7BPOINT MAP
0BMODBUS RTU PROTOCOL
What the reported value in each point represents depends on the analog parameter
configuration table that can be viewed and modified using the proART software (Figure
5-3). Point 300 (first value) corresponds to point 0 of the analog table, 301 to point 1,
etc... The table in the proART software includes 50 locations (values 0 to 49) that are
represented in points from 300 to 349.
F13
32 bits unsigned counter. The value is compound of two points. The point with lower
address has the most significant 16 bits, while the point with the highest address
contains the 16 least significant bits.
What represents the reported value in each point depends on the counter parameter
configuration table that can be viewed and modified using the proART software (this
table appears by selecting the option “Counters” in the window of Figure 5-3). Points
400 and 401 (first value) correspond to point 0 of the counter table, 102 and 103 to point
1, etc... The table in the proART software includes 50 locations (values 0 to 49) that are
represented in points from 400 to 499.
F14
The points in this format represent the value of binary inputs. Each input can take the
binary value 0 (inactive) or 1 (active). Each point reports the value of 16 binary inputs.
Since 4 points have this format, there is the capability to report the value of 64 binary
inputs.
What the reported value, for each point, represents depends on the input parameter
configuration table that can be viewed and modified using the proART software (this
table appears selecting the option “Inputs” in the window of Figure 5-3). The bit 0 of the
point 600 corresponds to input 0. The bit 1 of the same point corresponds to input 1, and
so on up to the bit 15 that has the information of the input 15. The bit 0 of the point 601
corresponds to the input16 and continues the same sequence up to the bit 1 of the point
603, which represents the value of the input 49. The rest of the bits of the point 603 are
0.
Summary of Contents for smART P500
Page 1: ...Instruction Manual Multifunction Protection Relay smART P500...
Page 23: ...2BTABLES INDEX THIS PAGE HAS BEEN LEFT BLANK INTENTIONALLY...
Page 39: ...5BHARDWARE FEATURES INTRODUCTION Figure 1 9 Wye Wye Connection measured neutral...
Page 40: ...5BHARDWARE FEATURES INTRODUCTION Figure 1 10 Wye Wye Connection sensitive neutral...
Page 41: ...5BHARDWARE FEATURES INTRODUCTION Figure 1 11 Open Delta Connection measured neutral...
Page 42: ...5BHARDWARE FEATURES INTRODUCTION Figure 1 12 Open Delta Connection sensitive neutral...
Page 511: ...2BANSI CURVES 0BCURVES FOR TIME CHARACTERISTICS Figure I 6 Moderately ANSI curve...
Page 513: ...2BANSI CURVES 0BCURVES FOR TIME CHARACTERISTICS Figure I 7 Very inverse ANSI curve...
Page 515: ...2BANSI CURVES 0BCURVES FOR TIME CHARACTERISTICS Figure I 8 Extremely inverse ANSI curve...
Page 532: ...4BRECLOSER CURVES 0BCURVES FOR TIME CHARACTERISTICS Figure I 14 Recloser Curves 101 119...
Page 535: ...4BRECLOSER CURVES 0BCURVES FOR TIME CHARACTERISTICS Figure I 15 Recloser Curves 120 142...
Page 538: ...4BRECLOSER CURVES 0BCURVES FOR TIME CHARACTERISTICS Figure I 16 Recloser Curves 151 202...