Difference between revisions of "AI8.1"

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=== Modbus Read / Write (0x17) Function ===
 
=== Modbus Read / Write (0x17) Function ===
 
METEL IO modules have implemented the MODBUS function (0x17) Read/Write of Multiple registers. Typically it is required to have two separate requests (and responses) for:
 
METEL IO modules have implemented the MODBUS function (0x17) Read/Write of Multiple registers. Typically it is required to have two separate requests (and responses) for:
 +
  
 
1. Writing of outputs via MODBUS function (0x16) Writing Multiple Registers
 
1. Writing of outputs via MODBUS function (0x16) Writing Multiple Registers
  
 
2. Reading of inputs via MODBUS function (0x03) Read Holding Registers
 
2. Reading of inputs via MODBUS function (0x03) Read Holding Registers
 +
  
 
This requires a total of 4 frames to be sent over MODBUS. If using 0x17 function only one request is needed for the reading and writing of outputs. This requires a total of 2 frames to be sent over MODBUS.
 
This requires a total of 4 frames to be sent over MODBUS. If using 0x17 function only one request is needed for the reading and writing of outputs. This requires a total of 2 frames to be sent over MODBUS.

Revision as of 08:58, 20 February 2020

Modbus Registers

Below is a list of available MODBUS registers. The same register numbers are also used by the MIOS-2 protocol.

Modbus Read / Write (0x17) Function

METEL IO modules have implemented the MODBUS function (0x17) Read/Write of Multiple registers. Typically it is required to have two separate requests (and responses) for:


1. Writing of outputs via MODBUS function (0x16) Writing Multiple Registers

2. Reading of inputs via MODBUS function (0x03) Read Holding Registers


This requires a total of 4 frames to be sent over MODBUS. If using 0x17 function only one request is needed for the reading and writing of outputs. This requires a total of 2 frames to be sent over MODBUS.

Default Settings of Communication

Device ID: 1
Baudrate: 115 200
Parity: None
Data bits: 8
Stop bits: 1

Subject Channel Type R/W Value Offset
Measured
Voltage
Values
Analog Input 1 AI#01 s16 R 1000 = 1 V
0 = 0 V
-1000 = -1 V
32767 = upper range limit exceeded
-32767 = lower range limit exceeded
5001
Analog Input 2 AI#02 s16 R 5002
Analog Input 3 AI#03 s16 R 5003
Analog Input 4 AI#04 s16 R 5004
Analog Input 5 AI#05 s16 R 5005
Analog Input 6 AI#06 s16 R 5006
Analog Input 7 AI#07 s16 R 5007
Analog Input 8 AI#08 s16 R 5008
Subject Channel Type R/W Value Offset
Measured
Current
Values
Analog Input 1 AI#11 s16 R 1000 = 1 V
0 = 0 V
-1000 = -1 V
32767 = upper range limit exceeded
-32767 = lower range limit exceeded
5011
Analog Input 2 AI#12 s16 R 5012
Analog Input 3 AI#13 s16 R 5013
Analog Input 4 AI#14 s16 R 5014
Analog Input 5 AI#15 s16 R 5015
Analog Input 6 AI#16 s16 R 5016
Analog Input 7 AI#17 s16 R 5017
Analog Input 8 AI#18 s16 R 5018
Subject Channel Type R/W Value Offset
Setting
Input
Ranges
Analog Input 1 AI#21 u16 RW 1 = ±10 V / ±30 mA
2 = ±5 V / ±20 mA
3 = ±2.5 V / ±10 mA

(1) - Default

5121
Analog Input 2 AI#22 u16 RW 5122
Analog Input 3 AI#23 u16 RW 5123
Analog Input 4 AI#24 u16 RW 5124
Analog Input 5 AI#25 u16 RW 5125
Analog Input 6 AI#26 u16 RW 5126
Analog Input 7 AI#27 u16 RW 5127
Analog Input 8 AI#28 u16 RW 5128
Subject Channel Type R/W Value Offset
States of
Relay
Outputs
COIL Relay 1 DI#01 bit R 0 = inactive
1 = active
3001
COIL Relay 2 DI#02 bit R 3002
COIL Relay 3 DI#03 bit R 3003
COIL Relay 4 DI#04 bit R 3004
Inputs DI#16 - DI#01 u16 R 0x0000 - 0x000F 3001
Subject Channel Type R/W Value Offset
Relay
Outputs
Relay Output 1 DO#01 bit RW 0 = inactive
1 = active
4001
Relay Output 2 DO#02 bit RW 4002
Relay Output 3 DO#03 bit RW 4003
Relay Output 4 DO#04 bit RW 4004
Outputs DO#16 - DO#01 u16 RW 0x0000 - 0x000F 4001
Subject Channel Type R/W Value Offset
Voltage
Correction
Analog Input 1 AI#01 s16 RW 1000 = 1 V
0 = 0 V
-1000 = -1
5101
Analog Input 2 AI#02 s16 RW 5102
Analog Input 3 AI#03 s16 RW 5103
Analog Input 4 AI#04 s16 RW 5104
Analog Input 5 AI#05 s16 RW 5105
Analog Input 6 AI#06 s16 RW 5106
Analog Input 7 AI#07 s16 RW 5107
Analog Input 8 AI#08 s16 RW 5108
Subject Channel Type R/W Value Offset
Current
Correction
Analog Input 1 AI#11 s16 RW 1000 = 1 V
0 = 0 V
-1000 = -1
5111
Analog Input 2 AI#02 s16 RW 5112
Analog Input 3 AI#12 s16 RW 5113
Analog Input 4 AI#12 s16 RW 5114
Analog Input 5 AI#13 s16 RW 5115
Analog Input 6 AI#14 s16 RW 5116
Analog Input 7 AI#15 s16 RW 5117
Analog Input 8 AI#16 s16 RW 5118
Subject Type R/W Value Offset
Device
Identity
Product Type u8[3] R 1002-04
Serial Number u32 R 1005-06
PCB Version u32 R 1007-08
PCB Revision u16 R 1009
FW Version Major u16 R 1010
FW Version Minor u16 R 1011
FW Version - Revision u32 R 1012-13
IF#01 Slot State u16 R 0 = N/A
1 = IF#01 not Inserted
2 = IF#01 Inserted, CRC error
3 = IF#01 Inserted, CRC OK
1021
IF#01 Product Type u8[3] R 1022-24
IF#01 Serial Number u32 R 1025-26
IF#01 PCB Version u32 R 1027-28
IF#01 PCB Revision u16 R 1029
Device
Control
Reset u16 RW 55203 = To Reboot 1201
Bootloader / Application u16 R 0x00A – Application,
0x00B – Bootloader
1203
Restart to Bootloader u16 RW 617 = To Bootloader
else = deactivate
bootloader
1204
Device
Status
Board Power Voltage u16 R 105 = 10,5V 1311
Board Temperature u16 R -200 = -20,0°C
250 = 25,0°C
1321

Note: To activate the bootloader, it is necessary to write a value 617 into the registry with an offset 1204 and restart the device.