MODBUS LITE V5.01 parameter specification
Table Of Contents
- 1 Frame protocol
- 2 Holding Register
- 2.1 Overview
- 2.2 Reset
- 2.3 Default set value
- 2.4 Password
- 2.5 Control default setting
- 2.6 Control customer setting
- 2.7 Operating hours counter
- 2.8 Operating minutes counter
- 2.9 Fan address
- 2.10 Source set value
- 2.11 Preferred running direction
- 2.12 Save set value
- 2.13 Internal parameter set
- 2.14 Control mode
- 2.15 Control parameters
- 2.16 Maximum modulation level
- 2.17 Minimum modulation level
- 2.18 Enable motor stop
- 2.19 Set value (EEPROM)
- 2.20 Starting modulation level
- 2.21 Maximum permissible modulation level
- 2.22 Minimum permissible modulation level
- 2.23 Maximum speed
- 2.24 Maximum permissible speed
- 2.25 Ramp-up curve / ramp-down curve
- 2.26 Limit speed
- 2.27 Potentiometer characteristic
- 2.28 Control limitation
- 2.29 Maximum power
- 2.30 Maximum coil current
- 2.31 Limiting speed for running monitor
- 2.32 Interface settings
- 2.33 Shedding function
- 2.34 Relay dropout delay
- 2.35 Fail safe function on/off
- 2.36 Fail safe function set value
- 2.37 Fail safe function time lag
- 2.38 Fail safe function running direction
- 2.39 Potentiometer characteristic limiting value for cable break
- 2.40 Sensor
- 2.41 Customer data
- 2.42 Error history
- 2.43 Reference value of DC-link voltage
- 2.44 Reference value of DC-link current
- 2.45 Production data
- 3 Input Register
- 3.1 Overview
- 3.2 Identification
- 3.3 Maximum number of bytes
- 3.4 Software name of bus controller
- 3.5 Software version of bus controller
- 3.6 Software name of commutation controller
- 3.7 Software version of commutation controller
- 3.8 Actual speed
- 3.9 Motor status
- 3.10 Warning
- 3.11 DC-link voltage
- 3.12 DC-link current
- 3.13 Module temperature
- 3.14 Motor temperature
- 3.15 Interior electronics temperature
- 3.16 Current direction of rotation
- 3.17 Current modulation level
- 3.18 Current set value
- 3.19 Sensor actual values
- 3.20 Current parameter set
- 3.21 Current power
MODBUS parameters "ebm-papst series 84 / 112 / 150 / 200"
_______________________________________________________________________________________
ebm-papst Mulfingen GmbH & Co. KG
Bachmühle 2 ·74673 Mulfingen, Germany ·Phone: +49 (0) 7938/81-0 ·Fax: +49 (0) 7938/81-110 ·www.ebmpapst.com ·info1@de.ebmpapst.com
DocNo.: 634505DocNo.: 446144DocNo.:358982DocNo.:322523DocNo.:309753DocNo.:303997DocNo.:276241DocNo.:256078DocNo.:196392 ·Template: 2 dated 6 October 2003 ·File: ext001157859.doc ·Last printed 10/03/2015 15:13:00
·Page 14 of 70
Form 1003
1.3.6 Commands with addressing via serial number
These commands also use the fan serial numbers for addressing:
An identifier for the fan serial number (6 bytes) is transmitted in the data section of the commands.
Only the fan that has the MODBUS address and serial number given in the command will react and respond.
The command with addressing using the serial number is made up of the standard command, to which
a serial number identifier is added after the command byte.
Serial number format:
For each fan, ebm-papst assigns an individual serial number. This serial number has 10 digits.
Format: YYWW00XXXX
YY : Production year
WW : Calendar week of production
00 : Fixed value 00
XXXX : Sequential number
The first 4 digits contain the production date (year/calendar week).
With the beginning of each production week, the number XXXX starts counting up from zero and is increased
by 1 for each fan. Each character can represent values from 0-9 and from A-Z. The maximum number of
characters that can be encoded for each digit is thus 36, i.e. 36
4
= 1,679,616 devices/week.
Example:
ebm-papst serial number: 09230012GY
Year of production: 09 (2009)
Calendar week: 23 (23)
Sequential no.: 12GY (49525)
Year of production and calendar week are each encoded as hex values in the command.
For the series number, each character is encoded as an ASCII value.
In the commands with addressing via the serial number, the serial number must be given in the following
manner:
Byte no. Meaning Example Corresponds to holding register
Byte 0: [Address]
Byte 1: [Command code]
Byte 2: Production year 0x09 (-> 2009) D1A4 MSB
Byte 3: Calendar week 0x17 (-> 23) D1A4 LSB
Byte 4: Sequential number 1st character 0x31 (-> 1) D1A3 MSB
Byte 5: Sequential number 2nd character 0x32 (-> 2) D1A3 LSB
Byte 6: Sequential number 3rd character 0x47 (-> G) D1A2 MSB
Byte 7: Sequential number 4th character 0x59 (-> Y) D1A2 LSB
The order depends on the sequence in which the serial number is stored in the holding registers D1A2 - D1A4
(see 2.45.1)!