Index: firmware/App/Modes/ModeFill.c
===================================================================
diff -u -r957988f97f3bea03c4141408cdbb555fc8a140ce -r51f6fc48648cb77a1d82c001890c2795a801d386
--- firmware/App/Modes/ModeFill.c	(.../ModeFill.c)	(revision 957988f97f3bea03c4141408cdbb555fc8a140ce)
+++ firmware/App/Modes/ModeFill.c	(.../ModeFill.c)	(revision 51f6fc48648cb77a1d82c001890c2795a801d386)
@@ -80,7 +80,7 @@
 
 // 2m long tubing to cap = 19.5 mL (acid line) + 7.92 mL/m * 2 m (tubing to cap) + 20.82 mL (straw) = 56.15 mL
 // Prime time in seconds = ( 56.15 mL / 48 mL/min ) x 60 second/min + 25 seconds margin time = 95 seconds.
-#define PRIME_CONCENTRATE_LINES_TIME_OUT_MS             ( 95 * MS_PER_SECOND )                               ///< Time required to prime the concentrate lines.
+#define PRIME_CONCENTRATE_LINES_TIME_OUT_MS             ( 60 * MS_PER_SECOND )                               ///< Time required to prime the concentrate lines.
 #define FLUSH_BUBBLES_PUMP_TIME_OUT_MS                  ( 2  * MS_PER_SECOND )                               ///< RO pump on during flush bubble interval in ms.
 #define DIALYSATE_TEMPERATURE_TOLERANCE_C               2.0F                                                 ///< Dialysate temperature tolerance in degree C.
 #define DATA_PUBLISH_COUNTER_START_COUNT                63                                                   ///< Data publish counter start count.
@@ -829,6 +829,8 @@
         F32 acidNormalConductivity                   = acid.acidConcentrate[ CAL_DATA_ACID_CONCENTRATE_1 ].acidConductivityUSPerCM;
         F32 bicarbNormalConductivity                 = bicarb.bicarbConcentrate[ CAL_DATA_BICARB_CONCENTRATE_1 ].bicarbConductivityUSPerCM;
 
+        SEND_EVENT_WITH_2_F32_DATA( DG_EVENT_AVG_DIALYSATE_FILL_COND_VALUES, avgAcidConductivity, avgBicarbConductivity )
+
         // Check RO filter
 #ifndef _RELEASE_
         if ( getSoftwareConfigStatus( SW_CONFIG_DISABLE_RO_RATIO_CHECK ) != SW_CONFIG_ENABLE_VALUE )