DensityPRO+ Gamma Density System with Remote Transmitter Installation Guide P/N Part of Thermo Fisher Scientific.

DensityPRO+ Gamma Density System with Remote Transmitter Installation Guide P/N 717818 Revision F Part of Thermo Fisher Scientific

DensityPRO+ Gamma Density System with Remote Transmitter Installation Guide P/N 717818 Revision F

2011 Thermo Fisher Scientific Inc. All rights reserved. Microsoft and Windows are either trademarks or registered trademarks of Microsoft Corporation in the United States and/or other countries. HART is a registered trademark of the HART Communication Foundation. All other trademarks are the property of Thermo Fisher Scientific Inc. and its subsidiaries. Thermo Fisher Scientific Inc. (Thermo Fisher) makes every effort to ensure the accuracy and completeness of this manual. However, we cannot be responsible for errors, omissions, or any loss of data as the result of errors or omissions. Thermo Fisher reserves the right to make changes to the manual or improvements to the product at any time without notice. The material in this manual is proprietary and cannot be reproduced in any form without expressed written consent from Thermo Fisher.

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Revision History Revision Level Date Comments 1.0 07-2001 Initial release. A 03-2005 Name change. B 07-2007 Per ECO 5804. C 03-2008 Per ECO 5835. D 12-2008 Per ECO 5930. E 11-2009 Per ECO 7168. F 06-2011 Per ECO 7705. Thermo Fisher Scientific DensityPRO+ Installation Guide v

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Contents Safety Information & Guidelines... ix Safety Considerations...ix Warnings, Cautions, & Notes...ix Chapter 1 Introduction... 1-1 Associated Documentation... 1-1 Chapter 2 Chapter 3 Chapter 4 Handling & Storage... 2-1 ESD Procedures... 2-1 Unpacking, Inspection, & Storage... 2-2 Installation... 3-1 General... 3-1 Licensing... 3-2 Guidelines... 3-2 General... 3-2 Power Options... 3-3 The Transmitter... 3-4 Installing Transmitter Boards... 3-5 AC Power Supply... 3-6 The Gauge Head... 3-7 Mounting Configurations... 3-7 Mounting Instructions... 3-9 Dual Chain Mount... 3-9 Pipe Saddle (Cradle) Mount... 3-12 Pipe Spool Mount... 3-14 Wiring... 4-1 Preparation... 4-1 General Wiring Procedures... 4-2 For Scintillation Detectors... 4-2 For Ion Chamber Detectors... 4-4 For the Transmitter... 4-5 EMC Requirement for ATEX Version of 1400S Transmitters... 4-5 Procedure... 4-6 Detector Type Selection... 4-7 Power Supply Wiring... 4-7 Power to the Scintillation Detector... 4-7 Thermo Fisher Scientific DensityPRO+ Installation Guide vii

Contents DC Power... 4-7 AC Power... 4-8 Power to the Ion Chamber Detector... 4-9 Power to the Transmitter... 4-10 AC Power... 4-10 DC Power... 4-10 Detector Signal Wiring... 4-11 Optional Wiring... 4-12 Relays... 4-12 Current Output... 4-12 Contact Closure (Switch) Inputs... 4-13 Temperature Compensation... 4-13 Flow Input... 4-13 Serial Communications... 4-13 Optional RS485 Wiring... 4-14 RS485 Termination... 4-14 RS232 Wiring... 4-14 HART Communications... 4-15 Chapter 5 Appendix A Appendix B Appendix C Appendix D Getting Help...5-1 Contact Information... 5-1 Returning Equipment for Service... 5-1 Ordering Information...A-1 Specifications...B-1 Drawings... C-1 Adding Ferrite Clamps to 1400S Transmitter...D-1 Procedure... D-1 Index...INDEX-1 viii DensityPRO+ Installation Guide Thermo Fisher Scientific

Safety Information & Guidelines This section contains information that must be read and understood by all persons installing, using, or maintaining this equipment. Safety Considerations Warnings, Cautions, & Notes Failure to follow appropriate safety procedures or inappropriate use of the equipment described in this manual can lead to equipment damage or injury to personnel. Any person working with or on the equipment described in this manual is required to evaluate all functions and operations for potential safety hazards before commencing work. Appropriate precautions must be taken as necessary to prevent potential damage to equipment or injury to personnel. The information in this manual is designed to aid personnel to correctly and safely install, operate, and/or maintain the system described; however, personnel are still responsible for considering all actions and procedures for potential hazards or conditions that may not have been anticipated in the written procedures. If a procedure cannot be performed safely, it must not be performed until appropriate actions can be taken to ensure the safety of the equipment and personnel. The procedures in this manual are not designed to replace or supersede required or common sense safety practices. All safety warnings listed in any documentation applicable to equipment and parts used in or with the system described in this manual must be read and understood prior to working on or with any part of the system. Failure to correctly perform the instructions and procedures in this manual or other documents pertaining to this system can result in equipment malfunction, equipment damage, and/or injury to personnel. Warnings, cautions, and notes are used throughout this manual to alert users to potential hazards or important information. Failure to heed the warnings and cautions in this manual can lead to injury or equipment damage. Warning Warnings notify users of procedures, practices, conditions, etc. which may result in injury or death if not carefully observed or followed. The triangular icon displayed with a warning depends on the type of hazard (general, electrical, radiation). Thermo Fisher Scientific DensityPRO+ Installation Guide ix

Safety Information & Guidelines Warnings, Cautions, & Notes Caution Cautions notify users of operating procedures, practices, conditions, etc. which may result in equipment damage if not carefully observed or followed. Note Notes emphasize important or essential information or a statement of company policy regarding an operating procedure, practice, condition, etc. Tip Tips may also be used in this manual. They are suggestions or things to consider that will help you use the instrument or this manual. x DensityPRO+ Installation Guide Thermo Fisher Scientific

Chapter 1 Introduction Refer to the Density PRO+ User Guide (p/n 717819) for a description of instrument functions and features, ordering information, and product specifications. Associated Documentation In addition to this guide, the following documents must be read and understood by all persons installing, using, or maintaining this equipment: DensityPRO+ User Guide (p/n 717819) Gamma Radiation Safety (p/n 717904) Thermo Fisher Scientific DensityPRO+ Installation Guide 1-1

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Chapter 2 Handling & Storage This chapter addresses procedures for handling electrostatic discharge (ESD) sensitive equipment, as well as procedures for unpacking, inspecting, and storing of the system. Caution This system is an ESD sensitive instrument. Use proper ESD protective equipment and procedures. Failure to comply with ESD procedures can result in circuit damage. ESD Procedures The instrument contains electronic components that can be damaged from discharges of static electricity. Ordinarily, handling the circuit boards by their edges will not damage the circuits. Caution Do not touch the circuit board components. Observe the following when installing, setting up, servicing, troubleshooting, or repairing the instrument: 1. Use an antistatic bag. Most instrument subassemblies are shipped in a special antistatic bag. When not installed, keep the assembly in the bag as often as possible. 2. Remove ESD sensitive subassemblies only under the following conditions: a. When at a designated static-free workstation or when the bag is grounded at a field site. b. After the conductive area of the container has been neutralized. c. After making firm contact with an antistatic mat and / or firmly gripping a grounded individual. 3. Personnel handling ESD sensitive devices should be neutralized to a static-free workstation by means of a grounding wrist strap that is connected to the station or to a good grounding point at the field site. Thermo Fisher Scientific DensityPRO+ Installation Guide 2-1

Handling & Storage Unpacking, Inspection, & Storage 4. Do not allow clothing to make contact with ESD sensitive devices. 5. Avoid touching edge connectors and components. 6. Avoid partially connecting ESD sensitive devices. These devices, especially the power supply connector, can be damaged by floating leads. 7. Ground test equipment. 8. Avoid static charges during troubleshooting. Unpacking, Inspection, & Storage All personnel involved in the packing, shipping, or receiving of hazardous material must be trained in accordance with the United States Department of Transportation (DOT) and OSHA hazardous materials regulations or in accordance with the Canadian Nuclear Safety Commission (CNSC) regulations. Note Inspection, adjustment, installation, and maintenance of the instrument must be performed by experienced personnel only. 1. Upon receipt, inspect the instrument for damage that may have occurred while in transit. If there is evidence of rough handling or damage, file a damage claim with the transportation company immediately. Notify Thermo Fisher and / or your sales representative as soon as possible. 2. Carefully inspect the packing material prior to discarding it to ensure that all equipment and instruction paperwork has been removed. 3. Use the original packing material and container for storage if necessary. 4. If storing the instrument, the storage environment should be protected, free from extremes of temperatures and high humidity, and fall within the environmental constraints listed in the specification appendix. 2-2 DensityPRO+ Installation Guide Thermo Fisher Scientific

Chapter 3 Installation Read Gamma Radiation Safety (p/n 717904) prior to installing the equipment. Tip Copies of the drawings referenced in this manual are provided in Appendix C. General The Thermo Scientific DensityPRO+ integrated gamma density system consists of three components: 1. One of the following transmitter models: Thermo Scientific 1400A transmitter with non-metallic enclosure (NEMA 4X) Thermo Scientific 1400A transmitter with cast aluminum enclosure (NEMA 7/ NEMA 4) Thermo Scientific 1400S transmitter with stainless steel enclosure (NEMA 4X/IP65) 2. One of the following detector models: Thermo Scientific 9701 or 9702 ion chamber detector Thermo Scientific 9719B or 9720B scintillation detector 3. One of the following source head models: Thermo Scientific 5190, 5191, 5176, 5200, 5201, 5202, 5203, 5204, or 5211 Note In this manual, the generic use of transmitter or transmitters implies the 1400A and 1400S transmitters. The specific model name will be used only when necessary. Note The combination of the detector and the source head is referred to as the gauge head. Thermo Fisher Scientific DensityPRO+ Installation Guide 3-1

Installation Licensing Licensing Warning The instrument is a nuclear device regulated by federal and / or state authorities. You are responsible for knowing and following the pertinent safety and regulatory requirements. Refer to Gamma Radiation Safety (p/n 717904) for a summary of these requirements. Warning Moving or removing an installed source housing or any assembly that includes a source housing requires a person who is specifically licensed to install and commission Thermo Scientific source heads. Guidelines In the United States, your general license permits you to own and install all of the instrument s components, including the source head. However, you may not commission the instrument (remove the lock and open the source housing shutter for the first time) without a specific license authorizing radiation commissioning of the instrument. In Canada, you are only allowed to remove the instrument from the shipping container if your CNSC license has a condition authorizing mounting / dismounting of devices. For assistance obtaining a license or commissioning / decommissioning the instrument, contact Thermo Fisher. Warning Do not install the system in any hazardous area other than those approved. Refer to the equipment tag for the specific approvals applicable to the configuration of your instrument. Warning Do not apply power to the instrument in any hazardous area unless the safety ground is properly wired inside the instrument and the cover is properly installed. General Review the following guidelines when planning gauge installation. Also refer to the installation layout drawing 868695 in the drawing appendix. 1. Correct power source is available. See Power Options later in this chapter. 2. Operating temperature range: a. Transmitter: -40 C to +60 C (-40 F to +140 F) b. Scintillation or ion chamber detector: -30 C to +60 C (-20 F to +140 F) 3-2 DensityPRO+ Installation Guide Thermo Fisher Scientific

Installation Guidelines 3. The transmitter should be mounted so that the display is easily seen and the keypad on the transmitter (if applicable) is easily accessible. 4. The transmitter should not be mounted near high voltage, high current, corrosive vapors, corrosive liquids, or corrosive esters. 5. There should be enough clearance to install and service the gauge head. Refer to the appropriate drawings for your type of gauge and mount (Appendix C). 6. The source housing should be positioned so that the radioactive source identification tag is visible. The source housing tag should be upright. 7. The gauge should not be mounted where process overflow or other material can collect in the beam path. The source shutter mechanism must be kept free of debris. 8. The maximum cable length between the transmitter and the detector varies with the gauge of the wire, but should not exceed 5000 feet (1525 m) for an ion chamber detector or 1000 feet (300 m) for a scintillation detector. Power Options 1400A/1400S transmitters 115/230 Vac (100 240 Vac), 50/60 Hz, 12 VA 24 Vdc (20 28 Vdc), 12 VA 9701/9702 ion chamber detector 115/230 Vac ± 10%, 50/60 Hz, 500 VA 9719B/9720B scintillation detector 24 Vdc ± 20%, 12 VA, at detector input 115/230 Vac ± 15%, 50/60 Hz, 12 VA Thermo Fisher Scientific DensityPRO+ Installation Guide 3-3

Installation The Transmitter The Transmitter Warning Do not install the unit in any hazardous area other than those approved. Refer to the equipment tag for the specific approvals applicable to the configuration of your instrument. Follow all instructions on the installation drawings. Warning Do not apply power to the unit in any hazardous area unless the safety ground is properly wired inside the unit and the cover is properly installed. Warning Use proper lifting procedures during installation to avoid injury. Refer to the proper dimensional drawing for the transmitter mounting dimensions: 868212: 1400A transmitter with non-metallic enclosure (NEMA 4X) 868214: 1400A transmitter with cast aluminum enclosure (NEMA 7/ NEMA 4) 208-140002: 1400S transmitter with stainless steel enclosure (NEMA 4X/IP65) Mount the transmitter in one of the following two ways: With four screws: Place one screw through each of the four holes in the transmitter enclosure s flange and tighten. With four nuts, four bolts, and eight washers: Place one bolt through each of the four holes in the transmitter enclosure s flange, with one washer on each side. Screw on the nuts, and tighten the bolts. 3-4 DensityPRO+ Installation Guide Thermo Fisher Scientific

Installation The Transmitter Installing Transmitter Boards Warning Remove all power from the unit prior to opening the transmitter enclosure. Electrocution can result if power is present. The following procedure applies to all transmitter boards except for the AC power supply. Refer to AC Power Supply later in this chapter. 1. Verify that power has been removed from the transmitter. 2. Remove the screws on the faceplate (cover) and open it. 3. If replacing a board, remove the board that is currently installed: a. Unplug any screw-in terminal connectors that have been wired from the board. b. Remove the board retaining screw in the upper card guide. c. Firmly but carefully push down on the top edge of the board to disengage the board connector from the transmitter. Pull up and out on the bottom edge of the board to remove it. 4. Align the board with the upper and lower card guide slots, and insert the board into the slots. 5. Line up the 3-pin by 16-pin male connector on the board with the corresponding connector on the back of the transmitter. 6. Firmly but carefully push on the board until the connector is fully seated. 7. Insert and tighten the board retaining screw in the upper card guide. 8. Connect the screw-terminal connector(s) to the corresponding replacement board connectors. 9. Refer to Chapter 4 for wiring procedures. 10. Close the transmitter and tighten the cover screws. Thermo Fisher Scientific DensityPRO+ Installation Guide 3-5

Installation The Transmitter AC Power Supply Warning If a power supply fails, the input capacitor might still be charged at a high voltage (up to 400 volts). Caution Do not remove the four screws that secure the power supply to the mounting bracket. The power supply and mounting bracket are placed as a single unit. Note The old power supply assembly is not field repairable. 1. Follow the procedure in step 3 above to remove all other transmitter boards (CPU, PCB 1, PCB 2, PCB 3, and PCB 4). 2. Remove the two hold-down screws from the base of the power supply mounting bracket. These screws secure the power supply mounting bracket to the main board. 3. Disconnect cables from the power supply (AC, DC, and Protective Safety Ground). Cut the tie wrap that secures the toroid to the power supply. 4. If replacing the power supply, remove the existing power supply and mounting bracket assembly. Replace it with the new supply. 5. Connect the cables to the replacement power supply (see Power to the Transmitter in Chapter 4 for wiring instructions). 6. Tighten the two hold-down screws to secure the power supply to the main board. (A screw-holding screwdriver facilitates installation.) 7. Reinstall the transmitter boards. 3-6 DensityPRO+ Installation Guide Thermo Fisher Scientific

Installation The Gauge Head The Gauge Head Warning Installation must be in accordance with local and national electric codes for the area classifications. Warning The source housing handle must be in the OFF position during installation. Warning Do not reach inside the source housing at any time during installation. Warning Use proper lifting procedures during installation to avoid injury. Mounting Configurations The optimum gauge mounting configuration depends on the application; however, the source head and the detector are typically mounted together on the opposite sides of a pipe. The following mounting options are supported for the gauge: Dual chain Pipe saddle (cradle) mount Pipe spool with gauge head pre-installed The chain mount is the most frequently used mounting configuration, as it allows the unit to be mounted on a range of pipe sizes using the same mounting hardware. Note Moving the gauge to a pipe with a different diameter may require changing the radiation source size and/or reconfiguring the detector (ion chamber) electronics. Contact Thermo Fisher for assistance. In addition to the guidelines listed earlier in this chapter, note the following when planning gauge head installation. Whichever mounting configuration is used, it is important to align the beam path (the centerline of the source housing) as closely as possible with the centerline of the detector housing. Be sure to mount the gauge head securely, since any movement or change in alignment can affect the gauge s calibration. Thermo Fisher Scientific DensityPRO+ Installation Guide 3-7

Installation The Gauge Head For best performance the beam must pass through a representative cross-section of the process material being measured. The gauge measures only the material that passes through the beam. Prevent suspended solids from settling out of the measured area by mounting the gauge head on a vertical section of pipe. For mounting on a horizontal pipe: Position the beam path at a 30- to 45-degree angle from vertical. This position tends to average density variations caused by settling, while reducing the effect of any trapped gases or solids that accumulate in the top or bottom of the pipe. If the process material is a solution, a light slurry, or a single-phase liquid that will not separate, the gauge head can be mounted such that the beam is horizontal. If the process material is a slurry, position the gauge head as far as possible from any elbows, tees, or valves (these tend to separate suspended solids). Position the beam path in the plane of the upstream elbow so the measurement includes any uneven distribution caused by the fitting. Figure 3 1. Gauge installation examples 3-8 DensityPRO+ Installation Guide Thermo Fisher Scientific

Installation The Gauge Head Mounting Instructions The following sections provide installation details for the various mounting configurations. Refer to the following drawings for detector dimensions. 867468: 9719B scintillation detector, NEMA 4 housing 867469: 9720B scintillation detector, explosion proof housing 866778: 9701 ion chamber detector, NEMA 4 housing 866777: 9702 ion chamber detector, explosion proof housing Warning Use proper lifting procedures during installation to avoid injury. Caution Do not over tighten the bolts. Dual Chain Mount For the dual chain mount, two mounting chains are wrapped around the pipe with their ends engaging keyhole-shaped openings in the source head mounting plate. The detector housing is then clamped to the two chains center links (opposite the source mounting plate) by tensioning bolt assemblies. Details of the chain mount depend on the detector type, but the installation is similar for both types. Refer to the following drawings for mounting details. 867466: 9719B scintillation detector 867467: 9720B scintillation detector 867172: 9701/9702 ion chamber detector Figure 3 2. Dual chain mount Thermo Fisher Scientific DensityPRO+ Installation Guide 3-9

Installation The Gauge Head 1. Use the tables below to determine the number of chain links to thread through the keyhole slots. Count the links and mark the ones that will be engaged at each end of the two chains (four links in all). For scintillation detectors, use chain p/n 867103. For ion chamber detectors, use chain p/n 867104. Table 3 1. Dual chain mounting for 9719B and 9720B scintillation detectors Pipe Size (inches) Links from Center Links from End Links from Center 2 7 23 6 24 2.5 7 23 6 24 3 8 22 7 23 3.5 8 22 7 23 4 9 21 8 22 5 10 20 9 21 6 12 18 11 19 8 14 16 13 17 10 17 13 16 14 12 20 10 19 11 14 21 9 20 10 16 24 6 23 7 18 25 5 24 6 Links from End Table 3 2. Dual chain mounting for 9701 and 9702 ion chamber detectors Pipe Size (inches) Links from Center Links from End Links from Center 2 29 25 28 26 2.5 32 22 31 23 3 34 20 33 21 3.5 37 17 36 18 4 40 14 39 15 5 42 12 41 13 6 45 9 44 10 8 47 7 46 8 10 50 4 49 5 Links from End 3-10 DensityPRO+ Installation Guide Thermo Fisher Scientific

2. For 9701/9702 ion chamber detectors, partially assemble the two tensioning bolts (hardware kit 885825) in the following order: a. 1 tensioning bolt (large) b. 1 flat washer: Place onto bolt next to bolt head. c. 1 spacer ring d. 2 Belleville washers with concave sides together e. 1 special nut: Thread nut securely onto the bolt end. Installation The Gauge Head 3. For 9719B/9720B scintillation detectors, partially assemble the two tensioning bolts (hardware kit 885826) in the following order: a. 1 tensioning bolt (large) b. 1 chain: Place center ring of chain over the bolt head. c. 1 bar nut: Position the guard tube towards the bolt head. d. 1 special nut: Thread the nut securely onto the bolt end. After the special nut is fully threaded, thread the bar nut back down the bolt so that it rests against the special nut. 4. From the pipe side of the source mounting plate, thread one end of a chain through the plate s top keyhole opening until you reach one of the four end links you marked in step 1. Engage this link by sliding it into one of the keyhole slots. 5. Thread one end of the other chain through the bottom keyhole and engage the marked link as you did with the top chain. 6. Position the source housing mounting plate on the pipe. If necessary, use a lift, hoist, or other means to hold it in position. 7. Pass the center part of the upper and lower chains around the pipe and thread their ends through the corresponding keyholes. Engage the marked links in the empty slots. Note All four chain ends must engage at the same link. If you make an adjustment, adjust all four chain ends by the same amount. Also make sure there are no twists in the chain as you wrap it around the pipe. Otherwise the gauge head will not be aligned correctly. Thermo Fisher Scientific DensityPRO+ Installation Guide 3-11

Installation The Gauge Head Note You may need to adjust chain links (thread more or fewer links through each slot) to allow for pipe size tolerance, insulation, etc. Start with approximately 10 cm (4 inches) of play. 8. Position the detector on the pipe, opposite the source mounting plate. If necessary, use a lift, hoist, or other means to hold it in position. 9. To secure the detector and the source head mounting plate on the pipe: a. Position the upper chain, including the tensioning bolt assembled earlier, over the detector s top mounting arm. b. Place a spacer ring and two Belleville washers with concave sides together onto the pilot end of the special nut. c. Insert the pilot end of the chain tensioning bolt into the hole in the top detector mounting arm and tighten the chain tensioning bolt finger-tight. d. Repeat the previous three steps for the lower chain. 10. Alternately and uniformly tighten the chain tensioning bolts until the spacers are just touching the mounting arms. 11. Place the loose ends of the upper chain over the top edge of the source mounting plate so they will not interfere with the source housing installation. 12. Position the source housing so its four mounting holes engage the four studs on the mounting plate. If necessary, use a lift, hoist, or other means to hold it in position. 13. Use the provided lock washers and nuts to secure the source housing. Pipe Saddle (Cradle) Mount A pipe saddle, or cradle, mount consists of two identical mounting plates that are bolted together on opposite sides of the process pipe. Refer to drawing 85726N and follow the steps below to install a gauge head with a pipe saddle mount. 3-12 DensityPRO+ Installation Guide Thermo Fisher Scientific

Installation The Gauge Head Figure 3 3. Pipe saddle mount 1. Assemble the two halves of the saddle mount onto the process pipe using the supplied nuts, bolts, and washers. Thread the nuts and bolts together, but do not tighten them. 2. Adjust the saddle mount halves so the mounting plates are parallel and even with each other. Then tighten the bolts evenly so the clamp ends are the same distance apart on both sides of the pipe. 3. Bolt the detector and source housings to the mounting plates on either side of the pipe saddle. 4. Tighten all bolts securely so the gauge head components cannot shift positions. Thermo Fisher Scientific DensityPRO+ Installation Guide 3-13

Installation The Gauge Head Pipe Spool Mount A pipe spool is normally a 30-inch section of pipe with either mounting plates or a complete gauge head already installed. Often, a length of the required pipe is sent to Thermo Fisher to be converted into a pipe spool mount. Caution Use correct pipe fitting techniques suitable for the pipe being used and the process material that the pipe will handle. 1. Assemble the pipe spool into the existing pipe. 2. Position the source housing so its identification tag is upright. 3. If the detector and source housings are not already installed, bolt them to the mounting plates on either side of the pipe saddle. 4. Tighten all bolts securely. 3-14 DensityPRO+ Installation Guide Thermo Fisher Scientific

Chapter 4 Wiring Wiring should be performed in the following order: 1. Power to the transmitter and detector 2. The detector to the transmitter 3. Optional wiring: a. Relay contacts b. 4 20 ma current output(s) c. Contact closure inputs d. Optional temperature compensation board to the transmitter e. Serial communications Preparation Review the following carefully prior to connecting any wiring. Warning Remove all power from the unit before making any connections. Electrocution can result if power is present. Warning All wiring must be done by qualified individuals in accordance with applicable codes such as the NEC (National Electric Code) ANSI/NFPA 70 specifications or the Canadian Electrical Code Part 1. Only approved conduit, boxes, and fittings may be used. Warning Do not apply power to the unit in any hazardous area unless the safety ground is properly wired inside the unit and the cover is properly installed. Thermo Fisher Scientific DensityPRO+ Installation Guide 4-1

Wiring General Wiring Procedures Warning For hazardous location installations, the cable entries must be sealed per the installation layout drawing 868695. For non-hazardous location installations, the cable entries into the enclosures must be sealed to prevent passage of gas or vapors. The surrounding atmosphere or liquids should not affect the sealing compound. The minimum thickness of the sealing compound should be 16 mm (5/8 ). Warning If metal conduit is used, the conduit must be grounded. Warning Before wiring, verify that the source shutter is in the closed (OFF) position. The installation layout drawing 868695 provides general guidance for routing the cables between the detector and the transmitter. The drawings below provide instructions on wiring the detector and transmitter. 868680-2: Installation wiring, 1400A/1400S transmitter 868577: Installation wiring, 9719B/9720B scintillation detector 868697: Installation wiring, 9701/9702 ion chamber detector General Wiring Procedures This section provides general instructions for detector and transmitter wiring. Wiring details, such as power supply connections, are provided in the remainder of this chapter. For Scintillation Detectors Use the following procedure when wiring 9719B and 9720B scintillation detectors: 1. Make sure all source shutters are in the OFF position. 2. Make sure all power to the gauge is turned off. 3. Remove the housing access cover: For the 9719B detector, remove the bolts that secure the cover to the housing. For the 9720B detector, loosen the screw on the cover retaining bracket and slide the bracket off of the housing cover. Unscrew the housing access cover (two lugs are provided on the top of the cover to aid in the removal of the cover). 4-2 DensityPRO+ Installation Guide Thermo Fisher Scientific

Wiring General Wiring Procedures 4. Remove the cable conduit plugs only from the hole(s) that will be used. As shown in the installation layout drawing 868695, lay one conduit for the signal cables (and DC power input, if applicable), and a second conduit for the AC power input. 5. Pull each cable through the correct conduit fitting and into the enclosure. Leave approximately 150 mm (six inches) for strain relief. Secure the conduit, making sure it is completely sealed. 6. Connect the input power and the signal wires as follows. Reference the installation wiring drawing 868577. a. Remove the plug-in screw-terminal connector from the board connector. The connector should be tightly seated. To remove the connector, brace the board with your hand, being careful not to touch any of the circuits or components. b. Use a 1/8-inch screwdriver to loosen the screws on the plug-in connector. c. Insert the wires and make connections as shown in the installation wiring drawing. d. Tighten the screws in the connector to secure the wires and plug the screw-terminal connector back into the corresponding onboard connector. e. The optional temperature compensation board uses a spring terminal block connector. For each wire to be connected, use a flat screwdriver to push and hold the appropriate tab down. Insert the wire, and then release the tab to secure the wire. 7. When the detector wiring is complete, replace and secure the detector housing cover. Thermo Fisher Scientific DensityPRO+ Installation Guide 4-3

Wiring General Wiring Procedures For Ion Chamber Detectors Use the following procedure when wiring 9701 and 9702 ion chamber detectors. You will need a 1/8-inch bladed screwdriver. Note While wiring the ion chamber detector, locate the Hi-Meg label on the detector circuit board. A large resistance value will be written on this label (for example, 4.7 x 1011). Write down this value along with the detector s serial number. The Hi-Meg value will be needed during the gauge setup to fine tune the gauge. 1. Make sure all source shutters are in the OFF position. 2. Make sure all power to the gauge is turned off. 3. Remove the housing access cover: For the 9701 detector, remove the bolts that secure the cover to the housing. For the 9702 detector, loosen the screw on the cover retaining bracket and slide the bracket off of the housing cover. Unscrew the housing access cover (two lugs are provided on the top of the cover to aid in the removal of the cover). 4. Remove the foam insulator and the two brass-colored centering plates. 5. As shown in the installation layout drawing 868695, the AC power and signal wiring should not be run in the same conduit for more than three meters (ten feet). If required, use a conduit splitter and lay one conduit for the signal cables and a second conduit for the AC power wiring. 6. Pull each cable through the conduit and into the enclosure. Leave approximately 150 mm (six inches) for strain relief. Secure the conduit, making sure it is completely sealed. 7. Connect the input power, the ion chamber signal wires, and the temperature compensation board wires, if applicable, as shown in the installation wiring diagram 868697. 4-4 DensityPRO+ Installation Guide Thermo Fisher Scientific

Wiring General Wiring Procedures Note Connect the AC wiring Earth ground to the internal safety ground terminal (on the inside of the detector housing) as shown in the wiring diagram. Do not connect the shield from the signal cable at the detector end. 8. Position the two brass-colored centering plates over the circuit board with the smaller plate on top of the larger plate. Be careful to not pinch any wiring. Thread in and finger-tighten the four screws that secure the centering plates. 9. Insert a medium-sized flat blade screwdriver into the stepped (jagged) opening in the larger centering plate. Twist the screwdriver to push the two plates apart until the detector is locked in position. Tighten the four screws to secure the centering plates and the detector. 10. When the wiring is complete, replace and secure the detector housing cover. For the Transmitter EMC Requirement for ATEX Version of 1400S Transmitters In order for the 1400S transmitter to meet electromagnetic emission requirements for CE-EMC approvals, ferrite clamps must be installed within the transmitter enclosure on all power and signal wiring going into and out of the transmitter housing. One ferrite clamp is installed on the wires of the AC power supply input. Five additional ferrite clamps are provided with the EMC ferrite clamps kit (p/n 868773). The installation procedure accompanies the kit. It is also provided in Appendix D. Note The ferrite clamps are only used in the ATEX version of the 1400S transmitter. They are not required for the CSA version or the plastic 1400A transmitter. Thermo Fisher Scientific DensityPRO+ Installation Guide 4-5

Wiring General Wiring Procedures Procedure The transmitter has slots for the following boards: Optional AC power supply CPU board PCB 1: Standard current I/O / DC power board PCB 2: Optional current I/O board with two contact inputs and two optional relays PCB 3: Optional current I/O board with two contact inputs and two optional relays PCB 4: Voltage/current pulse interface (VPI) board (p/n 868712), used to interface with the detector Follow this general procedure for wiring boards installed in the transmitter, RS232 or RS485 serial ports, relay contacts, contact closure inputs, 4 20 ma current output(s), and detector signal cables to the transmitter. You will need a 1/8-inch bladed screwdriver. Note CSA certified fittings must be used to maintain CSA rating for the enclosure. 1. Ensure power is removed, and open the enclosure cover. 2. Remove the plugs only from the cable conduit holes you will use. The holes are labeled on the transmitter enclosure. 3. Pull the cable through the fitting on the end of the enclosure. Leave approximately 6 inches (150 mm) of stress relief. Secure the conduit, ensuring it is completely sealed. 4. For ATEX versions of the 1400S: Install a ferrite clamp on all wiring. You will need kit 868773. Refer to Appendix D. 5. Connect a cable to a PCB as follows: a. Remove the plug-in screw terminal connector from the board connector. If the connector is tight, brace the board with your hand to remove the screw terminal connector, but be careful to not touch any circuit components. b. Loosen the terminal screws on the connector. Insert the wires into the connector and make connections as shown in the appropriate installation wiring drawing. 4-6 DensityPRO+ Installation Guide Thermo Fisher Scientific

c. Tighten the terminal screws to secure the wires. Wiring Power Supply Wiring d. Plug the screw-terminal connector back into the corresponding onboard connector. 6. When all connections are complete, close and secure the transmitter cover. Detector Type Selection Three, two-pin headers (JP1, JP2, and JP3) are located along the edge of the VPI board near the top of the board. A jumper should be installed on one (and only one) of these headers to indicate the detector type as follows: JP1: Ion chamber detector JP2: Scintillation detector SGD mode JP3: Scintillation detector PRO mode Caution Remove power from the transmitter before changing jumper settings. Failure to do so may result in damage to the VPI board. Power Supply Wiring Power to the Scintillation Detector When connecting power to the 9719B/ 9720B scintillation detectors, refer to installation wiring diagram 868577. Note To meet the requirements of CSA 1010.1, an external switch or circuit breaker must be installed to allow the power source to be disconnected from the gauge. In addition, protective bonding (grounding) must always be provided, even if a DC power source is used. DC Power The 9719B/9720B scintillation detectors are designed to operate on 24 Vdc ± 20%. The input connector for the DC source voltage wiring is located on the interface/ adapter board. Note To meet the requirements of CSA 1010.1, the input DC terminals shall be supplied from an SELV (Safety Extra Low Voltage) source. Connections are shown in the table below. Thermo Fisher Scientific DensityPRO+ Installation Guide 4-7

Wiring Power Supply Wiring Table 4 1. DC power wiring for 9719B/9720B scintillation detectors User Power Supply (+24Vdc, 0.5 A) Detector + J1-2 - J1-1 AC Power With the AC power board installed, the scintillator detector may be operated using either 115 or 230 Vac ± 15%. The AC supply voltage is set by the 115/230 Vac selector switch. The selector switch is located on the AC power board, below the connectors and just above the transformer. To access the selector switch, it is necessary lift the detector chassis several inches out of the housing. If both AC and DC input power are supplied to the detector, the detector will draw power from whichever source provides the higher DC voltage. Caution Applying 230 Vac with the selector switch in the 115 Vac position will damage the equipment. Caution For reliable operation and to maintain safety approval, the F1 fuse on the AC power board must only be replaced with an approved fuse. Reference installation wiring diagram 868577 Table 4 2. AC power wiring for 9719B/9720B scintillation detectors AC Power Supply Detector N J17-1 L J17-2 Note Connect the AC wiring Earth ground to the internal safety ground terminal as shown in the wiring diagram. 4-8 DensityPRO+ Installation Guide Thermo Fisher Scientific

Wiring Power Supply Wiring Power to the Ion Chamber Detector The 9701/9702 ion chamber detectors may be operated using either 115 or 230 Vac ± 10%. The maximum input power requirement is 500 VA. When connecting power to the 9701/9702 detectors, refer to installation wiring drawing 868697. Note Connect the AC wiring Earth ground to the internal safety ground terminal provided on the inside of the detector housing as shown in the wiring diagram. Caution Applying 230 Vac with the selector switch in the 115 Vac position will damage the equipment. The ion chamber detector is shipped wired for either 115 or 230 Vac operation. If necessary, the detector s operating voltage can be changed by following the procedure below. 1. The two red wires should be installed on the marked push-on tabs (RED1 and RED2). 2. Install the four heater wires (two white wires and two black wires) on the push-on tabs as follows: a. One white wire on the Wh tab. b. One black wire on the Bk tab. c. For 115 Vac operation: - One white wire on the Wh/115 tab. - One black wire on the Bk/115 tab. d. For 230 Vac operation: - One white wire on the Wh/230 tab. - One black wire on the tab Bk/230 tab. 3. Set the 115/230 Vac selection switch (located next to the transformer) to the desired voltage. Caution For reliable operation and to maintain safety approval, the F1 fuse on the AC power board must only be replaced with an approved fuse. Reference installation wiring diagram 868697. Thermo Fisher Scientific DensityPRO+ Installation Guide 4-9

Wiring Power Supply Wiring Power to the Transmitter When connecting power to the 1400A/1400S transmitters, refer to installation wiring drawing 868680-2. Note To meet the requirements of CSA 1010.1, an external switch or circuit breaker must be installed to allow the power source to be disconnected from the gauge. In addition, protective bonding (grounding) must always be provided even if a DC power source is used. AC Power With AC power, the 1400A and 1400S transmitters are designed to operate on 100 240 Vac, at an input frequency of 50/60 Hz. The same system configuration can be directly wired to either 115 or 230 Vac. The maximum input power requirement is 12 VA when all options are present. Connections are shown in the table below. Table 4 3. AC power wiring for 1400A/1400S transmitters AC Power Supply L N Transmitter J1-L J1-N DC Power Note To meet the requirements of CSA 1010.1, the input DC terminals must be supplied from an SELV (Safety Extra Low Voltage) source. With 24 Vdc power, the 1400A and 1400S transmitters are designed to operate on 20 28 Vdc. The maximum input power requirement is 12 VA when all options are present. Connections are shown in the table below. Table 4 4. 24 Vdc power wiring for 1400A/1400S transmitters +24Vdc Power Supply +24Vdc +24Vdc return Transmitter J5-8 (+24Vdc input) J5-9 (GND) 4-10 DensityPRO+ Installation Guide Thermo Fisher Scientific

Wiring Detector Signal Wiring Detector Signal Wiring All signals from the detector are wired to the VPI board that is installed in the transmitter slot PCB 4. Refer to the appropriate installation wiring drawings for the detailed requirements. 868680-2: Installation wiring, 1400A/1400S transmitter 868577: Installation wiring, 9719B/9720B scintillation detector 868697: Installation wiring, 9701/9702 ion chamber detector Caution Remove power from the transmitter before changing jumper settings. Failure to do so may result in damage to the VPI board. Signal wiring for the 9719B/9720B scintillation detectors are shown in the tables below. Use 22 16 AWG individually shielded cable (1000 ft maximum). Table 4 5. Wiring for scintillation detector data and references pulses Scintillation Adaptor Board VPI Board in 1400A/1400S Transmitter J2-1 (DATA (H)) J1B-15 (+PULSE DATA) J2-2 (SHIELD) J1B-21 (SHIELD) J2-3 (DATA (L)) J1B-16 (-PULSE DATA) J2-4 (REF (H)) J1B-17 (+PULSE REF) J2-5 (SHIELD) J1B-21 (SHIELD) J2-6 (REF (L)) J1B-18 (-PULSE REF) Table 4 6. Wiring for scintillation detector HV pulses or duty cycle mode Scintillation Adaptor Board VPI Board in 1400A/1400S Transmitter J3-1 (INC (H)) J1B-19 (+HV INCREASE) J3-2 (SHIELD) J1B-24 (SHIELD) J3-3 (INC (L)) J1B-20 (-HV INCREASE) J3-4 (DEC (H)) J1B-22 (+HV DECREASE) J3-5 (SHIELD) J1B24 (SHIELD) J3-6 (DEC (L)) J1B-23 (-HV DECREASE) Thermo Fisher Scientific DensityPRO+ Installation Guide 4-11

Wiring Optional Wiring Note The transmitter is used in duty cycle mode unless it is wired to a D series scintillation detector. The duty cycle mode is set by connecting jumper P3 pin 1 and 2 on the scintillation adapter board and shorting JP3 on the VPI board. Note Install two jumpers on P2. Jumper pin 1 to pin 3 and pin 2 to pin 4. Signal wiring for the 9701/9702 ion chamber detectors is shown below. Table 4 7. Wiring for ion chamber detector signal 9701/9702 Ion Chamber VPI Board in 1400A/1400S Transmitter J2-3 (+) J1A-8 (+ION CHAMBER) J2-4 (-) J1A-0 (-ION CHAMBER) Optional Wiring For optional wiring, refer to installation wiring drawing 868680-2. Relays I/O boards installed in transmitter slots PCB 1 through PCB 3 can have two relays each, allowing for a maximum of six relays. Connector J1 is for relays and is only installed on the PCB if relays were specified in the order. Relay contacts are Form C SPDT, isolated 8 A, 22 Vac. You can assign process alarms to control the relays. Refer to the DensityPRO+ user guide for details. Current Output One current output (I/O) board is supplied as standard and installed in the PCB 1 slot. Two additional I/O boards are optionally available are installed the transmitter s PCB 2 and PCB 3 slots. The current output is normally shipped from the factory configured as an isolated self-powered output. You can reconfigure the current output as isolated loop-powered by removing the jumper from pins 3 and 4 of the J5 connector. In the loop-powered configuration, the user must supply +24 Vdc loop power to pin 3 of J5. Pin 2 of J5 is Iout+. The current output is programmable between 3.8 and 20.5 ma. Refer to the DensityPRO+ user guide for details. The minimum output in the selfpowered configurations is approximately 0.4 ma. The minimum output current in the loop-powered configuration is approximately 3 ma. Maximum load is 800 ohms. 4-12 DensityPRO+ Installation Guide Thermo Fisher Scientific

Wiring Serial Communications Contact Closure (Switch) Inputs Two contact closure inputs are included on each I/O board. They are dry contact inputs between ground and switch 1 and ground and switch 2. The gauge can be configured to execute a command or other function upon a user-provided contact opening or closing. Refer to the DensityPRO+ user guide for details on assigning commands to the contact closure inputs. Temperature Compensation Temperature compensation circuitry with 2-wire or 3-wire 100 ohm platinum RTD is optionally available. For 9701/9702 scintillation detectors, connections are made at J19. For 9719B/9720B ion chamber detectors, connections are made from the temperature compensation board. For the 1400A/1400S transmitter, connections are made at J1A of the VPI board installed in the PCB 4 slot. Reference the appropriate installation wiring diagrams for specific wiring information. Flow Input Serial Communications There is a provision on the VPI board for a user-provided 4 20 ma flow input (pins 6 and 7 of connector J1A). Refer to the DensityPRO+ user guide for details on how to configure the gauge to use the flow input signal. The transmitter provides one RS232 single-drop serial interface. One RS485 multi-drop serial interface is optionally available. Screw-terminal connectors for both ports are located on the CPU board. The optional RS485 connector (J6) includes the +8 Vdc required to power the Thermo Scientific HHT as well as the +DATA and DATA connections. An RJ-11 (phone jack) connector is also provided for the RS485 port. The HHT can be connected directly to the RJ-11 connector. Both the RS232 and optional RS485 ports are always active and provide independent access to the measurement readings and software functions. The setup menus, however, can only be accessed by one port at a time. For information on configuring communications, refer to the DensityPRO+ user guide. Thermo Fisher Scientific DensityPRO+ Installation Guide 4-13

Wiring Serial Communications Optional RS485 Wiring Connecting a PC serial port (COM) to the optional RS485 port on the gauge requires an RS485/RS232 converter (p/n 670045). The J6 connector on the transmitter CPU is for the RS485 connections. Refer to installation wiring drawing 868680-2 and make the RS485 connections as follows. 1. Connect +DATA and DATA on the RS485 connector (J6) to the corresponding connections on the RS485/RS232 converter. 2. Connect the RS485/RS232 converter to the PC using a standard DB9 serial cable. RS485 Termination If you are having trouble using another device on the RS485 chain, verify that it is properly terminated for its position on the chain. To terminate a device, connect a 120 resistor between its RS485 +/ data terminals. Never terminate more than the first and last device in the chain. The transmitter includes a three-pin header (W4), located near the bottomfront edge of the CPU board next to the RS485 connector (J6), to terminate the RS485 connection. For a single unit installation or for a multiple unit installation where the transmitter is the last unit in line, the W4 jumper should be placed on pins 1 and 2 to terminate the RS485 line. For a multiple unit installation where the transmitter is the not last unit in line, the W4 jumper should be placed on pins 2 and 3 so that the RS485 line is not terminated at the transmitter. RS232 Wiring COM1 or COM2 on a PC can be connected directly to the transmitter RS232 port. This connection requires five wires: ground, TX, RX, RTS, and CTS. The RS232 port connector (J8) is located on the transmitter CPU board. Connections for standard DB9 and DB25 PC serial port connectors are listed in the table below. Table 4 8. RS232 connections RS232 Connector (J8) on Transmitter CPU PC Serial Port DB9 Connector J8-1 (RTS) Pin 8 Pin 5 J8-2 (TX) Pin 2 Pin 3 J8-3 (CTS) Pin 7 Pin 4 J8-4 (RX) Pin 3 Pin 2 J8-5 (GND) Pin 5 Pin 7 PC Serial Port DB25 Connector 4-14 DensityPRO+ Installation Guide Thermo Fisher Scientific

Wiring HART Communications HART Communications The HART communication protocol is supported over the 4 20 ma current output with an optional daughter board. You communicate with the gauge using the standard 275 or 375 Field Communicator. Refer to the DensityPRO+ HART operation manual (p/n 717816). Thermo Fisher Scientific DensityPRO+ Installation Guide 4-15

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Chapter 5 Getting Help Contact Information The local representative is your first contact for support and is well equipped to answer questions. You can also contact Thermo Fisher directly for application assistance. Process Instruments 1410 Gillingham Lane Sugar Land, TX 77478 USA +1 (800) 437-7979 +1 (713) 272-0404 direct +1 (713) 4573 fax A-101, 1CC Trade Tower Senapati Bapat Road Pune 411 016 Maharashtra, INDIA +91 (20) 6626 7000 +91 (20) 6626 7001 fax www.thermoscientific.com 14 Gormley Industrial Avenue Gormley, Ontario L0H 1G0 CANADA +1 (905) 888-8808 +1 (905) 888-8828 fax Ion Path, Road Three Winsford, Cheshire CW7 3GA UNITED KINGDOM +44 (0) 1606 548700 +44 (0) 1606 548711 fax Unit 702-715, 7/F Tower West Yonghe Plaza No. 28 Andingmen East Street, Beijing 100007 CHINA +86 (10) 8419-3588 +86 (10) 8419-3580 fax Returning Equipment for Service Contact Thermo Fisher for specific instructions. Please have the following available: Specific information about the problem. A contact name and phone number, in case we need more information. A purchase order authorizing repairs or a request for a quote. Thermo Fisher Scientific DensityPRO+ Installation Guide 5-1

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Appendix A Ordering Information Table A 1. 9719B/9720B scintillation detectors Part Number Description 886599 Scintillation adapter board (transmitter interface) 886568 AC power supply board -- Fuse-F1, 250V, 0.125A (1/8A SB), 3AG 886609 Temperature compensation board 886592 Triangle board Table A 2. 9701/9702 ion chamber detectors P/N Description 885498-1 Preamp/power supply boards -- Fuse-F1, 250V, 5A, Slo-Blow, 3AG Table A 3. 1400A transmitter P/N Description 886650 Power supply assembly 886765 CPU board 886675-1 I/O board, 24 Vdc input power, no relays 886675-2 I/O board, 24 Vdc input power, 2 relays 886675-5 I/O board, no DC input power, no relays 886675-6 I/O board, no DC input power, 2 relays -- I/O board fuse-f1, 250V, 0.75A, Slo-Blow 886671-3 HART communication option 886712 VPI board 886723 RS485 board Thermo Fisher Scientific DensityPRO+ Installation Guide A-1

Ordering Information Table A 4. 1400S transmitter P/N Description HLT-MTXR-SS 1400S stainless steel transmitter 886765 Kit, NDM CPU board with EPROM for density 886712 VPI board 886650 AC power supply OTO545B HART interface module 886675-1 I/O board, 24 Vdc input power, no relays 886675-2 I/O board, 24 Vdc input power, 2 relays 886675-5 I/O board, no DC input power, no relays 886675-6 I/O board, no DC input power, 2 relays 886723 RS485 board 868773 Kit, EMC ferrite clamps for 1400S transmitter (for ATEX units only) A-2 DensityPRO+ Installation Guide Thermo Fisher Scientific

Appendix B Specifications Results may vary under different operating conditions. Table B 1. Performance specifications Operating principle Accuracy Stability Gamma radiation from the source passes through the process pipe and material. The amount of radiation reaching the detector decreases as the process level increases. ± 1% of span Drift less than 1.0% absolute radiation change per 6 months Table B 2. 9701/9702 ion chamber detector specifications Power supply Operating temperature range 115/230 Vac ±10%, 50/60 Hz, 500 VA -30 C to +60 C (-20 F to +140 F) Approvals Non-explosion proof (9701): NEMA 4, Type 4 Explosion proof (9702): Class I, Div. 1, Groups B, C, D Class II, Div. 1, Groups E, F, G Class III NEMA 4, Type 4 Dimensions Non-explosion proof (9701): ~8 in diameter x 15.5 in tall (200 mm diameter x 400 mm tall) Explosion proof (9702): ~8 in diameter x 19.5 in tall (200 mm diameter x 500 mm tall) Weight Non-explosion proof (9701): 58 lb (26.3 kg) Explosion proof (9702): 100 lb (45.4 kg) Thermo Fisher Scientific DensityPRO+ Installation Guide B-1

Specifications Table B 3. 9719B/9720B scintillation detector specifications Power options Operating temperature range Approvals Dimensions Wiring entry CE-EMC surge protection board junction box 24 Vdc ± 20%, 12 VA, at detector input 115/230 Vac ±15%, 50/60 Hz, 12 VA -30 C to +60 C (-20 F to +140 F) Non-explosion proof (9719B): Class II, Div. 1, Groups E, F, G Class III, Div. 1 NEMA 4, Type 4 Explosion proof (9720B): Class I, Div. 1, Groups B, C, D Class II, Div 1, Groups E, F, G Class III NEMA 4, Type 4 CE-ATEX II 2 G Ex d IIC T5 Gb CE-EMC compliance contingent upon installation of EMC protection kit as illustrated on drawing 880100. Non-explosion proof (9719B): ~6.5 in diameter x 14 in tall (165 mm diameter x 360 mm tall) Explosion proof (9720B): ~6.5 in diameter x 15 in tall (165 mm diameter x 380 mm tall) (2) 3/4 NPT female conduit ports. Use only suitably approved cable glands and blanking plugs. CE-ATEX II 2 G Ex d IIC T6 Gb -40 C<=Ta<=60 C Warning: Do not open when an explosive atmosphere may be present. B-2 DensityPRO+ Installation Guide Thermo Fisher Scientific

Specifications Table B 4. 1400A transmitter specifications Power options Operating temperature Approvals Dimensions Weight 24 Vdc input (20 28 Vdc), 12 VA 115/230 Vac input (100 240 Vac), 50/60 Hz, 25 VA -40 C to +60 C (-40 F to +140 F) Non-explosion proof (plastic enclosure): Class I, Div. 2, Groups A, B, C, D Class II, Div. 2, Groups E, F, G Class III NEMA 4X, Type 4X Explosion proof enclosure: Class I, Div. 1, Groups C, D Class II, Div. 1, Groups E, F, G Class III NEMA 4 / 7, Type 4 / 7 Non-explosion proof (plastic enclosure): 12 x 8.5 x 8.25 in (305 x 216 x 210 mm) Explosion proof enclosure: 14 x 15.5 x 10.5 in (356 x 394 x 267 mm) Non-explosion proof (plastic enclosure): 7.5 lb (3.4 kg) Explosion proof: 60 lb (27.2 kg) Circuit protection Meets IEC 801-1, -2, and -3 Current outputs and relay outputs are isolated Display Serial interface Current output Contact closure inputs Relays Four-line backlit display; up to eight readouts displayed simultaneously RS232, full duplex communication with remote terminal, printer, PC, or host computer Optional RS485, half-duplex party-line communication to host computer or HHT One standard with two additional optionally available Standard configuration: Isolated, self-powered, 700-ohm maximum load Alternate configuration: Isolated, loop-powered, 24 Vdc nominal supply voltage, 800-ohm maximum load Two per I/O board Two optional per I/O board; six maximum. Form C SPDT, isolated 8 A, 220 Vac Thermo Fisher Scientific DensityPRO+ Installation Guide B-3

Specifications Table B 5. 1400S transmitter Power options Operating temperature Approvals 24 Vdc (20 28 Vdc), 12 VA 115/230 Vac (100 240 Vac), 50/60 Hz, 12 VA -40 C to +60 C (-40 F to +140 F) NEMA 4X / IP65 ATEX II 3 G Ex na IIC T6 (-40 C Ta 60 C) DC version, EPSILON 08 ATEX 2387: II 3 G Ex na nc IIC T4 (-20 C Ta 50 C) AC version, EPSILON 08 ATEX 2387 CSA Class I, Div. 2, Groups A, B, C, and D; Class II, Div. 2, Groups F and G; Class III Enclosure type 4X, Temperature code T3C / T4 CE compliant Low Voltage Directive compliant EMC Directive compliant Dimensions See drawing 208-140002. Display Serial outputs Current output Contact closure inputs Four-line backlit display; up to eight readouts displayed simultaneously RS232 full duplex RS485 half-duplex One standard with two additional optionally available Standard configuration: Isolated, self-powered, 800-ohm maximum load Alternate configuration: Isolated, loop-powered, 24 Vdc nominal supply voltage, 800-ohm maximum load Two per I/O board B-4 DensityPRO+ Installation Guide Thermo Fisher Scientific

Appendix C Drawings Note Information presented in this chapter has been regenerated from original drawings. Every effort is made to maintain document accuracy. However, in order to enhance legibility, the documents may have been restructured, and some information may have been intentionally excluded. Therefore, the drawings within this guide may not be an exact duplicate of the original drawings. Note Drawings in this manual are included for reference only and may not be the current version. Contact the factory if you need a copy of the latest revision. Table C 1. Installation layout & wiring diagrams Drawing # Rev. Description Page 868695 A Installation layout, 1400A transmitter to 9719B, 9720B, 9701, 9702 detectors (2 sheets) 868577 D Installation wiring, 9719B/9720B scintillation detectors to 1400A transmitter (3 sheets) C 4 C 6 868680-2 B Installation wiring, 1400A/1400S transmitter (3 sheets) C 9 868697 A Installation wiring, 9701/9702 ion chamber detectors to 1400A transmitter (1 sheet) C 12 868519 B RS485 installation and wiring (1 sheet) C 13 Table C 2. Transmitter dimensional drawings Drawing # Rev. Description Page 868212 F 1400A transmitter dimensional diagram, NEMA 4X enclosure (2 sheets) 868214 D 1400A transmitter dimensional diagram, NEMA 4/NEMA 7 enclosure (1 sheet) C 14 C 16 208-140002 A 1400S transmitter dimensional diagram (1 sheet) C 17 Thermo Fisher Scientific DensityPRO+ Installation Guide C-1

Drawings Table C 3. Detector dimensional drawings Drawing # Rev. Description Page 867468 B Installation drawing, detector assembly, flat mount, NEMA 4 housing (2 sheets) 867469 B Installation drawing, detector assembly, flat mount, explosion proof housing (2 sheets) 866777 -- Mounting dimensions, 9702 ion chamber detector, explosion proof housing (1 sheet) 866778 -- Mounting dimensions, 9701 ion chamber detector, NEMA 4 housing (1 sheet) C 18 C 20 C 22 C 23 Table C 4. Source housing dimensional drawings Drawing # Rev. Description Page 864563 B Mounting dimensions 5200 source housing, 100 mci or less (1 sheet) 865453 C Mounting dimensions 5201 source housing, 100 mci or less (1 sheet) 865463 D Mounting dimensions 5202 source housing, 500 mci or less (1 sheet) 865474 C Mounting dimensions 5203 source housing, 2000 mci or less (2 sheets) 865484 C Mounting dimensions 5204 source housing, 8000 mci or less (2 sheets) C 24 C 25 C 26 C 27 C 29 Table C 5. Gauge head installation drawings Drawing # Rev. Description Page 867466 B Installation drawing, gauge head, two-chain mount, NEMA 4 housing (3 sheets) 867467 B Installation drawing, gauge head, two-chain mount, explosion proof housing (3 sheets) 867172 A Installation drawing, gauge head, two-chain mount, 9701/9702 ion chamber detector (1 sheet) C 31 C 34 C 37 C-2 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Table C 5. Gauge head installation drawings, cont. Drawing # Rev. Description Page 85726N E Installation drawing, gauge head, pipe saddle mount (1 sheet) C 38 861104 C Fabrication details, 1 to 3 Z-pipe section (2 sheets) C 39 866670 B Mounting dimensions, 1 to 3 Z-pipe mount (1 sheet) C 41 864163 A Fabrication details, 4 Z-pipe section (1 sheet) C 42 866705 A Mounting dimensions, 4 Z-pipe mount (1 sheet) C 43 Table C 6. Source housing options Drawing # Rev. Description Page 866666 E Mounting instructions, remote manual actuator for 5201 5204 source housings (2 sheets) C 44 Thermo Fisher Scientific DensityPRO+ Installation Guide C-3

Drawings Figure C 1. 868695: Installation layout, 1400A transmitter to 9719B, 9720B, 9701, 9702 detectors (sheet 1 of 2) C-4 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 2. 868695: Installation layout, 1400A transmitter to 9719B, 9720B, 9701, 9702 detectors (sheet 2 of 2) Thermo Fisher Scientific DensityPRO+ Installation Guide C-5

Drawings Figure C 3. 868577: Installation wiring, 9719B/9720B scintillation detectors to 1400A transmitter (sheet 1 of 3) C-6 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 4. 868577: Installation wiring, 9719B/9720B scintillation detectors to 1400A transmitter (sheet 2 of 3) Thermo Fisher Scientific DensityPRO+ Installation Guide C-7

Drawings Figure C 5. 868577: Installation wiring, 9719B/9720B scintillation detectors to 1400A transmitter (sheet 3 of 3) C-8 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 6. 868680-2: Installation wiring, 1400A/1400S transmitter (sheet 1 of 3) Thermo Fisher Scientific DensityPRO+ Installation Guide C-9

Drawings Figure C 7. 868680-2: Installation wiring, 1400A/1400S transmitter (sheet 2 of 3) C-10 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 8. 868680-2: Installation wiring, 1400A/1400S transmitter (sheet 3 of 3) Thermo Fisher Scientific DensityPRO+ Installation Guide C-11

Drawings Figure C 9. 868697: Installation wiring, 9701/9702 ion chamber detectors to 1400A transmitter (sheet 1 of 1) C-12 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 10. 868519: Optional RS485 installation and wiring (sheet 1 of 1) Thermo Fisher Scientific DensityPRO+ Installation Guide C-13

Drawings Figure C 11. 868212: 1400A transmitter dimensional diagram, NEMA 4X enclosure (sheet 1 of 2) C-14 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 12. 868212: 1400A transmitter dimensional diagram, NEMA 4X enclosure Thermo Fisher Scientific DensityPRO+ Installation Guide C-15

Drawings Figure C 13. 868214: 1400A transmitter dimensional diagram, NEMA 4 / NEMA 7 enclosure (sheet 1 of 1) C-16 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 14. 208-140002: 1400S transmitter dimension diagram (sheet 1 of 1) Thermo Fisher Scientific DensityPRO+ Installation Guide C-17

Drawings Figure C 15. 867468: Installation drawing, detector assembly, flat mount, NEMA 4 housing (sheet 1 of 2) C-18 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 16. 867468: Installation drawing, detector assembly, flat mount, NEMA 4 housing (sheet 2 of 2) Thermo Fisher Scientific DensityPRO+ Installation Guide C-19

Drawings Figure C 17. 867469: Installation drawing, detector assembly, flat mount, explosion proof housing (sheet 1 of 2) C-20 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 18. 867469: Installation drawing, detector assembly, flat mount, explosion proof housing (sheet 2 of 2) Thermo Fisher Scientific DensityPRO+ Installation Guide C-21

Drawings Figure C 19. 866777: Mounting dimensions, 9702 ion chamber detector, explosion proof housing (sheet 1 of 1) C-22 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 20. 866778: Mounting dimensions, 9701 ion chamber detector, NEMA 4 housing (sheet 1 of 1) Thermo Fisher Scientific DensityPRO+ Installation Guide C-23

Drawings Figure C 21. 864563: Mounting dimensions 5200 source housing, 100 mci or less (sheet 1 of 1) C-24 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 22. 865453: Mounting dimensions Model 5201 source housing, 100 mci or less (sheet 1 of 1) Thermo Fisher Scientific DensityPRO+ Installation Guide C-25

Drawings Figure C 23. 865463: Mounting dimensions Model 5202 source housing, 500 mci or less (sheet 1 of 1) C-26 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 24. 865474: Mounting dimensions Model 5203 source housing, 2000 mci or less (sheet 1 of 2) Thermo Fisher Scientific DensityPRO+ Installation Guide C-27

Drawings Figure C 25. 865474: Mounting dimensions Model 5203 source housing, 2000 mci or less (sheet 2 of 2) C-28 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 26. 865484: Mounting dimensions Model 5204 source housing, 8000 mci or less (sheet 1 of 2) Thermo Fisher Scientific DensityPRO+ Installation Guide C-29

Drawings Figure C 27. 865484: Mounting dimensions Model 5204 source housing, 8000 mci or less (sheet 2 of 2) C-30 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 28. 867466: Installation drawing, gauge head, single chain mount, explosion proof housing (sheet 1 of 3) Thermo Fisher Scientific DensityPRO+ Installation Guide C-31

Drawings Figure C 29. 867466: Installation drawing, gauge head, single chain mount, explosion proof housing (sheet 2 of 3) C-32 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 30. 867466: Installation drawing, gauge head, single chain mount, explosion proof housing (sheet 3 of 3) Thermo Fisher Scientific DensityPRO+ Installation Guide C-33

Drawings Figure C 31. 867467: Installation drawing, gauge head, two-chain mount, explosion proof housing (sheet 1 of 3) C-34 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 32. 867467: Installation drawing, gauge head, two-chain mount, explosion proof housing (sheet 2 of 3) Thermo Fisher Scientific DensityPRO+ Installation Guide C-35

Drawings Figure C 33. 867467: Installation drawing, gauge head, two-chain mount, explosion proof housing (sheet 3 of 3) C-36 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 34. 867172: Installation drawing, gauge head, two-chain mount, 9701/9702 ion chamber detector (sheet 1 of 1) Thermo Fisher Scientific DensityPRO+ Installation Guide C-37

Drawings Figure C 35. 85726N: Installation drawing, gauge head, pipe saddle mount (sheet 1 of 1) C-38 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 36. 861104: Fabrication details, 1 to 3 Z-pipe section (sheet 1 of 2) Thermo Fisher Scientific DensityPRO+ Installation Guide C-39

Drawings Figure C 37. 861104: Fabrication details, 1 to 3 Z-pipe section (sheet 2 of 2) C-40 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 38. 866670: Mounting dimensions, 1 to 3 Z-pipe mount (sheet 1 of 1) Thermo Fisher Scientific DensityPRO+ Installation Guide C-41

Drawings Figure C 39. 864163: Fabrication details, 4 Z-pipe section (sheet 1 of 1) C-42 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 40. 866705: Mounting dimensions, 4 Z-pipe mount (sheet 1 of 1) Thermo Fisher Scientific DensityPRO+ Installation Guide C-43

Drawings Figure C 41. 866666: Mounting instructions, remote manual actuator for 5201 5204 source housings (sheet 1 of 2) C-44 DensityPRO+ Installation Guide Thermo Fisher Scientific

Drawings Figure C 42. 866666: Mounting instructions, remote manual actuator for 5201 5204 source housings (sheet 2 of 2) Thermo Fisher Scientific DensityPRO+ Installation Guide C-45

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Appendix D Adding Ferrite Clamps to 1400S Transmitter Note The ferrite clamps are only used in the ATEX version of the 1400S transmitter. They are not required for the CSA version or the plastic 1400A transmitter. If needed, the ferrite clamps kit may be ordered separately. In order for the 1400S transmitter to meet electromagnetic emission requirements for CE-EMC approvals, ferrite clamps must be installed within the transmitter enclosure on all power and signal wiring going into and out of the transmitter housing. Procedure The ferrite clamp is part of the EMC ferrite clamps kit (p/n 868773). The kit consists of the following: Five ferrite clamps (p/n 5-2720-007) At least one clamp key The procedure The clamp key is used to remove the ferrite clamp from the wire during wiring changes. Figure D 1. Ferrite clamps A ferrite clamp will need to be installed on all wiring that enters or exits the transmitter enclosure. This may be a shielded twisted pair or a bundle of individual wires. The limitation is that the wires through one clamp cannot exceed 5 mm in diameter. Also, all of the clamps MUST be installed within the enclosure. Thermo Fisher Scientific DensityPRO+ Installation Guide D-1

Adding Ferrite Clamps to 1400S Transmitter Procedure Figure D 2. Ferrite clamps installed within enclosure As shown in Figure D 2 the ferrite clamp can be placed around a shielded twisted pair cable or a bundle of individual cables, as long as the diameter of the bundle does not exceed 5 mm (a little over 3/16 ). The ferrite clamp kit (p/n 868773) contains five clamps. Depending on your wiring scheme, you may need additional clamps. They can be ordered using part number 5-2720-007. For example, in a Thermo Scientific DensityPRO+ system with a scintillation detector, flow input, and three outputs, there will be eight shielded twisted pair cables and one power cable. This system would require a total of nine ferrite clamps. So you would need either two kits or one kit and four additional clamps to be EMC compliant. Note All ATEX version 1400S transmitters shipped after August 2009 will contain one ferrite clamp kit and will have one ferrite clamp installed on the AC voltage input wiring. Note If the locking mechanism of the clamp should fail, a plastic wire tie can be used to secure the clamp around the wire. D-2 DensityPRO+ Installation Guide Thermo Fisher Scientific