diff --git a/fmmd_design_aide/fmmd_design_aide.tex b/fmmd_design_aide/fmmd_design_aide.tex
index 800049b..071e8b2 100644
--- a/fmmd_design_aide/fmmd_design_aide.tex
+++ b/fmmd_design_aide/fmmd_design_aide.tex
@@ -104,8 +104,10 @@ An offset is applied to the input by R18 and R22 forming a potential divider
 of $\frac{820}{2.2E6+820}$. With 5V applied as Vcc this gives an input offset of $1.86\,mV$.
 So the amplified offset is $\approx 342 \, mV$. We can determine the output of the amplifier
 by subtracting this amount from the reading. We can also define an acceptable 
-range for the readings. This would depend on the milli-volt source, and also on the 
-detectability of the error volatges.
+range for the readings. This would depend on the characteristics of milli-volt source, and also on the 
+thresholds of the volatges considered out of range. For the sake of example let us
+consider this to be a type K thermocouple amplifier, with a range of temperatures 
+expected to be within {{0}\oc} and {{300}\oc}.
 
 EXPAND