Reliability in the design phase:
Each part of the electronic design is optimized to perform
with the widest margin of tolerances.
The digital designs are pure synchronic to a master clock
assuring differences in delay values will not affect the
correct operation of the system within at least
+/-10% tolerance in the power supply and +/-20% tolerance in
the clock frequency and over full temperature range. The
rise and fall signal transitions are driven accordingly
to the line requirements, in order to generate the lowest
possible digital noise.
The small signal analog designs are optimized to
fulfill the noise requirements over temperature and to be
insensitive to power supply fluctuations.
Most of our analog power designs use PWM technology
to provide high output power with very small dissipated
power, and also be protected for overcurrent, overvoltage
and overtemperature.
Reliability in the PCB layout phase:
Our PCBs are optimized to avoid crosstalk, noise peeking
and transmission.
We have decades of experience with PCB used for extremely faint
signals, and we use this knowledge for all the lines on the PCB.
The programmable devices pinout is fixed accordingly to
the best PCB routing, avoiding long lines on critical
signals.
Reliability for production:
The technology and techniques we use results in
lower components and pin count, therefore in higher
reliability, complete in house testing, longer MTBF,
and easier update of new versions.
Security:
The technology leads to a
single chip for all the digital part of the design. This
cannot be traced, the design cannot be copied.
supplying you with your product.
