From 04bd489a956e2b5f0cd31b8044e002bb0db46271 Mon Sep 17 00:00:00 2001
From: Sam Calisch <sam.calisch@cba.mit.edu>
Date: Tue, 26 Feb 2019 11:39:06 -0500
Subject: [PATCH] Update README.md

---
 README.md | 14 +++++++++-----
 1 file changed, 9 insertions(+), 5 deletions(-)

diff --git a/README.md b/README.md
index f5c8cc8..91f69a8 100644
--- a/README.md
+++ b/README.md
@@ -8,24 +8,28 @@ With proper wire handling and tension, this process can be quite fast, operating
 
 <img src='img/three-phase-plotting-720.mp4' height=300px>
 
-Magnet wire is inexpensively available in a variety of gauges, and the integral insulation allows wires to be packed more densely than possible in flex circuit board manufacturing.  For instance, in the planar lorentz force actuators below, the 80 micron copper wire has 10 micron insulation thickness, and so is packed with 20 micron spacing.
+Magnet wire is inexpensively available in a variety of gauges, and the integral insulation allows wires to be packed more densely than possible in flex circuit board manufacturing.  For instance, in the planar lorentz force actuators below, the 80 micron copper wire has 10 micron insulation thickness, and so is packed with 20 micron spacing.  The coils can be laminated to a variety of substrates including polymer films like Kapton and PET, as well as composite prepregs like Carbon, Fiberglass, etc.
 
 <img src='img/flatcoil-40awg-microscope.jpg' height=300px>
 <img src='img/flatcoil-cut.jpg' height=300px>
 
+Three phase actuators in Y and Delta configurations:
+
+<img src='img/three-phase.jpg' height=300px>
+<img src='img/three-phase-2.jpg' height=300px>
+
 Planar magnetic speakers:
 
 <img src='img/speaker-microscope.jpg' height=300px>
 <img src='img/hex-spiral-coil.jpg' height=300px>
 
-plotting speakers: 
+plotting: 
 
 <img src='img/speaker-plotting.mp4' width=300px>
 
-Three phase actuators in Y and Delta configurations:
+driving: 
 
-<img src='img/three-phase.jpg' height=300px>
-<img src='img/three-phase-2.jpg' height=300px>
+<img src='img/mode-150hz-1000fps.mp4' width=300px>
 
 The head is designed to press the wire down with as little friction as possible, while constraining the wire position as close to the application point as possible without interfering with already-placed wires.  It mounts kinematically to the tool head suspension via a dowel pin and four ball-ended 100 TPI micro-adjustment screws, allowing the wire application point to be precisely aligned with the tool's rotational axis.
 
-- 
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