|
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Home |
Operation Manual Simply Modbus Master 8 Modbus RTU Master and Modbus ASCII Master Emulator System Requirements: Windows NT, 95, 2000, XP, Windows7, Windows8 display resolution: 800 x 600 minimum PC with serial port (built in, serial card or USB serial port) Installation - Simply Modbus Master 8.1.2:
SimplyModbusMaster8.1.2Install.zip Unzip the compressed files into a common folder on your hard drive. Starting the program Select Simply Modbus Master 8 from the Program area of the Start Menu. You will see the demonstration startup window.
The progress bar will take approximately 15 seconds to load the demonstration version. After purchasing and receiving a license key by email, enter the key and press OK. The licensed program The demo version The Simply Modbus Master - Read Window
Yellow: Controls (inputs) that can be changed by the user. Serial Settings Select Modbus RTU or Modbus ASCII protocol. more info...
Build a Request String
The 1st byte in the Command string The unit address of the Slave device to get data from. normal range: 1 to 247 more info...
Setting a Slave ID over 255 will automatically check this box and allow Slave IDs up to 65535.
more info...
The 2nd byte in the Request string
The 3rd and 4th bytes in the Request string This value is subtracted from the First Register to give the data address used in the Request.
The 5th and 6th bytes in the Request string
check to automatically set the default values function code, offset and register size
The size of the registers in the block to be read. Events: This box is checked when reading Enron events from register 32 more info... History: This box is checked when reading Enron historical records from register 701-799 more info...
crc The last 2 bytes of the RTU Request are the cyclic redundancy check. These are error detection bytes more info... lrc ASCII Mode messages are preceded with a colon and the crc is replaced with an longitudinal redundancy check, carriage return and line feed characters. more info... Auto Set values:
Exceptions (for reading Enron modbus data):
Physical Connection Before sending a message, the serial port needs to be physically connected to a modbus slave device. The simplest connection is RS232C on a single serial cable. DTE masters (PC serial ports) have DB9 male connectors which transmits on pin3, receives pin2 and grounds on pin5. A DCE slave will have a DB9 Female connector which will allow the use of a straight through cable. A DTE slave will have a DB9 Male connector and will require the use of a null modem cable. The RS232 specification states a maximum distance of 50 feet at 20kbaud. Slightly longer connections are possible at slower baud rates depending on cable quality and noise in the area. Modems and radios are used to transmit longer distances. These are typically DCE devices so straight through cables can be used. Some MDS non-spread spectrum radios require RTS Delay to be used so a 4th conductor is needed on pin 4. RS485 converters can be used to extend the distance up to 4000 feet at 100kbaud. This can be a 4 wire or 2 wire system, depending on the converter. This also allows multi-dropping up to 32 devices on one pair of wires. Sending the Request Press the SEND button. The program then monitors the serial port and displays all bytes received in the Response indicator.
While receiving, the response time counts up with a progress bar. Receiving stops when the expected response bytes are received or the time reaches the fail in value entered.
The 'expected response bytes' indicator is calculated from the input settings. The expected crc is calculated from the bytes in the response. Troubleshooting Check the physical connection to make sure the correct conductors are on the correct pins and the correct serial port. Check the serial settings in the slave device to make sure they match the settings in the master. Check the Slave device unit address to make sure it matches the Slave ID set in the master.
Reading the Response   The data bytes in the response are displayed in the middle column of the response table. Use the pull-down boxes in the first column to set the data type for each value.
more info... The bytes and words can be swapped by toggling the High/Low check boxes.
A notes column is provided to enter labels for the values. Press the clear notes button to blank the whole notes column. Byte History Log All bytes sent and received are added to the byte history log with date/time stamps. Displays a 'Save As..' dialog box to allow the log contents to be saved to a text file. Empties the log contents. Log Results All data results received can be saved to a data log with date/time stamps. Displays a 'Save As..' dialog box to create a tabbed-text data file for logging the results. register# and notes are used as column headers in the file. When data is received, a row is added to the file with date/time and the results. Pressing the button again will close the file and stop logging the results. The data file can be loaded into just about any system or progam like Excel. Send Continuously Check this box to send back to back requests. The seconds after the start of one send request until the start of the next send request.
Statistics The seconds taken for the slave to respond to last message. The longest amount of seconds taken for a response (not including failed responses). RTS Delay Check this option to communicate over devices requiring the RTS pin to be asserted before
Save and Restore Configurations Displays a 'Save As..' dialog box to allow saving the current settings to a text file. Displays an 'Open File' dialog box to allow selecting a previously saved settings file to load. The configuration file is saved in tabbed text format (tab separated values) and appears like this in notepad.
The preset tabs in Notepad cause the cells with long labels to push the other columns over.
Columns A & B contain the setting descriptions and their values. Column C contains the data types 0 through 13, Each number representing the data Type shown in the Notes Column D Column E contains the register register numbers (hex values plus offset) Column F contains the register values from the last poll, if any Cell G1 contains the result string from the last poll, if any
Load Before Send - Sending a series of requests
When this box is selected, and the SEND button is pressed (or SEND CONTINUOUSLY is selected),
The filenames must be in the format: request1.txt,
request2.txt, etc...
If request1.txt doesn’t exist, a window showing instructions similar to these will appear. SEND CONTINUOUSLY is not saved in the configuration files.
If a request*.txt Configuration file is being loaded during a Load before Send,
The program will continue to automatically LOAD, SEND and WAIT through a series of request*.txt files
When a file is LOADED without LOAD BEFORE SEND selected,
The series can be stopped at any time by unchecking SEND CONTINOUSLY. ------------------------------------------------------------------------------------
Writing Data Displays the Simply Modbus Master Write 6.4.1 window
Yellow: Controls (inputs) that can be changed by the user. Serial Settings Select Modbus RTU or Modbus ASCII protocol. more info...
The mode and serial settings are copied from the previous window and can also be changed here. more info... Build a Command String The 1st byte in the Command string The unit address of the Slave device to get data from. normal range: 1 to 247 more info...
Setting a Slave ID over 255 will automatically check this box and allow Slave IDs up to 65535.
more info...
The 2nd byte in the Command string
The 3rd and 4th bytes in the Command string This value is subtracted from the First Register to give the data address used in the Command.
The 5th and 6th bytes in the Command string
check to automatically set the default values for function code, offset and register size
The size of the registers in the block to be written. Auto Set values:
Data to Write The values to write are entered in the table shown. The table size is automatically adjusted as the #values to write is changed. Use this pull-down box to set the data type for the whole table to be written. The bytes and words can be swapped by toggling the High/Low check boxes. Sending the Command Press the SEND button. The program then monitors the serial port and displays all bytes received in the Response indicator. While receiving, the response time counts up with a progress bar. Receiving stops when the expected response bytes are received or the time reaches the fail in value entered.
The 'expected response bytes' indicator is calculated from the input settings. The expected crc is calculated from the bytes in the response. Reading the Response The data bytes in the response are displayed in the bytes column of the response table. Byte History Log All bytes sent and received are added to the byte history log with date/time stamps. Displays a 'Save As..' dialog box to allow saving the log contents to a text file. Empties the log contents RTS Delay Check this option to communicate over devices requiring the RTS pin to be asserted before
Save and Restore Configurations Displays a 'Save As..' dialog box to allow saving the current settings and results to a text file. Displays an 'Open File' dialog box to allow selecting a previously saved settings file to load.
Press the Close box in the top corner to Exit the Write program.
Troubleshooting Check the physical connection to make sure the correct conductors are on the correct pins and the correct serial port. Check the serial settings in the slave device to make sure they match the settings in the master. Make sure the serial port driver file (serpdrv) is in the same folder as Simply Modbus Master 6.4.1.exe
Home • FAQ • Enron • Download • Purchase • Contact Copyright © 2020 Simply Modbus. All rights reserved |