Directional Protection (67) - Siemens 7SR10 Argus Series Manual

2.7

Directional Protection (67)

Each overcurrent stage can operate for faults in either forward or reverse direction. Convention dictates that
forward direction refers to power flow away from the busbar, while reverse direction refers to power flowing
towards the busbar.
The directional phase fault elements, 67/50 and 67/51, work with a Quadrature Connection to prevent loss of
polarising quantity for close-in phase faults. That is, each of the current elements is directionalised by a voltage
derived from the other two phases.
This connection introduces a 90° Phase Shift (Current leading Voltage) between reference and operate quantities
which must be allowed for in the Characteristic Angle setting. This is the expected fault angle, sometimes termed
the Maximum Torque Angle (MTA) as an analogy to older Electro-mechanical type relays
Example: Expected fault angle is -30º (Current lagging Voltage) so set Directional Angle to: +90° -30° = +60°.
A fault is determined to be in the selected direction if its phase relationship lies within a quadrant +/- 85° either
side of the Characteristic Angle setting.
A number of studies have been made to determine the optimum MTA settings e.g. W.K Sonnemann's paper "A
Study of Directional Element Connections for Phase Relays".
phase faults on Overhead Line and Cable circuits.
© 2018 Siemens Protection Devices Limited
Current
- operating
quantity
INHIBIT
Figure 2-8 Directional Characteristics
7SR10, 7SR11, 7SR12 Applications Guide
Characteristic
Angle
OPERATE
Volts
- polarising
quantity
OPERATING
BOUNDARY
(Zero Torque Line)
Figure 2.6 shows the most likely fault angle for
Chapter 7 Page 15 of 41