README.md: There are four lights.
README.md: There are four lights.

--- a/ARConfiguration.cs
+++ b/ARConfiguration.cs
@@ -16,6 +16,14 @@
 	[KSPAddon(KSPAddon.Startup.SpaceCentre, false)]
 	public class ARConfiguration : MonoBehaviour
 	{
+		private const string WINDOW_POS_KEY = "configWindowPos";
+		private const string REQUIRE_LOS_KEY = "requireLineOfSight";
+		private const string GRACE_RATIO_KEY = "graceRatio";
+		private const string REQUIRE_PROBE_CONNECTION_KEY = "requireConnectionForControl";
+		private const string FIXED_POWER_KEY = "fixedPowerCost";
+		private const string PRETTY_LINES_KEY = "drawPrettyLines";
+		private const string UPDATE_DELAY_KEY = "updateDelay";
+
 		/// <summary>
 		/// Indicates whether connections require line of sight.
 		/// </summary>
@@ -59,6 +67,12 @@
 		public static bool PrettyLines
 		{
 			get;
+			set;
+		}
+
+		public static long UpdateDelay
+		{
+			get;
 			private set;
 		}
 
@@ -66,6 +80,9 @@
 
 		private bool showConfigWindow;
 		private Rect configWindowPos;
+
+		private string updateDelayStr;
+		private long updateDelay;
 
 		private IButton toolbarButton;
 		private ApplicationLauncherButton appLauncherButton;
@@ -96,19 +113,23 @@
 			this.configWindowPos = new Rect(Screen.width / 4, Screen.height / 2, 180, 15);
 
 
-			this.configWindowPos = this.LoadConfigValue("configWindowPos", this.configWindowPos);
-
-			ARConfiguration.RequireLineOfSight = this.LoadConfigValue("requireLineOfSight", false);
-
-			ARConfiguration.RadiusRatio = (1 - this.LoadConfigValue("graceRatio", .05d));
+			this.configWindowPos = this.LoadConfigValue(WINDOW_POS_KEY, this.configWindowPos);
+
+			ARConfiguration.RequireLineOfSight = this.LoadConfigValue(REQUIRE_LOS_KEY, false);
+
+			ARConfiguration.RadiusRatio = (1 - this.LoadConfigValue(GRACE_RATIO_KEY, .05d));
 			ARConfiguration.RadiusRatio *= ARConfiguration.RadiusRatio;
 
 			ARConfiguration.RequireConnectionForControl =
-				this.LoadConfigValue("requireConnectionForControl", false);
-
-			ARConfiguration.FixedPowerCost = this.LoadConfigValue("fixedPowerCost", false);
-
-			ARConfiguration.PrettyLines = this.LoadConfigValue("drawPrettyLines", true);
+				this.LoadConfigValue(REQUIRE_PROBE_CONNECTION_KEY, false);
+
+			ARConfiguration.FixedPowerCost = this.LoadConfigValue(FIXED_POWER_KEY, false);
+
+			ARConfiguration.PrettyLines = this.LoadConfigValue(PRETTY_LINES_KEY, true);
+
+			ARConfiguration.UpdateDelay = this.LoadConfigValue(UPDATE_DELAY_KEY, 16L);
+
+			this.updateDelayStr = ARConfiguration.UpdateDelay.ToString();
 
 			GameEvents.onGameSceneLoadRequested.Add(this.onSceneChangeRequested);
 
@@ -167,7 +188,7 @@
 				if (configPos != this.configWindowPos)
 				{
 					this.configWindowPos = configPos;
-					this.SaveConfigValue("configWindowPos", this.configWindowPos);
+					this.SaveConfigValue(WINDOW_POS_KEY, this.configWindowPos);
 				}
 			}
 		}
@@ -182,7 +203,7 @@
 			if (requireLineOfSight != ARConfiguration.RequireLineOfSight)
 			{
 				ARConfiguration.RequireLineOfSight = requireLineOfSight;
-				this.SaveConfigValue("requireLineOfSight", requireLineOfSight);
+				this.SaveConfigValue(REQUIRE_LOS_KEY, requireLineOfSight);
 			}
 
 			GUILayout.EndHorizontal();
@@ -197,7 +218,7 @@
 			if (requireConnectionForControl != ARConfiguration.RequireConnectionForControl)
 			{
 				ARConfiguration.RequireConnectionForControl = requireConnectionForControl;
-				this.SaveConfigValue("requireConnectionForControl", requireConnectionForControl);
+				this.SaveConfigValue(REQUIRE_PROBE_CONNECTION_KEY, requireConnectionForControl);
 			}
 
 			GUILayout.EndHorizontal();
@@ -208,7 +229,7 @@
 			if (fixedPowerCost != ARConfiguration.FixedPowerCost)
 			{
 				ARConfiguration.FixedPowerCost = fixedPowerCost;
-				this.SaveConfigValue("fixedPowerCost", fixedPowerCost);
+				this.SaveConfigValue(FIXED_POWER_KEY, fixedPowerCost);
 			}
 
 			GUILayout.EndHorizontal();
@@ -219,10 +240,26 @@
 			if (prettyLines != ARConfiguration.PrettyLines)
 			{
 				ARConfiguration.PrettyLines = prettyLines;
-				this.SaveConfigValue("drawPrettyLines", prettyLines);
-			}
-
-			GUILayout.EndHorizontal();
+				this.SaveConfigValue(PRETTY_LINES_KEY, prettyLines);
+			}
+
+			GUILayout.EndHorizontal();
+
+			GUILayout.BeginHorizontal();
+
+			GUILayout.Label("Update Delay", GUILayout.ExpandWidth(false));
+
+			this.updateDelayStr = GUILayout.TextField(this.updateDelayStr, 4, GUILayout.Width(40f));
+
+			GUILayout.Label("ms", GUILayout.ExpandWidth(false));
+
+			GUILayout.EndHorizontal();
+
+			if (this.updateDelayStr.Length > 1 && long.TryParse(this.updateDelayStr, out this.updateDelay))
+			{
+				ARConfiguration.UpdateDelay = Math.Min(Math.Max(this.updateDelay, 16), 2500);
+				this.updateDelayStr = ARConfiguration.UpdateDelay.ToString();
+			}
 
 			if (requireLineOfSight)
 			{
@@ -243,7 +280,7 @@
 				if (newRatio != graceRatio)
 				{
 					ARConfiguration.RadiusRatio = (1d - newRatio) * (1d - newRatio);
-					this.SaveConfigValue("graceRatio", newRatio);
+					this.SaveConfigValue(GRACE_RATIO_KEY, newRatio);
 				}
 
 				GUILayout.EndHorizontal();
@@ -281,6 +318,7 @@
 		private void toggleConfigWindow()
 		{
 			this.showConfigWindow = !this.showConfigWindow;
+			this.updateDelayStr = ARConfiguration.UpdateDelay.ToString();
 		}
 
 		private T LoadConfigValue<T>(string key, T defaultValue)

--- a/ARFlightController.cs
+++ b/ARFlightController.cs
@@ -2,7 +2,7 @@
 //
 // ARFlightController.cs
 //
-// Copyright © 2014, toadicus
+// Copyright © 2014-2015, toadicus
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without modification,
@@ -40,7 +40,7 @@
 	public class ARFlightController : MonoBehaviour
 	{
 		#region Fields
-		private Dictionary<ConnectionStatus, string> connectionTextures;
+		private Dictionary<ConnectionStatus, string> toolbarTextures;
 		private Dictionary<ConnectionStatus, Texture> appLauncherTextures;
 
 		private ARMapRenderer mapRenderer;
@@ -64,7 +64,7 @@
 		{
 			get
 			{
-				return this.connectionTextures[this.currentConnectionStatus];
+				return this.toolbarTextures[this.currentConnectionStatus];
 			}
 		}
 
@@ -126,11 +126,11 @@
 
 			this.updateTimer = new System.Diagnostics.Stopwatch();
 
-			this.connectionTextures = new Dictionary<ConnectionStatus, string>();
-
-			this.connectionTextures[ConnectionStatus.None] = "AntennaRange/Textures/toolbarIconNoConnection";
-			this.connectionTextures[ConnectionStatus.Suboptimal] = "AntennaRange/Textures/toolbarIconSubOptimal";
-			this.connectionTextures[ConnectionStatus.Optimal] = "AntennaRange/Textures/toolbarIcon";
+			this.toolbarTextures = new Dictionary<ConnectionStatus, string>();
+
+			this.toolbarTextures[ConnectionStatus.None] = "AntennaRange/Textures/toolbarIconNoConnection";
+			this.toolbarTextures[ConnectionStatus.Suboptimal] = "AntennaRange/Textures/toolbarIconSubOptimal";
+			this.toolbarTextures[ConnectionStatus.Optimal] = "AntennaRange/Textures/toolbarIcon";
 
 			this.appLauncherTextures = new Dictionary<ConnectionStatus, Texture>();
 
@@ -145,10 +145,10 @@
 			{
 				this.toolbarButton = ToolbarManager.Instance.add("AntennaRange", "ARConnectionStatus");
 
-				this.toolbarButton.TexturePath = this.connectionTextures[ConnectionStatus.None];
+				this.toolbarButton.TexturePath = this.toolbarTextures[ConnectionStatus.None];
 				this.toolbarButton.Text = "AntennaRange";
 				this.toolbarButton.Visibility = new GameScenesVisibility(GameScenes.FLIGHT);
-				this.toolbarButton.Enabled = false;
+				this.toolbarButton.OnClick += (e) => (this.buttonToggle());
 			}
 
 			GameEvents.onGameSceneLoadRequested.Add(this.onSceneChangeRequested);
@@ -162,14 +162,6 @@
 
 		private void FixedUpdate()
 		{
-			if (this.appLauncherButton == null && !ToolbarManager.ToolbarAvailable && ApplicationLauncher.Ready)
-			{
-				this.appLauncherButton = ApplicationLauncher.Instance.AddModApplication(
-					ApplicationLauncher.AppScenes.FLIGHT | ApplicationLauncher.AppScenes.MAPVIEW,
-					this.appLauncherTextures[ConnectionStatus.None]
-				);
-			}
-
 			this.log.Clear();
 
 			VesselCommand availableCommand;
@@ -224,7 +216,21 @@
 
 		private void Update()
 		{
-			if (!this.updateTimer.IsRunning || this.updateTimer.ElapsedMilliseconds > 83L)
+			if (this.toolbarButton != null)
+			{
+				this.toolbarButton.Enabled = MapView.MapIsEnabled;
+			}
+
+			if (this.appLauncherButton == null && !ToolbarManager.ToolbarAvailable && ApplicationLauncher.Ready)
+			{
+				this.appLauncherButton = ApplicationLauncher.Instance.AddModApplication(
+					this.buttonToggle, this.buttonToggle,
+					ApplicationLauncher.AppScenes.FLIGHT | ApplicationLauncher.AppScenes.MAPVIEW,
+					this.appLauncherTextures[ConnectionStatus.None]
+				);
+			}
+
+			if (!this.updateTimer.IsRunning || this.updateTimer.ElapsedMilliseconds > ARConfiguration.UpdateDelay)
 			{
 				this.updateTimer.Restart();
 			}
@@ -329,6 +335,14 @@
 		}
 		#endregion
 
+		private void buttonToggle()
+		{
+			if (MapView.MapIsEnabled)
+			{
+				ARConfiguration.PrettyLines = !ARConfiguration.PrettyLines;
+			}
+		}
+
 		#region Event Handlers
 		private void onSceneChangeRequested(GameScenes scene)
 		{

--- a/ARMapRenderer.cs
+++ b/ARMapRenderer.cs
@@ -2,7 +2,7 @@
 //
 // ARMapRenderer.cs
 //
-// Copyright © 2014, toadicus
+// Copyright © 2014-2015, toadicus
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without modification,
@@ -167,6 +167,7 @@
 
 						if (vesselRelay == null)
 						{
+							log.AppendFormat("\n\tGot null relay for vessel {0}", vessel.vesselName);
 							continue;
 						}
 
@@ -206,7 +207,7 @@
 		{
 			this.Cleanup();
 
-			print("ARMapRenderer: Destroyed.");
+			this.Log("Destroyed");
 		}
 		#endregion
 
@@ -273,18 +274,21 @@
 			if (relay.KerbinDirect)
 			{
 				nextPoint = ScaledSpace.LocalToScaledSpace(AntennaRelay.Kerbin.position);
-				relay = null;
 			}
 			else
 			{
-				if (relay.targetRelay == null)
-				{
+				if (relay.targetRelay == null || relay.targetRelay.vessel == null)
+				{
+					this.LogError(
+						"SetRelayVertices: relay {0} has null target relay or vessel when not KerbinDirect, bailing out!",
+						relay
+					);
+
 					renderer.enabled = false;
 					return;
 				}
 
 				nextPoint = ScaledSpace.LocalToScaledSpace(relay.targetRelay.vessel.GetWorldPos3D());
-				relay = relay.targetRelay;
 			}
 
 			renderer.SetColors(thisColor, thisColor);

--- a/AntennaRelay.cs
+++ b/AntennaRelay.cs
@@ -2,7 +2,7 @@
 //
 // AntennaRelay.cs
 //
-// Copyright © 2014, toadicus
+// Copyright © 2014-2015, toadicus
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without modification,
@@ -198,6 +198,7 @@
 			this.KerbinDirect = true;
 
 			CelestialBody bodyOccludingBestOccludedRelay = null;
+			IAntennaRelay needle;
 
 			double nearestRelaySqrDistance = double.PositiveInfinity;
 			double bestOccludedSqrDistance = double.PositiveInfinity;
@@ -221,6 +222,7 @@
 				
 				if (potentialVessel == null)
 				{
+					Tools.PostErrorMessage("{0}: Skipping vessel at index {1} because it is null.", this, vIdx);
 					log.AppendFormat("\n\tSkipping vessel at index {0} because it is null.", vIdx);
 					log.Print();
 					return;
@@ -324,19 +326,75 @@
 
 				log.Append("\n\t\t...passed distance check");
 
-				if (
-					potentialBestRelay.CanTransmit() &&
-					(potentialBestRelay.targetRelay == null || potentialBestRelay.targetRelay.vessel != this.vessel))
-				{
-					// @TODO: Moved this here from outside the loop; why was it there?
-					nearestRelaySqrDistance = potentialSqrDistance;
-					this.nearestRelay = potentialBestRelay;
-
-					log.AppendFormat("\n\t{0}: found new nearest relay {1} ({2}m)",
-						this.ToString(),
-						this.nearestRelay.ToString(),
-						Math.Sqrt(nearestRelaySqrDistance)
-					);
+				if (potentialBestRelay.CanTransmit())
+				{
+					needle = potentialBestRelay;
+					bool isCircular = false;
+
+					int iterCount = 0;
+					while (needle != null)
+					{
+						iterCount++;
+
+						if (needle.KerbinDirect)
+						{
+							break;
+						}
+
+						if (needle.targetRelay == null)
+						{
+							break;
+						}
+
+						if (needle.targetRelay.vessel == this.vessel || needle == this.moduleRef)
+						{
+							isCircular = true;
+							break;
+						}
+
+						// Avoid infinite loops when we're not catching things right.
+						if (iterCount > FlightGlobals.Vessels.Count)
+						{
+							Tools.PostErrorMessage(
+								"[{0}] iterCount exceeded while checking for circular network; assuming it is circular" +
+								"\n\tneedle={1}" +
+								"\n\tthis.moduleRef={2}",
+								this,
+								needle == null ? "null" : string.Format(
+									"{0}, needle.KerbinDirect={1}, needle.targetRelay={2}",
+									needle, needle.KerbinDirect, needle.targetRelay == null ? "null" : string.Format(
+										"{0}\n\tneedle.targetRelay.vessel={1}",
+										needle.targetRelay,
+										needle.targetRelay.vessel == null ?
+											"null" : needle.targetRelay.vessel.vesselName
+									)
+								),
+								this.moduleRef == null ? "null" : this.moduleRef.ToString()
+							);
+							isCircular = true;
+							break;
+						}
+
+						needle = needle.targetRelay;
+					}
+
+					if (!isCircular)
+					{
+						nearestRelaySqrDistance = potentialSqrDistance;
+						this.nearestRelay = potentialBestRelay;
+
+						log.AppendFormat("\n\t{0}: found new nearest relay {1} ({2}m)",
+							this.ToString(),
+							this.nearestRelay.ToString(),
+							Math.Sqrt(nearestRelaySqrDistance)
+						);
+					}
+					else
+					{
+						log.AppendFormat("\n\t\t...connection to {0} would result in a circular network, skipping",
+							potentialBestRelay
+						);
+					}
 				}
 			}
 
@@ -346,9 +404,21 @@
 			kerbinSqrDistance *= kerbinSqrDistance;
 
 			log.AppendFormat("\n{0} ({1}): Search done, figuring status.", this.ToString(), this.GetType().Name);
+			log.AppendFormat(
+				"\n{0}: nearestRelay={1} ({2}m²)), bestOccludedRelay={3} ({4}m²), kerbinSqrDistance={5}m²)",
+				this,
+				this.nearestRelay == null ? "null" : this.nearestRelay.ToString(),
+				nearestRelaySqrDistance,
+				this.bestOccludedRelay == null ? "null" : this.bestOccludedRelay.ToString(),
+				bestOccludedSqrDistance,
+				kerbinSqrDistance
+			);
 
 			// If we don't have LOS to Kerbin, focus on relays
-			if (!this.vessel.hasLineOfSightTo(Kerbin, out bodyOccludingKerbin, ARConfiguration.RadiusRatio))
+			if (
+				ARConfiguration.RequireLineOfSight &&
+				!this.vessel.hasLineOfSightTo(Kerbin, out bodyOccludingKerbin, ARConfiguration.RadiusRatio)
+			)
 			{
 				log.AppendFormat("\n\tKerbin LOS is blocked by {0}.", bodyOccludingKerbin.bodyName);
 
@@ -389,7 +459,7 @@
 							log.AppendFormat("\n\t\t\t\t...but the nearest relay is closer ({0} < {1}), so picking it.",
 								nearestRelaySqrDistance, bestOccludedSqrDistance);
 							
-							this.targetRelay = nearestRelay;
+							this.targetRelay = this.nearestRelay;
 							this.firstOccludingBody = null;
 						}
 						// Otherwise, target the best occluded relay.
@@ -419,7 +489,7 @@
 								nearestRelaySqrDistance, kerbinSqrDistance);
 							
 							this.KerbinDirect = false;
-							this.targetRelay = nearestRelay;
+							this.targetRelay = this.nearestRelay;
 						}
 						// Otherwise, pick Kerbin.
 						else
@@ -510,7 +580,7 @@
 								log.AppendFormat("\n\t\t\t\t...but the nearest relay is closer ({0} < {1}), so picking it.",
 									nearestRelaySqrDistance, bestOccludedSqrDistance);
 								
-								this.targetRelay = nearestRelay;
+								this.targetRelay = this.nearestRelay;
 								this.firstOccludingBody = null;
 							}
 							// Otherwise, target the best occluded relay.
@@ -540,7 +610,7 @@
 									nearestRelaySqrDistance, kerbinSqrDistance);
 								
 								this.KerbinDirect = false;
-								this.targetRelay = nearestRelay;
+								this.targetRelay = this.nearestRelay;
 							}
 							// Otherwise, pick Kerbin.
 							else

--- a/GameData/AntennaRange/AntennaRange.cfg
+++ b/GameData/AntennaRange/AntennaRange.cfg
@@ -2,7 +2,7 @@
 //
 // AntennaRange.cfg
 //
-// Copyright © 2014, toadicus
+// Copyright © 2014-2015, toadicus
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without modification,

--- a/IAntennaRelay.cs
+++ b/IAntennaRelay.cs
@@ -2,7 +2,7 @@
 //
 // IAntennaRelay.cs
 //
-// Copyright © 2014, toadicus
+// Copyright © 2014-2015, toadicus
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without modification,

--- a/ModuleLimitedDataTransmitter.cs
+++ b/ModuleLimitedDataTransmitter.cs
@@ -2,7 +2,7 @@
 //
 // ModuleLimitedDataTransmitter.cs
 //
-// Copyright © 2014, toadicus
+// Copyright © 2014-2015, toadicus
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without modification,
@@ -149,6 +149,14 @@
 				{
 					return this.part.vessel;
 				}
+				else if (
+					this.part.protoPartSnapshot != null &&
+					this.part.protoPartSnapshot.pVesselRef != null &&
+					this.part.protoPartSnapshot.pVesselRef.vesselRef != null
+				)
+				{
+					return this.part.protoPartSnapshot.pVesselRef.vesselRef;
+				}
 				else
 				{
 					this.LogError("Vessel and/or part reference are null, returning null vessel.");
@@ -205,11 +213,8 @@
 		/// </summary>
 		public double maxTransmitDistance
 		{
-			get
-			{
-				// TODO: Cache this in a way that doesn't break everything.
-				return Math.Sqrt(this.maxPowerFactor) * this.nominalRange;
-			}
+			get;
+			protected set;
 		}
 
 		/// <summary>
@@ -370,6 +375,8 @@
 
 			if (state >= StartState.PreLaunch)
 			{
+				this.maxTransmitDistance = Math.Sqrt(this.maxPowerFactor) * this.nominalRange;
+
 				this.relay = new AntennaRelay(this);
 				this.relay.maxTransmitDistance = this.maxTransmitDistance;
 				this.relay.nominalTransmitDistance = this.nominalRange;
@@ -393,6 +400,8 @@
 			base.Fields.Load(node);
 
 			base.OnLoad (node);
+
+			this.maxTransmitDistance = Math.Sqrt(this.maxPowerFactor) * this.nominalRange;
 		}
 
 		/// <summary>
@@ -643,7 +652,6 @@
 					{
 						this.UIrelayStatus = string.Format("Blocked by {0}", this.relay.firstOccludingBody.bodyName);
 					}
-					this.UImaxTransmitDistance = "N/A";
 					this.UIpacketSize = "N/A";
 					this.UIpacketCost = "N/A";
 				}

--- a/Properties/AssemblyInfo.cs
+++ b/Properties/AssemblyInfo.cs
@@ -2,7 +2,7 @@
 //
 // AssemblyInfo.cs
 //
-// Copyright © 2014, toadicus
+// Copyright © 2014-2015, toadicus
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without modification,
@@ -39,7 +39,7 @@
 // The assembly version has the format "{Major}.{Minor}.{Build}.{Revision}".
 // The form "{Major}.{Minor}.*" will automatically update the build and revision,
 // and "{Major}.{Minor}.{Build}.*" will update just the revision.
-[assembly: AssemblyVersion("1.8.*")]
+[assembly: AssemblyVersion("1.9.1.*")]
 // The following attributes are used to specify the signing key for the assembly,
 // if desired. See the Mono documentation for more information about signing.
 //[assembly: AssemblyDelaySign(false)]

--- a/ProtoAntennaRelay.cs
+++ b/ProtoAntennaRelay.cs
@@ -2,7 +2,7 @@
 //
 // ProtoAntennaRelay.cs
 //
-// Copyright © 2014, toadicus
+// Copyright © 2014-2015, toadicus
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without modification,

file:b/README.md (new)
--- /dev/null
+++ b/README.md
@@ -1,1 +1,212 @@
-
+# AntennaRange
+A KSP mod that enforces and encourages the use of the bigger antennas.
+
+# For Part Developers
+## The Fields
+AntennaRange extends and augments the functionality of the stock ModuleDataTransmitter through the new `ModuleLimitedDataTransmitter` class. This class uses four additional configurable fields to define the part's behavior.
+
+`nominalRange` is the range, in meters, at which the part should function identically to the stock module, i.e. without any modification to the power cost or packet size. This is used along with maxPowerFactor to calculate the maximum range of the part.  
+`simpleRange` is the same as nominalRange, but is used when the mod is in "simple" mode. In general it will probably need to be a much larger number than nominalRange.  
+`maxPowerFactor` effectively sets the maximum range of the antenna by essentially capping how much the power may be "turned up" to get better range. I originally used 8 for this number, because it felt right. I've since used 4 (for my DTS) and 16 (for my Comm. 88-88). You don't want this number to be too high, or small probes will go uncontrollable a lot when transmitting.  
+`maxDataFactor` defines the maximum "speed up" bonus that comes from using antennas at less their nominal range. I originally used 4 for this number for all parts; the DTS has a higher bonus now.
+
+Note that all of the fields needed for Squad's `ModuleDataTransmitter` still need to be filled out. Depending on how you're defining your parts, they might need to go in your AntennaRange patch, or they might already be defined on the base part.
+
+## The Mechanic
+In general, the scaling functions assume the relation `D² α P/R,` where D is the total transmission distance, P is the transmission power, and R is the data rate.  Data rate increases as range decreases below nominalRange: `R α nominalRange² / D²`.  By default, power use increases as range increases above `nominalRange`: `P α D² / nominalRange²`.  Optionally, power use may remain fixed, and data rate instead decreases as range increases above `nominalRange`: `R α nominalRange² / D²`.
+
+## Patch Conventions
+To maximize cross-compatibility, please consider the following conventions for ModuleManager patches regarding AntennaRange:
+
+When providing new definitions for your own parts, always specify a `:FOR[YourModHere]` pass name.
+Whenever changing default AntennaRange definitions (e.g. if you were going to rebalance my antennas to suit your mod), please do so in the `:AFTER[AntennaRange]` pass.
+I recommend providing all optional functionality (e.g. enabling RemoteTech vs. AntennaRange modules) in separate patches using `:NEEDS[]` blocks.
+
+A sample AntennaRange configuration for an all-new mod part might look like this:
+```
+@PART[modPartName]:FOR[YourModName]:NEEDS[AntennaRange,!RemoteTech]
+{
+	MODULE
+	{
+		// ### Module Definition ###
+		name = ModuleLimitedDataTransmitter
+		
+		// ### Squad Definitions ###
+		// Delay between transmission packets, in seconds
+		packetInterval = 0.10
+		
+		// Data capacity of nominal transmission packets, in MiT
+		packetSize = 2
+		
+		// Resource cost of nominal transmission packets, in units
+		packetResourceCost = 20.0
+		
+		// Resource name to be consumed by transmission
+		requiredResource = ElectricCharge
+		
+		// Animation module index, 0-based, of the antenna extend/retract animation
+		DeployFxModules = 0
+		
+		// ### AntennaRange Defintions ###
+		// Range, in meters, at which the antenna behaves per the "nominal" characteristics above
+		// Used with "additive" ranges.
+		nominalRange = 10000000000
+		
+		// Range, in meters, at which the antenna behaves per the "nominal" characteristics above
+		// Used with "simple" ranges.
+		simpleRange = 56250000000
+		
+		// The maxmimum multiplier on packetResourceCost, essentially defining the maximum power output of the
+		// transmitter.  Maximum range is defined as: maxTransmitDistance = nominalRange * sqrt(maxPowerFactor)
+		maxPowerFactor = 16
+		
+		// The maximum multiplier on packetSize, essentially defining the maximum data throughput of the
+		// transmitter.
+		maxDataFactor = 2
+	}
+	
+	// We add this ModuleScienceContainer so that when transmission fails the antennas can try to stash the data instead of dumping it to the void.
+	MODULE
+	{
+		name = ModuleScienceContainer
+
+		dataIsCollectable = true
+		dataIsStorable = false
+
+		storageRange = 2
+	}
+}
+```
+
+This example assumes that the base part definition does not include a `ModuleDataTransmitter` module, or any RT modules. If the base part definition includes a `ModuleDataTransmitter` module, a sample AntennaRange patch could look like this:
+```
+@PART[modPartName]:FOR[YourModName]:NEEDS[AntennaRange,!RemoteTech]
+{
+	@MODULE[ModuleDataTransmitter]
+	{
+		@name = ModuleLimitedDataTransmitter
+		nominalRange = 10000000000
+		simpleRange = 56250000000
+		maxPowerFactor = 16
+		maxDataFactor = 2
+	}
+	
+	// We add this ModuleScienceContainer so that when transmission fails the antennas can try to stash the data instead of dumping it to the void.
+	MODULE
+	{
+		name = ModuleScienceContainer
+
+		dataIsCollectable = true
+		dataIsStorable = false
+
+		storageRange = 2
+	}
+}
+```
+
+IIRC, RemoteTech parts should not have `ModuleDataTransmitter` definitions. In that case, to facilitate RT, AR, and Stock compatibility, a suite of patches like this might be appropriate:
+
+```
+// If we don't have RemoteTech, add a stock ModuleDataTransmitter first.
+@PART[modPartName]:NEEDS[!RemoteTech]:BEFORE[YourModName]
+{
+	MODULE
+	{
+		// ### Module Definition ###
+		name = ModuleDataTransmitter
+		
+		// ### Squad Definitions ###
+		// Delay between transmission packets, in seconds
+		packetInterval = 0.10
+		
+		// Data capacity of nominal transmission packets, in MiT
+		packetSize = 2
+		
+		// Resource cost of nominal transmission packets, in units
+		packetResourceCost = 20.0
+		
+		// Resource name to be consumed by transmission
+		requiredResource = ElectricCharge
+		
+		// Animation module index, 0-based, of the antenna extend/retract animation
+		DeployFxModules = 0
+	}
+}
+
+// If AntennaRange is installed, convert that to a ModuleLimitedDataTransmitter
+@PART[modPartName]:NEEDS[AntennaRange,!RemoteTech]:FOR[YourModName]
+{
+	@MODULE[ModuleDataTransmitter]
+	{
+		// ### Module Redefinition ###
+		@name = ModuleLimitedDataTransmitter
+		
+		// ### AntennaRange Defintions ###
+		// Range, in meters, at which the antenna behaves per the "nominal" characteristics above
+		// Used with "additive" ranges.
+		nominalRange = 10000000000
+		
+		// Range, in meters, at which the antenna behaves per the "nominal" characteristics above
+		// Used with "simple" ranges.
+		simpleRange = 56250000000
+		
+		// The maxmimum multiplier on packetResourceCost, essentially defining the maximum power output of the
+		// transmitter.  Maximum range is defined as: maxTransmitDistance = nominalRange * sqrt(maxPowerFactor)
+		maxPowerFactor = 16
+		
+		// The maximum multiplier on packetSize, essentially defining the maximum data throughput of the
+		// transmitter.
+		maxDataFactor = 2
+	}
+
+	// We add this ModuleScienceContainer so that when transmission fails the antennas can try to stash the data instead of dumping it to the void.
+	MODULE
+	{
+		name = ModuleScienceContainer
+
+		dataIsCollectable = true
+		dataIsStorable = false
+
+		storageRange = 2
+	}
+}
+
+// If RemoteTech is installed, do their module(s) instead
+@PART[modPartName]:NEEDS[RemoteTech]:FOR[YourModName]
+{
+	// RemoteTech module(s) here
+}
+```
+
+## Useful Formulas
+
+### Per Antenna
+`nominalRange` is a given, and is never calculated
+`maxPowerFactor` is a given, and is never calculated
+`maxTransmitDistance = nominalRange * sqrt(maxPowerFactor)`
+
+### Per Link
+A "link" is any connected pair of antennas.  
+`NominalLinkDistance = sqrt(nominalRange1 * nominalRange2)`  
+`MaxLinkDistance = sqrt(maxTransmitDistance1 * maxTransmitDistance2)`
+
+Therefore, to find the `MaxLinkDistance` from two sets of `nominalRange` and `maxPowerFactor`:  
+`MaxLinkDistance = sqrt(nominalRange1 * sqrt(maxPowerFactor1) * nominalRange2 * sqrt(maxPowerFactor2))`
+
+To find a single antenna's `nominalRange` from a desired `maxTransmitDistance` given its `maxPowerFactor`:  
+`nominalRange = maxTransmitDistance / sqrt(maxPowerFactor)`
+
+To find a single antenna's desired maximum range given the desired maximum link distance and another set `maxTransmitDistance`:  
+`maxTransmitDistance1 = MaxLinkDistance * MaxLinkDistance / maxTransmitDistance2`
+
+Remember that `maxPowerFactor` may differ between antennas (and does, in my lastest configs: longAntenna is 8, mediumDish is 4, commDish is 16).
+
+Currently Kerbin's `maxPowerFactor` is hard-coded as 8.
+
+Feel free to use this spreadsheet for balancing antennas if it's useful to you: https://goo.gl/ChsbfL
+
+## On Balance
+In my configs I've balanced the three stock antennas to cover all of the stock solar system. Since you're introducing five more antennas and working with OPM, you will probably want to change the behavior of the stock parts and diversify the range to gradually cover the whole OPM system. Since you have some parts specifically designed for use in planetary subsystems, their balance when transmitting to other parts is probably more important than their balance when transmitting to Kerbin. For longer range parts designed to make the whole interplanetary leap, the inverse is probably true.
+
+Feel free to ask questions! If anything's unclear or you just want to bounce balance ideas off of me, don't be shy. I'm always happy to help.
+

--- a/RelayDatabase.cs
+++ b/RelayDatabase.cs
@@ -2,7 +2,7 @@
 //
 // RelayDatabase.cs
 //
-// Copyright © 2014, toadicus
+// Copyright © 2014-2015, toadicus
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without modification,
@@ -37,27 +37,8 @@
 
 namespace AntennaRange
 {
-	public class RelayDatabase
+	public class RelayDatabase : Singleton<RelayDatabase>
 	{
-		/*
-		 * Static members
-		 * */
-		// Singleton storage
-		private static RelayDatabase _instance;
-		// Gets the singleton
-		public static RelayDatabase Instance
-		{
-			get
-			{	
-				if (_instance == null)
-				{
-					_instance = new RelayDatabase();
-				}
-
-				return _instance;
-			}
-		}
-
 		/*
 		 * Instance members
 		 * */
@@ -124,6 +105,15 @@
 			this.relayDatabase.Remove(vessel.id);
 			this.vesselPartCountTable.Remove(vessel.id);
 			this.bestRelayTable.Remove(vessel.id);
+		}
+
+		public void ClearCache()
+		{
+			Tools.PostLogMessage("RelayDatabase: onSceneChange clearing entire cache.");
+
+			this.relayDatabase.Clear();
+			this.bestRelayTable.Clear();
+			this.vesselPartCountTable.Clear();
 		}
 
 		// Returns true if both the relayDatabase and the vesselPartCountDB contain the vessel id.
@@ -253,13 +243,14 @@
 				}
 				else
 				{
-					Tools.PostLogMessage("RelayDatabase: onSceneChange clearing entire cache.");
-
-					this.relayDatabase.Clear();
-					this.bestRelayTable.Clear();
-					this.vesselPartCountTable.Clear();
-				}
-			}
+					this.ClearCache();
+				}
+			}
+		}
+
+		private void onGameLoaded(object data)
+		{
+			this.ClearCache();
 		}
 
 		// Runs when parts are undocked
@@ -431,6 +422,7 @@
 			GameEvents.onGameSceneLoadRequested.Add(this.onSceneChange);
 			GameEvents.onPartCouple.Add(this.onFromPartToPartEvent);
 			GameEvents.onPartUndock.Add(this.onPartEvent);
+			GameEvents.onGameStateLoad.Add(this.onGameLoaded);
 		}
 
 		~RelayDatabase()
@@ -442,6 +434,7 @@
 			GameEvents.onGameSceneLoadRequested.Remove(this.onSceneChange);
 			GameEvents.onPartCouple.Remove(this.onFromPartToPartEvent);
 			GameEvents.onPartUndock.Remove(this.onPartEvent);
+			GameEvents.onGameStateLoad.Remove(this.onGameLoaded);
 
 			Tools.PostDebugMessage(this.GetType().Name + " destroyed.");
 

--- a/RelayExtensions.cs
+++ b/RelayExtensions.cs
@@ -2,7 +2,7 @@
 //
 // Extensions.cs
 //
-// Copyright © 2014, toadicus
+// Copyright © 2014-2015, toadicus
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without modification,