Model DR
DIN-rail Controller and
Light Curtain
Design Criteria
Diverse Redundancy Design
Concept
Pinnacle safety light curtains utilize
the diverse redundancy design concept. This gives the
safety light system a higher level of redundancy and
control reliability. The two microprocessors are of
different design, and the microprocessor or parallel
programs are run and made up from different instruction
sets written by different
programmers.
Self-Checking
Circuitry
Pinnacle safety light curtains
self-check every 20 milliseconds. Self-checking is the ability
to electronically verify that all of the systems critical
internal circuit components and their redundant counterparts or
back-ups are operating properly.
Extra Safe Design
The DIN-Rail provides two methods
of fail-safe design. One utilizes two microprocessors and two
captive contact relays, and the other uses four watchdog timers
monitoring the system and the captive contact
relays.
Redundant Captive
Contact Safety Relays
Redundant relays assure safety if
an output relay should fail. The DIN-Rail utilizes safety
relays which have force-guided contacts. This is a
configuration where the contacts are mechanically locked
together so that if one set of contacts weld, the other
contacts cannot change state. If one should fail, the code
"Relay Fault" will be displayed on the diagnostic message
display. The complete guarding system consists of two miniature
pylons with a controller for system diagnostics and wiring
interface.
External
Diagnostic Message Display
Standard on all DIN-Rail safety
lights is the "External Diagnostic
Display."
Alpha-numeric
Plain English Messages
The scrolling message display
shows status and fault codes of the unit. This is an excellent
safety and maintenance feature, which is unparalleled in the
machine guarding industry for enhancing machine
utilization.
Control Reliable
System
Critical components of the
DIN-Rail are duplicated so that a single component failure will
not cause an unsafe condition. If a component does fail, the
units self-checking circuitry recognizes the situation and
initiates a safe stop of the machine. The fault is then
displayed on the message display.
Powerful Infrared
Light Source
Pinnacle safety lights utilize
powerful, safe and predictable infrared light as its sensing
source. This gives the system greater reliability and enhances
machine utilization by minimizing nuisance trips and shutdowns
caused by dirt, coolants, lubrication mists and machine oils.
Pinnacle safety lights are highly immune to EMI, RFI, and
ambient light conditions and are unaffected by strobe lights
and weld flash generated light
sources.
Extensive
Testing
Pinnacle safety lights
incorporate extensive testing and burn-in to establish a high
degree of product reliability and
safety.
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