X-Git-Url: https://git.gag.com/?a=blobdiff_plain;f=bdale%2Fblog%2Fposts%2FBatteries_and_Pyro_Circuits.mdwn;h=53addad6ee5db860d196189bd23eda40088178a4;hb=334b253987ddf4eaa4808a919b8a102eb3f894cd;hp=ee977e58bbff427c5342c98a50349171d6ac0c58;hpb=a704327cccf17ab19385304c64b93b02cd134e53;p=web%2Fgag.com

diff --git a/bdale/blog/posts/Batteries_and_Pyro_Circuits.mdwn b/bdale/blog/posts/Batteries_and_Pyro_Circuits.mdwn
index ee977e5..53addad 100644
--- a/bdale/blog/posts/Batteries_and_Pyro_Circuits.mdwn
+++ b/bdale/blog/posts/Batteries_and_Pyro_Circuits.mdwn
@@ -47,8 +47,8 @@ at a 500mA discharge rate.
 
 Importantly for use in pyro circuits, LiPo cells have a *very* low source 
 impedance, which means they can source immense amounts of current.  It's not
-unusual for cells in the 1000mAh range to have ratings in excess of 30C!  
-Because this rapid discharge ability can pose a risk of fire, it's common
+unusual for cells in the 1000mAh range to have ratings in excess of 
+30C!  Because this rapid discharge ability can pose a risk of fire, it's common
 for LiPo cells to come with a "protection board" integrated into the battery 
 assembly that is designed to limit the current to some rate such as 2C
 continuous duty.
@@ -183,8 +183,6 @@ fixmybattery@altusmetrum.org telling us how many of which capacity batteries
 you have that you'd like updated, and we'll respond with an RMA number and
 shipping details.
 
-	[ make sure Keith is ok with working it this way ]
-
 Going Even Further
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