User Documentation
2 Safety | Intended use
6 1484600000/07/11.2020u-remote IP20 modules for functional safety manual
2.2 Intended use
The products of the u-remote series are intended for use in
industrial automation. A u-remote station with bus coupler
and connected modules is intended for the decentralised
control of systems or sub-systems. All modules of a station
are integrated into a eldbus structure and connected to the
superordinate control unit via the eldbus coupler.
The u-remote safe I/O modules (UR20-
*
FS
*
) as well as the
safe power-feed modules (PF-O-xDI-SIL) are intended for
connecting equipment providing functional safety. Therefore
safe I/O modules must be operated via a safety control.
The u-remote products conform to protection class IP20 (in
accordance with DIN EN 60529), they can be used in poten-
tially explosive atmospheres rated as Zone 2 (as per Directive
2014/34/EU).
The observance of the supplied documentation is part of the
intended use. The products described in this manual may
only be used for the intended applications and only in con-
nection with certied third-party devices or components.
2.3 Use in a potentially explosive atmosphere
If u-remote products are used in potentially explosive atmos-
pheres, the following notes are also applicable:
– Staff involved in assembly, installation and operation must
be qualified to perform safe work on electrical systems
protected against potentially explosive atmospheres.
– For applications in potentially explosive atmospheres, the
requirements according to IEC60079-15 must be
observed.
– The housing enclosing must be ATEX/IECEx certified
meeting the requirements of protection class IP54, acces-
sible only by use of a tool.
– The housing enclosing must meet the requirements of
explosion protection type Exn or Exe.
– Sensors and actuators that are located in Zone 2 or in a
safe zone can be connected to the u-remote station.
– Devices are for use in an area of not more than pollution
degree 2 in accordance with EN60664-1.
– Provision shall be made to prevent the rated voltage from
being exceeded by transient disturbances of more than
140 % of the rated voltage.
– When the temperature under rated conditions exceeds
70 °C at the conductor or conduit entry point, or 80 °C at
the contact, the temperature specification of the selected
cable shall be in compliance with the actual measured
temperature values.
– A visual inspection of the u-remote station is to be per-
formed once per year.
2.4 Notes on functional safety
Safety Integrity Level (SIL)
The safety requirements necessary for the safety functions
of an application are determined in a risk analysis. Here, the
probability of the safety functions failing is important. In an
operating mode with a high rate of demand or continuous
demand, the probability of dangerous failure per hour (PFH)
must be taken into consideration, whereas in an operating
mode with a lower rate of demand, the probability of danger-
ous failure on demand (PFD) must be taken into consider-
ation. According to IEC61508 and IEC62061, the safety
requirements are graded by the failure limit values as follows:
Safety requirements by failure limit values
PFD PFH
SIL3 < 10
-3
< 10
-7
SIL2 ≥ 10
-3
to < 10
-2
≥ 10
-7
to < 10
-6
SIL1 ≥ 10
-2
to < 10
-1
≥ 10
-6
to < 10
-5
Performance level (PL)
According to ENISO13849-1, the degree to which a safety
function contributes to risk minimisation is dened as the
performance level. A distinction is made between the ve
levels PLa to PLe with an increasing contribution to risk min-
imisation.
Safety categories
Safety categories according to ENISO13849-1 describe a
minimum level of applicable safety and to what extent moni-
toring is required.
Category B: The safety-related components of machine
controls and/or their safety equipment as well as their
components must be designed, selected, assembled and
combined to the state of the art such they can withstand the
expected conditions.
Category 1: The requirements of Category B must be met.
Use of proven safety-related components.
Category 2: The requirements of Category B must be met
with the use of proven safety principles. The safety functions
must be veried by the machine controls at suitable intervals
(depending on the application and the type of machine).
Category 3: The requirements of Category B must be met
with the use of proven safety principles. Controls must be de-
signed so that a single failure in the control system does not
lead to a loss of safety function(s), and whenever reasonably
practicable, the single failure shall be detected with suitable
means which meet the state of the art.
Category 4: The requirements of Category B must be met
along with the use of proven safety principles. Controls must