/3 Series Characterized Control Valve, Non-Spring ctuator Two-way and Three-way Valves with Chrome Plated rass all and rass Stem, NPT Female Ends Service: Flow characteristic: Media Temp Range: mbient Temp Range: Maximum Differential: Pressure ( P) C v Rating Leakage chilled or hot water, 60% glycol -port equal percentage -port modified for constant common port flow. 0 F to 1 F [-18 C to 100 C] - F to 1 F [-30 C to 0 C] 0 psi for typical applications -port as stated in chart -port is 70% of -port 0% for to <.0% to of full rated C v (valve with no disc) TR TR Two-way Characterized Control Valve, Chrome Plated rass all and rass Stem Valve Non-Spring ctuator Model C v Valve On/Off, Floating On/Off, Floating Proportional Proportional # Rating Nominal Size Close- CCV DN Off Valve Inches mm psi TR4-3-T US LR4-3-T TR4-SR-T US LR4-SR-T 07 0.3 1/ 1 00 Pg 0 Pg 8 Pg Pg 30 08 0.46 1/ 1 00 Pg 0 Pg 8 Pg Pg 30 09 0.8 1/ 1 00 Pg 0 Pg 8 Pg Pg 30 10 1. 1/ 1 00 Pg 0 Pg 8 Pg Pg 30 11 1.9 1/ 1 00 Pg 0 Pg 8 Pg Pg 30 1 3.0 1/ 1 00 Pg 0 Pg 8 Pg Pg 30 13 4.7 1/ 1 00 Pg 0 Pg 8 Pg Pg 30 14 7.4 1/ 1 00 Pg 0 Pg 8 Pg Pg 30 1* 10 1/ 1 00 Pg 0 Pg 8 Pg Pg 30 17 4.7 3/4 0 00 Pg 0 Pg 8 Pg Pg 30 18 7.4 3/4 0 00 Pg 0 Pg 8 Pg Pg 30 19 10 3/4 0 00 Pg 0 Pg 8 Pg Pg 30 0* 4 3/4 0 00 Pg 0 Pg 8 Pg Pg 30 Electrical Covered Covered Covered Covered Connection Terminal Strip Terminal Strip Terminal Strip Terminal Strip * Models without characterizing discs. See pg 11 for corrected C v s with piping reduction factor. TR4-3-T US LR4-3-T US TR4-SR-T US LR4-SR-T US 3 Three-way Characterized Control Valve, Chrome Plated rass all and rass Stem Valve Non-Spring ctuator Model C v Valve On/Off, Floating On/Off, Floating Proportional Proportional # Rating Nominal Size Close- CCV DN Off Valve Inches mm psi TR4-3-T US LR4-3-T TR4-SR-T US LR4-SR-T 307 0.3 1/ 1 00 Pg 4 Pg 44 Pg 6 Pg 46 308 0.46 1/ 1 00 Pg 4 Pg 44 Pg 6 Pg 46 309 0.8 1/ 1 00 Pg 4 Pg 44 Pg 6 Pg 46 310 1. 1/ 1 00 Pg 4 Pg 44 Pg 6 Pg 46 311 1.9 1/ 1 00 Pg 4 Pg 44 Pg 6 Pg 46 31 3.0 1/ 1 00 Pg 4 Pg 44 Pg 6 Pg 46 313 4.7 1/ 1 00 Pg 4 Pg 44 Pg 6 Pg 46 31* 10 1/ 1 00 Pg 4 Pg 44 Pg 6 Pg 46 317 4.7 3/4 0 00 Pg 4 Pg 44 Pg 6 Pg 46 318 7.4 3/4 0 00 Pg 4 Pg 44 Pg 6 Pg 46 30* 4 3/4 0 00 Pg 4 Pg 44 Pg 6 Pg 46 Electrical Covered Covered Covered Covered Connection Terminal Strip Terminal Strip Terminal Strip Terminal Strip * Models without characterizing discs. See pg 11 for corrected C v s with piping reduction factor. TR4-3-T US LR4-3-T US TR4-SR-T US LR4-SR-T US Options (add to above list price) TR4-3 US TR4-SR US TR4- /300 US TR4- /00 US LR4 LRX4 3-foot cable Pg 0,, 4, 6 Pg 0,, 4, 6 Pg 8, 30, 34, 44, 46 Pg 3, 40, 48, 8, 60, 6 10-foot cable Pg 0,, 4, 6 Pg 16-foot cable Pg 0,, 4, 6 Pg 10 VC power supply Pg 36, 0, Pg 38, 4, 0, 6 See elimo s flexible product range on page 4 for a complete list of configurable actuators and options. Note: For TF/TR actuators, no weather shield available at this time. Call 800-43-9038 1
Two-way Characterized Control Valve, Chrome Plated rass all and Stem LR ctuators, Proportional Technical Data/Submittal pplication This valve is typically used in air handling units on heating or cooling coils, and fan coil unit heating or cooling coils. Some other common applications include Unit Ventilators, VV box re-heat coils and bypass loops. This valve is suitable for use in a hydronic system with variable flow. This valve is designed for modulating control using...10 vdc or 4...0 m. (for 4...0 m control input a 00Ω resistor is required). The valve is designed to fit in compact areas where proportional control is required using 4 VC/VDC. Valve Specifications Service chilled or hot water, 60% glycol Flow characteristic -port equal percentage ction max 9 rotation Sizes 1/, 3/4 Type of end fitting female, NPT Materials: ody forged brass, nickel plated all chrome plated brass Stem brass Seats PTFE Characterizing disc TEFZEL Packing EPDM O-rings, lubricated Pressure rating 600 psi Media temp. range 0 F to 1 F [-18 C to 100 C] Close off pressure 00 psi Maximum differential 0 psi for typical applications pressure ( P) Leakage 0% Cv rating -port: see product chart for values Tefzel is a registered trademark of DuPont ctuator Specifications LR4-SR LR4-SR-T w/terminal lock Power supply 4 VC ± 0% 0/60 Hz 4 VDC ± 10% Power consumption running: 1. W holding: 0.4 W Transformer sizing 3 V (class power source) Electrical connection 3 ft, 18 G plenum rated cable 1/ conduit connector Overload protection Operating range Y Input impedance ngle of rotation electronic throughout 0 to 9 rotation to 10 VDC, 4 to 0 m 100kΩ (0.1 m), 00Ω max. 9, adjust. with mechanical stop Direction of rotation reversible with protected switch Position indication Manual override Running time Humidity mbient temperature Storage temperature Housing Housing material gency listings handle external push button 9 seconds, constant independent of load to 9% RH non condensing (EN 60730-1) - F to +1 F [-30 C to +0 C] -40 F to +176 F [-40 C to +80 C] NEM /IP4 UL94-V Noise level Quality standard ISO 9001 LR4-SR-T Electrical connection culus acc. to UL60730-1/--14, CN/CS E60730-1, CS C. No. 4-93, CE acc. to 89/336/EEC <3d() screw terminal (for 6 to 14 G wire) protected (NEM /IP0) Rated impulse voltage 800V, Control pollution degree 3, Type of action 1 (1. for -S models) 30 See Selection Chart Pg 14 for Control Valve No., C v and Close-off
Two-way Characterized Control Valve, Chrome Plated rass all and Stem LR ctuators, Proportional Technical Data/Submittal Dimensions.6" [66] 3." [8] 1.69" [4] 7.97" [00].34" [9.4] D148 Nominal Valve Valve Size Dimensions in Inches [mm] ody in [mm] 07-11 1/ 1.06 [.] 1.39 [3.3] 1-1 1/ 1.38 [60.] 1.63 [41.4] 17-0 3/4 0.63 [66.8] 1.7 [44.] Flow Pattern Flow Direction C Wiring Diagrams Characterizing Disc (Where applicable) Two-way E L I M O CUTION Equipment damage! ctuators may be connected in parallel. Power consumption must be observed and input impedance must be observed. 3 INSTLLTION NOTES ctuators may also be powered by 4 VDC. Only connect common to neg. ( ) leg of control circuits. PPLICTION NOTES The ZG-R01 00Ω resistor converts the 4 to 0 m control signal to to 10 VDC, up to actuators may be connected in parallel. WRNING Live Electrical Components! During installation, testing, servicing and troubleshooting of this product, it maybe necessary to work with live electrical components. Have a qualified licensed electrician or other individual who has been properly trained in handling live electrical components perform these tasks. Failure to follow all electrical safety precautions when exposed to live electrical components could result in death or serious injury. W6 WRNING Live Electrical Components! During installation, testing, servicing and troubleshooting of this product, it maybe necessary to work with live electrical components. Have a qualified licensed electrician or other individual who has been properly trained in handling live electrical components perform these tasks. Failure to follow all electrical safety precautions when exposed to live electrical components could result in death or serious injury. W6 4 VC Transformer 4 VC Transformer Line Volts Control Signal ( ) to 10 VDC (+) to 10 VDC Feedback Signal lk (1) Common Red () Hot + 3 Wht (3) Y Input, to 10V Org () U Output, to 10V 1 0 ( ) (+) LR4-SR Line Volts 4 to 0 m Control Signal ( ) (+) Ω 00Ω 4 To other actuators to 10 VDC control of LR4-SR 4 to 0 m control of LR4-SR lk (1) Common Red () Hot + 3 Wht (3) Y Input, to 10V Org () U Output, to 10V 1 0 LR4-SR 31
Electronic Characterized Control Valves /3 Series Characterized Control Valves Default Set-Up: Two-way Valve Two-way Valve Three-way Valve Three-way Valve (Specify upon ordering) (Specify upon ordering) (Specify upon ordering) (Specify upon ordering) Non-Spring - Stays in Last Position TR4-3-T US Power to pin will Power to pin will drive valve CCW. drive valve CCW. Power to pin 3 will Power to pin 3 will drive valve CW. drive valve CW. TR4-SR-T US NC: Closed to, will NO: Open to, will close NC: Closed to, will NO: Open to, will close open as voltage increases. as voltage increases. open as voltage increases. as voltage increases. (Can be chosen with (Can be chosen with switch inside terminal switch inside terminal block of actuator). block of actuator). LR4-3, LR4-MFT Power to pin will drive valve NO: Open to, will close Power to pin will drive valve NO: Open to, will close LR4-SR, CW. Power to pin 3 will drive as voltage increases or power CW. Power to pin 3 will drive as voltage increases or power LRX4-MFT, valve CCW. The above will applied. (Can be chosen valve CCW. The above will applied. (Can be chosen R4-3, R4-SR function when the directional with CW/CCW switch ). function when the directional with CW/CCW switch ). R4-MFT switch is in the 1 position, to switch is in the 1 position, to reverse select the 0 position. reverse select the 0 position. TFX4 US NO/FO Valve: Open to NC/FC Valve: Closed to NO/FO Valve: Open to NC/FC Valve: Closed to LF4 US will drive closed. will drive open. will drive closed. will drive open. F4 US Spring ction: Will spring Spring ction: Will spring Spring ction: Will spring Spring ction: Will spring open to closed to open to closed to Spring - Note Fail Position TF (-3), MFT, SR NC/FO Valve: Closed to NC/FC or NO/FC NC/FO Valve: Closed to NC/FC or NO/FC LF (-3), MFT, SR will drive open. Valve: Closed to or will drive open Valve: Closed to F, MFT, SR Spring ction: Will spring Open to Spring ction: Will spring or Open to Floating or proportional open to (Can be chosen with open to (Can be chosen with type actuators CW/CCW switch). CW/CCW switch). Spring ction: Will spring Spring ction: Will spring closed to closed to NO/FO Valve: Open to Spring ction: Will spring open to (NO action can be chosen with CW/CCW switch). NO/FO Valve: Open to Spring ction: Will spring open to (NO action can be chosen with CW/CCW switch). General Wiring Instructions WRNING The wiring technician must be trained and experienced with electronic circuits. Disconnect power supply before attempting any wiring connections or changes. Make all connections in accordance with wiring diagrams and follow all applicable local and national codes. Provide disconnect and overload protection as required. Use copper, twisted pair, conductors only. If using electrical conduit, the attachment to the actuator must be made with flexible conduit. lways read the controller manufacturer's installation literature carefully before making any connections. Follow all instructions in this literature. If you have any questions, contact the controller manufacturer and/or elimo. Transformer(s) elimo actuators require a 4 VC class transformer and draws a maximum of 10 V per actuator. The actuator enclosure cannot be opened in the field, there are no parts or components to be replaced or repaired. EMC directive: 89/336/EEC Software class : Mode of operation type 1 Low voltage directive: 73/3/EEC CUTION: It is good practice to power electronic or digital controllers from a separate power transformer than that used for actuators or other end devices. The power supply design in our actuators and other end devices use half wave rectification. Some controllers use full wave rectification. When these two different types of power supplies are connected to the same power transformer and the DC commons are connected together, a short circuit is created across one of the diodes in the full wave power supply, damaging the controller. Only use a single power transformer to power the controller and actuator if you know the controller power supply uses half wave rectification. 17
Electronic Characterized Control Valves /3 Series Characterized Control Valves Operation/Installation Correct Piping: -way valves should be installed with the disc upstream. If installed with disc downstream, flow curve will be deeper. If installed backwards it is NOT necessary to remove and change. No damage or control problems will occur. Two-Way Valve Piping Diagram (1 Input, 1 Output) Three-Way Mixing Valve Piping Diagram ( Inputs, 1 Output) Three-Way Diverting Valve Piping Diagram (1 Input, Outputs) 3-way valves must be piped correctly. They can be mixing or diverting. Mixing is the preferred piping arrangement. The ELIMO Characterized Control Valve is a CONTROL valve, not a manual valve adapted for actuation. The control port is the port. It is similar to the globe valve in that the middle port is the or bypass port. The common port is on the main opposite the port. These diagrams are for typical applications only. Consult engineering specification and drawings for particular circumstances. The port must be piped to the coil to maintain proper control. The port restricts flow by 30% of port value. Incorrect Piping: Three-Way Mixing Valve Piping Diagram ( Inputs, 1 Output) Three-Way Diverting Valve Piping Diagram (1 Input, Outputs) WRNING! Do Not Pipe in this manner! Note Valve Porting! The port must be piped to the coil! Not the port! Flow is not possible from to. If port is not piped as the common port, the valve must be re-piped. It is good practice to install a balancing valve in the bypass line. These valves are intended for closed loop systems. Do not install in an open loop system or in an application that is open to atmospheric pressure. ssembly: 1 1 3 One screw attaches actuator to valve Four actuator mounting positions -way flow pattern 4 3-way flow pattern (mixing shown) Top of valve stem indicates direction of flow (Flow to shown) Note: For diverting flow, flow enters in and diverts to and ports. CCW 4 x 90 -=0% 4 3 -=100% 18
-FRONT Characterized Control Valves (CCV) Flow Pattern Two-way Characterized Control Valves (elimo Series) (elimo 6 Series) Flow Direction Characterizing Disc (Where applicable) Two-way *Two-way valves should be installed with the disc upstream. E L I M O Three-way Characterized Control Valves (elimo 3 Series) Three-way Mixing *The port must be piped to the coil to maintain proper control. Three-way Diverting Characterizing Disc (where applicable) YPSS Port Disc (ll 3-way models) Characterizing Disc (where applicable) Port Disc (ll 3-way models) Port must be piped to the by-pass line. Mounting: The valves can be mounted in any position, except stem below horizontal. 360 D164 8 8 19