Modbus TCP

Modbus TCP

Modbus TCP is a version of the Modbus protocol based on Ethernet, which uses TCP/IP for communication. Unlike the traditional Modbus RTU protocol, Modbus TCP allows devices to be interconnected directly through Ethernet without any special hardware or communication interface. Therefore, Modbus TCP has higher communication speed and wider application range.

In addition to supporting data acquisition and processing via TCP client mode, the Neuron Modbus TCP plugin also supports TCP server mode, which allows devices to connect to Neuron actively. This feature is mainly used for 4G DTU because the IP address of 4G network is a private IP. In this case, the DTU device can only connect to Neuron actively.

Plugins

Plugin	Description
Modbus TCP	Standard Modbus TCP protocol implementation supports both TCP client and server modes, providing better compatibility with devices.
Modbus TCP QH	Customized Modbus TCP protocol implementation supports a maximum of 65530 bytes for one read operation, while the standard protocol only allows a maximum of 250 bytes to be read at a time.

Parameters

Parameter	Description
Connection Mode	When selecting Ethernet TCP connection, you can choose Neuron as the TCP client or server.
Send Interval	The waiting time between sending each read/write command. Some serial devices may discard certain commands if they receive consecutive commands in a short period of time.
IP Address	The IP address of the device when using TCP connection with Neuron as the client, or the IP address of Neuron when using TCP connection with Neuron as the server. The default value is 0.0.0.0.
Port	The port number of the device when using TCP connection with Neuron as the client, or the port number of Neuron when using TCP connection with Neuron as the server.
Connection Timeout	The time the system waits for a device to respond to a command.
Maximum Retry Times	The maximum number of retries after a failed attempt to send a read command.
Retry Interval	Resend reading instruction interval(ms) after a failed attempt to send a read command.
Transport Mode	TCP transfer or UDP transfer

Data types

INT16
UINT16
INT32
UINT32
INT64
UINT64
FLOAT
DOUBLE
BIT
STRING

Address format

SLAVE!ADDRESS[.BIT][#ENDIAN][.LEN[H][L][D][E]]

SLAVE

Required, Slave is the slave address or site number.

ADDRESS

Required, Address is the register address.The Modbus protocol has four areas, each area has a maximum of 65536 registers, and the address range of each area is shown in the table below. It should be noted that the storage area as large as 65536 is generally not required in practical applications. Generally, PLC manufacturers generally use an address range within 10000. Please pay attention to fill in the correct point address according to the area and function code of the device.

Area	Address Range	Attribute	Register Size	Function Code	Data Type
Coil	000001 ~ 065536	Read/Write	1Bit	0x01,0x05,0x0f	BIT
Input	100001 ~ 165536	Read/Write	1Bit	0x02	BIT
Input Register	300001 ~ 365536	Read/Write	16Bit,2Byte	0x04	BIT,INT16,UINT16,INT32,UINT32,INT64,UINT64,FLOAT,DOUBLE,STRING
Hold Register	400001 ~ 465536	Read/Write	16Bit,2Byte	0x03,0x06,0x10	BIT,INT16,UINT16,INT32,UINT32,INT64,UINT64,FLOAT,DOUBLE,STRING

TIP

Some device specification documents may use function codes and register addresses to describe commands. Since register address numbers start at 0, the register address range for each area is 0 to 65535. Neuron uses a PLC configuration address specification, so the addresses configured in Neuron start from 1.

The conversion rule for the configuration address specification is as follows: determine the highest digit of the address based on the function code, and add 1 to the register address to obtain the address used in Neuron.

For example, if the function code is 0x03 and the register address is 0, the address used in Neuron is 400001. If the function code is 0x02 and the register address is 5, the address used in Neuron is 100006.

.BIT

Optional, specify a specific bit in a registe

Address	Data Type	Description
1!300004.0	bit	Refers to station 1, input area, address 300004, bit 0
1!400010.4	bit	Refers to station 1, hold register area, address 400010, bit 4
2!400001.15	bit	Refers to station 2, hold register area, address 400001, bit 15

#ENDIAN

Optional, byte order, applicable to data types int16/uint16/int32/uint32/float, see the table below for details.

Symbol	Byte Order	Supported Data Types	Note
#B	2,1	int16/uint16
#L	1,2	int16/uint16	Default byte order if not specified
#LL	1,2,3,4	int32/uint32/float	Default byte order if not specified
#LB	2,1,4,3	int32/uint32/float
#BB	3,4,1,2	int32/uint32/float
#BL	4,3,2,1	int32/uint32/float

.LEN[H][L][D][E]

When the data type is STRING, .LEN is a required field, indicating the number of bytes the string occupies. Each register contains four storage methods: H, L, D, and E, as shown in the table below.

Symbol	Description
H	One register stores two bytes, with the high byte first
L	One register stores two bytes, with the low byte first
D	One register stores one byte, and it is stored in the low byte
E	One register stores one byte, and it is stored in the high byte

Examples

Address	Data Type	Description
1!300004	int16	Refers to station 1, input area, address 300004, byte order #L
1!300004#B	int16	Refers to station 1, input area, address 300004, byte order #B
1!300004#L	uint16	Refers to station 1, input area, address 300004, byte order #L
1!400004	int16	Refers to station 1, hold register area, address 400004, byte order #L
1!400004#L	int16	Refers to station 1, hold register area, address 400004, byte order #L
1!400004#B	uint16	Refers to station 1, hold register area, address 400004, byte order #B
1!300004	int32	Refers to station 1, input area, address 300004, byte order #LL
1!300004#BB	uint32	Refers to station 1, input area, address 300004, byte order #BB
1!300004#LB	uint32	Refers to station 1, input area, address 300004, byte order #LB
1!300004#BL	float	Refers to station 1, input area, address 300004, byte order #BL
1!300004#LL	int32	Refers to station 1, input area, address 300004, byte order #LL
1!400004	int32	Refers to station 1, hold register area, address 400004, byte order #LL
1!400004#LB	uint32	Refers to station 1, hold register area, address 400004, byte order #LB
1!400004#BB	uint32	Refers to station 1, hold register area, address 400004, byte order #BB
1!400004#LL	int32	Refers to station 1, hold register area, address 400004, byte order #LL
1!400004#BL	float	Refers to station 1, hold register area, address 400004, byte order #BL
1!300001.10	String	Refers to station 1, input area, address 300001, character length 10, byte order L, which occupies addresses 300001 to 300005
1!300001.10H	String	Refers to station 1, input area, address 300001, character length 10, byte order H, which occupies addresses 300001 to 300005
1!300001.10L	String	Refers to station 1, input area, address 300001, character length 10, byte order L, which occupies addresses 300001 to 300005
1!400001.10	String	Refers to station 1, hold register area, address 400001, character length 10, byte order L, which occupies addresses 400001 to 400005
1!400001.10H	String	Refers to station 1, hold register area, address 400001, character length 10, byte order H, which occupies addresses 400001 to 400005
1!400001.10L	String	Refers to station 1, hold register area, address 400001, character length 10, byte order L, which occupies addresses 400001 to 400005
1!400001.10D	String	Refers to station 1, hold register area, address 300001, character length 10, byte order D, which occupies addresses 400001 to 400005
1!400001.10E	String	Refers to station 1, hold register area, address 300001, character length 10, byte order E, which occupies addresses 400001 to 400005