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Product information
Stratos GIGA2.0-I 40/1-31/2,2
High-efficiency in-line pump with EC motor of energy efficiency class IE5 in accordance with IEC 60034-30-2, hydraulics with minimum efficiency index MEI ≥ 0.7 and electronic power adjustment in glanded pump construction. The pump is configured as a single-stage low-pressure centrifugal pump with flange connection and mechanical seal. The Stratos GIGA2.0-I has been predominantly designed for pumping heating water (acc. to VDI 2035), cold water and water-glycol mixtures without abrasive substances in heating, air-conditioning and cooling systems.
Design
- Single-stage low-pressure centrifugal pump with one-piece shaft in monobloc design
- Spiral housing in in-line design (suction and pressure ports with the same flanges in a line)
- PN 16 flange – drilled according to EN 1092-2
- Pressure measuring connections (R 1/8) for mounted differential pressure sensor (version ...-R1 without differential pressure sensor)
- Pump housing and motor flange with cataphoretic coating as standard
- Mechanical seal for pumping water up to Tmax. = +140 °C. A glycol admixture of 20 % to +40 % by volume is permitted up to T ≤ +40 °C. An alternative mechanical seal must be provided in water-glycol mixtures with glycol proportions > 40 % up to maximum 50 % by volume and a fluid temperature of > +40 °C up to maximum +120 °C or fluids other than water.
- Connection voltages: 3~440 V ±10 % 50/60 Hz; 3~400 V ±10 % 50/60 Hz; 3~380 V ±10 % 50/60 Hz
- Permanent, automatic performance adaptation to system requirements without setpoint specification Wilo Dynamic Adapt plus (factory setting).
- Constant temperature (T-const.)
- Constant differential temperature (dT-const.)
- Needs-based volume flow optimisation of the feeder pump through connectivity and communication between multiple secondary pumps (Multi-Flow Adaptation).
- Constant volume flow (Q-const.)
- Variable differential pressure (dp-v) with the option to set the nominal duty point Q and H
- Constant differential pressure (dp-c)
- Differential pressure control (dp-c) to a remote point in the pipe network (index circuit evaluator)
- Constant speed (n-const.)
- User-defined PID control
- Heat quantity measurement
- Cooling quantity measurement
- Adjustable volume flow limiter using the Q-Limit function (Qmin. and Qmax.)
- Operating modes of twin-head pump: Main/standby operation, efficiency-optimised parallel operation for dp-c and dp-v
- Pump automatically deactivates when no flow is detected (No-Flow Stop)
- Switchover between heating and cooling mode (automatic, external or manual)
- Ability to save and restore configured pump settings (3 restoration points)
- Fault and warning messages shown in plain text with advice on resolving the issue
- Integrated full motor protection
- Control mode currently set
- Current setpoint
- Current volume flow (only if a differential pressure sensor is connected)
- Current fluid temperature (only if temperature sensor is connected)
- Current power consumption
- Cumulative electric consumption
- 4 configurable analogue inputs: 0 – 10 V, 2–10 V, 0 – 20 mA, 4 – 20 mA and commercially available PT1000 (only on two analogue inputs); +24 V DC power supply
- 2 configurable digital inputs (Ext. OFF, Ext. Min, Ext. Max, heating/cooling, manual override (uncoupled from building automation), operation lock (key lock and remote operation configuration protection))
- 2 configurable signal relays for run signals and fault messages
- Slot for Wilo-CIF modules with interfaces for building automation (BA) (optional accessories: CIF modules Modbus RTU, BACnet MS/TP, LON, PLR, CAN)
- Wilo Net as a Wilo system bus for communication between Wilo products, e.g. Multi-Flow Adaptation; twin-head pump operation and Wilo-Smart Gateway
- Automatic emergency operation with definable pump speed for exceptional circumstances, e.g. bus communication or sensor value malfunction
- Rotatable, graphic colour display (4.3 inches) with one button manual operation level
- Bluetooth interface via Wilo-Smart Connect module BT
- Use the Wilo-Assistant app to read and set operating data and –among other things– set up a commissioning protocol through the Bluetooth interface
- Integrated dual pump management (twin-head pumps are prewired) when using 2 single pumps as twin-head pump unit (connection via Wilo Net)
- Cable break detection when using an analogue signal (in connection with 2 – 10 V or 4 – 20 mA)
- Time stamp for error/warnings and historical operating data
- Continuous operating data memory
- Standard condensate drainage holes in the motor housing (closed upon delivery)
- Air vent valve on the lantern
- Pump
- Wilo-Smart Connect module BT
- Threaded cable glands with sealing inserts
- Installation instructions (short summary) and declaration of conformity
- 3 mounting brackets with fixation material for installation on a base
- Blind flanges for twin-head pump housing
- Installation aid for mechanical seal (incl. mounting bolts)
- CIF module PLR
- CIF module LON
- CIF module BACnet MS/TP
- Modbus RTU CIF module
- CIF module CANopen
- CIF module Ethernet Multi-protocol (Modbus TCP, BACnet/IP)
- Differential pressure sensor DDG 2 – 10 V
- Temperature sensor PT1000 AA
- Sensor sleeves for the installation of temperature sensors in the pipe
- Made of steel.
- Counter flanges (weld) are delivered complete (in pairs) with bolt, nut and flange gasket.
- Thickness: 2 mm.
- Inner diameter: 49 mm.
- Outer diameter: 85 mm.
Connection to Stratos Maxo to detect the fluid temperature in the case of temperature-dependent pump control or to detect heating/cooling quantities.
- Sensor Pt 1000 Class AA, ø6 x 40 mm
- Cable length: 3 m
- Measurement range: -5 °C to 70 °C, briefly up to 90 °C
Connection to Stratos Maxo-Z to detect the hot water outlet temperature on the reservoir to detect the thermal disinfection.
- Sensor Pt 1000 Class B, ø8.5 x 35 mm
- Cable length 5 m
- Measurement range -5 °C to 70 °C, briefly up to 90 °C.
For admission of the immersion sensor Pt 1000 AA for connection to Stratos MAXO.
- Thread: G 1/2
- Inner Ø 6.4 mm for sensor to ø6 mm
- Length of engagement 45 mm for installation in thread T-connector for use with pipes from DN 25 to approx. DN 50
General functions
Serial, digital interface for connection to building automation (BA) for the transfer of data points as:
- Control commands to the pump
- Messages from the pump
- Process values
General functions
Serial, digital interface for connection to building automation (BA) for the transfer of data points as:
- Control commands to the pump
- Messages from the pump
- Process values
General functions:
Serial, digital interface for connection to building automation (BA) for the transfer of data points as:
- Control commands to the pump
- Messages from the pump
- Process values
General functions:
Serial, digital interface for connection to building automation (BA) for the transfer of data points as:
- Control commands to the pump
- Messages from the pump
- Process values
General functions:
Serial, digital interface for connection to building automation (BA) for the transfer of data points as:
- Control commands to the pump
- Messages from the pump
- Process values
Enables remote monitoring and control of connected products using the Wilo-Smart connect function in the Wilo Assistant app.
General functions
Serial, digital interface for connection to building automation (BA) for the transfer of data points as:
- Control commands to the pump
- Messages from the pump
- Process values
General functions:
Serial, digital interface for connection to building automation (BA) for the transfer of data points as:
- Control commands to the pump
- Messages from the pump
- Process values
Temperature sensor intended for Stratos MAXO -R7 and Stratos MAXO-D -R7 (threaded pumps).
Features:
- Operation via control mode T-const. and ΔT const.
- Night setback
- Measurement of heating and cooling energy
- Automatic switching between heating / cooling
The sensor measures the differential pressure between the suction ports and discharge ports to the pipes, and converts this into an electrical signal 4-20 mA, which is used by the frequency converter to regulate the pressure of the pump. The value of the output current is proportional to the differential pressure.
The sensor measures the differential pressure between the suction ports and discharge ports to the pipes, and converts this into an electrical signal 4-20 mA, which is used by the frequency converter to regulate the pressure of the pump. The value of the output current is proportional to the differential pressure.