Agilent Technologies Medalist x6000 System Installation and Verification
Medalist x6000 Installation and System Verification Legal Notices, Warranty and Safety 1 Legal Notices .......................................................................................................................................... i Copyrights ................................................................................................................................................... i Trademarks................................................................................................
X-ray Dose Limits.....................................................................................................................................xvi Definition of a Cabinet X-ray System .......................................................................................................xvi Built-In Safety Features...........................................................................................................................xvii Registration Requirements ....................................
Legal Notices, Warranty and Safety 1 Legal Notices .......................................................................................................................................... i Copyrights ................................................................................................................................................... i Trademarks..................................................................................................................................................
Definition of a Cabinet X-ray System .......................................................................................................xvi Built-In Safety Features...........................................................................................................................xvii Registration Requirements ......................................................................................................................xvii 8 High Voltage Safety.............................................
1 Legal Notices Copyrights © Agilent Technologies, Inc. 2007 Trademarks Agilent® is a registered trademark of Agilent Technologies, Inc. Intel® is a U.S. registered trademark of Intel Corporation. Java™ is a U.S. trademark of Sun Microsystems, Inc. Adobe®, the Adobe Logo, Acrobat® and the Acrobat Logo are trademarks of Adobe Systems Incorporated. Microsoft®, Windows XP®, and MS-DOS® are U.S. registered trademarks of Microsoft Corp.
Agilent Address Agilent Technologies Measurement Systems Division 900 S. Taft Avenue Loveland, CO 80537-6378 Rev.
2 Warranty The material contained in this document is provided "as is," and is subject to being changed, without notice, in future editions. Further, to the maximum extent permitted by applicable law, Agilent disclaims all warranties, either express or implied with regard to this manual and any information contained herein, including but not limited to the implied warranties of merchantability and fitness for a particular purpose.
3 Safety Summary Summary WARNING There are many warnings and cautions outlined in the next sections. Properly follow ALL Warnings and Cautions. General The following general safety precautions must be observed during all phases of operation, service and repair of this product. Failure to comply with these precautions or with specific warnings elsewhere in this manual violates safety standards of design, manufacture, and intended use of the product. Agilent Technologies, Inc.
Ground the Equipment To minimize shock hazard, the instrument chassis and cover must be connected to an electrical protective earth ground. The instrument must be connected to the ac power mains through a grounded power cable, with the ground wire firmly connected to an electrical ground (safety ground) at the power outlet. Any interruption of the protective (grounding) conductor or disconnection of the protective earth terminal will cause a potential shock hazard that could result in personal injury.
Equipment that appears damaged or defective should be made inoperative and secured against unintended operation until they can be repaired by qualified service personnel. See the Lock Out /Tag Out procedure in the Service section of the on-line help. Do Not Service or Adjust Alone Alone Do not attempt internal service or adjustment of this instrument unless another person, capable of rendering first aid and resuscitation, is present.
4 Safety Symbols and Notices Warning WARNING The WARNING symbol denotes a hazard. It calls attention to a procedure, practice, or condition, which, if not correctly performed or adhered to, could result in personal injury or death. Do not proceed beyond a WARNING symbol until the indicated conditions are fully understood and met. Caution CAUTION The CAUTION symbol denotes a hazard.
Warning, pinch hazard. Keep hands away to avoid injury. Warning, clamp pinch hazard. Keep hands away to avoid injury. Indicates the field wiring terminal that must be connected to earth ground before operating the equipment -- protects against electrical shock in case of fault. Direct current (dc). Frame or chassis ground terminal — typically connects to the equipment’s metal frame. Alternating current (ac) Rev.
5 Emergen Emergency Stop CAUTION The emergency stop buttons are intended for use in emergency situations only and should not be used for normal system shut down. Repeated misuse of the emergency stop buttons will eventually cause damage to certain components or the loss of data or both. Figure 1 Emergency Stop Push down on one of the emergency stop buttons in an emergency situation. The emergency stop button locks OFF when pushed.
The Medalist x6000 is equipped with two emergency stop buttons. The emergency stop buttons are located on either side of the Medalist x6000, centered above the outer barrier panels. Whenever one of the emergency stop buttons is pressed, all power is immediately removed from the Medalist x6000 subsystems, with the exception of the system controller and the monitor.
6 DeDe-energizing the XX-ray Tube In case of a disaster such as fire, explosion, flood, or strong earthquake, the X-ray tube must be de-energized immediately. In an emergency, de-energize the X-ray tube by one of the following methods: NOTE An electrical brownout or electrical power off, due to storms, does not constitute an emergency since the system will simply shut itself off and may be restarted in the normal manner after the power returns.
Figure 2 X-ray Control Off Button and X-Ray Control Key on the Operator Control Panel X-ray Control Off Button X-ray Control Key in the Off Position PDU Enable Switch and Lockable Breaker To de-energize the X-ray tube using the PDU enable switch and lockable breaker: Turn the PDU enable switch to the off position. Move the lockable switch on the PDU to the O or off position. Rev.
Figure 3 PDU Enable Switch and Lockable Breaker ! Power Distribution Unit 0 1 1 0 Main disable can be locked in the “0” position. AC “Mains” Power Power Disconnect The AC “mains” power disconnect is a circuit breaker typically installed by the end user and should be located within 15 feet of the Medalist x6000 power distribution unit (PDU). Local codes and needs will define the accessibility, configuration, and size of this disconnect. This disconnect will disconnect all power to the Medalist x6000.
7 X-Ray Safety WARNING This product produces XX-rays. Do not attempt to open or modify any part of the product. Do not operate this product or turn on the XX-ray source unless all shielding is in place. Operation without shielding shielding in place can result in exposure to XX-rays which can cause serious bodily injury or death. Refer all servicing to serviceservice-trained personnel. WARNING Do not, for ANY reason, attempt to defeat the builtbuilt-in safety interlocks.
Effects of Radiation There are a variety of natural and man-made emissions that are classified as radiation. X-rays are included in most definitions. It should be noted that the Medalist x6000 will not produce X-rays unless power is specifically provided to the X-ray tube, and will cease immediately upon removal of power. It should also be noted that the Medalist x6000 is not designed to admit humans.
The Medalist x6000 is classified as a “Cabinet X-Ray System” by the United States Code of Federal Regulations: 21 CFR 1020.40 (X-Ray). The Medalist x6000 is designed, manufactured and registered in accordance with strict criteria established by the Department of Health and Human Services, Food and Drug Administration, Center for Devices and Radiological Health (CDRH), Department of Health and Human Services (DHHS), X-ray Products Branch.
8 High Volta Voltage Safety WARNING open en any part of the product. This product produces high voltage potentials. Do not attempt to op Contact with high voltage can cause electrical shock resulting in serious bodily injury or death. Refer all servicing to serviceservice-trained personnel. WARNING Always DISCHARGE all high voltage connections prior prior to servicing.
Power Distribution Unit (PDU) The Medalist x6000 is powered by 200-240VAC Wye or Delta or 220/380-240/415 VAC wye with neutral, 3-phase, 50/60Hz (cycles) AC mains. The PDU provides an output of 200-240VAC 50/60Hz to the Medalist x6000 subsystems. The PDU can be reconfigured based on the AC mains input to provide the appropriate AC voltage to the Medalist x6000 subsystems. The PDU outputs are protected with either a 10A 250VAC fuse or a 15A 250VAC thermal circuit breaker.
9 Mechanical Safety WARNING Motion mechanics within the Medalist x6000 involve highhigh-speed, speed, mechanical subassemblies. Lock--Out /TagImproper handling or inattention could cause serious bodily injury. Perform a Lock /Tag-Out prior to servicing. WARNING This product contains high speed motion components. The motion components can cause severe bodily injury. Do not attempt to open any part of this product while the motion components are operational. Do not attempt to defeat the safety interlocks.
10 Service and Support Agilent Technologies Service Center Any adjustment, maintenance, or repair of this product must be performed by qualified personnel. Contact your Agilent Authorized Service Representative through your local Agilent Technologies Service Center. Table 1: Support and Service Contacts Location Contact Worldwide http://www.agilent.
System Installation and Verification 1 Overview ............................................................................................................................................... 1 2 Preparing for Agilent Medalist x6000 Installation ............................................................................ 2 3 Time Required for Installation............................................................................................................
1 Overview This document guides you through the Agilent Medalist x6000 installation process. In the printed version, all major steps have check boxes like the one to the side of this paragraph, on the left side of the page. Use these check boxes as you proceed with the installation to ensure all steps of the installation are complete. NOTE Installation is intended to be performed by an Agilent authorized service representative only. N7280N7280-9003490034- Rev.
2 Preparing for Agilent Medalist x6000 Installation You will need to refer to the following documents. Unpacking Instructions (N7280-90010) Site Preparation Manual (N7280-90009) Agilent Medalist x6000 Help Agilent Electrostatic Discharge Control Specification (A5951-1589-1) You will need a copy of the x6000 X-ray Safety Test Procedure (N7280-90093) and the x6000 X-Ray Safety Test Report (N7280-90076) to complete the installation.
3 Time Required for Installation It will generally take 8 hours to install the Agilent Medalist x6000 System. If this is the first installation at the site, the Medalist x6000 Operator Training should also be provided for the customer’s primary operators. NOTE Maintenance Training is required for Cooperative Support customers in Europe. The time estimate is a general guideline.
4 What has to be done before installation begins? All system components and software have been delivered and an acceptable site has been chosen for installation. All utilities (air, electric, etc.) are ready for the installation and are at the site of installation as specified in the Site Preparation Manual. NOTE An Agilent authorized service representative must be present to break the seal on the truck and for pallet unloading, system movement, uncrating and placement (whenever possible).
5 System Arrival, Inspection and Placement An acceptable site must be prepared prior to the installation of the Medalist x6000 System. This includes: Having a level floor capable of supporting 3220 kg (~7100 pounds) 371 kilograms per square meter (76 pounds per square foot) 805 kilograms on 152mm diameter pad, on four pads 131 x110 centimeter centers (1775 lbs.
The main unit will be on a pallet 188 centimeters wide by 229 centimeters long (74 x 90 inches). This pallet requires a forklift with a rated lifting capacity of at least 4536 kilograms (10,000 pounds). The tines on the forklift must be at least 152 centimeters (60 inches) long, each tine must be no more than 19 centimeters (7.50 inches) wide. The main unit, crated and on its pallet, will be approximately 244 centimeters (96 inches) high.
1 Check for Gross Damage — Look for and record any damage to packing materials, etc. Note any areas where the equipment has been exposed. Document any damage on the waybill. Advise the carrier and contact the Agilent Customer Support Center or an Agilent authorized service representative immediately. If significant damage exists, document the damage completely (take pictures if possible) prior to further unpacking or movement.
NOTE The system while on its pallet is 2.44 meters or 96 inches high. This height plus the required forklift lifting distance is needed for (clearance) movement while on the shipping pallet. 4 CAUTION CAUTION WARNING Move Medalist x6000 To Install Site — When you are ready, (using acceptable lifting equipment) raise the Medalist x6000 from its pallet and move to the install area. Be very careful while moving the forklift in place to remove the Medalist x6000 from its pallet.
8 System Placement — When the system has been delivered to the install area, move it to the desired placement location. Position the system according to the customer’s requirements. Install the foot pads with spacers for the estimated height requirement. See Table 2. It is recommended that the pads and spacers be put on while the system is elevated by the fork lift. The system can be lowered on to the pads and spacers, however this is extremely difficult to do.
Figure 4: Stage rail alignment markings Use these alignment marks on the Medalist x6000 align the system with the customer’s line. (left side shown) 10 Adjust pads as required. This is done by turning the top of the threaded shaft. See Figure 5. Use a level inside the system on the granite base in various locations rather than on the top of the system. Check x and y orientation in all 4 corners.
Figure 5: Height setup 11 Install the four jack screw covers (N7280-21209). See Figure 6. Figure 6: Height adjustment N7280N7280-9003490034- Rev.
Figure 7: Typical installation (overhead view) Outer Barrier The SSCA requires at least 92 cm (36 in.) clearance on rear of x6000. 193 x 152 cm (76 x 60 in.) 219 cm tall (86 in. tall) without feet pads 152 cm (60 in.) 76 cm (30 in) radius min. 152 cm (60 in) radius max. from either front corner for Monitor and Keyboard Arm 193 cm (76 in.) 3.7 to 4.6 meters (12 to 15 feet) N7280N7280-9003490034- Rev. A System Installation and Verification 12 2.7 to 3.8 meters (9 to 12.
6 System Hardware Installation and Setup Site preparation and movement to the final location should be complete at this point. Verify correct placement of the main unit and monitor arm with your customer. See Figure 7. Begin assembly of the Medalist x6000 system using the following procedure: 1 Stage release — There are several tie wraps securing the stage inside the main cabinet. Remove these to allow X. Y movement and rail width movement. See Figure 8.
2 Check lead panels — There are thirteen lead panels around the outer edge of the granite. Check to make sure none have come loose during shipment. The cabinet access panels must be opened to perform this verification. See Figure 9. 3 Inner barrier release — There are tie wraps mounted to the inner barrier. See Figure 10. Open the left top sliding access panel and remove these to allow barrier movement. Figure 9: Lead panels N7280N7280-9003490034- Rev.
Figure 10: Inner barrier release 4 There are two bolts in the tower door to prevent damage during shipment. NOTE NOTE Check X-ray tower — Open the tower door with the 5/16 inch T-handle hex wrench that shipped with the system. Check the SF6 pressure. It must be above 50 psi, and should be between 55-65 psi. Verify all cables are firmly seated in their connections. 5 Subassemblies & PCBs — Inspect the condition of electronics subassemblies.
To reposition the Monitor Arm follow the “Monitor Arm Repositioning” procedure located in the help section of the x6000. a Using a ¼ inch T-handle hex wrench, install 2 monitor arm mounting screws into the monitor arm clamp. Figure 11: Monitor arm clamp and mounting screws b While holding the monitor in place, use a medium Phillips screw driver to attach the monitor to the monitor mounting plate using 4 screws. N7280N7280-9003490034- Rev.
Figure 12: Monitor mounting plate and screws c Place the mouse and keyboard on the keyboard tray. d Connect the monitor signal, keyboard, mouse, and USB cables to the back of the LCD monitor. Figure 13: Mouse and keyboard placement N7280N7280-9003490034- Rev.
Figure 14: Monitor, keyboard, mouse and USB cables e Connect AC power cord into the back of the LCD monitor. Figure 15: AC power cable 8 Operator control panel — Connect the operator control panel cable (N7280-60306) to the port on the back of the control panel. See Figure 16. N7280N7280-9003490034- Rev.
Figure 16: Operator control panel 9 NOTE Compressed air and filter canister assembly —Connect the facility air input line. See Figure 17. The air filter and connection are located on the lower right of the system. Verify the input air supplied is at least 5.6 Kg/cm2 (80 psi or 550 kpa), and adjust if required. The air supply should also be free of contaminants such as debris, oil or water N7280N7280-9003490034- Rev.
Figure 17: Air input Air input assembly Air input (80 - 125 PSI) 10 Cabinet inspection—Inspect the inside of the cabinet to: verify that there are no loose items verify all stage securing ties are removed 11 Air filter installation — Install the air filter on the top of the x-ray tower. It fits into a recessed area on top of the tower. 12 Network connection - Have the customers IT department connect up the x6000 Ethernet LAN cable to their site LAN.
NOTE Cables must be the stranded type (not solid). Follow local code if it supersedes these instructions. A breaker panel near the Medalist x6000 installation area can be used to allow complete power down in case of an emergency. The E1135C PDU (Power Distribution Unit) has a rotating, lockable switch for this as well. Turn this switch to the off position.
Outlet 1 — MCA Phase 1 Outlet 2 — MCA Phase 2 Outlet 3 — MCA Phase 3 Outlet 4 — HVPS Outlet 5 — Camera Fan 1 Outlet 6 — Camera Fan 2 Outlet 7 — +12 Volt Power Supply Tray Outlet 8 — Deflection Coil Power Supply E3620A The unswitched outlets are located in the IRP frame. The switched outlet is located on the front of the frame as shown in Figure 20. Figure 20: Switched outlet box location N7280N7280-9003490034- Rev.
7 System Performance Verification Procedure The following procedures should be closely followed to verify proper system performance. These steps will verify that all power levels are correct before full power is applied to all assemblies. 1 WARNING AC voltage check a After the site power (mains) is connected to the PDU, unplug all subassembly AC power cords from the side closest to the subassemblies, not the PDU side.
3 CAUTION c Power on the system controller. Allow the system controller to boot up and note any warnings or errors. Errors indicate a system (hardware/software) failure and require troubleshooting and repair before proceeding. For troubleshooting information, see Service Documentation in the Medalist x6000 help system or call the Agilent Support Center. d Set the system clock to the customer’s time zone. e Switch the PDU rocker switch on.
Figure 21: Vacion power supply Measure the voltage here (J04000) Vacion pump Power Supply Power On Input ~200-240 V 60VA J04000 4 Check interlocks — Enable the X-ray key and press the ON switch. See Figure 22. Tap each of the 6 side access panels, 2 topside access panels, tower door and interlock points with your hand. Watch to see if the red interlock LED on the control panel goes off. If it does, you will need to adjust interlock switches.
Figure 22: Operator control panel Watch the RED LED to make sure it stays on. N7280N7280-9003490034- Rev.
8 System StartStart-up All access panels must be closed and the green interlock LED lighted on the operator control console. NOTE 1 Turn the X-ray key to off. 2 Log on to the computer - Press Ctrl-Alt-Del and the login screen will appear. It already has “Administrator” as the user name. Type in the password and press Enter. 3 Configure the network - Immediately after logging on for the first time, the network must be configured.
CAUTION If the reading is not less than 20mv, allow more time for the Vacion power supply to operate. Recheck this again before proceeding. CAUTION Failure to do this step could result in permanent damage to the X-ray tube. The X-ray tube has components that need to warm up before generating X-rays. 8 From the operator control panel (Figure 22) turn the XRay Enable Key to Enable, and then push the X-Ray On Button.
Figure 24: X-ray tube label 14 Medalist x6000 cabinet radiation integrity check — To verify the Medalist x6000 cabinet integrity and containment of X-ray emissions, perform the following: WARNING Complete a formal on-site radiation survey. Use the following documents: Medalist x6000 X-ray Safety Test Procedure (N7280-90093) and Medalist x6000 X-ray Safety Test Report (N7280-90076). The latest versions can be obtained from: http://www.agilent.com/find/Medalist x6000.
15 Run the X-ray tube deflection coil and focus coil adjustment procedures found in the Medalist x6000 help. 16 Start the Medalist x6000 by selecting Actions > Start Up. N7280N7280-9003490034- Rev.
9 Panel Handling Subsystem Verification NOTE Cabinet access panels must be closed and the green interlock LED illuminated on the operator control console. 1 Verify correct load/unload configuration — Standard systems are “Left-to-Right”. However, if the customer requires a “Right-to-Left” configuration, go to the System Configuration environment, Production Options task, General tab and in the Panel Handling panel select the proper Flow Direction.
5 a Go to the Service environment, Confirmations, Diagnostics & Adjustments task. b Select Service Folder and click Run Selected Tests. Verify a customer board - Request a test panel/board from the customer (Optional). a If the customer already has Medalist x6000 systems in place, check a typical application to be used on this machine (using a golden panel, a reference panel that serves as a standard unit to which others can be compared, is preferred).
Figure 25: IRP lower filler panel b Using a T-25 Torx driver, loosen the other screws in the front of the IRP rack. This is needed to put the side covers into place. c Install the left and right IRP rack side covers. d Using a T-25 Torx driver, install 2 screws into the front of the IRP rack to secure the IRP rack side covers. e Using a T-25 Torx driver, tighten the IRP rack front screws. Figure 26: IRP cover 11 Install IRP rack top cover. N7280N7280-9003490034- Rev.
Figure 27: IRP rack top cover a Connect IRP rack fan cable. b Using a T-25 Torx driver, attach the IRP top cover with 4 screws. Figure 28: IRP rack fan cable N7280N7280-9003490034- Rev.
Figure 29: IRP top cover screw locations 12 Check your work — Verify that all steps are complete and all boxes (like the one on the left) are checked off. 13 Complete X-ray survey documentation — Make a copy of the X-ray survey document and test results and provide a copy to the customer. NOTE It is likely the customer will need additional documentation - be sure the customer is aware that local radiation requirements must be met. This varies between states, provinces, regions and countries.
16 Indicate any suggestions for improvement by filling out the MSD Suggestion for Improvement Form on the following page. Mail the completed form to: Agilent Technologies Microwave Products (Malaysia) Sdn Bhd Bayan Lepas Free Industrial Zone 11900 Penang, MALAYSIA Attn: MSD Quality Department N7280N7280-9003490034- Rev.
10 MSD Suggestion for Improvement Form System: Customer: System No: Agilent Service Rep: S/O/No: Agilent Service Rep Contact Info: NO Item 1 Packaging 2 Installation Procedure 3 Safety 4 S/W enhancements 5 H/W enhancements 6 Other Feedback Suggestions for Improvement N7280N7280-9003490034- Rev.
11 SMEMA – Appendix A Introduction The communication interface between adjacent machines is provided by way of a Surface Mount Equipment Manufacturers Association (SMEMA) compliant protocol. The purpose of multi-machine in-line interfacing is to allow the Agilent Medalist x6000 to integrate directly into your printed circuit assembly manufacturing process. Figure 30: Location of SMEMA connectors Load Panel From Upstream Machine Unload Panel This Medalist x6000 is configured for Left-to-Right Flow.
Send Request Output (SRO) SMEMA SRO - Panel Out Available The Medalist x6000 forces this signal low when it is ready to send a panel to the downstream equipment. Transfer Request Input (TRI) SMEMA TRI - Output Not Busy The downstream equipment forces this signal low when it is ready to accept the panel from the Medalist x6000. Good Panel Output (GPO) SMEMA GPO - Panel Passed The Medalist x6000 uses this signal to indicate that the panel being sent has been tested and is good.
Figure 32: SMEMA Electrical interface schematic SMEMA Connectors Figure 33 shows a connector with all pin numbers labeled, and Table 5 shows the pin number and signal description for the Medalist x6000 SMEMA connectors. Figure 33: A typical SMEMA connector with pins numbered Table 5: SMEMA connector information Connector Pin# Signal Description Upstream SMEMA 1 Ready to Accept - Medalist x6000 is ready to receive a panel.
Downstream SMEMA 1 Ready to Accept - Downstream equipment is ready to received panel. 2 Electrical ground 3 Panel Available - Medalist x6000 is ready to send a panel. 4 Floating signal return for (3) 5 GPO - Good panel out. PCA has been tested and considered good with no defects. 6 Floating signal return for (5) 7 UPO - Untested panel out. PCA being transferred was not tested. 8 Floating signal return for (7) 9-13 N/A 14 Grounded shield N7280N7280-9003490034- Rev.
12 Wiring Configuration – Appendix B Wiring Configuration This appendix contains the wiring configuration information for the Agilent Medalist x6000 System. There are two possible wiring configurations for the Medalist x6000: a three phase wye or delta and a three phase wye with neutral. The drawings in this appendix show how the Power Distribution Unit (PDU) is wired for those configurations. It also lists the options associated with each configuration.
L2-L3 (17 A) 220V 3-Phase Wye with Neutral :(3PN) Load: L1-N L2-N L3-N (10 A) 220/380V 380- 415V Three Phase Wye w/Neutral 230/400V Input and Terminal Block Wiring Figure 38 and Figure 39 240/415V Figure 35: PDU outlets 8 4 NOTE 7 6 3 2 5 50 Hz 60 Hz 100V 120V 127V 200V 208V 220V 230V 240V 1 Outlet 1 — MCA Phase 1 Outlet 2 — MCA Phase 2 Outlet 3 — MCA Phase 3 Outlet 4 — HVPS Outlet 5 — Camera Fan 1 Outlet 6 — Camera Fan 2 Outlet 7 — +12 Volt Power Supply Tray O
Wire the PDU only as shown in the following drawings. Terminals numbered the same are the same voltage but for proper load balancing and current distribution, follow the wiring diagrams. NOTE 3-Phase Phase Wye or Delta Figure 36: Input wiring — 3-phase Wye or Delta OPTIONS: 3PD 3PY System Controller, IRP1, IRP2, IRP Fans Switch, IRP3, IRP4, Monitor Neutral Reference Conductor in rear terminal. Do not move Chassis Ground Lug Terminal G T1 T2 T3 N AC “MAINS” N7280N7280-9003490034- Rev.
Figure 37: Terminal block wiring — 3-phase Wye or Delta GRN/YEL Main Cabinet GND GRN/YEL GRN/YEL CB1 CB2 CB3 CB4 CB5 CB6 CB7 CB8 CB9 CB10 1 3 4 5 6 7 8 9 10 11 12 13 14 16 PDU Outlets NEU NEU 01 01 BRN 1 5 2 6 3 7 4 8 BRN 01 01 BRN 02 BRN 02 02 03 03 03 BRN BRN BLUE BLUE BLUE BLUE NEU NEU GRN/YEL Focus Coil Power Supply, Camera Power Supply, X-Ray Tower Fan, VacIon Pump Power Supply GRN/YEL GRN/YEL 3-Phase Wye with Neutral N7280N7280-9003490034- Rev.
Figure 38: Input wiring — 3-phase Wye with neutral OPTIONS: 3PN System Controller, IRP1, IRP2, IRP Fans Switch, IRP3, IRP4, Monitor Neutral Reference Conductor in rear terminal. Do not move Chassis Ground Lug G T1 T2 T3 N AC “MAINS” N7280N7280-9003490034- Rev.
Figure 39: Terminal block wiring — 3-phase Wye with neutral GRN/YEL Main Cabinet GND GRN/YEL GRN/YEL CB1 CB2 CB3 CB4 CB5 CB6 CB7 CB8 CB9 CB10 1 3 4 5 6 7 8 9 10 11 12 13 14 16 NEU BLUE NEU BLUE 01 PDU Outlets BRN 1 5 2 6 3 7 4 8 01 01 01 02 02 02 BRN BRN BRN 03 03 03 BRN NEU NEU BLUE Focus Coil Power Supply, Camera Power Supply, X-Ray Tower Fan, VacIon Pump Power Supply GRN/YEL GRN/YEL N7280N7280-9003490034- Rev.
N7280N7280-9003490034- Rev.
Agilent Part Number N7280-90034 Agilent Technologies 2007 Rev.
