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USER MANUAL
VMS4SE
VIBRATION MONITOR
Masibus Automation & Instrumentation Pvt. Ltd.
B/30, GIDC Electronics Estate,
Sector-25, Gandhinagar-382044, Gujarat, India
+91 79 23287275-79 +91 79 23287281-82
Email: support@masibus.com
Web: www.masibus.com
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CONTENTS
CONTENTS............................................................................................................................................. 2
LIST OF TABLES ................................................................................................................................... 3
LIST OF FIGURES ................................................................................................................................. 5
SAFETY PRECAUTIONS ................................................................................................................ 6
DESCRIPTION OF SIGNS ............................................................................................................... 6
1. INTRODUCTION ............................................................................................................................... 7
1.1 Product Ordering Code ............................................................................................................. 8
2. INSTALLATION ................................................................................................................................ 9
2.1 Safety Precautions in Installation ............................................................................................. 9
2.2 Mounting of VMS4SE ............................................................................................................. 10
2.3 Maintenance and Inspection ................................................................................................... 11
3. HARDWARE SPECIFICATION ...................................................................................................... 13
3.1 Vibration Input Specification ..................................................................................................... 13
3.1.1 Input Specification(Optional)* .............................................................................................. 13
3.2 Output Specification ................................................................................................................ 14
3.2.1 Digital Output- Relay ........................................................................................................... 14
3.2.2 Digital Output- Open Collector(Optional)* ........................................................................... 14
3.2.3 Analog Output- Retransmission Output(Optional)* ............................................................. 14
3.2.4 Buffer Output for Vibration Input .......................................................................................... 14
3.3 Programming and Setting ....................................................................................................... 14
3.4 Communication Specification ................................................................................................. 15
3.5 PROFIBUS Communication (Optional)* ................................................................................. 15
3.6 HMI Interface (Optional)* ........................................................................................................ 15
3.7 Network Connectivity (Optional)* ........................................................................................... 15
3.8 Data logging (Optional)* ......................................................................................................... 15
3.9 Display Specification .............................................................................................................. 16
3.10 Power Supply Specification .................................................................................................. 16
3.11 Signal Isolations And Insulation Specification ...................................................................... 16
3.12 Construction, Installation, and Wiring Specification ............................................................. 17
3.13 Environmental Specification ................................................................................................. 17
4. FRONT AND REAR PANEL DIAGRAM ........................................................................................ 18
4.1 Front Panel Diagram .............................................................................................................. 18
4.2 Key Function Description ........................................................................................................ 18
4.3 Rear Panel Diagram ............................................................................................................... 19
5. CONNECTION DIAGRAM .............................................................................................................. 21
5.1 Connection Terminal Details .................................................................................................. 21
5.2 Cable Details .......................................................................................................................... 23
6. BRIEF OPERATING PROCEDURE ............................................................................................... 35
7. MENU LAYOUT .............................................................................................................................. 36
7.1 Parameter Flow Diagram ........................................................................................................ 36
7.2 Menu Parameters- In Detail .................................................................................................... 39
8. ALARM OUTPUT, CONTROL OUTPUT , DIGITAL OUTPUT AND WATCHDOG OUTPUT
OPERATION ......................................................................................................................................... 57
8.1 Alarm Output Operation ............................................................................................................ 57
8.2 Control Output Operation ......................................................................................................... 59
8.3 Basic DO(Digital Output) Function ........................................................................................... 59
8.4 Watchdog Timer (WDT) / Watchdog Output Operation ........................................................... 60
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9. CALIBRATION PROCEDURE ....................................................................................................... 61
10. MODBUS COMMUNICATION DETAIL ........................................................................................ 63
10.1 Overview ............................................................................................................................... 63
10.2 Exception Responses ........................................................................................................... 64
10.3 Modbus Addresses ............................................................................................................... 65
11. TROUBLESHOOTING ................................................................................................................... 83
APPENDIX – A PV STATUS DURING SENSOR BURN OUT CONDITIONS .................................... 84
APPENDIX – B HOW TO FETCH HISTORICAL DATA? .................................................................... 86
APPENDIX C - PROFIBUS DETAIL .................................................................................................... 90
C.1 Introduction ............................................................................................................................ 90
C.2 Communication Protocol ........................................................................................................ 90
C.3 mPC Tool (masibus Profibus Configuration Tool) V1.x.x.x ................................................. 102
C.3.1 Preconditions .................................................................................................................... 102
C.3.2 Short Description of mPC Configuration Tool Installation & Un-installation ..................... 102
C.3.3 Overview mPC Configuration Tool ..................................................................................... 103
C.3.3.1 Starting mPC Tool ............................................................................................................ 103
C.3.3.2 Introduction to the Dialog Structure ................................................................................. 103
C.3.4 How to Configure Profibus Vibration Monitor:................................................................... 104
C.3.5 GSD FILE CONFIGUEATION........................................................................................... 106
REVISION HISTORY .......................................................................................................................... 107
LIST OF TABLES
Table 1 Product Ordering code ............................................................................................................... 8
Table 2 Product Ordering Code description ............................................................................................ 8
Table 3 Cable Ordering Code and description........................................................................................ 8
Table 4 Input types, their ranges, accuracy and resolution .................................................................. 13
Table 5 Signal Isolation Specification ................................................................................................... 16
Table 7 Pin Details of Relay Cable (Three Output Terminals).............................................................. 24
Table 8 Pin Details of Open Collector Cable ........................................................................................ 26
Table 9 Pin Details of Analog Input Cable ............................................................................................ 28
Table 10 Pin Details of Analog Output Cable ....................................................................................... 30
Table 12 Pin Details of Vibration Input Cable ....................................................................................... 32
Table 13 Pin Details for Profibus Communication (DB 9 Female at Instrument Side) ......................... 34
Table 14 Program Mode Parameters .................................................................................................... 40
Table 15 Configuration Mode Parameters ............................................................................................ 41
Table 16 Sub Parameters of Input Configuration Mode ....................................................................... 42
Table 17 Input Type Selection .............................................................................................................. 43
Table 18 Sub Parameters of DO(Digital Output) Configuration Mode .................................................. 43
Table 19 DO(Digital Output) Mapping Number and its description....................................................... 45
Table 20 DO(Digital Output) description ............................................................................................... 46
Table 21 Sub Parameters of AO(Analog Output) Configuration Mode (Optional) ................................ 46
Table 22 AO(Analog Output)(Retransmission Output) description ....................................................... 47
Table 23 Sub Parameters of Communication Configuration Mode ...................................................... 48
Table 24 Sub Parameters of Display Configuration Mode .................................................................... 49
Table 25 Different Engineering Units .................................................................................................... 50
Table 26 Sub Parameters of Logging Configuration Mode ................................................................... 50
Table 27 Sub parameters of USB Configuration Mode (Optional)........................................................ 52
Table 28 USB Messages and Description ............................................................................................ 53
Table 29 Calibration Mode Parameters ................................................................................................ 54
Table 30 Security Mode Parameters .................................................................................................... 55
Table 31 Factory Reset Menu ............................................................................................................... 55
Table 32 Alarm 1 and Alarm 2 Momentary Alarm Logic ....................................................................... 57
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Table 33 Alarm 1 and Alarm 2 Maintained Alarm Logic ....................................................................... 58
Table 34 Control Operation (Optional) .................................................................................................. 59
Table 35 Error Messages and its Description ....................................................................................... 60
Table 36 Group Calibration Detail ......................................................................................................... 61
Table 37 Modbus Communication frame format ................................................................................... 63
Table 38 Modbus Function code description ........................................................................................ 64
Table 39 Modbus Query frame format .................................................................................................. 64
Table 40 Exceptional Response ........................................................................................................... 65
Table 41 Exception codes ..................................................................................................................... 65
Table 42 Process Value and Status Read Parameters ........................................................................ 65
Table 43 Details of abnormal Conditions of Process Value .................................................................. 66
Table 44 DO (Digital Output) Status Register and its bits arrangement ............................................... 66
Table 45 Alarm 1 Status Register and its bits arrangement ................................................................. 67
Table 46 Alarm 2 Status Register and its bits arrangement ................................................................. 67
Table 47 Other Status Registers ........................................................................................................... 67
Table 48 Holding Registers Parameters – Part 1 ................................................................................. 68
Table 49 Holding Registers Parameters – Part 2 ................................................................................. 71
Table 50 Holding Registers Parameters – Part 3 and Calibration Registers Parameters .................... 75
Table 51 Holding Registers Parameters – Part 4 ................................................................................. 77
Table 52 Byte arrangement for Programmable Display ........................................................................ 78
Table 53 Parameters for Programmable Display for other channels .................................................... 78
Table 54 Input Type Selection Table .................................................................................................... 79
Table 55 Bit accessible Holding Register Parameter – Square Root ................................................... 80
Table 56 Bit accessible Holding Register Parameter – Others ............................................................. 80
Table 57 Parameter Applicability Selection .......................................................................................... 81
Table 58 CJC Selection ........................................................................................................................ 81
Table 59 Open Sensor Selection .......................................................................................................... 81
Table 60 Alarm Latch Selection ............................................................................................................ 81
Table 61 DO (Digital Output) Logic Selection ....................................................................................... 81
Table 62 Set Point Function Selection .................................................................................................. 81
Table 63 Set Point Type Selection ........................................................................................................ 81
Table 64 Retransmission Type Selection ............................................................................................. 81
Table 65 Retransmission Direction Selection ....................................................................................... 81
Table 66 Retransmission Value Selection ............................................................................................ 81
Table 67 COM Port Baud Rate Selection ............................................................................................. 81
Table 68 COM Parity Selection ............................................................................................................. 81
Table 69 Favorite Display Selection ..................................................................................................... 81
Table 70 LED Configuration Selection .................................................................................................. 81
Table 71 Logging Enable Selection ...................................................................................................... 81
Table 72 Log Mode Selection ............................................................................................................... 81
Table 73 Factory Reset Parameters ..................................................................................................... 82
Table 74 WatchDog Output................................................................................................................... 82
Table 75 USB Periodic Fetch Mode ...................................................................................................... 82
Table 76 PV Status during Burn Out Condition .................................................................................... 84
Table 77 Retransmission Output during Open/Over/Under Condition ................................................. 85
Table 78 Addresses for Profibus Communication................................................................................. 90
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LIST OF FIGURES
Figure 1 Panel Cutout Dimensions ....................................................................................................... 10
Figure 2 Side View and TOP view ........................................................................................................ 11
Figure 3 Front Panel Diagram ............................................................................................................... 18
Figure 4 Rear Panel Diagram............................................................................................................. 19
Figure 5 Rear Panel Diagram........................ ....................................................................................... 19
Figure 6 Rear Panel Diagram with AC Supply.................................................................................... 20
Figure 7 Rear Panel Diagram with DC Supply........................... .......................................................... 20
Figure 8 Connection Terminals ............................................................................................................. 21
Figure 10 Relay Cable Connection (Three Output Terminals) ............................................................. 23
Figure 11 Open Collector Cable Connection ........................................................................................ 25
Figure 12 Analog Input Cable Connection ............................................................................................ 27
Figure 13 Analog Output Cable Connection ......................................................................................... 29
Figure 14 Communication Cable Connection ....................................................................................... 33
Figure 15 Profibus Configuration Cable ................................................................................................ 34
Figure 16 Functional Block Diagram of VMS4SE ................................................................................. 35
Figure 17 Program Mode Flow diagram ............................................................................................... 36
Figure 18 Configuration Mode Flow diagram ........................................................................................ 37
Figure 19 Configuration Mode Flow diagram ........................................................................................ 38
Figure 20 Calibration Mode and Security Mode Flow diagram ............................................................. 39
Figure 21 Basic DO(Digital Output) Function........................................................................................ 59
Figure 22 The Query-Response Cycle ................................................................................................ 63
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SAFETY PRECAUTIONS
The product and the instruction manual describe important information to prevent
possible harm to users and damage to the property and to use the product safely.
Understand the following description (signs and symbols), read the text and observe
Descriptions.
DESCRIPTION OF SIGNS
This indicates a danger that
may result in death or serious
injury if not avoided.
This indicates a danger that may result in minor or
moderate injury or only a physical damage if not
avoided.
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1. INTRODUCTION
Foreword
Thank you for purchasing VMS4SE Vibration Monitor. This manual describes the
basic functions and operation methods of VMS4SE. Please read through this user‟s
manual carefully before using the product.
This is a 32 bit controller based instrument designed for universal input type. This
instrument is operated by eight user-friendly keys. These keys are used for
operation and programming. The manual covers all aspects of operation of the
instrument. Please read instructions carefully before altering any programming or
configuration information.
The VMS4SE module operates independently and can also be connected to a data
Highway for remote systems communication functions through a personal computer
or a distributed control system (DCS) using RS 485 or Ethernet communication.
Notice
The contents of this manual are subject to change without notice as a result of
continual improvements to the instrument‟s performance and functions.
Every effort has been made to ensure accuracy in the preparation of this manual.
Should any errors or omissions come to your attention, however, please inform
Masibus Sales office or sales representative. Under no circumstances may the
contents of this manual, in part or in whole, be transcribed or copied without our
permission.
Trademarks
Our product names or brand names mentioned in this manual are the trademarks
or registered trademarks of Masibus Automation and instrumentation Pvt. Ltd.
Adobe, Acrobat, and Postscript are either registered trademarks or trademarks of
Adobe Systems Incorporated. All other product names mentioned in this user's
manual are trademarks or registered trademarks of their respective companies.
Version Number : 1.07, August 2015.
Checking the Contents of the Package
Unpack the box and check the contents before using the product. If the product is
different from which you have ordered, if any parts or accessories are missing, or if
the product appears to be damaged, contact your sales representative.
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1.1 Product Ordering Code
The VMS4SE Vibration Monitor unit has a nameplate affixed to the one side of the enclosure. Check
the model and suffix codes inscribed on the nameplate to confirm that the product received is that
which was ordered.
Table 1 Product Ordering code
Table 2 Product Ordering Code description
VMS4SE
Code
Description
Power Supply
U1
85-265 VAC
U2
18-36 VDC
Communication
1X
1-RS485 Serial Port
2X
2-RS485 Serial Port
1E
1-RS485 Serial Port and 1-Ethernet RJ45
2E
2-RS485 Serial Port and 1-Ethernet RJ45
Auxiliary Output
RL
8 Relay Output
OC
24 Open collector output
Table 3 Cable Ordering Code and description
Ordering Code for Cable
Connecting Cable Type
Cable length
XXX
X
AIC
Analog Input cable
1
1 meter
RLC
Relay Cable
2
2 meters
OCC
Open Collector Cable
3
3 meters
VIC
Vibration Input Cable
Note:1
For 8 Analog Input 1 Input cable required
For 16 Analog Input 2 Input cable required
For 24 Analog Input 3 Input cable required
2
For 4 Analog Input 1 Input cable required in
Vibration Input
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2. INSTALLATION
2.1 Safety Precautions in Installation
1. Before any other connection is made, the protective earth terminal shall be connected to a
protective conductor. The mains (supply voltage) wiring must be terminated within the
connector in such a way that, should it slip in the cable clamp, the Earth wire would be the
last wire to become disconnected.
The protective conductor terminal is marked with a label on the product bearing the following
Symbol:
To connect the protective conductor terminal to earth, complete these steps:
1) Use a spade lug to make contact with the metal surface of the VMS4SE.
2) Use a green and yellow wire to reliably earth the protective conductor terminal. Wire gauge
must be no thinner than the current-carrying wire in the product‟s mains supply.
3) Resistance between the protective conductor terminal and earth must be no greater than
0.1 ohms. Use thicker gauge wire if the resistance is too high.
2. Do not use this instrument in areas under hazardous conditions such as excessive shock,
vibration, dirt, moisture, corrosive gases or oil. The ambient temperature of the areas should
not exceed the maximum rating specified.
3. To minimize the possibility of fire or shock hazards, do not expose this instrument to rain or
excessive moisture.
Be sure all personnel involved in installation, servicing, and programming are qualified and familiar
with electrical equipment and their ratings.
Do not install, store, or use it in the place with a lot of dust, corrosive and flammable gases, vibrations
and shocks exceeding the allowed values, place low or high temperature outside of the installation
condition, direct sunlight and near equipment generating strong radio waves or magnetic fields, It may
cause accidents.
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2.2 Mounting of VMS4SE
Mounting Method : Panel Mounting
External Dimensions and Panel Cut Out Dimensions :
Unit: mm
Figure 1 Panel Cutout Dimensions
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Side View and Top View
Figure 2 Side View and TOP view
Note : - 1) AOC (Analog Output Cable) can be used in place of OCC(Open Collector Cable)
2) VIC (Vibration Input Cable) can be used in place of AIC (Analog Input Cable)
2.3 Maintenance and Inspection
This Section describes maintenance and inspection such as daily inspection, periodical inspection,
and cleaning.
Check the front panel 7-Segment Display:
Channel (Green): ON when unit is powered up. It displays number from 1 to 24.
Data (Red): ON when unit is powered up. It displays number from -1999 to 9999.
Parameter (Orange): ON when unit is powered up. It displays Engineering Units.
RUN (green): ON during normal operation.
Fault (red): OFF when CPU is normal.
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Check the front panel LEDs:
Check the Control LED display Digital Output – Open collector (DO-OC). The corresponding
LED illuminates when the external input signal (Analog Input) is above Control Set point.
Check if the Open collector voltage and current is within the specified value.
Check for looseness of the input prefab cable connector.
Check if the unit is installed correctly.
Check the Alarm LED display Digital Output – Relay (DO-RL). The corresponding LED
illuminates when input signal (Analog Input) is above or below Alarm Set point.
Check if the relay voltage and current is within the specified value.
Check for looseness of the input prefab cable connector.
Check if the unit is installed correctly.
Power supply related:
AC Power voltage (measure at the power terminal block of the unit) 85-265VAC-50/60Hz
(1)
DC Power voltage (measure at the power terminal block of the unit) 18-36VDC
Check for looseness of the power terminal screw- No looseness.
Check for damage of the wiring cable-No damage.
(1)
Unit can also work on 110-370VDC Power Supply range however for this DC range it is not passed
through compliance tests.
Installation state:
Check for looseness of the cable connector and damage of the cable-No looseness or damage.
Ambient environment:
Check if the temperature and humidity are within the specified values.
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3. HARDWARE SPECIFICATION
3.1 Vibration Input Specification
NO. OF CHANNEL
4,8 & 12
ACCELEROMETER INPUT
Remote ICP piezoelectric Accelerometer
Sensitivity: 100 mV/g ±10%
Dynamic range: 80 g pk
INPUT TYPE
As specified in Table 4
SENSOR EXCITATION
CURRENT
4mA, Voltage: 21VDC
CUT-OFF FREQUENCY
2.5Hz, 5 Hz or 10Hz (Internal Switch selectable) to
1 KHz, 2.5 KHz or 10 KHz (Internal Switch selectable)
Vibration
Input Type
Range
Accuracy
Resolution
Acceleration
RMS
0 – 50.0 g
+ 2% of instrument range + 1 digit
0.1mm
Acceleration
PK
Acceleration
PK-PK
Velocity RMS
0 – 99.9 mm/s
Velocity PK
Velocity PK-PK
Displacement
PK-PK
0 – 2000 um
1um
3.1.1 Input Specification(Optional)*
NO. OF CHANNEL
8
APPLICABLE STANDARDS
DIN (ITS-90) for Thermocouple and RTD
INPUT TYPE
As specified in Table 4.
SAMPLING PERIOD PER
INPUT
50 ms for TC and Linear Input and 100 ms for RTD
RESOLUTION
17 bit
BURNOUT CURRENT
0.4 µA
MEASUREMENT CURRENT
250 µA
INPUT IMPEDANCE
>1 Mohm for RTD/Voltage inputs, 250ohms for current Input
NOISE REJECTION RATIO
NMRR Normal mode rejection ratio) > 40 dB (50/60 Hz) or
more
CMRR (Common mode rejection ratio) >120 dB (50/60 Hz) or
more
ALLOWABLE WIRING
RESISTANCE FOR RTD
Maximum 15 ohms/wire (Conductor resistance between three wires
should be equal).
Input Range for RTD (PT-100, CU53 and NI120), TC and Linear input:
Table 4 Input types, their ranges, accuracy and resolution
Analog Input
Type
Range
Accuracy
Resolution
E
-200 to 1000C
+ 0.1% of instrument range + 1 digit
0.1C
J
-200 to 1200C
K
-200 to 1370C
T
-200 to 400C
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B
450 to 1800C
+ 0.1% of instrument range + 1 digit
1C
R
0 to 1750C
S
0 to 1750C
N
-200 to 1300°C
RTD(PT100)
-199.9 to 850.0C
+ 0.1% of instrument range + 1 digit
0.1C
CU53
-210.0 to 210.0°C
NI120
-70.0 to 210.0°C
-10 to 20 mV
-1999 to 9999
counts
+ 0.1% of instrument range + 1 digit
1 Count
0 to 100 mV
4-20mA
0 to 20 mA
0 – 5 V
1 – 5 V
0 – 10V
3.2 Output Specification
3.2.1 Digital Output- Relay
NUMBER OF OUTPUTS
8
PURPOSE
Alarm or trip or control or watchdog output
OUTPUT SIGNAL
Three terminals C , NO and NC
RELAY CONTACT RATING
250 VAC / 30 VDC @ 2A
NO. OF RELAY OPERATION
1 X 10^5 @ rated current
3.2.2 Digital Output- Open Collector(Optional)
NUMBER OF OUTPUTS
24
PURPOSE
Alarm or trip or control or watchdog output
OUTPUT TYPE
transistor open collector output selection)
CONTACT RATING
30 V DC,100 mA
3.2.3 Analog Output- Retransmission Output(Optional) *
NUMBER OF OUTPUTS
8
OUTPUT SIGNAL
0-20 mA, 4-20 mA or 0-5 V, 1-5 V, 0-10 V DC(Voltage or
current outputs are factory settable)
LOAD RESISTANCE
For current output, 550 ohms Max. For Voltage output, Min.
3000 ohms.
OUTPUT ACCURACY
±0.25% of span
Note : * - With Analog Output, CE marking is not applicable/valid.
3.2.4 Buffer Output for Vibration Input
NUMBER OF OUTPUTS
4
OUTPUT IMPEDANCE
< 100 ohms
FREQUENCY RANGE
0.5 Hz to 10KHz
OUTPUT ACCURACY
±0.25% of Full Range
3.3 Programming and Setting
KEYPAD
8-keys (Menu, Escape, Up, Down, A/M, ACK, SET/OP and SET/AL)
tactile membrane keypad provided for modification of all control and
functional parameters.
CONFIGURATION
All Configurable parameters can be set through PC Based software
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SOFTWARE
MEMORY
Non volatile, restored after power loss
3.4 Communication Specification
NO. OF COMMUNICATION
PORT
2-RS485(COM-1 and COM-2) . COM2 is Optional
COMMUNICATION TYPE
Half duplex/Asynchronous
COMMUNICATION
PROTOCOL
MODBUS RTU (Baud rate and Parity bit are selectable). All
parameters are Configurable through MODBUS Protocol.
MAXIMUM NO. OF UNITS
32
COMMUNICATION ERROR
DETECTION
CRC Check
3.5 PROFIBUS Communication (Optional) *
MODE
Profibus DP Slave
BAUD RATE
9600, 19.2K, 44.45K, 93.75K, 187.5K, 500K, 1.5M, 12M bps(Auto Detected)
ADDRESS
Configurable through Configuration Software (0 to 125 Only)
NETWORK
CAPACITY
Multi-drop up to 31 modules, Plus a host, without a repeater
Up to 125 modules plus a host if four repeaters are used (i.e. one for every
31 nodes)
COMMUICATION
DISTANCE
Up to 1200 meters without a repeater using Type A wire (<30pF/m).
1200m @ 115Kbps or less
1000m @ 187.5Kbps
400m @ 500Kbps
200m @ 1.5Mbps
100m @ 12Mbps
Note : * - With Profibus communication , CE marking is not applicable/valid.
3.6 HMI Interface (Optional)
NO. OF COMMUNICATION PORT
1-RS-232 (HMI)
COMMUNICATION TYPE
Half duplex/Asynchronous
COMMUNICATION PROTOCOL
MODBUS RTU (19.2kpbs, 8-data bits, 2-stop bits)
CONNECTABLE NO. OF UNITS
1
COMMUNICATION ERROR DETECTION
CRC Check
3.7 Network Connectivity (Optional)
NO. OF COMMUNICATION PORT
1(RJ-45)
TRANSMISSION SPEED
10 Mbps
NETWORK PROTOCOL
TCP/IP
APPLICATION PROTOCOL
MODNET
3.8 Data logging (Optional)
Data logging Memory Type
Flash Nonvolatile Memory (32 MB)
Data logging type
Periodic and Event(Alarm)
Periodic Memory Size
25 MB
Event Memory Size
7 MB
RTC Time format
DD/MM/YY – HH:MM:SS
Periodic Logging sampling time
1 Second minimum
Event polling time
1 second
USB Port *
1(USB mass storage device , USB 2.0)
USB Function
For retrieving logged data only
Max. USB Mass storage device size
Upto 4 GB
USB Mass storage device format
FAT16 (Recommended)
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FAT32
USB fetched data file format
.xls (only)
USB data retrieving option
Full Data Fetch (For Periodic and Event Records)
Fetch data by time(approximately) (For Periodic Records
only)
Note : * - With USB port, CE marking is not applicable/valid.
3.9 Display Specification
CHANNEL NO. DISPLAY
2-digits, 7-segment, Green , 0.56” character height
DATA DISPLAY
4-digits, 7-segment, Red, 0.56‟‟ character height
PARAMETER DISPLAY
6-digits, 16-segment Alphanumeric, Orange LEDs, 0.3” character height
STATUS LEDs
24-Red LEDs for Alarm status, 24-Orange LEDs for Control Output, 8Green LEDs for Relay status, 1-Red LED for Manual mode, 1- Green
LED for Run mode,1-Red LED for Fault, 2-Green(Rx) & 2-Red(Tx) for
Communication
3.10 Power Supply Specification
RATED VOLTAGE
85-265VAC-50/60Hz
(1)
/ 100-300VDC or 18-36VDC (Optional)
POWER CONSUMPTION
Max. 16 VA (85-265 VAC) and Max. 8 VA (18-36 VDC)
(1)
Unit can also work on 100-300VDC Power Supply range however for this DC range it is not passed
through compliance tests.
3.11 Signal Isolations And Insulation Specification
ISOLATION RATING
Withstanding Voltage:
1) Between primary terminals
(1)
and secondary terminals
(2)
:
1500VAC for 1 minute
2) Between secondary terminals: 500V AC for 1 minute
SIGNAL ISOLATION
As specified in Table 5
INSULATION RESISTANCE
> 20 Mohms at 500V DC
(1)
Primary terminals indicate power terminals and relay output terminals
(2)
Secondary terminals indicate analog input signals, Digital Contact output terminals, communication
terminals and Ethernet N/W terminal
Signal Isolation Specifications:
Table 5 Signal Isolation Specification
Sr
No
Signals
Signal Isolation
1
Power Input
Isolated from other input/output terminals and internal
circuit
2
Analog Inputs
Not isolated from other analog input terminals and
from the internal circuit. But isolated from other
input/output terminals.
3
RS-485 Communication
Isolated from other input/output terminals and internal
circuit
4
Ethernet Communication
Isolated from other input/output terminals and internal
circuit
5
Relay contacts
Isolated between contact output terminals and
from other Input/output terminals and internal circuit
6
Digital Output
Isolated from other input/output terminals and internal
circuit
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3.12 Construction, Installation, and Wiring Specification
MATERIAL
Aluminium extrusion
CONSTRUCTION
Panel Mount Top and Bottom mounting clamps (1 each)
CASE COLOR
Clear Anodized
WEIGHT
1.25 KG
ENCLOSURE DIMENSION
72mm (W) X 144mm (H) X 165mm (D)
PANEL CUTOUT
68.5mm (W) x 137mm (H)
3.13 Environmental Specification
AMBIENT TEMPERATURE
-10 to 55°C
HUMIDITY
30% to 95% RH (Non-Condensing)
TEMPERATURE COEFFICIENT
For All Analog input circuits < 100ppm
WEIGHT
1.25 KG
INSTRUMENT WARM-UP TIME
<15 minutes after power on
DEGREE OF PROTECTION
IP54 (From Front)
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4. FRONT AND REAR PANEL DIAGRAM
4.1 Front Panel Diagram
Figure 3 Front Panel Diagram
Name of Part
Indication on Front Panel
Channel Display
Channel
Data Display
Data
Parameter Display
Parameter
COM-1 RS485 slave indicator LED
T1 and R1
COM-2 RS485 master indicator LED
T2 and R2
Run indicator LED
Run
Auto/Manual Mode LED
MAN
Relay indicator LED
Relay
Control / Alarm-2 indicator LED
CSP/ASP2
Alarm-1+Alarm-2 indicator LED
ASP1+ASP2
4.2 Key Function Description
Keys
Operation
MENU/ENTER KEY
It allows Mode Selection when pressed during Run mode, while it
allows saving value of a parameter inside a mode. When inside
any mode, it allows to enter in sub-mode.
ESCAPE KEY
It is used to come out from mode/Sub-mode. It is also used to
escape from edit mode without saving the respective parameter.
INCREMENT KEY
It is used in increment of value in run mode and other modes
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DECREMENT KEY
It is used in decrementing value when run mode and other
modes. It is also used for shifting a digit while editing of numeric
value.(When user wants to edit numeric value, Decrement key
will work as shift key)
AUTO/MANUAL KEY
It allows user to toggle between Auto Channel Display mode –
Manual Channel Display Mode.
ACKNOWLEDGEMENT
KEY
Acknowledge the Alarm During RUN Mode.
ALARM SETPOINT
KEY
Enter into Set Alarm1 and Alarm2 mode during RUN Mode
CONTROL OUTPUT
SETPOINT KEY
When pressed in run mode it will allow the user to enter into
Control Set point Mode
4.3 Rear Panel Diagram
Figure 4 Rear Panel Diagram Figure 5 Rear Panel Diagram
for AC Supply for DC Supply
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Rear Panel Diagram for Profibus Connectivity (Optional):
Figure 6 Rear Panel Diagram with AC Supply Figure 7 Rear Panel Diagram with DC Supply
For Profibus Connectivity for Profibus Connectivity
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5. CONNECTION DIAGRAM
5.1 Connection Terminal Details
DO – RL Relay Terminals: 16
Pre-Feb. Cable
Power Supply: Live (L/+), Neutral(N/-) and Earth ( )
Pre-Feb. Cable
AI-1,2 and 3 Analog Input: 72 or AI-1 Vibration Input: 4 and AI-2 Analog Input: 8
Pre-Feb. Cable
DO – OC Digital Contact Output: 25 or AO – Analog Contact Output: 16(Optional)
Pre-Feb. Cable
RS-485 Communication: 4
Wire Size: 26- 16AWG
Screw Size: M2.0 Steel Ni Plated
Ethernet Communication: 1
RJ-45 Connector
Figure 8 Connection Terminals
1 Do not touch the terminals of unit when power is ON. It may cause an
electric shock.
2 Wire the power input terminal correctly, and avoid applying any voltage
exceeding the specified voltage range. It may cause failure or damage.
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Ground the device. Otherwise, it may cause an electric shock or fire.
Connect the protective conductor terminal to earth, Use
a spade lug to make contact with the metal surface of the VMS4SE.
1 All wiring must confirm to appropriate standards of good practice and local codes and
regulations. Wiring must be suitable for Voltage, Current and temperature rating of the system.
2 Provide power from a single-phase instrument power supply. If there is a lot of noise in the
power line, insert an insulating transformer into the primary side of the line and use a line filter
on the secondary side. Do not place the primary and secondary power cables close to each
other.
3 High voltage transients may occur when switching inductive loads such as some contactors.
Through the internal contacts, these transients may introduce disturbances which could affect
the performance of the instrument.
4 For this type of load it is highly recommended that a “snubber” is connected across the normally
open contact of the relay switching through load. The recommended snubber consists of a
series connected resistor/capacitor (typically 15nF/100Ohms). In addition a snubber will prolong
the life of the relay contacts. A snubber should also be connected across a trick output to
prevent false triggering under line transient conditions.
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5.2 Cable Details
1) Digital Output – Relay Cable Details:
Figure 9 Relay Cable Connection (Three Output Terminals)
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Table 6 Pin Details of Relay Cable (Three Output Terminals)
DIGITAL OUTPUT - RELAY ( DO - RL ) (Three Output Terminals)
Sr. No.
Connector Pin No.
Pin Detail
Ferrule No.
1
1
NOT CONNECTED
1
2 2 COMMON 1
2 3 3
NO -1
3
4 4 NC -1
4
5 5 COMMON 2
5
6 6 NO -2
6 7 7
NC -2
7 8 8
COMMON 3
8 9 9
NO -3
9
10
10
NC -3
10
11
11
COMMON 4
11
12
12
NO -4
12
13
13
NC -4
13
14
14
COMMON 5
14
15
15
NO -5
15
16
16
NC -5
16
17
17
COMMON 6
17
18
18
NO -6
18
19
19
NC -6
19
20
20
COMMON 7
20
21
21
NO -7
21
22
22
NC -7
22
23
23
COMMON 8
23
24
24
NO -8
24
25
25
NC -8
25
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2) Digital Output – Open Collector Cable Details:
Figure 10 Open Collector Cable Connection
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Table 7 Pin Details of Open Collector Cable
DIGITAL OUTPUT - OPEN COLLECTOR ( DO - OC )
Sr. No.
Connector Pin
No.
Pin Detail
Ferrule No.
1
1
GROUND
1 2 13
DO1
13 3 25
DO2
25 4 12
DO3
12 5 24
DO4
24 6 11
DO5
11 7 23
DO6
23 8 10
DO7
10 9 22
DO8
22
10
9
DO9
9
11
21
DO10
21
12
8
DO11
8
13
20
DO12
20
14
7
DO13
7
15
19
DO14
19
16
6
DO15
6
17
18
DO16
18
18
5
DO17
5
19
17
DO18
17
20
4
DO19
4
21
16
DO20
16
22
3
DO21
3
23
15
DO22
15
24
2
DO23
2
25
14
DO24
14
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3) Analog Input Cable Details:
Figure 11 Analog Input Cable Connection
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Table 8 Pin Details of Analog Input Cable
ANALOG INPUT ( AI-1 , AI-2 , AI-3 )
Sr. No.
Connector Pin
No.
Pin Detail
Ferrule No.
1
12
1A
12
2
24
1a/+
24 3 11
1B/-
11
4
23
2A
23
5
10
2a/+
10 6 22
2B/-
22
7
9
3A
9
8
21
3a/+
21 9 8
3B/-
8
10
20
4A
20
11
7
4a/+
7
12
19
4B/-
19
13
6
5A
6
14
18
5a/+
18
15
5
5B/-
5
16
17
6A
17
17
4
6a/+
4
18
16
6B/-
16
19
3
7A
3
20
15
7a/+
15
21
2
7B/-
2
22
14
8A
14
23
1
8a/+
1
24
13
8B/-
13
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4) Analog Output Cable Details:
Figure 12 Analog Output Cable Connection
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Table 9 Pin Details of Analog Output Cable
ANALOG OUTPUT ( AO )
Sr. No.
Connector Pin No.
Pin Detail
Ferrule No.
1
12
AO 1 +
12 2 11
AO 1 -
11 3 9
AO 2 +
9 4 8
AO 2 -
8
5 6 AO 3 +
6 6 5
AO 3 -
5
7 3 AO 4 +
3 8 2
AO 4 -
2 9 25
AO 5 +
25
10
24
AO 5 -
24
11
22
AO 6 +
22
12
21
AO 6 -
21
13
19
AO 7 +
19
14
18
AO 7 -
18
15
16
AO 8 +
16
16
15
AO 8 -
15
17 - 25
1,14,4,17,7,20,10,23,13
NOT CONNECTED
1,14,4,17,7,20,10,23,13
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5) Vibration Input Cable Details:
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Table 10 Pin Details of Vibration Input Cable
VIBRATION INPUT CABLE ( AO )
Sr.
No.
Connector Pin No.
Pin Detail
Ferrule No.
1 1 Channel 1 +
1
2 2 Channel 1 -
2
3
3
Channel 1 Buffer
Output
3
4 4 Channel 2 +
4
5 5 Channel 2 -
5
6
6
Channel 2 Buffer
Output
6
7 7 Channel 3 +
7
8 8 Channel 3 -
8
9
9
Channel 3 Buffer
Output
9
10
10
Channel 4 +
10
11
11
Channel 4 -
11
12
12
Channel 4 Buffer
Output
12
13-24
13,14,15,16,17,18,19,20,21,22,23,24
NOT
CONNECTED
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6) Communication Cable Details:
Figure 13 Communication Cable Connection
RS485 Cabling Methodology should be Shielded single twisted pair cable. RS485 is designed to be
used with a single twisted pair cable. It would reduce noise induced through ground potential
differences. This is the preferred option in areas where there is a potential for high electrical noise or if
cabling lacks the cleanliness of conduit or wire trays.
Good installation practice for RS485 systems:
Use RS485 shielded twisted cable to prevent electrical noise pickup.
Use a screened cable to prevent electrical noise pickup. This screen must be earthed at one
end only, UNIT-1.
Do not carry RS485 and power supply in same cables.
Do proper termination and/or shielding to provide isolation from high frequency interference,
RFI, and transients.
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7) PROFIBUS Connection Detail (DB 9 FEMALE at Instrument Side)
Table 11 Pin Details for Profibus Communication (DB 9 Female at Instrument Side)
Pin No.
Signals
Description
DATA AND POWER SIGNALS
3
RxD/TxD-P
Receive/Transmit data; line B
4
CNTR-P
Control of repeater direction
5
DGND
Data ground (reference voltage to VP)
6
VP
Power supply +5v (e.g. for bus termination)
8
RxD/TxD-N
Receive/Transmit data; line A
CONFIGURATION SIGNALS
1
RxD – CFG
Receive Data – Configuration
2
GND – CFG
Ground – Configuration
7
RTS – CFG
Request to Send - Configuration
9
TxD – CFG
Transmit Data – Configuration
Note : Make Profibus Configuration Cable as shown in below figure.
Figure 14 Profibus Configuration Cable
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6. BRIEF OPERATING PROCEDURE
Figure 15 Functional Block Diagram of VMS4SE
Brief Operating Procedure :
1) Connect Digital Output- Relay cable and Open Collector / Analog Output cable , Analog Input
cable and Communication cable to VMS4SE as shown in Error! Reference source not found.,
Figure 9, Figure 10 / Figure 11, Figure 13 respectively.
2) Connect Power supply (Either 85-265 VAC or 18-36 VDC , as per the ordering code) to VMS4SE.
The power on message on display will be “disp Init..”.
3) According to the input type configuration and input sensor feed from field, the Vibration /
temperature / mV / V / mA will be displayed on DATA window and on PARAMETER window user
can choose favorite display parameters like input type of particular channel or log memory
percentage(optional) or engineering unit of particular channel or ambient temperature or serial
number of VMS4SE . On LED status, user can set Alarm 1 Status – Alarm 2 Status or Alarm
Status – Control Output Status or Alarm Status – Open Collector Status.
4) For in depth parameter details, see following chapters.
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7. MENU LAYOUT
7.1 Parameter Flow Diagram
Figure 16 Program Mode Flow diagram
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Figure 17 Configuration Mode Flow diagram
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Figure 18 Configuration Mode Flow diagram
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Figure 19 Calibration Mode and Security Mode Flow diagram
7.2 Menu Parameters- In Detail
Run Mode :
Following parameters can view or change during run time.
Immediately after powering, unit will run in Auto Mode. In auto mode channel will scan
automatically according to scan time selection (1-250 second).
By pressing Auto / Manual Key in run mode, Channel number scanning on display is
stopped. By pressing increment key/decrement key , we can change channel number
manually.
By pressing Confirm Alarm Key in any mode, relay acknowledgement can be done.
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By pressing Auto / Manual Key after going into the Manual Mode unit comes back to run
mode.
By pressing Enter Alarm Key in run mode, the menu goes into the settings of alarm set point
value.
By pressing Enter Setpoint Key in run mode, the menu goes into the settings of control set
point value(whenever Control Alarm is required). If Control alarm is not required then –n.A.(not applicable) message will be displayed.
Other Modes :
For entering in Menu press Menu/Enter key in RUN mode. There are total Four modes in Menu. By
pressing increment or decrement key mode can be changed. To enter into any mode press
Menu/enter key again.
1. Program mode
2. Configuration mode
3. Calibration mode
4. Security Mode
The tables below show the description and menu detail of the all the modes. In general to enter into
any menu Or to edit sub menu, press Menu/Enter key, to change the submenu parameter press
increment or decrement key. To come out from any menu press Esc key.
1) Program Mode :
Pressing MENU key DATA window shows Prog (Prog) message and Parameter window shows
MODE (Mode) message. Press MENU key again PARAMETER window shows pWd (PWD)
message (if and only if password is set then only. Otherwise it will enter into sub menu), press
MENU Key to enter into edit mode of password and then press INCREMENT key or
DECREMENT key to modify the password and then press MENU Key to enter into Program
Mode. DATA window shows ASP.1 (ASP.1) message and PARAMETER window shows prog
(PROG) message. By pressing MENU Key, DATA window shows Set Point-1 Value. Then use
MENU Key to enter into editing mode and use INCREMENT and DECREMENT key to modify
value. OR press INCREMENT key again to change Set-point 1 for Channel 2. After pressing INC
key many times, the message on Channel Window shows al,(AL) which means user can modify
parameters for all channels at once(AL = ALL). ESCAPE KEY is used to come out ASP.1
Table 12 Program Mode Parameters
Program Mode
Data
Window
Parameter
Window
Name
Setting name and description
Default value
Shows
only if
Symbol
Symbol
0
pwd
Program
Mode
Password
0 to 9999
0
Password
is other
than zero
0
(PWD)
ASp.1
Prog
Alarm Set
point-1
SetPoint-1 for All Channel
0090 (for all
channels)
-
(ASP.1)
(PROG)
aSP.2
Prog
Alarm Set
point-2
SetPoint-2 for All Channel
0110 (for all
channels)
-
(ASP.2)
(PROG)
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a.s.Hy
Prog
Alarm Set
point
Hysteresis
Alarm Set Point Hysteresis for all
Channels
0001(for all
channels)
-
(A.S.Hy)
(PROG)
CSP
Prog
Control Set
Point
Control Set Point for All Channel
0100(for all
channels)
Control
Output is
required
(CSP)
(PROG)
C.S.Hy
Prog
Hystresis
Control Set point Hysteresis for all
Channels
0001(for all
channels)
Control
Output is
required
(C.S.Hy)
(PROG)
2) Configuration Mode :
Pressing MENU key DATA window shows Conf (Conf) message and Parameter window shows
MODE(Mode) message. Press MENU key again PARAMETER window shows pWd (PWD)
message(if and only if password is set other than zero. Otherwise it will enter into sub menu),
press MENU Key to enter into edit mode of password and then press INCREMENT key or
DECREMENT key to modify the password and then press MENU Key to enter into Configuration
Mode. DATA window shows Inpt (Inpt) message and PARAMETER window shows conf
(CONF) .Press MENU Key to enter into sub menu of Input configuration. DATA window shows
Inp.t (Inp.t) and PARAMETER window shows in.conf (IN.CONF). Press MENU Key to enter
into sub menu of parameter. DATA window shows ACC (Acceleration) and PARAMETER window
shows inp.t (INP.T) along with channel number then use MENU Key to enter into editing
mode and use INCREMENT and DECREMENT key to modify value. OR press INCREMENT key
again to change Input type for Channel 2. After pressing INC key many times, the message on
Channel Window shows al,(AL) which means user can modify parameters for all channels at
once(AL = ALL). ESCAPE KEY is used to come out INP.T.
Table 13 Configuration Mode Parameters
Configuration Mode
Data
Window
Parameter
Window
Name
Setting name and description
Default value
Shows
only if
Symbol
Symbol
0
pwd
Program Mode
Password
0 to 9999
0
Password
is other
than zero
0
(PWD)
Inpt
conf
Input
Configuration
Different parameters for Input
Configuration
-
-
(Inpt)
(CONF)
Do
conf
DO(Digital
Output)
Configuration
Different parameters for DO (Digital
Output) Configuration
-
Any of
Digital
Output is
required
(do)
(CONF)
Ao
conf
AO(Analog
Output)
Configuration
Different parameters for AO (Analog
Output) Configuration
-
Analog
Output is
required
(Ao)
(CONF)
Comm
conf
Communication
Configuration
Different parameters for
Communication Configuration
-
-
(Comm)
(CONF)
Disp
conf
Display
Configuration
Different parameters for Display
Configuration
-
-
(diSP)
(CONF)
Log
conf
Logging
Configuration
Different parameters for Logging
Configuration
-
Logging is
required
(LoG)
(CONF)
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Table 14 Sub Parameters of Input Configuration Mode
Sub parameters of Input Configuration Mode
Data
Window
Parameter
Window
Name
Setting name and description
Default value
Shows
only if
Symbol
Symbol
Inp.t
in.conf
PV Input Type
(Acceleration,
Velocity,
Displacement,
E, J, K, T Etc.)
Follow Table 15 (Input type for All
Channel)
Acceleration
(for all
channel)
-
(Inp.t)
(IN.CONF)
pv.Hi
in.conf
Process value
range high setting
(PV.Hi > PV. Lo)
Range of the sensor /-1999 to 9999
(for linear input types)(All Channel)
1370(for all
channel)
-
(Pv.Hi)
(IN.CONF)
pv.Lo
in.conf
Process value
range lower setting
Range of the sensor /-1999 to 9999
(for linear input types)(All Channel)
-200(for all
channel)
-
(Pv.Lo)
(IN.CONF)
Dp
in.conf
Decimal Point
Setting Only
applicable for
Linear input type
0 to 3(All Channel)
0(for all
channel)
-
(dP)
(IN.CONF)
sCan
in.conf
Scan Time
1 to 250 seconds
-
-
(SCAn)
(IN.CONF)
Sqrt
in.conf
Square root (Only
applicable for
Linear input types)
yes / no
(YES/NO)
0 : NO
1: YES
0(for all
channel)
-
(Sqrt)
(IN.CONF)
CJC
in.conf
Cold Junction
Compensation
ACJC/FCjC/CCJC
(ACJC/FCJC/CCJC)
0 : ACJC(Auto Cold Junction
Compensation)
1 : FCJC (Fixed Cold Junction
Compensation from -10.0 to 65.0 ˚C)
2 : CCJC(Channel Cold Junction
Compensation from Channel number
1 - 24)
(CJC is applicable to only TC type
inputs)
(Only RTD type input channel can be
set as Channel CJC)
1 (FCJC =
000.0)
-
(CJC)
(IN.CONF)
op.se
in.conf
Open Sensor
UP/Down
(UP/Down)
0: Down
1: UP
0 (for all
channel)
-
(oP.SE)
(IN.CONF)
no.CH
in.conf
Number of
Channels
Total Number of Channels (from
number 1 to 24)
4
-
(no.CH)
(IN.CONF)
Slot
(slot)
(())
In.conf
(IN.CONF)
Input slots
Yes/ no
(YES/NO)
0 : NO
1: YES
1
-
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Table 15 Input Type Selection
Type
I/PNO
Type Display
Range
Resolution
NONE
0
none
-
-
E
1
E-Tc
-200 to 1000C
0.1°C
J
2
J-tc
-200 to 1200C
K
3
K-tc
-200 to 1370C
T
4
T-tc
-200 to 400C
B
5
B-tc
450 to 1800C
1 °C
R
6
R-tc
0 to 1750°C
S
7
S-tc
0 to 1750C
N
8
n-tc
-200 to 1300°C
RTD
9
RTD
-199.9 to 850.0C
0.1°C
CU53
10
cu53
-210.0 to 210.0°C
NI120
11
NI120
-70.0 to 210.0°C
-10 to 20mV
12
-10.20mv
-1999 to 9999 Counts
1 Count
0 to 100 mV
13
0-100mv
4 to 20mAmp
14
4-20ma
0 to 20mAmp
15
0-20ma
0 to 5V
16
0-5V
1 to 5V
17
1-5V
0 to 10V
18
0-10V
Acceleration RMS
19
Acc.rms
0 – 50.0 g
0.1
Acceleration PK
20
Acc.pk
Acceleration PK - PK
21
Acc.p2P
Velocity RMS
22
Vel.rms
0 – 99.9 mm/s
Velocity PK
23
Vel.pk
Velocity PK - PK
24
Vel.p2P
Displacement PK-PK
25
Dis.p2p
0 – 2000 um
1
Table 16 Sub Parameters of DO(Digital Output) Configuration Mode
Sub parameters of DO(Digital Output) Configuration Mode
Data
Window
Parameter
Window
Name
Setting name and
description
Default value
Shows only if
Symbol
Symbol
AL.LH
DO.CONF
Alarm Latch
on/Off
(ON/OFF)
0 : OFF
1: ON
0
-
(AL.LH)
(DO.CONF)
do.lg
DO.CONF
DO(Digital Output)
Logic Applicable for 8
Relays (Optional),
24 Open Collectors
(Optional)
nr / fs
(Normal / Fail Safe)
0: NORMAL
1: FAIL SAFE
(For all 32
DO(Digital Output))
0 (for all 32
DO(Digital
Output)) (Relay
1-8 and Open
Collector 1-24)
Any of Digital
Output(Either
Relay or Open
Collector) is
required
(do.LG)
(DO.CONF)
do.dl
DO.CONF
DO(Digital Output)Delay
0 to 99 seconds
1 (for all 32
Any of Digital
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(Pv.Lo)
(DO.CONF)
Applicable for 8 Relays
(Optional),24 Open
Collectors (Optional)
(For all 32
DO(Digital Output))
DO(Digital
Output)) (Relay
1-8 and Open
Collector 1-24)
Output(Either
Relay or Open
Collector) is
required
a1.fn
DO.CONF
Alarm 1 Function
ALrm / TRIP
(Alarm / Trip )
0: ALARM
1 : TRIP
0(for all
channel)
-
(A1.Fn)
(DO.CONF)
a1.mp
DO.CONF
Alarm 1 Mapping
See DO(Digital
Output)
Configuration
Refer
Table 17 and
note 2
Any of Digital
Output(Either
Relay or Open
Collector) is
required
(A1.mP)
(DO.CONF)
a1.tp
DO.CONF
Alarm 1 Type
lo/Hi
0 : LOW
1: HIGH
0 (for all
channel)
-
(A1.tP)
(DO.CONF)
a2.fn
DO.CONF
Alarm 2 Function
ALrm / TRIP
(Alarm / Trip )
0: ALARM
1 : TRIP
0(for all
channel)
-
(A2.Fn)
(DO.CONF)
a2.mp
DO.CONF
Alarm 2 Mapping
See DO(Digital
Output)
Configuration
Refer
Table 17 and
note 2
Any of Digital
Output(Either
Relay or Open
Collector) is
required
(A2.mP)
(DO.CONF)
a2.tp
DO.CONF
Alarm 2 Type
lo/Hi
0 : LOW
1: HIGH
0 (for all
channel)
(A2.tP)
(DO.CONF)
CS.mp
DO.CONF
Control Set point
mapping
See DO(Digital
Output)
Configuration
Refer
Table 17 and
note 2
Control Output is
required and Any
of Digital
Output(Either
Relay or Open
Collector) is
required
(CS.mP)
(DO.CONF)
CS.tp
DO.CONF
Control Set point type
lo/Hi
0 : LOW
1: HIGH
0 (for all
channel)
Control Output is
required
(CS.tP)
(DO.CONF)
W.D.op
DO.CONF
Watchdog Output
dsbl/enbl
0 : Disable
1: Enable
Refer
note 2
-
(W.d.oP)
(DO.CONF)
W.D.mp
DO.CONF
Watchdog Mapping
See DO(Digital
Output)
Configuration
Refer
note 2
Any of Digital
Output(Either
Relay or Open
Collector) is
required
(W.d.mP)
(DO.CONF)
DO(Digital Output) Configuration:
Total numbers of relays in VMS4SE are 8 and total number of Open collectors are
24(Optional) . For one channel maximum three numbers of DOs can be assigned. Among them one
DO can only be assigned for control operation and two remaining DOs can be assigned for Alarm/Trip
operation. Below example shows different configuration and different mapping of different DOs to 8
channels.
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REF NO: mVMA/om/101
Issue No: 01
Table 17 DO(Digital Output) Mapping Number and its description
Channel
Number
AS1 .
Mapping
DO
number
for ASP1
AS2 .
Mapping
DO
number
for ASP2
CSP.
Mapping
DO
number
for CSP
Watchdog
Mapping
DO
number for
W.D.MP
1
Relay 3
3
Relay 4
4
Relay 1
1
Open
Collector
10
18
2
None
0
Relay 4
4
None
0
3
Relay5
5
Relay6
6
None
0
4
Relay5
5
None
0
None
0
5
Open
Collector 3
11
Open
Collector 4
12
Open
Collector 1
9
6
None
0
None
0
None
0
7
Open
Collector 12
20
Open
Collector 8
16
Open
Collector 15
23
8
Open
Collector 20
28
Open
Collector 12
20
None
0
Note 2:
1) None means no DO(Digital Output) is assigned to particular channel.
2) DO number = 0 represents “None” . DO Number = 1 to 8 represents “Relay No. 1 to Relay
No. 8”. DO number = 9 to 32 represents “Open Collector No. 1 to Open Collector No.
24”.For more details refer Table 18.
3) If one particular DO is mapped to any channel in control set point mapping
(C.S.MP.)configuration, it cannot be mapped to any other channel in any type of mapping( In
above example, Relay-1is mapped to channel number 1in control set point mapping
configuration shown in Table 17. So it cannot be assigned to any other channel in Control set
point mapping (C.S.mp.) or Alarm Set point 1 mapping (A1.MP) or Alarm Set point 2
Mapping(A2.MP) as shown in Table 17.
4) Maximum one channel can be assigned to control set point mapping (C.S.MP) configuration.
In above example, Relay-1 cannot be assigned to any second channel.
5) Same number of DO (other than mapped to control set point mapping) can be mapped to
multiple number of Channels in Alarm set point 1 mapping (A1.MP) and Alarm set point 2
mapping (A2.MP). In above example, Relay 4 is assigned to channel 1 and channel 2 in AS2.
Mapping, Relay 5 is mapped to channel 3 and channel 4 in AS1. Mapping, Open collector
12 is mapped to channel 7 in AS1. Mapping and it is mapped to channel 8 in AS2. Mapping.
6) Based On Watchdog Output (Disable / Enable) selection , Error messages will be shown. i.e.
if Watchdog Output is “disabled” , then no error message will be shown and only Fault LED
will be ON and other operation goes smoothly. When Watchdog Output is “enabled”, then
based on faults, error messages will be displayed and Fault LED will be ON. For more detail
on watchdog operation and error messages, please refer topic 8.4 Watchdog Timer (WDT)
/ Watchdog Output Operation.
7) Any DO can be mapped to W.D.MP (Watchdog Mapping) . Means, that particular DO is used
as Watchdog Output. Note that, any DO which is assigned to A1.MP or A2.MP or C.S.MP
cannot be mapped to W.D.MP and vice versa.
Page 46
User Manual 46
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
Table 18 DO(Digital Output) description
DO number
(Decimal)
DO number
(Hex)
Setting Name
and Description
DO number
(Decimal)
DO number
(Hex)
Setting Name and
Description
0
0 x 00
none
(None)(Default)
1
0 x 01
Rl.01
(Relay-1)
9
0 x 09
oC.01
(Open Collector-1)
2
0 x 02
Rl.02
(Relay-2)
10
0 x 0A
oC.02
(Open Collector-2)
3
0 x 03
Rl.03
(Relay-3)
11
0 x 0B
oC.03
(Open Collector-3)
4
0 x 04
Rl.04
(Relay-4)
12
0 x 0C
oC.04
(Open Collector-4)
5
0 x 05
Rl.05
(Relay-5)
13
0 x 0D
oC.05
(Open Collector-5)
6
0 x 06
Rl.06
(Relay-6)
14
0 x 0E
oC.06
(Open Collector-6)
7
0 x 07
Rl.07
(Relay-7)
15
0 x 0F
oC.07
(Open Collector-7)
8
0 x 08
Rl.08
(Relay-8)
16
0 x 10
oC.08
(Open Collector-8)
DO number
(Decimal)
DO number
(Hex)
Setting Name and
Description
DO number
(Decimal)
DO number
(Hex)
Setting Name and
Description
17
0 x 11
oC.09
(Open Collector-9)
25
0 x 19
oC.17
(Open Collector-17)
18
0 x 12
oC.10
(Open Collector-10)
26
0 x 1A
oC.18
(Open Collector-18)
19
0 x 13
oC.11
(Open Collector-11)
27
0 x 1B
oC.19
(Open Collector-19)
20
0 x 14
oC.12
(Open Collector-12)
28
0 x 1C
oC.20
(Open Collector-20)
21
0 x 15
oC.13
(Open Collector-13)
29
0 x 1D
oC.21
(Open Collector-21)
22
0 x 16
oC.14
(Open Collector-14)
30
0 x 1E
oC.22
(Open Collector-22)
23
0 x 17
oC.15
(Open Collector-15)
31
0 x 1F
oC.23
(Open Collector-23)
24
0 x 18
oC.16
(Open Collector-16)
32
0 x 20
oC.24
(Open Collector-24)
For relay functionality Refer Relay outputs (Chapter - 8).
Table 19 Sub Parameters of AO(Analog Output) Configuration Mode (Optional)
Sub parameters of AO(Analog output) Configuration Mode (Optional)
Data
Window
Parameter
Window
Name
Setting name and
description
Default value
Shows
only if
Symbol
Symbol
rt.tp
ao.conf
Retransmission output
type
0-20/4-20/ 0-5v/15v/0-10v
0:(0-20) – 0-20mA
1 (For all eight
retransmission
outputs)
-
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REF NO: mVMA/om/101
Issue No: 01
(rt.tp)
(AO.CONF)
1:(4-20) – 4-20mA
2:(0 - 5) – 0 – 5volt
3:(1 - 5) – 1 – 5volt
4:(0 – 10) - 0 -10volt
rt.dr
ao.conf
Retransmission output
direction
Dir / rew
(Dir / rev)
0: REVERSE
1: DIRECT
0 (For all eight
retransmission
outputs)
-
(rt.dr)
(AO.CONF)
rt.mp
ao.conf
Retransmission
Mapping
For all channel
Refer Note 2 and Refer
Table 20
For all channel
Refer Note 2 and
Refer Table 20
-
(rt.mp)
(AO.CONF)
rt.rd
ao.conf
Retransmission output
reading
max/min
(MAX/MIN)
0: MINIMUM
1: MAXIMUM
1 (For all eight
retransmission
outputs)
-
(rt.rd)
(AO.CONF)
rt.o.s.
ao.conf
Retransmission Open
Sensor
UP/Down
(UP/Down)
0: Down
1: UP
0 (For all eight
retransmission
outputs)
-
(rt.o.S.)
(AO.CONF)
Note 3:
1) None means no AO(Analog Output)(Retransmission Output) is assigned to particular channel.
2) AO O/p number = 0 represents “None”. AO O/p Number = 1 to 8 represents
“Retransmission No. 1 to Retransmission No. 8”. For more details refer Table 20.
3) In “Retransmission mapping” parameter, maximum 2 numbers of Analog Outputs can be
assigned to each channel. i.e. each channel can have maximum two number of analog
outputs simultaneously. See the example below.
Example 1: If Retransmission mapping for channel 1 = 0102 H, it means Retransmission
output number 1 and output number 2 are assigned to channel 1. And output of channel 1 can
be taken on analog output (retransmission output) number 1 and number 2.
Example 2: If Retransmission mapping for channel 3 = 0001 H, it means Retransmission
output number 1 is assigned to channel 3. And output of channel 3 can be taken on analog
output (retransmission output) number 1.
Table 20 AO(Analog Output)(Retransmission Output) description
Retransmission Output
number (Decimal)
Retransmission Output
number (Hex)
Setting Name and
Description
0
0 x 00
none
(None)(Default)
1
0 x 01
Rt.01
(Retransmission Output-1)
2
0 x 02
Rt.02
(Retransmission Output-2)
3
0 x 03
Rt.03
(Retransmission Output-3)
4
0 x 04
Rt.04
(Retransmission Output-4)
5
0 x 05
Rt.05
(Retransmission Output-5)
6
0 x 06
Rt.06
(Retransmission Output-6)
7
0 x 07
Rt.07
(Retransmission Output-7)
8
0 x 08
Rt.08
(Retransmission Output-8)
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REF NO: mVMA/om/101
Issue No: 01
Table 21 Sub Parameters of Communication Configuration Mode
Sub parameters of Communication Configuration Mode
Data
Window
Parameter
Window
Name
Setting name and description
Default
value
Shows only if
Symbol
Symbol
sr.no
CM.conf
Unit ID
1 to 247
1
-
(Sr.no)
(CM.CONF)
C1.B.r.
CM.conf
Com Port 1
Baud rate
9600/19.2k// 57.6k
(9600/19.2k)
0: 9600
1: 19.2 K
2: 57.6 K
1
-
(C1.b.r.)
(CM.CONF)
C1.pr
CM.conf
Com Port 1
Parity bits
P.nS.2/P.o.s1/P.ES.1
(P.n.S.2/P.o.S.1/P.o.S.2)
0: PARITY NONE, STOP BIT 2
1:PARITY ODD, STOP BIT- 1
2:PARITY EVEN, STOP BIT- 1
1
-
(C1.Pr)
(CM.CONF)
C2.B.r.
CM.conf
Com Port 2
Baud rate
9600/19.2k// 57.6k
(9600/19.2k)
0: 9600
1: 19.2 K
2: 57.6 K
1
Com Port 2 is
required
(C2.b.r.)
(CM.CONF)
C2.pr
CM.conf
Com Port 2
Parity bits
P.nS.2/P.o.s1/P.ES.1
(P.n.S.2/P.o.S.1/P.o.S.2)
0: PARITY NONE, STOP BIT 2
1:PARITY ODD, STOP BIT- 1
2:PARITY EVEN, STOP BIT- 1
1
Com Port 2 is
required
(C2.Pr)
(CM.CONF)
E.iP.
CM.conf
Ethernet IP
Address
Refer Note 3:
Refer
Note 3:
Ethernet is
required
(E.iP.)
(CM.CONF)
e.msk
CM.conf
Ethenet
masking
Refer Note 3:
Refer
Note 3:
Ethernet is
required
(E.mSk)
(CM.CONF)
e.gty
CM.conf
Ethernet
Gateway
Refer Note 3:
Refer
Note 3:
Ethernet is
required
(E.Gty)
(CM.CONF)
Note 4:
1) PARAMETER Window shows sub parameter configuration name.
i.e. while setting Ethernet IP (E.Ip.), Ethernet IP 1(E.ip.1) will be shown on parameter
window. And so on. All sub parameters of Ethernet configuration will be shown as explained.
2) E.IP.1, E.IP.2, E.IP.3 and E.IP.4 is for setting Ethernet IP address. Value should be entered
sequentially. I.e. if Ethernet IP address of 192.168.100.190 needs to be configured, then set
value 192 to E.IP.1, set value 168 to E.IP.2, set value 100 to E.IP.3 and then set value 190 to
E.IP.4.
3) E.msk is for setting Ethernet mask address and E.Gty is for setting Ethernet Gateway
address. Both settings must be set as explained in above note.
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REF NO: mVMA/om/101
Issue No: 01
Table 22 Sub Parameters of Display Configuration Mode
Sub parameters of Display Configuration Mode
Data
Window
Parameter
Window
Name
Setting name and description
Default
value
Shows
only if
Symbol
Symbol
fw.dp.
dp.conf
Favorit
Display
type(After
setting it,it
will be shown
on parameter
window
during run
mode only)
inp.t/p.l.m.per/e.l.m.per/amb/en.unit/sr.no/
prg.dsp/p.l.rec.t/e.l.rec.t
(INP.T/P.L.M.PER/E.L.M.PER/AMB/EN.UNIT/SR.NO/
PRG.DSP/P.L.REC.T/E.L.REC.T)
0: INPUT TYPE
1: Periodic Log Memory Percentage(Optional)
2: Event Log Memory Percentage (Optional)
3: Ambient
4: ENGINEERING UNIT(see Table 23)
(1 to 24 Channels)
5: SERIAL NUMBER(Refer Note : 4)
6: PROGRAMMABLE DISPLAY(Refer Note : 4)
7: Periodic Log record Number(Optional)
8: Event Log Record Number(Optional)
0
-
(Fv.dP.)
(DP.CONF)
Led
dp.conf
Status LED
Configuration
as-cs / as1-as2 / as-os
(AS-CS / AS1-AS2 / AS-OS)
0: ALARM STATUS - CONTROL STATUS
1: ALARM 1 STATUS- ALARM 2 STATUS
2: ALARM STATUS-OPEN COLLECTOR STATUS
(Refer Note : 4)
1
-
(Led)
(DP.CONF)
t.out
dp.conf
Timeout for
display back
to Run Mode
10 to 100 Seconds
60
-
(t.oUt)
(DP.CONF)
Fltr
dp.conf
IIR Filter to
get stable PV
reading
0 to 9 (Refer Note : 4)
0
-
(FLtr)
(DP.CONF)
Note 5 :
1) During Run Mode user can see favorite display on PARAMETER Window. User can see Input
type(of all channels) / Log memory percentage(Optional) / Ambient Temperature /
Engineering Units(Assigned all channels) / Serial Number of the VMS4SE for communication
purpose.
2) User can set the engineering unit to a particular channel. Also user can see the engineering
unit of a particular channel during run mode on PARAMETER Window. Total 33 number of
engineering units are provided with this Product. Different Engineering Units are shown in
Table 23.
3) In programmable display mode, user can program 6 digit Alphanumeric display for channel
name by giving ASCII value of characters “- , . , / , 0 to 9, < , > , A to Z , \ , space”. User can
set different tag name to different channels. Note that, this programmable display can only be
set by means of configuration software and not by front keypad. For more detail, refer Table
501, Table 5151 and Table 51.
4) LED configuration is for displaying different kind of status. It is explained below.
If user wants to see the status of Alarm Status and Control Output Status (Optional),
user needs to set LED = 0 . Thus Alarm Status(here Alarm status is either of Alarm 1
Status or Alarm 2 Status ) and Control Output Status will be displayed (24 LEDs on left
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REF NO: mVMA/om/101
Issue No: 01
side will indicate Alarm status and 24 LEDs on right side will indicate Control Output
Status(Optional).
If user wants Alarm 1 Status and Alarm Status 2 to be displayed then user must set
LED =1. Thus Alarm 1 Status and Alarm 2 Status will be displayed (24 LEDs on left side
will indicate Alarm 1 Status and 24 LEDs on right side will indicate Alarm 2 Status.
If user wants Alarm status and Open Collector Output Status (Optional) to be displayed
then user needs to set LED = 2. Thus Alarm Status(here Alarm status is either of Alarm 1
Status or Alarm 2 Status) and Open Collector Output Status will be displayed (24 LEDs
on left side will indicate Alarm status and 24 LEDs on right side will indicate Open
Collector Output Status(Optional).
5) Filter is for Stability of PV data When ever required. Filter = 0 means no filter is applied on PV
data. While Filter = 1 to 10 means Filter of Low value to High value is applied on PV data.
Table 23 Different Engineering Units
Type
Unit NO
Unit NO
Type
Display
Type
Unit NO
Unit NO
Type
Display
(Decimal)
(Hex)
(Decimal)
(Hex)
VOLT
0
0 x 00
VOLT
mV
1
0 x 01
mV
GPM
18
0 x 12
GPM
AMP
2
0 x 02
AMP
GPS
19
0 x 13
GPS
mA
3
0 x 03
mA
mm
20
0 x 14
mm
OHM
4
0 x 04
OHM
METER
21
0 x 15
METER
M.OHM
5
0 x 05
M.OHM
CM
22
0 x 16
CM
WATT
6
0 x 06
WATT
mSEC
23
0 x 17
mSEC
KW
7
0 x 07
KW
SEC
24
0 x 18
SEC
MW
8
0 x 08
MW
MI
25
0 x 19
MI
DEG C
9
0 x 09
˚C
HOUR
26
0 x 1A
HOUR
DEG F
10
0 x 0A
˚F
HZ
27
0 x 1B
HZ
KG/CM2
11
0 x 0B
KG/CM2
RPM
28
0 x 1C
RPM
PSI
12
0 x 0C
PSI
RPH
29
0 x 1D
RPH
PSI<A>
13
0 x 0D
PSI<A>
PPM
30
0 x 1E
PPM
PSI<G>
14
0 x 0E
PSI<G>
uS
31
0 x 1F
uS
KPA
15
0 x 0F
KPA
PH
32
0 x 20
PH
BAR
16
0 x 10
BAR
mm/s
33
0 x 21
Mm/s
mBAR
17
0 x 11
mBAR
um
34
0 x 22
um
Table 24 Sub Parameters of Logging Configuration Mode
Sub parameters of Logging Configuration Mode (Optional)
Data
Window
Parameter
Window
Name
Setting name and description
Default value
Shows
only if
Symbol
Symbol
p.log
lg.conf
Periodic Logging
Enable
strt/stop
(Strt/Stop)
0: STOP
1: START
0
-
(P.LOG)
(LG.CONF)
p.l.mp
lg.conf
Periodic Log
channel
mapping
yes / no
(YES/NO)
0 : NO
0 (for all
channel)
(Refer Note 5)
-
(P.L.MP)
(LG.CONF)
Page 51
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REF NO: mVMA/om/101
Issue No: 01
(selection)
1: YES
p.l.md
lg.conf
Periodic Logging
Mode
hold/OWLP
(HOLD/OVLP)
0: HOLD
1: OVERLAP
0
(Refer Note 5)
-
(P.L.md)
(LG.CONF)
P.M.RS
lg.conf
Periodic Log
Memory
Reset(/Clear)
yes / no
(YES/NO)
0 : NO
1: YES
0
(Refer Note 5)
-
(P.M.rS)
(LG.CONF)
p.l.HH
lg.conf
Periodic Log
time - Hour
0 to 23
0
(Refer Note 5)
-
(P.L.HH)
(LG.CONF)
p.l.mm
lg.conf
Periodic Log
time – Minute
0 to 59
0
(Refer Note 5)
-
(P.L.MM)
(LG.CONF)
p.l.ss
lg.conf
Periodic Log
time – Second
0 to 59
1
(Refer Note 5)
-
(P.L.SS)
(LG.CONF)
E.log
lg.conf
Event Logging
Enable
strt/stop
(Strt/Stop)
0: STOP
1: START
0
-
(E.LOG)
(LG.CONF)
E.l.mp
lg.conf
Event Log
channel
mapping
(selection)
yes / no
(YES/NO)
0 : NO
1: YES
0 (for all
channel)
(Refer Note 5)
-
(E.L.MP)
(LG.CONF)
E.l.md
lg.conf
Event Logging
Mode
hold/OWLP
(HOLD/OVLP)
0: HOLD
1: OVERLAP
0
-
(E.L.Md)
(LG.CONF)
E.M.RS
lg.conf
Event Log
Memory
Reset(/Clear)
yes / no
(YES/NO)
0 : NO
1: YES
0
-
(E.M.rS)
(LG.CONF)
Hour
lg.conf
RTC – Hour
0 to 23
0
-
(Hour)
(LG.CONF)
Min
lg.conf
RTC – Minute
0 to 59
0
-
(Min)
(LG.CONF)
Sec
lg.conf
RTC – Second
0 to 59
0
-
(Sec)
(LG.CONF)
Date
lg.conf
RTC – Date
1 to 31
0
-
(date)
(LG.CONF)
Mon
lg.conf
RTC – Month
1 to 12
0
-
(Mon)
(LG.CONF)
year
lg.conf
RTC – Year
1 to 255
0
-
(yEAr)
(LG.CONF)
Note 6:
1) Periodic and Event Channel mapping (selection) parameter is used to select the channels for
data logging. Mapping cannot be changed during Data logging is ON. For channel mapping
first stop logging, retrieve records and reset memory.
Page 52
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REF NO: mVMA/om/101
Issue No: 01
2) In Hold mode Data logging will be stop after memory is full. In Ovelap mode datalogging will
again start from 1st record after memory is full record and Roll over count will increment. Roll
over count will increment as per how many times memory was full.
3) Periodic (P.M.RS) and Event (E.M.RS) logging memory reset parameter is only apply if
Periodic and Event logging is in stop condition.
4) Periodic Log time is settable in HH:MM:SS format. By default it is 00:00:01.
5) RTC related parameters are for setting date and time in Data logging.
Table 25 Sub parameters of USB Configuration Mode (Optional)
Sub parameters of USB Configuration Mode
Data
Window
Parameter
Window
Name
Setting name and description
Default
value
Shows only if
Symbol
Symbol
u.Cnf
u.fetch
FETCH data
from VMS4SE
and store into
USB
start
(Start)
0: START
(Refer Note 6)
0
-
(U.Cnf)
(U.Fetch)
u.Cnf
u.p.f.en
USB Periodic
Fetching Enable
Yes /no
(YES/NO)
0 : NO
1: YES
(Refer Note 6)
0
-
(U.Cnf)
(U.P.F.EN)
u.Cnf
u.p.f.MO
D
USB Periodic
Fetch Mode
Selection
u.f.full/ u.f.time
(U.F.FULL / U.F.TIME)
0 : U.F.FULL
1: U.F.TIME
(Refer Note 6)
0
-
(U.Cnf)
(U.P.F.MOD)
u.Cnf
u.p.f.t.
hh
USB Periodic
Fetching By last
logged Hours
0 to 23
(Refer Note 6)
1
U.F.TIME is
selected in
U.P.F.MOD
(U.Cnf)
(U.P.F.T.HH)
u.Cnf
u.p.f.t.
dy
USB Periodic
Fetching By last
logged Days
0 to 180
(Refer Note 6)
0
U.F.TIME is
selected in
U.P.F.MOD
(U.Cnf)
(U.P.F.T.DY)
u.Cnf
u.p.re.p
.f
USB Fetched
Periodic records
per file selection
10 to 6000 (x10)
(Refer Note 6)
6000
-
(U.Cnf)
(U.P.RE.P.F)
u.Cnf
u.e.f.en
USB Event
Fetching Enable
Yes / no
(YES/NO)
0 : NO
1: YES
(Refer Note 6)
0
-
(U.Cnf)
(U.E.F.EN)
u.Cnf
u.e.re.p
.f
USB Fetched
Event records
per file selection
10 to 6000 (x10)
(Refer Note 6)
6000
-
(U.Cnf)
(U.E.RE.P.F)
Note 7:
1) Before proceeding for setting of data fetching by USB Mass storage device (MSD),
make sure that USB Mass storage device follows the specification.
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Issue No: 01
2) Periodic and Event records can be fetched into USB MSD. All settings for data retrieval
should be configured through USB menu.
3) Through menu, first select what type of data user wants to fetch Periodic data / Event data /
both.
4) If user wants to fetch Periodic data then two possible fetching methods are there. Those are
Periodic Fetch FULL and Periodic Fetch by TIME.
Periodic Fetch FULL : In this fetching method, all periodic logged data in VMS4SE will be
fetched and stored into USB MSD.
Periodic Fetch by TIME : In this fetching method, last periodic logged data is fetched
based on U.P.F.T.HH and U.P.F.T.DY selection. If user wants to fetch periodic data of
last 3 hours , then user has to write U.P.F.T.HH = 3. If user wants to fetch periodic data
of last 4 Days, then user has to write U.P.F.T.DY = 4. Note that, if user wants to fetch
data of last 6 hours , but total logged data is of only 3 hours then, data fetched will be of 3
hours only. If Log time is set for 1 second and user wants to retrieve data of 1 hour, so
total number of records will be approximately 3600 to 3609.
In periodic data fetching by time or full fetch, total number of records fetched will be vary
from Total number of Records fetched minus 0 to 18.e.g. total number of fetched records
are 1000 then in file records will be 982 to 1000 depending upon Number of log channels
selected.
In fetch by time mode data will be fetched perfectly only when logging is continuously ON
and no power OFF after logging is started.
5) User can select “N” number of records to be stored in single file. In this manner, user can
create multiple files based on number of records selected. i.e. a new file is automatically
created if “N” number of records are fetched in one file. Note that, user can set maximum
60000 records per file. Refer following example.
If user wants to store Periodic data of only 1000 records in one file and another 1000
Periodic records should be stored in another file and so on, then user has to set
U.P.RE.P.F = 100. Note that, here value will be stored in multiple of 10.
If user wants to store Event data of only 500 records in one file and another 500 Event
records should be stored in another file and so on, then user has to set U.E.RE.P.F = 50.
Note that, here value will be stored in multiple of 10.
In Event data fetching, total number of records fetched will be vary from Total number of
Records fetched minus 0 to 14.e.g. total number of fetched records are 1000 then in file
records will be 986 to 1000.
6) After setting all parameters, user has to start fetching by going into the menu parameter
“U.FETCH” and giving command “START”. Fetched data will be stored into USB Mass
storage device into .xls format. Note that, USB fetching cannot be started unless USB Mass
storage device is not connected.
7) When USB Mass storage device is connected, then different kinds of messages, based on
USB Fetching condition, will be popped up on Parameter window of VMS4SE. Refer
Following USB messages.
Table 26 USB Messages and Description
USB Messages
Description
Condition of occurrence
USB.DET
USB Detected
When USB Mass storage device is
connected
USB….
Data is being fetched from
VMS4SE and is being stored
into USB Mass storage device.
ENTER key is pressed when “USB.DET”
is popped up. OR When “START” in
“U.FETCH” parameter is given.
USB.F.OK
USB Fetching completed.
When All data is fetched and stored into
USB Mass storage device.
USB.FUL
USB Mass storage device is
full.
When USB Mass storage device has not
enough space for storing data.
USB.ERR
USB Mass storage device
When format of USB Mass storage
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REF NO: mVMA/om/101
Issue No: 01
format error.
device is other than FAT16 / FAT32
format.
8) When “USB.DET” is popped up in parameter window, user can either start fetching data by
pressing ENTER key in run mode or user can come out of the “USB.DET” message by
pressing ESC key. For later case, user can fetch data by going into the menu and giving
“START” in “U.FETCH” parameter.
9) After completion of Fetching data, “USB.F.OK.” message will be popped up. After this
message, user can fetch again by pressing ESC key first and then going into the menu and
giving “START” in “U.FETCH” parameter.
10) If “USB.FUL” or “USB.ERR” message is popped up, then user has to disconnect the USB
Mass storage device and connect the USB Mass storage device which is as per USB
Specification.
3) Calibration Mode :
Pressing MENU key DATA window shows Cal (CAL) message and Parameter window shows
MODE (Mode) message. Press MENU key again PARAMETER window shows pWd (PWD)
message (if and only if password is set then only. Otherwise it will enter into sub menu), press
MENU Key to enter into edit mode of password and then press INCREMENT key or
DECREMENT key to modify the password and then press MENU Key to enter into Calibration
Mode. DATA window shows Amb (Amb) message and PARAMETER window shows CAL (CAL)
message. By pressing MENU Key, DATA window shows current Ambient Value. Then use MENU
Key to enter into editing mode and use INCREMENT and DECREMENT key to modify value if
required. OR press INCREMENT key again to go to next parameter Cal.z (CAL.Z). Channel
wise Calibration can be used here. However there is not need of calibration to be set channel
wise. ESCAPE KEY is used to come out CAL.Z (sub parameter of Calibration mode).
Table 27 Calibration Mode Parameters
Calibration Mode
Data
Window
Parameter
Window
Name
Setting name and description
Default
value
Shows only if
Symbol
Symbol
0
pwd
Calibration Mode
Password
0 to 9999
0
Password is
other than zero
0
(PWD)
Amb
Cal
Ambient Calibration
Ambient Adjustment
-
-
(Amb)
(CAL)
Cal.z
Cal
Thermocouple, Rtd
and Linear Zero
Calibration
Depending on PV sensor type
selected (All Channels)
-
-
(CAL.Z)
(CAL)
Cal.s
Cal
Thermocouple, Rtd
and Linear Span
Calibration
Depending on PV sensor type
selected (All Channels)
-
-
(CAL.S)
(CAL)
rtr.z
Cal
Retransmission
voltage and current
Zero calibration
Depending on Retransmission
type selected
(1 to 8 Retransmission Outputs)
(Optional)
-
-
(rtr.Z)
(CAL)
rtr.s
Cal
Retransmission
voltage and current
Span calibration
Depending on Retransmission
type selected
(1 to 8 Retransmission Outputs)
(Optional)
-
-
(rtr.S)
(CAL)
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REF NO: mVMA/om/101
Issue No: 01
4) Security Mode :
Pressing MENU key DATA window shows sCr.t (SCr.t) message and Parameter window
shows MODE (Mode) message. Press MENU key again PARAMETER window shows pWd
(PWD) message (if and only if password is set then only. Otherwise it will enter into sub menu),
press MENU Key to enter into edit mode of password and then press INCREMENT key or
DECREMENT key to modify the password and then press MENU Key to enter into Security
Mode. DATA window shows Pr.md (Pr.md) message and PARAMETER window shows
SCURTY (SCURTY) message. By pressing MENU Key, DATA window shows current password
of Program Mode. Then use MENU Key to enter into editing mode and use INCREMENT and
DECREMENT key to modify value if required. OR press INCREMENT key again to go to next
parameter Cf.md (CF.md). ESCAPE KEY is used to come out CF.md (sub parameter of Security
mode).
Table 28 Security Mode Parameters
Security Mode
Data
Window
Parameter
Window
Name
Setting name and
description
Default
value
Shows only if
Symbol
Symbol
0
pwd
Security Mode
Password
0 to 9999
0
Password of Security
mode is other than zero
0
(PWD)
pr.md
scurty
Set Password for
Program Mode
0 to 9999 0 -
(Pr.md)
(SCURTY)
CF.md
scurty
Set Password for
Configuration Mode
0 to 9999 0 -
(CF.md)
(SCURTY)
Cl.md
scurty
Set Password for
Configuration Mode
0 to 9999 0 -
(CL.md)
(SCURTY)
sp.md
scurty
Set Password for
Security Mode
0 to 9999 0 -
(SP.md)
(SCURTY)
f.rst
scurty
Factory reset
See Factory reset
parameter menu
-
-
(F.rSt)
(SCURTY)
Factory Reset Parameter :
By pressing MENU key again, PARAMETER window shows pWd (PWD) message. Then press
MENU Key to enter into edit mode of password and then press INCREMENT key or
DECREMENT key to modify the password and then press MENU Key to enter into Factory Reset
Menu. In the menu, DATA window shows CAL (CAL) message and PARAMETER window
shows f.rst (F.RST) message. By pressing MENU Key, it enters into editing mode and use
INCREMENT and DECREMENT key to modify which value you need to be of default value OR
press INCREMENT key again to go to next parameter Cf.md (CF.md). ESCAPE KEY is used to
come out CF.md (sub parameter of Security mode).
Table 29 Factory Reset Menu
Factory Reset Parameter Menu
Data
Window
Parameter
Window
Name
Setting name and description
Default
value
Shows only if
Symbol
Symbol
0
pwd
Factory reset Mode
0 to 9999
0
-
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REF NO: mVMA/om/101
Issue No: 01
0
(PWD)
Password
CAL
f.rst
CAL-Set Calibration
values to factory default
value
Only calibration set to
default value
(Refer Note 7)
-
F.RST = 0
(CAL)
(F.RST)
para
f.rst
PARA-Set Parameter
values to factory default
value
All parameters excluding
calibration will set to
default value
(Refer Note 7)
-
F.RST = 1
(PArA)
(F.RST)
All
f.rst
ALL-Set ALL values to
factory default value
Calibration and parameters will
set to default value
(Refer Note 7)
-
F.RST = 2
(ALL)
(F.RST)
Note 7:
1) After resetting Calibration / Parameters / All values to factory reset values, the DATA window
will display wait (Wait) message for few seconds and then display will reset automatically
with default factory values.
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Issue No: 01
8. ALARM OUTPUT, CONTROL OUTPUT , DIGITAL OUTPUT AND
WATCHDOG OUTPUT OPERATION
8.1 Alarm Output Operation
Every single channel can have maximum 3 set points. 2 for Alarm outputs(1 for Alarm 1 Set Point
and 1 for Alarm 2 Set Point) and 1 for Control Set Point, totaling 48 alarm outputs and 24 control
outputs for 24 number of channels. Control Outputs are Optional.
8 Relays and/or 24 Open Collectors can be used as DO(Digital Output ). All Digital Outputs are
Optional.
Following tables shows Alarm Output , control output and digital output operation.
Table 30 Alarm 1 and Alarm 2 Momentary Alarm Logic
ALARM AL1
MOMEMTARY ALARM
(when in abnormal condition ack not pressed)
CONDITION
NORMAL
ABNORMAL
UP (O/S)
DOWN (O/S)
ACK
(2)
NORMAL
(1)
ACK
(3)
ALARM
LATCH
LAMP
OFF
FLASH
FLASH
OFF FLASH
OFF
YES
RELAY / OPEN
COLLECTOR
OFF
ON
ON
OFF OFF
OFF
HIGH
ALARM
LATCH
LAMP
OFF
FLASH
FLASH
OFF OFF
OFF
ASP1
NO
RELAY / OPEN
COLLECTOR
OFF
ON
ON
OFF OFF
OFF
TRIP LAMP
OFF
FLASH
OFF
OFF FLASH
OFF
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
OFF ON
OFF ALARM
LATCH
LAMP
OFF
FLASH
OFF
FLASH
FLASH
OFF
YES
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
ON OFF
OFF
LOW
ALARM
LATCH
LAMP
OFF
FLASH
OFF
FLASH
OFF
OFF
ASP1
NO
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
ON OFF
OFF TRIP LAMP
OFF
FLASH
OFF
OFF FLASH
OFF
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
OFF ON
OFF
ALARM AL2
MOMEMTARY ALARM
(when in abnormal condition ack not pressed)
CONDITION
NORMAL
ABNORMAL
UP (O/S)
DOWN (O/S)
ACK
(2)
NORMAL
(1)
ACK
(3)
ALARM
LATCH
LAMP
OFF
FLASH
FLASH
OFF FLASH
OFF
YES
RELAY / OPEN
COLLECTOR
OFF
ON
ON
OFF OFF
OFF
HIGH
ALARM
LATCH
LAMP
OFF
FLASH
FLASH
OFF OFF
OFF
A\SP2
NO
RELAY / OPEN
COLLECTOR
OFF
ON
ON
OFF OFF
OFF TRIP LAMP
OFF
FLASH
OFF
OFF FLASH
OFF
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
OFF ON
OFF ALARM
LATCH
LAMP
OFF
FLASH
OFF
FLASH
FLASH
OFF
YES
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
ON OFF
OFF
LOW
ALARM
LATCH
LAMP
OFF
FLASH
OFF
FLASH
OFF
OFF
ASP2
NO
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
ON OFF
OFF TRIP LAMP
OFF
FLASH
OFF
OFF FLASH
OFF
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
OFF ON
OFF
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Table 31 Alarm 1 and Alarm 2 Maintained Alarm Logic
ALARM AL1
MAINTAINED ALARM
(when in abnormal condition ack is pressed)
CONDITION
NORMAL
ABNORMAL
UP (O/S)
DOWN (O/S)
ACK
(2)
NORMAL
(1)
ACK
(3)
ALARM
LATCH
LAMP
OFF
FLASH
FLASH
OFF
STEADY
STEADY
OFF
YES
RELAY / OPEN
COLLECTOR
OFF
ON
ON
OFF
OFF
OFF
OFF
HIGH
ALARM
LATCH
LAMP
OFF
FLASH
FLASH
OFF
STEADY
OFF
OFF
SP1 NO
RELAY / OPEN
COLLECTOR
OFF
ON
ON
OFF
OFF
OFF
OFF TRIP LAMP
OFF
FLASH
OFF
OFF
STEADY
STEADY
OFF
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
OFF
ON
ON
OFF ALARM
LATCH
LAMP
OFF
FLASH
OFF
FLASH
STEADY
STEADY
OFF
YES
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
ON
OFF
OFF
OFF
LOW
ALARM
LATCH
LAMP
OFF
FLASH
OFF
FLASH
STEADY
OFF
OFF
SP1 NO
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
ON
OFF
OFF
OFF
TRIP LAMP
OFF
FLASH
OFF
OFF
STEADY
STEADY
OFF
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
OFF
ON
ON
OFF
ALARM AL2
MAINTAINED ALARM
(when in abnormal condition ack is pressed)
CONDITION
NORMAL
ABNORMAL
UP (O/S)
DOWN (O/S)
ACK
(2)
NORMAL
(1)
ACK
(3)
ALARM
LATCH
LAMP
OFF
FLASH
FLASH
OFF
STEADY
STEADY
OFF
YES
RELAY / OPEN
COLLECTOR
OFF
ON
ON
OFF
OFF
OFF
OFF
HIGH
ALARM
LATCH
LAMP
OFF
FLASH
FLASH
OFF
STEADY
OFF
OFF
SP2 NO
RELAY / OPEN
COLLECTOR
OFF
ON
ON
OFF
OFF
OFF
OFF TRIP LAMP
OFF
FLASH
OFF
OFF
STEADY
STEADY
OFF
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
OFF
ON
ON
OFF ALARM
LATCH
LAMP
OFF
FLASH
OFF
FLASH
STEADY
STEADY
OFF
YES
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
ON
OFF
OFF
OFF
LOW
ALARM
LATCH
LAMP
OFF
FLASH
OFF
FLASH
STEADY
OFF
OFF
SP2 NO
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
ON
OFF
OFF
OFF TRIP LAMP
OFF
FLASH
OFF
OFF
STEADY
STEADY
OFF
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
OFF
ON
ON
OFF
Notes :
(1)
means normal condition after abnormal has occurred
(2)
means ack pressed in abnormal condition
(3)
means ack pressed in normal condition after abnormal has already occurred.
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Issue No: 01
8.2 Control Output Operation
Control Output is the simplest form of temperature control. The output from the device is either on or
off, with no middle state. For heating control, the output is on when the temperature is below the set
point, and off above set point.
Since the temperature crosses the set point to change the output stage, the process temperature will
be cycling continually, going from above set point to below, and back above. In cases where this
cycling occurs rapidly, and to prevent contactors and valves from getting damaged, an on-off
differential, or “Hysteresis,” is added to the control operations. This Hysteresis assures, if temperature
goes below set point by a certain amount before then only output will turn off or on again. On-Off
Hysteresis prevents the output from “chattering” or making fast, continual switches if the cycling above
and below the set point occurs very rapidly.
Once process value reaches down to set point–Hysteresis value relay will be energized and it will be
ON until process value goes up towards Set point.
Table 32 Control Operation (Optional)
CONTROL OPERATION
(in abnormal condition ack will not work)
CONDITION
NORMAL
ABNORMAL
UP (O/S)
DOWN
(O/S)
NORMAL
(1)
HIGH
CONTROL
LAMP
(2)
OFF
ON
ON
OFF
OFF CSP
RELAY / OPEN
COLLECTOR
OFF
ON
ON
OFF
OFF LOW
CONTROL
LAMP
(2)
OFF
ON
OFF
ON
OFF CSP
RELAY / OPEN
COLLECTOR
OFF
ON
OFF
ON
OFF
Upon pressing ACK key, acknowledgement will be given for ALARM/TRIP type set point in
abnormal condition.
Note that acknowledgement is not applicable for CONTROL operation.
Alarm Latch function applicable only for ALARM type set point, there is no effect when TRIP or
CTRL type set points are in use.
8.3 Basic DO(Digital Output) Function
Figure 20 Basic DO(Digital Output) Function
Notes :
(1)
means normal condition after abnormal has occurred
(2)
means lamp can only be applicable on the 24 LEDs at right side if LED is set to AS-CS .(i.e. LED =0) in Display Configuration.
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Issue No: 01
8.4 Watchdog Timer (WDT) / Watchdog Output Operation
The WDT, when enabled, operates from the internal Low-Power RC (LPRC) Oscillator clock source.
The WDT can be used to detect system software malfunctions by resetting the device if the WDT is
not cleared periodically in software. If malfunctioning of device persists even after watchdog reset
device will go into shutdown mode followed by error messages on display as per Table 33. Device
Fault can be monitored by a failsafe relay output which is mapped for watchdog output.
When WDT is disable device will continue to work with fault. The Fault LED will be on in this condition.
Table 33 Error Messages and its Description
Error Messages
Fault
Error 1
CPU card EEPROM failure
Error 2
SC 1 card ADC failure
Error 3
SC 1 card EEPROM failure
Error 4
SC 2 card ADC failure
Error 5
SC 2 card EEPROM failure
Error 6
SC 3 card ADC failure
Error 7
SC 3 card EEPROM failure
Error 8
CPU card Controller Hang – failure
Error 9
Communication between CPU and Display card Failure
Watchdog Relay / Open Collector: This relay/Open Collector is normally in ON condition
and it will be OFF when any problem occurs with Device.
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Issue No: 01
9. CALIBRATION PROCEDURE
Calibration is provided for ambient temperature, PV sensor input, Analog Output (Retransmission
output) (Optional).
First select the calibration function as described below and then follow the procedure depending on
the parameter to be calibrated. The sequences of parameters that will be available for calibration are
listed below:
Ambient temperature adjustment
PV Sensor input
Retransmission output (calibration for voltage or current)
Ambient temperature adjustment:-
DATA window shows Amb (Ambient temperature adjusts) and PARAMETER window shows message
CAL (CAL) .Press MENU key to edit the Ambient value. DATA window shows ambient temperature
measured by the Vibration Monitor and by applying old calibration data and PARAMETER window
shows amb (AMB). Press MENU key again to edit the displayed value. DP of last digit and last digit
itself will blink to indicate that the value can be changed. Use Inc/Dec (Here Decrement key is used to
shift the digit in editing mode) key to adjust it to desired value. Once the desired value set and press
MENU key, the blinking DP will go off to indicate that the value has been registered. The Vibration
Monitor will automatically save all the new calculations. Ambient temperature adjustment is over.
Press ESC key and then press Inc key to calibrate other parameters or press Escape key to come out
to normal operation.
PV input sensor calibration:-
Note that all signal cards and all input type group must be calibrated before proceeding further. There
is no need to calibrate all input types. Just calibrate only one input type from one group and all other
input types from the same group will be calibrated automatically. Group calibration detail is given in
following table.
Table 34 Group Calibration Detail
Group NO
Input type
Calibration for input
1
E,J,K,T,N,0-100mv
Either of any input
2
B,R,S,-10 to 20mv
Either of any input
3
Pt-100(RTD), CU53, NI120
Either of any input
4
0-5v,1-5V, 0-10V, 420mamp,0-20mamp
Either of any input
5
Acceleration RMS,
Acceleration PK,
Acceleration PK-PK
Acceleration RMS
6
Velocity RMS, Velocity PK,
Velocity PK-PK
Velocity RMS
7
Displacement PK-PK
Displacement PK-PK
Note : Kindly Calibrate following input type for gaining better accuracy.
1) For Group Number 1, calibrate 0-100 mV input type.
2) For Group Number 2, calibrate -10 to 20 mV input type.
3) For Group Number 3, calibrate Pt-100(RTD) input type and
4) For Group Number 4, calibrate 0 to 10 V input type.
When user enters in calibration menu, DATA window shows PV value of corresponding input and
PARAMETER window shows message Cal.z (Zero Calibration) and Channel Window shows 01
which indicate that zero calibration is for channel number 1. User can use any channel out of
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maximum number of channels (24) to calibrate input type for lower reading. Feed sensor input using a
calibrator, such that process value is close to lower range value.
Note: The Vibration Monitor allows the user to calibrate sensor‟s input anywhere in the range, but it is
recommended that it should be calibrate the input at points close to lower and upper range values.
By pressing MENU key, DP of last digit and last digit itself will blink to indicate that the value can be
changed. Use Inc/Dec (Here Decrement key is used for shifting a digit) key to correct the displayed
reading to the desired process value and press MENU key. When the calculations are over, the new
calibration values are stored automatically and DATA window will show the calibrated value.
When user enters in calibration menu, DATA window shows PV value of corresponding input and
PARAMETER window shows message Cal.s (Span Calibration) and Channel Window shows 01
which indicate that zero calibration is for channel number 1. User can use any channel out of
maximum number of channels to calibrate input type for span reading. PV display shows process
value corresponding to input sensor value with old calibration data. Feed sensor input using a
calibrator, such that process value is close to sensor‟s upper range value. Press MENU key to edit the
value. Use Inc/Dec(Here Decrement key is used for shifting a digit in editing mode) key to arrive at the
desired process value. Press MENU key to register the changes. When the calculations are over, the
new calibration values are stored automatically and DATA window will show the calibrated value.
Zero and Span calibration is over.
In case, the Vibration Monitor cannot complete the calibration due to any reason, it will hold previous
calibration parameters. Calibration for input sensor is over.
Note: - For Vibration Input Type Channel Calibration is done individually.
Retransmission output calibration (Voltage/current output)(Optional):-
In VMS4SE, maximum 8 numbers of Analog Output (Retransmission Output) are available. Analog
output should be measured using a highly accurate digital multi meter. If user wants Current output
then Output current value needs to be calibrated. For Current output calibration, set output type as
4-20 mA. If user wants Voltage output, then Output Voltage value needs to be calibrated. For Voltage
output calibration, set output type as 0-10 V.
In Calibration mode, press Inc key repeatedly, till DATA window shows message rtr.Z
(retransmission output zero calibration) and PARAMETER window shows message cal (CAL). By
pressing MENU key, DATA window shows 4.000 for current input and 0.000 for voltage input.
PARAMETER window shows message rtr.z (RTR.Z) and channel window shows message 01
(01) . Here Channel window displays the Retransmission Number. Press MENU key to enter into
editing mode. Use INC/DEC (Here Decrement key is used for shifting a digit in editing mode) key to
correct the displayed reading to the measured value. The Vibration Monitor will store zero calibration
value. Press the INC key to calibrate value for other Retransmission Output Number. Now press ESC
to come out of Retransmission Zero calibration and press INC key to calibrate retransmission output
span calibration menu.
DATA window shows the message rtr.S (retransmission output span calibration) and PARAMETER
window shows message cal (CAL). By pressing MENU key, DATA window shows 20.000 for
current input and 8.000 for voltage input. PARAMETER window shows message rtr.S (RTR.S)
and channel window shows message 01 (01). Here Channel window displays the Retransmission
Number. Press MENU key to enter into editing mode. Use INC/DEC (Here Decrement key is used for
shifting a digit in editing mode) key to correct the displayed reading to the measured value. The
Vibration Monitor will store span calibration value. Press the INC key to calibrate value for other
Retransmission Output Number. Now press ESC to come out of Retransmission Span calibration.
Calibration for Retransmission output is over. Press MENU key to calibrate other parameters or press
Escape key to come out to normal operation.
Page 63
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REF NO: mVMA/om/101
Issue No: 01
10. MODBUS COMMUNICATION DETAIL
10.1 Overview
When Vibration Monitor are setup to communicate on a Modbus network using RTU (Remote
Terminal Unit) mode, each 8–bit byte in a message contains two 4–bit Hexadecimal characters. The
main advantage of this mode is that it‟s greater Character density allows better data throughput than
ASCII for the same baud rate.
Each message must be transmitted in a continuous stream. The format for each byte in RTU mode is:
Coding System: 8–bit binary, hexadecimal 0–9, A–F
Two hexadecimal characters contained in each
8–bit field of the message
Bits per Byte: 1 start bit
8 data bits, least significant bit sent first
1 bit for even/odd parity; no bit for no parity
1 Stop bit if parity is used; 2 bits if no parity
Error Check Field: Cyclical Redundancy Check (CRC)
o In RTU mode, messages start with a silent interval of at least 3.5 character times.
o If a silent interval of more than 1.5 character times occurs before completion of the frame, the
receiving device flushes the incomplete message and assumes that the next byte will be the
address field of a new message.
Table 35 Modbus Communication frame format
Figure 21 The Query-Response Cycle
Page 64
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REF NO: mVMA/om/101
Issue No: 01
o Valid slave device addresses are in the range of 0 – 247 decimal.
o The individual slave devices are assigned addresses in the range of 1 – 247.
o Address 0 is used for the broadcast address, which all slave devices recognize.
o The data field is constructed using sets of two hexadecimal digits, in the range of 00 to FF
hexadecimal.
o In RTU mode, messages include an error–checking field that is based on a
Cyclical Redundancy Check (CRC) method
o The CRC field is two bytes, containing a 16–bit binary value. The CRC value is
Calculated by the transmitting device, which appends the CRC to the message
Use only following function codes for data read/write purpose
Table 36 Modbus Function code description
Function Code
Description
01
NA
02
NA
03
Read Holding Registers
04
Read Input Registers
05
NA
06
Force Single Register
15
NA
16
Force Multiple Registers
10.2 Exception Responses
Except for broadcast messages, when a master device sends a query to a slave
Device it expects a normal response. One of four possible events can occur from
The master‟s query:
If the slave device receives the query without a communication error, and can handle the
query normally, it returns a normal response.
If the slave does not receive the query due to a communication error, no Response is
returned. The master program will eventually process a timeout Condition for the query.
If the slave receives the query, but detects a communication error (parity, LRC, or CRC), no
response is returned. The master program will eventually process a timeout condition for the
query.
If the slave receives the query without a communication error, but cannot Handle it (for
example, if the request is to read a non–existent coil or register), The slave will return an
exception response informing the master of the nature of the error.
The exception response message has two fields that differentiate it from a normal Response:
Query:
Table 37 Modbus Query frame format
Byte
Contents
Example
1
Slave Address
0A 2 Function
01
3
Starting Address Hi
04 4 Starting Address Lo
A1
5
No Of Coils Hi
01 6 No Of Coils Lo
01
7
CRC Hi
XX 8 CRC Lo
XX
Page 65
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REF NO: mVMA/om/101
Issue No: 01
Exceptional Response:
Table 38 Exceptional Response
Byte
Contents
Example
1
Slave Address
0A
2
Function
81 (80 + Function Code From Query)
3
Exceptional Code
02
4
CRC Hi
XX
5
CRC Lo
XX
Exception Codes
Table 39 Exception codes
CODE
NAME
MEANING
01
Illegal Function
The function code received in the query is not an allowable
action for the slave. If a Poll Program Complete command Was
issued, this code indicates that no Program function preceded
it.
02
Illegal Data Address
The data address received in the query is not an allowable
address for the Slave.
03
Illegal Data Value
A value contained in the query data field is not an allowable
value for the Slave.
10.3 Modbus Addresses
Table 40 Process Value and Status Read Parameters
Sr.
No
Parameter Description
Modbus
Address
Parameter
Type
Access
Remarks
1
Channel – 1 – PV
30001
Integer
R
-
2
Channel – 2 – PV
30002
Integer
R
-
3
Channel – 3 - PV
30003
Integer
R
-
4
Channel – 4 - PV
30004
Integer
R
-
5
Channel – 5 – PV
30005
Integer
R
-
6
Channel – 6 – PV
30006
Integer
R
-
7
Channel – 7 – PV
30007
Integer
R
-
8
Channel – 8 – PV
30008
Integer
R
-
9
Channel – 9 – PV
30009
Integer
R
-
10
Channel – 10 – PV
30010
Integer
R
-
11
Channel – 11 – PV
30011
Integer
R
-
12
Channel – 12 – PV
30012
Integer
R
-
13
Channel – 13 – PV
30013
Integer
R
-
14
Channel – 14 – PV
30014
Integer
R
-
15
Channel – 15 – PV
30015
Integer
R
-
16
Channel – 16 – PV
30016
Integer
R
-
17
Channel – 17 – PV
30017
Integer
R
-
18
Channel – 18 – PV
30018
Integer
R
-
19
Channel – 19 – PV
30019
Integer
R
-
20
Channel – 20 – PV
30020
Integer
R
-
21
Channel – 21 – PV
30021
Integer
R
-
22
Channel – 22 – PV
30022
Integer
R
-
Page 66
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REF NO: mVMA/om/101
Issue No: 01
23
Channel – 23 – PV
30023
Integer
R
-
24
Channel – 24 – PV
30024
Integer
R
-
25
Ambient PV
30025
Integer
R
-
26
DO(Digital Output) Status– 32bit
30026
Bit
R
Refer Table 42
27
Alarm1 Status– 32bit
30028
Bit
R
Refer Table 43
28
Alarm2 Status – 32bit
30030
Bit
R
Refer Table 44
29
Control Status – 32bit
30032
Bit
R
Refer Table 456
30
Alarm1 Blink Status – 32bit
30034
Bit
R
Refer Table 456
31
Alarm2 Blink Status- 32 bit
30036
Bit
R
Refer Table 45
32
Alarm1 LED status - 32 bit
30038
Bit
R
Refer Table 456
33
Alarm2 LED status - 32 bit
30040
Bit
R
Refer Table 456
34
Log Memory Percentage
30042
Integer
R
Higher Byte for Event
log and Lower Byte
for Periodic Log
35
Total Periodic Records
30043-44
Integer
R
30043 [Higher byte]
30044[Lower Byte]
36
Total Event Records
30045-46
Integer
R
30045 [Higher byte]
30046[Lower Byte]
Table 41 Details of abnormal Conditions of Process Value
Abnormal Value (Integer)
Description
32762
Reserved
32764
Channel Skip
32765
UNDER Value
32766
OVER Value
32767
Channel OPEN Indication
Table 42 DO (Digital Output) Status Register and its bits arrangement
Parameter
DO(Digital Output) Status
DO(Digital Output) Status
Modbus
Address
30026
30027
Bit No.
15
14
13
12
11
10 9 8 7 6 5 4 3 2 1 0 15
14
13
12
11
10 9 8 7 6 5 4 3 2 1
0
Description
Open Collector-24
Open Collector-23
Open Collector-22
Open Collector-21
Open Collector-20
Open Collector-19
Open Collector-18
Open Collector-17 - Open Collector-16
Open Collector-15
Open Collector-14
Open Collector-13
Open Collector-12
Open Collector-11
Open Collector-10
Open Collector-9
Open Collector-8
Open Collector-7
Open Collector-6
Open Collector-5
Open Collector-4
Open Collector-3
Open Collector-2
Open Collector-1
Relay-8
Relay-7
Relay-6
Relay-5
Relay-4
Relay-3
Relay-2
Relay-1
\
Page 67
User Manual 67
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REF NO: mVMA/om/101
Issue No: 01
Table 43 Alarm 1 Status Register and its bits arrangement
Parameter
Alarm 1 Status
Alarm 1 Status
Modbus
Address
30028
30029
Bit No.
15
14
13
12
11
10 9 8 7 6 5 4 3 2 1 0 15
14
13
12
11
10 9 8 7 6 5 4 3 2 1
0
Description
- - - - - - - - Channel – 24
Channel – 23
Channel – 22
Channel – 21
Channel – 20
Channel – 19
Channel – 18
Channel – 17
Channel – 16
Channel – 15
Channel – 14
Channel – 13
Channel – 12
Channel – 11
Channel – 10
Channel – 9 - Channel – 8
Channel – 7
Channel – 6
Channel – 5
Channel – 4
Channel – 3
Channel – 2
Channel – 1
Table 44 Alarm 2 Status Register and its bits arrangement
Parameter
Alarm 2 Status
Alarm 2 Status
Modbus
Address
30030
30031
Bit No.
15
14
13
12
11
10 9 8 7 6 5 4 3 2 1 0 15
14
13
12
11
10 9 8 7 6 5 4 3 2 1
0
Description
- - - - - - - - Channel – 24
Channel – 23
Channel – 22
Channel – 21
Channel – 20
Channel – 19
Channel – 18
Channel – 17
Channel – 16
Channel – 15
Channel – 14
Channel – 13
Channel – 12
Channel – 11
Channel – 10
Channel – 9 - Channel – 8
Channel – 7
Channel – 6
Channel – 5
Channel – 4
Channel – 3
Channel – 2
Channel – 1
Above mentioned bit arrangement is applicable to other parameters as explained below.
Table 45 Other Status Registers
Parameter
Control Status
Control Status
Modbus
Address
30032
30033
Parameter
Alarm 1 Blink Status
Alarm 1 Blink Status
Modbus
Address
30034
30035
Parameter
Alarm 2 Blink Status
Alarm 2 Blink Status
Modbus
Address
30036
30037
Parameter
Alarm 1 LED Status
Alarm 1 LED Status
Modbus
Address
30038
30039
Parameter
Alarm 2 LED Status
Alarm 2 LED Status
Modbus
Address
30040
30041
Page 68
User Manual 68
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
Table 46 Holding Registers Parameters – Part 1
Sr.
No
Parameter Description
Modbus
Address
Parameter
Type
Min
Value
(Single
Channel)
Max
Value
(Single
Channel)
Access
Remarks
1
Ch – 1 – AL1 – SET
40001
Integer
- - R/W
Refer
Table 52
2
Ch – 2 – AL1 – SET
40002
Integer
- - R/W 3 Ch – 3 – AL1 – SET
40003
Integer
- - R/W 4 Ch – 4 – AL1 – SET
40004
Integer
- - R/W 5 Ch – 5 – AL1 – SET
40005
Integer
- - R/W 6 Ch – 6 – AL1 – SET
40006
Integer
- - R/W 7 Ch – 7 – AL1 – SET
40007
Integer
- - R/W 8 Ch – 8 – AL1 – SET
40008
Integer
- - R/W 9 Ch – 9 – AL1 – SET
40009
Integer
- - R/W
10
Ch –10 – AL1 – SET
40010
Integer
- - R/W
11
Ch –11 – AL1 – SET
40011
Integer
- - R/W
12
Ch –12 – AL1 – SET
40012
Integer
- - R/W
13
Ch –13 – AL1 – SET
40013
Integer
- - R/W
14
Ch –14 – AL1 – SET
40014
Integer
- - R/W
15
Ch –15 – AL1 – SET
40015
Integer
- - R/W
16
Ch –16 – AL1 – SET
40016
Integer
- - R/W
17
Ch –17 – AL1 – SET
40017
Integer
- - R/W
18
Ch –18 – AL1 – SET
40018
Integer
- - R/W
19
Ch –19 – AL1 – SET
40019
Integer
- - R/W
20
Ch –20 – AL1 – SET
40020
Integer
- - R/W
21
Ch –21 – AL1 – SET
40021
Integer
- - R/W
22
Ch –22 – AL1 – SET
40022
Integer
- - R/W
23
Ch –23 – AL1 – SET
40023
Integer
- - R/W
24
Ch –24 – AL1 – SET
40024
Integer
- - R/W
25
Ch – 1 – AL2 – SET
40025
Integer
- - R/W
Refer
Table 52
26
Ch – 2 – AL2 – SET
40026
Integer
- - R/W
27
Ch – 3 – AL2 – SET
40027
Integer
- - R/W
28
Ch – 4 – AL2 – SET
40028
Integer
- - R/W
29
Ch – 5 – AL2 – SET
40029
Integer
- - R/W
30
Ch – 6 – AL2 – SET
40030
Integer
- - R/W
31
Ch – 7 – AL2 – SET
40031
Integer
- - R/W
32
Ch – 8 – AL2 – SET
40032
Integer
- - R/W
33
Ch – 9 – AL2 – SET
40033
Integer
- - R/W
34
Ch –10 – AL2 – SET
40034
Integer
- - R/W
35
Ch –11 – AL2 – SET
40035
Integer
- - R/W
36
Ch –12 – AL2 – SET
40036
Integer
- - R/W
37
Ch –13 – AL2 – SET
40037
Integer
- - R/W
38
Ch –14 – AL2 – SET
40038
Integer
- - R/W
39
Ch –15 – AL2 – SET
40039
Integer
- - R/W
40
Ch –16 – AL2 – SET
40040
Integer
- - R/W
41
Ch –17 – AL2 – SET
40041
Integer
- - R/W
42
Ch –18 – AL2 – SET
40042
Integer
- - R/W
43
Ch –19 – AL2 – SET
40043
Integer
- - R/W
44
Ch –20 – AL2 – SET
40044
Integer
- - R/W
45
Ch –21 – AL2 – SET
40045
Integer
- - R/W
46
Ch –22 – AL2 – SET
40046
Integer
- - R/W
47
Ch –23 – AL2 – SET
40047
Integer
- - R/W
48
Ch –24 – AL2 – SET
40048
Integer
- - R/W
49
Ch – 1 - 2– ASP Hysteresis
40049
Integer
1
250
R/W
-
50
Ch – 3 - 4– ASP Hysteresis
40050
Integer
1
250
R/W
51
Ch – 5 - 6– ASP Hysteresis
40051
Integer
1
250
R/W
Page 69
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VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
52
Ch – 7 - 8– ASP Hysteresis
40052
Integer
1
250
R/W
53
Ch – 9 - 10– ASP Hysteresis
40053
Integer
1
250
R/W
54
Ch – 11 - 12– ASP Hysteresis
40054
Integer
1
250
R/W
55
Ch – 13 - 14– ASP Hysteresis
40055
Integer
1
250
R/W
56
Ch – 15 - 16– ASP Hysteresis
40056
Integer
1
250
R/W
57
Ch – 17 - 18– ASP Hysteresis
40057
Integer
1
250
R/W
58
Ch – 19 - 20– ASP Hysteresis
40058
Integer
1
250
R/W
59
Ch – 21 - 22– ASP Hysteresis
40059
Integer
1
250
R/W
60
Ch – 23 - 24– ASP Hysteresis
40060
Integer
1
250
R/W
61
Ch – 1 – C – SET
40061
Integer
- - R/W
Refer
Table 52
62
Ch – 2 – C – SET
40062
Integer
- - R/W
63
Ch – 3 – C – SET
40063
Integer
- - R/W
64
Ch – 4 – C – SET
40064
Integer
- - R/W
65
Ch – 5 – C – SET
40065
Integer
- - R/W
66
Ch – 6 – C – SET
40066
Integer
- - R/W
67
Ch – 7 – C – SET
40067
Integer
- - R/W
68
Ch – 8 – C – SET
40068
Integer
- - R/W
69
Ch – 9 – C – SET
40069
Integer
- - R/W
70
Ch –10 – C – SET
40070
Integer
- - R/W
71
Ch –11 – C – SET
40071
Integer
- - R/W
72
Ch –12 – C – SET
40072
Integer
- - R/W
73
Ch –13 – C – SET
40073
Integer
- - R/W
74
Ch –14 – C – SET
40074
Integer
- - R/W
75
Ch –15 – C – SET
40075
Integer
- - R/W
76
Ch –16 – C – SET
40076
Integer
- - R/W
77
Ch –17 – C – SET
40077
Integer
- - R/W
78
Ch –18 – C – SET
40078
Integer
- - R/W
79
Ch –19 – C – SET
40079
Integer
- - R/W
80
Ch –20 – C – SET
40080
Integer
- - R/W
81
Ch –21 – C – SET
40081
Integer
- - R/W
82
Ch –22 – C – SET
40082
Integer
- - R/W
83
Ch –23 – C – SET
40083
Integer
- - R/W
84
Ch –24 – C – SET
40084
Integer
- - R/W
85
Ch – 1 - 2– CSP Hysteresis
40085
Integer
1
250
R/W
-
86
Ch – 3 - 4– CSP Hysteresis
40086
Integer
1
250
R/W
87
Ch – 5 - 6– CSP Hysteresis
40087
Integer
1
250
R/W
88
Ch – 7 - 8– CSP Hysteresis
40088
Integer
1
250
R/W
89
Ch – 9 - 10– CSP Hysteresis
40089
Integer
1
250
R/W
90
Ch – 11 - 12– CSP Hysteresis
40090
Integer
1
250
R/W
91
Ch – 13 - 14– CSP Hysteresis
40091
Integer
1
250
R/W
92
Ch – 15 - 16– CSP Hysteresis
40092
Integer
1
250
R/W
93
Ch – 17 - 18– CSP Hysteresis
40093
Integer
1
250
R/W
94
Ch – 19 - 20– CSP Hysteresis
40094
Integer
1
250
R/W
95
Ch – 21 - 22– CSP Hysteresis
40095
Integer
1
250
R/W
96
Ch – 23 - 24– CSP Hysteresis
40096
Integer
1
250
R/W
97
Ch–1 - 2 – Input Type
40097
Integer
- - R/W
Refer
Table 52
98
Ch –3 - 4 – Input Type
40098
Integer
- - R/W
99
Ch –5 - 6 – Input Type
40099
Integer
- - R/W
100
Ch –7 - 8 – Input Type
40100
Integer
- - R/W
101
Ch –9 - 10 – Input Type
40101
Integer
- - R/W
102
Ch –11 - 12 – Input Type
40102
Integer
- - R/W
103
Ch –13 - 14 – Input Type
40103
Integer
- - R/W
104
Ch –15 - 16 – Input Type
40104
Integer
- - R/W
105
Ch –17 - 18 – Input Type
40105
Integer
- - R/W
106
Ch –19 - 20 – Input Type
40106
Integer
- - R/W
Page 70
User Manual 70
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REF NO: mVMA/om/101
Issue No: 01
107
Ch –21 - 22– Input Type
40107
Integer
- - R/W
108
Ch –23 - 24 – Input Type
40108
Integer
- - R/W
109
Ch –1 – USER - Z
40109
Integer
- - R/W
Refer
Table 52
110
Ch –2 – USER - Z
40110
Integer
- - R/W
111
Ch –3 – USER - Z
40111
Integer
- - R/W
112
Ch –4 – USER - Z
40112
Integer
- - R/W
113
Ch –5 – USER - Z
40113
Integer
- - R/W
114
Ch –6 – USER - Z
40114
Integer
- - R/W
115
Ch –7 – USER - Z
40115
Integer
- - R/W
116
Ch –8 – USER - Z
40116
Integer
- - R/W
117
Ch –9 – USER - Z
40117
Integer
- - R/W
118
Ch –10 – USER - Z
40118
Integer
- - R/W
119
Ch –11 – USER - Z
40119
Integer
- - R/W
120
Ch –12 – USER - Z
40120
Integer
- - R/W
121
Ch –13 – USER - Z
40121
Integer
- - R/W
122
Ch –14 – USER - Z
40122
Integer
- - R/W
123
Ch –15 – USER - Z
40123
Integer
- - R/W
124
Ch –16 – USER - Z
40124
Integer
- - R/W
125
Ch –17 – USER - Z
40125
Integer
- - R/W
126
Ch –18 – USER - Z
40126
Integer
- - R/W
127
Ch –19 – USER - Z
40127
Integer
- - R/W
128
Ch –20 – USER - Z
40128
Integer
- - R/W
129
Ch –21 – USER - Z
40129
Integer
- - R/W
130
Ch –22 – USER - Z
40130
Integer
- - R/W
131
Ch –23 – USER - Z
40131
Integer
- - R/W
132
Ch –24 – USER - Z
40132
Integer
- - R/W
133
Ch –1 – USER – S
40133
Integer
- - R/W
Refer
Table 52
134
Ch –2 – USER – S
40134
Integer
- - R/W
135
Ch –3 – USER – S
40135
Integer
- - R/W
136
Ch –4 – USER – S
40136
Integer
- - R/W
137
Ch –5 – USER – S
40137
Integer
- - R/W
138
Ch –6 – USER – S
40138
Integer
- - R/W
139
Ch –7 – USER – S
40139
Integer
- - R/W
140
Ch –8 – USER – S
40140
Integer
- - R/W
141
Ch –9 – USER – S
40141
Integer
- - R/W
142
Ch –10 – USER – S
40142
Integer
- - R/W
143
Ch –11 – USER – S
40143
Integer
- - R/W
144
Ch –12 – USER – S
40144
Integer
- - R/W
145
Ch –13 – USER – S
40145
Integer
- - R/W
146
Ch –14 – USER – S
40146
Integer
- - R/W
147
Ch –15 – USER – S
40147
Integer
- - R/W
148
Ch –16 – USER – S
40148
Integer
- - R/W
149
Ch –17 – USER – S
40149
Integer
- - R/W
150
Ch –18 – USER – S
40150
Integer
- - R/W
151
Ch –19 – USER – S
40151
Integer
- - R/W
152
Ch –20 – USER – S
40152
Integer
- - R/W
153
Ch –21 – USER – S
40153
Integer
- - R/W
154
Ch –22 – USER – S
40154
Integer
- - R/W
155
Ch –23 – USER – S
40155
Integer
- - R/W
156
Ch –24 – USER – S
40156
Integer
- - R/W
157
Ch – 1-2 – DP
40157
Integer
0 3 R/W
-
158
Ch – 3-4 – DP
40158
Integer
0 3 R/W
159
Ch – 5-6 – DP
40159
Integer
0 3 R/W
160
Ch – 7-8 – DP
40160
Integer
0 3 R/W
161
Ch – 9-10 – DP
40161
Integer
0 3 R/W
162
Ch – 11-12 – DP
40162
Integer
0 3 R/W
Page 71
User Manual 71
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
163
Ch – 13-14 – DP
40163
Integer
0 3 R/W
164
Ch – 15-16 – DP
40164
Integer
0 3 R/W
165
Ch – 17-18 – DP
40165
Integer
0 3 R/W
166
Ch –19-20 – DP
40166
Integer
0 3 R/W
167
Ch –21-22 – DP
40167
Integer
0 3 R/W
168
Ch –23-24 – DP
40168
Integer
0 3 R/W
169
Ch – 1-2 – ASP1 MAP
40169
Integer
0
32
R/W
Refer
Table 17
Refer
Table 17
170
Ch – 3-4 – ASP1 MAP
40170
Integer
0
32
R/W
171
Ch – 5-6 – ASP1 MAP
40171
Integer
0
32
R/W
172
Ch – 7-8 – ASP1 MAP
40172
Integer
0
32
R/W
173
Ch – 9-10 – ASP1 MAP
40173
Integer
0
32
R/W
174
Ch – 11-12 – ASP1 MAP
40174
Integer
0
32
R/W
175
Ch – 13-14 – ASP1 MAP
40175
Integer
0
32
R/W
176
Ch – 15-16 – ASP1 MAP
40176
Integer
0
32
R/W
177
Ch – 17-18 – ASP1 MAP
40177
Integer
0
32
R/W
178
Ch –19-20 – ASP1 MAP
40178
Integer
0
32
R/W
179
Ch –21-22 – ASP1 MAP
40179
Integer
0
32
R/W
180
Ch –23-24 – ASP1 MAP
40180
Integer
0
32
R/W
181
Ch – 1-2 – ASP2 MAP
40181
Integer
0
32
R/W
182
Ch – 3-4 – ASP2 MAP
40182
Integer
0
32
R/W
183
Ch – 5-6 – ASP2 MAP
40183
Integer
0
32
R/W
184
Ch – 7-8 – ASP2 MAP
40184
Integer
0
32
R/W
185
Ch – 9-10 – ASP2 MAP
40185
Integer
0
32
R/W
186
Ch – 11-12 – ASP2 MAP
40186
Integer
0
32
R/W
187
Ch – 13-14 – ASP2 MAP
40187
Integer
0
32
R/W
188
Ch – 15-16 – ASP2 MAP
40188
Integer
0
32
R/W
189
Ch – 17-18 – ASP2 MAP
40189
Integer
0
32
R/W
190
Ch –19-20 – ASP2 MAP
40190
Integer
0
32
R/W
191
Ch –21-22 – ASP2 MAP
40191
Integer
0
32
R/W
192
Ch –23-24 – ASP2 MAP
40192
Integer
0
32
R/W
193
Ch – 1-2 – CSP MAP
40193
Integer
0
32
R/W
194
Ch – 3-4 – CSP MAP
40194
Integer
0
32
R/W
195
Ch – 5-6 – CSP MAP
40195
Integer
0
32
R/W
196
Ch – 7-8 – CSP MAP
40196
Integer
0
32
R/W
197
Ch – 9-10 – CSP MAP
40197
Integer
0
32
R/W
198
Ch – 11-12 – CSP MAP
40198
Integer
0
32
R/W
199
Ch – 13-14 – CSP MAP
40199
Integer
0
32
R/W
200
Ch – 15-16 – CSP MAP
40200
Integer
0
32
R/W
201
Ch – 17-18 – CSP MAP
40201
Integer
0
32
R/W
202
Ch –19-20 – CSP MAP
40202
Integer
0
32
R/W
203
Ch –21-22 – CSP MAP
40203
Integer
0
32
R/W
204
Ch –23-24 – CSP MAP
40204
Integer
0
32
R/W
Table 47 Holding Registers Parameters – Part 2
Sr.
No
Parameter Description
Modbus
Address
Parameter
Type
Min
Value
(Single
Channel)
Max
Value
(Single
Channel)
Access
Remarks
205
Scan rate
42001
Integer
1
250
R/W
-
206
Square root for Channel 8 – 1
(MSB- LSB)
42002 - H
Bit 0 1
R/W
Refer Table
53and
refer Table 55
207
Square root for Channel 16 - 9
(MSB- LSB)
42002 - L
Bit 0 1
R/W
208
Square root for Channel 24-17
(MSB- LSB)
42003 - H
Bit 0 1
R/W
Page 72
User Manual 72
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
209
CJC
42004 - H
Integer
0 2 R/W
Refer Table 56
210
FCJC
42005
Integer
-10.0
65.0
R/W
-
211
CCJC
42006 - H
Integer
1
24
R/W
-
212
Open Sensor for Channel 8 - 1
(MSB- LSB)
42007 - H
Bit 0 1
R/W
Refer Table
54and refer
Table 57
213
Open Sensor for Channel 16 - 9
(MSB- LSB)
42007 - L
Bit 0 1
R/W
214
Open Sensor for Channel 24 - 17
(MSB- LSB)
42008 - H
Bit 0 1
R/W
215
Percentage Range for Over Reading
Display
42180
Integer
0
10
R/W
-
216
Percentage Range for Under Reading
Display
42181
Integer
0
10
R/W
-
217
Number Of Channel
42009
Integer
1
24
R/W
-
218
Alarm Latch
42010
Integer
0 1 R/W
Refer Table 58
219
Alarm Acknowledge
42011
Integer
- - W
-
220
DO Logic for Relay 8 – 1
(MSB- LSB)
42012 - H
Bit 0 1
R/W
Refer Table 59
221
DO Logic for Open Collector 8 - 1
(MSB- LSB)
42012 - L
Bit 0 1
R/W
222
DO Logic for Open Collector 16 - 9
(MSB- LSB)
42013 - H
Bit 0 1
R/W
223
DO Logic for Open Collector 24 - 17
(MSB- LSB)
42013 - L
Bit 0 1
R/W
224
Relay 1 - 2 - DO Delay
42014
Integer
1
99
R/W
-
225
Relay 3 - 4 - DO Delay
42015
Integer
1
99
R/W
226
Relay 5 - 6 - DO Delay
42016
Integer
1
99
R/W
227
Relay 7 - 8 - DO Delay
42017
Integer
1
99
R/W
228
Open Collector 1 - 2 - DO Delay
42018
Integer
1
99
R/W
229
Open Collector 3- 4 - DO Delay
42019
Integer
1
99
R/W
230
Open Collector 5 - 6 - DO Delay
42020
Integer
1
99
R/W
231
Open Collector 7 - 8 - DO Delay
42021
Integer
1
99
R/W
232
Open Collector 9 - 10 - DO Delay
42022
Integer
1
99
R/W
233
Open Collector 11 - 12 - DO Delay
42023
Integer
1
99
R/W
234
Open Collector 13 - 14 - DO Delay
42024
Integer
1
99
R/W
235
Open Collector 15 - 16 - DO Delay
42025
Integer
1
99
R/W
236
Open Collector 17 - 18 - DO Delay
42026
Integer
1
99
R/W
237
Open Collector 19 - 20 - DO Delay
42027
Integer
1
99
R/W
238
Open Collector 21 - 22 - DO Delay
42028
Integer
1
99
R/W
239
Open Collector 23 - 24 - DO Delay
42029
Integer
1
99
R/W
240
ASP1 Function for Channel 8 - 1
(MSB- LSB)
42030 - H
Bit 0 1
R/W
Refer Table 60
241
ASP1 Function for Channel 16 - 8
(MSB- LSB)
42030 - L
Bit 0 1
R/W
242
ASP1 Function for Channel 24 - 17
(MSB- LSB)
42031 - H
Bit 0 1
R/W
243
ASP1 type for Channel 8 - 1
(MSB- LSB)
42032 - H
Bit 0 1
R/W
Refer Table 61
244
ASP1 type for Channel 16 - 9
(MSB- LSB)
42032 - L
Bit 0 1
R/W
245
ASP1 type for Channel 24 - 17
(MSB- LSB)
42033 - H
Bit 0 1
R/W
246
ASP2 Function for Channel 8 - 1
(MSB- LSB)
42034 - H
Bit 0 1
R/W
Refer Table 60
247
ASP2 Function for Channel 16 - 9
(MSB- LSB)
42034 - L
Bit 0 1
R/W
Page 73
User Manual 73
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
248
ASP2 Function for Channel 24 - 17
(MSB- LSB)
42035 - H
Bit 0 1
R/W
249
ASP2 type for Channel 8 - 1
(MSB- LSB)
42036 - H
Bit 0 1
R/W
Refer Table 61
250
ASP2 type for Channel 16 - 9
(MSB- LSB)
42036 - L
Bit 0 1
R/W
251
ASP2 type for Channel 24 - 17
(MSB- LSB)
42037 - H
Bit 0 1
R/W
252
CSP type for Channel 8 - 1
(MSB- LSB)
42038 - H
Bit 0 1
R/W
Refer Table 61
253
CSP type for Channel 16 - 9
(MSB- LSB)
42038 - L
Bit 0 1
R/W
254
CSP type for Channel 24 - 17
(MSB- LSB)
42039 - H
Bit 0 1
R/W
255
Retransmission Type 1- 2
42040
Integer
0 4 R/W
Refer Table 62
256
Retransmission Type 3 - 4
42041
Integer
0 4 R/W
257
Retransmission Type 5 - 6
42042
Integer
0 4 R/W
258
Retransmission Type 7 - 8
42043
Integer
0 4 R/W
259
Retransmission Direction for
Retransmission 8 - 1 (MSB- LSB)
42044
Bit 0 1
R/W
Refer Table 63
260
Ch - 1 Retransmission Mapping
42501
Integer
0 8 R/W
Refer Table
2021
Refer Table
2021
261
Ch - 2 Retransmission Mapping
42502
Integer
0 8 R/W
262
Ch - 3 Retransmission Mapping
42503
Integer
0 8 R/W
263
Ch - 4 Retransmission Mapping
42504
Integer
0 8 R/W
264
Ch - 5 Retransmission Mapping
42505
Integer
0 8 R/W
265
Ch - 6 Retransmission Mapping
42506
Integer
0 8 R/W
266
Ch - 7 Retransmission Mapping
42507
Integer
0 8 R/W
267
Ch - 8 Retransmission Mapping
42508
Integer
0 8 R/W
268
Ch - 9 Retransmission Mapping
42509
Integer
0 8 R/W
269
Ch - 10 Retransmission Mapping
42510
Integer
0 8 R/W
270
Ch - 11 Retransmission Mapping
42511
Integer
0 8 R/W
271
Ch - 12 Retransmission Mapping
42512
Integer
0 8 R/W
272
Ch - 13 Retransmission Mapping
42513
Integer
0 8 R/W
273
Ch - 14 Retransmission Mapping
42514
Integer
0 8 R/W
274
Ch - 15 Retransmission Mapping
42515
Integer
0 8 R/W
275
Ch - 16 Retransmission Mapping
42516
Integer
0 8 R/W
276
Ch - 17 Retransmission Mapping
42517
Integer
0 8 R/W
277
Ch - 18 Retransmission Mapping
42518
Integer
0 8 R/W
278
Ch - 19 Retransmission Mapping
42519
Integer
0 8 R/W
279
Ch - 20 Retransmission Mapping
42520
Integer
0 8 R/W
280
Ch - 21 Retransmission Mapping
42521
Integer
0 8 R/W
281
Ch - 22 Retransmission Mapping
42522
Integer
0 8 R/W
282
Ch - 23 Retransmission Mapping
42523
Integer
0 8 R/W
283
Ch - 24 Retransmission Mapping
42524
Integer
0 8 R/W
284
Retransmission Value for
Retransmission 8 - 1 (MSB- LSB)
42057
Bit 0 1
R/W
Refer Table 64
285
Retransmission Open Sensor for
Retransmission 8 - 1 (MSB- LSB)
42058
Bit 0 1
R/W
Refer Table 57
286
Machine ID
42059
Integer
1
247
R/W
-
287
Baud Rate COM 1
42060
Integer
0 1 R/W
Refer Table 65
288
Parity COM1
42061
Integer
0 2 R/W
Refer Table 66
Page 74
User Manual 74
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
289
Baud Rate COM 2
42062
Integer
0 1 R/W
Refer Table 65
290
Parity COM2
42063
Integer
0 2 R/W
Refer Table 66
291
Ethernet IP address 1 - 2
42064
Integer
0
255
R/W
-
292
Ethernet IP address 3 - 4
42065
Integer
0
255
R/W
-
293
Subnet Mask for Ethernet 1 - 2
42066
Integer
0
255
R/W
-
294
Subnet Mask for Ethernet 3 - 4
42067
Integer
0
255
R/W
-
295
Gateway for Ethernet 1 - 2
42068
Integer
0
255
R/W
-
296
Gateway for Ethernet 3 - 4
42069
Integer
0
255
R/W
-
297
Favorite Display Parameter
42070
Integer
0 4 R/W
Refer Table 67
298
Ch - 1- 2 - Engineering Unit
42071
Integer
0
32
R/W
Refer Table 23
299
Ch - 3- 4 - Engineering Unit
42072
Integer
0
32
R/W
300
Ch - 5- 6 - Engineering Unit
42073
Integer
0
32
R/W
301
Ch - 7- 8 - Engineering Unit
42074
Integer
0
32
R/W
302
Ch - 9- 10 - Engineering Unit
42075
Integer
0
32
R/W
303
Ch - 11- 12 - Engineering Unit
42076
Integer
0
32
R/W
304
Ch - 13- 14 - Engineering Unit
42077
Integer
0
32
R/W
305
Ch - 15- 16 -Engineering Unit
42078
Integer
0
32
R/W
306
Ch - 17- 18 - Engineering Unit
42079
Integer
0
32
R/W
307
Ch - 19- 20 - Engineering Unit
42080
Integer
0
32
R/W
308
Ch - 21- 22 -Engineering Unit
42081
Integer
0
32
R/W
309
Ch - 23- 24 -Engineering Unit
42082
Integer
0
32
R/W
310
LED Configuration
42083
Integer
0 2 R/W
Refer Table 68
311
Time Out
42084
Integer
10
100
R/W
-
312
Filter
42085
Integer
0 9 R/W
-
313
Periodic Logging Enable
42086 – L
Integer
0 1 R/W
Refer Table 69
314
Event Logging Enable
42086 - H
Integer
0 1 R/W
315
Event Log Channel mapping for
Channel 8 - 1 (MSB- LSB)
42087 – H
Bit 0 1
R/W
Refer Table 55
316
Event Log Channel mapping for
Channel 16 - 9 (MSB- LSB)
42087 - L
Bit
R/W
317
Event Log Channel mapping for
Channel 24 - 17 (MSB- LSB)
42088 - H
Bit
R/W
318
Periodic Log Mode
42089 - L
Integer
0 1 R/W
Refer Table 70
319
Event Log Mode
42089 - H
Integer
0 1 R/W
320
Periodic Memory Reset
42090 - L
Integer
0 1 R/W
Refer Table 55
321
Event Memory Reset
42090 - H
Integer
0 1 R/W
322
RTC - Hour
42091
Integer
0
23
R/W
-
323
RTC - Minute
42092
Integer
0
59
R/W
-
324
RTC - Second
42093
Integer
0
59
R/W
-
325
RTC - Date
42094
Integer
1
31
R/W
-
326
RTC - Month
42095
Integer
1
12
R/W
-
327
RTC - Year
42096
Integer
1
255
R/W
-
328
Periodic Log time – Hour
42097
Integer
0
23
R/W
-
329
Periodic Log time – Minute
42098
Integer
0
59
R/W
-
330
Periodic Log time - Second
42099
Integer
0
59
R/W
-
331
Periodic Log Channel mapping for
Channel 8 - 1 (MSB- LSB)
42177 – H
Bit 0 1
R/W
Refer Table 55
332
Periodic Log Channel mapping for
Channel 16 - 9 (MSB- LSB)
42177 - L
Bit 0 1
R/W
Page 75
User Manual 75
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
333
Periodic Log Channel mapping for
Channel 24 - 17 (MSB- LSB)
42178 - H
Bit 0 1
R/W
334
Slot Selection For Vibration Input Type
42182
Bit 0 1
R/W
Table 48 Holding Registers Parameters – Part 3 and Calibration Registers Parameters
Sr.
No
Parameter Description
Modbus
Address
Parameter
Type
Min
Value
Max
Value
Access
Remarks
342
Ambient calibration
42101
Integer
-10.0
65.0
W
343
Ch –1 – CALZ
42102
Integer
- - W
Refer
Table 52
344
Ch –2 – CALZ
42103
Integer
- - W
345
Ch –3 – CALZ
42104
Integer
- - W
346
Ch –4 – CALZ
42105
Integer
- - W
347
Ch –5 – CALZ
42106
Integer
- - W
348
Ch –6 – CALZ
42107
Integer
- - W
349
Ch –7 – CALZ
42108
Integer
- - W
350
Ch –8 – CALZ
42109
Integer
- - W
351
Ch –9 – CALZ
42110
Integer
- - W
352
Ch –10 – CALZ
42111
Integer
- - W
353
Ch –11 – CALZ
42112
Integer
- - W
354
Ch –12 – CALZ
42113
Integer
- - W
355
Ch –13 – CALZ
42114
Integer
- - W
356
Ch –14 – CALZ
42115
Integer
- - W
357
Ch –15 – CALZ
42116
Integer
- - W
358
Ch –16 – CALZ
42117
Integer
- - W
359
Ch –17 – CALZ
42118
Integer
- - W
360
Ch –18 – CALZ
42119
Integer
- - W
361
Ch –19 – CALZ
42120
Integer
- - W
362
Ch –20 – CALZ
42121
Integer
- - W
363
Ch –21 – CALZ
42122
Integer
- - W
364
Ch –22 – CALZ
42123
Integer
- - W
365
Ch –23 – CALZ
42124
Integer
- - W
366
Ch –24 – CALZ
42125
Integer
- - W
367
Ch –1 – CALS
42126
Integer
- - W
Refer
Table 52
368
Ch –2 – CALS
42127
Integer
- - W
369
Ch –3 – CALS
42128
Integer
- - W
370
Ch –4 – CALS
42129
Integer
- - W
371
Ch –5 – CALS
42130
Integer
- - W
372
Ch –6 – CALS
42131
Integer
- - W
373
Ch –7 – CALS
42132
Integer
- - W
374
Ch –8 – CALS
42133
Integer
- - W
375
Ch –9 – CALS
42134
Integer
- - W
376
Ch –10 – CALS
42135
Integer
- - W
377
Ch –11 – CALS
42136
Integer
- - W
Page 76
User Manual 76
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
378
Ch –12 – CALS
42137
Integer
- - W
379
Ch –13 – CALS
42138
Integer
- - W
380
Ch –14 – CALS
42139
Integer
- - W
381
Ch –15 – CALS
42140
Integer
- - W
382
Ch –16 – CALS
42141
Integer
- - W
383
Ch –17 – CALS
42142
Integer
- - W
384
Ch –18 – CALS
42143
Integer
- - W
385
Ch –19 – CALS
42144
Integer
- - W
386
Ch –20 – CALS
42145
Integer
- - W
387
Ch –21 – CALS
42146
Integer
- - W
388
Ch –22 – CALS
42147
Integer
- - W
389
Ch –23 – CALS
42148
Integer
- - W
390
Ch –24 – CALS
42149
Integer
- - W
391
Retransmission 1 RTRZ
42150
Integer
- - W
-
392
Retransmission 2 RTRZ
42151
Integer
- - W
393
Retransmission 3 RTRZ
42152
Integer
- - W
394
Retransmission 4 RTRZ
42153
Integer
- - W
395
Retransmission 5 RTRZ
42154
Integer
- - W
396
Retransmission 6 RTRZ
42155
Integer
- - W
397
Retransmission 7 RTRZ
42156
Integer
- - W
398
Retransmission 8 RTRZ
42157
Integer
- - W
399
Retransmission 1 RTRS
42158
Integer
- - W
-
400
Retransmission 2 RTRS
42159
Integer
- - W
401
Retransmission 3 RTRS
42160
Integer
- - W
402
Retransmission 4 RTRS
42161
Integer
- - W
403
Retransmission 5 RTRS
42162
Integer
- - W
404
Retransmission 6 RTRS
42163
Integer
- - W
405
Retransmission 7 RTRS
42164
Integer
- - W
406
Retransmission 8 RTRS
42165
Integer
- - W
407
Password 1 for program mode
42166
Integer
0
9999
R/W
-
408
Password 2 for Configuration
mode
42167
Integer
0
9999
R/W
-
409
Password 3 for Calibration mode
42168
Integer
0
9999
R/W
-
410
Password 4 for Security mode
42169
Integer
0
9999
R/W
-
411
Factory reset parameter
42170
Integer
0 2 R/W
Refer
Table
73Error!
Reference
source
not
found.
412
Watchdog Mapping
42175
Integer
0
32
R/W
Refer
Table 17
413
Watchdog Output
42176
Integer
0 1 R/W
Refer
Error!
Reference
source
not
found.
Page 77
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REF NO: mVMA/om/101
Issue No: 01
Table 49 Holding Registers Parameters – Part 4
Sr.
No
Parameter Description
Modbus
Address
Parameter
Type
Min
Value
Max
Value
Access
Remarks
1
Channel – 1 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42201
42202
42203
Integer
- - R / W
Refer
Table 50
and Table
51 and
note.
2
Channel – 2 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42204
42205
42206
Integer
- - R / W
3
Channel – 3 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42207
42208
42209
Integer
- - R / W
4
Channel – 4 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42210
42211
42212
Integer
- - R / W
5
Channel – 5 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42213
42214
42215
Integer
- - R / W
6
Channel – 6 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42216
42217
42218
Integer
- - R / W
7
Channel – 7 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42219
42220
42221
Integer
- - R / W
8
Channel – 8 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42222
42223
42224
Integer
- - R / W
9
Channel – 9 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42225
42226
42227
Integer
- - R / W
10
Channel – 10 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42228
42229
42230
Integer
- - R / W
11
Channel – 11 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42231
42232
42233
Integer
- - R / W
12
Channel – 12 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42234
42235
42236
Integer
- - R / W
13
Channel – 13 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42237
42238
42239
Integer
- - R / W
14
Channel – 14 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42240
42241
42242
Integer
- - R / W
15
Channel – 15 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42243
42244
42245
Integer
- - R / W
16
Channel – 16 ASCII code for
42246
Integer
- - R / W
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REF NO: mVMA/om/101
Issue No: 01
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42247
42248
Refer
Table
50and
Table
51and
note
17
Channel – 17 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42249
42250
42251
Integer
- - R / W
18
Channel – 18 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42252
42253
42254
Integer
- - R / W
19
Channel – 19 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42255
42256
42257
Integer
- - R / W
20
Channel – 20 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42258
42259
42260
Integer
- - R / W
21
Channel – 21 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42261
42262
42263
Integer
- - R / W
22
Channel – 22 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42264
42265
42266
Integer
- - R / W
23
Channel – 23 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42267
42268
42269
Integer
- - R / W
24
Channel – 24 ASCII code for
Digit -1 (Left Most Alpha Numeric
Digit) to Digit -6 (Right Most Alpha
Numeric Digit)
42270
42271
42272
Integer
- - R / W
Table 50 Byte arrangement for Programmable Display
Parameter
Programmable Display for
Channel No. 1
Programmable Display for
Channel No. 1
Programmable Display for
Channel No. 1
Modbus
Address
42201
42202
42203
Bit No.
Bit No. 15- 8
Bit No. 7- 0
Bit No. 15- 8
Bit No. 7- 0
Bit No. 15- 8
Bit No. 7- 0
Description
ASCII Code
for Left Most
Digit
(Digit No. 1)
ASCII Code
for
Digit No. 2
ASCII Code
for
Digit No. 3
ASCII Code
for
Digit No. 4
ASCII Code
for
Digit No. 5
ASCII Code
for Right Most
Digit
(Digit No. 6)
Above mentioned bit arrangement is applicable to other channels as explained next.
Table 51 Parameters for Programmable Display for other channels
Channel
No.
Modbus Address for
Digit 1 and Digit 2
Modbus Address for
Digit 3 and Digit 4
Modbus Address for
Digit 5 and Digit 6
2
42204
42205
42206
3
42207
42208
42209
4
42210
42211
42212
5
42213
42214
42215
6
42216
42217
42218
7
42219
42220
42221
8
42222
42223
42224
9
42225
42226
42227
10
42228
42229
42230
Page 79
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REF NO: mVMA/om/101
Issue No: 01
11
42231
42232
42233
12
42234
42235
42236
13
42237
42238
42239
14
42240
42241
42242
15
42243
42244
42245
16
42246
42247
42248
17
42249
42250
42251
18
42252
42253
42254
19
42255
42256
42257
20
42258
42259
42260
21
42261
42262
42263
22
42264
42265
42266
23
42267
42268
42269
24
42270
42271
42272
Note : In programmable display mode, user can program 6 digit Alphanumeric display for channel
name by giving ASCII value of characters “- , . , / , 0 to 9, < , > , A to Z , \ , space”. User can set
different tag name to different channels. Note that, this programmable display can only be set by
means of configuration software and not by front keypad.
Table 52 Input Type Selection Table
Input Type
I/P no
(Decimal)
I/P No.
(Hex)
Type Display
Zero
Span
Resolution
None
0
0 x 00
none
- - - E 1
0 x 01
E-tc
-200
1000
0.1°C
J
2
0 x 02
J-tc
-200
1200
0.1°C K 3
0 x 03
K-tc
-200
1370
0.1°C T 4
0 x 04
T-tc
-200
400
0.1°C B 5
0 x 05
B-tc
450
1800
1°C R 6
0 x 06
R-tc
0
1750
1°C S 7
0 x 07
S-tc
0
1750
1°C N 8
0 x 08
n-tc
0
1300
0.1°C
RTD
9
0 x 09
RTD
-199.9
850.0
0.1°C
CU53
10
0 x 0A
Cu53
-210.0
210.0
0.1°C
NI120
11
0 x 0B
Ni120
-70.0
210.0
0.1°C
-10 TO 20
mV
12
0 x 0C
-10.20mV
-1999
9999
1 Count
0 to 100 mV
13
0 x 0D
0-100mv
-1999
9999
4 to 20 mA
14
0 x 0E
4-20mA
-1999
9999
0 to 20 mA
15
0 x 0F
0-20ma
-1999
9999
0 to 5 V
16
0 x 10
0-5v
-1999
9999
1 to 5 V
17
0 x 11
1-5V
-1999
9999
0 to 10 V
18
0 x 12
0-10V
-1999
9999
Acceleration
RMS
19
0x14
Acc.rms
0
50.0
0.1
Page 80
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REF NO: mVMA/om/101
Issue No: 01
Acceleration
PK
20
0x15
Acc.pk
Acceleration
PK-PK
21
0x16
Acc.p2p
Velocity RMS
22
0x17
Vel.rms
0
99.9
Velocity PK
23
0x18
Vel.pk
Velocity PK-
PK
24
0x19
Vel.p2p
Displacement
PK-PK
25
0x1A
Disp2p
0
2000
1
Table 53 Bit accessible Holding Register Parameter – Square Root
Parameter
Square root
Square root
Modbus
Address
42002
42003
Bit No.
15
14
13
12
11
10 9 8 7 6 5 4 3 2 1 0 15
14
13
12
11
10 9 8 7 6 5 4 3 2 1
0
Description
Channel – 8
Channel – 7
Channel – 6
Channel – 5
Channel – 4
Channel – 3
Channel – 2
Channel – 1
-
Channel – 16
Channel – 15
Channel – 14
Channel – 13
Channel – 12
Channel – 11
Channel – 10
Channel – 9
Channel – 24
Channel – 23
Channel – 22
Channel – 21
Channel – 20
Channel – 19
Channel – 18
Channel – 17
- - - - - - - - -
Above mentioned bit arrangement is applicable to other parameters as explained next .
Table 54 Bit accessible Holding Register Parameter – Others
Parameter
Open Sensor
Open Sensor
Modbus
Address
42007
42008
Parameter
ASP1 Function
ASP1 Function
Modbus
Address
42030
42031
Parameter
ASP1 Type
ASP1 Type
Modbus
Address
42032
42033
Parameter
ASP2 Function
ASP2 Function
Modbus
Address
42034
42035
Parameter
ASP2 Type
ASP2 Type
Modbus
Address
42036
42037
Parameter
CSP Type
CSP Type
Modbus
Address
42038
42039
Parameter
Log Channel
Log Channel
Modbus
Address
42087
42088
Page 81
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REF NO: mVMA/om/101
Issue No: 01
Table 55
Parameter Applicability
Selection
Table 56
CJC Selection
Table 57
Open Sensor
Selection
Table 58
Alarm Latch Selection
Modbus
Index
Parameter
value
Modbus
Index
Parameter
value
Modbus
Index
Parameter
value
Modbus
Index
Parameter
value
0
NO
0
ACJC
0
DOWN
0
OFF 1 YES
1
FCJC
1
UP 1 ON
2
CCJC
Table 59
DO (Digital Output)
Logic Selection
Table 60
Set Point Function
Selection
Table 61
Set Point Type
Selection
Table 62
Retransmission Type
Selection
Modbus
Index
Parameter
value
Modbus
Index
Parameter
value
Modbus
Index
Parameter
value
Modbus
Index
Parameter
value
0
NORMAL
0
ALARM
0
LOW
0
0 - 20 mA
1
FAIL SAFE
1
TRIP
1
HIGH
1
4 - 20 mA
2
0-5 V
3
1- 5 v
4
0 - 10 V
Table 63
Retransmission
Direction Selection
Table 64
Retransmission
Value Selection
Table 65
COM Port Baud Rate
Selection
Table 66
COM Parity Selection
Modbus
Index
Parameter
value
Modbus
Index
Parameter
value
Modbus
Index
Parameter
value
Modbus
Index
Parameter value
0
REVERSE
0
MINIMUM
0
9600
0
Parity None
Stop Bit 2
1
DIRECT
1
MAXIMUM
1
19200
1
Parity Odd
Stop Bit 1
2
57600
2
Parity Even
Stop Bit 1
Table 67
Favorite Display Selection
Table 68
LED Configuration Selection
Table 69
Logging Enable
Selection
Table 70
Log Mode Selection
Modbus
Index
Parameter value
Modbus
Index
Parameter value
Modbus
Index
Parameter
value
Modbus
Index
Parameter
value
0
INPUT TYPE
0
ALARM STATUS -
CONTROL STATUS
0
STOP
0
HOLD
1
Periodic Mem. %
1
ALARM 1 STATUS-
ALARM 2 STATUS
1
START
1
OVERLAP
2
Event Mem. %
2
ALARM STATUS -
OPEN COLLECTOR
STATUS
3
Ambient
4
Engg. Unit
5
Serial No.
6
Programmable
Display
7
Periodic Record
No.
8
Event Record No.
Page 82
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REF NO: mVMA/om/101
Issue No: 01
Table 71
Table 72
Table 73
Factory Reset Parameters
WatchDog Output
USB Periodic Fetch Mode
Modbus
Index
Parameter value
Modbus
Index
Parameter value
Modbus
Index
Parameter value
0
Calibration Values
0
Disable
0
USB. Periodic Fetch
Full
1
Parameters Values
1
Enable
1
USB. Periodic Fetch
by Time
2
All Values
Page 83
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REF NO: mVMA/om/101
Issue No: 01
11. TROUBLESHOOTING
If the operating display does not appear after turning on the Vibration Monitor‟s power,
follow the measures in the procedure below.
If a problem appears complicated, contact our sales representative.
Page 84
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REF NO: mVMA/om/101
Issue No: 01
APPENDIX – A PV STATUS DURING SENSOR BURN OUT
CONDITIONS
PV INPUT STATUS DISPLAY DURING BURNOUT CONDITION:
Table 74 PV Status during Burn Out Condition
Input type
Display
Message
E
OPEN(oPEn)
J
OPEN
K
OPEN
T
OPEN
B
OPEN
R
OPEN
S
OPEN
N
OPEN
RTD
OPEN
CU53
OPEN
NI120
OPEN
-10 to 20mV
OPEN
0 to 100 mV
OPEN
4 to 20mAmp
OPEN
0 to 20mAmp
PV LOW
0 to 5V
PV LOW
1 to 5V
OPEN
0 to 10V
PV LOW
Acceleration RMS
OPEN
Acceleration PK
OPEN
Acceleration PK-PK
OPEN
Velocity RMS
OPEN
Velocity PK
OPEN
Velocity PK-PK
OPEN
Displacement PK-
PK
OPEN
Note: If set PV_low/PV_high for input type is less then maximum value of zero and span then process
value will display readings above 5% of display range(User set PV_low / PV_High), then after it will
show oVER/UnDR (OVER/UNDER) message until value crosses maximum value of Sensor range.
Process value greater then maximum value of zero/span then display will show oPEn (OPEN)
message. Retransmission o/p (Optional) will follow 5% of display range and then it will give fixed o/p
depending up on OPEN sensor selection. In case of linear inputs scaling is applied then during OPEN
sensor condition it may not show oPEn (OPEN) message instead it will show either oVER/UnDR
(OVER/UNDER).
For Vibration input type under condition is not applicable only over and open condition applicable.
Page 85
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REF NO: mVMA/om/101
Issue No: 01
RETRAMISSION OUTPUT TABLE FOR OPEN /OVER /UNDER CONDITION (Optional):
Table 75 Retransmission Output during Open/Over/Under Condition
RETRASMISSIO
N
VARIABLE
SCALE
ACTION
OPEN
OVER
UNDER
ERROR
4-20mamp
PV
UP
DIR
20.8
20.8
3.2 -
PV
DOWN
REV
20.8
3.2
20.8 -
PV
UP
REV
3.2
3.2
20.8 -
PV
DOWN
DIR
3.2
20.8
3.2
-
NOTE: - 1) For Retransmission output type 0-20mamp, 0-10v, 1-5v and 0-5v also applicable
according to above table.
2) Also, 0-20mamp, 0-10v and 0-5v minimum output value will be 0mamp and 0v
respectively.
Page 86
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REF NO: mVMA/om/101
Issue No: 01
APPENDIX – B HOW TO FETCH HISTORICAL DATA?
HOW TO FETCH HISTORICAL DATA :
1. For Periodic Logging:
Periodic Data logging Record Frame Detail:
Parameter Detail
Bytes
Log Frame detection (101,102)
2
Record Number
4
Time Stamp
6
No of Bytes for PV
(2* Channels Selected for logging)
Total Bytes in 1 record =
12 + (2* Channels Selected for logging)
Data Fetching Method:
Page 87
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REF NO: mVMA/om/101
Issue No: 01
Modbus Address for Periodic Data fetching:
Sr.
No
Parameter Description
Modbus
Address
Parameter
Type
Access
Remarks
1
Data Fetched Periodic Log
42301-
42375
Integer R -
2
Hold Data
42377
Integer
R/W
- 3 Fetch Data
42376
Integer
R/W
-
4
Total Periodic Records
42378-
42379
Integer
R
42378 [Higher byte]
42379[Lower Byte]
5
Log Roll Over counter for Overlap
Mode
42380
Integer R -
6
Fetch mode
42381
Integer
R/W
Description :
o For Data logging Flash Memory is used so data will be fetched in the form of multiple records.
Flash page size is of 256 bytes.
o The record length is based on Channel number for log selection
o So in from below equation we can get how many records we can get from 1 page i.e.
Records per page = (Integer) (256 / Total Bytes in 1 record)
o Example for Fetching data :
Example 1 :
If we have selected 8 channels for periodic data logging so that
Total Bytes in 1 record = 12 + (2 * 8) = 28
Record Per page = 256 / 28 = 9(Odd Number)
So in this case for fetching data, follow below procedure:
1. Write Hold Data = 1
2. Write Fetch Data = 1
3. Data for first 4 records are loaded into data registers
4. Write Fetch Data = 1
5. Data for record number 5 to 9 will be loaded into data registers
6. Write Fetch data = 1
7. Data for record number 10 to 13 will be loaded into data registers
8. Write Fetch data = 1
9. Data for record number 14 to 18 will be loaded into data registers
10. So in same manner data registers will be filled with 4 records first and then 5 records.
11. After all data fetch Write Hold Data = 0.
Example 2 :
If we have selected 24 channels for periodic data logging so that
Total Bytes in 1 record = 12 + (2 * 24) = 60
Record Per page = 256 / 60 = 4(Even Number)
So in this case for fetching data follow below procedure:
1. Write Hold Data = 1
2. Write Fetch Data = 1
3. Data for first 2 records are loaded into data registers
4. Write Fetch Data = 1
5. Data for record number 3 - 4 will be loaded into data registers
6. Write Fetch data = 1
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REF NO: mVMA/om/101
Issue No: 01
7. Data for record number 5 - 6 will be loaded into data registers
8. Write Fetch data = 1
9. Data for record number 7 - 8 will be loaded into data registers
10. So in same manner data registers will be filled with 2 – 2 records.
11. After all data fetch Write Hold Data = 0.
Note :
In periodic data fetching by time or full fetch, total number of records fetched will be vary
from Total number of Records fetched minus 0 to 18.e.g. total number of fetched records
are 1000 then in file records will be 982 to 1000 depending upon Number of log channels
selected.
In fetch by time mode data will be fetched perfectly only when logging is continuously ON
and no power OFF after logging is started.
2. For Event Logging:
Event Data logging Record Frame Detail:
Parameter Detail
Bytes
Log Frame detection (101,102)
2
Record Number
4
Time Stamp
6
Channel Number
1
Process Value
2
Alarm-1/2[Bit 0 and Bit 1],Alarm Status[Bit 2], LED Status[Bit 3], DO
Status[Bit 4]
1
Total Bytes in 1 record =
16
Data Fetching method is same as periodic logging.
Modbus Address for Event Data fetching:
Sr.
No
Parameter Description
Modbus
Address
Parameter
Type
Access
Remarks
1
Data Fetched Event Log
42401-
42356
Integer
R
-
2
Hold Event Data
42460
Integer
R/W
-
3
Fetch Event Data
42459
Integer
R/W
-
4
Total Events
42457-
42458
Integer
R
42457[Higher byte]
42458[Lower Byte]
5
Log Roll Over counter for Overlap
Mode
42461
Integer
R
-
Description:
o Here we have used Flash Memory so that data will be fetched in the form of multiple records.
Flash page size is of 256 bytes.
o The record length is fixed as 16 bytes.
o Record per page = 14
o Not required to set fetch mode
o Example for Fetching data :
Example 1 :
1. Write Hold Event Data = 1
2. Write Fetch Event Data = 1
3. Data for first 7 records are loaded into data registers
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REF NO: mVMA/om/101
Issue No: 01
4. Write Fetch Data = 1
5. Data for record number 7 to 14 will be loaded into data registers
6. Write Fetch data = 1
7. Data for record number 15 to 21 will be loaded into data registers
8. Write Fetch data = 1
9. Data for record number 22 to 28 will be loaded into data registers
10. So in same menner data registers will be filled with 7- 7records.
11. After all data fetch Write Hold Event Data = 0.
Note :
In Event data fetching, total number of records fetched will be vary from Total number of
Records fetched minus 0 to 14.e.g. total number of fetched records are 1000 then in file
records will be 986 to 1000.
Page 90
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REF NO: mVMA/om/101
Issue No: 01
APPENDIX C - PROFIBUS DETAIL
C.1 Introduction
The PROFIBUS Option supports the PROFIBUS-DP variant of the PROFIBUS protocol which is
designed especially for communication between automatic control systems and distributed I/O at the
device level. It is most often used to allow a central Programmable Logic Controller or PC based
control system to use external „slave‟ devices for I/O or specialized functions. The principal advantage
is that these devices may be distributed around a machine, thereby saving on the cost of point to
point wiring. The „open‟ nature of the network also permits equipment from different manufacturers to
be mixed on the same bus.
C.2 Communication Protocol
PROFIBUS is a vendor independent, open field bus standard for a wide range of applications in
manufacturing, process and building automation. Vendor independence and openness are
guaranteed by the PROFIBUS standard. With PROFIBUS, devices from different manufacturers can
inter-communicate. Suitable interfaces exist for PLCs, which include the Siemens, Mitsubishi and
Allen Bradley range.
The PROFIBUS-DP network uses a high speed version of the RS485 standard, permitting baud rates
of up to 12Mbaud. A maximum of 32 PROFIBUS-DP stations (nodes) may be contained within a
single network segment. Use of RS485 repeaters allows a total of up to 126 stations. PROFIBUS-DP
is a multimaster, master-slave, token passing network. More detailed information, including a detailed
guide to products available, may be obtained from the various world-wide PROFIBUS user
organizations. You will find contact information in trade magazines or by reference to
http://www.profibus.com on the World Wide Web.
PROFIBUS is available in two other types, aimed at different application areas, as follows:
1. PROFIBUS-PA is designed especially for process automation. It permits sensors and actuators to
be connected on one common bus line even in intrinsically safe areas. PROFIBUS PA permits data
communication and power over the bus, using intrinsically safe, 2-wire technology according to the
international standard IEC 1158-2, but may also be used on the standard RS485 cabling for nonintrinsically safe applications.
2. PROFIBUS-FMS is the general purpose solution for communication tasks at the cell level.
Refer following Addresses of different parameters for Profibus Communication
Table 76 Addresses for Profibus Communication
Process Value Addresses
Sr.
No.
Analog
Parameters
Absolute
Address
(word)
Absolute Address
(Byte)
Type of
Access
Parameter
Type
Values
Applicable
1
CH1
1
1 (higher Byte)
Read only
Int
NA
2 (lower Byte)
2
CH2
2
3 (higher Byte)
Read only
Int
NA
4 (lower Byte)
3
CH3
3
5 (higher Byte)
Read only
Int
NA
6 (lower Byte)
4
CH4
4
7 (higher Byte)
Read only
Int
NA
8 (lower Byte)
5
CH5
5
9 (higher Byte)
Read only
Integer
NA
Page 91
User Manual 91
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
10 (lower Byte)
6
CH6
6
11 (higher Byte)
Read only
Integer
NA
12 (lower Byte)
7
CH7
7
13 (higher Byte)
Read only
Integer
NA
14 (lower Byte)
8
CH8
8
15 (higher Byte)
Read only
Integer
NA
16 (lower Byte)
9
CH9
9
17 (higher Byte)
Read only
Integer
NA
18 (lower Byte)
10
CH10
10
19 (higher Byte)
Read only
Integer
NA
20 (lower Byte)
11
CH11
11
21 (higher Byte)
Read only
Integer
NA
22 (lower Byte)
12
CH12
12
23 (higher Byte)
Read only
Integer
NA
24 (lower Byte)
13
CH13
13
25 (higher Byte)
Read only
Integer
NA
26 (lower Byte)
14
CH14
14
27 (higher Byte)
Read only
Integer
NA
28 (lower Byte)
15
CH15
15
29 (higher Byte)
Read only
Integer
NA
30 (lower Byte)
16
CH16
16
31 (higher Byte)
Read only
Integer
NA
32 (lower Byte)
17
CH17
17
33 (higher Byte)
Read only
Integer
NA
34 (lower Byte)
18
CH18
18
35 (higher Byte)
Read only
Integer
NA
36 (lower Byte)
19
CH19
19
37 (higher Byte)
Read only
Integer
NA
38 (lower Byte)
20
CH20
20
39 (higher Byte)
Read only
Integer
NA
40 (lower Byte)
21
CH21
21
41 (higher Byte)
Read only
Integer
NA
42 (lower Byte)
22
CH22
22
43 (higher Byte)
Read only
Integer
NA
44 (lower Byte)
23
CH23
23
45 (higher Byte)
Read only
Integer
NA
46 (lower Byte)
24
CH24
24
47 (higher Byte)
Read only
Integer
NA
48 (lower Byte)
Set Point 1 read addresses (ASP1)
Sr. No.
Analog
Parameters
Absolute
Address
(word)
Absolute Address
(Byte)
Type of
Access
Parameter
Type
Values
Applicable
25
ASP1 for Ch-1
25
49 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
50 (lower Byte)
26
ASP1 for Ch-2
26
51 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
52 (lower Byte)
27
ASP1 for Ch-3
27
53 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
54 (lower Byte)
Page 92
User Manual 92
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
28
ASP1 for Ch-4
28
55 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
56 (lower Byte)
29
ASP1 for Ch-5
29
57 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
58 (lower Byte)
30
ASP1 for Ch-6
30
59 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
60 (lower Byte)
31
ASP1 for Ch-7
31
61 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
62 (lower Byte)
32
ASP1 for Ch-8
32
63 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
64 (lower Byte)
33
ASP1 for Ch-9
33
65 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
66 (lower Byte)
34
ASP1 for Ch-10
34
67 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
68 (lower Byte)
35
ASP1 for Ch-11
35
69 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
70 (lower Byte)
36
ASP1 for Ch-12
36
71 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
72 (lower Byte)
37
ASP1 for Ch-13
37
73 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
74 (lower Byte)
38
ASP1 for Ch-14
38
75 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
76 (lower Byte)
39
ASP1 for Ch-15
39
77 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
78 (lower Byte)
40
ASP1 for Ch-16
40
79 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
80 (lower Byte)
41
ASP1 for Ch-17
41
81 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
82 (lower Byte)
42
ASP1 for Ch-18
42
83 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
84 (lower Byte)
43
ASP1 for Ch-19
43
85 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
86 (lower Byte)
44
ASP1 for Ch-20
44
87 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
88 (lower Byte)
45
ASP1 for Ch-21
45
89 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
90 (lower Byte)
46
ASP1 for Ch-22
46
91 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
92 (lower Byte)
47
ASP1 for Ch-23
47
93 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
94 (lower Byte)
48
ASP1 for Ch-24
48
95 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
96 (lower Byte)
Set Point 1 write addresses (ASP1)
Sr. No.
Analog
Parameters
Absolute
Address
(word)
Absolute Address
(Byte)
Type of
Access
Parameter
Type
Values
Applicable
49
ASP1 for Ch-1
1
1 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
2 (lower Byte)
50
ASP1 for Ch-2
2
3 (higher Byte)
write only
Integer
Ind. zero to
Page 93
User Manual 93
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
4 (lower Byte)
Ind. Span
51
ASP1 for Ch-3
3
5 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
6 (lower Byte)
52
ASP1 for Ch-4
4
7 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
8 (lower Byte)
53
ASP1 for Ch-5
5
9 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
10 (lower Byte)
54
ASP1 for Ch-6
6
11 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
12 (lower Byte)
55
ASP1 for Ch-7
7
13 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
14 (lower Byte)
56
ASP1 for Ch-8
8
15 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
16 (lower Byte)
57
ASP1 for Ch-9
9
17 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
18 (lower Byte)
58
ASP1 for Ch-10
10
19 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
20 (lower Byte)
59
ASP1 for Ch-11
11
21 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
22 (lower Byte)
60
ASP1 for Ch-12
12
23 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
24 (lower Byte)
61
ASP1 for Ch-13
13
25 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
26 (lower Byte)
62
ASP1 for Ch-14
14
27 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
28 (lower Byte)
63
ASP1 for Ch-15
15
29 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
30 (lower Byte)
64
ASP1 for Ch-16
16
31 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
32 (lower Byte)
65
ASP1 for Ch-17
17
33 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
34 (lower Byte)
66
ASP1 for Ch-18
18
35 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
36 (lower Byte)
67
ASP1 for Ch-19
19
37 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
38 (lower Byte)
68
ASP1 for Ch-20
20
39 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
40 (lower Byte)
69
ASP1 for Ch-21
21
41 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
42 (lower Byte)
70
ASP1 for Ch-22
22
43 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
44 (lower Byte)
71
ASP1 for Ch-23
23
45 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
46 (lower Byte)
72
ASP1 for Ch-24
24
47 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
48 (lower Byte)
Page 94
User Manual 94
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
Set Point 2 read addresses (ASP2)
Sr. No.
Analog
Parameters
Absolute
Address
(word)
Absolute Address
(Byte)
Type of
Access
Parameter
Type
Values
Applicable
73
ASP2 for Ch-1
49
97 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
98 (lower Byte)
74
ASP2 for Ch-2
50
99 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
100 (lower Byte)
75
ASP2 for Ch-3
51
101 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
102 (lower Byte)
76
ASP2 for Ch-4
52
103 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
104 (lower Byte)
77
ASP2 for Ch-5
53
105 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
106 (lower Byte)
78
ASP2 for Ch-6
54
107 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
108 (lower Byte)
79
ASP2 for Ch-7
55
109 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
110 (lower Byte)
80
ASP2 for Ch-8
56
111 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
112 (lower Byte)
81
ASP2 for Ch-9
57
113 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
114 (lower Byte)
82
ASP2 for Ch-10
58
115 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
116 (lower Byte)
83
ASP2 for Ch-11
59
117 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
118 (lower Byte)
84
ASP2 for Ch-12
60
119 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
120 (lower Byte)
85
ASP2 for Ch-13
61
121 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
122 (lower Byte)
86
ASP2 for Ch-14
62
123 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
124 (lower Byte)
87
ASP2 for Ch-15
63
125 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
126 (lower Byte)
88
ASP2 for Ch-16
64
127 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
128 (lower Byte)
89
ASP2 for Ch-17
65
129 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
130 (lower Byte)
90
ASP2 for Ch-18
66
131 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
132 (lower Byte)
91
ASP2 for Ch-19
67
133 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
134 (lower Byte)
92
ASP2 for Ch-20
68
135 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
136 (lower Byte)
93
ASP2 for Ch-21
69
137 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
138 (lower Byte)
94
ASP2 for Ch-22
70
139 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
140 (lower Byte)
95
ASP2 for Ch-23
71
141 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
142 (lower Byte)
96
ASP2 for Ch-24
72
143 (higher Byte)
Read only
Integer
Ind. zero to
Page 95
User Manual 95
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
144 (lower Byte)
Ind. Span
Set Point 2 write addresses (ASP2)
Sr. No.
Analog
Parameters
Absolute
Address
(word)
Absolute Address
(Byte)
Type of
Access
Parameter
Type
Values
Applicable
97
ASP2 for Ch-1
25
49 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
50 (lower Byte)
98
ASP2 for Ch-2
26
51 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
52 (lower Byte)
99
ASP2 for Ch-3
27
53 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
54 (lower Byte)
100
ASP2 for Ch-4
28
55 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
56 (lower Byte)
101
ASP2 for Ch-5
29
57 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
58 (lower Byte)
102
ASP2 for Ch-6
30
59 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
60 (lower Byte)
103
ASP2 for Ch-7
31
61 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
62 (lower Byte)
104
ASP2 for Ch-8
32
63 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
64 (lower Byte)
105
ASP2 for Ch-9
33
65 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
66 (lower Byte)
106
ASP2 for Ch-10
34
67 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
68 (lower Byte)
107
ASP2 for Ch-11
35
69 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
70 (lower Byte)
108
ASP2 for Ch-12
36
71 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
72 (lower Byte)
109
ASP2 for Ch-13
37
73 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
74 (lower Byte)
110
ASP2 for Ch-14
38
75 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
76 (lower Byte)
111
ASP2 for Ch-15
39
77 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
78 (lower Byte)
112
ASP2 for Ch-16
40
79 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
80 (lower Byte)
113
ASP2 for Ch-17
41
81 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
82 (lower Byte)
114
ASP2 for Ch-18
42
83 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
84 (lower Byte)
115
ASP2 for Ch-19
43
85 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
86 (lower Byte)
116
ASP2 for Ch-20
44
87 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
88 (lower Byte)
117
ASP2 for Ch-21
45
89 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
90 (lower Byte)
118
ASP2 for Ch-22
46
91 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
92 (lower Byte)
119
ASP2 for Ch-23
47
93 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
94 (lower Byte)
120
ASP2 for Ch-24
48
95 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
96 (lower Byte)
Page 96
User Manual 96
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
Control Set Point read addresses (CSP)
Sr. No.
Analog
Parameters
Absolute
Address
(word)
Absolute Address
(Byte)
Type of
Access
Parameter
Type
Values
Applicable
121
CSP for Ch-1
73
145 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
146 (Lower Byte)
122
CSP for Ch-2
74
147 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
148 (Lower Byte)
123
CSP for Ch-3
75
149 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
150 (Lower Byte)
124
CSP for Ch-4
76
151 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
152 (Lower Byte)
125
CSP for Ch-5
77
153 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
154 (Lower Byte)
126
CSP for Ch-6
78
155 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
156 (Lower Byte)
127
CSP for Ch-7
79
157 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
158 (Lower Byte)
128
CSP for Ch-8
80
159 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
160 (Lower Byte)
129
CSP for Ch-9
81
161 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
162 (Lower Byte)
130
CSP for Ch-10
82
163 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
164 (Lower Byte)
131
CSP for Ch-11
83
165 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
166 (Lower Byte)
132
CSP for Ch-12
84
167 (Higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
168 (Lower Byte)
133
CSP for Ch-13
85
169 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
170 (lower Byte)
134
CSP for Ch-14
86
171 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
172 (lower Byte)
135
CSP for Ch-15
87
173 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
174 (lower Byte)
136
CSP for Ch-16
88
175 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
176 (lower Byte)
137
CSP for Ch-17
89
177 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
178 (lower Byte)
138
CSP for Ch-18
90
179 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
180 (lower Byte)
139
CSP for Ch-19
91
181 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
182 (lower Byte)
140
CSP for Ch-20
92
183 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
184 (lower Byte)
141
CSP for Ch-21
93
185 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
186 (lower Byte)
142
CSP for Ch-22
94
187 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
188 (lower Byte)
143
CSP for Ch-23
95
189 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
190 (lower Byte)
144
CSP for Ch-24
96
191 (higher Byte)
Read only
Integer
Ind. zero to
Ind. Span
192 (lower Byte)
Page 97
User Manual 97
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
Control Set Point write addresses (CSP)
Sr. No.
Analog
Parameters
Absolute
Address
(word)
Absolute Address
(Byte)
Type of
Access
Parameter
Type
Values
Applicable
145
CSP for Ch-1
49
97 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
98 (Lower Byte)
146
CSP for Ch-2
50
99 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
100 (Lower Byte)
147
CSP for Ch-3
51
101 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
102 (Lower Byte)
148
CSP for Ch-4
52
103 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
104 (Lower Byte)
149
CSP for Ch-5
53
105 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
106 (Lower Byte)
150
CSP for Ch-6
54
107 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
108 (Lower Byte)
151
CSP for Ch-7
55
109 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
110 (Lower Byte)
152
CSP for Ch-8
56
111 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
112 (Lower Byte)
153
CSP for Ch-9
57
113 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
114 (Lower Byte)
154
CSP for Ch-10
58
115 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
116 (Lower Byte)
155
CSP for Ch-11
59
117 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
118 (Lower Byte)
156
CSP for Ch-12
60
119 (Higher Byte)
write only
Integer
Ind. zero to
Ind. Span
120 (Lower Byte)
157
CSP for Ch-13
61
121 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
122 (lower Byte)
158
CSP for Ch-14
62
123 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
124 (lower Byte)
159
CSP for Ch-15
63
125 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
126 (lower Byte)
160
CSP for Ch-16
64
127 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
128 (lower Byte)
161
CSP for Ch-17
65
129 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
130 (lower Byte)
162
CSP for Ch-18
66
131 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
132 (lower Byte)
163
CSP for Ch-19
67
133 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
134 (lower Byte)
164
CSP for Ch-20
68
135 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
136 (lower Byte)
165
CSP for Ch-21
69
137 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
138 (lower Byte)
166
CSP for Ch-22
70
139 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
140 (lower Byte)
167
CSP for Ch-23
71
141 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
142 (lower Byte)
168
CSP for Ch-24
72
143 (higher Byte)
write only
Integer
Ind. zero to
Ind. Span
144 (lower Byte)
Page 98
User Manual 98
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
Input Type read address (0 = SKIP, 1 to 18 = OTHER INPUT TYPES)
Sr. No.
Digital Parameters
Absolute
Address
(word)
Absolute
Address
Type of
Access
Parameter
Type
Values
Applicable
(byte)
169
Input Type for Ch-1
97
193 (Higher Byte)
Read only
byte
0 - 18
170
Input Type for Ch-2
97
194 (Lower Byte)
Read only
byte
0 - 18
171
Input Type for Ch-3
98
195 (Higher Byte)
Read only
byte
0 - 18
172
Input Type for Ch-4
98
196 (Lower Byte)
Read only
byte
0 - 18
173
Input Type for Ch-5
99
197 (Higher Byte)
Read only
byte
0 - 18
174
Input Type for Ch-6
99
198 (Lower Byte)
Read only
byte
0 - 18
175
Input Type for Ch-7
100
199 (Higher Byte)
Read only
byte
0 - 18
176
Input Type for Ch-8
100
200 (Lower Byte)
Read only
byte
0 - 18
177
Input Type for Ch-9
101
201 (Higher Byte)
Read only
byte
0 - 18
178
Input Type for Ch-10
101
202 (Lower Byte)
Read only
byte
0 - 18
179
Input Type for Ch-11
102
203 (Higher Byte)
Read only
byte
0 - 18
180
Input Type for Ch-12
102
204 (Lower Byte)
Read only
byte
0 - 18
181
Input Type for Ch-13
103
205 (Higher Byte)
Read only
byte
0 - 18
182
Input Type for Ch-14
103
206 (Lower Byte)
Read only
byte
0 - 18
183
Input Type for Ch-15
104
207 (Higher Byte)
Read only
byte
0 - 18
184
Input Type for Ch-16
104
208 (Lower Byte)
Read only
byte
0 - 18
185
Input Type for Ch-17
105
209 (Higher Byte)
Read only
byte
0 - 18
186
Input Type for Ch-18
105
210 (Lower Byte)
Read only
byte
0 - 18
187
Input Type for Ch-19
106
211 (Higher Byte)
Read only
byte
0 - 18
188
Input Type for Ch-20
106
212 (Lower Byte)
Read only
byte
0 - 18
189
Input Type for Ch-21
107
213 (Higher Byte)
Read only
byte
0 - 18
190
Input Type for Ch-22
107
214 (Lower Byte)
Read only
byte
0 - 18
191
Input Type for Ch-23
108
215 (Higher Byte)
Read only
byte
0 - 18
192
Input Type for Ch-24
108
216 (Lower Byte)
Read only
byte
0 - 18
Input Type write address (0 = SKIP, 1 to 18 = OTHER INPUT TYPES)
Sr. No.
Digital Parameters
Absolute
Address
(word)
Absolute
Address
Type of
Access
Parameter
Type
Values
Applicable
(byte)
193
Input Type for Ch-1
73
145 (Higher Byte)
write only
byte
0 - 18
194
Input Type for Ch-2
73
146 (Lower Byte)
write only
byte
0 - 18
195
Input Type for Ch-3
74
147 (Higher Byte)
write only
byte
0 - 18
196
Input Type for Ch-4
74
148 (Lower Byte)
write only
byte
0 - 18
197
Input Type for Ch-5
75
149 (Higher Byte)
write only
byte
0 - 18
198
Input Type for Ch-6
75
150 (Lower Byte)
write only
byte
0 - 18
199
Input Type for Ch-7
76
151 (Higher Byte)
write only
byte
0 - 18
200
Input Type for Ch-8
76
152 (Lower Byte)
write only
byte
0 - 18
201
Input Type for Ch-9
77
153 (Higher Byte)
write only
byte
0 - 18
202
Input Type for Ch-10
77
154 (Lower Byte)
write only
byte
0 - 18
203
Input Type for Ch-11
78
155 (Higher Byte)
write only
byte
0 - 18
204
Input Type for Ch-12
78
156 (Lower Byte)
write only
byte
0 - 18
205
Input Type for Ch-13
79
157 (Higher Byte)
write only
byte
0 - 18
206
Input Type for Ch-14
79
158 (Lower Byte)
write only
byte
0 - 18
Page 99
User Manual 99
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
207
Input Type for Ch-15
80
159 (Higher Byte)
write only
byte
0 - 18
208
Input Type for Ch-16
80
160 (Lower Byte)
write only
byte
0 - 18
209
Input Type for Ch-17
81
161 (Higher Byte)
write only
byte
0 - 18
210
Input Type for Ch-18
81
162 (Lower Byte)
write only
byte
0 - 18
211
Input Type for Ch-19
82
163 (Higher Byte)
write only
byte
0 - 18
212
Input Type for Ch-20
82
164 (Lower Byte)
write only
byte
0 - 18
213
Input Type for Ch-21
83
165 (Higher Byte)
write only
byte
0 - 18
214
Input Type for Ch-22
83
166 (Lower Byte)
write only
byte
0 - 18
215
Input Type for Ch-23
84
167 (Higher Byte)
write only
byte
0 - 18
216
Input Type for Ch-24
84
168 (Lower Byte)
write only
byte
0 - 18
Alarm Set Point 1 (ASP1) Status of individual channel (0 = LED OFF, 1 = LED ON)
Sr. No.
Digital Parameters
Absolute
Address
(word)
Absolute
Address
Type of
Access
Parameter
Type
Values
Applicable
(byte)
217
ASP1 Status for Ch-1
110. BIT 0
220. BIT 0
Read only
byte
0 - 1
218
ASP1 Status for Ch-2
110. BIT 1
220. BIT 1
0 – 1
219
ASP1 Status for Ch-3
110. BIT 2
220. BIT 2
0 – 1
220
ASP1 Status for Ch-4
110. BIT 3
220. BIT 3
0 – 1
221
ASP1 Status for Ch-5
110. BIT 4
220. BIT 4
0 – 1
222
ASP1 Status for Ch-6
110. BIT 5
220. BIT 5
0 – 1
223
ASP1 Status for Ch-7
110. BIT 6
220. BIT 6
0 – 1
224
ASP1 Status for Ch-8
110. BIT 7
220. BIT 7
0 – 1
225
ASP1 Status for Ch-9
110. BIT 8
219. BIT 0
Read only
byte
0 – 1
226
ASP1 Status for Ch-10
110. BIT 9
219. BIT 1
0 – 1
227
ASP1 Status for Ch-11
110. BIT 10
219. BIT 2
0 – 1
228
ASP1 Status for Ch-12
110. BIT 11
219. BIT 3
0 – 1
229
ASP1 Status for Ch-13
110. BIT 12
219. BIT 4
0 – 1
230
ASP1 Status for Ch-14
110. BIT 13
219. BIT 5
0 – 1
231
ASP1 Status for Ch-15
110. BIT 14
219. BIT 6
0 – 1
232
ASP1 Status for Ch-16
110. BIT 15
219. BIT 7
0 – 1
233
ASP1 Status for Ch-17
109. BIT 0
218. BIT 0
Read only
byte
0 – 1
234
ASP1 Status for Ch-18
109. BIT 1
218. BIT 1
0 – 1
235
ASP1 Status for Ch-19
109. BIT 2
218. BIT 2
0 – 1
236
ASP1 Status for Ch-20
109. BIT 3
218. BIT 3
0 – 1
237
ASP1 Status for Ch-21
109. BIT 4
218. BIT 4
0 – 1
238
ASP1 Status for Ch-22
109. BIT 5
218. BIT 5
0 – 1
239
ASP1 Status for Ch-23
109. BIT 6
218. BIT 6
0 – 1
240
ASP1 Status for Ch-24
109. BIT 7
218. BIT 7
0 – 1
Page 100
User Manual 100
VMS4SE(Vibration Monitor)
REF NO: mVMA/om/101
Issue No: 01
Alarm Set Point 2 (ASP2) Status of individual channel (0 = LED OFF, 1 = LED ON)
Sr. No.
Digital Parameters
Absolute
Address
(word)
Absolute
Address
Type of
Access
Parameter
Type
Values
Applicable
(byte)
241
ASP2 Status for Ch-1
112. BIT 0
224. BIT 0
Read only
byte
0 - 1
242
ASP2 Status for Ch-2
112. BIT 1
224. BIT 1
0 – 1
243
ASP2 Status for Ch-3
112. BIT 2
224. BIT 2
0 – 1
244
ASP2 Status for Ch-4
112. BIT 3
224. BIT 3
0 – 1
245
ASP2 Status for Ch-5
112. BIT 4
224. BIT 4
0 – 1
246
ASP2 Status for Ch-6
112. BIT 5
224. BIT 5
0 – 1
247
ASP2 Status for Ch-7
112. BIT 6
224. BIT 6
0 – 1
248
ASP2 Status for Ch-8
112. BIT 7
224. BIT 7
0 – 1
249
ASP2 Status for Ch-9
112. BIT 8
223. BIT 0
Read only
byte
0 – 1
250
ASP2 Status for Ch-10
112. BIT 9
223. BIT 1
0 – 1
251
ASP2 Status for Ch-11
112. BIT 10
223. BIT 2
0 – 1
252
ASP2 Status for Ch-12
112. BIT 11
223. BIT 3
0 – 1
253
ASP2 Status for Ch-13
112. BIT 12
223. BIT 4
0 – 1
254
ASP2 Status for Ch-14
112. BIT 13
223. BIT 5
0 – 1
255
ASP2 Status for Ch-15
112. BIT 14
223. BIT 6
0 – 1
256
ASP2 Status for Ch-16
112. BIT 15
223. BIT 7
0 – 1
257
ASP2 Status for Ch-17
111. BIT 0
222. BIT 0
Read only
byte
0 – 1
258
ASP2 Status for Ch-18
111. BIT 1
222. BIT 1
0 – 1
259
ASP2 Status for Ch-19
111. BIT 2
222. BIT 2
0 – 1
260
ASP2 Status for Ch-20
111. BIT 3
222. BIT 3
0 – 1
261
ASP2 Status for Ch-21
111. BIT 4
222. BIT 4
0 – 1
262
ASP2 Status for Ch-22
111. BIT 5
222. BIT 5
0 – 1
263
ASP2 Status for Ch-23
111. BIT 6
222. BIT 6
0 – 1
264
ASP2 Status for Ch-24
111. BIT 7
222. BIT 7
0 – 1
Control Set Point (CSP) Status of individual channel (0 = LED OFF, 1 = LED ON)
Sr. No.
Digital Parameters
Absolute
Address
(word)
Absolute
Address
Type of
Access
Parameter
Type
Values
Applicable
(byte)
265
CSP Status for Ch-1
114. BIT 0
228. BIT 0
Read only
byte
0 - 1
266
CSP Status for Ch-2
114. BIT 1
228. BIT 1
0 – 1
267
CSP Status for Ch-3
114. BIT 2
228. BIT 2
0 – 1
268
CSP Status for Ch-4
114. BIT 3
228. BIT 3
0 – 1
269
CSP Status for Ch-5
114. BIT 4
228. BIT 4
0 – 1
270
CSP Status for Ch-6
114. BIT 5
228. BIT 5
0 – 1
271
CSP Status for Ch-7
114. BIT 6
228. BIT 6
0 – 1
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