Manufacturer	System Type	Model Number	Solar Savings	Tank Size Litres	Tank Model Number	Collector Type	Collector Model Number	Number of Collectors/Tubes	Frost Protection
AAE Solar	Pumped in-line boost	AAE-250-S20LP-20	62 %	264	250 S	Evacuated Tube	SCM-20	20	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-250-S20LP-30	73 %	264	250 S	Evacuated Tube	SCM-20	30	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-250-S20NG-20	62 %	264	250 S	Evacuated Tube	SCM-20	20	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-250-S20NG-30	73 %	264	250 S	Evacuated Tube	SCM-20	30	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-tank boost	AAE-260GLNGS-20	65 %	260	RSTP260-W	Evacuated Tube	SCM-20	20	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-tank boost	AAE-260GLNGS-30	72 %	260	RSTP260-W	Evacuated Tube	SCM-20	30	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-270GLES-S20LP-20	63 %	269	250 GLES	Evacuated Tube	SCM-20	20	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-270GLES-S20LP-30	73 %	269	250 GLES	Evacuated Tube	SCM-20	30	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-270GLES-S20NG-20	63 %	269	250 GLES	Evacuated Tube	SCM-20	20	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-270GLES-S20NG-30	73 %	269	250 GLES	Evacuated Tube	SCM-20	30	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-270GLES-S26LP-30	72 %	269	250 GLES	Evacuated Tube	SCM-20	30	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-270GLES-S26NG-30	72 %	269	250 GLES	Evacuated Tube	SCM-20	30	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-315GLES-S20LP-20	66 %	340	315GLES	Evacuated Tube	SCM20	1	re circulation glass wool
AAE Solar	Pumped in-line boost	AAE-315GLES-S20LP-30	76 %	340	315GLES	Evacuated Tube	SCM20	1.5	re circulation glass wool
AAE Solar	Pumped in-line boost	AAE-315GLES-S20NG-20	66 %	340	315GLES	Evacuated Tube	SCM20	1	re circulation glass wool
AAE Solar	Pumped in-line boost	AAE-315GLES-S20NG-30	76 %	340	315GLES	Evacuated Tube	SCM20	1.5	re circulation glass wool
AAE Solar	Pumped in-line boost	AAE-315GLES-S26LP-30	76 %	340	315GLES	Evacuated Tube	SCM20	1.5	re circulation glass wool
AAE Solar	Pumped in-line boost	AAE-315GLES-S26NG-30	76 %	340	315GLES	Evacuated Tube	SCM20	1.5	re circulation glass wool
AAE Solar	Pumped in-line boost	AAE-315-S20LP-30	72 %	327	315 S	Evacuated Tube	SCM-20	30	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-315-S20LP-40	80 %	327	315 S	Evacuated Tube	SCM-20	40	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-315-S20NG-30	72 %	327	315 S	Evacuated Tube	SCM-20	30	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-315-S20NG-40	80 %	327	315 S	Evacuated Tube	SCM-20	40	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-315-S26LP-30	72 %	327	315 S	Evacuated Tube	SCM-20	30	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-315-S26LP-40	80 %	327	315 S	Evacuated Tube	SCM-20	40	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-315-S26NG-30	72 %	327	315 S	Evacuated Tube	SCM-20	30	Recirculation pump & glasswool insulation
AAE Solar	Pumped in-line boost	AAE-315-S26NG-40	80 %	327	315 S	Evacuated Tube	SCM-20	40	Recirculation pump & glasswool insulation
Apricus	Pumped in-line boost	AG_20_160_26GLG	66 %	165	911	Evacuated Tube	AP-20	1	Active Control in Solar Controller
Apricus	Pumped in-line boost	AG_20_160_26SSG	65 %	155	925	Evacuated Tube	AP-20	1	Active Control in Solar Controller
Apricus	Pumped in-line boost	AG_20_250_26GLG	66 %	261	912	Evacuated Tube	AP-20	1	Active Control in Solar Controller
Apricus	Pumped in-line boost	AG_22_160_26GLG	69 %	165	911	Evacuated Tube	AP-22	1	Active Control in Solar Controller
Apricus	Pumped in-line boost	AG_22_160_26SSG	67 %	155	925	Evacuated Tube	AP-22	1	Active Control in Solar Controller
Apricus	Pumped in-line boost	AG_22_250_26GLG	69 %	261	912	Evacuated Tube	AP-22	1	Active Control in Solar Controller
Apricus	Pumped in-line boost	AG_30_315_26GLG	77 %	326	910	Evacuated Tube	AP-30	1	Active Control in Solar Controller
Apricus	Pumped in-line boost	AG_40_315_26GLG	83 %	326	910	Evacuated Tube	AP-40	1	Active Control in Solar Controller
Apricus	Pumped in-line boost	AG-250-21LP-20	72 %	264	250 LT	Evacuated Tube	AP-20	1	Controller
Apricus	Pumped in-line boost	AG-250-21LP-22	65 %	264	250 LT	Evacuated Tube	AP-22	1	Controller
Apricus	Pumped in-line boost	AG-250-21LP-30	74 %	264	250 LT	Evacuated Tube	AP-30	1	Controller
Apricus	Pumped in-line boost	AG-250-21NG-20	72 %	264	250 LT	Evacuated Tube	AP-20	1	Controller
Apricus	Pumped in-line boost	AG-250-21NG-22	65 %	264	250 LT	Evacuated Tube	AP-22	1	Controller
Apricus	Pumped in-line boost	AG-250-21NG-30	74 %	264	250 LT	Evacuated Tube	AP-30	1	Controller
Apricus	Pumped in-line boost	AG-250GLES-21LPG-20	60 %	269	250GLES	Evacuated Tube	AP20	1	Controller
Apricus	Pumped in-line boost	AG-250GLES-21LPG-22	65 %	269	250GLES	Evacuated Tube	AP22	1	Controller
Apricus	Pumped in-line boost	AG-250GLES-21LPG-30	67 %	269	250GLES	Evacuated Tube	AP30	1	Controller
Apricus	Pumped in-line boost	AG-250GLES-21NG-20	60 %	269	250GLES	Evacuated Tube	AP20	1	Controller
Apricus	Pumped in-line boost	AG-250GLES-21NG-22	65 %	269	250GLES	Evacuated Tube	AP22	1	Controller
Apricus	Pumped in-line boost	AG-250GLES-21NG-30	67 %	269	250GLES	Evacuated Tube	AP30	1	Controller
Apricus	Pumped in-tank boost	AG-250GLNGS-10	63 %	260	250GLNS	Evacuated Tube	AP10	1	Controller
Apricus	Pumped in-tank boost	AG-250GLNGS-20	63 %	260	250GLNS	Evacuated Tube	AP20	1	Controller
Apricus	Pumped in-tank boost	AG-250GLNGS-22	69 %	260	250GLNS	Evacuated Tube	AP22	1	Controller
Apricus	Pumped in-tank boost	AG-250GLNGS-30	75 %	260	250GLNS	Evacuated Tube	AP30	1	Controller
Apricus	Pumped in-line boost	AG-315-21LP-20	63 %	327	315 LT	Evacuated Tube	AP-20	1	Controller
Apricus	Pumped in-line boost	AG-315-21LP-30	74 %	327	315 LT	Evacuated Tube	AP-30	1	Controller
Apricus	Pumped in-line boost	AG-315-21NG-20	63 %	327	315 LT	Evacuated Tube	AP-20	1	Controller
Apricus	Pumped in-line boost	AG-315-21NG-30	74 %	327	315 LT	Evacuated Tube	AP-30	1	Controller
Apricus	Pumped in-line boost	AG-315-26LP-30	75 %	327	315 LT	Evacuated Tube	AP-30	1	Controller
Apricus	Pumped in-line boost	AG-315-26LP-40	82 %	327	315 LT	Evacuated Tube	AP-20	2	Controller
Apricus	Pumped in-line boost	AG-315-26NG-30	75 %	327	315 LT	Evacuated Tube	AP-30	1	Controller
Apricus	Pumped in-line boost	AG-315-26NG-40	82 %	327	315 LT	Evacuated Tube	AP-20	2	Controller
Apricus	Pumped in-line boost	AG-315-32-30	73 %	327	315 LT	Evacuated Tube	AP-30	1	Controller
Apricus	Pumped in-line boost	AG-315-32QLP-30	73 %	327	315 LT	Evacuated Tube	AP-30	1	Controller
Apricus	Pumped in-line boost	AG-315-32QNG-30	73 %	327	315 LT	Evacuated Tube	AP-30	1	Controller
AquaMax	Pumped in-line boost	SG107-910-107-01	60 %	325	910	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-910-204-02	65 %	325	910	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-910-207-02	73 %	325	910	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-911-107-01	60 %	165	911	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-911-204-02	65 %	165	911	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-911-207-02	72 %	165	911	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-912-107-01	60 %	261	912	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-912-204-02	65 %	261	912	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-912-207-02	73 %	261	912	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-913-107-01	60 %	417	913	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-913-204-02	65 %	417	913	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-913-207-02	73 %	417	913	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-920-107-01	60 %	127	920	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
Aquamax	Pumped in-line boost	SG107-920-204-02	64 %	128	920	Flat plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
Aquamax	Pumped in-line boost	SG107-920-207-02	71 %	128	920	Flat plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-925-107-01	60 %	155	925	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-925-204-02	65 %	155	925	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG107-925-207-02	72 %	155	925	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-910-107-01	60 %	325	910	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-910-204-02	65 %	325	910	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-910-207-02	73 %	325	910	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-911-107-01	61 %	165	911	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-911-204-02	65 %	165	911	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-911-207-02	72 %	165	911	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-912-107-01	60 %	261	912	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-912-204-02	65 %	261	912	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-912-207-02	73 %	261	912	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-913-107-01	60 %	417	913	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-913-204-02	65 %	417	913	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-913-207-02	73 %	417	913	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-920-107-01	60 %	127	920	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
Aquamax	Pumped in-line boost	SG118-920-204-02	64 %	128	920	Flat plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
Aquamax	Pumped in-line boost	SG118-920-207-02	71 %	128	920	Flat plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-925-107-01	61 %	155	925	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-925-204-02	65 %	155	925	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-line boost	SG118-925-207-02	72 %	155	925	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG123-000-207-02	60 %	148.5	SG123	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-910-104-01	61 %	325	910	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-910-107-01	70 %	325	910	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-910-204-02	75 %	325	910	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-910-207-02	84 %	325	910	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-911-104-01	61 %	165	911	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-911-107-01	70 %	165	911	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-911-204-02	75 %	165	911	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-911-207-02	82 %	165	911	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-912-104-01	61 %	261	912	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-912-107-01	70 %	261	912	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-912-204-02	75 %	261	912	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-912-207-02	83 %	261	912	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-913-104-01	61 %	417	913	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-913-107-01	69 %	417	913	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-913-204-02	75 %	417	913	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-913-207-02	84 %	417	913	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-914-104-01	61 %	167	914	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-914-107-01	69 %	167	914	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-914-204-02	74 %	167	914	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-914-207-02	82 %	167	914	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-918-104-01	61 %	325	918	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-918-107-01	70 %	325	918	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-918-204-02	75 %	325	918	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-918-207-02	84 %	325	918	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-919-104-01	61 %	261	919	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-919-107-01	70 %	261	919	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-919-204-02	75 %	261	919	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-919-207-02	83 %	261	919	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-922-104-01	61 %	417	922	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-922-107-01	69 %	417	922	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-922-204-02	75 %	417	922	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG306-922-207-02	84 %	417	922	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-910-104-01	63 %	325	910	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-910-107-01	71 %	325	910	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-910-204-02	76 %	325	910	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-910-207-02	84 %	325	910	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-911-104-01	63 %	165	911	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-911-107-01	71 %	165	911	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-911-204-02	76 %	165	911	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-911-207-02	83 %	165	911	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-912-104-01	67 %	261	912	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-912-107-01	71 %	261	912	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-912-204-02	76 %	261	912	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-912-207-02	84 %	261	912	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-913-104-01	62 %	417	913	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-913-107-01	70 %	417	913	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-913-204-02	75 %	417	913	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-913-207-02	84 %	417	913	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-914-104-01	63 %	167	914	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-914-107-01	71 %	167	914	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-914-204-02	75 %	167	914	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-914-207-02	83 %	167	914	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-918-104-01	63 %	325	918	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-918-107-01	71 %	325	918	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-918-204-02	76 %	325	918	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-918-207-02	84 %	325	918	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-919-104-01	67 %	261	919	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-919-107-01	71 %	261	919	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-919-204-02	76 %	261	919	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-919-207-02	84 %	261	919	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-922-104-01	62 %	417	922	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-922-107-01	70 %	417	922	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-922-204-02	75 %	417	922	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-922-207-02	84 %	417	922	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-925-104-01	63 %	155	925	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-925-107-01	71 %	155	925	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-925-204-02	76 %	155	925	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-925-207-02	83 %	155	925	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-926-104-01	63 %	165	926	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-926-107-01	71 %	165	926	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-926-204-02	76 %	165	926	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-926-207-02	83 %	165	926	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-927-104-01	63 %	155	927	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-927-107-01	71 %	155	927	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-927-204-02	76 %	155	927	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG307-927-207-02	83 %	155	927	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-910-104-01	62 %	325	910	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-910-107-01	70 %	325	910	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-910-204-02	76 %	325	910	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-910-207-02	84 %	325	910	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-911-104-01	62 %	165	911	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-911-107-01	70 %	165	911	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-911-204-02	75 %	165	911	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-911-207-02	83 %	165	911	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-912-104-01	66 %	261	912	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-912-107-01	70 %	261	912	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-912-204-02	76 %	261	912	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-912-207-02	84 %	261	912	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-913-104-01	61 %	417	913	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
Aquamax	Pumped in-tank boost	SG310-913-107-01	70 %	417	913	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
Aquamax	Pumped in-tank boost	SG310-913-204-02	75 %	417	913	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-913-207-02	84 %	417	913	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-914-104-01	62 %	167	914	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
Aquamax	Pumped in-tank boost	SG310-914-107-01	70 %	167	914	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
Aquamax	Pumped in-tank boost	SG310-914-204-02	75 %	167	914	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-914-207-02	82 %	167	914	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-918-104-01	62 %	325	918	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-918-107-01	70 %	325	918	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-918-204-02	76 %	325	918	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-918-207-02	84 %	325	918	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-919-104-01	66 %	261	919	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-919-107-01	70 %	261	919	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-919-204-02	76 %	261	919	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-919-207-02	84 %	261	919	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-922-104-01	61 %	417	922	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
Aquamax	Pumped in-tank boost	SG310-922-107-01	70 %	417	922	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
Aquamax	Pumped in-tank boost	SG310-922-204-02	75 %	417	922	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-922-207-02	84 %	417	922	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-925-104-01	62 %	155	925	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-925-107-01	70 %	155	925	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-925-204-02	75 %	155	925	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-925-207-02	83 %	155	925	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-926-104-01	62 %	165	926	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-926-107-01	70 %	165	926	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-926-204-02	75 %	165	926	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-926-207-02	83 %	165	926	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-927-104-01	62 %	155	927	Flat Plate	04	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-927-107-01	70 %	155	927	Flat Plate	07	1	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-927-204-02	75 %	155	927	Flat Plate	04	2	Hitachi Frost Protection valve and Aquamax differential controller
AquaMax	Pumped in-tank boost	SG310-927-207-02	83 %	155	927	Flat Plate	07	2	Hitachi Frost Protection valve and Aquamax differential controller
Austral Solar Company	Pumped in-line boost	ASC24-250-20LPG	63 %	250	250 Gas Solar	Evacuated Tube	TZ58/1800-24	1	Circulation
Austral Solar Company	Pumped in-line boost	ASC24-250-20NG	63 %	250	250 Gas Solar	Evacuated Tube	TZ58/1800-24	1	Circulation
Austral Solar Company	Pumped in-line boost	ASC33-250-20LPG	72 %	250	250 Gas Solar	Evacuated Tube	TZ58/1800-33	1	Circulation
Austral Solar Company	Pumped in-line boost	ASC33-250-20NG	72 %	250	250 Gas Solar	Evacuated Tube	TZ58/1800-33	1	Circulation
Austral Solar Company	Pumped in-line boost	ASC33-315-20LPG	72 %	315	315 Gas Solar	Evacuated Tube	TZ58/1800-33	1	Circulation
Austral Solar Company	Pumped in-line boost	ASC33-315-20NG	72 %	315	315 Gas Solar	Evacuated Tube	TZ58/1800-33	1	Circulation
Austral Solar Company	Pumped in-line boost	ASC33-315-26LPG	72 %	315	315 Gas Solar	Evacuated Tube	TZ58/1800-33	1	Circulation
Austral Solar Company	Pumped in-line boost	ASC33-315-26NG	72 %	315	315 Gas Solar	Evacuated Tube	TZ58/1800-33	1	Circulation
Chromagen	Close-coupled thermosiphon with in-line boost	201TCBC12T18	72 %	200	EV200WM1E08	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	201TCBP11T18	70 %	200	EV200WM1E08	Flat Plate	CR110BP	1	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	201TCBP11T20	73 %	200	EV200WM1E08	Flat Plate	CR110BP	1	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	201TCBP11T26	73 %	200	EV200WM1E08	Flat Plate	CR110BP	1	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	201TOBC12T18	75 %	200	SH20AWR2G01	Flat Plate	CR120BC	1	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	201TOBP10T20	65 %	200	SH20AWR2G01	Flat Plate	CR100BP	1	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	201TOBP10T26	65 %	200	SH20AWR2G01	Flat Plate	CR100BP	1	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	201TOBP11T18	70 %	200	SH20AWR2G01	Flat Plate	CR110BP	1	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	201TOBP11T20	65 %	200	SH20AWR2G01	Flat Plate	CR110BP	1	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	201TOBP11T26	65 %	200	SH20AWR2G01	Flat Plate	CR110BP	1	Anti-Frost Valve
Chromagen	Pumped in-line boost	201VOBC12T18	71 %	200	SV20AWR1GO1	Flat Plate	CR120BC	1	Active Control in Solar Controller
Chromagen	Pumped in-line boost	201VOBC12T20	69 %	200	SV20AWR1GO1	Flat Plate	CR120BC	1	Active Control in Solar Controller
Chromagen	Pumped in-line boost	201VOBC12T26	69 %	200	SV20AWR1GO1	Flat Plate	CR120BC	1	Active Control in Solar Controller
Chromagen	Pumped in-line boost	201VOBP10T20	64 %	200	SV20AWR1GO1	Flat Plate	CR100BP	1	Active Control in Solar Controller
Chromagen	Pumped in-line boost	201VOBP10T26	64 %	200	SV20AWR1GO1	Flat Plate	CR100BP	1	Active Control in Solar Controller
Chromagen	Pumped in-line boost	201VOBP11T20	64 %	200	SV20AWR1GO1	Flat Plate	CR110BP	1	Active Control in Solar Controller
Chromagen	Pumped in-line boost	201VOBP11T26	64 %	200	SV20AWR1GO1	Flat Plate	CR110BP	1	Active Control in Solar Controller
Chromagen	Close-coupled thermosiphon with in-line boost	202TCBP11T18	77 %	200	EV200WM1E08	Flat Plate	CR110BP	2	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	202TCBP11T20	62 %	200	EV200WM1E08	Flat Plate	CR110BP	2	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	202TCBP11T26	62 %	200	EV200WM1E08	Flat Plate	CR110BP	2	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	202TOBP11T18	81 %	200	SH20AWR2G01	Flat Plate	CR110BP	2	Anti-Frost Valve
Chromagen	Pumped in-line boost	202VOBP10T20	79 %	200	SV20AWR1GO1	Flat Plate	CR100BP	2	Active Control in Solar Controller
Chromagen	Pumped in-line boost	202VOBP10T26	79 %	200	SV20AWR1GO1	Flat Plate	CR100BP	2	Active Control in Solar Controller
Chromagen	Pumped in-line boost	202VOBP11T20	78 %	200	SV20AWR1GO1	Flat Plate	CR110BP	2	Active Control in Solar Controller
Chromagen	Pumped in-line boost	202VOBP11T26	78 %	200	SV20AWR1GO1	Flat Plate	CR110BP	2	Active Control in Solar Controller
Chromagen	Close-coupled thermosiphon with in-line boost	301TCBC12T18	73 %	300	EV300NM2E01	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	301TCBC12T20	67 %	300	EV300NM2E01	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	301TCBC12T26	67 %	300	EV300NM2E01	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	301TOBC12T18	75 %	300	SH30ANR2G01	Flat Plate	CR120BC	1	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	301TOBC12T20	71 %	300	SH30ANR2G01	Flat Plate	CR120BC	1	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	301TOBC12T26	71 %	300	SH30ANR2G01	Flat Plate	CR120BC	1	Anti-Frost Valve
Chromagen	Pumped in-line boost	301VCBC12T18	66 %	300	EV30ANS0G09	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	301VCBC12T20	66 %	300	EV30ANS0G09	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	301VCBC12T26	66 %	300	EV30ANS0G09	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	301VOBC12T18	72 %	300	SV30ANR1G09	Flat Plate	CR120BC	1	Active Control in Solar Controller
Chromagen	Pumped in-line boost	301VOBC12T20	75 %	300	SV30ANR1G09	Flat Plate	CR120BC	1	Active Control in Solar Controller
Chromagen	Pumped in-line boost	301VOBC12T26	75 %	300	SV30ANR1G09	Flat Plate	CR120BC	1	Active Control in Solar Controller
Chromagen	Close-coupled thermosiphon with in-line boost	302TCBP11T18	78 %	300	EV300NM2E01	Flat Plate	CR110BP	2	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	302TCBP11T20	73 %	300	EV300NM2E01	Flat Plate	CR110BP	2	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	302TCBP11T26	73 %	300	EV300NM2E01	Flat Plate	CR110BP	2	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	302TOBP10T20	80 %	300	SH30ANR2G01	Flat Plate	CR100BP	2	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	302TOBP10T26	80 %	300	SH30ANR2G01	Flat Plate	CR100BP	2	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	302TOBP11T18	81 %	300	SH30ANR2G01	Flat Plate	CR110BP	2	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	302TOBP11T20	79 %	300	SH30ANR2G01	Flat Plate	CR110BP	2	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	302TOBP11T26	79 %	300	SH30ANR2G01	Flat Plate	CR110BP	2	Anti-Frost Valve
Chromagen	Pumped in-line boost	302VCBP11T18	74 %	300	EV30ANS0G09	Flat Plate	CR110BP	2	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	302VCBP11T20	74 %	300	EV30ANS0G09	Flat Plate	CR110BP	2	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	302VCBP11T26	74 %	300	EV30ANS0G09	Flat Plate	CR110BP	2	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	302VOBP10T20	79 %	300	SV30ANR1G09	Flat Plate	CR100BP	2	Active Control in Solar Controller
Chromagen	Pumped in-line boost	302VOBP10T26	79 %	300	SV30ANR1G09	Flat Plate	CR100BP	2	Active Control in Solar Controller
Chromagen	Pumped in-line boost	302VOBP11T18	79 %	300	SV30ANR1G09	Flat Plate	CR110BP	2	Active Control in Solar Controller
Chromagen	Pumped in-line boost	302VOBP11T20	78 %	300	SV30ANR1G09	Flat Plate	CR110BP	2	Active Control in Solar Controller
Chromagen	Pumped in-line boost	302VOBP11T26	78 %	300	SV30ANR1G09	Flat Plate	CR110BP	2	Active Control in Solar Controller
Chromagen	Close-coupled thermosiphon with in-line boost	303TCBP11T18	82 %	300	EV300NM2E01	Flat Plate	CR110BP	3	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	303TCBP11T20	78 %	300	EV300NM2E01	Flat Plate	CR110BP	3	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	303TCBP11T26	78 %	300	EV300NM2E01	Flat Plate	CR110BP	3	Anti-Freeze Close loop System
Chromagen	Close-coupled thermosiphon with in-line boost	303TOBP10T20	87 %	300	SH30ANR2G01	Flat Plate	CR100BP	3	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	303TOBP10T26	87 %	300	SH30ANR2G01	Flat Plate	CR100BP	3	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	303TOBP11T18	86 %	300	SH30ANR2G01	Flat Plate	CR110BP	3	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	303TOBP11T20	85 %	300	SH30ANR2G01	Flat Plate	CR110BP	3	Anti-Frost Valve
Chromagen	Close-coupled thermosiphon with in-line boost	303TOBP11T26	85 %	300	SH30ANR2G01	Flat Plate	CR110BP	3	Anti-Frost Valve
Chromagen	Pumped in-line boost	303VCBP11T18	75 %	300	EV30ANS0G09	Flat Plate	CR110BP	3	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	303VCBP11T20	75 %	300	EV30ANS0G09	Flat Plate	CR110BP	3	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	303VCBP11T26	75 %	300	EV30ANS0G09	Flat Plate	CR110BP	3	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	303VOBP11T18	85 %	300	SV30ANR1G09	Flat Plate	CR110BP	3	Active Control in Solar Controller
Chromagen	Pumped in-line boost	303VOBP11T20	85 %	300	SV30ANR1G09	Flat Plate	CR110BP	3	Active Control in Solar Controller
Chromagen	Pumped in-line boost	303VOBP11T26	85 %	300	SV30ANR1G09	Flat Plate	CR110BP	3	Active Control in Solar Controller
Chromagen	Pumped in-line boost	452VOBC12E20	84 %	400	SO400	Flat Plate	CR100BP	2	Active Control in Solar Controller
Chromagen	Pumped in-line boost	452VOBC12E26	84 %	400	SO400	Flat Plate	CR100BP	2	Active Control in Solar Controller
Chromagen	Pumped in-line boost	452VOBP10E20	78 %	400	SO400	Flat Plate	CR100BP	2	Active Control in Solar Controller
Chromagen	Pumped in-line boost	452VOBP10E26	78 %	400	SO400	Flat Plate	CR100BP	2	Active Control in Solar Controller
Chromagen	Close-coupled thermosyphon with in-line boost	8201TCBC12G20	67 %	200	EH20AWM2G01	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	8201VCBC12G20	64 %	200	EV20AWS0AEBA	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	8201VCBC12G26	64 %	200	EV20AWS0AEBA	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	8202VCBP10G20	74 %	200	EV20AWS0AEBA	Flat Plate	CR100BP	2	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	8202VCBP10G26	74 %	200	EV20AWS0AEBA	Flat Plate	CR100BP	2	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	8302VCBP10G20	68 %	200	EV30ANS0G09	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	8302VCBP10G26	68 %	200	EV30ANS0G09	Flat Plate	CR120BC	1	Anti-Freeze Close loop System
Chromagen	Pumped in-line boost	8303VOBC12G20	89 %	300	SV30ANR1G09	Flat Plate	CR120BC	3	Active Control in Solar Controller
Chromagen	Pumped in-line boost	9453VOBC12G208	90 %	400	SO400	Flat Plate	CR120BC	3	Active Control in Solar Controller
Chromagen	Pumped in-line boost	9453VOBP10G207	86 %	400	SO400	Flat Plate	CR120BC	3	Active Control in Solar Controller
Conergy	Pumped in-line boost	AS250/25/C/G16/E25BC	64 %	259	Proflo 250 or Aquamax SE250	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS250/25/C/G20/E25BC	63 %	259	Proflo 250 or Aquamax SE250	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS250/25/C/G21/E25BC	62 %	259	Proflo 250 or Aquamax SE250	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS250/25/C/G24/E25BC	62 %	259	Proflo 250 or Aquamax SE250	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS250/25/O/G16/E25BC	67 %	259	Proflo 250 or Aquamax SE250	Flat Plate	E25BC	1	Active Recirculation
Conergy	Pumped in-line boost	AS250/25/O/G20/E25BC	67 %	259	Proflo 250 or Aquamax SE250	Flat Plate	E25BC	1	Active Recirculation
Conergy	Pumped in-line boost	AS250/25/O/G21/E25BC	65 %	259	Proflo 250 or Aquamax SE250	Flat Plate	E25BC	1	Active Recirculation
Conergy	Pumped in-line boost	AS250/25/O/G24/E25BC	66 %	259	Proflo 250 or Aquamax SE250	Flat Plate	E25BC	1	Active Recirculation
Conergy	Pumped in-line boost	AS250/4/C/GXX/E20BC	70 %	259	Proflo 250 or Aquamax SE250	Flat Plate	E20BC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS250/4/C/GXX/F20LC	67 %	259	Proflo 250 or Aquamax SE250	Flat Plate	F20LC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS250/4/O/GXX/E20BC	76 %	259	Proflo 250 or Aquamax SE250	Flat Plate	E20BC	2	Active Recirculation
Conergy	Pumped in-line boost	AS250/4/O/GXX/F20LC	74 %	259	Proflo 250 or Aquamax SE250	Flat Plate	F20LC	2	Active Recirculation
Conergy	Pumped in-line boost	AS315/25/C/G16/E25BC	64 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/25/C/G20/E25BC	63 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/25/C/G21/E25BC	61 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/25/C/G24/E25BC	61 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/25/O/G16/E25BC	67 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	1	Active Recirculation
Conergy	Pumped in-line boost	AS315/25/O/G20/E25BC	66 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	1	Active Recirculation
Conergy	Pumped in-line boost	AS315/25/O/G21/E25BC	65 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	1	Active Recirculation
Conergy	Pumped in-line boost	AS315/25/O/G24/E25BC	66 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	1	Active Recirculation
Conergy	Pumped in-line boost	AS315/4/C/GXX/E20BC	71 %	322	Proflo 315 or Aquamax S315	Flat Plate	E20BC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/4/C/GXX/E20BC	71 %	322	Proflo 315 or Aquamax S315	Flat Plate	E20BC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/4/C/GXX/F20LC	73 %	322	Proflo 315 or Aquamax S315	Flat Plate	F20LC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/4/O/GXX/E20BC	75 %	322	Proflo 315 or Aquamax S315	Flat Plate	E20BC	2	Active Recirculation
Conergy	Pumped in-line boost	AS315/5/C/G16/E25BC	76 %	322	Proflo 400E	Flat Plate	E25BC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/5/C/G20/E25BC	75 %	322	Proflo 400E	Flat Plate	E25BC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/5/C/G21/E25BC	75 %	322	Proflo 400E	Flat Plate	E25BC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/5/C/G24/E25BC	74 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/5/O/G16/E25BC	83 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	2	Active Recirculation
Conergy	Pumped in-line boost	AS315/5/O/G20/E25BC	82 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	2	Active Recirculation
Conergy	Pumped in-line boost	AS315/5/O/G21/E25BC	81 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	2	Active Recirculation
Conergy	Pumped in-line boost	AS315/5/O/G24/E25BC	82 %	322	Proflo 315 or Aquamax S315	Flat Plate	E25BC	2	Active Recirculation
Conergy	Pumped in-line boost	AS315/6/C/GXX/E20BC	78 %	322	Proflo 315 or Aquamax S315	Flat Plate	E20BC	3	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/6/C/GXX/F20LC	75 %	322	Proflo 315 or Aquamax S315	Flat Plate	F20LC	3	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/6/O/GXX/E20BC	84 %	322	Proflo 315 or Aquamax S315	Flat Plate	E20BC	3	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS315/6/O/GXX/F20LC	82 %	322	Proflo 315 or Aquamax S315	Flat Plate	F20LC	3	Active Recirculation
Conergy	Pumped in-line boost	AS400/5/C/G16/E25BC	77 %	415	Proflo 400	Flat Plate	E25BC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS400/5/C/G20/E25BC	76 %	415	Proflo 400	Flat Plate	E25BC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS400/5/C/G21/E25BC	75 %	415	Proflo 400	Flat Plate	E25BC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS400/5/C/G24/E25BC	75 %	415	Proflo 400	Flat Plate	E25BC	2	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS400/5/O/G16/E25BC	83 %	415	Proflo 400E	Flat Plate	E25BC	2	Active Recirculation
Conergy	Pumped in-line boost	AS400/5/O/G20/E25BC	82 %	415	Proflo 400E	Flat Plate	E25BC	2	Active Recirculation
Conergy	Pumped in-line boost	AS400/5/O/G21/E25BC	82 %	415	Proflo 400E	Flat Plate	E25BC	2	Active Recirculation
Conergy	Pumped in-line boost	AS400/5/O/G24/E25BC	83 %	415	Proflo 400E	Flat Plate	E25BC	2	Active Recirculation
Conergy	Pumped in-line boost	AS400/6/C/GXX/E20BC	79 %	415	Proflo 400	Flat Plate	E20BC	3	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS400/6/C/GXX/F20LC	75 %	415	Proflo 400	Flat Plate	F20LC	3	Glycol Closed Circuit
Conergy	Pumped in-line boost	AS400/6/O/GXX/E20BC	85 %	415	Proflo 400	Flat Plate	E20BC	3	Active Recirculation
Conergy	Pumped in-line boost	AS400/6/O/GXX/F20LC	82 %	415	Proflo 400	Flat Plate	F20LC	3	Active Recirculation
Conergy	Close-coupled thermosiphon with in-line boost	TS180/20/C/GXX/V/F20LC	60 %	175	TS180/C/XXX/V	Flat Plate	F20LC	1	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS180/20/O/G24/V/E20BC	61 %	175	TS180/O/XXX/V	Flat Plate	E20BC	1	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS180/20/O/GXX/V/F20LC	61 %	175	TS180/O/XXX/V	Flat Plate	F20LC	1	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS180/25/C/G16/V/E25BC	70 %	175	TS180/C/XXX/V	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS180/25/C/G20/V/E25BC	69 %	175	TS180/C/XXX/V	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS180/25/C/G21/V/E25BC	68 %	175	TS180/C/XXX/V	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS180/25/C/G24/V/E25BC	66 %	175	TS180/C/XXX/V	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS180/25/O/G16/V/E25BC	68 %	175	TS180/O/XXX/V	Flat Plate	E25BC	1	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS180/25/O/G20/V/E25BC	68 %	175	TS180/O/XXX/V	Flat Plate	E25BC	1	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS180/25/O/G21/V/E25BC	65 %	175	TS180/O/XXX/V	Flat Plate	E25BC	1	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS180/25/O/G24/V/E25BC	66 %	175	TS180/O/XXX/V	Flat Plate	E25BC	1	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS300/25/C/G16/V/E25BC	67 %	297.1	TS300/C/XXX/V	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS300/25/C/G20/V/E25BC	67 %	297.1	TS300/C/XXX/V	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS300/25/C/G21/V/E25BC	65 %	297.1	TS300/C/XXX/V	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS300/25/C/G24/V/E25BC	66 %	297.1	TS300/C/XXX/V	Flat Plate	E25BC	1	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS300/25/O/G16/V/E25BC	68 %	297.1	TS300/O/XXX/V	Flat Plate	E25BC	1	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS300/25/O/G20/V/E25BC	67 %	297.1	TS300/O/XXX/V	Flat Plate	E25BC	1	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS300/25/O/G21/V/E25BC	66 %	297.1	TS300/O/XXX/V	Flat Plate	E25BC	1	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS300/25/O/G24/V/E25BC	66 %	297.1	TS300/O/XXX/V	Flat Plate	E25BC	1	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS300/40/C/GXX/V/E20BC	75 %	297	TS300/C/XXX/V	Flat Plate	E20BC	2	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS300/40/C/GXX/V/F20LC	72 %	297	TS300/C/XXX/V	Flat Plate	F20LC	2	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS300/40/O/GXX/V/E20BC	75 %	297	TS300/O/XXX/V	Flat Plate	E20BC	2	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS300/40/O/GXX/V/F20LC	73 %	297	TS300/O/XXX/V	Flat Plate	F20LC	2	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS300/6/O/GXX/VE20BC	76 %	297.1	TS300/O/XXX/V	Flat Plate	E20BC	3	Frost Valve
Conergy	Close-coupled thermosiphon with in-line boost	TS300/60/C/GXX/V/E20BC	82 %	297	TS300/O/XXX/V	Flat Plate	E20BC	3	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS300/60/C/GXX/V/F20LC	79 %	297	TS300/C/XXX/V	Flat Plate	F20LC	3	Glycol Closed Circuit
Conergy	Close-coupled thermosiphon with in-line boost	TS300/60/O/GXX/V/F20LC	80 %	297	TS300/O/XXX/V	Flat Plate	F20LC	3	Frost Valve
Douglas Solar	Pumped in-line boost	DS 315 21	77 %	315	315S	Flat Plate	Alan Black	2	Valves
Douglas Solar	Pumped in-line boost	DS 315 25	73 %	315	315S	Flat Plate	Alan Black	2	Valves
DUX	Pumped in-tank boost	D1FNP3T2AC	63 %	170	170FNS	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-tank boost	D1FNP3W2AC	61 %	170	170FNS	Flat Plate	2CB	2	Frost valve
DUX	Pumped in-line boost	D2FL20T2AC	79 %	259	2FL20A	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D2FL26T1AC	63 %	259	2FL26A	Flat Plate	2AP	1	Frost valve
DUX	Pumped in-line boost	D2FL26T2AC	79 %	259	2FL26A	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D2FL26T2BC	74 %	259	2FL26B	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D2FL26W1AC	60 %	259	2FL26A	Flat Plate	2CB	1	Frost valve
DUX	Pumped in-line boost	D2FL26W2AC	77 %	259	2FL26A	Flat Plate	2CB	2	Frost valve
DUX	Pumped in-line boost	D2FL26W2BC	72 %	259	2FL26B	Flat Plate	2CB	2	Frost valve
DUX	Pumped in-line boost	D2FN20T2AC	79 %	259	2FN20A	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D2FN26T1AC	63 %	259	2FN26A	Flat Plate	2AP	1	Frost valve
DUX	Pumped in-line boost	D2FN26T2AC	79 %	259	2FN26A	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D2FN26T2BC	74 %	259	2FN26B	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D2FN26W1AC	60 %	259	2FN26A	Flat Plate	2CB	1	Frost valve
DUX	Pumped in-line boost	D2FN26W2AC	77 %	259	2FN26A	Flat Plate	2CB	2	Frost valve
DUX	Pumped in-line boost	D2FN26W2BC	72 %	259	2FN26B	Flat Plate	2CB	2	Frost valve
DUX	Pumped in-line boost	D3FL26T2AC	80 %	322	3FL26A	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D3FL26T2BC	73 %	322	3FL26B	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D3FL26W2AC	77 %	322	3FL26A	Flat Plate	2CB	2	Frost valve
DUX	Pumped in-line boost	D3FL26W2BC	73 %	322	3FL26B	Flat Plate	2CB	2	Frost valve
DUX	Pumped in-line boost	D3FN26T2AC	80 %	322	3FN26A	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D3FN26T2BC	73 %	322	3FN26B	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D3FN26T3AC	87 %	322	3FN26A	Flat Plate	2AP	3	Frost valve
DUX	Pumped in-line boost	D3FN26T3BC	81 %	322	3FN26B	Flat Plate	2AP	3	Frost valve
DUX	Pumped in-line boost	D3FN26W2AC	77 %	322	3FN26A	Flat Plate	2CB	2	Frost valve
DUX	Pumped in-line boost	D3FN26W2BC	73 %	322	3FN26B	Flat Plate	2CB	2	Frost valve
DUX	Pumped in-line boost	D3FN26W3AC	85 %	322	3FN26A	Flat Plate	2CB	3	Frost valve
DUX	Pumped in-line boost	D3FN26W3BC	78 %	322	3FN26B	Flat Plate	2CB	3	Frost valve
DUX	Pumped in-line boost	D4FL26T3AC	88 %	415	4FL26A	Flat Plate	2AP	3	Frost valve
DUX	Pumped in-line boost	D4FL26T3BC	83 %	415	4FL26B	Flat Plate	2AP	3	Frost valve
DUX	Pumped in-line boost	D4FL26W3AC	86 %	415	4FL26A	Flat Plate	2CB	3	Frost valve
DUX	Pumped in-line boost	D4FL26W3BC	79 %	415	4FL26B	Flat Plate	2CB	3	Frost valve
DUX	Pumped in-line boost	D4FN26T2AC	80 %	415	4FN26A	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D4FN26T2BC	76 %	415	4FN26B	Flat Plate	2AP	2	Frost valve
DUX	Pumped in-line boost	D4FN26T3AC	88 %	415	4FN26A	Flat Plate	2AP	3	Frost valve
DUX	Pumped in-line boost	D4FN26T3BC	83 %	415	4FN26B	Flat Plate	2AP	3	Frost valve
DUX	Pumped in-line boost	D4FN26W2AC	77 %	415	4FN26A	Flat Plate	2CB	2	Frost valve
DUX	Pumped in-line boost	D4FN26W2BC	73 %	415	4FN26B	Flat Plate	2CB	2	Frost valve
DUX	Pumped in-line boost	D4FN26W3AC	86 %	415	4FN26A	Flat Plate	2CB	3	Frost valve
DUX	Pumped in-line boost	D4FN26W3BC	79 %	415	4FN26B	Flat Plate	2CB	3	Frost valve
Ecosmart	Close-coupled thermosiphon with in-line boost	E1FL26W1CC	61 %	180	CC180	Flat Plate	2CB	1	Frost valve
Ecosmart	Close-coupled thermosiphon with in-line boost	E1FN26W1CC	61 %	180	CC180	Flat Plate	2CB	1	Frost valve
Ecosmart	Pumped in-tank boost	E1FNP3T2AC	63 %	170	170FNS	Flat Plate	2AP	2	Frost valve
Ecosmart	Pumped in-tank boost	E1FNP3W2AC	61 %	170	170FNS	Flat Plate	2CB	2	Frost valve
Ecosmart	Pumped in-line boost	E2FL26T1AC	63 %	259	2FL26A	Flat Plate	2AP	1	Frost valve
Ecosmart	Pumped in-line boost	E2FL26T2AC	79 %	259	2FL26A	Flat Plate	2AP	2	Frost valve
Ecosmart	Pumped in-line boost	E2FL26T2BC	74 %	259	2FL26B	Flat Plate	2AP	2	Frost valve
Ecosmart	Pumped in-line boost	E2FL26W1AC	60 %	259	2FL26A	Flat Plate	2CB	1	Frost valve
Ecosmart	Pumped in-line boost	E2FL26W2AC	77 %	259	2FL26A	Flat Plate	2CB	2	Frost valve
Ecosmart	Pumped in-line boost	E2FL26W2BC	72 %	259	2FL26B	Flat Plate	2CB	2	Frost valve
Ecosmart	Pumped in-line boost	E2FN26T1AC	63 %	259	2FN26A	Flat Plate	2AP	1	Frost valve
Ecosmart	Pumped in-line boost	E2FN26T2AC	79 %	259	2FN26A	Flat Plate	2AP	2	Frost valve
Ecosmart	Pumped in-line boost	E2FN26T2BC	74 %	259	2FN26B	Flat Plate	2AP	2	Frost valve
Ecosmart	Pumped in-line boost	E2FN26W1AC	60 %	259	2FN26A	Flat Plate	2CB	1	Frost valve
Ecosmart	Pumped in-line boost	E2FN26W2AC	77 %	259	2FN26A	Flat Plate	2CB	2	Frost valve
Ecosmart	Pumped in-line boost	E2FN26W2BC	72 %	259	2FN26B	Flat Plate	2CB	2	Frost valve
Ecosmart	Pumped in-line boost	E3FL26T2AC	80 %	322	3FL26A	Flat Plate	2AP	2	Frost valve
Ecosmart	Pumped in-line boost	E3FL26T2BC	73 %	322	3FL26B	Flat Plate	2AP	2	Frost valve
Ecosmart	Pumped in-line boost	E3FL26W2AC	77 %	322	3FL26A	Flat Plate	2CB	2	Frost valve
Ecosmart	Pumped in-line boost	E3FL26W2BC	73 %	322	3FL26B	Flat Plate	2CB	2	Frost valve
Ecosmart	Close-coupled thermosiphon with in-line boost	E3FL26W2CC	76 %	330	CC330	Flat Plate	2CB	2	Frost valve
Ecosmart	Pumped in-line boost	E3FN26T2AC	80 %	322	3FN26A	Flat Plate	2AP	2	Frost valve
Ecosmart	Pumped in-line boost	E3FN26T2BC	73 %	322	3FN26B	Flat Plate	2AP	2	Frost valve
Ecosmart	Pumped in-line boost	E3FN26T3AC	87 %	322	3FN26A	Flat Plate	2AP	3	Frost valve
Ecosmart	Pumped in-line boost	E3FN26T3BC	81 %	322	3FN26B	Flat Plate	2AP	3	Frost valve
Ecosmart	Pumped in-line boost	E3FN26W2AC	77 %	322	3FN26A	Flat Plate	2CB	2	Frost valve
Ecosmart	Pumped in-line boost	E3FN26W2BC	73 %	322	3FN26B	Flat Plate	2CB	2	Frost valve
Ecosmart	Close-coupled thermosiphon with in-line boost	E3FN26W2CC	76 %	330	CC330	Flat Plate	2CB	2	Frost valve
Ecosmart	Pumped in-line boost	E3FN26W3AC	85 %	322	3FN26A	Flat Plate	2CB	3	Frost valve
Ecosmart	Pumped in-line boost	E3FN26W3BC	78 %	322	3FN26B	Flat Plate	2CB	3	Frost valve
Ecosmart	Pumped in-line boost	E4FL26T3AC	88 %	415	4FL26A	Flat Plate	2AP	3	Frost valve
Ecosmart	Pumped in-line boost	E4FL26T3BC	83 %	415	4FL26B	Flat Plate	2AP	3	Frost valve
Ecosmart	Pumped in-line boost	E4FL26W3AC	86 %	415	4FL26A	Flat Plate	2CB	3	Frost valve
Ecosmart	Pumped in-line boost	E4FL26W3BC	79 %	415	4FL26B	Flat Plate	2CB	3	Frost valve
Ecosmart	Pumped in-line boost	E4FN26T2AC	80 %	415	4FN26A	Flat Plate	2AP	2	Frost valve
Ecosmart	Pumped in-line boost	E4FN26T2BC	76 %	415	4FN26B	Flat Plate	2AP	2	Frost valve
Ecosmart	Pumped in-line boost	E4FN26T3AC	88 %	415	4FN26A	Flat Plate	2AP	3	Frost valve
Ecosmart	Pumped in-line boost	E4FN26T3BC	83 %	415	4FN26B	Flat Plate	2AP	3	Frost valve
Ecosmart	Pumped in-line boost	E4FN26W2AC	77 %	415	4FN26A	Flat Plate	2CB	2	Frost valve
Ecosmart	Pumped in-line boost	E4FN26W2BC	73 %	415	4FN26B	Flat Plate	2CB	2	Frost valve
Ecosmart	Pumped in-line boost	E4FN26W3AC	86 %	415	4FN26A	Flat Plate	2CB	3	Frost valve
Ecosmart	Pumped in-line boost	E4FN26W3BC	79 %	415	4FN26B	Flat Plate	2CB	3	Frost valve
EcoSmart	Close-coupled thermosiphon with in-line boost	SS1801 RG	63 %	180	26S	Flat Plate	SP200	1	Frost Valve
EcoSmart	Close-coupled thermosiphon with in-line boost	SS3302 RG	77 %	330	26S	Flat Plate	SP200	2	Frost Valve
Edwards	Pumped in-tank boost	GTD3402 Australis Series 2 GS	74 %	325	GTD340	Flat Plate	Australis Series 2	2	Recirculation
Edwards	Pumped in-tank boost	GTD3403 Australis Series 2 GS	81 %	325	GTD340	Flat Plate	Australis Series 2	3	Recirculation
Edwards	Pumped in-line boost	GTS2701 Titan Series 2A GS	60 %	270	GTS270	Flat Plate	Titan Series 2A	1	Propylene Glycol in collector loop & Recirculation
Edwards	Pumped in-line boost	GTS2702 Australis Series 2 GS	70 %	270	GTS270	Flat Plate	Australis Series 2	2	Propylene Glycol in collector loop & Recirculation
Edwards	Pumped in-line boost	GTS2702 Titan Series 2A GS	74 %	270	GTS270	Flat Plate	Titan Series 2A	2	Propylene Glycol in collector loop & Recirculation
Edwards	Pumped in-line boost	GTS2703 Australis Series 2 GS	76 %	270	GTS270	Flat Plate	Australis Series 2	3	Propylene Glycol in collector loop & Recirculation
Edwards	Pumped in-line boost	GTS2703 Titan Series 2A GS	81 %	270	GTS270	Flat Plate	Titan Series 2A	3	Propylene Glycol in collector loop & Recirculation
Edwards	Close-coupled thermosiphon with in-line boost	LX11 Australis Series 2 GS	60 %	180	LX180	Flat Plate	Australis Series 2	1	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX11 S3 TITAN GS	62 %	180	LX180	Flat Plate	Titan Series 2A	1	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX11 Titan Series 2A GS	63 %	180	LX180	Flat Plate	Titan Series 2A	1	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX12 Australis Series 2 GS	71 %	180	LX180	Flat Plate	Australis Series 2	2	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX12 S3 AUST GS	68 %	180	LX180	Flat Plate	Australis Series 2	2	Propylene Glycol in collector loop
Edwards	Close-coupled thermosyphon with in-line boost	LX12 S3 Titan GS	73 %	180	LX180	Flat Plate	Titan Series 2A	2	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX12 Titan Series 2A GS	76 %	180	LX180	Flat Plate	Titan Series 2A	2	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX31 Australis Series 2 GS	61 %	305	LX305	Flat Plate	Australis Series 2	1	Propylene Glycol in collector loop
Edwards	Close-coupled thermosyphon with in-tank booster	LX31 S3 Titan GS	60 %	305	LX305	Flat Plate	Titan Series 2A	1	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX31 Titan Series 2A GS	63 %	305	LX305	Flat Plate	Titan Series 2A	1	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX32 Australis Series 2 GS	73 %	305	LX305	Flat Plate	Australis Series 2	2	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX32 S3 AUST GS	69 %	305	LX305	Flat Plate	Australis Series 2	2	Propylene Glycol in collector loop
Edwards	Close-coupled thermosyphon with in-line boost	LX32 S3 Titan GS	74 %	305	LX305	Flat Plate	Titan Series 2A	2	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX32 Titan Series 2A GS	78 %	305	LX305	Flat Plate	Titan Series 2A	2	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX33 Australis Series 2 GS	79 %	305	LX305	Flat Plate	Australis Series 2	3	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX33 S3 AUST GS	74 %	305	LX305	Flat Plate	Australis Series 2	3	Propylene Glycol in collector loop
Edwards	Close-coupled thermosyphon with in-line boost	LX33 S3 Titan GS	80 %	305	LX305	Flat Plate	Titan Series 2A	3	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX33 Titan Series 2A GS	84 %	305	LX305	Flat Plate	Titan Series 2A	3	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX43 Australis Series 2 GS	79 %	440	LX440	Flat Plate	Australis Series 2	3	Propylene Glycol in collector loop
Edwards	Close-coupled thermosiphon with in-line boost	LX44 Australis Series 2 GS	83 %	440	LX440	Flat Plate	Australis Series 2	4	Propylene Glycol in collector loop
Endless Solar	Pumped in-line boost	GB-250-21LP-22	66 %	264	Everlast 250 litre	Evacuated Tube	22 Tubes	1	none
Endless Solar	Pumped in-line boost	GB-250-21LP-30	74 %	264	Everlast 250 litre	Evacuated Tube	30 Tubes	1	none
Endless Solar	Pumped in-line boost	GB-250-21NG-22	66 %	264	Everlast 250 litre	Evacuated Tube	22 Tubes	1	none
Endless Solar	Pumped in-line boost	GB-250-21NG-30	74 %	264	Everlast 250 litre	Evacuated Tube	30 Tubes	1	none
Endless Solar	Pumped in-line boost	GB-315-21LP-22	66 %	327	Everlast 315 litre	Evacuated Tube	22 Tubes	1	none
Endless Solar	Pumped in-line boost	GB-315-21LP-30	74 %	327	Everlast 315 litre	Evacuated Tube	30 Tubes	1	none
Endless Solar	Pumped in-line boost	GB-315-21NG-22	66 %	327	Everlast 315 litre	Evacuated Tube	22 Tubes	1	none
Endless Solar	Pumped in-line boost	GB-315-21NG-30	74 %	327	Everlast 315 litre	Evacuated Tube	30 Tubes	1	none
Endless Solar	Pumped in-line boost	GB-315-25LP-30	74 %	327	Everlast 315 litre	Evacuated Tube	30 Tubes	1	none
Endless Solar	Pumped in-line boost	GB-315-25LP-40	81 %	327	Everlast 315 litre	Evacuated Tube	40 Tubes	1	none
Endless Solar	Pumped in-line boost	GB-315-25NG-30	74 %	327	Everlast 315 litre	Evacuated Tube	30 Tubes	1	none
Endless Solar	Pumped in-line boost	GB-315-25NG-40	81 %	327	Everlast 315 litre	Evacuated Tube	40 Tubes	1	none
Endless Solar	Preheater	RGB-250-22	73 %	264	Everlast 250 litre	Evacuated Tube	22 Tubes	1	0
Endless Solar	Preheater	RGB-250-30	80 %	264	Everlast 250 litre	Evacuated Tube	30 Tubes	1	0
Endless Solar	Preheater	RGB-315-30	81 %	327	Everlast 315 litre	Evacuated Tube	30 Tubes	1	0
Endless Solar	Preheater	RGB-315-40	87 %	327	Everlast 315 litre	Evacuated Tube	40 Tubes	1	0
Everhot	Pumped in-line boost	211160/1HBT-G	60 %	160	21116002	Flat Plate	HBT200	1	via Pump
Everhot	Pumped in-line boost	211160/2HBT-G	76 %	160	21116002	Flat Plate	HBT200	2	via Pump
Everhot	Pumped in-line boost	290160/1T-G	61 %	160	29016000	Flat Plate	T200	1	Glycol
Everhot	Pumped in-line boost	290160/2NPT-G	67 %	160	29016000	Flat plate	NPT200	2	Glycol
Everhot	Pumped in-line boost	296160/1T	62 %	160	296160g3	Flat Plate	T200	1	Glycol
Greenland Systems	Pumped in-line boost	GGL10016-260	80 %	260	250 S	Evacuated Tube	GL100-16	1	Frost Protection Valve
Greenland Systems	Pumped in-line boost	GGL10016-320	80 %	320	315 S	Evacuated Tube	GL100-16	1	Frost Protection Valve
Greenland Systems	Pumped in-line boost	GGL10016PT-260	79 %	260	250 S	Evacuated Tube	GL100-16PT	1	Frost Protection Valve
Greenland Systems	Pumped in-line boost	GGL10016PT-320	78 %	320	315 S	Evacuated Tube	GL100-16PT	1	Frost Protection Valve
Greenland Systems	Pumped in-line boost	GGL7020-260	75 %	260	250 S	Evacuated Tube	GL70-20	1	Frost Protection Valve
Greenland Systems	Pumped in-line boost	GGL7040-320	88 %	320	315 S	Evacuated Tube	GL70-20	2	Frost Protection Valve
Rheem	Pumped in-line boost	511270/2NPT-G	74 %	270	511270	Flat Plate	NPT200	2	Recirculation
Rheem	Pumped in-line boost	511270/3NPT-G	81 %	270	511270	Flat Plate	NPT200	3	Recirculation
Rheem	Pumped in-line boost	511340/2NPT-G	74 %	325	511340	Flat Plate	NPT200	2	Recirculation
Rheem	Pumped in-line boost	511340/3NPT-G	81 %	325	511340	Flat Plate	NPT200	3	Recirculation
Rheem	Pumped in-line boost	511430/2NPT-G	74 %	410	511430	Flat Plate	NPT200	2	Recirculation
Rheem	Pumped in-line boost	511430/3NPT-G	82 %	410	511430	Flat Plate	NPT200	3	Recirculation
Rheem	Pumped in-line boost	511430/4NPT-G	86 %	410	511430	Flat Plate	NPT200	4	Recirculation
Rheem	Close-coupled thermosiphon with in-line boost	52H180/1S-G	62 %	178	52H180	Flat Plate	S200	1	Propylene Glycol in collector loop
Rheem	Close-coupled thermosiphon with in-line boost	52H300/2S-G	74 %	296	52H300	Flat Plate	S200	2	Propylene Glycol in collector loop
Rheem	Close-coupled thermosiphon with in-line boost	52H300K/2S-G	70 %	305	52H300K	Flat Plate	S200	2	Closed Circuit
Rheem	Pumped in-line boost	590270/1S-G	60 %	270	590270	Flat Plate	S200	1	Propylene Glycol in collector loop
Rheem	Pumped in-line boost	590270/2S-G	71 %	270	590270	Flat Plate	S200	2	Propylene Glycol in collector loop
Rheem	Pumped in-line boost	590270/3S-G	77 %	270	590270	Flat Plate	S200	3	Propylene Glycol in collector loop
Rheem	Pumped in-tank boost	596270/1S	60 %	270	596270	Flat Plate	S200	1	Propylene Glycol in collector loop
Rheem	Pumped in-tank boost	596270/2S	71 %	270	596270	Flat Plate	S200	2	Propylene Glycol in collector loop
Rheem	Pumped in-tank boost	596270/3S	77 %	270	596270	Flat Plate	S200	3	Propylene Glycol in collector loop
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close Coupled SS1801 EXT FTC RG	65 %	180	26s	Flat Plate	EXTFTC	1	Frost Tolerant Collector
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close Coupled SS1801 EXT RG	65 %	180	26s	Flat Plate	EXT	1	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close Coupled SS1801 RG	63 %	180	26S	Flat Plate	SP200	1	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close Coupled SS1802 EXT FTC RG	80 %	180	26s	Flat Plate	EXTFTC	2	Frost Tolerant Collector
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close Coupled SS1802 EXT RG	80 %	180	26s	Flat Plate	EXT	2	none
Rinnai Beasley	Close-coupled thermosiphon with in-tank boost	Close Coupled SS1802 FTC RG	72 %	180	26S	Flat Plate	SP200FTC	2	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close Coupled SS1802 RG	77 %	180	26S	Flat Plate	SP200	2	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close Coupled SS3301 EXT FTC RG	65 %	330	26S	Flat Plate	EXTFTC	1	Frost Tolerant Collector
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close coupled SS3301 RG	62 %	330	26S	Flat Plate	SP200	1	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close coupled SS3301 RG EXT	65 %	330	26S	Flat Plate	EXT	1	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close Coupled SS3302 EXT FTC RG	80 %	330	26S	Flat Plate	EXTFTC	2	Frost Tolerant Collector
Rinnai Beasley	Close-coupled thermosiphon with in-tank boost	Close Coupled SS3302 FTC RG	71 %	330	26S	Flat Plate	SP200FTC	2	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close coupled SS3302 RG	77 %	330	26S	Flat Plate	SP200	2	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close coupled SS3302 RG EXT	80 %	330	26S	Flat Plate	EXT	2	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close Coupled SS3303 EXT FTC RG	88 %	330	26S	Flat Plate	EXTFTC	3	Frost Tolerant Collector
Rinnai Beasley	Close-coupled thermosiphon with in-tank boost	Close Coupled SS3303 FTC RG	78 %	330	26S	Flat Plate	SP200FTC	3	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close coupled SS3303 RG	85 %	330	26S	Flat Plate	SP200	3	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close coupled SS3303 RG EXT	88 %	330	26S	Flat Plate	EXT	3	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close Coupled SS4803 EXT FTC RG	87 %	480	26S	Flat Plate	EXTFTC	3	Frost Tolerant Collector
Rinnai Beasley	Close-coupled thermosiphon with in-tank boost	Close Coupled SS4803 FTC RG	78 %	480	26S	Flat Plate	SP200FTC	3	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close coupled SS4803 RG	84 %	480	26S	Flat Plate	SP200	3	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close coupled SS4803 RG EXT	87 %	480	26S	Flat Plate	EXT	3	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close Coupled SS4804 EXT FTC RG	91 %	480	26S	Flat Plate	EXTFTC	4	Frost Tolerant Collector
Rinnai Beasley	Close-coupled thermosiphon with in-tank boost	Close Coupled SS4804 FTC RG	82 %	480	26S	Flat Plate	SP200FTC	4	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close coupled SS4804 RG	88 %	480	26S	Flat Plate	SP200	4	none
Rinnai Beasley	Close-coupled thermosiphon with in-line boost	Close coupled SS4804 RG EXT	91 %	480	26S	Flat Plate	EXT	4	none
Rinnai Beasley	Pumped in-line boost	Split System SS1601 EXT FTC RG	65 %	160	12s	Flat Plate	EXTFTC	1	Frost Tolerant Collector
Rinnai Beasley	Pumped in-line boost	Split System SS1601 EXT RG	65 %	160	12s	Flat Plate	EXT	1	none
Rinnai Beasley	Pumped in-tank boost	Split System SS1601 FTC RG	60 %	160	12S	Flat Plate	SP200FTC	1	none
Rinnai Beasley	Pumped in-line boost	Split System SS1601 RG	63 %	160	12S	Flat Plate	SP200	1	none
Rinnai Beasley	Pumped in-line boost	Split System SS1602 EXT FTC RG	80 %	160	12s	Flat Plate	EXTFTC	1	Frost Tolerant Collector
Rinnai Beasley	Pumped in-line boost	Split System SS1602 EXT RG	80 %	160	12s	Flat Plate	EXT	1	none
Rinnai Beasley	Pumped in-tank boost	Split System SS1602 FTC RG	72 %	160	12S	Flat Plate	SP200FTC	2	none
Rinnai Beasley	Pumped in-line boost	Split System SS1602 RG	77 %	160	12S	Flat Plate	SP200	1	none
Rinnai Beasley	Pumped in-tank boost	Split System SS2501 EXT FTC RG	65 %	250	12S	Flat Plate	EXTFTC	1	Frost Tolerant Collector
Rinnai Beasley	Pumped in-tank boost	Split System SS2501 FTC RG	60 %	250	12S	Flat Plate	SP200FTC	1	none
Rinnai Beasley	Pumped in-line boost	Split System SS2501 RG	63 %	250	12S	Flat Plate	SP200	1	none
Rinnai Beasley	Pumped in-line boost	Split System SS2501 RG EXT	65 %	250	12S	Flat Plate	EXT	1	none
Rinnai Beasley	Pumped in-tank boost	Split System SS2502 EXT FTC RG	81 %	250	12S	Flat Plate	EXTFTC	2	Frost Tolerant Collector
Rinnai Beasley	Pumped in-tank boost	Split System SS2502 FTC RG	73 %	250	12S	Flat Plate	SP200FTC	2	none
Rinnai Beasley	Pumped in-line boost	Split system SS2502 RG	78 %	250	12S	Flat Plate	SP200	2	none
Rinnai Beasley	Pumped in-line boost	Split system SS2502 RG EXT	81 %	250	12S	Flat Plate	EXT	2	none
Rinnai Beasley	Pumped in-tank boost	Split System SS2503 EXT FTC RG	88 %	250	12S	Flat Plate	EXTFTC	3	Frost Tolerant Collector
Rinnai Beasley	Pumped in-tank boost	Split System SS2503 FTC RG	80 %	250	12S	Flat Plate	SP200FTC	3	none
Rinnai Beasley	Pumped in-line boost	Split system SS2503 RG	85 %	250	12S	Flat Plate	SP200	3	none
Rinnai Beasley	Pumped in-line boost	Split system SS2503 RG EXT	88 %	250	12S	Flat Plate	EXT	3	none
Rinnai Beasley	Pumped in-tank boost	Split System SS3151 EXT FTC RG	65 %	315	12S	Flat Plate	EXTFTC	1	Frost Tolerant Collector
Rinnai Beasley	Pumped in-tank boost	Split System SS3151 FTC RG	60 %	315	12S	Flat Plate	SP200FTC	1	none
Rinnai Beasley	Pumped in-line boost	Split System SS3151 RG	63 %	315	12S	Flat Plate	SP200	1	none
Rinnai Beasley	Pumped in-line boost	Split System SS3151 RG EXT	65 %	315	12S	Flat Plate	EXT	1	none
Rinnai Beasley	Pumped in-tank boost	Split System SS3152 EXT FTC RG	81 %	315	12S	Flat Plate	EXTFTC	2	Frost Tolerant Collector
Rinnai Beasley	Pumped in-tank boost	Split System SS3152 FTC RG	73 %	315	12S	Flat Plate	SP200FTC	2	none
Rinnai Beasley	Pumped in-line boost	Split system SS3152 RG	78 %	315	12S	Flat Plate	SP200	2	none
Rinnai Beasley	Pumped in-line boost	Split system SS3152 RG EXT	81 %	315	12S	Flat Plate	EXT	2	none
Rinnai Beasley	Pumped in-tank boost	Split System SS3153 EXT FTC RG	88 %	315	12S	Flat Plate	EXTFTC	3	Frost Tolerant Collector
Rinnai Beasley	Pumped in-tank boost	Split System SS3153 FTC RG	80 %	315	12S	Flat Plate	SP200FTC	3	none
Rinnai Beasley	Pumped in-line boost	Split system SS3153 RG	86 %	315	12S	Flat Plate	SP200	3	none
Rinnai Beasley	Pumped in-line boost	Split system SS3153 RG EXT	88 %	315	12S	Flat Plate	EXT	3	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS180H1 EXT FTC RG	63 %	177.4	CC180H	Flat plate	EXTFTC	1	Frost tolerant collector
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS180H1 EXT RG	63 %	177.4	CC180H	Flat plate	EXT	1	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS180H1A RG	63 %	177.4	CC180H	Flat plate	SP200A	1	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS180H2 EXT FTC RG	76 %	177.4	CC180H	Flat plate	EXTFTC	2	Frost tolerant collector
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS180H2 EXT RG	76 %	177.4	CC180H	Flat plate	EXT	2	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS180H2 FTC RG	69 %	177.4	CC180H	Flat plate	SP200FTC	2	Frost tolerant collector
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS180H2 SP152 RG	64 %	177.4	CC180H	Flat plate	SP152	2	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS180H2A RG	76 %	177.4	CC180H	Flat plate	SP200A	2	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS180H3 SP152 RG	70 %	177.4	CC180H	Flat plate	SP152	3	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H1 EXT FTC RG	62 %	328.9	CC330H	Flat plate	EXTFTC	1	Frost tolerant collector
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H1 EXT RG	62 %	328.9	CC330H	Flat plate	EXT	1	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H1A RG	63 %	328.9	CC330H	Flat plate	SP200A	1	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H2 EXT FTC RG	77 %	328.9	CC330H	Flat plate	EXTFTC	2	Frost tolerant collector
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H2 EXT RG	77 %	328.9	CC330H	Flat plate	EXT	2	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H2 FTC RG	69 %	328.9	CC330H	Flat plate	SP200FTC	2	Frost tolerant collector
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H2 SP152 RG	63 %	328.9	CC330H	Flat plate	SP152	2	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H2A RG	77 %	328.9	CC330H	Flat plate	SP200A	2	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H3 EXT FTC RG	83 %	328.9	CC330H	Flat plate	EXTFTC	3	Frost tolerant collector
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H3 EXT RG	83 %	328.9	CC330H	Flat plate	EXT	3	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H3 FTC RG	75 %	328.9	CC330H	Flat plate	SP200FTC	3	Frost tolerant collector
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H3 SP152 RG	70 %	328.9	CC330H	Flat plate	SP152	3	none
Rinnai Prestige	Close-coupled thermosiphon with in-line boost	Close Coupled SS330H3A RG	83 %	328.9	CC330H	Flat plate	SP200A	3	none
Rinnai Prestige	Pumped in-line boost	Split System SS180H1 EXT FTC RG	65 %	177.4	SS180H	Flat plate	EXTFTC	1	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS180H1 EXT RG	65 %	177.4	SS180H	Flat plate	EXT	1	none
Rinnai Prestige	Pumped in-line boost	Split System SS180H1 FTC RG	60 %	177.4	SS180H	Flat plate	SP200FTC	1	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS180H1A RG	66 %	177.4	SS180H	Flat plate	SP200A	1	none
Rinnai Prestige	Pumped in-line boost	Split System SS180H1HP RG	60 %	177.4	SS180H	Flat Plate	HPFTC-8-10	1	Frost Tolerant Collector
Rinnai Prestige	Pumped in-line boost	Split System SS180H2 EXT FTC RG	79 %	177.4	SS180H	Flat plate	EXTFTC	2	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS180H2 EXT RG	79 %	177.4	SS180H	Flat plate	EXT	2	none
Rinnai Prestige	Pumped in-line boost	Split System SS180H2 FTC RG	72 %	177.4	SS180H	Flat plate	SP200FTC	2	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS180H2 SP152 RG	65 %	177.4	SS180H	Flat plate	SP152	2	none
Rinnai Prestige	Pumped in-line boost	Split System SS180H2A RG	79 %	177.4	SS180H	Flat plate	SP200A	2	none
Rinnai Prestige	Pumped in-line boost	Split System SS180H2HP RG	74 %	177.4	SS180H	Flat Plate	HPFTC-8-10	2	Frost Tolerant Collector
Rinnai Prestige	Pumped in-line boost	Split System SS180H3 SP152 RG	71 %	177.4	SS180H	Flat plate	SP152	3	none
Rinnai Prestige	Pumped in-line boost	Split System SS265H1 EXT FTC RG	65 %	262.1	SS265H	Flat plate	EXTFTC	1	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS265H1 EXT RG	65 %	262.1	SS265H	Flat plate	EXT	1	none
Rinnai Prestige	Pumped in-line boost	Split System SS265H1 FTC RG	60 %	262.1	SS265H	Flat plate	SP200FTC	1	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS265H1A RG	66 %	262.1	SS265H	Flat plate	SP200A	1	none
Rinnai Prestige	Pumped in-line boost	Split System SS265H1HP RG	60 %	262.1	SS265H	Flat Plate	HPFTC-8-10	1	Frost Tolerant Collector
Rinnai Prestige	Pumped in-line boost	Split System SS265H2 EXT FTC RG	80 %	262.1	SS265H	Flat plate	EXTFTC	2	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS265H2 EXT RG	80 %	262.1	SS265H	Flat plate	EXT	2	none
Rinnai Prestige	Pumped in-line boost	Split System SS265H2 FTC RG	72 %	262.1	SS265H	Flat plate	SP200FTC	2	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS265H2 SP152 RG	65 %	262.1	SS265H	Flat plate	SP152	2	none
Rinnai Prestige	Pumped in-line boost	Split System SS265H2A RG	80 %	262.1	SS265H	Flat plate	SP200A	2	none
Rinnai Prestige	Pumped in-line boost	Split System SS265H2HP RG	75 %	262.1	SS265H	Flat Plate	HPFTC-8-10	2	Frost Tolerant Collector
Rinnai Prestige	Pumped in-line boost	Split System SS265H3 EXT FTC RG	86 %	262.1	SS265H	Flat plate	EXTFTC	3	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS265H3 EXT RG	86 %	262.1	SS265H	Flat plate	EXT	3	none
Rinnai Prestige	Pumped in-line boost	Split System SS265H3 FTC RG	78 %	262.1	SS265H	Flat plate	SP200FTC	3	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS265H3 SP152 RG	72 %	262.1	SS265H	Flat plate	SP152	3	none
Rinnai Prestige	Pumped in-line boost	Split System SS265H3A RG	86 %	262.1	SS265H	Flat plate	SP200A	3	none
Rinnai Prestige	Pumped in-line boost	Split System SS265H3HP RG	82 %	262.1	SS265H	Flat Plate	HPFTC-8-10	3	Frost Tolerant Collector
Rinnai Prestige	Pumped in-line boost	Split System SS330H1 EXT FTC RG	65 %	328.9	SS330H	Flat plate	EXTFTC	1	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS330H1 EXT RG	65 %	328.9	SS330H	Flat plate	EXT	1	none
Rinnai Prestige	Pumped in-line boost	Split System SS330H1 FTC RG	60 %	328.9	SS330H	Flat plate	SP200FTC	1	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS330H1A RG	66 %	328.9	SS330H	Flat plate	SP200A	1	none
Rinnai Prestige	Pumped in-line boost	Split System SS330H1HP RG	60 %	328.9	SS330H	Flat Plate	HPFTC-8-10	1	Frost Tolerant Collector
Rinnai Prestige	Pumped in-line boost	Split System SS330H2 EXT FTC RG	80 %	328.9	SS330H	Flat plate	EXTFTC	2	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS330H2 EXT RG	80 %	328.9	SS330H	Flat plate	EXT	2	none
Rinnai Prestige	Pumped in-line boost	Split System SS330H2 FTC RG	72 %	328.9	SS330H	Flat plate	SP200FTC	2	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS330H2 SP152 RG	65 %	328.9	SS330H	Flat plate	SP152	2	none
Rinnai Prestige	Pumped in-line boost	Split System SS330H2A RG	80 %	328.9	SS330H	Flat plate	SP200A	2	none
Rinnai Prestige	Pumped in-line boost	Split System SS330H2HP RG	75 %	328.9	SS330H	Flat Plate	HPFTC-8-10	2	Frost Tolerant Collector
Rinnai Prestige	Pumped in-line boost	Split System SS330H3 EXT FTC RG	87 %	328.9	SS330H	Flat plate	EXTFTC	3	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS330H3 EXT RG	87 %	328.9	SS330H	Flat plate	EXT	3	none
Rinnai Prestige	Pumped in-line boost	Split System SS330H3 FTC RG	79 %	328.9	SS330H	Flat plate	SP200FTC	3	Frost tolerant collector
Rinnai Prestige	Pumped in-line boost	Split System SS330H3 SP152 RG	72 %	328.9	SS330H	Flat plate	SP152	3	none
Rinnai Prestige	Pumped in-line boost	Split System SS330H3A RG	87 %	328.9	SS330H	Flat plate	SP200A	3	none
Rinnai Prestige	Pumped in-line boost	Split System SS330H3HP RG	83 %	328.9	SS330H	Flat Plate	HPFTC-8-10	3	Frost Tolerant Collector
Rinnai Sunmaster	Pumped in-line boost	SG1751P	60 %	175	SG175	Flat Plate	SP200	1	none
Rinnai Sunmaster	Pumped in-line boost	SG1752P	75 %	175	SG175	Flat Plate	SP200	2	none
Rinnai Sunmaster	Pumped in-line boost	SG2151P	60 %	215	SG215	Flat Plate	SP200	1	none
Rinnai Sunmaster	Pumped in-line boost	SG2152P	76 %	215	SG215	Flat Plate	SP200	2	none
Rinnai Sunmaster	Pumped in-line boost	SG2702P	77 %	270	SG270	Flat Plate	SP200	2	none
Rinnai Sunmaster	Pumped in-line boost	SG2703P	85 %	270	SG270	Flat Plate	SP200	3	none
Rinnai Sunmaster	Pumped in-line boost	SG3402P	77 %	340	SG340	Flat Plate	SP200	2	none
Rinnai Sunmaster	Pumped in-line boost	SG3403P	85 %	340	SG340	Flat Plate	SP200	3	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG1751 FTC	60 %	180.1	SG175	Flat Plate	SP200FTC	1	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG1751A	66 %	180.1	SG175	Flat plate	SP200A	1	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG1751EXT	65 %	180.1	SG175	Flat plate	EXT	1	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG1751EXT FTC	65 %	180.1	SG175	Flat plate	EXTFTC	1	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG1751HP	60 %	180.1	SG175	Flat Plate	HPFTC-8-10	1	Frost Tolerant Collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG1752 FTC	72 %	180.1	SG175	Flat Plate	SP200FTC	2	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG1752 SP152	65 %	180.1	SG175	Flat plate	SP152	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG1752A	79 %	180.1	SG175	Flat plate	SP200A	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG1752EXT	79 %	180.1	SG175	Flat plate	EXT	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG1752EXT FTC	79 %	180.1	SG175	Flat plate	EXTFTC	2	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG1752HP	74 %	180.1	SG175	Flat Plate	HPFTC-8-10	2	Frost Tolerant Collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG1753 SP152	71 %	180.1	SG175	Flat plate	SP152	3	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2151 FTC	60 %	219.8	SG215	Flat Plate	SP200FTC	1	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG2151A	66 %	219.8	SG215	Flat plate	SP200A	1	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2151EXT	65 %	219.8	SG215	Flat plate	EXT	1	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2151EXT FTC	65 %	219.8	SG215	Flat plate	EXTFTC	1	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG2151HP	60 %	219.8	SG215	Flat Plate	HPFTC-8-10	1	Frost Tolerant Collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG2152 FTC	72 %	219.8	SG215	Flat Plate	SP200FTC	2	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG2152 SP152	65 %	219.8	SG215	Flat plate	SP152	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2152A	80 %	219.8	SG215	Flat plate	SP200A	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2152EXT	79 %	219.8	SG215	Flat plate	EXT	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2152EXT FTC	79 %	219.8	SG215	Flat plate	EXTFTC	2	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG2152HP	74 %	219.8	SG215	Flat Plate	HPFTC-8-10	2	Frost Tolerant Collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG2153 SP152	72 %	219.8	SG215	Flat plate	SP152	3	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2702 FTC	72 %	277.4	SG270	Flat Plate	SP200FTC	2	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG2702 SP152	65 %	277.4	SG270	Flat plate	SP152	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2702A	80 %	277.4	SG270	Flat plate	SP200A	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2702EXT	80 %	277.4	SG270	Flat plate	EXT	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2702EXT FTC	80 %	277.4	SG270	Flat plate	EXTFTC	2	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG2702HP	75 %	277.4	SG270	Flat Plate	HPFTC-8-10	2	Frost Tolerant Collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG2703 FTC	78 %	277.4	SG270	Flat Plate	SP200FTC	3	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG2703 SP152	72 %	277.4	SG270	Flat plate	SP152	3	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2703A	86 %	277.4	SG270	Flat plate	SP200A	3	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2703EXT	86 %	277.4	SG270	Flat plate	EXT	3	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG2703EXT FTC	86 %	277.4	SG270	Flat plate	EXTFTC	3	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG2703HP	82 %	277.4	SG270	Flat Plate	HPFTC-8-10	3	Frost Tolerant Collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG3402 FTC	72 %	342.9	SG340	Flat Plate	SP200FTC	2	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG3402 SP152	65 %	342.9	SG340	Flat plate	SP152	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG3402A	80 %	342.9	SG340	Flat plate	SP200A	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG3402EXT	80 %	342.9	SG340	Flat plate	EXT	2	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG3402EXT FTC	80 %	342.9	SG340	Flat plate	EXTFTC	2	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG3402HP	75 %	342.9	SG340	Flat Plate	HPFTC-8-10	2	Frost Tolerant Collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG3403 FTC	79 %	342.9	SG340	Flat Plate	SP200FTC	3	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG3403 SP152	72 %	342.9	SG340	Flat plate	SP152	3	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG3403A	86 %	342.9	SG340	Flat plate	SP200A	3	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG3403EXT	86 %	342.9	SG340	Flat plate	EXT	3	none
Rinnai Sunmaster	Pumped in-line boost	Split System SG3403EXT FTC	86 %	342.9	SG340	Flat plate	EXTFTC	3	Frost tolerant collector
Rinnai Sunmaster	Pumped in-line boost	Split System SG3403HP	70 %	342.9	SG340	Flat Plate	HPFTC-8-10	3	Frost Tolerant Collector
Solahart	Close-coupled thermosiphon with in-line boost	151Jg	62 %	150	150J	Flat Plate	J	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	151KFg	66 %	150	150J	Flat Plate	Kf	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	151KFn	61 %	150	150J	Flat Plate	Kf	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	181Jg	62 %	180	180J	Flat Plate	J	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	181Jg Free Heat	62 %	180	180F	Flat Plate	J	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	181KFg	66 %	180	180J	Flat Plate	Kf	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	181KFg Free Heat	66 %	180	180F	Flat Plate	Kf	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	181KFn	61 %	180	180J	Flat Plate	Kf	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	181KFn Free Heat	61 %	180	180F	Flat Plate	Kf	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	182Jg	73 %	179	180J	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	182Jg Free Heat	73 %	180	180F	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	182Jn	66 %	180	180J	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	182Jn Free Heat	66 %	180	180F	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	182KFg	78 %	180	180J	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	182KFg Free Heat	78 %	180	180F	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	182KFn	73 %	180	180J	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	182KFn Free Heat	73 %	180	180F	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	221Jg	62 %	220	220J	Flat Plate	J	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	221Jg Free Heat	62 %	220	220F	Flat Plate	J	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	221KFg	65 %	220	220J	Flat Plate	Kf	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	221KFg Free Heat	65 %	220	220F	Flat Plate	Kf	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	222Jg	74 %	220	220J	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	222Jg Free Heat	74 %	220	220F	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	222Jn	66 %	220	220J	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	222Jn Free Heat	66 %	220	220F	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	222KFg	79 %	220	220J	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	222KFg Free Heat	79 %	220	220F	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	222KFn	73 %	220	220J	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	222KFn Free Heat	73 %	220	220F	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Pumped in-tank boost	272SLVg	74 %	270	270SLV	Flat Plate	L	2	Recirculation
Solahart	Pumped in-tank boost	273SLVg	81 %	270	270SLV	Flat Plate	L	3	Recirculation
Solahart	Close-coupled thermosiphon with in-line boost	301Jg	62 %	300	300J	Flat Plate	J	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	301KFg	65 %	300	300J	Flat Plate	Kf	1	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	302Jg	74 %	300	300J	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	302Jg Free Heat	74 %	300	300F	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	302Jn	65 %	300	300J	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	302Jn Free Heat	65 %	300	300F	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	302KFg	79 %	300	300J	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	302KFg Free Heat	79 %	300	300F	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	302KFn	72 %	300	300J	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	302KFn Free Heat	72 %	300	300F	Flat Plate	Kf	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosyphon with in-line boost	302LCSCg	74 %	300	300J	Flat Plate	LCS	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosyphon with in-line boost	302LCSCg Free Heat	74 %	300	300F	Flat Plate	LCS	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosyphon with in-tank boost	302LCSCn	68 %	300	300J	Flat Plate	LCS	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosyphon with in-tank boost	302LCSCn Free Heat	68 %	300	300F	Flat Plate	LCS	2	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	303Jg	79 %	300	300J	Flat Plate	J	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	303Jg Free Heat	79 %	300	300F	Flat Plate	J	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	303Jn	71 %	300	300J	Flat Plate	J	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	303Jn Free Heat	71 %	300	300F	Flat Plate	J	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	303KFg	85 %	300	300J	Flat Plate	Kf	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	303KFg Free Heat	85 %	300	300F	Flat Plate	Kf	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	303KFn	78 %	300	300J	Flat Plate	Kf	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	303KFn Free Heat	78 %	300	300F	Flat Plate	Kf	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosyphon with in-line boost	303LCSCg	81 %	300	300J	Flat Plate	LCS	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosyphon with in-line boost	303LCSCg Free Heat	81 %	300	300F	Flat Plate	LCS	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosyphon with in-tank boost	303LCSCn	76 %	300	300J	Flat Plate	LCS	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosyphon with in-tank boost	303LCSCn Free Heat	76 %	300	300F	Flat Plate	LCS	3	Propylene Glycol in collector loop
Solahart	Pumped in-tank boost	342SLVg	74 %	325	340SLV	Flat Plate	L	2	Recirculation
Solahart	Pumped in-tank boost	343SLVg	81 %	325	340SLV	Flat Plate	L	3	Recirculation
Solahart	Pumped in-tank boost	432SLVg	74 %	410	430SLV	Flat Plate	L	2	Recirculation
Solahart	Pumped in-tank boost	433SLVg	82 %	410	430SLV	Flat Plate	L	3	Recirculation
Solahart	Pumped in-tank boost	434SLVg	86 %	410	430SLV	Flat Plate	L	4	Recirculation
Solahart	Close-coupled thermosiphon with in-line boost	443Jg	79 %	440	440J	Flat Plate	J	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	443Jg Free Heat	79 %	440	440F	Flat Plate	J	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	443Jn	69 %	440	440J	Flat Plate	J	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	443Jn Free Heat	69 %	440	440F	Flat Plate	J	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	443KFg	85 %	440	440J	Flat Plate	Kf	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	443KFg Free Heat	85 %	440	440F	Flat Plate	Kf	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	443KFn	77 %	440	440J	Flat Plate	Kf	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	443KFn Free Heat	77 %	440	440F	Flat Plate	Kf	3	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	444Jg	82 %	440	440J	Flat Plate	J	4	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	444Jg Free Heat	82 %	440	440F	Flat Plate	J	4	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	444Jn	72 %	440	440J	Flat Plate	J	4	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	444Jn Free Heat	72 %	440	440F	Flat Plate	J	4	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	444KFg	88 %	440	440J	Flat Plate	J	4	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-line boost	444KFg Free Heat	88 %	440	440F	Flat Plate	Kf	4	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	444KFn	81 %	440	440J	Flat Plate	Kf	4	Propylene Glycol in collector loop
Solahart	Close-coupled thermosiphon with in-tank boost	444KFn Free Heat	81 %	440	440F	Flat Plate	Kf	4	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DJV271	60 %	270	DBV270	Flat Plate	J	1	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DJV271g	60 %	270	DBV270	Flat Plate	J	1	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DJV272	71 %	270	DBV270	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DJV272g	71 %	270	DBV270	Flat Plate	J	2	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DJV273	77 %	270	DBV270	Flat Plate	J	3	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DJV273g	77 %	270	DBV270	Flat Plate	J	3	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DKV271	62 %	270	DBV270	Flat Plate	KF	1	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DKV271g	62 %	270	DBV270	Flat Plate	KF	1	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DKV272	76 %	270	DBV270	Flat Plate	KF	2	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DKV272g	76 %	270	DBV270	Flat Plate	KF	2	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DKV273	82 %	270	DBV270	Flat Plate	KF	3	Propylene Glycol in collector loop
Solahart	Pumped in-line boost	DKV273g	82 %	270	DBV270	Flat Plate	KF	3	Propylene Glycol in collector loop
Solar Lord	Pumped in-line boost	G3001CT20	66 %	300	EV30ANS0G09	Evacuated Tube- U Tube	HFT-300	1	Active control in solar controller
Solar Lord	Pumped in-line boost	G3002CT20	78 %	300	EV30ANS0G09	Evacuated Tube- U Tube	HFT-300	2	Active control in solar controller
Solarlord	Pumped in-line boost	G180SH16-O	63 %	180	SO180	Evacuated Tube-Heat Pipe	TZ 58/1800-16R	1	Active control in solar controller
Solarlord	Pumped in-line boost	G2001OT20	75 %	200	SV20AWR1G09	Evacuated Tube- U Tube	HUJ-15/2.1	1	Active control in solar controller
Solarlord	Pumped in-line boost	G270SH24-O	68 %	270	SO250	Evacuated Tube-Heat Pipe	TZ 58/1800-24R	1	Active control in solar controller
Solarlord	Pumped in-line boost	G270U15-O	68 %	270	SO250	Evacuated Tube- U Tube	HUJ-15/2.1	1	Active control in solar controller
Solarlord	Pumped in-line boost	G3001OT20	75 %	300	SV30ANR1G09	Evacuated Tube- U Tube	HUJ-15/2.1	1	Active control in solar controller
Solarlord	Pumped in-line boost	G340SH32-O	75 %	340	SO315	Evacuated Tube-Heat Pipe	TZ 58/1800-16R	2	Active control in solar controller
Solarlord	Pumped in-line boost	G340U15-O	67 %	340	SO315	Evacuated Tube- U Tube	HUJ-15/2.1	1	Active control in solar controller
Solarlord	Pumped in-line boost	G450SH40-O	66 %	450	SO400	Evacuated Tube-Heat Pipe	TZ 58/1800-24R+TZ 58/1800-16R	2	Active control in solar controller
Solarlord	Pumped in-line boost	G450SH48-O	84 %	450	SO400	Evacuated Tube-Heat Pipe	TZ 58/1800-24R	2	Active control in solar controller
Solarlord	Pumped in-line boost	G450U30-O	85 %	450	SO400	Evacuated Tube- U Tube	HUJ-15/2.1	2	Active control in solar controller
Solarlord	Pumped in-line boost	G450U45-O	92 %	450	SO400	Evacuated Tube- U Tube	HUJ-15/2.1	3	Active control in solar controller
Solarlord	Pumped in-line boost	G450U45-OH	92 %	450	SO400	Evacuated Tube- U Tube	HUJ-15/2.1	3	Active control in solar controller
Sunheat	Close-coupled thermosyphon with in-line boost	180C/1NPT GS	60 %	180	180C	Flat Plate	NPT200	1	Propylene Glycol in collector loop
Sunheat	Close-coupled thermosyphon with in-line boost	300C/2NPT GS	72 %	300	300C	Flat Plate	NPT200	2	Propylene Glycol in collector loop
Sunheat	Close-coupled thermosyphon with in-line boost	300C/3NPT GS	78 %	300	300C	Flat Plate	NPT200	3	Propylene Glycol in collector loop
Sunplus Solar	Pumped in-line boost	CPCASG3	71 %	315	910	Evacuated tube	CPC6	3	Recirculation
Sunplus Solar	Pumped in-line boost	CPCASG4	76 %	400	913	Evacuated tube	CPC6	4	Recirculation
Sunplus Solar	Pumped in-line boost	CPCASG6	69 %	250	912	Evacuated tube	CPC6	3	Recirculation
Sunplus Solar	Pumped in-line boost	CPCASGL1	77 %	400	913	Evacuated tube	CPC6	4	Recirculation
Sunplus Solar	Pumped in-line boost	CPCASGL2	87 %	400	913	Evacuated tube	CPC6	6	Recirculation
Sunplus Solar	Pumped in-line boost	CPCBMG1	68 %	250	250M	Evacuated tube	CPC6	3	Recirculation
Sunplus Solar	Pumped in-line boost	CPCBMG2	69 %	315	315M	Evacuated tube	CPC6	3	Recirculation
Sunplus Solar	Pumped in-line boost	CPCBMG3	76 %	315	315M	Evacuated tube	CPC6	4	Recirculation
Sunplus Solar	Pumped in-line boost	CPCBMGL1	78 %	315	315M	Evacuated tube	CPC6	4	Recirculation
Sunplus Solar	Pumped in-line boost	CPCBMGL2	84 %	315	315M	Evacuated tube	CPC6	5	Recirculation
Sunplus Solar	Pumped in-tank boost	CPCNGS2	64 %	170	XS170	Evacuated tube	CPC6	3	Recirculation
Vulcan	Pumped in-line boost	511160/1HBT-G	60 %	160	511160	Flat Plate	HBT200	1	Recirculation
Vulcan	Pumped in-line boost	511160/2HBT-G	76 %	160	511160	Flat Plate	HBT200	2	Recirculation
Vulcan	Pumped in-line boost	690160/1T-G	61 %	160	69016000	Flat plate	T200	1	Glycol
Vulcan	Pumped in-line boost	690160/2NPT-G	67 %	160	69016000	Flat plate	NPT200	2	Glycol
Vulcan	Pumped in-line boost	696160/1T	62 %	160	696160g3	Flat plate	T200	1	Glycol
Vulcan	Pumped in-line boost	696160/2NPT	68 %	160	696160g3	Flat plate	NPT200	2	Glycol