SEL35kV电容器保护(横差).doc

35kV电容器保护(横差) 第 20 页 共20页35kV电容器保护(横差)总保护 K500定值单（SEL-351-51）公共整定 ( SET G )电压输入配置 (see Setting for Voltage input Configuration in Section 9: Setting the Relay )电压互感器连接 ( DELTA, WYE )PTCONN = WYEVS通道电压输入 ( VS, 3V0 )VSCONN =默认值整定值组改变延迟 (see Multiple Setting Groups in Section 7)定值组改变延迟 (0.00 - 16000.00 cycles in 0.25-cycle steps)TGR =默认值电力系统配置和日期格式 (see Settings Explanations in Section 9)额定频率 (50 Hz, 60 Hz)NFREQ = 50相序 (ABC, ACB)PHROT = ABC日期格式 (MDY, YMD)DATE_F=YMD前面板显示溢出时间 (see Section 11)前面板显示溢出时间 (OFF, 1 - 30 minutes in 1-minute steps)FP_TO = 5滚动显示刷新率 ( 1 - 60 秒 )SCROLD = 2面板中性线/计算零序电流显示 ( OFF, IN, IG )FPNGD = IN事件报告参数 (see Section 12)事件报告长度 (15, 30 cycles)LER = 15故障前报告长度 (1 to LER-1 cycles in 1-cycle steps)PRE = 4电站直流电源监视器 (see Figures 8.9 and 8.10)直流电源瞬时低电压启动值 (OFF, 20 - 300 Vdc)DCLOP = OFF直流电源瞬时过电压启动值 (OFF, 20 - 300 Vdc)DCHIP = OFF对于型号0351x0, 0351x1, and 0351xY的光隔输入计时器 (see Figure 7.1)输入 IN101 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN101D = 0.50输入 IN102 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN102D = 0.50输入 IN103 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN103D = 0.50输入 IN104 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN104D = 0.50输入 IN105 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN105D = 0.50输入 IN106 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN106D = 0.50对于型号0351x1 and 0351xY - 带扩展I/O板的光隔输入计时器 (see Figure 7.2)输入 IN201 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN201D = 0.50输入 IN202 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN202D = 0.50输入 IN203 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN203D = 0.50输入 IN204 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN204D = 0.50输入 IN205 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN205D = 0.50输入 IN206 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN206D = 0.50输入 IN207 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN207D = 0.50输入 IN208 缓冲时间 (AC, 0.00 - 1.00 cycles in 0.25-cycle steps)IN208D = 0.50断路器监视器整定值 (see Breaker Monitor in Section 8)断路器监视器投入 (Y, N)EBMON = N配置整定 （ SET）标识符(见第九部分的整定值解释)继电器标识符 (30 字符)RID = 现场设定终端标识符 (30 字符)TID = 现场设定电流和电压互感器 (见第九部分的整定值解释)相 (IA, IB, IC) 电流互感器变比 (1 - 6000)CTR =见整定书中性点 (IN) 电流互感器变比 (1 - 10000)CTRN =见整定书相 (VA, VB, VC; 星型连接) 或相间 (VAB, VBC, VCA; 三角形连接)电压互感器变比 (1 - 10000)PTR = 350.00同期电压 (VS) 互感器变比 (1 - 10000)PTRS = 默认值PT额定电压（星型连接为相电压，三角形连接为相间电压）(OFF, 25.00 300.00V 二次值) ( 300V votage inputs )VNOM= 57.70线路整定值 (见第九部分的整定值解释)正序线路阻抗幅值 (0.10 - 510.00 secondary 5A nom., 0.50 - 2550.00 secondary 1 A nom.)Z1MAG = 默认值正序线路阻抗角 (5.00 - 90.00 degrees)Z1ANG = 默认值零序线路阻抗幅值(0.10 - 510.00secondary 5 A nom., 0.50 2550.00secondary 1 A nom.)Z0MAG = 默认值零序线路阻抗角 (5.00 - 90.00 degrees)Z0ANG = 默认值( Make settings Z0SMAG and Z0SANG when global settings PTCONN=DELTA andVSCONN=VS ) 零序电源阻抗幅值 (三角形连接电压)(0.10 - 510.00 W secondary 5 A nom.,0.50 - 2550.00 W secondary 1 A nom.)Z0SMAG =默认值零序电源阻抗角 (三角形连接电压)(0.00 - 90.00 degrees)Z0SANG =默认值线路长度 (0.10 - 999.00, unitless)LL = 默认值瞬时/定时限过电流投入整定值相元件段数 (N, 1 - 6) (see Figures 3.1, 3.2, 3.3, and 3.7)E50P = 2中性点接地元件段数 通道 IN (N, 1 - 6) (see Figures 3.8 and 3.9)E50N = 2零序接地元件段数 (N, 1 - 6) (see Figures 3.10 and 3.11)E50G = N负序元件段数 (N, 1 - 6) (see Figures 3.12 and 3.13)E50Q = N反时限过电流投入整定值相元件 (N, 1, 2) (see Table 3.1, Figures 3.14, 3.15, 3.16, and 3.17)E51P = N中性点接地元件 通道 IN (Y, N) (see Figure 3.18)E51N= N零序接地元件 (Y, N) (see Figure 3.19)E51G= N负序元件 (Y, N) (see Figure 3.20)E51Q= N其它投入整定值方向控制 (Y, AUTO, N) (见第四部分的方向控制整定值)E32 = N负荷入侵 (Y, N) (see Figure 4.2)ELOAD= N 合于故障 (Y, N) (see Figure 5.3)ESOTF= N电压元件 (Y, N) (see Figures 3.21, 3.22, 3.23, 3.24, and 3.25)EVOLT= Y同期检测 (Y, N) (see Figures 3.26 and 3.27)E25 = N故障定位 (Y, N) (see Table 12.1 and Fault Location in Section 12)EFLOC= N 电压回路断线 (Y, N) (see Figure 4.1)ELOP = N通讯跳闸方案 (N, DCB, POTT, DCUB1, DCUB2) (see Communications-Assisted Trip Logic - General Overview in Section 5)ECOMM=N 频率元件 (N, 1 - 6) (see Figure 3.31)E81 = N重合闸 (N, 1- 4, C1- C4) (see Reclosing Relay in Section 6)E79 = NSELogic 控制方程变量计时器 (N, 1 - 16) (see Figures 7.24 and 7.25)ESV = 16需求量表计 (THM = Thermal, ROL = Rolling) (see Figure 8.11)EDEM = 默认值 相瞬时/定时限过电流元件 (see Figures 3.1, 3.2, and 3.3)(Number of phase element pickup settings dependent on preceding enable setting E50P=16)启动值 (OFF, 0.25 - 100.0 A 5 A nom., 0.05 - 20.00 A 1 A nom.)50P1P =见整定书 启动值(OFF, 0.25 - 100.0 A 5 A nom., 0.05 - 20.00 A 1 A nom.)50P2P =见整定书相定时限过电流元件 (see Figure 3.3)(Number of phase element time delay settings dependent on preceding enable setting E50P=16; all four time delay settings are enabled if E50P 4)时间延迟 (0.00 - 16000.00 cycles in 0.25cycle steps)67P1D = 0.00时间延迟 (0.00 - 16000.00 cycles in 0.25cycle steps)67P2D = 0.00相间瞬时过电流元件 (see Figure 3.7)(Number of phase-to-phase element pickup settings dependent on preceding enable setting E50P=16; all four pickup settings are enabled if E50P 4)启动值(OFF, 1.00 - 170.00 A 5 A nom., 0.20 - 34.00 A 1A nom.)50PP1P = OFF启动值(OFF, 1.00 - 170.00 A 5 A nom., 0.20 - 34.00 A 1A nom.)50PP2P = OFF中性点接地瞬时/定时限过电流元件 通道 IN (see Figures 3.8 and 3.9)(Number of neutral ground element pickup settings dependent on preceding enable setting E50N=16)启动值(OFF, 0.25 - 100.00 A 5 A nom., 0.05 - 20.00 A 1A nom., 0.005 - 2.500A 0.2 A nom.); 0.005 - 1.500A 0.05 A nom.)50N1P =见整定书启动值(OFF, 0.25 - 100.00 A 5 A nom., 0.05 - 20.00 A 1A nom., 0.005 - 2.500A 0.2 A nom.);0.005 - 1.500A 0.05 A nom.)50N2P =见整定书中性点接地定时限过电流元件 (see Figure 3.8)(Number of neutral ground element time delay settings dependent on preceding enable setting E50N=16; all four time delay settings are enabled if E50N 4)时间延迟 (0.00 - 16000.00 cycles in 0.25cycle steps)67N1D = 0时间延迟 (0.00 - 16000.00 cycles in 0.25cycle steps)67N2D = 0电压元件 (see Figures 3.21, 3.22, 3.23, 3.24, and 3.25)(Make the following settings if preceding enable setting EVOLT = Y and global setting PTCONN = WYE)相低电压启动值 (OFF, 0.0 - 300.0 V secondary) 300v voltage inputs.27P1P = OFF相低电压启动值 (OFF, 0.0 - 300.0 V secondary) 300v voltage inputs.27P2P = OFF相过电压启动值 (OFF, 0.0 - 300.0 V secondary) 300v voltage inputs.59P1P = OFF相过电压启动值 (OFF, 0.0 - 300.0 V secondary) 300v voltage inputs.59P2P = OFF零序 (3V0) 过电压启动值 (OFF, 0.0 - 300.0 V secondary) 300v voltage inputs.59N1P = OFF零序 (3V0) 过电压启动值 (OFF, 0.0 - 300.0 V secondary) 300v voltage inputs.59N2P = OFF负序 (V2) 过电压启动值 (OFF, 0.0 - 200.0 V secondary) 300v voltage inputs.59QP = OFF正序 (V1) 过电压启动值 (OFF, 0.0 - 300.0 V secondary) 300v voltage inputs.59V1P = OFF通道 VS 低电压启动值 (OFF, 0.0 - 300.0 V secondary) 300v voltage inputs.27SP = OFF通道 VS 过电压启动值 (OFF, 0.0 - 300.0 V secondary) 300v voltage inputs.59S1P = OFF通道 VS 过电压启动值 (OFF, 0.0 - 300.0 V secondary) 300v voltage inputs.59S2P = OFF相间低电压启动值 (OFF, 0.0 - 300.0 V secondary) 300v voltage inputs.27PP = 见整定书相间过电压启动值 (OFF, 0.0 - 520.0 V secondary) 300v voltage inputs.59PP =见整定书需求量表计整定值 (see Figures 8.11 and 8.13)(Make the following settings, whether preceding enable setting EDEM = THM or ROL)时间常数 (5, 10, 15, 30, 60 minutes)DMTC = 默认值相启动值 (OFF, 0.50 - 16.00 A 5 A nom., 0.10 - 3.20 A 1 A nom.)PDEMP =OFF中性点接地启动值 通道 IN (OFF, 0.50 - 16.00 A 5 A nom., 0.10 - 3.20 A 1 A nom., 0.005 - 0.640 A 0.2 A nom, 0.005 - 0.160 A 0.05 A nom.NDEMP =OFF零序接地启动值 (OFF, 0.10 - 16.00 A 5 A nom., 0.02 - 3.20 A 1 A nom.)GDEMP =OFF负序启动值 (OFF, 0.50 16.00 A 5 A nom., 0.10 - 3.20 A 1 A nom.)QDEMP =OFF其它整定值(Make the following settings they have no controlling enable setting)最小跳闸间隔时间 (4.00 - 16000.00 cycles in 0.25-cycle steps)(see Figure 5.1)TDURD =默认值合闸失灵时间延迟 (OFF, 0.00-16000.00 cycles in 0.25-cycle steps)(see Figure 6.1)CFD = OFF三相打开时间延迟 (0.00 - 60.00 cycles in 0.25-cycle steps)(usually set for no more than a cycle; see Figure 5.3)3POD = 默认值负荷检测相启动值 (OFF, 0.25 - 100.00A5 A nom., 0.05 - 20.00 A 1 A nom.) (see Figure 5.3)50LP = 默认值SELogic 控制方程变量计时器 (see Figures 7.24 and 7.25)(Number of timer pickup/dropout settings dependent on preceding enable setting ESV = 1 - 16)SV1 启动时间 (0-999999.00 cycles in 0.25-cycle steps)SV1PU =见整定书SV1 返回时间 (0-999999.00 cycles in 0.25-cycle steps)SV1DO = 5.00SV2 启动时间 (0-999999.00 cycles in 0.25-cycle steps)SV2PU =见整定书SV2 返回时间 (0-999999.00 cycles in 0.25-cycle steps)SV2DO = 5.00SV3 启动时间 (0-999999.00 cycles in 0.25-cycle steps)SV3PU =见整定书SV3 返回时间 (0-999999.00 cycles in 0.25-cycle steps)SV3DO = 5.00SV4 启动时间 (0-999999.00 cycles in 0.25-cycle steps)SV4PU =见整定书SV4 返回时间 (0-999999.00 cycles in 0.25-cycle steps)SV4DO = 5.00SV5 启动时间 (0-999999.00 cycles in 0.25-cycle steps)SV5PU =见整定书SV5 返回时间 (0-999999.00 cycles in 0.25-cycle steps)SV5DO = 5.00SV6 启动时间 (0-999999.00 cycles in 0.25-cycle steps)SV6PU =见整定书SV6 返回时间 (0-999999.00 cycles in 0.25-cycle steps)SV6DO = 5.00SV7 启动时间 (0-16000.00 cycles in 0.25-cycle steps)SV7PU = 0SV7 返回时间 (0-16000.00 cycles in 0.25-cycle steps)SV7DO = 25.00SV8 启动时间 (0-16000.00 cycles in 0.25-cycle steps)SV8PU = 0SV8 返回时间 (0-16000.00 cycles in 0.25-cycle steps)SV8DO = 25.00SV9 启动时间 (0-16000.00 cycles in 0.25-cycle steps)SV9PU =自动化用SV9 返回时间 (0-16000.00 cycles in 0.25-cycle steps)SV9DO =自动化用SV10 启动时间 (0-16000.00 cycles in 0.25-cycle steps)SV10PU =自动化用SV10 返回时间 (0-16000.00 cycles in 0.25-cycle steps)SV10DO =自动化用SV11 启动时间 (0-16000.00 cycles in 0.25-cycle steps)SV11PU =自动化用SV11 返回时间 (0-16000.00 cycles in 0.25-cycle steps)SV11DO =自动化用SV12 启动时间 (0-16000.00 cycles in 0.25-cycle steps)SV12PU =自动化用SV12 返回时间 (0-16000.00 cycles in 0.25-cycle steps)SV12DO =自动化用SV13 启动时间 (0-16000.00 cycles in 0.25-cycle steps)SV13PU =自动化用SV13 返回时间 (0-16000.00 cycles in 0.25-cycle steps)SV13DO =自动化用SV14 启动时间 (0-16000.00 cycles in 0.25-cycle steps)SV14PU =自动化用SV14 返回时间 (0-16000.00 cycles in 0.25-cycle steps)SV14DO =自动化用SV15 启动时间 (0-16000.00 cycles in 0.25-cycle steps)SV15PU =自动化用SV15 返回时间 (0-16000.00 cycles in 0.25-cycle steps)SV15DO =自动化用SV16 启动时间 (0-16000.00 cycles in 0.25-cycle steps)SV16PU =自动化用SV16 返回时间 (0-16000.00 cycles in 0.25-cycle steps)SV16DO =自动化用逻辑整定 （ SET L ）跳闸逻辑方程 (see Figure 5.1)其它跳闸条件TR=50P1*SV1T+50P2*SV2T+50N1*SV3T +50N2*SV4T+SV5T+SV6T通讯跳闸条件TRCOMM= 0合于故障跳闸条件TRSOTF = 0直接传输跳闸条件DTT = 0解锁跳闸条件ULTR = 1通讯跳闸方案输入方程允许跳闸 1 (used for ECOMM = POTT, DCUB1, or DCUB2; see Figures 5.5, 5.7, and 5.10)PT1 = 0监频消失 1 (used for ECOMM = DCUB1 or DCUB2; see Figure 5.10)LOG1 = 0允许跳闸 2 (used for ECOMM = DCUB2; see Figures 5.5 and 5.10)PT2 = 0监频消失 2 (used for ECOMM = DCUB2; see Figure 5.10)LOG2 = 0闭锁跳闸 (used for ECOMM = DCB; see Figure 5.14)BT = 0合闸逻辑方程 (see Figure 6.1)断路器状态 (used in Figure 5.3, also)52A = 0合闸条件 (other than automatic reclosing or CLOSE command)CL = 0解锁合闸条件ULCL = 0重合闸继电器方程 (see Reclosing Relay in Section 6)重合闸启动79RI = 0重合闸启动监视79RIS = 0驱动至闭锁79DTL = 0驱动至末次79DLS = 0跳过79SKP = 0暂停打开间隔计时79STL = 0闭锁复归计时79BRS = 0顺序配合79SEQ = 0重合闸监视 (see Figure 6.2)79CLS = 0保持位设置/复归方程 (See Figure 7.12)设置保持位 LT1SET1 = 0复归保持位 LT1RST1 = 0设置保持位 LT2SET2 = 0复归保持位 LT2RST2 = 0设置保持位 LT3SET3 = 0复归保持位 LT3RST3 = 0设置保持位 LT4SET4 = 0复归保持位 LT4RST4 = 0设置保持位 LT5SET5 = 0复归保持位 LT5RST5 = 0设置保持位 LT6SET6 = 0复归保持位 LT6RST6 = 0设置保持位 LT7SET7 = 0复归保持位 LT7RST7 = 0设置保持位 LT8SET8 = 0复归保持位 LT8RST8 = 0设置保持位 LT9SET9 = 0复归保持位 LT9RST9 = 0设置保持位 LT10SET10= 0复归保持位 LT10RST10= 0设置保持位 LT11SET11= 0复归保持位 LT11RST11= 0设置保持位 LT12SET12= 0复归保持位 LT12RST12= 0设置保持位 LT13SET13= 0复归保持位 LT13RST13= 0设置保持位 LT14SET14= 0复归保持位 LT14RST14= 0设置保持位 LT15SET15= 0复归保持位 LT15RST15= 0设置保持位 LT16SET16= 0复归保持位 LT16RST16= 0用于瞬时/定时限过电流元件的控制方程 ( NOTE: torque control equation setting cannot be set directly to logical 0 ) Level 1 相 (see Figure 3.3)67P1TC = 1Level 2 相 (see Figure 3.3)67P2TC = 1Level 3 相 (see Figure 3.3)67P3TC = 1Level 4 相 (see Figure 3.3)67P4TC = 1Level 1 中性点接地 (see Figure 3.8)67N1TC = 1Level 2 中性点接地 (see Figure 3.8)67N2TC = 1Level 3 中性点接地 (see Figure 3.8)67N3TC = 1Level 4 中性点接地 (see Figure 3.8)67N4TC = 1Level 1 零序接地 (see Figure 3.10)67G1TC = 1Level 2 零序接地 (see Figure 3.10)67G2TC = 1Level 3 零序接地 (see Figure 3.10)67G3TC = 1Level 4 零序接地 (see Figure 3.10)67G4TC = 1Level 1 负序 (see Figure 3.12)67Q1TC = 1Level 2 负序 (see Figure 3.12)67Q2TC = 1Level 3 负序 (see Figure 3.12)67Q3TC = 1Level 4 负序 (see Figure 3.12)67Q4TC = 1用于反时限过电流元件的控制方程 1 NOTE: torque control equation setting cannot be set directly to logical 0 A-相 (see Figure 3.15)51ATC = 1B-相 (see Figure 3.16)51BTC = 1C-相 (see Figure 3.17)51CTC = 1相 (see Figure 3.14)51PTC = 1中性点接地 (see Figure 3.18)51NTC = 1零序接地 (see Figure 3.19)51GTC = 1负序 (see Figure 3.20)51QTC = 1SELogic 控制方程变量计时器输入方程 (see Figures 7.24 and 7.25)SELogic 控制方程变量 SV1SV1 = 50P1SELogic 控制方程变量 SV2SV2 = 50P2SELogic 控制方程变量 SV3SV3 = 50N1SELogic 控制方程变量 SV4SV4 = 50N2SELogic 控制方程变量 SV5SV5 = 27AB*27BC*27CASELogic 控制方程变量 SV6SV6 = 59AB+59BC+59CASELogic 控制方程变量 SV7SV7 = CCSELogic 控制方程变量 SV8SV8 = OCSELogic 控制方程变量 SV9SV9 =自动化用SELogic 控制方程变量 SV10SV10 =自动化用SELogic 控制方程变量 SV11SV11 =自动化用SELogic 控制方程变量 SV12SV12 =自动化用SELogic 控制方程变量 SV13SV13 =自动化用SELogic 控制方程变量 SV14SV14 =自动化用SELogic 控制方程变量 SV15SV15 =自动化用SELogic 控制方程变量 SV16SV16 =SV1T+SV2T+SV3T+SV4T+SV5T+SV6T用于0351x0, 0351x1, and 0351xY型号的输出接点方程 (see Figure 7.27)输出接点 OUT101OUT101 = SV1T输出接点 OUT102OUT102 = SV2T输出接点 OUT103OUT103 = SV3T输出接点 OUT104OUT104 = SV4T输出接点 OUT105OUT105 = SV5T输出接点 OUT106OUT106 = SV6T输出接点 OUT107OUT107 = 0用于0351x1 and 0351xY 附加I/O板的输出接点方程 (see Figure 7.28)输出接点 OUT201OUT201 = 0输出接点 OUT202OUT202 = 0输出接点 OUT203OUT203 = 0输出接点 OUT204OUT204 = 0输出接点 OUT205OUT205 = 0输出接点 OUT206OUT206 = 0输出接点 OUT207OUT207 = 0输出接点 OUT208OUT208 = 0输出接点 OUT209OUT209 = 0输出接点 OUT210OUT210 = 0输出接点 OUT211OUT211 = SV7T输出接点 OUT212OUT212 = SV8T显示点方程 (see Rotating Default Display in Sections 7 and 11)显示点 DP1DP1 = 0显示点 DP2DP2 = 0显示点 DP3DP3 = 0显示点 DP4DP4 = 0显示点 DP5DP5 = 0显示点 DP6DP6 = 0显示点 DP7DP7 = 0显示点 DP8DP8 = 0显示点 DP9DP9 = 0显示点 DP10DP10 = 0显示点 DP11DP11 = 0显示点 DP12DP12 = 0显示点 DP13DP13 = 0显示点 DP14DP14 = 0显示点 DP15DP15 = 0显示点 DP16DP16 = 0整定值组选择方程 (See Table 7.4)选择整定值组 1SS1 = 0选择整定值组 2SS2 = 0选择整定值组 3SS3 = 0选择整定值组 4SS4 = 0选择整定值组 5SS5 = 0选择整定值组 6SS6 = 0其它方程事件报告触发条件 (see Section 12)ER = 50P2 + 50N2故障显示 用在 INST, A, B, 和 C 信号逻辑及其他功能 FAULT = 50P2 + 50N2闭锁同期检测元件 (see Figure 3.26)BYSNCH = 0合闸母线监视器 (see Figure 5.3)CLMON = 0断路器监视器启动 (see Figure 8.3)BKMON = 0投入零序电压极化和通道IN电流极化方向元件 (see Figure4.7)E32IV = 0顺序事件记录 （ SET R ）SER 触发列表 1SER1 = OUT101 OUT102 OUT103 OUT104 OUT105 OUT106OUT211 OUT212SER 触发列表 2SER2 = IN101 IN102 IN103 IN104 IN105 IN106SER 触发列表 3SER3 = IN201 IN202 IN203 IN204 IN205 CC OC LOP本地位整定 （ SET T ）本地位标号 (see Tables 7.1 and 7.2)本地位 LB1 名称 (14 characters)NLB1 = 清除 本地位 LB1 标号 (7 characters)CLB1 = 设置 本地位 LB1 标号 (7 characters)SLB1 = 脉冲 本地位 LB1 标号 (7 characters)PLB1 = 本地位 LB2 名称 (14 characters)NLB2 = 清除 本地位 LB2 标号 (7 characters)CLB2 = 设置 本地位 LB2 标号 (7 characters)SLB2 = 脉冲 本地位 LB2 标号 (7 characters)PLB2 = 本地位 LB3 名称 (14 characters)NLB3 = 清除 本地位 LB3 标号 (7 characters)CLB3 = 设置 本地位 LB3 标号 (7 characters)SLB3 = 脉冲 本地位 LB3 标号 (7 characters)PLB3 = 本地位 LB4 名称 (14 characters)NLB4 = 清除 本地位 LB4 标号 (7 characters)CLB4 = 设置 本地位 LB4 标号 (7 characters)SLB4 = 脉冲 本地位 LB4 标号 (7 characters)PLB4 = 本地位 LB5 名称 (14 characters)NLB5 = 清除 本地位 LB5 标号 (7 characters)CLB5 = 设置 本地位 LB5 标号 (7 characters)SLB5 = 脉冲 本地位 LB5 标号 (7 characters)PLB5 = 本地位 LB6 名称 (14 characters)NLB6 = 清除 本地位 LB6 标号 (7 characters)CLB6 = 设置 本地位 LB6 标号 (7 characters)SLB6 = 脉冲 本地位 LB6 标号 (7 characters)PLB6 = 本地位 LB7 名称 (14 characters)NLB7 = 清除 本地位 LB7 标号 (7 characters)CLB7 = 设置 本地位 LB7 标号 (7 characters)SLB7 = 脉冲 本地位 LB7 标号 (7 characters)PLB7 = 本地位 LB8 名称 (14 characters) NLB8 = 清除 本地位 LB8 标号 (7 characters) CLB8 = 设置 本地位 LB8 标号 (7 characters) SLB8 = 脉冲 本地位 LB8 标号 (7 characters) PLB8 = 本地位 LB9 名称 (14 characters)NLB9 = 清除 本地位 LB9 标号 (7 characters)CLB9 = 设置 本地位 LB9 标号 (7 characters)SLB9 = 脉冲 本地位 LB9 标号 (7 characters)PLB9 = 本地位 LB10 名称 (14 characters)NLB10 = 清除 本地位 LB10 标号 (7 characters)CLB10 = 设置 本地位 LB10 标号 (7 characters)SLB10 = 脉冲 本地位 LB10 标号 (7 characters)PLB10 = 本地位 LB11 名称 (14 characters)NLB11 = 清除 本地位 LB11 标号 (7 characters)CLB11 = 设置 本地位 LB11 标号 (7 characters)SLB11 = 脉冲 本地位 LB11 标号 (7 characters)PLB11 = 本地位 LB12 名称 (14 characters)NLB12 = 清除 本地位 LB12 标号 (7 characters)CLB12 = 设置 本地位 LB12 标号 (7 characters)SLB12 = 脉冲 本地位 LB12 标号 (7 characters)PLB12 = 本地位 LB13 名称 (14 characters) NLB13 = 清除 本地位 LB13 标号 (7 characters) CLB13 = 设置 本地位 LB13 标号 (7 characters) SLB13 = 脉冲 本地位 LB13 标号 (7 characters) PLB13 = 本地位 LB14 名称 (14 characters)NLB14 = 清除 本地位 L