Write multiple registers – function code 10h, Write multiple registers – function code 10h -8, Write multiple registers command message – Yaskawa F7 Modbus User Manual

Message Formats 2-8

Write Multiple Registers – Function Code 10H

The Write Multiple Register function allows the writing of data to from one to sixteen consecutive registers.

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Write Multiple Registers Command Message

Table 2.11 - Write Command Message

Description

Data

Slave Address

01h

Function Code

10h

Upper

00h

Starting Register

Lower

01h

Upper 00h

Quantity

Lower

02h

Number of Data Bytes

04h

Upper

00h

First Register Data

Lower

01h

Upper

02h

Next Register Data

Lower

58h

Upper

63h

CRC-16

Lower

39h

Each F7 drive slave address is set via. parameter H5-01. Valid slave addresses must be in the range of 1 to 20 hex (1 to 32 dec) and entered as a

hexadecimal number. No two slaves may have the same address. The master addresses the slave by placing the slave address in the Slave

Address field of the message. In the command message above, the slave is addressed at 01h. Broadcast address 0 is valid for register write

commands.
By setting the slave address to zero (0) in the command message, the master can send a message to all the slaves on the network simultaneously.

This is called simultaneous broadcasting. In a simultaneous broadcast message there is no response message.

The function code of this message is 10h (write multiple registers).
The starting register is the address of the first register to be written. In the command message above the starting register address is 01h (0001h).
The quantity indicates how many consecutive registers are to be written. The quantity may range from 1 to 16 registers. If an invalid quantity is

entered, error code of 03h is returned in a fault response message. In this command message there are two consecutive registers to be written:

01h (Operation Command) and 02h (Frequency Reference).

The Number Of Data Bytes is the number of bytes of data to be written. The Number Of Data Bytes is actually the quantity multiplied by 2,

since there are two bytes of data in each register.
The data section contains the data for each register to be that written in the order in which they are to be written.
A CRC-16 value is generated from a calculation including the message slave address, function code, starting register, quantity, number of data

bytes and all register data. The procedure for calculating a CRC-16 is described at the end of this chapter. When the slave receives the command

message it calculates a CRC-16 value and compares it to the CRC-16 of the command message. If the two CRC-16 values are identical and the

slave address is correct, the slave processes command message. If the two CRC-16 values are not identical, the slave will discard the command

message and not respond.

If the command message has a valid slave address, function code, starting register, quantity, number of data bytes and data, the slave will

respond with a normal response message. If the command message has an invalid function code, starting register, quantity, number of data bytes

and/or data, the slave will respond with a fault response message. If the command message has an invalid slave address or CRC-16, no response

will be returned.