RPM1600 Series Room Pressure Monitors

RPM1600 Series Room Pressure Monitors Installation Instructions LBRPM16110, LBRPM16210 *24108874D* 24108874, Rev. D Part No. 24108874, Rev. D Issued October 2017 North American Emissions Compliance United States Canada Installation Refer to the QuickLIT website for the most uptodate version of this document. This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when this equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area may cause harmful interference, in which case users will be required to correct the interference at their own expense. This Class (A) digital apparatus meets all the requirements of the Canadian InterferenceCausing Equipment Regulations. Cet appareil numérique de la Classe (A) respecte toutes les exigences du Règlement sur le matériel brouilleur du Canada. Risk of Property Damage. Ensure that the power source conforms to the requirements of the equipment. Failure to use a correct power source may result in permanent damage to the equipment. Risque de dégâts matériels. S'assurer que la source d'alimentation électrique est conforme aux spécifications de l'équipement. L'utilisation d'une source d'alimentation électrique inappropriée risque d'endommager irrémédiablement l'équipement. IMPORTANT: The RPM1600 Series Room Pressure Monitors must be wired to 24 VAC only. Wiring the unit to 110 VAC will cause serious damage to the unit and void the warranty. These instructions guide the installer through the installation of the RPM1600 Series Room Pressure Monitors. The installation instructions cover all monitor versions. Unless specified otherwise, these figures and instructions apply to all versions. Please read these instructions thoroughly before beginning installation. Go to http://cgproducts.johnsoncontrols.com to download the RPM1600 Series Room Pressure Monitors Technical Bulletin (LIT12012228) for further information. This product is classified by Underwriters Laboratories, Inc. for use in throughpenetration firestop systems. Refer to the UL fire resistance directory. 1

Figure 1: Typical Installation Ceiling Thermal Anemometer (TA) Sensor Room Pressure Monitor (may be mounted remotely by Nurses Station) Eye Level 5 to 6 ft (1.5 to 1.8 m) Floor FIG:mtg_loc Table 1: Remote Pressure Monitors 1 Product Code Number Description LBRPM16110 RPM1611 Room Pressure Monitor (monitors one room) LBRPM16210 RPM1621 Room Pressure Monitor (monitors one or two rooms with anteroom) 1. You must also order an input device. See Table 2. Table 2: Input Devices Product Code Number Description You can use with RPM1611 RPM1621 DPT26510R1BMA Differential Pressure Transducer (DPT) 1 Y Y LBACC1010 Differential Pressure Transducer Pickups Y Y LBACC1000 Thermal Anemometer (TA) Sensor 1 Y Y TE67PT0N00 Platinum Temperature Sensor N Y HE68P20N00WS Combination Humidity and Temperature Sensor N Y TE68PT0N00S, NSWALLPLATE0 Wall Temperature Sensor with Wallplate N Y TE635GM1 Duct Temperature Sensor, Platinum 1K ohm, 4 in. probe N Y TE6351M1 Duct Temperature Sensor, Platinum 1K ohm, 8 in. probe N Y HT67020N00W Humidity Sensor N Y MSBACEOL0 End of Line Terminator OLS21001 Occupancy Switch N Y 1. You can use either a DPT or a TA sensor as the pressure input. 2

Mount the thermal anemometer (TA) sensor or differential pressure transducer (DPT) through the wall between the controlled space (isolation room) and referenced space (anteroom/hallway). See Thermal Anemometer (TA) Sensor Installation on page 3 and Differential Pressure Transducer (DPT) Installation on page 4. Thermal Anemometer (TA) Sensor Installation IMPORTANT: Install the TA sensor through the wall between the controlled space (isolation room) and referenced space (hallway), exactly as shown in Figure 3. IMPORTANT: Do not touch the sensor element in the pressure sensor. Do not run wires through the air passage. Doing so will damage the sensing element. Determine the location for the TA sensor (Figure 1 and Figure 3). Mount the TA sensor in the reference space, and mount the dummy housing in the isolation room. Note: The TA sensor is not symmetrical. If the TA sensor is to be centered over the hallway door, measure one inch to the left of center for 21/4 in. (57 mm) hole. The dummy sensor will be 2 in. (51 mm) offcenter on the other side of the wall. 1. Orient the TA sensor on the wall as shown in Figure 2. Looking at the mounted sensor, the 21/4 in. (57 mm) sensor hole is on the left and wire hole is on the right. Figure 2: Pressure Sensor Orientation and Mounting Template Pressure Sensor Base Dimensions Proper Orientation On Wall 41/4 in. (108 mm) 31/4 in. (83 mm) 33/16 in. (82 mm) FIG:TAsen_ornttn 1 in. (25 mm) 2 in. (51 mm) Screw Sliding Cover Pressure Sensor 7/8 in. (22 mm) Wire Hole 21/4 in. (57 mm) Tube Hole 2. Drill a 21/4 in. (57 mm) hole through each side of the wall to accept the sensor tube. 3. Drill a 7/8 in. (22 mm) hole on the side of the wall that the TA sensor will be mounted. This hole is for the sixconductor sensor cable. Refer to Figure 2 for a holemounting pattern. 4. Slide the sensor cover to the right and remove the screw that holds the sensor base to the TA sensor (Figure 2). Remove the pressure sensor and store it in a safe place. 5. From the side of the wall on which the TA sensor will be mounted, slide the sensor tube through the wall. Mark the tube where it is flush with the wall. 6. Remove the sensor tube and cut the tube 1/8 inch (3 mm) shorter than the flush marking. Note: If the 12 in. (305 mm) sensor tube needs to be extended, use same size or larger diameter tube. Drill a hole in the dummy case. The hole must be large enough to match the inside diameter of the tube used to extend the sensor tube. 7. From the side of the wall on which the TA sensor will be mounted, slide the sensor tube through the wall. 8. Slide the dummy base over the end of the tube. 9. Screw the pressure sensor base and dummy base to the wall (Figure 3). 3

10. Wire the pressure sensor as shown in Figure 7 to Figure 8. Run the sensor cable to the RPM. 11. Insert fire protection sealant (provided) into the 7/8 in. (22 mm) wire hole to seal it. 12. Install and screw the pressure sensor and dummy cover onto the bases. Slide the covers to the left to hide the sensor. The finished installation should look like Figure 3. Figure 3: TA Sensor Installation (Left) and Cutaway View of Installed TA Sensor (Right) Front View Proper Orientation Cover Slides To Right Ceiling Half the distance between the ceiling and the door jamb Dummy Cover Pressure Sensor Black FireSealant Ring (must insert into a 21/4 in. [57 mm] hole) Screw Dummy Cover Dummy Base Pressure Base Screw Pressure Sensor FIG:TAsnsr_instl Controlled Space Wall Reference Space (typically a hallway) FIG:ctwyvw_mntd_TAsnsr Differential Pressure Transducer (DPT) Installation IMPORTANT: The pressure plates must be mounted in the wall between the controlled space (clean room) and referenced space (hallway), exactly as shown in Figure 4 and Figure 5. Install the DPT in the desired location (typically above ceiling). Install the pressure plates on the wall in the correct position, as shown in Figure 4 (screws not provided). Do not install the DPT or DPT pickup plates on a duct or other vibrating surface. 1. Wire the DPT as shown in Figure 8. Run the cable to the RPM. 2. Determine the DPT pickup plate s location (Figure 1 and Figure 4). The pressure sensor typically mounts in the reference space, and the plate mounts in the clean room. 3. Drill a 21/4 in. (57 mm) hole through each side of the wall to accept the sensor tube. 4. Run pneumatic tubing from the DPT to sensor locations. For a positively pressurized space, connect the high port to the controlled space and the low port to the reference space. For a negatively pressurized space, connect the low port to the controlled space and the high to the reference space. 5. Connect the pneumatic tubing to the nipple on the back side of the pressure plate. 6. Insert the pressure plate into the hole in the wall. Screw the pressure plate to the wall. 4

The finished assembly should look like Figure 4. Figure 4: Cutaway View of Mounted Pressure Transducer Assembly (Left) and DPT Pickup Plate Differential Pressure Transducer Ceiling Half the distance between the ceiling and the door jamb Dummy Cover Front View Controlled Space Black FireSealant Ring (must insert into a 21/4 in. [57 mm] hole) Reference Space (typically a hallway) FIG:ctwyvw_mtd_DPT Side View Tubing FIG:DPT_pckp_plt_mtd Remote Pressure Monitor (RPM) Installation Mounting Select the mounting location of the pressure monitor. The construction plans normally show the mounting location. If no location is specified, then the unit is typically installed as shown in Figure 1. Alternate mounting locations are nurses stations, other staff areas, and so forth. Install a triplegang, standarddepth electrical box (6 in. x 4 in. [152 mm x 102 mm]).the electrical box must be installed level and flush with the wall surface. Insert and tighten screws to secure the RPM to the electrical box (Figure 5). Figure 5: Room Pressure Monitor Mounting Screw locations to secure the device to the electrical box. FIG:Dvc_Mnt_Scrw 5

Wiring IMPORTANT: Do not apply voltage to the RS485 output, output, analog output, or control output. Severe damage may occur to the unit if voltage is applied. IMPORTANT: IMPORTANT: regulations. Do not connect more than 24 VAC to any terminal. Use copper conductors only. Make all wiring in accordance with local, national, and regional IMPORTANT: Do not exceed the unit s electrical ratings. Exceeding the unit s electrical ratings can result in permanent damage to the modules and void any warranty. IMPORTANT: Run all lowvoltage wiring and cables separate from all highvoltage wiring. Shielded cable is strongly recommended for input (sensor) and analog output cables that are exposed to high electromagnetic or radio frequency noise. IMPORTANT: Electrostatic discharge can damage the unit. Use proper Electrostatic Discharge (ESD) precautions during installation and servicing to avoid damaging the unit. IMPORTANT: Do not connect supply power to the unit before checking all wiring connections. Short circuits or improperly connected wires can result in damage to the unit and void any warranty. Recommendations Use 18 to 22 AWG (1.0 to 0.6 mm diameter) stranded wire. Follow good wiring practices: Control cables should cross power cables at a 90degree angle. Use a consistent color code to maintain polarity. Use a star configuration (homerun wiring) for control signals. Do not use a series configuration (daisychain wiring). Use series configuration (daisychain wiring) for connecting the nurses station display (NSD) to room pressure monitors (RPMs) and room pressure controllers (RPCs). Procedure 1. Remove the connectors from the back of the RPM. 2. Refer to the wiring diagrams (Figure 7 to Figure 18) for proper wiring installation. If additional options need to be wired, refer to building prints for proper wiring diagram. 3. Plug the connectors back into the RPM. 4. Carefully push the wires into the electrical box and mount the RPM. Install four screws to hold pressure monitor firmly to base. Install cover and slide left to hide display. 5. Press the cover plate onto the RPM. 6

Wiring Reference Figure 6: Wiring Terminals 1 2 3 4 5 6 7 8 9 10 11 12 INPUT 1 SENS COMM A B INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 13 14 15 16 17 18 19 20 21 22 23 24 25 26 OUTPUT 2 27 28 OUTPUT 3 29 30 REF REF 31 32 33 34 35 36 FIG:RPM_RPC_Wrng_Trmnls Table 3: RPM1611 Wiring Terminals Pin Number Use Signal Description 1, 2 Input 24 V AC/DC Power in for Room Pressure Monitor (RPM). 3, 4 Output 24 V Power for Pressure Sensors 24 VAC 5, 6 Input 0 10 VDC Input 1; TA Sensor or DPT (0 10 VDC) 7, 8 Comm RS485 Communications between RPM and Pressure Sensors 9, 10 Output Open/Closed Relay 1 Output 1 (Low Alarm); SPST, 60 W maximum; 2 A at 30 VDC nominal 11, 12 Output Open/Closed Relay 2 Output 1 (High Alarm or Room Mode); SPST, 60 W maximum; 2 A at 30 VDC nominal 13, 14 Input not used Input 2: not used 15, 16 Input 0 10 VDC, Open/Closed Input 3; Supply Pressure Flow, Supply Linear Flow, Supply Venturi Flow (0 10 VDC), Supply Switch (Relay In) 17, 18 Input Open/Closed Input 4; Room 1 Door Switch or Room 1 Occupancy Sensor (Relay In) 19, 20 Input Open/Closed Input 5; Room 1 Keyswitch (Relay In) 21, 22 Input not used Input 6: not used 23, 24 Input 0 10 VDC, Open/Closed Input 7; Exhaust Pressure Flow, Exhaust Linear Flow, Exhaust Venturi Flow (0 10 VDC), Exhaust Switch (Relay In) 25, 26 Output 0 10 VDC Analog Out 1; None 27, 28 Output 0 10 VDC/ Analog Out 2; Room 1 Pressure Out, Exhaust Flow Out (0 10 VDC/4 20 ma) 4 20 ma 29, 30 Output 0 10 VDC/ 4 20 ma Analog Out 3; Room 1 Pressure Out, Exhaust Flow Out, Supply Flow Out (0 10 VDC/ 4 20 ma) 31, 32, 33 Comm RS485 Modbus communication to Nurse Station Display 34, 35, 36 Comm RS485 MS/TP communication to BAS 1. Contacts fieldconfigurable to open or close in alarm condition. Contacts close on loss of power. 7

Table 4: RPM1621 Wiring Terminals Pin Number Use Signal Description 1, 2 Input 24 V AC/DC Power in for Room Pressure Monitor (RPM). 3, 4 Output 24 V Power for Pressure Sensors 24 VAC 5, 6 Input 0 10 VDC Input 1; TA Sensor or DPT (0 10 VDC) 7, 8 Comm RS485 Communications between RPM and Pressure Sensors 9, 10 Output Open/Closed Relay 1 Output 1 (Low Alarm); SPST, 60 W maximum; 2 A at 30 VDC nominal 11, 12 Output Open/Closed Relay 2 Output 1 (High Alarm or Room Mode); SPST, 60 W maximum; 2 A at 30 VDC nominal 13, 14 Input 0 10 VDC Input 2: TA Sensor or DPT (0 10 VDC) 15, 16 Input 0 10 VDC Input 3; TA Sensor or DPT (0 10 VDC) 17, 18 Input Open/Closed Input 4; Room 1 Door Switch or Room 1 Occupancy Sensor (Relay In) 19, 20 Input Open/Closed 0 10 VDC Input 5; Room 1 Keyswitch (Relay In), RH Sensor (0 10 VDC) 21, 22 Input Resistance, Open/Closed 23, 24 Input 0 10 VDC, Open/Closed Input 6: Room 1 Temperature Sensor (1,000 ohm platinum), Room 2 Occupancy Sensor or Room 2 Door Switch (Relay In) Input 7: Exhaust Pressure Flow, Exhaust Linear Flow, Exhaust Venturi Flow (0 10 VDC), Exhaust Switch or Room 2 Keyswitch (Relay In) 25, 26 Output 0 10 VDC Analog Out 1; None 27, 28 Output 0 10 VDC/ Analog Out 2; Room 1 Pressure Out, Exhaust Flow Out (0 10 VDC/4 20 ma) 4 20 ma 29, 30 Output 0 10 VDC/ 4 20 ma Analog Out 3; Room 1 Pressure Out, Exhaust Flow Out, Supply Flow Out (0 10 VDC/4 20 ma) 31, 32, 33 Comm RS485 Modbus communication to Nurse Station Display 34, 35, 36 Comm RS485 MS/TP communication to BAS 1. Contacts fieldconfigurable to open or close in alarm condition. Contacts close on loss of power. 8

Wiring Various Input Devices Figure 7: TA Sensors Wiring to RPM1600 Series Room Pressure Monitors H N 3 4 5 6 7 8 TA Sensor Cable TA Sensor TA Sensor (Room 1) INPUT 1 SENS COMM INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 TA Sensor Cable H N 3 4 5 6 7 8 TA Sensor TA Sensor (Anteroom) 3 4 5 6 7 8 H N TA Sensor TA Sensor (Room 2) TA Sensor Cable FIG:TAsnsr_opt1 Note: RPM1611 Monitors do not support Room 2 or Anteroom TA Sensors. The number of sensors varies by application. IMPORTANT: Wire the RPM exactly as wire diagram shows. Making modifications to the wiring may severely damage the unit. 9

Figure 8: Pressure Transducer Sensors Wiring to RPM1600 Series Room Pressure Monitors Pressure Transducer (Room1) 24 VAC OUT 1 2 3 24V INPUT1 SENS COMM INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 REF REF Pressure Transducer (Anteroom) Pressure Transducer (Room2) 24 VAC OUT 24 VAC OUT 1 2 3 1 2 3 24V 24V FIG:prssr_xdcr Note: RPM1611 Monitors do not support Room 2 or Anteroom TA sensors. The number of sensors varies by application. 10

Figure 9: Supply / Exhaust Flow Switch Wiring to RPM1600 Series Room Pressure Monitors INPUT 1 SENS COMM INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 Supply Airflow Switch (RPM1611 Only) Exhaust Airflow Switch FIG:Sup_Exh_FlwSwtch 11

Figure 10: Supply/Exhaust PressureBased Flow Station Wiring to RPM1600 Series Room Pressure Monitors INPUT 1 SENS COMM INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 REF REF Supply Airflow Station Pressure Transducer Exhaust Airflow Station Pressure Transducer 24 VAC OUT 24 VAC OUT 1 2 3 24 V 24 V 1 2 3 FIG:Sup_Exh_Prssr_Flw (RPM1611 Only) 12

Figure 11: Supply/Exhaust Linear Flow Station Wiring to RPM1600 Series Room Pressure Monitors INPUT 1 SENS COMM INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 24V 3 2 1 24 VAC OUT Supply Linear Flow Station 24 VAC OUT Exhaust Linear Flow Station 3 2 1 24V FIG:Sup_Exh_LnrFlwStn (RPM1611 Only) 13

Figure 12: Supply/Exhaust Venturi Valve Wiring to RPM1600 Series Room Pressure Monitors INPUT 1 SENS COMM INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 24V Pressure Switch 1 2 3 4 5 6 7 8 9 10 24 VAC IN 24 VAC IN 24VDC OUT 24VDC OUT 010VDC CTRL SIG IN 010VDC CTRL SIG IN 110VDC FLOW OUT 110VDC FLOW OUT LOW DP FDBACK IN LOW DP FDBACK IN ELECTRIC ACTUATOR BAS CONTROLLER VENTURI VALVE ONLY Supply Venturi Valve (RPM1611 Only) 24V Pressure Switch 1 2 3 4 5 6 7 8 9 10 24 VAC IN 24 VAC IN 24VDC OUT 24VDC OUT 010VDC CTRL SIG IN 010VDC CTRL SIG IN 110VDC FLOW OUT 110VDC FLOW OUT LOW DP FDBACK IN LOW DP FDBACK IN ELECTRIC ACTUATOR BAS CONTROLLER VENTURI VALVE ONLY Exhaust Venturi Valve FIG:Sup_Exh_VntrVlv Note: Figure 12 shows a TSI fastacting actuator (Part No. 800380). If you use a different actuator, consult the actuator s product literature for the terminals that provide the flow signal. 14

Figure 13: Door Switch Wiring to RPM1600 Series Room Pressure Monitors INPUT 1 SENS COMM INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 Door Switch RPM16xx: Room 1 Door Switch RPM162x: Room 2 FIG:DrSwtch_Wrng Note: RPM1611 Monitors do not support the Room 2 Door Switch. Figure 14: Occupancy Sensor Wiring to RPM1600 Series Room Pressure Monitors INPUT 1 SENS COMM INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 Occupancy Switch RPM16xx: Room 1 Occupancy Switch RPM162x: Room 2 FIG:OccSnsr Note: RPM1611 Monitors do not support Room 2 Occupancy Sensor. 15

Figure 15: Temperature Sensor Wiring to RPM1621 Room Pressure Monitors INPUT 1 SENS COMM INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 FIG:RPM162x_TmpSnsr Temperature Sensor. Figure 16: Relative Humidity Sensor Wiring to RPM1621 Monitors INPUT 1 SENS COMM INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 24 VAC OUT O 2 24V 1 Relative Humidity Sensor 3 FIG:RH_snsr 16

FIG:NModbus_Wrng Wiring Communications Figure 17: Modbus Communications Wiring between RPM1600 Series Room Pressure Monitors, RPC1611 Room Pressure Controllers, and NSD1380 Nurses Station Display 24V INPUT 1 SENS COMM INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 100 Ω 100 Ω 100 Ω Reference Figure 18: MS/TP Communications Wiring for RPM1600 Series Room Pressure Monitors INPUT 1 SENS COMM FIG:_MSTP INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 OUTPUT 2 OUTPUT 3 Reference 100 Ω 100 Ω 100 Ω IMPORTANT: Use MSBACEOL0 endofline (EOL) terminations if the installed device is the last device in the communications chain. The 100 Ohm reference resistors are optional. 17

IMPORTANT: Use 3wire, 22 AWG, stranded, twisted and shielded cable for all MS/TP wiring. When wiring 2Wire MS/TP devices [ and terminals (but no common terminal)] with 3wire MS/TP devices [like the FEC controllers] on the same trunk, use a wire nut to connect the COM wires at the 2wire device. Use all three conductors at the 3wire devices. For information on wiring MS/TP communications, refer to the MS/TP Communications Bus Technical Bulletin, LIT12011034. If you need assistance installing the system, call Johnson Controls customer service at 18002755676. Repair Information If the RPM1600 Series Room Pressure Monitor fails to operate within its specifications, refer to the RPM1600 Series Room Pressure Monitor Product Bulletin (LIT12012331) for ordering information. For a replacement room pressure monitor, contact the nearest Johnson Controls representative. Technical Specifications RPM1600 Series Room Pressure Monitor Range Resolution and Accuracy Low Alarm Range High Alarm Range Communications Protocol Input Power Pluggable Screw Terminal Blocks Supported Inputs Optional Analog Outputs Operating Conditions Storage Conditions Dimensions Thermal Anemometer Sensor: 0.20000 to 0.20000 in. W.C. (50 to 50 Pa) Differential Pressure Transducer: 0.10 to 0.10 in. W.C. (25 to 25 Pa) Thermal Anemometer Sensor Resolution: 5% of reading Accuracy: 10% of reading and 0.00001 in. W.C. DPT26510R1BMA Differential Pressure Transducer Resolution: 0.001 in. W.C. (display resolution) Accuracy: 0.25% of full scale or ±0.0005 in. W.C. (0.124 Pa) 0.19500 to 0.19500 in. W.C. 0 to 10,000 cfm (0 to 4,720 l/s, 0 to 16,990 m 3 /hr) 80 to 1,000 ft/min (0.41 to 5.08 m/s) 0 to 10,000 cfm (0 to 4,720 l/s, 0 to 16,990 m 3 /hr) Modbus RTU (to NSD1380) 9600 baud MS/TP (to BAS) 76.8k, 38.4k, 19.2k, 9600 baud 24 VAC, 50/60 Hz, 3 VA; 15 to 40 VDC; 5 watt maximum (50 VA with TSI fastacting actuator [Part No. 800380]) 18 to 22 AWG (1.0 to 0.6 mm diameter) Temperature 1,000 ohm platinum RTD Temperature Setpoint 0 to 10 VDC Relative Humidity 0 to 10 VDC Supply Flow 0 to 10 VDC Exhaust Flow 0 to 0 VDC Remote Keyswitch Open/Closed Signal Pressure Transducer 0 to 10 VDC Room Pressure Sensor 0 to 10 VDC Door Switch Open/Closed Signal Room Occupancy Open/Closed Signal Flow or Room Pressure Differential 0 to 10 VDC or 4 to 20 ma 32 to 120 F (0 to 50 C), 10 to 90 %RH (noncondensing) 22 to 122 F (30 to 50 C), 95 %RH maximum (noncondensing) Mounting Triplegang, standarddepth electrical box 7 in. x 47/8 in. x 13/4 in. (17.8 cm x 12.4 cm x 4.4 cm) Protrusion: 5/8 in. (1.6 cm) Weight 14 oz. (0.40 kg) LCD Screen: 4.5 in. diagonal color display 18

RPM1600 Series Room Pressure Monitor Compliance UL Listing File R38724, ThroughPenetrating Products (CCN:XHLH ) FCC Part 15, SubPart B: Class A ICES003, Issue 5: 2012: Class A CE: EN 55011:2009 A1: 2010 Group 1 EN 613261: 2006 Class A Metasys System Metasys Release 6.5, 7.0, and 8.0 Compatibility Thermal Anemometer (TA) Sensor Temperature Compensation Range Range Resolution and Accuracy Input Power Power Dissipation Dimensions (D x H x W) Weight 55 to 95 F 0.20000 to 0.20000 in. W.C. (50 to 50 Pa) Resolution: 5% of reading Accuracy: 10% of reading and 0.00001 in. W.C. 24 VAC, 50/60 Hz, 3 VA 0.16 watts at 0 in. W.C.; 0.20 watts at 0.00088 in. W.C. 5.58 in. x 3.34 in. x 1.94 in. (141.7 mm x 84.8 mm x 49.3 mm) 0.2 lb The performance specifications are nominal and conform to acceptable industry standards. For application at conditions beyond these specifications, consult the local Johnson Controls office. Johnson Controls shall not be liable for damages resulting from misapplication or misuse of its products. European Single Point of Contact: NA/SA Single Point of Contact: APAC Single Point of Contact: JOHNSON CONTROLS WESTENDHOF 3 45143 ESSEN GERMANY JOHNSON CONTROLS 507 E MICHIGAN ST MILWAUKEE WI 53202 USA JOHNSON CONTROLS C/O CONTROLS PRODUCT MANAGEMENT NO. 22 BLOCK D NEW DISTRICT WUXI JIANGSU PROVINCE 214142 CHINA Metasys and Johnson Controls are registered trademarks of Johnson Controls All other marks herein are the marks of their respective owners. 2017 Johnson Controls Building Technologies & Solutions 507 E. Michigan Street, Milwaukee, WI 53202 Published in U.S.A. 19 www.johnsoncontrols.com