Electric relay is a device designed to produce sudden predetermined changes in one or more electric output circuits, when certain conditions are fulfilled in the electric input circuits controlling the device.
In this article you will find the actual symbols for the different types of relays – all-or-nothing, measuring, static, polarized and non-polarized, etc. Pictograms and descriptions define each symbol by reference to the relevant IEC and IEEE standards.
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See also:choke / coil / inductor symbols ►
All-or-Nothing Relays Symbols
Symbol | Description | Notes |
---|---|---|
Name: Operating device, general symbol; Relay coil, general symbol. Form 1. Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | A1 | |
Name: Operating device; Relay coil. Form 1. Remark: Shown with two separate windings Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay coil of a slow-releasing relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay coil of a slow-operating relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay coil of a slow-operating and slow-releasing relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay coil of a high speed relay Remark: Fast-operating and fast-releasing Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay coil of a relay unaffected by alternating current Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay coil of an alternating current relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay coil of a mechanically resonant relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay coil of a mechanically latched relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay coil of a polarized relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | A2 | |
Name: Polarized relay, self restoring Remark: Self restoring, operating for only one direction of current in the winding Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Polarized relay with neutral position Remark: With neutral position, self restoring, operating for either direction of current in the winding. Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Polarized relay, stable positions Remark: Shown with two stable positions. Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay coil of a remanent relay. Form 1. Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay coil of a remanent relay. Form 2. Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Operating device of a thermal relay Source:IEC 60617-2019 | – | |
Name: Operating device of an electronic relay Source:IEC 60617-2019 | – | |
Name: Ground relay, Earth fault relay Remark: Relay which operates when a failure of insulation to earth is detected in the equipment or circuits protected. Source:IEC TR 62711-2011 | – |
Measuring Relay Symbols
Symbol | Description | Notes |
---|---|---|
Name: Measuring relay; Device related to a measuring relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | A3, A4, A5, A6, A7 | |
Name: No voltage relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Reverse current relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Underpower relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Delayed overcurrent relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Overcurrent relay Remark: Shown with two measuring elements and a setting range from 5 A to 10 A. Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Overpower relay for reactive power Remark: Overpower relay for reactive power: – energy-flow towards the busbars operating value 1 Mvar time-lag adjustable from 5 s to 10 s Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Undervoltage relay Remark: Undervoltage relay shown with: – setting range from 50 V to 80 V resetting ratio 130% Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Current relay Remark: With maximum and minimum settings, shown with limits 3 A and 5 A. Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Under-impedance relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Relay detecting short-circuits between windings Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Divided-conductor detection relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Phase-failure detection relay Remark: Shown for a three-phase system. Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Locked-rotor detection relay Remark: Operating by current measuring. Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Overcurrent relay Remark: With two outputs, one is active when the current is above five times the setting value, the other is active depending on the inverse time-lag characteristic setting of the device. Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Buchholz protective device; Gas relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – | |
Name: Device for auto-reclosing; Auto-reclose relay Source:IEC 60617-2019, ANSI/IEEE Std 315A-1986 | – |
Static Relay Symbols
Symbol | Description | Notes |
---|---|---|
Name: Static relay, general symbol Remark: Shown with semiconductor make contact. Source:IEC 60617-2019 | A8 | |
Name: Static relay Remark: With light emitting diode as actuator shown with make contact semiconductor. Source:IEC 60617-2019 | – | |
Name: Static thermal overload relay Remark: Three-pole thermal overload relay with two semiconductor contacts one semiconductor make contact and one semiconductor break contact; the actuator needs a separate auxiliary power supply. Source:IEC 60617-2019 | – | |
Name: Static relay Remark: Semiconductor operating device with semiconductor make contact. Source:IEC 60617-2019 | – |
Application Notes
A1:
Operating devices with several windings may be indicated by inclusion inside the outline of the appropriate number of inclined strokes.
A2:
Polarity dots may be used to indicate the relationship between the direction of the current through the winding of a polarized relay and the movement of the contact arm according to the following connection.
When the winding terminal identified by the polarity dot is positive with respect to the other winding terminal, the contact arm moves or tends to move towards the position marked with the dot.
A3:
The asterisk shall be replaced by one or more letters or qualifying symbols indicating the parameters of the device, in the following order:
- characteristic quantity and its mode of variation;
- direction of energy flow;
- setting range;
- re-setting ratio;
- delayed action;
- value of time delay.
A4:
Letter symbols for characteristic quantities shall be in accordance with established standards, for example, IEC 60027 and ISO 31.
A5:
A figure giving the number of similar measuring elements may be included in the symbol as shown in example .
A6:
The symbol may be used as a functional symbol representing the whole of the device, or as a symbol representing only the actuating element of the device.
A7:
If appropriate symbols indicating the parameter of the device are not applicable, the asterisk may also be replaced by commonly accepted designations e.g. IEC TR 62711.
A8:
A qualifying symbol to denote the type of actuating element may be added.
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