PHxPTOC Operation principle - Arc protection - Motor protection - Feeder protection - Back-up protection - Technical Manual - REX610 Protection and control - Relion Protection and Control - 1.2 - IEC - ANSI - 19.04.2024

REX610 Technical Manual

The function can be enabled and disabled with the Operation setting. The corresponding parameter values are "On" and "Off".

The operation of PHxPTOC can be described by using a module diagram. All the modules in the diagram are explained in the next sections.

Figure 1. Functional module diagram
image/svg+xmlOPERATELeveldetectorPhaseselectionlogicBLOCKSTARTENA_MULTtTimertI3PI_AI_BI_CBlockinglogic

Level detector

The measured phase currents are compared phasewise to the set Start value. If the measured value exceeds the set Start value, the level detector reports the exceeding of the value to the phase selection logic. If the ENA_MULT input is active, the Start value setting is multiplied by the Start value Mult setting.

Note: The protection relay does not accept the Start value or Start value Mult setting if the product of these settings exceeds the Start value setting range.

The start value multiplication is normally done when the inrush detection function (INRPHAR) is connected to the ENA_MULT input.

Figure 2. Start value behavior with ENA_MULT input activated

Phase selection logic

If the fault criteria are fulfilled in the level detector, the phase selection logic detects the phase or phases in which the measured current exceeds the setting. If the phase information matches the Num of start phases setting, the phase selection logic activates the timer module.

Timer

Once activated, the timer activates the START output. Depending on the value of the Operating curve type setting, the time characteristics are according to DT or IDMT. When the operation timer has reached the value of Operate delay time in the DT mode or the maximum value defined by the inverse time curve, the OPERATE output is activated.

When the user-programmable IDMT curve is selected, the operation time characteristics are defined by the parameters Curve parameter A, Curve parameter B, Curve parameter C, Curve parameter D and Curve parameter E.

If a drop-off situation happens, that is, a fault suddenly disappears before the operate delay is exceeded, the timer reset state is activated. The functionality of the timer in the reset state depends on the combination of the Operating curve type, Type of reset curve and Reset delay time settings. When the DT characteristic is selected, the reset timer runs until the set Reset delay time value is exceeded. When the IDMT curves are selected, the Type of reset curve setting can be set to "Immediate", "Def time reset" or "Inverse reset". The reset curve type "Immediate" causes an immediate reset. With the reset curve type "Def time reset", the reset time depends on the Reset delay time setting. With the reset curve type "Inverse reset", the reset time depends on the current during the drop-off situation and the value of START_DUR. The START output is deactivated when the reset timer has elapsed.

Note: The "Inverse reset" selection is only supported with ANSI or user programmable types of the IDMT operating curves. If another operating curve type is selected, an immediate reset occurs during the drop-off situation.

The setting Time multiplier is used for scaling the IDMT operate and reset times.

The setting parameter Minimum operate time defines the minimum desired operate time for IDMT. The setting is applicable only when the IDMT curves are used.

Warning: The Minimum operate time setting should be used with great care because the operation time is according to the IDMT curve, but always at least the value of the Minimum operate time setting. For more information, see IDMT curves for overcurrent protection in this manual.

The timer calculates the start duration value START_DUR, which indicates the percentage ratio of the start situation and the set operating time. The value is available in the monitored data view.

Blocking logic

There are three operation modes in the blocking function. The operation modes are controlled by the BLOCK input and the global setting in Configuration > System > Blocking mode which selects the blocking mode. The BLOCK input can be controlled by a binary input, a horizontal communication input or an internal signal of the protection relay's program. The influence of the BLOCK signal activation is preselected with the global setting Blocking mode.

The Blocking mode setting has three blocking methods. In the "Freeze timers" mode, the operation timer is frozen to the prevailing value, but the OPERATE output is not deactivated when blocking is activated. In the "Block all" mode, the whole function is blocked and the timers are reset. In the "Block OPERATE output" mode, the function operates normally but the OPERATE output is not activated.