Product Overview

V I S H AY I N T E R T E C H N O L O G Y, I N C .
ESTAsym MD
Vishay ESTA
ESTAsym MD
Capacitor Protection Relay
CHARACTERISTICS
The microprocessor-based ESTAsym MD capacitor protection relay uses a versatile
integrated current measuring multifunction relay design to enable the protection of medium and high
voltage capacitor banks. Using FFT techniques, the ESTAsym MD calculates the fundamental and
harmonic currents from measured line and unbalance currents, and uses these values to implement
individual protection functions.
The ESTAsym MD capacitor protection relay is particularly appropriate for capacitor banks connected
in double star and bridge circuit configurations. The following protective functions are provided by the
ESTAsym MD:
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Capacitor unbalance protection
Line current unbalance protection
Overvoltage protection
Overheating protection
Ground fault protection
Overcurrent protection
Undercurrent protection
Capacitor bank discharge timer
RESOURCES
• For technical questions contact [email protected]
• Sales Contacts: www.vishay.com/doc?99915
A WORLD OF
SOLUTIONS
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
ESTAsym MD
Vishay ESTA
Capacitor Unbalance Protection
The relay measures the circuit’s natural unbalance at its fundamental frequency and compensates for both amplitude and phase
to zero shifts, to enable detection of further changes in both amplitude and phase angle. The phase current input IL1 is used
as the synchronizing input for the compensation. The phase angle indicates the leg in which the change in capacitance has
occurred. The protection has two stages, warning and tripping, both with an adjustable definite timer. A trip signal is initiated if
the associated threshold is exceeded for the definite time setting. The trip values obtained mathematically relate to the nominal
voltage of the capacitor equipment. Therefore, accurate protection is not maintained in case of voltage fluctuation - especially
with decreased voltage.
Line Current Unbalance Protection
The relay calculates the fundamental frequency line current unbalance due to faults or failures within the capacitor bank. The
line current unbalance is calculated from three-phase line currents. The protection includes two stages, warning and tripping,
both with an adjustable definite timer. A trip signal is initiated if the value of the line unbalance current exceeds the selected
setpoint value for the definite time.
Overvoltage Protection
The purpose of the overvoltage protection is to protect the capacitor bank against overload due to fundamental and harmonics
currents, which may lead to dielectric breakdown, i.e. short-circuit in a capacitor element. The capacitor bank voltage
is calculated from the three-phase line fundamental frequency component current and from the harmonic currents. The
overvoltage factor is calculated and continuously compared with a variable threshold. The user may select between a definite
time characteristic and an inverse time characteristic according to the ANSI curve. A trip signal is output if the setpoint value is
exceeded for the definite time.
Overheating Protection
The overheating protection function is intended to be used for the protection of series reactance coils used within capacitor
banks. This protection works by measuring the RMS three-phase line currents and comparing them with an adjustable
threshold. The protection feature has two stage options, warning and tripping, both with adjustable
definite-time delay, or the user can select the tripping time depending on the ratio of the actual current to the nominal current.
The warning time is half of the tripping time. If the current exceeds the relevant setpoint value for the definite-time delay, a
tripping or warning signal is initiated.
Ground Fault Protection
The protection calculates the fundamental frequency ground fault current, as the value of the vector sum of the three-phase line
currents. The protection has two stages, warning and tripping, both with adjustable definite time. A trip signal is initiated if the
amplitude of the ground fault current exceeds the selected setpoint value for the definite time.
Overcurrent Protection
The protection stage measures the fundamental frequency of three-phase currents and compares them with an adjustable
threshold. This function may be used for short-circuit protection. A trip signal is initiated if the value of the line current exceeds
the selected setpoint value for the definite time.
Undercurrent Protection
The undercurrent protection function is intended for the detection of capacitor bank disconnection. In case of voltage loss in
the feeding bus, the capacitor bank has to be disconnected from the system to prevent reapplication of the voltage on the
capacitors before they are fully discharged. The stage starts if all the
three-phase currents fall below the set level. If the undercurrent condition persists for an interval longer than the set operating
time, the trip signal is initiated.
PRODUCT OVERVIEW
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THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND
THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
VMN-PL0357-1602
www.vishay.com
V I S H AY I N T E R T E C H N O L O G Y, I N C .
ESTAsym MD
Vishay ESTA
Capacitor Bank Discharge Timer
The relay includes an adjustable timer, started by the circuit breaker auxiliary contacts, which stops the breaker from reclosing until
the capacitor bank is discharged to an acceptable voltage level for switching in.
PC Software
The PC software provided with ESTAsym MD allows all
settings to be made easily. All setting data is stored in a
setup file.
Data Storage
The ESTAsym MD stores all data, including date and time
information, in a report file. The included PC software
provides you with convenient access to this data.
FFT Analysis and Real Time
Measuring
The PC software allows users to see the actual current
values of the four measuring inputs up to the thirteenth
harmonic.
Application
The double star circuit generates a sum current the size and phase of
which result from the three unbalance currents. Using the reference current,
the ESTAsym MD can analyze the sum current into the three unbalanced
currents. Each change of the sum current can take place only in the same
phase of the capacitor current. Thus the ESTAsym MD can reveal the partial
path in which the defective capacitor unit is located. This means that only
1/6 of the capacitors need to be checked.
Within the bridge circuit, the phase position of the unbalance current L1, L2
and L3 in relation to the reference current is 0, +120, or +240 degrees. The
ESTAsym MD can reveal the fault phase and the bridge circuit branch in
which the faulty capacitor unit is located.
It is possible to configure the four current inputs of the ESTAsym MD for
different applications. For a YY- or bridge connection, inputs 1-3 will be the
three line currents, and the fourth input would be the unbalance current. It
is also possible to use the first input to measure the line current and inputs
2-4 can be used for the unbalance measurements. Thus it is possible to
control three individual YY or bridge connections with different unbalance
settings for each bank.
PRODUCT OVERVIEW
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THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND
THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
VMN-PL0357-1602
www.vishay.com
V I S H AY I N T E R T E C H N O L O G Y, I N C .
ESTAsym MD
Vishay ESTA
Technical Data
Measuring Circuits
Rated Current
Thermal Current Withstand
Galvanic Separation
Power Consumption per Measuring Circuit
Measurement Accuracy
Rated Frequency
four current inputs, each can be parameterized to 1 A or 5 A
continuously 15 A / for 1 second 100 A
via current voltage transformer, dielectric strength of 2 kV
1 VA
Class 1
50 Hz / 60 Hz
Auxiliary Supply
Standard
Option
100 V - 375 VDC or 100 V - 240 VAC 50 Hz / 60 Hz
18 V - 75 VDC
Ouput Contact Rating
potential-free change-over switch contacts for alarm and switch-off
Signal Outputs
the normal position of the relay can be selected, picked up, or released
contact rating 8 A / 265 VAC or 0.3 A / 300 VDC or 8 A / 30 VDC
Interface
RS232 (9600 Bd) on the front panel and RS485 and RS232 on the rear panel
Mechanical Structure
Front Plate / Switchboard Cutout / Depth
Installation
142 mm x 142 mm / 138 mm x 138 mm / 115 mm
115 mm
Environmental Conditions
Operating / Storage Temperature
Dimensions
Degree of Protection
10 ºC to 60 ºC / - 20 ºC to 70 ºC
135 mm x 135 mm x 121 mm (w x h x d)
IP 54
Safety
pursuant to EN 50178, Class II and EN 61010-1, EN50081-1, EN50082-2,
CE conformity
PRODUCT OVERVIEW
4/4
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND
THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
VMN-PL0357-1602
www.vishay.com