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F

E

MA

 · MANUFACTURING FOR INDUSTRIAL AUTOMATION 

14

13. 

Configuration menu

13.1 Function codes

The fastest way to configure the instrument, is to select a predefined  

configuration code (see section 8). At the ‘

Configuration code

’ (

codE

parameter use keys ‘

UP

’ (

5

) and ‘

LE

’ (

3

) to move up and down 

through the list of codes. Locate the desired code, and press ‘

SQ

’ (

<

). 

The instrument shows the ‘

codE

’ parameter. Press ‘

LE

’ (

3

) to exit the 

configuration  menu

’.  The  instrument  stores  the  new  configuration, 

applies a ‘

power-up

’ routine and returns to the ‘

normal mode

’ of operation 

(see section 12.2).
Selecting a ‘

reserved

’ code or ‘

----

’ returns to the previous menu without 

changes.
When entering the ‘

Function code

’ (

codE

) parameter, the active 

configuration  code

’  is  displayed.  If  the  actual  configuration  does  not 

match any of the configuration codes, code ‘

uSEr

’ is displayed.

There are different codes for 4/20 mA output (codes from 010 to 099) 

and 0/10 Vdc output (codes from 110 to 199) (see section 8).
Custom  input  and  output  signal  ranges  can  be  configured  at  the 

Advanced scaling

’ section of the ‘

configuration menu

’ (see section 13.4).

Configuration code

Enter the code 

(see Table 8)

13.2 

Initial configuration

At the ‘

Input  configuration

’ (

InP

)  menu  entry,  configure  the  reading 

mode and the input signal range.

If you have already selected a configuration code (see section 

13.1), the input signal has been already selected and there is 

no need to manually select the ‘

Mode

’ (

ModE

) or ‘

Signal range

’ 

(

rAnG

) parameters again.

At the ‘

Mode

’ (

ModE

) parameter select ‘

cELL

 for load cell measurement, 

or select 

MV

’ for millivolt measurement. See section 7.2 and 7.3 for an 

explanation of the differences between both modes.
At the ‘

Signal range

’ (

rAnG

) parameter select the input signal range. 

Input signal ranges can also be configured by selecting a pre-defined 

configuration code (see section 13.1).

For an example on how to calculate the appropriate input signal range 

for a given load cell, see section 7.7.

To  customize  to  an  intermediate  range  (for  example  0/7.5 mV)  see 

section 13.4. To manually select the output signal see section 13.3.
At the ‘

Excitation voltage

’ (

V.EXc

) parameter select ‘

oFF

’ to disable the 

excitation voltage. Excitation voltage is set to ‘

on

’ when selecting the 

cELL

’ mode, and set to ‘

oFF

’ when selecting the ‘

MV

’ mode at the ‘

Mode

’ 

(

ModE

) parameter.

13.3 Output range

At the ‘

Output range

’ (

out

) menu entry, select the output signal range to 

4/20 mA (value ‘

420

’) or to 0/10 Vdc (value ‘

010

’).

The output signal range selected can be later customized to operate in a 

reduced range of signal (see section 13.4).

Output range

Input conf.

Mode

Load cell mode

Millivolt mode

Signal range

0/5 mV

0/10 mV

0/15 mV

0/20 mV

0/25 mV

0/30 mV

0/40 mV

Excitation voltage

Excitation voltage

0/50 mV

0/60 mV

0/70 mV

0/80 mV

±10 mV

±20 mV

±30 mV

±40 mV

±50 mV

±60 mV

±70 mV

±80 mV

±5 mV

Summary of Contents for I4 Series

Page 1: ...www fema es SERIES I4 Model I4L USER S MANUAL ISOLATED SIGNAL CONVERTER Section INDUSTRIAL 5583r00 INDUSTRIAL Weight Kg Load cell mV...

Page 2: ...ocs 5587_I4L_installation_en pdf CE declaration www fema es docs 5642_CE Declaration_I4_en pdf Warranty www fema es docs 4153_Warranty1_en pdf Web www fema es Series_I4 3 Additional information When t...

Page 3: ...Read the practical load cell information see section 7 4 Connect the input the output and the power terminals see section 9 error messages may appear in the process of connection see section 16 for ex...

Page 4: ...ead signal for changes at the excitation voltage The actual value of the excitation voltage is detected by using the sense wires Connect the sense and sense terminals 5 and 2 to the load cell to provi...

Page 5: ...g 3 load cells is the optimal way to distribute the weight on a plane although it is common to work with 4 load cells in applications with tanks hoppers and similar When working with multiple load cel...

Page 6: ...trument reads uSEr Code identifies the end of the list it follows code 199 and the list continues with code 010 Select to exit the list without applying changes To calculate the optimal input signal r...

Page 7: ...dc 7 8 9 common Vdc fuse signal sense Vexc POWER ABC 18 to 265 Vac dc isolated OUTPUT SIGNAL 789 sense common 0Vdc or passive mA current out signal 4 20mA mA current in signal 0 10Vdc or active mA cur...

Page 8: ...ion voltage terminals OUTPUT SIGNAL The output signal is configurable to 4 20mA active and passive and 0 10Vdc Table 13 Input signal ranges for load cell signals Input range Code for 4 20mA output Cod...

Page 9: ...ifications OUTPUT SIGNAL The output signal is configurable to 4 20mA active and passive and 0 10Vdc Table 14 Connection examples for millivolt signals 1 2 3 not connected mV not connected 4 5 6 not co...

Page 10: ...he input with no filter 115 mSec typ 0 to 99 with 50Hzfilter or 60Hzfilter 150mSec typ 0 to 99 with 50 and 60Hz filter 300mSec typ 0 to 99 OUTPUT SIGNAL RANGES active current output 4 20mA active max...

Page 11: ...SERIES I4 Model I4L Section INDUSTRIAL ISOLATED SIGNAL CONVERTERS www fema es 11 T h i s p a g e b l a n k...

Page 12: ...t returns to normal mode of operation HOW TO OPERATE INSIDE THE CONFIGURATION MENU Inside the configuration menu use the front keypad to move through menu entries parameters and select configuration v...

Page 13: ...ee section 13 8 The messages function ends when all the information has been displayed or front keys UP 5 or SQ are pressed The display returns to normal mode of operation 12 5 How to activate the Mes...

Page 14: ...cted a configuration code see section 13 1 the input signal has been already selected and there is no need to manually select the Mode ModE or Signal range rAnG parameters again At the Mode ModE param...

Page 15: ...ressed in x xx mA or in x xx Vdc at the Output high signal ou hI parameter configure the high output signal value This value is expressed in x xx mA or in x xx Vdc These four parameters define the rel...

Page 16: ...citation current EX MA to read the value of the current provided through the excitation voltage terminals for example ExMA 14 3 Display information Input signal value in mV Output signal value Label S...

Page 17: ...rrected millivolts mV see section 10 1 configure Input signal value InP S to on to see the input signal value and the measurement units for example Inp mV 8 52 This value is expressed in millivolts mV...

Page 18: ...and to underrange output signal to minimum value in case of input signal underrange at the On SQ on Sq parameter configure the behavior of the output signal when the operator is inside configuration...

Page 19: ...set a dead band value of 0 08mVdc All signals below 0 08mVdc will be treated as 0mVdc and the output will be 4mA the Version VEr parameter informs about the firmware version running in the instrument...

Page 20: ...oltage Excitation voltage 0 70mV 0 80mV 10mV 20mV 30mV 40mV 50mV 60mV 70mV 80mV 5mV Output range ok message flashes while the field correction function is being applied and when finished the instrumen...

Page 21: ...abel2 Alphanumerical 0 0 to 100 0 SOS mode of output On error Output to high Output to low Output standard Power filter No filter Filter for 50Hz Filter for 60Hz Filter for 50Hz and 60Hz On SQ Output...

Page 22: ...ell cELL Signal range rAnG 10 00mV Excitation voltage V EXc on Output range out 4 20mA Advanced scaling Ad Sc Tare tArE 0 00 mV Input signal low In Lo 0 00 mV Input signal high In hI 10 00 mV Output s...

Page 23: ...r motor controllers electrovalves together with signal and or control cables The use of shielded cables is recommended to prevent the coupling of environmental electromagnetic noise connected to earth...

Page 24: ......

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