2.9”(128x64) Easy to install and use with graphic LCD.
TCR (SVC) Connectable
Generator Input and Generator Compensation
Remote Communication with Rs485 (Computer Communication)
Compensation for Inductive and Capacitive Systems
Manual Step Value Enterable
Single, Two and Three Phase Capacitor and Shunt Reactor can be connected
Turkish and English Language Option
Voltage, Harmonic Current/Voltage, Inductive and Capacitive Alarm Output
Step Drive, Step Release, Discharge and Settlement Times are Adjustable
Current Harmonics can be Observed Up To 31st Harmonics
Voltage Harmonics can be Observed Up To 31st Harmonics
Cosine Values of Each Phase Can Be Observed
Power Factor Values of Each Phase can be Observed
Capacitive/Active and Inductive/Active Ratios can be Observed
Total Active and Reactive Energies (Import/Export/Inductive/Capacitive) can be Observed.
THD-V and THD-I values of
E
ach
P
hase can be
Observed.
Creating Power Analysis
(20 samples 9999 min.)
It Shows The Total Number of Uses of the Steps.
Encrypted Protection
Same Aging in Steps
1
Features
About RGT-12SVC
It is designed to reduce reactive (inductive and capacitive) power that comes from the
network and loads do not use. If the inductive reactive power is attracted from the network,
it interferes by attracting
capacitor
at the appropriate step. If capacitive reactive power is
attracted from the network, interferes by attracting shunt reactor at the appropriate step.
Thus it endeavors to reduce the inductive/active and capacitive/active rates of the system.
It is designed to make more sensible compensation at the unbalanced inductive and
capacitive systems with RGT-
12SVC
TCR(SVC) step.
What is the SVC (TCR) ?
SVC is a new generation compensation system that works to minimize the capacitive power in
the system by activating the reactors connected to the TCR (Thyristor Controlled Reactor)
unit as much as necessary against the instantaneous capacitive power in the system.
2
While making current transformer test and measurement of the step, be careful about
avoiding rapid load changing on the system as much as possible.
Compensation starts with the
regulations of the load distribution of the Electrical
wiring
in a balanced way that belongs to the system.
For the current transformer test, connect three phase capacitors in 1/40 (*) of the current
transformer value to the first three stages of the device. ( * : The total value of the first three
levels.)
Do not define step number and capacitor values randomly where has rapid load changing
and where huge amount of load is distributed randomly.
You can get benefit from the examples which are in the Power Analysis, in order to
compensate more effectively to the unbalanced loads in the system.
While preparing compensation board be careful about that you should easily add new
steps for probable changings
(load adding or excluding) that can occur subsequently.
It is advisable to add new steps at the same value for the lifespan of the commonly used
step's conductor and c
apacitor
.
Matters to
b
e Considered
i
n
Power Factor Correction
Choose the
a
utomat
ic
fuse current values used in steps according to the power of the
capacitor
and reactor and point as connection removing member.
Use seperate automatic fuse for each feeding inductor of the step conductors.
Use compensation
contactors
and discharge
inductors at the steps.
Mono
phase connection at the three phase systems is only appropriate for balanced
load attraction. Otherwise
desired rates cannot be obtained.
Warnings
Use the device according to our instructions.
Avoid direct sun light in order not to harm the LCD screen.
Leave at least 10 cm of space behind the device after mounting.
Fix the device with apparatus which comes within the device by avoiding any kind of
shake on the front cover of the board.
Balance the inner and outer heat in the metal boards. Otherwise because of the
temperature
difference that originates from the dampish surrounding, water droplets occurs on the ceiling
of the board and this situation is dangerous for the open connected buses.
Keep the switch and circuit breaker close to the device and easily accessible by the operator.
Mark the switch and circuit breaker as the connection tripping element for the device.
There must be no electricity in the connection cables when assembling.
Screened and twisted cord cables should be used on the input and output lines without
connection to the Mains (network). These cables should not pass near high-Voltage lines
and devices.
