1-5 Synchronizing Relay
1-5 Synchronizing Relay
1-5 Synchronizing Relay
Contentss
Page No. 1. 2. 3. 4. 5. Introduction Type Voltage Balance Relay Type UN1 Frequency Balance Relay Type FN2 Type Type Synchronising Relay Type SY1 Type Synchronising Check Relay Type SY/SP 3 3-4 5 6-8 9-11
1. Introduction
Each time a Generator is connected to another power system it has got to be electrically connected, the method of this connection is called Synchronisation. Generator can be sychronised only when the conditions as below are satisfied : Voltage of the two sources to be equal or within tolerance of 1%, Frequency of the two sources to be equal or within tolerance of 0.15 Hz & Phase angle difference to be zero or maximum difference to 70. These conditions can be satisfied Automatically by using UN1 -Voltage Balance Relay, FN2 -Frequency Balance Relay, SY1 -Synchronisation Relay and for manual synchronisation the SY/SP -Check Synchronisation Relay. Further more, a complete automatic power station should also have Load Balancing Relay -WLA2 and Frequency WLA2 Regulator Relays -SFG3 -SFG3. Semi-automatic synchronization by synchronizing unit SY1 means : Manual speed up or slow down the genset to equalize the frequency / manual setting of alternator voltage / monitoring of frequency difference, voltage difference and phase angle by paralleling unit SY1 / impulse to close alternator CB by unit SY1. Fully-automatic balance FN2 senses the frequency difference between bus bars and genset. It provides correction pulses to the electrical governor of the driving motor to speed up or slow the generator as required for synchronization. Voltage balancer UN1 senses the voltage difference between bus bars and alternator. It provides correction pulses to the motorized setting potentiometer to adjust alternator voltage as required for synchronization. Paralleling unit SY1 monitors frequency difference voltage difference and phase angle and provides closing impules for the alternator circuit breaker. With the load balancing unit WLA2 automatic load balance can subsequently be carried out.
The Unit compares the two supplied voltage and gives outgoing impulses to the motorized potentimeter. In case of high voltage difference between two systems the intervals between the impulses are shorter and in case of lower difference between the voltages the various motorized potentiometers, the impulses are adjustable using two builtin potentiometers. A built-in voltage measuring circuit closes a contact on terminal 2/10 when the voltage difference between the two supplies is smaller than 1%. This contact can be used in series with the impulses contact of the paralleling unit SY1. That means the closing impulse for the alternator circuit breaker is given only when the voltage difference is lower than 1%. It is recommended that the supply voltages are switched off after paralleling.
Function
The unit UN1 consists of two measuring circuits, one is the main or reference supply and the other is connected to the system which is to be balanced. It is useful to have an additional selector switch Manual-Automatic in the synchronisation scheme.
Contact Positions
Front Panel
UN1
a L1 b L2 U2 2 3 4
< 1%
U > Uo <
U1 > U2
11
10
12
U1 < U2
9675
Contact Positions
3 Impulse given if f1 > f2
11
Functions
The frequency control unit is supplied from one phase of each system (one phase busbar system and one phase alternator). A selector switch for manual and automatic selection is useful. This unit compares the two frequencies and gives output impulses in the right direction (slower or faster) to the speed governor motor. The interval between the impulses is shorter when the difference in frequency is high and longer when the difference is low, in order to achieve fastest regulation. The length of the output impulses are adjustable on two potentiometers, to adapt this unit to different types of speed governot motors. It is recommended that the frequency control unit should be switched off when the generating set is already in parallel, to prevent interferences with the load balancing.
4 Impulse given if f1 < f2 12
Front Panel
FN
a L1 F1 b L2 F2 N > <
F1 > F2 F1 < F2
1N
7 2N FREQUENCY BALANCER
11
12
Pulse duration
0.2 s
Balancing Relay
: : : : : : : : : : : : : : : : : : FN2 230V, 110V 50Hz, 60Hz 0.2...1s 3VA per system +10/-15% 100% Self-locking potentiometer with screw for fine adjustment 1 NO for frequency f1>f2, 1 NO for frequency f1<f2 Max.1250VA at 230V AC Metric 4, wires max. 2.5 mm2 CSPC -standard case W x H x D : 105 x141 x 91 mm Track-resistant moulded base with transparent cover Case IP 20, terminals IP 00 0.4kg None 106 operations Flush mounting
1 1 9673 9573
The max. permissible frequency difference is dependent on the kind and size of the driving engine and the fly wheel of the generating set. Following are a few examples : 0.1Hz 0.2Hz When sets of medium and big size When sets of small size, turbine sets and Diesel engine generating sets above 500 kW.
0.4-0.6Hz Diesel engine generating sets from 50-500 kW. 0.7-1.5Hz Diesel engine and combustion engine driven generating sets up to 60 kW, with the suppositions : no heavy fly wheel, compound alternators and quick switching circuit breakers. The max. permissible 2. This is the decisive adjustment for the permissible switching time for the alternator circuit breaker, adjusted with potentiometers 1 and 3.
Function
The synchronizer unit SY1 is supplied from one phase of each system. The unit compares the two frequencies, the difference in voltage and measures the phase coincidence and gives lead impulse to close the alternator circuit breaker. Note : The synchronizing unit SY1 is not suitable for paralleling of synchronous mains i.e. if same supply voltage is applied to terminals a-6 & to terminals b-7. The synchronisation impulse contact does not close. For paralleling, the SY1 requires a beat of the systems to be synchronized. As this beat is not available from synchronous mains, the SY1 can not give the switch-on impulse, not even if the angular system difference should be O. For paralleling of synchronous mains the CSPC synchronizing unit PSY2/N can be used. For gensets with a higher capacity (>1000kV) and an increased rotating mass, we would recommend the use of our automatic synchronizing units PSY2 or PSY3. They combine all functions of the individual units, FN2, UN1 and SY1, and provide improved adjustment possibilities. Possible adjustments, taking into account specific values are :
Example
Frequency difference 0.3 Hz-cuts the line for a switching time of 87 ms. Quick circuit breakers are more advantageous, slow ones not to be used. For adjustment of potentiometer 3 do the following : Switching time of the circuit breaker if used with switching time of an auxiliary relay add additional 100 ms. e.g. switching time of the circuit brteaker 40ms makes 160 ms to be set at potentiometer 3.
Df[Hz]
1.4 20 ms switching time
1.2
0.8
40 ms 0.6
DU[V]
75
60 52 V
45
30
15
20
40
60
Note : For HT system (using 110V) do not short terminals 6 & 7 as shown on the front plate.
3.
The main contacts of the circuit breaker should close exactly at the moment when the phase coincidence is given. This is the reason why the output impulse is leaded. The necessary leading time is dependent on the max. permissible frequency difference (potentiometer 2 and the switching time of the alternator circuit breaker. This unit measures the voltage difference of the two systems in order to give the exact lead time. This permissible voltage difference should beset at potentiometer 1 in acordance to the left hand part of the diagram.
auxiliary relay 20 ms makes 60 ms starting at 0.3 Hz crossing the line for 60 ms one finds under this crossing the adjustment of 52V for the potentiometer-adjustment 52V. For alternators with a voltage difference between idle and full load higher value up to 10V is necessary. The dashed range of the straight line (difference voltage below 10V) is normally not reached, since the voltage of the alternators has a large harmonic content. The values are related to a unit with a nominal voltages it is necessary to multiply the values by appropriate multiplication factor, which is indicated on the front panel.
3.1
Example
With the above used values : Frequency difference 0.3 Hz; circuit breaker 40 ms:
Synchronizer unit SY1 has one additional contact which is open when the bus bar system is under voltage and closed when there is no voltage at terminals a and 6. This contat can be used to switch in the alternator circuit breaker directly without synchronization in case of no voltage on the bus bar system.
Contact Positions
3 Closed if bus bar voltage free ( i.e. Voltage not available at terminal a & 6)
Front Panel
8
SY
b SY 1 SA 3 2 SY 4
11
R1
R2
SA U1 U2
S1 6 S2
MP
11
10 12
SYNCHRONIZING UNIT Voltage 90 V 80 70 60 50 Diff. freq. 0.1 Hz 0.2 0.3 O.4 O.5 1.0 2.0 9612 Pulse duration
10
12
L1 L2 L3 N
F1
F2
F3
F4
S1
S1
S1
K1 F5
K1 a b 2 3 4
K1 a
U1<U2
K1 b 3 4 a b 1 2 3 4 SY1 6 7 8 10 11 12
U1>U2
U1 U2
F1 F2 6 7
G 3 ~ /N
K2
K3
7 10 11 12 K3 K2 K2 K3
11 12 K3 K2
F1>F2
F1<F2
K1
K1 K2 K3
F1/U2 F2/U2
generator voltage and the connected neutral points of both systems have identcal connection features. The SY/SP monitors the difference in frequency and voltage as well as phase angle of both systems and if these values are in their present limits, switching on the generator C.B. is released via contacts 4-12. The SY/SP is additionally provided with a contact (3-11) which is opened when voltage is applied to terminals a-6 and closed when these terminals are dead. This contact allows closing of the generator C.B. with a dead busbar. Note : The SY/SP cannot be used for monitoring the parallel connection of synchronous systems i.e. if the same supply voltage is given to terminal a-6 & terminal b-7. The synchronisation impulse contact does not close. This relay would need a beat of the systems to be synchronized. Since synchronous systems do not have such a beat, the relay cannot provide release impulses even not so if the angular difference of the systems would be O. For monitoring parallel connection of synchronous systems our paralleling unit PSY/N can be used. Note for the use in marine design systems. According to German Lloyd approbation the frequency difference setting must not be more than 1 Hz.
Function
Synchronizing check relay SY/SP is to connect according to connection diagram: bus voltage to terminals a-6, alternator voltage to terminals b-7. All inputs are galvanical isolated and thus connection phase/neutral as well as phase/phase is possible, provided that bus bar voltage,
Contact Positions
Front Panel
3 Closed if bus bar voltage free ( i.e. Voltage not available at terminal a & 6)
R1 a SA U U R2 b SY
SY / SP
1 SA 3 2 SY 4
11
S1
6 S2
MP
11
10 12
SYNCHRONIZING UNIT Voltage Diff. freq. 90 V 80 70 60 50 0.1 Hz 0.2 0.3 0.4 0.5 1.0 2.0 9615
10
12
10
L1 L2 L3 N
F1
F2
F3
S2
S3
K1
S1 S1
K1
K1 a SY-SP 6 7 8 10 11 12 K1 b 1 2 3 4
G 3 ~ /N
Dimensions and drilling sizes for UN1, FN2, SY1 & SY/SP
15 4.5
Dm-4.2mm
b6
4.5 105
a 0
34
10
11
12
11
50 = 50/60Hz
50 = 50/60Hz
FR/FN2/05.06.01/160405