MVME2434 Motorola MVME全系列板卡
块的(INRPHAR1)输出BLK2H启用功能块或
将任何所述保护功能块的有效设置相乘。
所有操作信号均连接至主跳闸和报警LED。LED 1
用于过电流,LED 4用于负序过电流保护
操作指示。LED 4也用于相位不连续保护操作
指示
1MRS756378 K第3节
REF615标准配置
参考文献615:71
应用手册
或LED2(EF操作)
接地故障保护
敏感接地故障保护
LED3(SEF操作)
图31:非定向接地故障保护
为非定向接地故障保护提供了四个阶段。一个阶段是
专用于敏感接地故障保护。
所有操作信号均连接至主跳闸和报警LED。
LED 2用于定向接地故障,LED 3用于敏感接地故障
保护操作指示。
第3节1MRS756378 K
REF615标准配置
72参考文献615
应用手册
A071352 V4 EN
图32:相位不连续、热过载和断路器故障
保护
相位不连续性保护(PDNPSTOC1)提供以下保护:
正常三相负载供电中断,例如,在停机时
指挥情况。相位不连续保护的操作信号为:
连接到主跳闸,也连接到报警LED和干扰
录音机热过载保护(T1PTTR1)提供以下指示:
超载情况。热过载保护的操作信号为:
连接到主跳闸和报警LED。LED 4用于
相位不连续保护操作指示,与负极相同
顺序过电流保护操作指示,LED 5用于
热过载保护报警指示。
断路器故障保护(CCBRBRF1)通过启动输入启动
IED中不同保护级的数量。断路器故障保护
功能提供与断路器相关的不同操作模式
位置以及测量的相位和剩余电流。断路器故障
保护有两个操作输出:TRRET和TRBU。TRRET运行
输出用于通过主跳闸2重新触发其自身断路器。TRBU
输出用于向断路器上游馈电提供备用跳闸。为此
目的:TRBU操作输出信号连接到输出PO2(X100:
8-9). LED 6用于备用(TRBU)操作指示。
1MRS756378 K第3节
REF615标准配置
参考文献615:73
应用手册
PHHPTOC2操作PHHPTOC1操作PHIPTOC1操作EFLPTOC1操作
或
X120_BI3(断路器开路)
电弧保护(可选)
LED10(电弧保护)
ARCSARC1运行ARCSARC2运行ARCSARC3运行
自动重合闸(可选)
或
选择PDNSPTOC1操作NSPTOC2操作CBXCBR1
LED11(AR进行中)
DARREC1
0 -> 1
79初始化_1初始化_ 2初始化u3初始化单元4初始化 5初始化U6 DEL_INIT_2 DEL_ INIT _3 delUinitu4 BLK_RECL_T BLK_ RCLM_T BLK_THERM CB_POS CB_ READY INC_SHOTP INHIBIT_RECR_ON SYNC
OPEN_CB CLOSE_CB CMD_WAIT INPRO LOCKED PROT_CRD UNSC_RECL AR_ON READY
弧弧3
弧(3)
50L/50NL(3)3I
Io
块REM_FLT_ARC OPR_MODE
操作ARC_FLT_DET
弧弧2
弧(2)
50L/50NL(2)3I
Io
块REM_FLT_ARC OPR_MODE
操作ARC_FLT_DET
弧弧1
弧(1)
50L/50NL(1)3I
Io
块REM_FLT_ARC OPR_MODE
操作ARC_FLT_DET
EFHPTOC1运行
A071354 V5 EN
图33:电弧保护
电弧保护(ARCSARC1…3)和自动重合闸(DARREC1)包括在:
可选功能。
电弧保护为三个电弧传感器提供单独的功能块,可以:
连接到IED。每个电弧保护功能块有两个不同的
第3节1MRS756378 K
REF615标准配置
74参考文献615
应用手册
运行模式,带或不带相位和剩余电流检查。运转
来自电弧保护功能块的信号连接到主跳闸
并且还连接到报警LED 10作为公共操作指示。
自动重合闸被配置为通过来自多个
通过INIT1…5输入的保护级。可以创建个人
每个输入的自动关闭序列。
自动重合闸功能可通过INHIBIT_RECL输入被阻断。通过
默认情况下,所选保护功能的操作连接到此输入。A.
对本地或远程断路器的控制命令也会阻止
通过CBXCBR选择信号自动重合闸功能。
自动重合闸序列的断路器可用性表示为:
DARREC1中的CB_READY输入。在配置中,该信号未连接
到任何二进制输入。因此,该功能假设断路器为
随时可用 MVME2434 Motorola MVME全系列板卡
MVME2434 Motorola MVME全系列板卡
block’s (INRPHAR1) output BLK2H enables either blocking the function or
multiplying the active settings for any of the described protection function blocks.
All operate signals are connected to the Master Trip and to the alarm LEDs. LED 1
is used for overcurrent and LED 4 for negative-sequence overcurrent protection
operate indication. LED 4 is also used for phase discontinuity protection operate
indication.
1MRS756378 K Section 3
REF615 standard configurations
REF615 71
Application Manual
OR LED2 (EF OPERATE)
EARTH FAULT PROTECTION
SENSITIVE EARTH FAULT PROTECTION
LED3 (SEF OPERATE)
Figure 31: Non-directional earth-fault protection
Four stages are offered for non-directional earth-fault protection. One stage is
dedicated to sensitive earth-fault protection.
All operate signals are connected to the Master Trip as well as to the alarm LEDs.
LED 2 is used for directional earth-fault and LED 3 for the sensitive earth-fault
protection operate indication.
Section 3 1MRS756378 K
REF615 standard configurations
72 REF615
Application Manual
A071352 V4 EN
Figure 32: Phase discontinuity, thermal overload and circuit breaker failure
protection
The phase discontinuity protection (PDNPSTOC1) provides protection for
interruptions in the normal three-phase load supply, for example, in downed
conductor situations. The operate signal of the phase discontinuity protection is
connected to the Master Trip and also to an alarm LED and the disturbance
recorder. The thermal overload protection (T1PTTR1) provides indication on
overload situations. The operate signal of the thermal overload protection is
connected to the Master Trip and also to an alarm LED. LED 4 is used for the
phase discontinuity protection operate indication, the same as for negative
sequence overcurrent protection operate indication, and LED 5 is used for the
thermal overload protection alarm indication.
The breaker failure protection (CCBRBRF1) is initiated via the start input by a
number of different protection stages in the IED. The breaker failure protection
function offers different operating modes associated with the circuit breaker
position and the measured phase and residual currents. The breaker failure
protection has two operating outputs: TRRET and TRBU. The TRRET operate
output is used for retripping its own breaker through the Master Trip 2. The TRBU
output is used to give a back-up trip to the breaker feeding upstream. For this
purpose, the TRBU operate output signal is connected to the output PO2 (X100:
8-9). LED 6 is used for back-up (TRBU) operate indication.
1MRS756378 K Section 3
REF615 standard configurations
REF615 73
Application Manual
PHHPTOC2-operate PHHPTOC1-operate PHIPTOC1-operate EFLPTOC1-operate
OR
X120_BI3 (CB Open)
ARC PROTECTION (Optional)
LED10 (ARC PROTECTION)
ARCSARC1-operate ARCSARC2-operate ARCSARC3-operate
AUTORECLOSING (Optional)
OR
PDNSPTOC1-operate NSPTOC1-operate NSPTOC2-operate CBXCBR1-selected
LED11 (AR IN PROGRESS)
DARREC1
0 -> 1
79 INIT_1 INIT_2 INIT_3 INIT_4 INIT_5 INIT_6 DEL_INIT_2 DEL_INIT_3 DEL_INIT_4 BLK_RECL_T BLK_RCLM_T BLK_THERM CB_POS CB_READY INC_SHOTP INHIBIT_RECL RECL_ON SYNC
OPEN_CB CLOSE_CB CMD_WAIT INPRO LOCKED PROT_CRD UNSUC_RECL AR_ON READY
ARCSARC3
ARC (3)
50L/50NL (3) 3I
Io
BLOCK REM_FLT_ARC OPR_MODE
OPERATE ARC_FLT_DET
ARCSARC2
ARC (2)
50L/50NL (2) 3I
Io
BLOCK REM_FLT_ARC OPR_MODE
OPERATE ARC_FLT_DET
ARCSARC1
ARC (1)
50L/50NL (1) 3I
Io
BLOCK REM_FLT_ARC OPR_MODE
OPERATE ARC_FLT_DET
EFHPTOC1-operate
A071354 V5 EN
Figure 33: Arc protection
Arc protection (ARCSARC1...3) and autoreclosing (DARREC1) are included as
optional functions.
The arc protection offers individual function blocks for three arc sensors that can
be connected to the IED. Each arc protection function block has two different
Section 3 1MRS756378 K
REF615 standard configurations
74 REF615
Application Manual
operation modes, with or without the phase and residual current check. Operate
signals from the arc protection function blocks are connected to the Master Trip
and also to the alarm LED 10 as a common operate indication.
The autorecloser is configured to be initiated by operate signals from a number of
protection stages through the INIT1...5 inputs. It is possible to create individual
autoreclose sequences for each input.
The autoreclose function can be blocked with the INHIBIT_RECL input. By
default, the operation of selected protection functions are connected to this input. A
control command to the circuit breaker, either local or remote, also blocks the
autoreclose function via the CBXCBR-selected signal.
The circuit breaker availability for the autoreclosure sequence is expressed with the
CB_READY input in DARREC1. In the configuration, this signal is not connected
to any of the binary inputs. As a result, the function assumes that the breaker is
available all the time MVME2434 Motorola MVME全系列板卡
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