RANGE OF USE Flow rate: from 0 to 0 m/h Manometric head: up to mce Temperature of the fluid: from 0 to + C Ambient temperature: -0 to +0 C Max. operating pressure: bars (version SIE) bars (version LRE) FLOSKID JETSON SYSTEM OF ELECTRONIC PUMPS IN CASCADE Heating Air conditioning 0 Hz Floskid on sur consultation consulation Floskid standard APPLICATIONS The Floskid is a turnkey system of electronic (LRE / SIE) pumps, factory tested, pre-assembled and compact. They are mounted in cascade on a single frame, and fitted with a SCe-HVAC switch box. The pumps are designed for variable-output heating, air conditioning and cooling systems, in residential blocks, offices and shops or industry. 0 ADVANTAGES 0 Qm /h Highly energy-efficient: improves overall efficiency via a system of pumps in cascade. Easy to install: compact design, preassembled. Acoustic comfort: reduced size and power of motor, reducing noise. Highly reliable: system bench-tested water-filled. Space-saving: compact all-in-one system mounted on a single frame. Improved help to the client, and reduction in administrative procedures: a single contact (Salmson) for the complete system. Standard version can be delivered in only four weeks. N.T. N -/F. - Éd./0-
FLOSKID JETSON BASIC CONSTRUCTION Main components Material Manifolds Painted steel Base frame Galvanised steel TRANSPORT INSTALLATION Delivery In its standard version, the Floskid will be delivered within weeks of order. Transport The smaller systems are entirely covered in a transparent plastic sack, and are delivered as a single unit on a pallet. For the larger systems, only the vulnerable parts, the pumps and the control cabinet are covered in a transparent plastic sack, and delivered separately (pumps on metal frame on the one hand and manifolds separate), on three pallets. Installation All that needs to be provided are the connections to the intake and output pipes and the connection to the electricity supply. DESCRIPTION OF THE PRODUCT Livraison Mechanical and hydraulic components of the installation The compact installation is mounted on a steel frame with vibration dampers (Item ). This is composed of a group of or electronically regulated in-line pumps (Item ), connected together by an intake manifold (Item ) and an output manifold (Item ). On each pump, a stopcock (Item ) is mounted on the intake and output, and a non-return valve (Item ) is mounted on the output. A flanged joint (Item.) is placed between the stopcock and the non-return valve (see fig. ). A sub-assembly with a differential pressure sensor (Fig., item.) a pressure gauge (Fig., item.) and gate valve (Fig., item.) is mounted on the output manifold. The switch box (Item ) is mounted on the frame on one or two brackets (Item ).All the electrical components are delivered ready-wired.. Electronically-regulated in-line pumps. Sce HVAC Switch box. Steel frame with vibration dampers. Intake manifold. Output manifold. Stopcock. Non-return valve. Pressure gauge. Control box. Sub-assembly with differential pressure sensor. Gate valve. Flanged joint
x FLOSKID JETSON TECHNICAL DATA SCE HVAC BOX DESCRIPTION OF THE SCE HVAC BOX Supply voltage [V]: ~00 V (L, L, L, PE) Frequency [Hz]: 0/0 Hz Control voltage [V]: V DC; 0V AC Nominal current [A]: See the motor plate Protection class: IP Main shut-off [A]: See the electrical diagram Ambient temperature [ C]: 0 to +0 C Electrical safety: degree of pollution: II OPERATION The SCe switch box is controlled by a microprocessor which runs a system of to pumps. The regulation value is measured by un sensor and the pumps are controlled according to the load. A transmitter provides the actual value from the measured value of the system by sending a to 0 ma signal. The regulator maintains the constant value of the system by comparing with the set-point, Fig. A) and the actual value. If there is no «External Off» message and no error, the base pump whose speed is being regulated runs at minimum speed. If the power of this pump is not sufficient and the maximum permitted speed, a second pump cuts in if the pressure remains below set-point. This pump takes over control (Fig. B) and the previous lead pump continues to run at maximum. This is repeated with output increasing up to the pump maximum (see Fig. C). If the output falls, the pump being controlled stops when it reaches its minimum permitted speed and if the need remains greater than the set-point. At that point, the previous pump in the cycle takes over the role of lead pump.. Main shut-off: Power on/off of the box. Man-Machine Interface (MMI): LCD display to show the operating data, LEDs to show the general status (Operating /Fault), button to move around the menus and parameters. Pre-programmed automaton with microcontroller. Protection of pumps and speed control via circuit-breaker Qm /h BACKUP PUMP To ensure the security of the system, the Floskid has a backup pump. This pump does not take part in the standard regulation cycle. It only comes on if there is a fault on another pump. The optimisation of the running time of the pumps ensures that each pump is used as backup pump in turn. The backup pump is also started up if the test function is activated. The parameters of this function are pre-adjusted in the factory and can only be altered by the SALMSON after-sales service. PERMITTED MODES OF REGULATION CHANGE OF PUMP To allow the pumps to be brought into operation equally, various mechanisms are used for changing pumps. Each time the system is started up anew (after all the pumps have been switched off) the lead pump changes. Also, an automatic changeover of pumps can be activated so that each becomes lead pump in turn. The time between two changeovers can be defined. x Qm /h Delta pressure constant Δp c Delta pressure variable Δp v (only for the lead pump).. Pressure constant p- c Temperature differential constant between two points of the installation ΔT c* Speed control dependent on the input temperature n = f (Tx)* Speed controlled by external analogue signal n = f(ai) EXTERNAL HALT The system can be deactivated by an external OFF switch. All the pumps are halted. x * Mode available by default on the SCe-HVAC box. The temperature sensor is not supplied. Qm /h
JETSON FLOSKID % [] Power Puissance consumption absorbée P,,, 0, % [] % [] FloSKID- LRE0-/, SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 0 % [] 0 % [] 0 % [] Hauteur Discharge de head refoulement 0 0 %[] Puissance Power consumption absorbée P %[] m Valeurs NPSH Values NPSH %[] FloSKID- LRE0-/ SC--T 0 %[] 0 %[] 0 %[] 0 %[] 0 %[] 0 0 0 0 0 0 0 0 0 0 %[] 0 %[] 0 %[] 0 %[] 0 0 % [] Power Puissance consumption absorbée P % [] % [] 0 % [] 0 % [] 0 % [] FloSKID- SIE0-/, SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 0 0 Discharge head 0 0 % [] Power input consumption P P % [] m NPSH-values Values,,, % [], 0, 0 % [] 0 % [] 0 % [] FloSKID- SIE0-/, SC--T 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 0 0 0 % [] 0 % [] 0 % []
FLOSKID JETSON Discharge Hauteur de head refoulement % [] Power Puissance consumption absorbée P % [] % [] FloSKID- LRE0-/, SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 0 0 0 0 % [] 0 % [] % [] Power Puissance consumption absorbée P % [] % [] FloSKID- LRE0-/, SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 0 0 0 0 % [] 0 % [] Discharge head % [] Power consumption input P P NPSH-values Values m % [] FloSKID- LRE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 0 0 0 0 0 0 0 % [] Power Puissance consumption absorbée P % [] % [] 0 % [] 0 % [] 0 % [] FloSKID- SIE0-/, SC--T 0 % [] 0 % [] 0 0 0 0 0 0 0 0 0 0 0 0 % [] 0 % [] 0 % [] 0 % []
JETSON FLOSKID 0 % [] Power Puissance consumption absorbée P % [] % [] FloSKID- LRE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 0 0 0 0 0 0 % [] 0 % [] FloSKID- SIE0-/, SC--T Discharge Head head 0 0 % [] 0 % [] 0 % [] 0 0 % [] 0 % [] 0 % [] 0 % [] % [] Power consumption input P P 0 % [] 0 % [] m NPSH-values Values, 0 % [],, % [], 0, 0 0 0 0 0 0 0 0 0 0 0 0 0 % [] Power Puissance consumption absorbée P % [] % [] FloSKID- LRE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 0 0 0 0 0 0 % [] 0 % [] Discharge Head head 0 % [] Power consumption input P P % [] m NPSH-values Values FloSKID- LRE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 0 0 0 0 0 0 0
FLOSKID JETSON Hauteur Discharge de head refoulement % [] Puissance Power consumption absorbée P % [] m Valeurs NPSH Values NPSH % [] FloSKID- LRE0-/, SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 % [] 0 % [] FloSKID- SIE0-/, SC--T 0 0 % [] 0 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] % [] Power Puissance consumption absorbée P 0 % [] % [] 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Hauteur Discharge de head 0 refoulement % [] Puissance Power consumption absorbée P % [] m Valeurs NPSH Values NPSH % [] FloSKID- LRE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 00 0 0 0 % [] 0 % [] Head Discharge head % [] Power input consumption P P % [] m NPSH-values Values FloSKID- LRE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 00 0 0 % [] 0 % []
JETSON FLOSKID FloSKID- LRE0-/ SC--T 0 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] % [] 0 % [] Power Puissance consumption absorbée P 0 % [] % [] 0 % [] % [] 0 0 0 0 0 0 0 00 0 Discharge Head head 0 % [] Power consumption input P P % [] NPSH-values Values FloSKID- SIE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 00 0 0 0 % [] 0 % [] 0 % [] Discharge Hauteur de head refoulement 0 0 % [] Power Puissance consumption absorbée P 0 % [] 0 % [] 0 % [] 0 % [] FloSKID-- SIE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] Discharge Hauteur de head refoulement 0 0 % [] Power Puissance consumption absorbée P 0 % [] 0 % [] 0 % [] 0 % [] FloSKID-- SIE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 0 00 0 0 0
FLOSKID JETSON Hauteur Discharge de head refoulement 0 0 % [] Puissance Power consumption absorbée P P 0 % [] 0 % [] 0 % [] 0 % [] FloSKID- SIE0-/, SC--T 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 00 0 0 0 0 % [] 0 % [] Hauteur Discharge de head refoulement 0 % [] Puissance Power consumption absorbée P % [] m Valeurs NPSH Values NPSH FloSKID- SIE0-/, SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 00 0 0 0 0 % [] 0 % [] 0 % [] 0 0 % [] Power Puissance consumption absorbée P 0 0 % [] 0 % [] 0 % [] 0 % [] FloSKID- SIE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 Hauteur Discharge de head refoulement % [] Puissance Power consumption absorbée P % [] m Valeurs NPSH Values NPSH % [] FloSKID- LRE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 00 0 0 0
JETSON FLOSKID 0 0 % [] Power 0 Puissance consumption absorbée P 0 % [] 0 % [] 0 % [] 0 % [] FloSKID- SIE0-0/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 % [] 0 % [] % [] 0 0 0 0 00 0 0 0 0 % [] Power Puissance consumption absorbée P 0 % [] FloSKID- SIE0-/, SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 00 0 0 0 0 00 0 % [] 0 % [] 0 % [] 0 0 % [] Power Puissance consumption absorbée P 0 0 % [] 0 % [] 0 % [] 0 % [] FloSKID-- SIE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 % [] Power Puissance consumption absorbée P 0 0 % [] 0 % [] 0 % [] 0 % [] FloSKID-- SIE0-/ SC--T 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 % [] 0 0 0 0 00 0 0 0 0 00 0 0 0 0 00 0 0 0 0 00
FLOSKID JETSON 0 0 % [] Power Puissance consumption absorbée P 0 0 0 0 % [] 0 % [] 0 % [] 0 % [] FloSKID- SIE0-/ SC--T 0 % [] 0 % [] 0 0 0 0 00 0 0 0 0 00 0 % [] 0 % [] 0 % [] 0 % [] 0 0 % [] Power Puissance consumption absorbée P 0 0 0 0 0 0 % [] % [] 0 % [] 0 % [] 0 % [] FloSKID- SIE0-0/ SC--T 0 % [] 0 % [] 0 % [] 0 0 0 0 00 0 0 0 0 00 0 0 0 % [] 0 % [] 0 % []
FLOSKID JETSON H HP H ELECTRICAL FEATURES AND DIMENSIONS P X P L Hauteur Nominalnominale height (m) (m) Maximum Pression operating maxi de pressure service Niveau Noise level de bruit of the du système system (db) (db) Nett Poids weight net (kg) (kg) Gross Poidsweight brut (kg) (kg) X± H± H± L± P± P± Collecteurs Manifolds Capteur Pressure de sensor pression Pressure Manomètre gauge Courant Nominal nominal current FloSKID--LRE0-/.-SC--T FloSKID--LRE0-/-SC--T FloSKID--SIE0-/.-SC--T FloSKID--LRE0-/.-SC--T FloSKID--LRE0-/-SC--T FloSKID--SIE0-/.-SC--T FloSKID--LRE0-/.-SC--T FloSKID--LRE0-/-SC--T FloSKID--SIE0-/.-SC--T FloSKID--LRE0-/.-SC--T FloSKID--LRE0-/-SC--T FloSKID--SIE0-/.-SC--T FloSKID--LRE0-/-SC--T Nominal débit nominal flow rate of système system 0 Nb nbof pompe backup secours pumps N Item no. Name Désignation article Number nb pompes of main principales pumps FLOSKID data 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 00 00 00 000 000 000 00 00 00 000 000 000 00 0 0 0 0 0 0 DN DN DN DN 0 DN 0 DN 0 DN 0 DN 0 DN 0 DN 00 DN 00 DN 00 DN 00 DSP0 DSP0 DPS0 DSP0 DSP0 DPS0 DSP0 DSP0 DSP0 DSP0 DSP0 DPS0 DSP0 0-0- 0-0- 0-0- 0-0- 0-0- 0-0- 0-.............
FLOSKID JETSON ELECTRICAL FEATURES AND DIMENSIONS N Item no. article Désignation Name Number nb pompes of main principales pumps Nb nb of pompe backup secours pumps Nominal débit nominal flow rate of système system Hauteur Nominal nominale height (m) Maximum Pression operating maxi de pressure service Niveau Noise level de bruit of the du système system (db) Nett Poids weight net (kg) Gross Poids weight brut (kg) X± H± H± L± P± P± Collecteurs Manifolds Capteur Pressure de sensor pression Pressure Manomètre gauge Courant Nominal nominal current FloSKID--LRE0-/-SC--T 0 0 00 DN 00 DSP0 0-. FloSKID--SIE0-/.-SC--T 0 00 DN 00 DPS0 0-. FloSKID--LRE0-/-SC--T 0 000 DN 0 DSP0 0-. FloSKID--LRE0-/-SC--T 000 DN 0 DSP0 0-. FloSKID--SIE0-/.-SC--T 0 000 DN 0 DPS0 0-. FloSKID--LRE0-/-SC--T 0 0 00 DN 0 DSP0 0-. FloSKID---SIE0-/-SC--T 0 00 0 00 DN 0 DSP0 0-. FloSKID--SIE0-/-SC--T 0 00 0 00 DN 0 DPS0 0- FloSKID--LRE0-/-SC--T 000 DN 0 DSP0 0-. 00 FloSKID---SIE0-/-SC--T 0 000 0 00 DN 0 DSP0 0-0. 0 FloSKID--SIE0-/-SC--T 0 0 000 0 00 DN 0 DSP0 0-0 FloSKID--SIE0-/.-SC--T 0 0 00 DN 00 DSP0 0-. 0 FloSKID---SIE0-/-SC--T 0 00 0 DN 00 DSP0 0-. 0 FloSKID--SIE0-0/-SC--T 0 0 00 0 DN 00 DPS0 0-. 0 FloSKID--SIE0-/.-SC--T 0 000 DN 00 DSP0 0-. 0 FloSKID---SIE0-/-SC--T 0 0 000 0 DN 00 DSP0 0-0. 0 FloSKID--SIE0-0/-SC--T 0 0 000 0 DN 00 DPS0 0-. Sce-HVAC box data N Item article no. Name Désignation Puissance Power of coffret Sce Sce HVAC HVAC box Dénomination Name of box coffret Dimensions Size of box coffret (HxWxD) [mm] Wiring Câblage of coffret box FloSKID--LRE0-/.-SC--T, kw S-CTRL-SCE-H-x0,-,KW-T-WM-PKG 00x00x G, mm FloSKID--LRE0-/-SC--T kw S-CTRL-SCE-H-x,0-,KW-T-WM-PKG 00x00x G, mm FloSKID--SIE0-/.-SC--T, kw S-CTRL-SCE-H-x,0-,KW-T-WM-PKG 00x00x G, mm FloSKID--LRE0-/.-SC--T, kw S-CTRL-SCE-H-x0,-,KW-T-WM-PKG 00x00x G, mm FloSKID--LRE0-/-SC--T kw S-CTRL-SCE-H-x,0-,KW-T-WM-PKG 00x00x G, mm FloSKID--SIE0-/.-SC--T, kw S-CTRL-SCE-H-x,0-,KW-T-WM-PKG 00x00x G, mm FloSKID--LRE0-/.-SC--T, kw S-CTRL-SCE-H-x,-,0-T-WM-PKG 00x00x G, mm FloSKID--LRE0-/-SC--T kw S-CTRL-SCE-H-x,0-,KW-T-WM-PKG 00x00x G, mm FloSKID--SIE0-/.-SC--T, kw S-CTRL-SCE-H-x,KW-T-WM-PKG 00x00x G, mm FloSKID--LRE0-/.-SC--T, kw S-CTRL-SCE-H-x,-,0-T-WM-PKG 00x00x G, mm FloSKID--LRE0-/-SC--T kw S-CTRL-SCE-H-x,0-,KW-T-WM-PKG 00x00x G, mm FloSKID--SIE0-/.-SC--T, kw S-CTRL-SCE-H-x,KW-T-WM-PKG 00x00x G, mm 0 FloSKID--LRE0-/-SC--T kw S-CTRL-SCE-H-x,-,0KW-T-WM-PKG 00x00x G, mm FloSKID--LRE0-/-SC--T kw S-CTRL-SCE-H-x,0-,KW-T-WM-PKG 00x00x G, mm FloSKID--SIE0-/.-SC--T, kw S-CTRL-SCE-H-x,KW-T-WM-PKG 00x00x G, mm FloSKID--LRE0-/-SC--T kw S-CTRL-SCE-H-x,-,0KW-T-WM-PKG 00x00x G, mm FloSKID--LRE0-/-SC--T kw S-CTRL-SCE-H-x,0-,KW-T-WM-PKG 00x00x G, mm FloSKID--SIE0-/.-SC--T, kw S-CTRL-SCE-H-x,KW-T-WM-PKG 00x00x G, mm FloSKID--LRE0-/-SC--T kw S-CTRL-SCE-H-x,0-,KW-T-WM-PKG 00x00x G, mm FloSKID---SIE0-/-SC--T kw S-CTRL-SCE-H-x,0KW-T-WM-PKG 00x00x G, mm FloSKID--SIE0-/-SC--T kw S-CTRL-SCE-H-x,0KW-T-WM-PKG 00x00x G mm FloSKID--LRE0-/-SC--T kw S-CTRL-SCE-H-x,0-,KW-T-WM-PKG 00x00x G, mm 00 FloSKID---SIE0-/-SC--T kw S-CTRL-SCE-H-x,0KW-T-WM-PKG 00x00x G, mm 0 FloSKID--SIE0-/-SC--T kw S-CTRL-SCE-H-x,0KW-T-WM-PKG 00x00x G mm 0 FloSKID--SIE0-/.-SC--T, kw S-CTRL-SCE-H-x,KW-T-WM-PKG 00x00x G, mm 0 FloSKID---SIE0-/-SC--T kw S-CTRL-SCE-H-x,0KW-T-WM-PKG 00x00x G, mm 0 FloSKID--SIE0-0/-SC--T kw S-CTRL-SCE-H-x,0KW-T-WM-PKG 00x00x G mm 0 FloSKID--SIE0-/.-SC--T, kw S-CTRL-SCE-H-x,KW-T-WM-PKG 00x00x G, mm 0 FloSKID---SIE0-/-SC--T kw S-CTRL-SCE-H-x,0KW-T-WM-PKG 00x00x G, mm 0 FloSKID--SIE0-0/-SC--T kw S-CTRL-SCE-H-x,0KW-T-WM-PKG 00x00x G mm
JETSON FLOSKID ELECTRICAL FEATURES AND DIMENSIONS Pump data N Item article no Désignation Name N Item Article no Pompes Three pole phase triphasées -pole Pumps 00V 0 Hz Pump débit nominal pompe output Puissance Nominal nominale power Courant Nominal nominal current FloSKID--LRE0-/.-SC--T LRE0-/.-G, kw, A FloSKID--LRE0-/-SC--T LRE0-/-G kw, A FloSKID--SIE0-/.-SC--T 0 SIE0-/.-G, kw, A FloSKID--LRE0-/.-SC--T LRE0-/.-G, kw, A FloSKID--LRE0-/-SC--T LRE0-/-G kw, A FloSKID--SIE0-/.-SC--T 0 SIE0-/.-G, kw, A FloSKID--LRE0-/.-SC--T 0 LRE0-/.-G, kw, A FloSKID--LRE0-/-SC--T LRE0-/-G kw, A FloSKID--SIE0-/.-SC--T SIE0-/.-G, kw, A FloSKID--LRE0-/.-SC--T 0 LRE0-/.-G, kw, A FloSKID--LRE0-/-SC--T LRE0-/-G kw, A FloSKID--SIE0-/.-SC--T SIE0-/.-G, kw, A 0 FloSKID--LRE0-/-SC--T LRE0-/-G kw, A FloSKID--LRE0-/-SC--T LRE0-/-G kw, A FloSKID--SIE0-/.-SC--T 0 SIE0-/.-G, kw, A FloSKID--LRE0-/-SC--T LRE0-/-G kw, A FloSKID--LRE0-/-SC--T LRE0-/-G kw, A FloSKID--SIE0-/.-SC--T 0 SIE0-/.-G, kw, A FloSKID--LRE0-/-SC--T LRE0-/-G kw, A FloSKID---SIE0-/-SC--T SIE0-/-G kw, A FloSKID--SIE0-/-SC--T SIE0-/-G kw A FloSKID--LRE0-/-SC--T LRE0-/-G kw, A 00 FloSKID---SIE0-/-SC--T SIE0-/-G kw, A 0 FloSKID--SIE0-/-SC--T SIE0-/-G kw A 0 FloSKID--SIE0-/.-SC--T SIE0-/.-G, kw, A 0 FloSKID---SIE0-/-SC--T SIE0-/-G kw, A 0 FloSKID--SIE0-0/-SC--T SIE0-0/-G kw 0, A 0 FloSKID--SIE0-/.-SC--T SIE0-/.-G, kw, A 0 FloSKID---SIE0-/-SC--T SIE0-/-G kw, A 0 FloSKID--SIE0-0/-SC--T SIE0-0/-G kw 0, A FLOSKID ACCESSORIES SAP title Item no. Details SC-OPTION MODBUS RTU (SLAVE) Enables the main parameters of the system to be communicated over a modbus network SC-OPTION BACNET MSTP (SLAVE) Enables the main parameters of the system to be communicated over a BacNet network SC-OPTION LON (SLAVE) Enables the main parameters of the system to be communicated over a Lon network. PCBA OPTION EXM SC SET Individual operation and fault reports: adds additional individual Operation and Error outputs to the pumps On demand H-0-A switch to select the operating modes of a pump: allows a physical Auto/Manu/Off switch to be added to each pump (Standard on a CC box)