Technical specifications - Johnson Controls - LIT-1901223 - DXUB2F150C.111621 - VP3C2P20B.110601 - VP3C2P20B.110621 - VP3C2P20B.111601 - VP3C2P20B.111621 - VP3MB2D020C.111721 - VP3MB2D025C.111721 - VP3MB2D032C.111721 - VP3MB2D040C.111721 - VP3MB2D050C.111721 - VP3N6C15B.120601 - VP3N6C15B.120621 - VP3N6C15B.121601 - VP3N6C15B.121621 - VP3N6P25B.120601 - VP3N6P25B.120621 - VP3N6P25B.121601 - VP3N6P25B.121621 - VP3UB2F065C.111621 - VP3UB2F080C.111621 - VP3UB2F100C.111621 - Pressure independent control valve - Valves and actuators - VP3C2P20B.111601 Electronic Pressure-Independent Control Valve - VP3C2P20B.111621 Electronic Pressure-Independent Control Valve - VP3MB2D015C.111721 Electronic Pressure-Independent Control Valve - VP3MB2D020C.111721 Electronic Pressure-Independent Control Valve - VP3MB2D025C.111721 Electronic Pressure-Independent Control Valve - VP3MB2D032C.111721 Electronic Pressure-Independent Control Valve - VP3MB2D040C.111721 Electronic Pressure-Independent Control Valve - VP3MB2D050C.111721 Electronic Pressure-Independent Control Valve - VP3N6C15B.121001 Electronic Pressure-Independent Control Valve - VP3N6C15B.121601 Electronic Pressure-Independent Control Valve - VP3N6C25B.121001 Electronic Pressure-Independent Control Valve - VP3N6C25B.121601 Electronic Pressure-Independent Control Valve - VP3UB2F065C.111621 Electronic Pressure-Independent Control Valve - VP3UB2F080C.111621 Electronic Pressure-Independent Control Valve - VP3UB2F100C.111621 Electronic Pressure-Independent Control Valve - VP3UB2F150C.111621 Electronic Pressure-Independent Control Valve

VP3000 Series Electronic Pressure-Independent Control Valves Catalog Page

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Valves and Actuators > Pressure Independent Control Valves > VP3UB2F080C.111621 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3MB2D015C.111721 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3MB2D032C.111721 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3N6C15B.121001 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3N6C25B.121001 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3MB2D020C.111721 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3N6C15B.121601 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3C2P20B.111601 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3UB2F100C.111621 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3UB2F150C.111621 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3MB2D040C.111721 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3N6C25B.121601 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3UB2F065C.111621 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3C2P20B.111621 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3MB2D025C.111721 Electronic Pressure-Independent Control Valve
Valves and Actuators > Pressure Independent Control Valves > VP3MB2D050C.111721 Electronic Pressure-Independent Control Valve
Document type
Catalog Page
Document number
LIT-1901223
Revision date
2024-05-03
Product status
Active
Table 1. VP3C2P20B electronic PICVs technical specifications
Specification Description
Electrical Supply voltage, UV

24 VAC (±20%), 50Hz

24 VDC (±10%)

Consumption 3 W
Sizing 5 W / 5 VA (220 mA)
Input signal, Y1 0 VDC to 10 VDC (0.17 mA)
Optional sensor input, Y2 0 VDC to 10 VDC (0.17 mA)
Feedback signal, X1 0 VDC to 10 VDC (≤ 2 mA) actual flow rate, scaled according to the maximum heating or cooling flow rate
Connection 1 m PVC cable, four 0.5 mm2 or seven 0.5 mm2
Flow rate measurement Sensor type Ultrasonic TTM, no moving parts
Unit of measurement m3/h, l/s, l/min, gpm (UK), gpm (US)
Temperature measurement Sensor type Pt500 or Pt1000, in accordance with EN 60751
ΔT measurement Paired sensors
Hydraulic Nominal pressure PN16 (16 bar)
Control characteristic Equal percentage or linear
Differential pressure

Δp Minumum: no minimum differential pressure required

Δps Maximum: 1.5 bar (150 kPa)

Maximum flow rate set point, Vmax Separate heating and cooling setting
Flow rate setpoint control Analog control signal (Y1), through bus communication, or through optional Bluetooth communication and VP3Link app
KVS value 2.4 m/h3
Medium Water (without glycol)
Medium quality In accordance with VDI 2035
Medium temperature 5°C to 90°C
Connection G 3/4 in. flat coupling, in accordance with ISO 228-1
Startup time 3 to 5 minutes after power on
Position in currentless state Normally closed
Material Housing ABS
Parts in contact with water Bronze, brass, ethylene propylene diene monomer (EPDM), composite stainless steel (1.4401 and 1.4301)
Surroundings Temperature

Operation: 10°C to 45°C

Storage: -20°C to 50°C

IP rating IP54
Humidity Maximum 90% RH, non-condensing
Maintenance / calibration No maintenance or calibration required
Note: CW617N brass construction is standard. You can order CW602N brass on request.
Table 2. VP3N6xxxB electronic PICVs technical specifications
Specification Description
Electrical Supply voltage, UV

24 VAC (±10%), 50Hz

24 VDC (±10%)

Consumption

Operation: 3.5 W (4.5 VA)

Standby: 1.5 W

Input signal, Y1

0 VDC to 10 VDC (0.17 mA), split range

0.5 VDC to 4.5 VDC, heating: maximum flow rate heating to 0%

5.5 VDC to 9.5 VDC, cooling: 0% to maximum flow rate cooling

Feedback signal, X1 0 VDC to 10 VDC (≤ 2 mA) actual flow rate, scaled according to the maximum heating or cooling flow rate
Connection 1 m PVC cable, seven 0.5 mm2 or four 0.5 mm2
Modbus / BACnet connection 1 m PVC cable, four 0.14 mm2
Flow rate measurement Sensor type Ultrasonic TTM, no moving parts
Unit of measurement m3/h, l/s, l/min, gpm (UK), gpm (US)
Hydraulic Nominal pressure PN16 (16 bar)
Control characteristic Equal percentage or linear
Changeover Heating or cooling through Y1 or bus
Valve seat leakage In accordance with EN12266-1: A (air-tight)
Differential pressure

Δp Minimum: no minimum differential pressure required

Δps Maximum: 2 bar (200 kPa)

Rated flow rate, Vnom 1,400 l/h (DN15) to 2,500 l/h (DN25)
Flow rate setpoint, Vmax Separate setting design flow Vmax heating and Vmax cooling: 5% to 100% of Vnom
Flow rate setpoint control Analog control signal (Y1), through bus communication, or through optional Bluetooth communication and VP3Link app
Medium Water (without glycol)
Medium quality In accordance with VDI 2035
Medium temperature 5°C to 90°C
Startup time 3 to 5 minutes after power on
Fixture Heart distance

VP3N6C15B: 40 mm

VP3N6P15B: 45 mm

VP3N6P25B: 60 mm

DN size

VP3N6C15B, VP3N6P15B: DN15

VP3N6P25B: DN25

Kvs value

VP3N6C15B, VP3N6P15B: 1.4 m/h3

VP3N6P25B: 2.5 m/h3

Flat couplings, ISO 228-1

VP3N6C15B, VP3N6P15B: Five G 1/2 in. and one G 3/4 in.

VP3N6P25B: Six G 1 in.

Drive Torque Minimum 8 N•m at rated voltage
Noise level during operation <30 db(A)
Manual Drive unlock with an external switch
Material Housing ABS, PC
Parts in contact with water CW617N brass, EPDM, PPSU, composite stainless steel (1.4401, 1.4301)
Surroundings Temperature

Operation: 10°C to 45°C

Storage: -20°C to 50°C

IP rating IP54 (drive IP43)
Humidity Maximum 90% RH, non-condensing
Maintenance / calibration No maintenance or calibration required
Height <2,000 m
Table 3. VP3MB2DxxxC electronic PICVs technical specifications
Specification Description
Electrical Supply voltage, UV

24 VAC (±10%), 50Hz

24 VDC (±10%)

Consumption

Operation: 3 W (4 VA)

Standby: 1.5 W (2 VA)

Input signal, Y1 0 VDC to 10 VDC (0.17 mA)
Feedback signal, X1 0 VDC to 10 VDC (≤ 2 mA) actual flow rate, scaled according to the maximum heating or cooling flow rate
Connection 1 m PVC cable, four 0.5 mm2
Modbus / BACnet connection 1 m PVC cable, one or two 0.22 mm2 (STP)
Flow rate measurement Sensor type Ultrasonic TTM, no moving parts
Flow sensor class In accordance with MID 2014/32/EU, EN1434-4:2007
Unit of measurement m3/h, l/s, l/min, gpm (UK), gpm (US)
Temperature measurement Sensor type Pt500 or Pt1000, in accordance with EN 60751
ΔT measurement In accordance with MID 2014/32/EU, EN1434-4:2007
Hydronic Construction Two-way
Nominal pressure PN16 (16 bar)
Control characteristic Equal percentage or linear
Valve seat leakage 0.001% of KVS value
Differential pressure No minimum differential pressure required
Maximum closeoff pressure 240 kPa
Flow rate setpoint control Analog control signal (Y1), through bus communication, or through optional Bluetooth communication and VP3Link app
KVS value 2.4 m/h3
Medium Water (without glycol)
Medium quality In accordance with VDI 2035
Medium temperature 2°C to 100°C
Connection

Inlet: Flat connection, female tail piece, in accordance with ISO 7-1

Outlet: Female, in accordance with ISO 7-1 (Rp)

Startup time 3 to 5 minutes after power on
Position in currentless state Last position
Material Housing Polypropylene, steel
Parts in contact with water Bronze, brass CW602N, ethylene propylene diene monomer (EPDM), stainless steel (1.4122, 1.4401 and 1.4301), thermoplastics, ceramic materials
Surroundings Temperature

Operation: 10°C to 45°C

Storage: -20°C to 50°C

IP rating IP54
Humidity Maximum 90% RH, non-condensing
Mechanical environment M1 (fixed installation with minimum vibrations)
Maintenance / calibration No maintenance or calibration required
Note: DN15 VP3MB2DxxxC PICVs are made with standard CW617N brass.
Table 4. VP3UB2FxxxC electronic PICVs technical specifications
Specification Description
Electrical Supply voltage, UV

24 VAC (±20%), 50Hz

24 VDC (±20%)

Consumption

Operation: 3.5 W (5 VA)

Standby: 2 W

Input signal, Y1 0 VDC to 10 VDC (0.17 mA)
Feedback signal, X1 0 VDC to 10 VDC (≤ 2 mA) actual flow rate, scaled according to the maximum heating or cooling flow rate
Connection 1 m PVC cable, seven 0.5 mm2
Flow rate measurement Sensor type Ultrasonic TTM, no moving parts
Flow sensor class In accordance with MID 2014/32/EU, EN1434-4:2007
Unit of measurement m3/h, l/s, l/min, gpm (UK), gpm (US)
Temperature measurement Sensor type Pt500 or Pt1000, in accordance with EN 60751
ΔT measurement In accordance with MID 2014/32/EU, EN1434-4:2007
Hydronics Construction Two-way
Nominal pressure PN16 (16 bar)
Control characteristic Equal percentage or linear
Valve seat leakage

Control port: 0.01% of KVS value

Bypass: 1% of KVS value

Differential pressure

Minimum: no minimum differential pressure required

Maximum: 200 kPa

Maximum closeoff pressure 240 kPa
Flow rate setpoint control Analog control signal (Y1), through bus communication, or through Bluetooth communication and VP3Link app
Medium Water (without glycol)
Medium quality In accordance with VDI 2035
Medium temperature 2°C to 100°C
Connection PN16 flanges in accordance with EN 1092-2, Type 21 and Type 16
Startup time 3 to 5 minutes after power on
Material Housing Polypropylene, steel
Parts in contact with water Brass, bronze, EPDM seal, stainless steel (1.4401, 1.4122, 1.4301), thermoplastics, PTFE, ceramic materials, AS-1145HS
Surroundings Temperature

Operation: 10°C to 45°C

Storage: -20°C to 50°C

IP rating IP54
Humidity Maximum 90% RH, non-condensing
Mechanical environment M1 (fixed installation with minimum vibrations)
Maintenance / calibration No maintenance or calibration required
Height <2,000 m