Technical data ............................................................................................................................
4
Local diagnostic and status indicators and terminal point assignment.......................................
7
4.1
4.2
4.3
Local diagnostic and status indicators ........................................................................................................... 7
Function identification .................................................................................................................................... 7
Terminal point assignment ............................................................................................................................. 7
Permissible characteristics according to the jumper supply......................................................................... 13
10 Programming data/configuration data .......................................................................................
13
11 Process data..............................................................................................................................
13
12 OUT process data words...........................................................................................................
14
12.1
12.2
12.3
13.1
13.2
14.1
14.2
Output word OUT1 (control word) ................................................................................................................ 14
Output word OUT2 and OUT3 (parameter word)......................................................................................... 15
Parameters for configuration........................................................................................................................ 15
Input word IN1 (status word) ........................................................................................................................ 16
Input words IN2 and IN3 .............................................................................................................................. 16
Permissible air pressure (operation/storage/transport)
Degree of protection
Class of protection
Connection data for Inline connectors
Connection method
Conductor cross-section
Interface
Local bus
Data routing
Transmission speed
IB IL SGI 2/F (-PAC)
IB IL SGI 2/F 2MBD (-PAC)
500 kbps
2 Mbps
Power consumption
Communications power U
L
Current consumption from U
L
I/O supply voltage U
ANA
Current consumption at U
ANA
Without strain gauge
With maximum load of 60
Ω
Total power consumption
500 kbps
7.5 V
75 mA, typical
24 V DC
8 mA, typical
32 mA (at U
V
= 5 V), typical
0.755 W, typical
2 Mbps
7.5 V
100 mA, typical
24 V DC
8 mA, typical
32 mA (at U
V
= 5 V), typical
0.942 W, typical
Supply of the module electronics and I/O through the bus coupler/power terminal
Connection method
Potential routing
Outputs
Number
Total impedance of the Inline terminal
Maximum current at U
V
= 3.3 V
Maximum current at U
V
= 5 V
2 voltage outputs (U
V
= 3.3 V, U
V
= 5 V)
> 58.3
Ω
(typical)
I
max
= 55 mA (typical)
I
max
= 85 mA (typical)
7210_en_02
PHOENIX CONTACT
4
IB IL SGI 2/F ...
Analog inputs
Number
Connection of signals
Voltage inputs
Jumper difference U
d
Jumper voltage U
0
Characteristics
Unipolar
Bipolar
Measured value representation
Process data update
Bus cycle time
Jumper difference input limit frequency
+1 mV/V, +2 mV/V, +3 mV/V, +4 mV/V
±1 mV/V, ±2 mV/V, ±3 mV/V, ±4 mV/V
15 bits + sign bit
Once every bus cycle (bus synchronous)
≥
1 ms
1.6 kHz (typical)
Two, can be configured by selecting the characteristic and the jumper supply
3.3 V ± 0.5 V or 5 V ± 0.5 V
Two input channels for strain gauges
(four voltage inputs)
6 or 4-wire, twisted pair shielded cable
Tolerances at T
A
= 25 °C
Nominal characteristic value
Relative deviation in % related to the measuring range
final value
Typical
Maximum
±0.1%
±0.2%
±0.3%
±0.6%
Unipolar 1 mV/V, 2 mV/V, 3 mV/V, 4 mV/V
Bipolar ±1 mV/V, ±2 mV/V, ±3 mV/V, ±4 mV/V
The typical values contain the typical offset error, gain error and linearity error in the respective configuration related to the positive measuring range up to
100% of the nominal characteristic value. This data is valid for nominal operation (preferred mounting position, U
S
= 24 V) with16-sample average value filter.
The maximum tolerance values represent the worst case measurement inaccuracy. Besides the maximum offset error, the gain error and the linearity error,
the maximum tolerance values also comprise the longtime drift as well as the maximum tolerances of the test and calibration equipment.
Please also observe the values for temperature drift and the tolerances influenced by EMI.
This data is valid for at least twelve months.
Additional tolerances influenced by electromagnetic fields
Type of electromagnetic interference
Relative deviation in % related to the measuring range
final value
Electromagnetic fields, field strength 10 V/m in acc. with EN 61000-4-3
Conducted interference, Class 3 (10 V test voltage)
according to EN 61000-4-6
Fast transients (burst) up to an interference voltage of ±2.2 kV
according to EN 61000-4-4
< ±0.7%
< ±0.2%
< ±0.3%
You can minimize the interference by connecting the sensor cable shield to the DIN rail in front of the terminal via a shield connection clamp
(see "Accessories" on page 3).
Temperature and drift response (T
A
= 25°C to 55°C)
Relative drift in ppm/K related to the measuring range
final value
Typical
Maximum
Unipolar 1 mV/V, 2 mV/V, 3 mV/V, 4 mV/V
Bipolar ±1 mV/V, ±2 mV/V, ±3 mV/V, ±4 mV/V
15 ppm/K
500 ppm/K
50 ppm/K
980 ppm/K
The typical values contain the typical offset value and gain value in the respective configuration in the temperature range from -25°C up to +55°C related to
the positive measuring range up to 100% of the nominal characteristic value. This data is valid for nominal operation (preferred mounting position, U
S
= 24 V)
with16-sample average value filter.
The maximum tolerance values represent the worst case measurement inaccuracy. Besides the maximum offset drift and gain drift, they also comprise the
longtime drift as well as the maximum tolerances of the test and calibration equipment in the temperature range from -25°C up to +55°C.
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