--- a/content/opentally.rst Thu Nov 05 22:14:33 2020 +0100
+++ b/content/opentally.rst Thu Nov 05 22:15:16 2020 +0100
@@ -106,7 +106,7 @@
Since I had no time nor enough optocouplers in my stash of junk parts, so I
just used regular non isolated 2N2222 to control the ITC100_ tally light lines.
-.. image:: {static}images/opentally/proto.jpg
+.. image:: {static}/images/opentally/proto.jpg
:alt: A very rough protoype of OpenTallyLight
It's a very crude protoype, but i worked! Believe it or not, but they have been
@@ -136,13 +136,13 @@
So I ended up with this design:
-.. image:: {static}images/opentally/opentally-pcb-1.jpg
+.. image:: {static}/images/opentally/opentally-pcb-1.jpg
:alt: A slightly better design of OpenTallyLight
Looks neat, but... I did not realize I put the RJ45 socket backwards! Doh!
-.. image:: {static}images/opentally/proto2.jpg
+.. image:: {static}/images/opentally/proto2.jpg
:alt: A (not so) better proto of OpenTallyLight
In order to test is nometheless, I put the Pro Micro on the back side of the
@@ -173,26 +173,26 @@
The PCB design looks like:
-.. image:: {static}images/opentally/opentally-v3.jpg
+.. image:: {static}/images/opentally/opentally-v3.jpg
:alt: A better design for OpenTallyLight
Which gives, in real life:
-.. image:: {static}images/opentally/front.jpg
+.. image:: {static}/images/opentally/front.jpg
:alt: Front side of the PCB
-.. image:: {static}images/opentally/back.jpg
+.. image:: {static}/images/opentally/back.jpg
:alt: Back side of the PCB
And the result once installed in the enclosure:
-.. image:: {static}images/opentally/complete-unit.jpg
+.. image:: {static}/images/opentally/complete-unit.jpg
:alt: The completed OpenTallyLight
-.. image:: {static}images/opentally/enclosure.jpg
+.. image:: {static}/images/opentally/enclosure.jpg
:alt: The completed OpenTallyLight (enclosure front)
-.. image:: {static}images/opentally/enclosure-2.jpg
+.. image:: {static}/images/opentally/enclosure-2.jpg
:alt: The completed OpenTallyLight (enclosure back)
