–The correct and maximum design flow ensures a high differential in supply and return temperatures to provide high operational efficiency of the chiller or boiler. • Improved Comfort –The SpaceLogic PIBCV valves are not affected by other valves in the system that may be opening and closing throughout the day or other piping system disturbances providing more constant, comfortable, room temperatures. • Reduced Pumping Costs –A reduction in overflows through the network reduces pumping costs. A smaller pump head and equipment is required compared to traditional configurations. • Reduced Installation Costs –Only one valve needs to be installed rather than two or three since the SpaceLogic PIBCV covers the pressure balancing, flow limitation and control modulation. • Easy and Quick Commissioning – SpaceLogic PIBCV setup time is significantly reduced with a simple and accurate flow setting procedure without the need for flow charts, calculations or measuring equipment. • Improved Reliability –Improved mechanical equipment reliability from reduced actuator movements. Product Description The SpaceLogic PIBCV range is a comprehensive selection of automatic balancing and control valves that provide flow limitation, with full control authority over hydronic regulation. Automatic balancing within PIBCV valves provide stable flow regulation regardless of pressure fluctuations in the system and all valves have an adjustable flow limitation set point. The control valve portion of the PIBCV further regulates the water/ glycol flow from close-off up to the maximum flow limit setting. Typical applications are temperature control of chillers, air- handling units, heat exchanges and terminal units such as fan coils, induction units and radiant panels. Features • Reduced Energy Consumption –Pressure independence ensures no overflow of water/ glycol through the valve. Limiting water/glycol flow to the design load of the coil has a significant effect on energy efficiency since systems operate for the majority of the time on a partial load. –The overflow of water/glycol causes a degradation in heat transfer at the heat exchanger. Uncontrolled overflow of water/glycol beyond the design flow of the heat exchanger is an extremely wasteful and inefficient use of heat. © 2020 Schneider Electric. All rights reserved. All trademarks are owned by Schneider Electric Industries SAS or its affiliated companies. November, 2020 tc Document Number: F-27947-10 www.schneider-electric.com schneider-electric.com | 1 Selection Guide SpaceLogic PIBCV ½" … 10" Pressure Independent Balancing and Control Valve AssembliesContents 2 SpaceLogic PIBCV Summary 2 Applications 3 Theory 3 Control Performance 3 Easy Implementation 3 Valve Assembly Part Number System 3 Flow Direction 4 SpaceLogic PIBCV Selection Options 4 1: Complete Method: Valve Assembly Selection 4 2. Custom Method: Valve Body and Actuator Field Assembly 4 3. Valve Body Only: Automatic Flow Limited Balance Example 5 PIBCV Flow Setting 5 ½…1¼" Size Valves 5 PIBCV Flow Setting 5"…10" 5 PIBCV Flow Setting 1½"…4" 6 Valve Assembly and Suitable Actuators 6 Table 1. Valve Assemblies ½…1¼” With Female NPT End Connectors, Without PT Ports 7 Table 2. Valve Assemblies ½…1¼” With Female NPT End Connectors, With PT Ports 7 Table 3. Specification ½…1¼” Valve Body Actuators 8 Table 4. Valve Assemblies 1½”, 2” With Female NPT End Connectors, With PT Ports 8 Table 5. Valve Assemblies 2½"…4” with ANSI Standard B16.1 Flanges, With PT Ports 9 Table 6. Specification 1½”…4” Valve Body Actuators 9 Table 7. Valve Assemblies 5”…6” With PT Ports with ANSI Standard B16.1 Flanges 9 Table 8. Specification 5”…6” Valve Body Actuators 10 Table 9. Valve Assembly 8”…10” With PT Ports 10 Table 10. Specification 8”, 10” Valve Body Actuators 10 Table 11. Application: Operation of PIBCV Valve Body Without Actuator 11 Technical Data 11 Table 12. Specification Threaded Version, ½…2" 12 Table 13. Specification Flange Version, 2½"…4" 12 Table 14. Specification Flange Version, 5"…10" 13 Table 15. Assembly Valve Body Configurations 14 Table 16. Selection: Valve Actuator Codes 14 Table 17. Selection: ½"…2" Valve Body Tail Pieces 15 Dimensions 15 Threaded Valves 1½"…2" (inches) 15 Table 18. Threaded Valves ½ to 1¼" (inches) 15 Table 19. Threaded Valves 1½"…2" (inches) 16 Flanged Valves 5" and 6" 16 Table 20. Flanged Valves 2½"…4" (inches) 16 Table 21. Flanged Valves 5" and 6" (inches) 17 Flanged Valves 8" and 10" 17 Table 22a. Flanged Valves 8" and 10" (inches) 17 Table 22b. Valve Flange Adapters 8" and 10" 18 Table 23. ½…2” Valve Flow Ranges (Q min to Q nom ) 19 Table 24. 2½”…10” Flanged Valve Flow Ranges (Q min to Q nom ) 19 Specification Submittal Text SpaceLogic PIBCV Summary SpaceLogic PIBCV valves and Actuators can be used with actuators for pressure independent balancing and control applications or without actuators for automatic flow limiting bal- ance applications. PIBCVs immediately react to all changes in system pressures, providing stable valve control independent from the fluctuating pressures in the piping system. No valve authority, pressure calculations or complicated valve flow setting calculations are required. At partial system load there is no resulting overflow because the valve always limits the flow corresponding to the design flow of the coil. SpaceLogic PIBCV valves with actuators include an integrated control valve with flow regulation for HVAC applications, plus an automatic flow limiting function for energy efficiency. A full range of Schneider Electric actuators are available for every control application including two position, proportional, floating, spring return open, spring return close, and non-spring return. Applications Variable flow systems: A SpaceLogic PIBCV with a Schneider Electric actuator is used as a control valve for terminal units, like an AHU (Air Handling Unit), FCU (Fan Coil Unit) or radiation panel, and controls the required flow on every terminal unit maintaining hydronic balance in the system. Constant flow systems: There are numerous applications in which SpaceLogic PIBCV can be used. In a constant flow system with FCUs or in a one pipe heating system, SpaceLogic PIBCVs can be installed as an automatic balancing valve in every riser. SpaceLogic PIBCVs limit the flow to the set value, thus automatically achieving hydronic balance. Whenever an automatic flow limiter or a control valve is needed, the advantages of cost-saving properties are inherent with SpaceLogic PIBCVs. This includes systems with (floor) heating/ cooling, concrete core activation or radiation panels. Air handling unit (AHU) Radiation panel 2 | schneider-electric.comSelection Guide November, 2020 tc © 2020 Schneider Electric. All rights reserved. All trademarks are owned by Schneider Electric Industries SAS or its affiliated companies. Document Number: F-27947-10Control Performance SpaceLogic PIBCV actuators can be used to change the flow response from linear to logarithmic (equal percentage). This makes the SpaceLogic PIBCV suitable for all applications, including AHUs, where the equal percentage characteristic is needed to get a stable control loop. The actuators can be switched from linear to equal percentage by changing a dipswitch setting. Easy Implementation • No Cv or authority calculations needed. Flow is the only parameter to be considered when designing. • Compact design, essential when only limited space is available such as in fan-coil units. • Easy commissioning and troubleshooting. No specialized staff or measuring equipment needed. • Trouble-free segmentation of the building project. SpaceLogic PIBCVs will automatically control the flow, even when sections of the installation are unfinished. There is no requirement to re-adjust the SpaceLogic PIBCV flow setting after finalization of the building project. V P 2 2 8 E - 1 5 L N - L 1 0 - F 1 0 1 Valve Pressure Independent 2 Way 2 = Linear Flow Curve *8 = M30 Short Stroke 9 = M30 Long Stroke 0 = U Bolt Medium Stroke 1 = Long Stroke 2 = Long Stroke E = External Threads A = ANSI Flanges Actuator Code Actuator Input Signal A = On/Off (Two Position) B = BACnet F = Floating S = Proportional U = Universal (Proprtional & Floating) Flow Rate in GPM L = Flow Rate Less Than 10 GPM (Divide Number by 10) No L = Actual Flow Rate in GPM N = Does not have PT Ports No N = Does have PT Ports Body Flow Rate* L = Low Flow S = Standard Flow H = High Flow Orifice Size (mm) Valve Assembly Part Number System L I N s e t t i n g s t a y s c o n s t a n t a t a n y a v a i l a b l e p r e s s u r e L O G s e t t i n g s t a y s c o n s t a n t a t a n y a v a i l a b l e p r e s s u r e 0 10 V 0 100% For any given 100% setting Flow Direction A SpaceLogic PIBCV valve is mono-directional, meaning the valve operates when the arrow on the valve body is aligned with the flow direction. When this rule is ignored, the valve acts as a variable orifice that causes water/glycol hammer at sudden closing when available pressure has increased, or the valve has been set to a lower value. In the case when a system condition allows backflows, it is strongly recommended to use a backflow preventer in order to avoid possible water/glycol hammer that can damage the valve as well as other elements in the system. It is recommended to fit a strainer upstream of the valve to in- crease reliability and to follow water/glycol treatment guidelines as detailed in VDI 2035. The pipework system should be flushed prior to the operation. Theory The SpaceLogic PIBCV valve consists of two parts: 1. Differential Pressure Controller 2. Control Valve 1. Differential Pressure Controller (PC) The differential pressure controller maintains a constant differential pressure across the control valve. The pressure difference is balanced so that when the differential pressure across the control valve changes (due to a change in avail- able pressure, or movement of the control valve) the pressure regulator automatically aligns to a new position. This brings a new equilibrium and therefore keeps the differential pressure at a constant level. 2. Control Valve (CV) The control valve has a linear characteristic. It features a stroke limitation that allows adjustment of the value. The maximum flow allowed by the control valve can be adjustable to a per- centage of the valve's maximum flow rate. * Determined by valve size and flow; see tables 23 & 24 schneider-electric.com | 3 Selection Guide © 2020 Schneider Electric. All rights reserved. All trademarks are owned by Schneider Electric Industries SAS or its affiliated companies. November, 2020 tc Document Number: F-27947-10 SpaceLogic PIBCV Selection Options There are three methods for selecting SpaceLogic PIBCV valves and Actuators: 1: Complete Method: Valve Assembly Selection 2. Custom Method: Valve Body and Actuator Field Assembly 3. Valve Only Method: Automatic Flow Limited Balance 1: Complete Method: Valve Assembly Selection To select a PIBCV valve assembly select the required flow rate and actuator type. For example, to select a PIBCV valve assembly with a flow rate of 1.5 GPM and a non-spring return proportional actuator refer to Table 1. Valve Assemblies ½…1¼” With Female NPT End Connectors, Without PT Ports on page 6. Select the 1.5 GPM flow rate with the left column of the table. Select the actuator from the top row of the table. The intersecting valve assembly part number from the left column and top row selections shows VP228E-15SN-L15-S101 which includes the set 1.5 GPM flow rate, installed actuator, female NPT end connectors, and metal tag with flow rate. Specifications for the selected valve body actuators are in Table 3. Specification ½…1¼” Valve Body Actuators on page 7 and for the valve body in Table 12. Specification Threaded Version, ½…2" on page 11. 2. Custom Method: Valve Body and Actuator Field Assembly Select the individual parts then set the flow rate and field assemble a valve assembly. Table 12. Specification Threaded Version, ½…2" on page 11 shows the valve body specifications and Table 23. ½…2” Valve Flow Ranges (Q min to Qnom) on page 18, and Table 24. 2½”…10” Flanged Valve Flow Ranges (Q min to Q nom ) on page 19, show the valve body flow rate ranges. For example, to select a valve body that can be used in the flow rate range of 1 to 2 GPM, from Table 23. ½…2” Valve Flow Ranges (Q min to Q nom ) on page 18, select the VP-228E- 15BQSNT valve body that does not include PT ports, or select the VP-228E-15BSQ valve body if PT Ports are required. Other larger valves could also provide the 1 to 2 GPM flow rates, but the VP-228E-15BQSNT was selected because it will be using a higher percentage of its flow range (in general, best accuracy is achieved when a higher percentage of flow rate is used). The ½” to 2” PIBCV valves use convenient valve body tail pieces for connection to the piping system. From Table 17. Selection: ½"…2" Valve Body Tail Pieces on page 14, select the desired ½” tail piece – part number 9112108015 for Female NPT, 9112110015 for Male NPT, or 9112109015 for Sweat. Each tail piece part number includes two tail pieces. Table 3. Specification ½…1¼” Valve Body Actuators on page 7 shows the compatible actuators. Select the MP131-24T for two position control, the MP131-24F for floating control, the MP-131-24MP for proportional control, the MP300-SRU for spring return open universal control, or the MP300-SRD for spring return close universal control. Universal control actuators provide both proportional and floating input functionality. The valve body flow can easily be set before the actuator is installed as shown in the PIBCV Flow Setting on page 5. 3. Valve Body Only: Automatic Flow Limited Balance Example PIBCV valves can be used without actuators to limit the circuit flow to an adjustable flow rate. Table 12. Specification Threaded Version, ½…2" on page 11 shows the valve body specifications and Table 23. ½…2” Valve Flow Ranges (Q min to Q nom ) on page 18 and Table 24. 2½”…10” Flanged Valve Flow Ranges (Q min to Q nom ) on page 19 show the valve body flow rate ranges. For example, to select a valve body that can be used in the flow rate range of 2 to 5 GPM from Table 23 select the VP229E- 15BQHNT valve body part number. The ½” to 2” PIBCV valves use convenient valve body tail pieces for connection to the piping system. From Table 17. Selection: ½"…2" Valve Body Tail Pieces on page 14, select the desired ½” tail piece: part number 9112108015 for Female NPT, 9112110015 for Male NPT, or 9112109015 for Sweat. Each tail piece part number includes two tail pieces. The 1½" and larger sized valves require a stem lock when used without an actuator as shown in Table 11. Application: Operation of PIBCV Valve Body Without Actuator on page 10 (which also shows application information for the valve bodies without actuators). The valve body flow can easily be set as shown in the PIBCV Flow Setting Section. 4 | schneider-electric.comSelection Guide November, 2020 tc © 2020 Schneider Electric. All rights reserved. All trademarks are owned by Schneider Electric Industries SAS or its affiliated companies. Document Number: F-27947-102 4 3 1 PIBCV Flow Setting ½…1¼" Size Valves The calculated flow can be adjusted easily without using spe- cial tools. To change the presetting (factory setting is 100% for separately purchased PIBCV valve bodies) follow the four steps below: 1 Remove the black protective cover or the mounted actuator. 2 Raise the green pointer. 3 Turn (clock wise to decrease) to the new presetting. 4 Press the pointer back into the lock position. After the pointer is clicked back into place the presetting is locked. The presetting scale indicates values from 100% flow to 20%. Clock wise turning would decrease the flow value while counter clock wise would increase it. Example: VP229E-15HN With this ½" valve the nom flow = 5 gal/min = 100% presetting. To set a flow of 4 gal/min you have to set: 4/5 = 80%. Schneider Electric recommends a presetting/flow from 20% to 100%. To set a PIBCV valve to a Q high setting above 100%, turn the green pointer counter clock wise from 100%. The Q high setting is the scale setting plus 90%. For example, to set the VP229E- 15HN to a flow rate of 5.5 gal/min, set 5.5/5.0 = 110% setting. Obtain the 110% setting by turning the green pointer counter clock wise from 100% to 20% (20% and 90% = 110%). As shown on page 11, Q high settings above 100% slightly in- crease the valve’s required minimum differential pressure. PIBCV Flow Setting 1½"…4" Note: 1 turn = 10% Max 25Nm PIBCV Flow Setting 5"…10" Note: 1 turn = 5% + – Setting 60% + – schneider-electric.com | 5 Selection Guide © 2020 Schneider Electric. All rights reserved. All trademarks are owned by Schneider Electric Industries SAS or its affiliated companies. November, 2020 tc Document Number: F-27947-10 Valve Assembly and Suitable Actuators Table 1. Valve Assemblies ½…1¼” With Female NPT End Connectors, Without PT Ports Flow Rate (GPM) a Valve Size (inch) 24 Vac Two Position with Auxiliary Switch (MP131-24T) 24 Vac Three Wire Floating with Auxiliary Switch (MP131-24F) 24 Vac Proportional with Position Output Signal (MP131-24MP) 24 Vac Proportional/Floating with Position Output Signal Spring Return Open (MP300-SRU) 24 Vac Proportional/Floating with Position Output Spring Return Closed (MP300-SRD) 0.5 1/2VP228E-10LN-L05-A101VP228E-10LN-L05-F101VP228E-10LN-L05-S101VP228E-10LN-L05-U201VP228E-10LN-L05-U301 1.01/2VP228E-15LN-L10-A101VP228E-15LN-L10-F101VP228E-15LN-L10-S101VP228E-15LN-L10-U201VP228E-15LN-L10-U301 1.51/2VP228E-15SN-L15-A101VP228E-15SN-L15-F101VP228E-15SN-L15-S101VP228E-15SN-L15-U201VP228E-15SN-L15-U301 2.01/2VP228E-15SN-L20-A101VP228E-15SN-L20-F101VP228E-15SN-L20-S101VP228E-15SN-L20-U201VP228E-15SN-L20-U301 2.51/2VP229E-15HN-L25-A101VP229E-15HN-L25-F101VP229E-15HN-L25-S101VP229E-15HN-L25-U201VP229E-15HN-L25-U301 3.01/2VP229E-15HN-L30-A101VP229E-15HN-L30-F101VP229E-15HN-L30-S101VP229E-15HN-L30-U201VP229E-15HN-L30-U301 3.51/2VP229E-15HN-L35-A101VP229E-15HN-L35-F101VP229E-15HN-L35-S101VP229E-15HN-L35-U201VP229E-15HN-L35-U301 4.01/2VP229E-15HN-L40-A101VP229E-15HN-L40-F101VP229E-15HN-L40-S101VP229E-15HN-L40-U201VP229E-15HN-L40-U301 4.03/4VP228E-20SN-L40-A101VP228E-20SN-L40-F101VP228E-20SN-L40-S101VP228E-20SN-L40-U201VP228E-20SN-L40-U301 4.51/2VP229E-15HN-L45-A101VP229E-15HN-L45-F101VP229E-15HN-L45-S101VP229E-15HN-L45-U201VP229E-15HN-L45-U301 5.01/2VP229E-15HN-L50-A101VP229E-15HN-L50-F101VP229E-15HN-L50-S101VP229E-15HN-L50-U201VP229E-15HN-L50-U301 5.53/4VP229E-20HN-L55-A101VP229E-20HN-L55-F101VP229E-20HN-L55-S101VP229E-20HN-L55-U201VP229E-20HN-L55-U301 6.03/4VP229E-20HN-L60-A101VP229E-20HN-L60-F101VP229E-20HN-L60-S101VP229E-20HN-L60-U201VP229E-20HN-L60-U301 6.53/4VP229E-20HN-L65-A101VP229E-20HN-L65-F101VP229E-20HN-L65-S101VP229E-20HN-L65-U201VP229E-20HN-L65-U301 7.03/4VP229E-20HN-L70-A101VP229E-20HN-L70-F101VP229E-20HN-L70-S101VP229E-20HN-L70-U201VP229E-20HN-L70-U301 7.53/4VP229E-20HN-L75-A101VP229E-20HN-L75-F101VP229E-20HN-L75-S101VP229E-20HN-L75-U201VP229E-20HN-L75-U301 7.51VP229E-25SN-L75-A101VP229E-25SN-L75-F101VP229E-25SN-L75-S101VP229E-25SN-L75-U201VP229E-25SN-L75-U301 81VP229E-25HN-L80-A101VP229E-25HN-L80-F101VP229E-25HN-L80-S101VP229E-25HN-L80-U201VP229E-25HN-L80-U301 8.51VP229E-25HN-L85-A101VP229E-25HN-L85-F101VP229E-25HN-L85-S101VP229E-25HN-L85-U201VP229E-25HN-L85-U301 9.01VP229E-25HN-L90-A101VP229E-25HN-L90-F101VP229E-25HN-L90-S101VP229E-25HN-L90-U201VP229E-25HN-L90-U301 9.51VP229E-25HN-L95-A101VP229E-25HN-L95-F101VP229E-25HN-L95-S101VP229E-25HN-L95-U201VP229E-25HN-L95-U301 101VP229E-25HN-010-A101VP229E-25HN-010-F101VP229E-25HN-010-S101VP229E-25HN-010-U201VP229E-25HN-010-U301 111VP229E-25HN-011-A101VP229E-25HN-011-F101VP229E-25HN-011-S101VP229E-25HN-011-U201VP229E-25HN-011-U301 121VP229E-25HN-012-A101VP229E-25HN-012-F101VP229E-25HN-012-S101VP229E-25HN-012-U201VP229E-25HN-012-U301 131¼VP229E-32SN-013-A101VP229E-32SN-013-F101VP229E-32SN-013-S101VP229E-32SN-013-U201VP229E-32SN-013-U301 141¼VP229E-32SN-014-A101VP229E-32SN-014-F101VP229E-32SN-014-S101VP229E-32SN-014-U201VP229E-32SN-014-U301 151¼VP229E-32HN-015-A101VP229E-32HN-015-F101VP229E-32HN-015-S101VP229E-32HN-015-U201VP229E-32HN-015-U301 161¼VP229E-32HN-016-A101VP229E-32HN-016-F101VP229E-32HN-016-S101VP229E-32HN-016-U201VP229E-32HN-016-U301 171¼VP229E-32HN-017-A101VP229E-32HN-017-F101VP229E-32HN-017-S101VP229E-32HN-017-U201VP229E-32HN-017-U301 a. Factory set. Complete flow ranges shown in tables for 1/2…2" on page 11 and page 18. 6 | schneider-electric.comSelection Guide November, 2020 tc © 2020 Schneider Electric. All rights reserved. All trademarks are owned by Schneider Electric Industries SAS or its affiliated companies. Document Number: F-27947-10Flow Rate (GPM) a Valve Size (inch) 24 Vac Two Position with Auxiliary Switch (MP131-24T) 24 Vac Three Wire Floating with Auxiliary Switch (MP131-24F) 24 Vac Proportional with Position Output Signal (MP131-24MP) 24 Vac Proportional/Floating Spring Return Open (MP300-SRU) 24 Vac Proportional/Floating Spring Return Closed (MP300-SRD) 0.5 1/2VP228E-10L-L05-A101VP228E-10L-L05-F101VP228E-10L-L05-S101VP228E-10L-L05-U201VP228E-10L-L05-U301 1.01/2VP228E-15L-L10-A101VP228E-15L-L10-F101VP228E-15L-L10-S101VP228E-15L-L10-U201VP228E-15L-L10-U301 1.51/2VP228E-15S-L15-A101VP228E-15S-L15-F101VP228E-15S-L15-S101VP228E-15S-L15-U201VP228E-15S-L15-U301 2.01/2VP228E-15S-L20-A101VP228E-15S-L20-F101VP228E-15S-L20-S101VP228E-15S-L20-U201VP228E-15S-L20-U301 4.03/4VP228E-20S-L40-A101VP228E-20S-L40-F101VP228E-20S-L40-S101VP228E-20S-L40-U201VP228E-20S-L40-U301 7.51VP229E-25S-L75-A101VP229E-25S-L75-F101VP229E-25S-L75-S101VP229E-25S-L75-U201VP229E-25S-L75-U301 141¼VP229E-32S-014-A101VP229E-32S-014-F101VP229E-32S-014-S101VP229E-32S-014-U201VP229E-32S-014-U301 Table 3. Specification ½…1¼” Valve Body Actuators 1/2” to 1¼” Valve Body Actuator Part Number (actuator code) MP131-24T (A101) MP131-24F (F101) MP131-24MP (S101) MP300-SRU (U201) MP300-SRD (U301) Input Signal Two Position, 3 Wire with selectable input jumper signal action selection Three Wire Floating Proportional, 0…10 Vdc, 2…10 Vdc, 4…20 mA, sequencing with selectable input signal ac- tion, DIP switch selectable Proportional, 0…10 Vdc, 2…10 Vdc, 4…20 mA, sequencing with selectable input signal action and Floating, DIP switch selectable Electrical ConnectionScrew terminal with conduit connector Position Feedback Output Signal ––0…10 Vdc0…10 Vdc, 2…10 Vdc Spring Return–––Open ValveClose Valve Auxilary SwitchYesYes––– Other Features–– Weekly anti blocking selection, auto calibration, LED indication Valve stroke length selection, LED indication Linear/Equal% Valve Flow Curve Selection – –YesYes Actuator Speed s/mm 60 Hz (50 Hz) 20 (24)11.7 (14) Power Consumption1 VA1.5 VA9 VA Actuator Weight (lb.).92.01.3 Operating Temperature Limits °F (°C) 32…131 (0…55) Regulatory CompliancecULus according to UL 60730-1A/-2-14 and CAN/CSA E60730-1/-2-14 and CE according to EN 60730-1/-2-14 per EMC [2014/30/EU] and LVD [2014/35/EU] Specification Data SheetF-27961F-27962 Installation Data sheetF-27938F-27949F-27948F-27954 All actuators are 24 Vac. 50/60 HZ with removable conduit connector plate and wiring terminal block, manual override Table 2. Valve Assemblies ½…1¼” With Female NPT End Connectors, With PT Ports a. Factory set. Complete flow ranges shown in tables for 1/2…2" on page 11 and page 18. schneider-electric.com | 7 Selection Guide © 2020 Schneider Electric. All rights reserved. All trademarks are owned by Schneider Electric Industries SAS or its affiliated companies. November, 2020 tc Document Number: F-27947-10 Table 4. Valve Assemblies 1½”, 2” With Female NPT End Connectors, With PT Ports Flow Rate (GPM)a Valve Size (inch) 24 Vac Proportional with Position Output Signal (MP500C) 24 Vac Proportional/Floating with Position Output Signal Spring Return Open (MP500C-SRU or MP500C-SRU-W) 24 Vac Proportional/Floating with Position Output Signal Spring Return Closed (MP500C-SRD or MP500C-SRD-W) 181½VP220E-40S-018-U131VP220E-40S-018-U231VP220E-40S-018-U331 191½VP220E-40S-019-U131VP220E-40S-019-U231VP220E-40S-019-U331 201½VP220E-40S-020-U131VP220E-40S-020-U231VP220E-40S-020-U331 221½VP220E-40S-022-U131VP220E-40S-022-U231VP220E-40S-022-U331 241½VP220E-40S-024-U131VP220E-40S-024-U231VP220E-40S-024-U331 261½VP220E-40S-026-U131VP220E-40S-026-U231VP220E-40S-026-U331 281½VP220E-40S-028-U131VP220E-40S-028-U231VP220E-40S-028-U331 301½VP220E-40S-030-U131VP220E-40S-030-U231VP220E-40S-030-U331 321½VP220E-40S-032-U131VP220E-40S-032-U231VP220E-40S-032-U331 342VP220E-50S-034-U131VP220E-50S-034-U231VP220E-50S-034-U331 362VP220E-50S-036-U131VP220E-50S-036-U231VP220E-50S-036-U331 382VP220E-50S-038-U131VP220E-50S-038-U231VP220E-50S-038-U331 402VP220E-50S-040-U131VP220E-50S-040-U231VP220E-50S-040-U331 442VP220E-50S-044-U131VP220E-50S-044-U231VP220E-50S-044-U331 482VP220E-50S-048-U131VP220E-50S-048-U231VP220E-50S-048-U331 522VP220E-50S-052-U131VP220E-50S-052-U231VP220E-50S-052-U331 a. Factory set. Complete flow ranges shown in tables for 1/2…2" on page 11 and page 18. Flow Rate (GPM) a Valve Size (inch) 24 Vac Proportional with Position Output Signal (MP500C) 24 Vac Proportional/Floating with Position Output Signal Spring Return Open (MP500C-SRU or MP500C-SRU-W) 24 Vac Proportional/Floating with Position Output Signal Spring Return Closed (MP500C-SRD or MP500C-SRD-W) 562½VP220A-65S-056-U131VP220A-65S-056-U231VP220A-65S-056-U331 602½VP220A-65S-060-U131VP220A-65S-060-U231VP220A-65S-060-U331 652½VP220A-65S-065-U131VP220A-65S-065-U231VP220A-65S-065-U331 702½VP220A-65S-070-U131VP220A-65S-070-U231VP220A-65S-070-U331 752½VP220A-65S-075-U131VP220A-65S-075-U231VP220A-65S-075-U331 802½VP220A-65S-080-U131VP220A-65S-080-U231VP220A-65S-080-U331 903VP220A-80S-090-U131VP220A-80S-090-U231VP220A-80S-090-U331 100 3VP220A-80S-100-U131VP220A-80S-100-U231VP220A-80S-100-U331 110 (min. 44) 2½VP220A-65H-110-U131VP220A-65H-110-U231VP220A-65H-110-U331 165 (min. 66)4VP220A-100S-165-U131VP220A-100S-165-U231VP220A-100S-165-U331 176 (min. 70) 3VP220A-80H-176-U131VP220A-80H-176-U231VP220A-80H-176-U331 260 (min. 104) 4VP220A-100H-260-U131VP220A-100H-260-U231VP220A-100H-260-U331 Table 5. Valve Assemblies 2½"…4” with ANSI Standard B16.1 Flanges, With PT Ports a. Factory set. Complete flow ranges shown in tables for 2½"…4" on page 12 and page 19. Use actuator code U234 for IP65 (NEMA 4) SRU Use actuator code U234 for IP65 (NEMA 4) SRU Use actuator code U334 for IP65 (NEMA 4) SRD Use actuator code U334 for IP65 (NEMA 4) SRD 8 | schneider-electric.comSelection Guide November, 2020 tc © 2020 Schneider Electric. All rights reserved. All trademarks are owned by Schneider Electric Industries SAS or its affiliated companies. Document Number: F-27947-101½”…4” Valve Body Actuator Part Number (actuator code) MP500C (U131) MP500C-SRU (U231) MP500C-SRD (U331) MP500C-SRU-W (U234) MP500C-SRD-W (U334) Input SignalProportional, 0…10 Vdc, 2…10 Vdc, 4…20 mA, sequencing with selectable input signal action and Floating, DIP switch selectable Electrical ConnectionScrew terminal with conduit connector Position Feedback Output Signal2…10 Vdc2…10 Vdc, 0…5 Vdc2…10 Vdc, 0…5 Vdc Spring Return–Open ValveClose ValveOpen ValveClose Valve Auxilary SwitchOptional Module (8800104000 Dual Form C End Switches) Other Features Auto calibration, field selecta- ble floating input signal travel time, powered manual override Auto calibration, field selectable floating input signal travel time Linear/Equal% Valve Flow Curve SelectionYes Actuator Speed Full Stroke 60 Hz (50 Hz) Proportional 15 (15) Floating 60 or 300 (60 or 300) Proportional 15 (15) Floating 60 or 300 (60 or 300) Spring Return 13 (13) Power Consumption Running 15 VA, Transformer Sizing 50 VA Running 30 VA, Transformer Sizing 50 VA Operating Temperature Limits °F (°C)14…122 (-10…50) Enclosure RatingIP54 (NEMA 2) IP54 (NEMA 2) IP54 (NEMA 2) IP65 (NEMA 4)IP65 (NEMA 4) Actuator Weight (lb.)4.06.0 Regulatory Compliance Underwriters Laboratory (E9429) compliance as Temperature Indicating & Regulatory Equipment cULus LISTED per UL873 and Canadian Standard C22.2 No. 24. European Community compliance per EMC directive (2014/30/EU) and LVD directive (2014/35/EU). Australian/New Zealand community RCM mark. Specification Data SheetF-27944F-27945F-27945 Installation Data sheetF-27942F-27943F-27943 All actuators are 24 Vac. 50/60 HZ with conduit connector holes and wiring terminal block, manual override Table 6. Specification 1½”…4” Valve Body Actuators Flow Rate (GPM) a Valve Size (inch) 24 Vac Proportional with Position Output Signal (MP2000-NSR) 24 Vac Proportional/Floating with Position Output Signal Spring Return Open (MP2000-SRU) 24 Vac Proportional/Floating with Position Output SIgnal Spring Return Closed (MP2000-SRD) 395 (min. 158)5VP220A-125S-395-U161VP220A-125S-395-U261VP220A-125S-395-U361 485 (min. 194)5VP220A-125H-485-U161VP220A-125H-485-U261VP220A-125H-485-U361 640 (min. 256)6VP220A-150S-640-U161VP220A-150S-640-U261VP220A-150S-640-U361 830 (min. 332)6VP220A-150H-830-U161VP220A-150H-830-U261VP220A-150H-830-U361 a. Factory set. Complete flow ranges shown in tables for 5"…6" on page 12 and page 19. Table 7. Valve Assemblies 5” and 6” With PT Ports with ANSI Standard B16.1 Flanges Table 8. Specification 5”and 6” Valve Body Actuators 5” and 6” Valve Body Actuator Part Number (actuator code) MP2000-NSR (U161)MP2000-SRU (U261)MP2000-SRD (U361) Input SignalProportional, 0…10 Vdc, 2…10 Vdc, 0…20 mA, 4…20 mA, with selectable input signal action and Floating, DIP swtich selectable Electrical ConnectionScrew terminal with conduit connector Position Feedback Output Signal0…10 Vdc, 2…10 Vdc, 0…20 mA, 4…20 mA a Spring Return–Open ValveClose Valve Auxilary SwitchYes Other Features Auto calibration, 3-color LED indication, powered manual override, configurable position outpout signals, selectable speed, adjustable equal percentage flow curve Linear/Equal% Valve Flow Curve SelectionYes Actuator Speed s/mm 60 Hz (50 Hz)3 or 6 (3 or 6)4 or 6 (4 or 6) Power Consumption15.0 VA Operating Temperature Limits °F (°C)32…131 (0…55) Actuator Weight (lb.)13.818.96 Regulatory CompliancecULus according to UL 60730-1A/-2-14 and CAN/CSA E60730-1/-2-14 and CE according to EN 60730-1/-2-14 per EMC [2014/30/EU] and LVD [2014/35/EU] Specification Data SheetF-27976F-27969 Installation Data sheetF-27956 a. When used with a proportional input signal. All actuators are 24 Vac. 50/60 HZ with conduit connector holes and wiring terminal block, manual override schneider-electric.com | 9 Selection Guide © 2020 Schneider Electric. All rights reserved. All trademarks are owned by Schneider Electric Industries SAS or its affiliated companies. November, 2020 tc Document Number: F-27947-10 Next >