Seg XRI1-IE User manual
XRI1-IE - Combined time overcurrent and earth current relay
2 TB XRI1-IE 11.01 E
Contents
1 Introduction and application
2 Features and characteristics
3Design
3.1 Connections
3.1.1 Analog input circuits
3.1.2 Blocking input
3.1.3 External reset input
3.1.4 Output relays
3.1.5 Data communication
3.2 Front plate
3.2.1 Indication and operation elements
3.2.2 LEDs
3.2.3 Display
3.2.4 Parameter settings (see chapter 6)
4 Working principle
4.1 Analog circuits
4.2 Digital circuits
4.3 Earth fault protection
4.3.1 Generator stator earth fault protection
4.3.2 System earth fault protection
4.4 Requirements on the main current
transformers
5 General operations and settings
5.1 Push buttons
5.1.1 Indication of measuring values and fault
data
5.2 DIP switches
5.2.1 Function of the output relays
5.3 Reset
5.4 Password
5.4.1 Password programming
5.4.2 Using the password
5.5 Relay setting principle
5.5.1 Setting of default parameters
5.5.2 Blocking the protection function
5.6 Display of software version and test-TRIP
5.7 Low/high range of functions blocking and
reset
6 Operations and settings
6.1 Setting procedure
6.1.1 Pickup current for phase overcurrent
element (I>)
6.1.2 Time current characteristics for phase over-
current element (CHAR I>)
6.1.3 Trip delay or time multiplier for phase over-
current element (tI>)
6.1.4 Reset setting for inverse time tripping
characteristics in the phase current path
6.1.5 Current setting for high set element (I>>)
6.1.6 Trip delay for high set element (tI>>)
6.1.7 Pickup current for earth fault element (IE>)
6.1.8 WARN/TRIP changeover
6.1.9 Time current characteristics for earth fault
element (CHAR IE)
6.1.10 Trip delay or time multiplier for earth fault
element (tIE>>)
6.1.11 Reset mode for inverse time tripping in
earth current path
6.1.12 Current setting for high set element of earth
fault supervision (IE>>)
6.1.13 Trip delay for high set element of earth
fault supervision (tIE>>)
6.1.14 Nominal frequency
6.1.15 Adjustment of the slave address
6.1.16 Setting of Baud-rate (applies for Modbus
Protocol only)
6.1.17 Setting of parity (applies for Modbus
Protocol only)
6.1.18 Circuit breaker failure protection tCBFP
6.1.19 Display of the activation storage (FLSH/NOFL)
6.1.20 Blocking the protection functions and
assignment of the output relays
6.2 Setting value calculation
6.2.1 Definite time overcurrent element
6.2.2 Inverse time overcurrent element
6.3 Indication of measuring and fault values
6.3.1 Measuring values
6.3.2 Indication of fault data
6.3.3 Fault recorder
6.4 Reset
7 Relay testing and commissioning
7.1 Power-On
7.2 Testing the output relays and LEDs
7.3 Checking the set values
7.4 Secondary injection test
7.4.1 Test equipment
7.4.2 Test circuit of XRI1-IE
7.4.3 Checking the input circuits and measured
values
7.4.4 Checking the operating and resetting
values of the relay
7.4.5 Checking the relay operating time
7.4.6 Checking the high set element of the
relay
7.4.7 Checking the external blocking and reset
functions
7.4.8 Test of the CB failure protection
7.5 Primary injection test
7.6 Maintenance
TB XRI1-IE 11.01 E 3
8 Technical data
8.1 Measuring input circuits
8.2 Common data
8.3 Setting ranges and steps
8.3.1 Time overcurrent protection
8.3.2 Earth fault protection
8.3.3 Switch failure protection
8.3.4 Interface parameter
8.3.5 Inverse time overcurrent protection relay
8.4 Inverse time characteristics
8.5 Output relays
8.6 Power supply
8.7 Inputs, Blockage and Reset
8.8 System data and test specifications
8.9 Relay case
9 Order form
4 TB XRI1-IE 11.01 E
1Introduction and application
The digital relay type XRI1-IE as time overcurrent pro-
tection is designed for the use in electrical machines,
lines and grids.
The protective functions of XRI1-IE which are imple-
mented in only one device are summarized as follows:
•Independent (Definite) time overcurrent relay.
•Inverse time overcurrent relay with selectable charac-
teristics.
•Two-element earth fault protection with definite or in-
verse time characteristics.
Furthermore, the relay XRI1-IE can be employed as a
back-up protection for distance and differential protec-
tive relays.
2Features and characteristics
•Digital filtering of the measured values by using dis-
crete Fourier analysis to suppress the high frequence
harmonics and DC components induced by faults or
system operations
•Selectable protective functions between:
definite time overcurrent relay and
inverse time overcurrent relay
•Selectable inverse time characteristics according to
BS 142 and IEC 255-4:
Normal Inverse (type A)
Very Inverse (type B)
Extremely Inverse (type C)
•Reset setting for inverse time characteristics select-
able
•High set overcurrent unit with instantaneous or de-
finite time function.
•Two-element (low and high set) overcurrent relay
both for phase and earth faults.
•Numerical display of setting values, actual mea-
sured values and their active, reactive components,
memorized fault data, etc.
•Blocking e.g. of high set element (e.g. for selective
fault detection through minor overcurrent protection
units after unsuccessful AR).
•Switch failure protection
•Storage of tripping values and shut-down times
of eight failure events
•Free assignment of output relays
•Serial data exchange via RS485 interface possible
with SEG RS485-Pro Open Data Protocol or Mod-
bus Protocol
•Suppression of indication after an activation
(LED flash)
TB XRI1-IE 11.01 E 5
3Design
3.1 Connections
Figure 3.1: Connection diagram XRI1-IE
3.1.1 Analog input circuits
The protection unit receives the analog input signals of
the phase currents IL1 (1S1-1S2), IL2 (2S1-2S2), IL3
(3S1-3S2), and earth current (1E1-1E2) each via
separate input transformers. The constantly detected
current measuring values are galvanically decoupled,
filtered and finally fed to the analog/digital converter.
3.1.2 Blocking input
The blocking functions adjusted before will be blocked
if an auxiliary voltage is connected to (terminals)
C1/C1L or C1/C1H. (See chapter 6.1.20)
3.1.3 External reset input
By applying the aux. voltage C2/C2L or C2/C2H,
indication and output relays are reset. (see chapter
6.4)
3.1.4 Output relays
The XRI1-IE is equipped with 5 output relays.
•Output relays 1;
11, 12, 14 and 21, 22, 24
•Output relays 2;
31, 32, 34 and 41, 42, 44
•Output relays 3;
51, 52, 54
•Output relays 4;
61, 62, 64
•Signal selfsupervision
71, 72, 74
All trip and alarm relays are working current relays, the
relay for self supervision is an idle current relay.
See connection diagram relay outputs.
Except the self-supervision, all relays can be assigned
to different functions. (see 6.1.20).
6 TB XRI1-IE 11.01 E
3.1.5 Data communication
For data communication with a central control system
the XRI1-IE relay is provided with a serial interface
RS485. Simplified and fast reading and changing of
parameters and measuring values can be achieved by
HTL/PL-Soft4,
which will be provided on request to-
gether with the relay.
The XRI1-IE can be connected to other units of
PROFESSIONAL LINE via interface. If there is more than 1
relay in the system, the last relay of the chain has to be
provided with a resistor line termination.
Figure 3.2: Connection example with 3 users XR ... as linked device
Figure 3.3: Connection example with 3 useres, XR ... as last device
TB XRI1-IE 11.01 E 7
3.2 Front plate
3.2.1 Indication and operation elements
The front plate of protection relays comprises the fol-
lowing operation and indication elements:
•Alphanumerical display (4 Digits)
•Push buttons for setting and other operations
•LEDs for measured value indication and setting
Figure 3.4: Front plate XRI1-IE
3.2.2 LEDs
The LEDs left from the display, L1, L2, L3, E are par-
tially bi-colored, the green indicating measuring, and
the red fault indication.
The LED marked with letters RS lights up during setting
of the slave address of the device for serial data com-
munication.
The LEDs arranged at the characteristic points on the
setting curves support the comfortable setting menu se-
lection. In accordance with the display 5 LEDs for
phase fault overcurrent indicate the corresponding
menu point selected.
8 TB XRI1-IE 11.01 E
3.2.3 Display
Function Display shows Pressed push button Corresponding LED
Normal operation SEG
Measured operating values Actual measured values, <SELECT/RESET>
one time for each
L1, L2, L3, E
Measuring range overflow max. <SELECT/RESET> L1, L2, L3, E
Setting values:
phase (I>; CHAR I>; tI>; I>>; tI>>)
earth (IE>; CHAR IE; tIE>; IE>>; tIE>>)
Current settings
Trip delay
Characteristics
<SELECT/RESET>
one time for each
parameter
I >; CHAR I>; tI>; I>>;
tI>>;
IE>;CHAR IE; tIE> ;IE>> ;
tIE>>;
Reset setting (only available at inverse
time characteristics)
0s / 60s <SELECT/RESET>
<+><->
I>; CHAR I>; tI>
IE>; CHAR IE>; tIE>
Switch failure protection tCBFP <SELECT/RESET> <+><->
Tripping protection
switch failure protection
CBFP After fault tripping
Nominal frequency f=50 / f=60 <SELECT/RESET><+><->
Switch-over LED flash
No LED flash
FLSH
NOFL
<SELECT/RESET>
<+><->
Blocking of function EXIT <+> until max. setting value LED of blocked
parameter
Slave address of serial interface 1 - 32 <SELECT/RESET>
<+><->
RS
Baud-Rate 1) 1200-9600 <SELECT/RESET> <+><-> RS
Parity-Check 1) even odd no <SELECT/RESET> <+><-> RS
Recorded fault data Tripping currents and other
fault data
<SELECT/RESET>
one time for each phase
L1, L2, L3, E
I>, I>>, IE>, IE>>
Save parameter? SAV? <ENTER>
Delete failure memory wait <-> <SELECT/RESET>
Enquiry failure memory FLT1; FLT2..... <-><+> L1, L2, L3, E
I>, I>>, IE>, IE>>
Save parameter! SAV! <ENTER> for about 3 s
Software version First part (e.g. D01-)
Sec. part (e.g. 8.00)
<TRIP>
one time for each part
Manual trip TRI? <TRIP> three times
Inquire password PSW? <TRIP><ENTER>
Relay tripped TRIP <TRIP>
or after fault tripping
Secret password input XXXX <SELECT/RESET>
<+><-><ENTER>
System reset SEG <SELECT/RESET>
for about 3 s
Table 3.1: Possible indication messages on the display, 1) only Modbus
TB XRI1-IE 11.01 E 9
3.2.4 Parameter settings (see chapter 6)
Device type XRI1-IE
Symbol Function Unit Setting range
I> Pickup value for phase overcurrent element X In 0.20...4.0 (EXIT)
CHAR I> Trip characteristic for phase overcurrent element DEFT; NINV; VINV; EINV
tI> Tripping delay (factor) for phase overcurrent ele-
ment
s
DEFT 0.03...260 (EXIT)
INVS 0.05...10.0 (EXIT)
I>+CHAR I>+tI> Reset Mode for inverse-characteristics s 0s/60s
I>> Pickup value for overcurrent high set element x In 1.00...40.0 (EXIT)
tI>> Trip delay for overcurrent high set element s 0.03...2.00 (EXIT)
IE> Pickup value for earth fault low set element x In 0.01...2.00 (EXIT)
Warn/trip Warning/tripping setting Warn/trip
CHAR IE> Tripping characteristic for earth fault overcurrent
element
DEFT; NINV; VINV; EINV
tIE> Trip delay (factor) for earth fault low set element s
DEFT 0.03...260 (EXIT)
INVS 0.05...10.0 (EXIT)
IE>+CHAR IE>+tIE> Reset modus for AMZ characteristic s 0s/60s
IE>> Pickup value for earth fault high set element x In 0.01...15.0 (EXIT)
tIE>> Trip delay for earth fault high set element s 0.03...2.00 (EXIT)
tCBFP Circuit breaker failure protection s 0.10...2.00 (EXIT)
FN Rated frequency Hz 50 Hz/60 Hz
LED Flash LED blinking after excitation Hz FLSH/NOFL
RS Slave address for serial interface 1...32
RS Baud rate der of the serial interface 1) Bd 1200; 2400; 4800;
9600
RS Parity bit of the serial interface 1) Even; odd; no
1) only Modbus protocol
Table 3.2: Parameter values
Additional parameters:
Relay-type XRI1-IE
Blocking mode
Relay parameterizing
Fault recorder
Table 3.3
10 TB XRI1-IE 11.01 E
4Working principle
4.1 Analog circuits
The incoming currents from the main current transform-
ers on the protected object are converted to voltage
signals in proportion to the currents via the input trans-
formers and burden. The noise signals caused by in-
ductive and capacitive coupling are supressed by an
analog R-C filter circuit.
The analog voltage signals are fed to the A/D-
converter of the microprocessor and transformed to
digital signals through Sample- and Hold-circuits. The
analog signals are sampled at 50 Hz (60 Hz) with a
sampling frequency of 800 Hz (960 Hz), namely, a
sampling rate of 1.25 ms (1.04 ms) for every measur-
ing quantity. (16 scans per periode).
4.2 Digital circuits
The essential part of the XRI1-IE relay is a powerful
microcontroller. All of the operations, from the analog
digital conversion to the relay trip decision, are carried
out by the microcontroller digitally. The relay program
is located in an EPROM (Electrically-Programmable-
Read-Only-Memory). With this program the CPU of the
microcontroller calculates the three phase currents and
ground current in order to detect a possible fault situa-
tion in the protected object.
For the calculation of the current value an efficient digi-
tal filter based on the Fourier Transformation (DFFT -
Discrete Fast Fourier Transformation) is applied to sup-
press high frequency harmonics and DC components
caused by fault-induced transients or other system dis-
turbances.
The calculated actual current values are compared
with the relay settings. If a phase current exceeds the
pickup value, an alarm is given and after the set trip
delay has elapsed, the corresponding trip relay is acti-
vated.
The relay setting values for all parameters are stored in
a parameter memory (EEPROM - Electrically Erasable
Programmable Read-only Memory), so that the actual
relay settings cannot be lost, even if the power supply
is interrupted.
The microprocessor is supervised by a built-in "watch-
dog" timer. In case of a failure the watchdog timer re-
sets the microprocessor and gives an alarm signal, via
the output relay "self supervision".
4.3 Earth fault protection
4.3.1 Generator stator earth fault
protection
With the generator neutral point earthed earthed as
shown in figure 4.4 the MRI1 picks up only to phase
earth faults between the generator and the location of
the current transformers supplying the relay.
Earth faults beyond the current transformers, i.e. on the
consumer or line side, will not be detected.
Figure 4.1: Generator stator earth fault protetion
4.3.2 System earth fault protection
With the generator neutral point earthed as shown in
figure 4.5, the MRI1 picks up only to earth faults in the
power system connected to the generator. It does not
pick up to earth faults on the generator terminals or in
generator stator.
Figure 4.2: System earth fault protection
TB XRI1-IE 11.01 E 11
4.4 Requirements on the main
current transformers
The current transformers have to be rated in such a
way, that a saturation should not occur within the fol-
lowing operating current ranges:
Independent time overcurrent function: K1 = 2
Inverse time overcurrent function: K1 = 20
High-set function: K1 = 1.2 - 1.5
K1 = Current factor related to set value, at which the
C.T. is not yet saturated
Moreover, the current transformers have to be rated
according to the maximum expected short circuit cur-
rent in the network or in the protected objects.
The low power consumption in the current circuit of
XRI1-IE , namely <0.2 VA, has a positive effect on the
selection of current transformers. It implies that, if an
electromechanical relay is replaced by XRI1-IE , a
high accuracy limit factor is automatically obtained by
using the same current transformer.
12 TB XRI1-IE 11.01 E
5General operations and
settings
For adjustment of the unit the transparent cover has to
be opened as illustrated. Do not use force! The trans-
parent cover has two inserts for labels.
Figure 5.1: How to open the transparent cover
5.1 Push buttons
Push buttons are used for calling up the parameters to
be processed, for selection of measuring parameters to
be indicated and for changing and storing the pa-
rameters.
The individual setting and measuring values can be se-
lected one after another by pressing push button
<SELECT/RESET>. This push button is also used for re-
setting the display by pressing approx. 3s.
Push buttons <+> <-> are used for in-/decrementing of
the parameter indicated on the display. They can be
pressed step-by-step or continuously.
After the selected parameter is set by the <+> <->
push button it may be stored using the <ENTER> push
button.
Through the push button <ENTER> the set value indi-
cated on the display will be transfered to the internal
parameter memory. An unintented or unauthorized
change of the selected parameter is avoided by
means of a password identification (see 5.4.2).
The <TRIP>-push button is used to test the output relay
circuits both for tripping and signalling. During normal
operation it is also interlocked by means of the pass-
word identification.
TB XRI1-IE 11.01 E 13
5.1.1 Indication of measuring values
and fault data
Indication in faultless condition
In normal operation the display always shows |SEG.
After pressing the push button <SELECT/RESET> the
display switches cyclically to the next measuring value.
After the measuring values had been indicated the set-
ting parameters are displayed. Hereby the LEDs in the
upper section signalize which measured value is indi-
cated, the LEDs in the lower section signalize which
setting parameter is indicated on the display. Longer
actuating the push button resets the relay and the dis-
play changes into normal operation (|SEG).
Indication after pickup / tripping
All of the faults detected by the relay are indicated on
the front plate optically. Here not only the faults are
indicated but also the faulty phase(s) and the protec-
tion function in operation. At pickup the LEDs are flash-
ing, after tripping this changes to continuous light.
In tripped condition "TRIP" appears on the display and
the LEDs of the operating measuring data light up red
together with the LEDs of the tripping parameter. All
operating data, which were measured at the moment
of tripping, can now be called one after another by
pressing push button <SELECT/RESET>. If in this condi-
tion setting parameters are to be indicated, push but-
ton <ENTER> has to be pressed.
The graphic below shows again the difference be-
tween the different display modes.
<SELECT>
<SELECT>
<SELECT>
<ENTER>
|SEG TRIP
<SELECT>
<SELECT>
<ENTER>
<SELECT>
Display after tripping
Display in normal operation
Tripping
<RESET>
Measuring data
Parameter Parameter Failure data
Figure 5.2: Switching over of the display in dependence of the operating mode
14 TB XRI1-IE 11.01 E
5.2 DIP switches
Behind the front plate of the XRI-IR relay there are four
dip switches to preset the following functions:
•Password programming
•Output relay functions
The following table 5.1 shows the position and desig-
nation of the code jumpers:
5.2.1 Function of the output relays
The alarm relays are activated according to the preset-
ting:
DIP switch 3 OFF:
All output relays will be reset automatically after the
fault has been cleared, (e.g. when the fault current is
interrupted).
DIP switch 3 ON:
All output relays remains activated and must be reset
after fault clearence.
•Manually: By pressing push button
<SELECT/RESET>
•External: By connecting aux. voltage to C2/C2L
or C2/C2H
•Via RS 485 interface
To let the parameter change take effect, the auxiliary
voltage has to be switched on and off again after the
dip switches are plugged or unplugged.
DIP
switches
Function Code
jumper position
Operation mode
1Password OFF Normal position
ON Password selection
2none
3Reset OFF Output relays will be reset automatically
ON Output relays will be reset manual/external/via software
4none
Table 5.1: Summary of coding possibilities
TB XRI1-IE 11.01 E 15
5.3 Reset
Manual reset
By pressing push button <RESET/SELECT> for some
time (about 3 s).
External reset-input C2/C2L or C2/C2H
The external reset input has the same function as the
<SELECT/RESET> push button on the front plate. Con-
necting auxiliary voltage to this input, the unit can be
reset, provided that the fault is removed.
Software reset via serial interface RS 485
Software reset has the same function as push button
<SELECT/RESET>. Please refer to open data protocol
of RS 485 interface named RS485-PRO.
5.4 Password
5.4.1 Password programming
The XRI1-IE -relay is delivered with the preset pass-
word "++++", it can be programmed new with dip
switch 1:
Switch on dip switch 1. After power on and pressing
any push button, the relay XRI1-IE inquires for a new
password. The text "PSW?" appears on the display.
The new password is entered by any combination of
the push buttons <SELECT> <-> <+> <ENTER>. After
the new password is given, the dip switch 1 must be
switched off.
5.4.2 Using the password
Step by step, a new relay setting is made according
to the following sequence:
•After the present setting value is changed with
<+><-> push button, <ENTER> push button should
be pressed.
•A message "SAV?" appears on the display to inquire
if the new setting value is really wanted to be stored.
•After pressing the <ENTER> push button again,the
password will be inquired by means of the message
"PSW?" on the display.
•After the password is given correctly, which is
prompted by message "SAV!" on the display, the
new setting value can be stored by pressing the
<ENTER> push button for about 3 seconds.
•The new setting value for the selected parameter
appears on the display again.
A password consists of four push button operations.
The pressed push buttons and their sequences define
the password.
<SELECT/RESET> = S
<-> = -
<+> = +
<ENTER> = E
then a password "-E+S" means pressing push buttons
according to the follwing sequence:
<-> <ENTER> <+> <SELECT/RESET>
After the password is given correctly, parameter setting
is permitted for five minutes. This means: For a subse-
quent parameter setting, as long as it is made within
five minutes after the password input, a renewed
password input is not required. Moreover, the valid
period for parameter setting is automatically extended
to further 5 minutes after each new push button opera-
tion.
If no push button operation follows within the five min-
ute period after password input, the validity for pa-
rameter setting will be suspended.
For entering further parameters the password is then
called up again. During the validity for parameter set-
ting a new set value, after having acknowledged
"SAV" two times, is stored by just pressing push button
<ENTER> for some time.
As to parameter setting via RS 485 interface: see
open data protocol.
16 TB XRI1-IE 11.01 E
5.5 Relay setting principle
By pressing push button <ENTER>, the parameter
menue can be called up. By pressing push button
<SELECT/RESET> the parameter to be set is reached.
The corresponding LED lights up. The actual set value
of the selected parameter is indicated on the display.
The indicated set value can then be changed by press-
ing push buttons <+><-> (in-/decrementing) see figure
5.2).
The selected set value is stored by pressing push but-
ton <ENTER> and by input of the authority code
(password) which means the adjustment of the unit is
only possible after the password had been put in. (see
5.4.2)
After a trip the push button <SELECT/RESET> is re-
served for the indication of fault data. Now new pa-
rameter setting by means of push button
<SELECT/RESET> is only possible by pressing
<ENTER> first.
5.5.1 Setting of default parameters
Setting of the XRI1-IE default parameters can be done
as follows:
•switch off the auxiliary voltage supply
•press simultaneously push buttons <+><-> and
<SELECT/RESET> and
•switch on the auxiliary voltage supply again.
5.5.2 Blocking the protection function
The blocking function of the XRI1-IE -relays
can be set
according to requirement. When pressing push buttons
<ENTER> and <TRIP> at the same time the blocking
mode is entered. (see chapter 6.1.20)
5.6 Display of software version and
test-TRIP
By pressing push button <TRIP> the first part of the
software version is displayed, the second part appears
when this push button is pressed again. When push
button <TRIP> is pressed repeatedly, the test trip rou-
tine starts.
By entering the password the display shows "TRI?". Af-
ter pressing <TRIP> again all output relays will be en-
ergized one after the other with a time delay of 1 s.
All relays stay energized until manual reset. The protec-
tion functions are not affected.
5.7 Low/high range of functions
blocking and reset
All relays of the HIGH TECH LINE have a wide-range
power supply unit allowing to choose a suitable supply
voltage. The operating threshold of the blocking and
reset inputs, however, has to be defined by taking the
supply voltage into account. The following two diffe-
rent operating thresholds can be adjusted:
•Low-range treshold UON ≥10 V; UOFF ≤8 V
•High-range treshold UON ≥70 V; UOFF ≤60 V
Connection terminals
•Low-range blockage input terminal C1/C1L
•Low-range reset input terminal C2/C2L
•High-range blockage input terminal C1/C1H
•High-range reset input terminal C2/C2H
TB XRI1-IE 11.01 E 17
6Operations and settings
6.1 Setting procedure
After push button <SELECT/RESET> has been pressed,
always the next measuring value is indicated. Firstly
the operating measuring values are indicated and then
the setting parameters. By pressing the <ENTER> push
button the setting values can directly be called up and
changed.
6.1.1 Pickup current for phase
overcurrent element (I>)
The setting value for this parameter that appears on the
display is related to the nominal current (IN) of the re-
lay. This means: pickup current (Is) = displayed value x
nominal current (IN) e.g. displayed value = 1.25 then,
Is = 1.25 x IN.
6.1.2 Time current characteristics for
phase overcurrent element
(CHAR I>)
By setting this parameter, one of the following 4 mes-
sages appears on the display:
DEFT - Definite Time
NINV - Normal Inverse (type A)
VINV - Very Inverse (type B)
EINV - Extremely Inverse (type C)
Anyone of these four characteristics can be chosen by
using <+> <-> push buttons, and can be stored by us-
ing <ENTER> push button.
6.1.3 Trip delay or time multiplier for
phase overcurrent element (tI>)
Usually, after the characteristic is changed, the time
delay or the time multiplier should be changed accord-
ingly. In order to avoid an unsuitable arrangement of
relay modes due to carelessness of the operator, the
following precautions are taken:
After the characteristic setting, the setting process turns
to the time delay setting automatically. The LED tI> is
going to flash yellow to remind the operator to change
the time delay setting accordingly. After pressing the
<SELECT> push button, the present time delay setting
value is shown on the display. The new setting value
can then be changed by using <+> <-> push buttons.
If, through a new setting, another relay characteristic
other than the old one has been chosen (e.g. from
DEFT to NINV), but the time delay setting has not been
changed despite the warning from the flashing LED,
the relay will be set to the most sensitive time setting
value of the selected characteristics after five minutes
warning of flashing LED tI>. The most sensitive time set-
ting value means the fastest tripping for the selected re-
lay characteristic. When the time delay or the time
multiplier is set out of range (Text "EXIT" appears on the
display), the low set element of the overcurrent relay is
blocked. The "WARN"-relay will not be blocked.
6.1.4 Reset setting for inverse time
tripping characteristics in the phase
current path
To ensure tripping, even with recurring fault pulses
shorter than the set trip delay, the reset mode for in-
verse time tripping characteristics can be switched
over. If the adjustment tRST is set at 60s, the tripping
time is only reset after 60s faultless condition. This
function is not available if tRST is set to 0. With fault
current cease the trip delay is reset immediately and
started again at recurring fault current.
6.1.5 Current setting for high set element
(I>>)
The current setting value of this parameter appearing
on the display is related to the nominal current of the
relay.
This means: I>> = displayed value x IN.
When the current setting for high set element is set out
of range (on display appears "EXIT"), the high set ele-
ment of the overcurrent relay is blocked.
The high set element can be blocked via terminals
C1/C1L or C1/C1H if the corresponding blocking
parameter is set to bloc (refer to chapter 6.1.20).
18 TB XRI1-IE 11.01 E
6.1.6 Trip delay for high set element (tI>>)
Independent from the chosen tripping characteristic for
I>, the high set element I>> has always a definite-time
tripping characteristic. An indication value in seconds
appears on the display.
The setting procedure for forward or backward faults,
described in chapter 6.1.3, is also valid for the trip-
ping time of the high set element.
6.1.7 Pickup current for earth fault
element (IE>)
(Similar to chapter 6.1.1)
6.1.8 WARN/TRIP changeover
A detected earth fault can be parameterized as fol-
lows:
a) "warn" only the alarm relay trips
b) "TRIP" the trip relay trips and tripping values are
stored.
6.1.9 Time current characteristics for
earth fault element (CHAR IE)
(Similar to chapter 6.1.2)
6.1.10 Trip delay or time multiplier for
earth fault element (tIE>>)
(Similar to chapter 6.1.3)
6.1.11 Reset mode for inverse time
tripping in earth current path
(Similar to chapter 6.1.4)
6.1.12 Current setting for high set element
of earth fault supervision (IE>>)
(Similar to chapter 6.1.5)
6.1.13 Trip delay for high set element
of earth fault supervision (tIE>>)
(Similar to chapter 6.1.6)
6.1.14 Nominal frequency
The adapted FFT-algorithm requires the nominal fre-
quency as a parameter for correct digital sampling
and filtering of the input currents.
By pressing <SELECT> the display shows "f=50" or
"f=60". The desired nominal frequency can be ad-
justed by <+> or <-> and then stored with <ENTER>.
6.1.15 Adjustment of the slave address
Pressing push buttons <+> and <-> the slave address-
can be set in range of 1-32.
6.1.16 Setting of Baud-rate (applies for
Modbus Protocol only)
Different transmission rates (Baud rate) can be set for
data transmission via Modbus protokol.
The rate can be changed by push buttons <+> and
<-> and saved by pressing <ENTER>.
6.1.17 Setting of parity (applies for
Modbus Protocol only)
The following three parity settings are possible :
•"EVN" = even
•"ODD" = odd
•"NO" = no parity check
The setting can be changed by push buttons <+> and
<-> and saved by pressing <ENTER>.
6.1.18 Circuit breaker failure protection
tCBFP
The CB failure protection is based on supervision of
phase currents during tripping events. Only after trip-
ping this protective function becomes active. The test
criterion is whether all phase currents are dropped to
<1% x INwithin the time tCBFP (Circuit Breaker Failure
Protection, adjustable between 0.1 - 1.6s). If not all of
the phase currents have dropped to <1% x INwithin
this time, CB failure is detected and the related relay
activated. The CB failure protection function is deacti-
vated again as soon as the phase currents have drop-
ped to <1% x IN within tCBFP
TB XRI1-IE 11.01 E 19
6.1.19 Display of the activation storage
(FLSH/NOFL)
If after an activation the existing current drops again
below the pickup value, e.g. I>, without a trip has
been initiated, LED I> signals that an activation has
occured by flashing fast. The LED keeps flashing until it
is reset again (push button <RESET>). Flashing can be
suppressed when the parameter is set to NOFL.
6.1.20 Blocking the protection functions
and assignment of the output
relays
Blocking the protection functions:
The blocking function of the XRI1-IE
can be set ac-
cording to requirement. By applying the aux. voltage
to D8/E8, the functions chosen by the user are
blocked. Setting of the parameter should be done as
follows:
•When pressing push buttons <ENTER> and <TRIP>
at the same time, message "BLOC" is displayed (i.e.
the respective function is blocked) or "NO_B"
(i.e. the respective function is not blocked). The LED
allocated to the first protection function I> lights red.
•By pressing push buttons <+> <-> the value dis-
played can be changed.
•The changed value is stored by pressing <ENTER>
and entering the password.
•By pressing the <SELECT/RESET> push button, any
further protection function which can be blocked is
displayed.
•Thereafter the blocking menu is left by pressing
<SELECT/RESET> again.
Function Display LED/
Colour
I> Overcurrent
(Low set)
NO_B I> yellow
I>> Overcurrent
(High set)
BLOC I>> yellow
IE>
Earth current
1. element
NO_B
IE> yellow
IE>>
Earth current
2. element
NO_B
IE>> yellow
tCBFP Circuit breaker
failure protection
NO_B
Table 6.1: Default settings of blocking functions
Assignment of the output relays:
Unit XRI1-IE has five output relays. The fifth output re-
lay is provided as permanent alarm relay for self su-
pervision is normally on. Output relays 1 - 4 are nor-
mally off and can be assigned as alarm or tripping re-
lays to the current functions which can either be done
by using the push buttons on the front plate or via se-
rial interface RS485. The assignment of the output re-
lays is similar to the setting of parameters, however,
only in
the assignment mode. The assignment mode can be
reached only via the blocking mode.
By pressing push button <SELECT/RESET> in blocking
mode again, the assignment mode is selected.
The relays are assigned as follows: LEDs I>, I>>, IE>,
IE>> are two-coloured and light up green when the out-
put relays are assigned as alarm relays and red as
tripping relays.
Definition:
Alarm relays are activated at pickup.
Tripping relays are only activated after elapse of the
tripping delay.
After the assignment mode has been activated, first
LED I> lights up green. Now one or several of the four
output relays can be assigned to current element I> as
alarm relays. At the same time the selected alarm re-
lays for frequency element 1 are indicated on the dis-
play. Indication "1_ _ _" means that output relay 1 is
assigned to this current element. When the display
shows "_ _ _ _", no alarm relay is assigned to this cur-
rent element. The assignment of output relays 1 - 4 to
the current elements can be changed by pressing <+>
and <-> push buttons. The selected assignment can be
stored by pressing push button <ENTER> and subse-
quent input of the password. By pressing push button
<SELECT/RESET>, LED I> lights up red. The output re-
lays can now be assigned to this current element as
tripping relays.
Relays 1 - 4 are selected in the same way as de-
scribed before. By repeatedly pressing of the
<SELECT/RESET> push button and assignment of the
relays all elements can be assigned separately to the
relays. The assignment mode can be terminated at any
time by pressing the <SELECT/RESET> push button for
some time (abt. 3 s).
20 TB XRI1-IE 11.01 E
Note:
•A form is attached to this description where the set-
ting requested by the customer can be filled-in. This
form is prepared for telefax transmission and can
be used for your own reference as well as for tele-
phone queries.
Relay function Output relays Display- Lighted LED
1234
indication
I> alarm X _ 2 _ _ I>
tI> tripping X 1 _ _ _ tI>
I>> alarm X _ _ 3 _ I>>
tI>> tripping X 1 _ _ _ tI>>
IE> alarm X _ _ _ 4 IIE>
tIE> tripping X 1 _ _ _ tIE>>
IE>> alarm X _ _ _ 4 IE>>
tIE>> tripping X 1 _ _ _ tIE>>
tCBFP tripping _ _ _ _
Table 6.2: Example of assignment matrix of the output relay
(default settings).
Table of contents
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