Transmitter
Type LED
Wavelength λ = 650 nm
Transmitter power Minimum 0 dBm
Maximum 2 dBm
Numerical aperture
0.5
19
Signal rate connection test 1 pulse per second
Pulse duration connection test 11 μs
High-Speed Measuring-Transducer Inputs, Voltage/Current (via IO210, IO212)
NOTE
Current and voltage must not be connected at the same time to one measuring-transducer input. Instead,
only connect either current or voltage. For EMC reasons, do not connect a line to an unused input (current
or voltage).
Use shielded cables.
Table 6-1 High-Speed Measuring-Transducer Inputs, Voltage
Differential voltage input channels
IO210: 4
20
IO212: 8
21
Measuring range DC -10 V to +10 V
Fault < 0.5 % of the measuring range
Input impedance 48 kΩ
Max. permissible voltage with
respect to ground on the meas-
uring inputs
300 V
Permissible overload DC 20 V continuously
DC 60 V continuously (IO210 MT3 terminal point C9)
Table 6-2 High-Speed Measuring-Transducer Inputs, Current
Differential current input channels
IO210: 4
22
IO212: 8
23
Measuring range DC -20 mA to +20 mA
Fault < 0.5 % of the measuring range
Input impedance, current 12 Ω
Permissible potential difference
between channels
DC 3.5 kV
Galvanic separation with respect to
ground/housing
DC 3.5 kV
Permissible current overload DC 100 mA continuously
19
Numerical aperture (NA = sin θ (launch angle))
20
The IO210 has 4 high-speed measuring-transducer inputs. They can be used either as a voltage or current input.
21
The IO212 has 8 high-speed measuring-transducer inputs. They can be used either as a voltage or current input.
22
The IO210 has 4 high-speed measuring-transducer inputs. They can be used either as a voltage or current input.
23
The IO212 has 8 high-speed measuring-transducer inputs. They can be used either as a voltage or current input.
Technical Data
6.1 Analog Inputs
222 SIPROTEC 5, Hardware Description, Manual
C53000-G5040-C002-J, Edition 08.2020
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