computer.
• Multiple level of password protection.
15. One Control Multiple functions
The DM 400 controller can take care of following functions:-
•Governing System –
• Speed and Load Control.
• Water Level Control
• OPU Control
•Mechanical Protection
• Braking System Control
• Jacking System
• Lubrication System/HPOS
• Cooling Water System
• Bearing Temperature Monitoring System.
• Surge Protection System
• Main & By pass Valve System
•Synchronization System
•Electrical Protection
16. Delomatic 400 Hydro functions
STANDARD
protections
Generator protections
2x Reverse power (32)
2x Overload (32)
4x Overcurrent (50/51)
1x Overvoltage (59)
1x Undervoltage (27)
1x Over- and underfrequency (81)
1x Current unbalance (60)
Loss of excitation/overexcitation (40/32RV)
Busbar/Mains protections
1x Overvoltage (59)
1x Undervoltage (27)
1x Overfrequency (81)
1x Underfrequency (81)
1 x Vector Jump (78)
1 x df/dt (ROCOF) (81)
STANDARD
functions
Voltage control:
-Voltage matching (sync)
- Voltage control (island)
- Power factor control (parallel to grid)
- var sharing (Island load sharing
Speed control / power control
- RPM control (sync)
- Power control (parallel to grid)
- load sharing (island load sharing)
Valve control
- Main valve
- Drain valve
- Fill valve
Control valves
- Francis wicket gate
- Kaplan runner pitch / wicket gate
- Pelton multiple nozzles cascade
Hydraulic power pack
- Pressure based pump start/stop
- Automatic start shift over between pumps
- Alarm and monitoring
Lube oil control
- Automatic start shift over between pumps
- Alarm and monitoring
Coolant water control
- Automatic start shift over between
pumps
- Alarm and monitoring
17. DM-400 - As Governor for Pelton Turbine
Speed Signal
Water Level Signal
Surge Control Signal
6 X OPU Control Signal
18. DM-400 in action – Pelton Turbine
Hydro controller
Water level
4-20 mA
SYNCHRONISEPOWER CONTROL
Water flow
START
ClosedrainvalveDrainvalve
clsoed
OpenfillvalveFillvalveopen
OpenmainvalveMainvalveopen
Opennozzle1Nozzle1open
Opennozzle2Nozzle2open
Opennozzle3Nozzle3open
Opennozzle4Nozzle4open
Chamberfilled
20. DM-400 as Governor for Francis Turbine
Speed Signal
Water Level Signal
Surge Control Signal
OPU Control Signal
21. DM-400 as Governor for Kaplan Turbine
Speed Signal
Water Level Signal
Surge Control Signal
2 X OPU Control Signal
Oil Control Line Runner Blade
Oil Control Line Wicket
Gate
22. Guide Vane and Runner Pitch Relation
Kaplan turbine runner pitch adjustment
6-point adjustment of curve relation between guide vane (wicket gate) opening and runner pitch
23. DM-400 as Water Level Controller
Water level dependent load
regulation is also
implemented by a water
level sensor in reservoir (not
in DEIF scope) a 4-20 mA
signal is given to controller &
Its power output varies in
liner proportional relation to
water level.
26. Hardware of DM-400 Hydro
1 pc. PCM 4.3
1 pc.
SCM 4.1
CAN Bus 3
CAN Bus 2
CAN Bus 1
xx pcs.
IOM 4.2
Blinds as
needed
3 current inputs
-/1 or -/5A
Generator voltage
3 x 100-690 VAC +
N
Busbar/mains
voltage
3 x 100-690 VAC +
N
Breaker ON
command
Breaker TRIP
command
Breaker pos.
feedback
6 x temperature
inputs (Pt100 or
NiCrNi)
4 x 4-20 mA inputs
4 x 4-20 mA outputs
12 x digital inputs
4 x RPM/digital
inputs
10 x digital outputs
ARC net
RS485
24 VDC supply
Watchdog relay
Mobile
modem
interface
Ethernet TCP/IP
USB for local operator
panel
Delomatic 400 Hydro – Hardware
27. Case Story - Mohammadpur Hydro power plant
Kaplan turbine plant, 3 x 3.4 MW synchronous generators
28. DEIF Scope – Mohammadpur Hydro Plant
To provide the Fully Automated Digital Governor which not only regulate the power but also
do the plant start/ stop sequence & provide Generator protection.
1.Regulate Power according to Set point provided either by Touch panel, MODBUS or
Analogue input.
2.Control the Oil Pressure Unit (OPU) system, Breaking system, Jacking system either in
Test mode or Auto Mode.
3.Testing of Digital output possible in Test-Mode.
4.Excitation Control in fully automated way to do synchronization & regulate power factor.
5.Provide Generator and Bus bar protection. Also Special protection function “External control
” in which Dolomitic provide only electrical protection.
6.On line runner pitch configuration while machine running, done through Touch panel.
7.Parameter setting for electrical protection is online and can be done through Touch panel.
8.Gain setting for various PID loop is online and can be done through Touch panel.
9.Monitoring of RTD connected to DM4 and freely configurable Alarm and trip setting.
29. GPC-3 Hydro with Valve Control – Mini Hydro
• Start and stop sequences for various types of hydro
turbines are included (e.g. for Francis, Turgo and Pelton
turbines).
• Main valve, fill valve, drain valve, bypass or deflector
control and needle/spear valve control.
• Up to 2 control valves (needle/spear) can be controlled
with relay UP/DOWN signals or with analogue signals.
• Wicket gate control for Pelton/Francis turbine.
• Synchronising
• Mains grid paralleling with fixed power.
• Mains grid paralleling with water level control
• Island operation fixed frequency control
31. Block diagram- GPC-3 -Hydro
GPC Hydro
Speed
pickup
333
Mains failure
protection
kW calc Sync.Speed
control
+/- 20 mA out
Proportional valve
driver(s)
Pt100
Hydr. oil
pressure
P
I
Temp.
alarms
4-20 mA Pt100
Oil pressure
control
Oil pump(s)
Start/stop control
Main valve
Drain valve
Fill valve
Chamber
pressure
P
I
Hydraulic
valves
Brake
4-20 mA
Pt100
Pt100
AVR
Misc.
alarms
4-20 mA
Misc.
alarms
Digital
32. Protections
GPC 3 Hydro – Valve Control
STANDARDOPTIONAL
Generator protections
2x Reverse power (32)
5x Overload (32)
6x Overcurrent (50/51)
2x Overvoltage (59)
3x Undervoltage (27)
3x Over- and underfrequency (81)
1 x Current/voltage unbalance (60)
Loss of excitation/overexcitation (40/32RV)
Voltage dependent overcurrent (51V)
Busbar protections
3x Overvoltage (59)
4x Undervoltage (27)
3x Overfrequency (81)
4x Underfrequency (81)
Voltage unbalance (60)
3x NEL-groups
Option A1:
1 x Time dependent undervoltage (27t)
1 x Undervoltage and reactive power low
(27Q)
1 x Vector Jump (78)
1 x df/dt (ROCOF) (81)Option A4:
1 x Positive sequence voltage low (27)
Option A5:
1 x Directional over current (67)
Option C2:
1 x Negative sequence voltage high (47)
1 x Negative sequence current high (46)
1 x Zero sequence voltage high (59)
1 x zero sequence current high (50)
1 x power dependent reactive power
import/export (40)
1 x Inverse time over current (51)
Display unit Display cable, 3m
SLOT #1, term. 1-28
Power supply board
- 8-36 VDC supply, max. 11W consumption
- 1 x status relay output
- 5 x relay output
- 5 x digital input
SLOT #5, term. 73-89
AC measuring board
- 3 x current, -/1A or -/5A
- 3 x gen. voltage, 100…690 VAC
- 3 x busbar, 100…690 VAC
STANDARD
Software
Option D1:
-Voltage matching (sync)
- Voltage control (island)
- Power factor control (parallel to
grid)
- var sharing control (Island load
sharing
Speed control
- RPM control (sync)
- Power control (parallel to grid)
- load sharing (island load sharing)
- Automatic Mains Failure
M-Logic
Logic controller for additional
functions
Hardware
SLOT #4, term. 65-72
Speed/AVR control
- 4 x relay outputs
SLOT #7, term. 98-125
Turbine I/F / I/O extension
- 3 x Multifunctional inputs
- 7 x binary inputs
- 4 x relay outputs
33. SLOT #3, term. 37-64
M12: I/O extension (13 x DI, 4 x DO)
SLOT #4, term. 65-72
E1: 2 x +/- 20 mA out
E2: 2 x (0) 4...20 mA out
EF2: 1 x +/- 20 mA out
1 x (0)4...20 mA out
EF4: 1 x +/- 20 mA out
2 x relay
HW options – GPC-3 Hydro
SLOT #2, term. 29-36
H1: Can Open
H2: Modbus RTU/ASCII
H3: Profibus DP
H8.2: External I/Os (CAN)
H9.2: Modbus RS232
(modem)
SLOT #8, term. 126-133
H8.8: External I/Os
M13.8: 7 x DI
M14.8: 4 x relay output
M15.8: 4 x 4…20 mA input
SLOT #6, term. 90-97
F1: 2 x (0)4…20mA
M13.6: 7 x DI
M14.6: 4 x relay output
M15.6: 4 x 4…20mA input
Additional displays:
X2: Additional std. display DU-2
X3: Additional operator panel (AOP-1)
X4: Additional operator panel (AOP-2)
Options X2 and X4 are remote
displays/panels using CAN bus
communication.
Cables:
J2: Display cable 6 m
J4: Ethernet cable for N-option
J6: Display cable 1 m
J7: PC cable for USW (USB) 3 m
N: Modbus TCP/IP
34. GPC -3 Hydro – Micro Hydro Turbine Controller
GPC 3 can be used for Francis or Kaplan turbine generator
with one speed control valve/wicket gate, controllable by
relay output UP/DOWN signals.
•Start and stop turbine
•Speed control
• ELC.
•Synchronise generator
•Fixed power operation
•Water level control with automatic start and stop
35. GPC -3 Hydro –Electronic Load Controller
Speed/Frequency control is done thru
Blast/Dump Load Control which will
increase/decrease in accordance with
the Governor Regulation output (i.e 4-
20mA) given by GPC-3 Hydro controller
to maintain nominal frequency set-point
of 50Hz.
The Governor Output is usually set as
•At 4 mA out put Dump/Blast Load = 0%
of Total Dump Load
•At 20mA output Dump/Blast Load =
100% of Total Dump Load
Both the Gensets will work in Active
Power (P) Load sharing mode and
maintain constant frequency of bus bar
36. Protections
GPC 3 Hydro
STANDARDOPTIONAL
Generator protections
2x Reverse power (32)
5x Overload (32)
6x Overcurrent (50/51)
2x Overvoltage (59)
3x Undervoltage (27)
3x Over- and underfrequency (81)
1 x Current/voltage unbalance (60)
Loss of excitation/overexcitation (40/32RV)
Voltage dependent overcurrent (51V)
Busbar protections
3x Overvoltage (59)
4x Undervoltage (27)
3x Overfrequency (81)
4x Underfrequency (81)
Voltage unbalance (60)
3x NEL-groups
Option A1:
1 x Time dependent undervoltage (27t)
1 x Undervoltage and reactive power low
(27Q)
1 x Vector Jump (78)
1 x df/dt (ROCOF) (81)
Option A4:
1 x Positive sequence voltage low (27)
Option A5:
1 x Directional over current (67)
Option C2:
1 x Negative sequence voltage high (47)
1 x Negative sequence current high (46)
1 x Zero sequence voltage high (59)
1 x zero sequence current high (50)
1 x power dependent reactive power
import/export (40)
1 x Inverse time over current (51)
Display unit Display cable, 3m
SLOT #1, term. 1-28
Power supply board
- 8-36 VDC supply, max. 11W consumption
- 1 x status relay output
- 5 x relay output
- 5 x digital input
SLOT #5, term. 73-89
AC measuring board
- 3 x current, -/1A or -/5A
- 3 x gen. voltage, 100…690 VAC
- 3 x busbar, 100…690 VAC
STANDARD
Software
Option D1:
-Voltage matching (sync)
- Voltage control (island)
- Power factor control (parallel to
grid)
- var sharing control (Island load
sharing
Speed control
- RPM control (sync)
- Power control (parallel to grid)
- load sharing (island load sharing)
M-Logic
Logic controller for additional
functions
Hardware
SLOT #4, term. 65-72
Speed/AVR control
- 4 x relay outputs
SLOT #3, term. 37-64
Loard sharing board
- P/Q load sharing lines
- P/Q/U/CosPhi setpoint (Ain)
- 13 binary inputs
- 4 relay outputs
37. SLOT #3, term. 37-64
M12: I/O extension (13 x DI, 4 x DO)
SLOT #7, term. 98-125
M4: Turbine I/F / I/O extension
3 x Multifunctional inputs
7 x binary inputs
4 x relay outputs
SLOT #4, term. 65-72
E1: 2 x +/- 20 mA out
E2: 2 x (0) 4...20 mA out
EF2: 1 x +/- 20 mA out
1 x (0)4...20 mA out
EF4: 1 x +/- 20 mA out
2 x relay
HW options – GPC 3 Hydro
SLOT #2, term. 29-36
H1: Can Open
H2: Modbus RTU/ASCII
H3: Profibus DP
H8.2: External I/Os (CAN)
H9.2: Modbus RS232
(modem)
SLOT #8, term. 126-133
H8.8: External I/Os
M13.8: 7 x DI
M14.8: 4 x relay output
M15.8: 4 x 4…20 mA input
SLOT #6, term. 90-97
F1: 2 x (0)4…20mA
M13.6: 7 x DI
M14.6: 4 x relay output
M15.6: 4 x 4…20mA input
Additional displays:
X2: Additional std. display DU-2
X3: Additional operator panel (AOP-1)
X4: Additional operator panel (AOP-2)
Options X2 and X4 are remote
displays/panels using CAN bus
communication.
Cables:
J2: Display cable 6 m
J4: Ethernet cable for N-option
J6: Display cable 1 m
J7: PC cable for USW (USB) 3 m
N: Modbus TCP/IP
38. The DEIF Promise
DEIF Partnership
•Global pre-engineering & design support
•Commissioning support & service contracts
•Hands-on training
•Global after-sales support
DEIF Priority
•Fully integrated systems approach
•Quality controlled manufacturing with full traceability
•10 year spare part supply
DEIF Package
•In-house type-test & class approvals centre
•Product integration
•Package solutions
A WIDE RANGE OF APPLICATIONS & LOCATIONS:
*Genset in an African village
*Mobile generator that bumps along behind a Land Rover in the Himalayas.
*Critical power installations at hospitals.
*Large power plants that combine emergency power and stand-by power for vital power supply.
DEIF’s broad infrastructure reflects our mission and continued drive to extend our global reach in partnerships with trusted distributors, system integrators and a service network.
Headquarters in Denmark. Key markets with subsidiaries are: China, Singapore, India, Brazil, USA, France, Germany, UK and Norway