INFCS - Configuring the Meter

CONFIGURING THE METER
SELECTING THE INPUT TYPE ("INPT")
To select your appropriate input type signal.

Set the input DIP switch settings at the rear of your meter before proceeding. (Refer to Section 6 - Table 6-1).

1. Press the MENU button. The meter shows "INPT".

2. Press the /TARE button. The meter flashes one of the following:
* 100m (for 0-100 mV dc) (default)
* ▒50m (for ▒50 mV dc)
* 10 V (for 0-10 V dc)
* ▒5 V (for ▒5 V dc)
* 0-20 (for 0-20 mA or 4-20mA dc).

3. Press the

/NT/GRS button to scroll through available selections.

4. Press the MENU button to store your selection. The meter momentarily shows "STRD", followed by "DEC.P" (Decimal Point).

SELECTING A DECIMAL POINT POSITION ("DEC.P")
To select a decimal point display position.

1. Press the MENU button until the meter shows "DEC.P"

2. Press the /TARE button. The meter shows one of the following:

FFFF.

FFF.F
* FF.FF
* F.FFF

3. Press the

/NT/GRS button to scroll through available selections.

4. Press the MENU button to store your selection. The meter momentarily shows "STRD", followed by "RD.S.O" (Reading Scale and Offset).

USING READING SCALE AND OFFSET ("RD.S.O")
There are two methods to scale this meter to display readings in engineering units. The first method is to scale with known loads. Do this by applying known loads to a transducer connected to a meter, or by simulating the output of the transducer with a voltage or current simulator. The second method is to scale without known inputs. Do this by calculating input values based on the transducer specifications and manually entering them through the keyboard.

Scaling with Known Loads (On-Line Calibration)
For maximum resolution, find the maximum signal that will be applied to the meter input.

Set the DIP switch positions as indicated at the top of either Table 4-1 or 4-2. The numbers 1 through 8 in the top row of either table represent DIP switches 1 through 8 and the O, C or X directly below the number indicates the correct position of each switch.

* "O"

* "C"

* "X"

Once DIP switches have been positioned correctly, apply power. Proceed to the "RD.CF" (Reading Configuration) and set R2 equal to the value in the right hand column of the card.

Range Selection Dip Switch Positions For Regular Voltage Input Table 4-1

12345678	12345678	RD.CF*
XCOOOXXC	XCOOCXXC	R2=
0 - 10 V	▒5 V	4
0 - 5 V	▒5 V	3
0 - 3 V	▒3 V	2
0 - 2 V	▒2 V	1
0 - 1 V	▒1 V	0

Range Selection Dip Switch Positions For Millivolt and Milliamp Input Table 4-2

12345678	12345678	12345678	RD.CF*
XOCOOXXO	XOCOCXXO	XOCCOXXO	R2=
0 - 100 mV	▒50 mV	0 - 20 mA	4
0 - 50 mV	▒50 mV	0 - 10 mA	3
0 - 30 mV	▒30 mV	0 - 6 mA	2
0 - 20 mV	▒20 mV	0 - 4 mA	1
0 - 10 mV	▒10 mV	0 - 2 mA	0

To scale with known inputs: apply known loads to a transducer connected to a meter, or simulate the transducer output with a voltage or current simulator. To scale with known inputs, follow these steps:

1. Apply a known load equal to approximately 0% of the transducer range.

2. Press the MENU button until the meter shows "RD.S.O".

3. Press the /TARE button. The meter shows "IN 1" (Input 1).
"IN 1" (Input 1) is the unscaled display reading at minimum input.

4. Press the /TARE button again. The meter shows the last stored value for Input 1.

5. Press the /TARE button once more. The meter shows the actual signal being received.

6. Press the MENU button to store this value as "IN 1". The meter shows "RD 1" (Read 1).

7. Press the /TARE button. The meter shows the last stored value for Read 1.

8. Press the

/NT/GRS button to change the value of your digits.

9. Press the /TARE button to scroll horizontally to the next digit.

10. Press the MENU button to store this value as "RD 1" (Read 1). The meter shows "IN 2" (Input 2).
"IN 2" (Input 2) is the unscaled display reading at maximum input.

11. Apply a known load equal to approximately 100% of the transducer range.

12. Press the /TARE button. The meter shows the last stored value for Input 2.

13. Press the /TARE button once more. The meter shows the actual signal being received.

14. Press the MENU button to store Input 2 value. The meter shows "RD 2" (Read 2).
"RD 2" (Read 2) is the desired display reading at Input 2.

15. Press the /TARE button. The meter shows the last stored value for "RD 2" (Read 2).

16. Press the

/NT/GRS button to change the value of your digits.

17. Press the /TARE button to scroll horizontally to the next digit.

18. Press the MENU button to store this value as "RD 2" (Read 2). The meter momentarily shows "STRD", followed by "RD.CF". Meter scaling is now complete.

Scaling without Known Loads
To scale without known inputs, calculate input values based on transducer specifications and manually enter them on the via the front-panel push-buttons. The following example assumes load cells with these specifications:

Maximum Load: to 100.0 lbs
Output: 3.1 mV/V
Sensor Excitation: 10 V dc
Output: 31 mV (3.1 mV/V) x (10 V)

1. Determine the correct values for "IN 1" and "IN 2", based on the load cell specifications. In most cases, "RD 1 & 2" are equal to the minimum and maximum of the transducer output span. The example assumes "RD 1 & 2" are equal to the range of the load ("RD 1" = 0 and "RD 2" = 100.0). Calculate "IN 1" and "IN 2" using the load cell output span and the following equation:

"IN" = (Sensor Output) x (Natural Gain) x (Multiplier)

Natural Gain Table 4-3

Input Range	Span Units	Natural Gain
0 to 100 mV	Millivolts	100 cts/mV
+/- 50 mV	Millivolts	40 cts/mV
0 to 10 V	Volts	1000 cts/V
+/- 5 V	Volts	400 cts/V
0 to 20 mA	Milliamps	500 cts/mA

2. Determine the multiplier by the Input Resolution setting ("R.2" in the "RD.CF" menu) and the input range selected. Typically "R.2=4" is suitable for most applications.

Input Resolution Multiplier Table 4-4

Input Range	R.2=4	R.2=3	R.2=2	R.2=1	R.2=0
0 to 100 mV	1.000	2.000	3.333	5.000	10.00
0 to 10 V	1.000	2.000	3.333	5.000	10.00
0 to 20 mA	1.000	2.000	3.333	5.000	10.00

+/- 50 mV	1.000	1.000	1.667	2.500	5.000
+/- 5 V	1.000	1.000	1.667	2.500	5.000

3. Determine "IN 1 & 2" input range and resolution. The example selects the 0 to 100 mV range and 10 uV resolution ("R.2=4").

Example:	"IN 1" = (0 mV) x (1000 cts/mV) x (1.000) = 0
	"IN 2" = (31 mV) x (1000 cts/mV) x (1.000) = 3100
	"RD 1" = 0000
	"RD 2" = 100.0

4. Press MENU button until the meter shows "RD.S.O".

5. Press the /TARE button. The meter shows "IN 1" (Input 1).

6. Press the /TARE button again. The meter shows the last Input 1 value, with the fourth digit flashing.

7. Press the

/NT/GRS button to change the value of your digits (ignore decimal point position).

8. Press the /TARE button to scroll horizontally to the next digit.

9. Press the MENU button to store this value. The meter shows "RD 1".
"RD 1" (Read 1) is the desired display reading at Input 1.

10. Press the /TARE button. The meter shows the last value for "RD 1" (Read 1).

11. Press the

/NT/GRS button to change the value of your digits.

12. Press the /TARE button to scroll horizontally to the next digit.

13. Press the MENU button to store this value as "RD 1" (Read 1). The meter shows "IN 2" (Input 2).
"IN 2" (Input 2) is the unscaled display reading at maximum input. Ignore decimal point position.

14. Press the /TARE button. The meter shows the last known value for "IN 2" (Input 2).

15. Press the

/NT/GRS button change the value of your digits.

16. Press the /TARE button to scroll horizontally to the next digit.

17. Press the MENU button to store this value. The meter shows "RD 2" (Read 2).
"RD 2" (Read 2) is the desired display reading at Input 2.

18. Press the /TARE button. The meter shows the last stored value for "RD 2" (Read 2).

19. Press the

/NT/GRS button change the value of your digits.

20. Press the /TARE button to scroll horizontally to the next digit.

21. Press the MENU button to store this value as "RD 2" (Read 2). The meter momentarily shows "STRD", followed by "RD.CF". Meter scaling is now complete.

USING READING CONFIGURATION ("RD.CF")
You may use Reading Configuration ("RD.CF") to configure your meter for the following:

Selecting Ratiometric/Non-Ratiometric Operation
1. Press the MENU button until the meter shows "RD.CF".

2. Press the /TARE button. The meter flashes one of the following:
* "R.1=R" (Ratiometric reading) (default - for strain meters)
* "R.1=N" (Non-ratiometric reading - typically for voltage & current transducers)

3. Press the

/NT/GRS button to view the last stored selection and to toggle between available choices.

4. Press the /TARE button to select input resolution or press the MENU button to store your selection and enter "S1.CF" (Setpoint 1 Configuration).

Setting the Input Resolution of Your Meter
To set the input resolution of your meter.

1. Press the /TARE button. The meter shows one of the following (default is "R.2=4"):

* "R.2=4" 10 ╡V for Unipolar inputs. 25 ╡V for Bipolar inputs.

Example: 3 ╡V resolution means that if you input 0-30 mV, at 30 mV the meter shows 9999.

2. Press the

/NT/GRS button to scroll through available selections.

3. Press the /TARE button to show the filtered/unfiltered value or press the MENU button to store your selection and enter "S1.CF" (Setpoint 1 Configuration).

DISPLAYING THE FILTERED/UNFILTERED INPUT SIGNAL
To display the filtered/unfiltered signal input.

1. Press the /TARE button. The meter flashes one of the following:
* "R.3=F" (Filtered value) (default)
* "R.3=U" (Unfiltered value)

2. Press the

/NT/GRS button to toggle between available choices.

3. Press the /TARE button to select gross/net or peak display or press the MENU button to store your selection and enter "S1.CF" (Setpoint 1 Configuration).

SELECTING GROSS/NET OR PEAK DISPLAY
To select gross/net or peak display.

1. Press the /TARE button. The meter flashes one of the following:
* "R.4=G" (Gross/Net Display) (default)
* "R.4=P" (Peak Display)

2. Press the

/NT/GRS button to toggle between available choices.

3. Press the MENU button to store your selection and enter "S1.CF" (Setpoint 1 Configuration).

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