Rob Lewis, the Managing Director of Fortress Interlocks, explains the options for preventing fault masking (unintended resetting).
The long-discussed phenomenon of fault masking (unintended resetting) when connecting multiple volt"free contacts in series into a safety monitoring device is now covered in EN ISO 14119 and an associated technical report.
In simple terms, if gate switches are wired in series, then it is still possible to reset the safety circuit even after a short circuit has occurred on one part of the circuit, as one of the other gate switches can still open both circuits, allowing the fault to be cleared from the safety relay, configurable controller or safety PLC. The effect is so pronounced that for a system with more than one frequently opened guard the level of Diagnostic Coverage (DC) falls to zero, resulting in a PL reduction to a maximum of PLc.
To prevent this problem of a reduction in PL there are three solutions:
Options 1 and 2 come with quite a cost impact, so how can trapped key devices overcome the issue?
The principle of using a trapped key to open multiple doors is shown in the accompanying figure. In this example four locks are mechanically linked to a single force-break switch with dual normally-closed contacts. These contacts cannot be closed until all keys are returned to the unit, and in reverse it is impossible to remove a single key without breaking the contacts. Once the keys are released they go to the four door locks. Only with the key in the door lock can you open the door, and with the door open, the key is trapped in the lock (and so unable to be returned to the switch unit).
Because there is only one set of safety contacts there is no risk of fault masking and only one set of safety I/O is required to cover the whole cell. Another benefit of this system is that the switch can be mounted wherever it is most convenient (not necessarily at the door), allowing the unit to be mounted at the main control panel, thereby significantly reducing wiring costs. The Fortress mGard range is the only trapped key product with TUV approval to PLe.
A trapped key interlock system meets fault masking standards set out in EN ISO 14119. It has advantages over using safety relays, or incorporating built"in diagnostics, in that it saves on the number of safety I/O required and results in large savings in wiring costs.
Follow the link for more information about Fortress mGard trapped key interlock systems.