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authorjaseg <git@jaseg.de>2021-07-30 18:42:28 +0200
committerjaseg <git@jaseg.de>2021-07-30 18:42:28 +0200
commitb04cde41317e6410a3848c69ad31e1062b979b4c (patch)
treed7f53be3a7362a055ea8db2d3fe46c0cc6d9800f
parent61ba7e6d12cf0836e677feed4eb9b9d970bd619b (diff)
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Amendmend on firmware size
-rw-r--r--paper/safety-reset-paper.tex5
1 files changed, 3 insertions, 2 deletions
diff --git a/paper/safety-reset-paper.tex b/paper/safety-reset-paper.tex
index a7d4344..75fca76 100644
--- a/paper/safety-reset-paper.tex
+++ b/paper/safety-reset-paper.tex
@@ -125,8 +125,9 @@ fundamentally different in both generation and detection from systems such as tr
on grid voltage, but leave the underlying grid frequency itself unaffected. The safety reset controller is an
off-the-shelf microcontroller much smaller than the one used for the meter's main application controller. It measures
grid frequency from a voltage waveform acquired using its internal analog-to-digital-converter (ADC) directly connected
-to the mains voltage input through a resistive divider chain. The use of an off-the-shelf microcontroller keeps the
-implementation overhead of our solution very low in both per-unit and engineering cost.
+to the mains voltage input through a resistive divider chain. By using of an off-the-shelf microcontroller we keep the
+implementation overhead of our solution low in engineering cost compared to an ASIC. By keeping its firmware small, we
+can use a simpler and less expensive microcontroller, keeping per-unit implementation cost low.
\begin{figure}
\centering