diff --git a/IBPSA/Electrical/BaseClasses/PV/BaseClasses/PVOptical/AirMass.mo b/IBPSA/Electrical/BaseClasses/PV/BaseClasses/PVOptical/AirMass.mo
index f7bcff34ce..fcaf8d60e4 100644
--- a/IBPSA/Electrical/BaseClasses/PV/BaseClasses/PVOptical/AirMass.mo
+++ b/IBPSA/Electrical/BaseClasses/PV/BaseClasses/PVOptical/AirMass.mo
@@ -20,11 +20,16 @@ equation
 
  annotation (Icon(coordinateSystem(preserveAspectRatio=false)), Diagram(
         coordinateSystem(preserveAspectRatio=false)),
-        Documentation(info="<html><p>The model computes the air mass, which is the number of particles in the atmosphere.</br>
-        It bases on an exact empirical approach by Kasten et al. and bases on the zenith angle of the object as well as its height.</p>
-        <h4>References</h4>
+        Documentation(
+          info=
+          "<html>
 <p>
-Kasten, F., &amp; Young, A. T. (1989). Revised optical air mass tables and 
+The model computes the air mass, which is the number of particles in the atmosphere.</br>
+It is based on an exact empirical approach by Kasten et al. and bases on the zenith angle of the object as well as its height.
+</p>
+<h4>References</h4>
+<p>
+Kasten, F., &amp; Young, A. T. (1989). Revised optical air mass tables and
 approximation formula. Applied optics, 28(22), 4735-4738.
 <a href=\"https://doi.org/10.1364/AO.28.004735\">
 https://doi.org/10.1364/AO.28.004735</a>