Home

Solar® 9500 Information Monitor

1. Pin Signal Name 10 Signal Description 1 RED 0 VIDEO Red Video Signal 2 GREEN 0 VIDEO Green Video Signal 3 BLUE 0 VIDEO Blue Video Signal 4 VIDID 2 TTL Video Monitor ID bit 2 5 GND RETURN Ground 6 GND RETURN Ground 7 GND RETURN Ground 8 GND RETURN Ground 9 NC KEY Keying pin 10 DGND RETURN Ground return for CSYNCOUT 11 VIDID 0 TTL Video Monitor ID bit 0 12 VIDID 1 TTL Video Monitor ID bit 1 13 HSYNCL CSYNCL 0 TTL Horizontal or Composite Sync signal Active Low TTL level signal 14 VSYNCL 0 TTL Vertical Sync Signal Active Low TTL level signal 15 VIDID 3 TTL Video Monitor ID bit 3 J3 10 Pin Programming Header Pin Signal Name Connector Pin Signal Name Al TCK B1 GND A2 TDO B2 5V A3 TMS B3 NC A4 NC B4 NC A5 TDI 85 GND J4 4 Pin Sync Select Header Pin Signal Name Connector Pin Signal Name Al HSYNCSEL Bl GND A2 NC B2 GND Revision C Solar 9500 Information Monitor 8 17 2001085 078 Theory of Operation Signal Descriptions Riser Interface PCB Connectors The NLX connector provides a card edge connection for the NLX motherboard to plug into the Riser Interface board The NLX connector is a 340 pin 2 x 170 1 mm pitch card edge connector The A side connects to the bottom secondary side of the motherboard and the B side connects to the top primary side of the moth
2. then i adapter PN 0 2001973 001 is required gt o e _ oo 105A PRN 50 or 50 M to M Port Refer to Serial Interface Controls on page 4 16 for instructions on configuring a port for a PRN 50 or PRN 50 M digital writer Adapter Cable PN 418335 001 PN 2006550 001 50 50 DA Cable PN 422843 001 Cable PN 418335 001 No adapter Adapter PN 2006550 001 C PRN 50 to Serial Port d 3 24 Solar 9500 Information Monitor Revision C 2001085 078 Installation Printer Interconnect RM RMM and Adapter An RM or RMM device can be connected to one of the Solar 9500 M Ports or serial ports Cable PN 418335 001 v L A 4 9 Do Sal Note 2000009 AR RM device 0000000 Of connection requires adapter PN 2001973 001 105A RM RMM device to M Port Revision C Solar 9500 Information Monitor 3 25 2001085 078 Installation Printer Interconnect Connecting to the Unity Network MC Network When connecting a network printer to the MC network the IP address of the printer should start with 126 50 x x and the netmask should be 255 0 0 0
3. Pin Signal Name Input output Signal range Output Impedance J6 1 VB7 2 output 6 5 to 9 V 10KQ 16 2 VB13 2 output 12 to 16 5 V 10KQ 16 3 BATCON input 0 to 5V 16 4 N C n a 16 5 16 75 MON output 16 4 to 17 2 V 10KQ 6 6 PS ID 1 output 0 or 5V 00 16 7 PS ID 2 output 0 or 5V 00 J 6 8 GND output OV 00 16 9 GND output 0v 00 6 10 TEMP_OUT output 0 to 1 50 V 0 10 1mA load 10mV C Revision C Solar 9500 Information Monitor 8 13 2001085 078 Theory of Operation Signal Descriptions J7 16 75 Volt Tramnet Power Output Pin Signal Name 71 416 15 11 2 416 15 1 3 GND J 1 4 GND J8 AC Mains Power Input Connector Pin Signal Name 8 1 AC LINE 8 2 18 3 AC LINE 9 Fan 1 Connector internal use Pin Signal Name 9 1 12V 19 2 GND J10 Fan 2 external connector Pin Signal Name 10 1 12V 10 2 GND 8 14 Solar 9500 Information Monitor 2001085 078 Revision C Theory of Operation Signal Descriptions Video PCB Connectors J1 PCI Connector Pin Signal Name Connector Pin Signal Name Al TRST NC Bl 12V NC A2 12V NC B2 TCK NC A3 TMS NC B3 GND A4 TDI NC B4 TDO NC A5 5V B5 5V A6 INTA B6 7 INTC NC 7 INTB NC A8
4. 6 4 Cleaning the Touch Screen 6 4 Cleaning Inside the Solar 9500 6 5 Battery Pack Maintenance 6 6 Battery Pack Replacement 6 6 Battery t Read adit 6 8 NLX Motherboard Battery Replacement 6 9 Electrical Safety 6 10 Generali finta dee naci eddie ene aba die a 6 10 Power Outlet Test ss iter De hod ties ata ae V e a 6 11 Ground Earth Integrity xu u rt tct tee tee dieta 6 11 Ground Earth Wire Leakage 6 13 Enclosure Leakage 6 14 Patient Source Leakage 6 15 Patient Sink Leakage Current Test Mains Voltage on the Applied Part 6 16 Test Completion osx espe ex UG RETO v Rr trino 6 17 Checkout Procedure 6 18 Required Tools Special Equipment 6 18 Initial Power Up 6 18 Touch Sereen Check cis on ome a t RO ea 6 19 Speaker Check nie toe Ete ore bees
5. _ 8 34 Revision C Solar 9500 Information Monitor V 2001085 078 Field Replaceable Units Parts Lists and Drawings 9 1 Ordering Parts nennen nennen 9 2 Field Replaceable Units 9 2 Disassembly Assembly sen nnnm 9 3 Opening the Unit for Service 9 3 Replace the Power Supply Assembly 9 5 Replace NLX Motherboard 9 7 Replace Riser I O PCB Assembly 9 8 Replace Add Video PCB or M PortPCB 9 9 Replace NLX Riser Interface PCB Assembly 9 11 InstalliBOOtDIVG e 9 12 Activate Defaults at Target 9 19 Verify a 9 20 Upper Level Assembly 901007 003B 9 21 Electromagnetic Compatibility 1 Electromagnetic Compatibility EMC A 2 Guidance and Manufacturer s Declaration Electromagnetic Emissions A 2 Guidance and Manufacturer s Declaration Electromagnetic Immunity A 3 Guidance and Manufacturer s Declaration Electromagnetic Immunity A 4 Recommen
6. The keyboard and mouse must be connected to the Solar 9500 processor BEFORE power up or it will not function The keyboard will not operate unless the mouse is connected 3 28 Solar 9500 Information Monitor Revision C 2001085 078 Installation Turning Power On Turning Power On The Solar 9500 processing unit is preset at the factory for a specific AC voltage Before applying power to the monitor be sure its voltage setting matches your power requirements Refer to the label on the back of the processor for the voltage and current requirements Refer also to Power Requirements in chapter 2 Technical Specifications When all cables are properly connected and the attached display has been energized the power switch on the back of the Solar 9500 processor should be pressed to the 1 or ON position The power up process takes a few minutes to complete m Five seconds after turning power on you should see the Solar 9500 logo displayed on each of the displays m Approximately one minute after turning power on the graphical user interface waveforms and parameters will be displayed on the screen and normal processing will be started m Several seconds after the primary display is up the second and third displays will be functional m About 2 5 minutes after the power up sequence is complete all applications will be available and printing will be active NOTE Do not switch the power off and on betwee
7. software and defaults N Network 1 Connect a keyboard and a mouse to a source Solar 9500 that is connected to the Unity MC network and is running existing software 2 Ifapplicable turn the source Solar 9500 power on 3 At the source Solar 9500 enter the Service Mode Menu as instructed in Monitor Service Menu on page 4 2 4 Proceed to Export Software on page 9 18 Revision C Solar 9500 Information Monitor 9 17 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly Export Software 1 Layout Controls Module Calibration IP Address 2 Under Network Services select Export To The Network Display Layout Setup Unit Defaults Printing Control and Menu Timeouts Monitor Service Bed Unit Name Serial Interface Network Services Setup Controls Unix Access Time and Date Audio Diagnostic Messages Locale Settings Use the mouse to select the Internet Address field Use the keyboard to enter the Internet Address e g 126 1 2 3 noted in step 17 on page 9 14 to identify the target Solar 9500 with new boot drive Bedlayouts Waveform layouts C Parameter defag ts MONITOR APPS Ver 27Jan03 10 49 OS Ver 3A 27Jan03 13 37 SYSTEM APPS Ver 2D 05Feb02 16 08 Under Configuration Types select Software Only one configuration type can be selected for export at a time A list of all the currently ins
8. td ae re 5 10 10 COX Calibration ae MEE NETAN 5 11 Calibration 5 11 Calibrate Sidestream 02 5 12 About the Procequr s Rett Sn DUE erate SOBRE 5 12 Manufacturer 5 12 Test Equipment a as u a ie 5 12 Calibration Procedure LL 5 12 095CO2 Calibration tare e terrere eie Pets 5 13 10 CO2 22222 5 14 Calibration Completion 22 xe cesta oi eran 5 14 Revision C Solar 9500 Information Monitor iii 2001085 078 Calibrate Barometric Pressure for Interfaced 2 5 15 About thi Procedure ad rae 5 15 Procedure tica AER 5 15 Maintenance 6 1 Maintenance Schedule sse nnne 6 2 Manufacturer Recommendations 6 2 Manufacturer 55 6 2 Visual Inspection 6 3 Cleaning o CY RC E DR CR 6 4 Cleaning Precautions tree aa Sau petet Rodeo 6 4 Exterior Cleaning
9. NBP Calibration Setup You need an NBP tube m f you have Tram 20051 250SL 300A 350A module you need pn 9461 203 m f you have a Tram 400 module with an NBP You need a length of pipe to You need an NBP cuff Any connector that protrudes from the front panel you wrap the NBP cuff around size will work If you don t need pn 9461 208 You can get this from your have one order pn 9461 301 m f you have a Tram 400SL 45051 600SL 65051 local hardware store 800A 850A or 850SL module you need pn 414873 001 You need a coupling to connect the NBP tubing to the NBP cuff Use pn 400787 001 You need a coupling to TM connect your manometer adapter to h the NBP tube Use 46100 002 p 4 f You need a bulb to manually over inflate the NBP cuff WA You need an accurate manometer A digital one such as a Sensym PDM200M is nice but you may use a mercury manometer as well You need two tees to connect the manometer hose and the balloon hose to the hose that connects the NBP hose to the NBP cuff Use pn 4745 101 You need about two 062A feet of NBP tubing Order pn 401582 001 Revision C Solar 9500 Information Monitor 5 7 2001085 078 Module Calibration Calibrate Non invasive Blood Pressure NBP Set up the Manometer 6 Turn the manometer on and adjust the range switch to the 1000 mmHg setting Start the Gain Calibration Test 10 11 12
10. Revision C Solar 9500 Information Monitor 2001085 078 A 7 Electromagnetic Compatibility Electromagnetic Compatibility Part No Description Maximum Lengths N A Abbott Transpac IV Transducers N A N A Edwards Truwave Transducers PX N A Cardiac Output Cables and Probe 2002973 00X Cardiac Output Cable 3 6 m 12 ft 9446 9XX Cardiac Output Probe 2 4m 8 ft 2017000 00X Cardiac Output Cable 3 6 m 12 ft Temperature Cables and Probe 402015 004 Dual Temp Cable 20cm 8 in 9445 XXX Temp Probe Interconnect Cable 3 6 m 12 ft 2016998 001 Dual Temp Cable 20 cm 8 in Pulse Oximetry Cables and Sensors 2006644 00X Nellcor RCAL Interface Cable 3 6m 12ft 2002592 00X Masimo Set Interface Cable 3 6m 12 ft 2017002 00X Masimo Set Interface Cable 3 6m 12 ft 2017001 00X Nellcor RCAL Interface Cable 3 6m 12 ft 2002799 001 Masimo Finger Sensor Pediatric N A 2002800 001 Masimo Finger Sensor Adult N A 407705 00X Nellcor Sensor Finger Probe N A ICG Cable 2003977 001 ICG Patient Cable 4 8 m 15 ft BIS EEG Cables 2007350 001 BIS DSC w PIC Plus not approved for use in J N A 2006703 001 EEG DSC w lead wires N A 2006704 001 EEG DSC Extension Cable 6 0 m 20 ft TC Cable N A Radiometer E5280 Patient Cable N A Sv02 Cable N A Abbot Optical Module N A C02 Cable 412340 002 C02 Sensor Cable 2 4 m 8 ft Accessories 200617X 00X TRAM Modules N A A 8 S
11. 6 18 Solar 9500 Information Monitor Revision C 2001085 078 Maintenance Checkout Procedure Touch Screen Check Speaker Check Starting with the lower control buttons select Setups then Configuration Service Select Calibrate Primary and follow the on screen directions When calibration is complete verify that the cursor arrow displays where the screen is touched Repeat the steps using Calibrate Secondary if a secondary display is used Go to the Touchscreen Controls window as in the previous step Select Click Volume to bring up the Adjust Touchscreen Volume window Use the controls in this window to verify that the internal speaker is working Tram rac Housing Check Verify that the power LED is ON at the Tram rac housing Disconnect and reconnect the Tram rac housing communication cable Verify the recovery of the waveforms If the Tram rac housing has additional slots for input modules insert a BP module Connect simulator and verify communication to the monitor Repeat for each slot If the Tram rac housing has a power supply check the following on the connector that applies to your equipment CAUTION To be in compliance with EN 60601 1 2 a Tram rac must have a power supply when used outside the U S Verify 16 5V is not present at pin 5 of the TRAM NET connector with respect to pin 9 Verify 16 5V is not present at pin 5 with respect to chassis ground of the Tram rac
12. Ta gt TOUCHSCREEN anm TOUCHSCREEN secondary only secondary only VIDEO A Ez co i Non Scrolling VIDEO MAIN Motherboard 9 Scrolli STR Z F DISPLAY ka Scrolling VIDEO B 0128 3 8 Solar 9500 Information Monitor Revision C 2001085 078 Installation Processing Unit Display Interconnection Flat Panel Display Interconnection To connect a Flat Panel Display a medical grade power supply is required Shown below is an illustration TOUCH SCREEN CONNECTION 2000727 002 FLAT PANEL DISPLAY VIDEO BOTTOM VIEW CONNECTION 2002215 00X MEDICAL GRADE POWER SUPPLY Do c Display Mounting Use GE or approved display mounting solutions when installing one or more displays CAUTION When using a non UL 60601 1 EN 60601 1 display ALWAYS use an approved isolation transformer and protect the display from possible ingress of liquids Revision C Solar 9500 Information Monitor 3 9 2001085 078 Installation Acquisition Interfaces Acquisition Interfaces Tram rac Housing Local bed acquisition comes from three possible sources a Unity Network ID
13. 12SL ECG analysis user display customization browser polled serial parameter data arrhythmia waveform review Processing Specifications Item Description Main Processor Intel 233 MHz Pentium with MMX technology main memory 128 MB RAM Graphics Controller Cirrus Logic GD 5465 2MB RAMBUS DRAM Optional Graphics P rocessor with Hardware Windowing Fujitsu Sparclite MB86831 32bit 50 MHz 6MB VRAM Unity IX Network Communication P rocessor Intel 82558 10 100 Base TX Unity Network MC Network Communication P rocessor Intel 82596 10 Base T Solar 9500 Information Monitor 2 5 2001085 078 Overview Technical Specifications Processing Specifications Tram net Communication Intel 82596 Processor M P ort Network Intel 82559 Communication Processor M Port Ethernet Hub Repeater Intel LXT914 Data I O Connectors Description Unity Network IX Network RJ 45 standard Unity Network MC Network RJ 45 standard Tram net 3 DB9F standard M Port 3 R 45 standard Main graphics DB15HD standard Scrolling Graphics DB15HD 2 optional Parallel port DB25F standard Serial ports 2 DB9M standard Keyboard mouse 2 6 pin DIN P S2 style USB 4 pin USB standard not used Audio line out Mini jack standard not used Audio line in Mini jack standard
14. 13 Under Calibrate gain select the Start button The message Inflating to cal pressure displays in the Calibration messages window The NBP module starts pumping up the cuff and the pressure in mmHg displays under the Cuff pressure text and on the manometer When the pressure reaches approximately 250 mmHg the pump shuts off and the pressure drops slowly to about 240 mmHg before stabilizing If the pressure continues to drop at a rate of 1mmHg or more for every five seconds there is a leak in the NBP plumbing If there is a leak in the NBP plumbing repair it and restart this calibration procedure When the pressure has stabilized select Enter pressure Use the on screen keyboard to enter a pressure value that is one mmHg lower than the current manometer reading The message Gain calibration complete appears in the Calibration messages window To verify the calibration select Start under Check calibration The message in the Calibration messages window changes to Calibration check in progress Verify that the pressure readings shown as CUFF in the NBP parameter box on the monitor and manometer are equal 1 mmHg for at least one full minute The messages window changes to At calibration check pressure Select Stop under Check calibration and the message Calibration check cancelled appears in the window The cuff will deflate As part of the leakage test use the bulb hand pump to increase pressure beyond 300 mmHg The m
15. 3 25 Connecting to the Unity Network MC 3 26 Connecting to the Unity Network IX Network 3 27 Keyboard and Mouse 3 28 Turning Power On 2 3 29 Turning 3 30 Using the Menu Command 3 30 Alternate Power Down Method 3 30 Software Configuration 4 1 Monitor Service MENU 4 2 Layout Controls gt yapa nhu ie ria 4 3 Display Layout 4 4 Unit 4 1 t a Rave dnte ida at 4 12 Controls and Menu 5 2 4 14 Module 4 15 Solar 9500 Information Monitor Revision C 2001085 078 Bed Unit Name Setup 4 15 Serial Interface Controls 4 16 Network S Dc ana dca nea ade 4 17 5 terere Pee baa E poser evel ee Pee cce a 4 17 IP Address t Ce eet sat LI wd 4 18 Time and Date s secos 4 20 AUGIO rta EAT GR UR RICERCA RC GERD CERES 4
16. E 5 Mi tg T 7 SEA a lt 079A Revision C Solar 9500 Information Monitor 2001085 078 9 5 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly 3 Disconnect the cables from J1 3 5 6 7 amp 9 and remove the power supply chassis from the main assembly POWER SUPPLY SCREWS 2 PLACES 0978 4 Replace the power supply assembly and reconnect cables 5 Reverse the procedure to reassemble the device 6 Reconnect the power cord and all communication cables Test for proper operation and electrical safety see chapter 6 Maintenance 9 6 Solar 9500 Information Monitor Revision C 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly Replace the NLX Motherboard CAUTION This assembly is extremely static sensitive and should be handled using electrostatic discharge precautions 1 Remove front and rear covers 2 Loosen the two screws on power supply and swing the power supply down as shown 3 Loosen the five screws on the top plate and remove 4 Lift up on the PCB lock to release and remove the NLX Motherboard assembly 5 Install the new NLX Motherboard assembly Ensure that the board EMI fingers are inside the chassis channel 6 Check that the new motherboard is properly seated then move the PCB lock to the lock position 7 Replace the top plate and power supply then tigh
17. Connector Pin Signal Name Pin Signal Name Al TRST Bl 12V A2 12V B2 TCK A3 TMS B3 GND A4 TDI B4 TDO A5 45V B5 5V A6 INTA B6 45V 8 34 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name Pin Signal Name Al INTC B7 INTB A8 5V B8 INTD RSVD B9 PRSNT1 A10 IO B10 RSVD All RSVD B11 PRSNT2 Al4 RSVD B14 RSVD 15 RST B15 GND Al6 IO B16 CLK A17 GNT B17 GND A18 GND B18 REQ A19 RSVD B19 WIO A20 AD30 B20 AD31 A21 3 3V B21 AD29 A22 AD28 822 GND A23 AD26 B23 AD27 A24 GND B24 AD25 A25 AD24 B25 3 3V A26 IDSEL B26 27 3 3V 827 4023 28 4022 B28 GND A29 AD20 B29 AD21 A30 GND B30 AD19 A31 AD18 B31 3 3V A32 AD16 B32 AD17 A33 3 3V 833 2 A34 FRAME B34 GND A35 GND B35 IRDY A36 TRDY B36 3 3V A37 GND B37 DEVSEL A38 STOP B38 GND A39 3 3V 839 LOCK A40 SDONE B40 PERR Revision C Solar 9500 Information Monitor 8 35 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name Pin Signal Name 4 SBO 841 3 3V A42 GND B42 SERR A43 PAR B43 3 3V A44 AD15 B44 C BE1 45 3 3V B45 AD14 A46 AD13 B46 GND A47 AD11 847 012 48 GND B48 AD10 A49 AD9 B49 GND A52 0 52 AD8 A53 3 3V B53 ADI A54 AD6 854 3 3V A55 AD4 8
18. Description Type of protection against electrical shock Class Equipment Degree of protection against electrical shock Type B Applies Part Degree of protection against harmful ingress of water Ordinary Equipment enclosed equipment without protection against ingress of water Degree of safety of application in the presence of a flammable anesthetic mixture with air or with oxygen or nitrous oxide Equipment not suitable for use in the presence of a flammable anesthetic mixture with air or with oxygen or nitrous oxide Method s of sterilization or disinfection recommended by the manufacturer Not Applicable Mode of operation Continuous operation 2 8 Solar 9500 Information Monitor Revision C 2001085 078 Overview Supported Devices Supported Devices The following is a list of supported peripheral devices compatible with the Solar 9500 via the Unity Network ID connectivity device Refer to the Unity Network ID connectivity device service manual for interface adapter part numbers NOTE Due to continuous product innovation this list may no longer be comprehensive If necessary call your sales representative for a current list of supported peripheral devices Refer to the operator documentation for further information about supported devices Supported Anesthesia Machines Manufacturer Model Drager Medical Cato Cicero EM 9 pin Cicero EM 25 pin Ci
19. For equipment with a power supply cord the impedance between the protective earth pin in the mains plug and any accessible metal part which is protectively earthed shall not exceed 0 2 ohms When taking this measurement move the unit s power cord around There should be no fluctuations in resistance Solar 9500 Information Monitor Revision C 2001085 078 Maintenance Electrical Safety Tests Ground Earth Wire Leakage Current Tests Perform this test to measure current leakage through the ground earth wire of the equipment during normal operation 1 OU ges 259 Configure the leakage tester like the circuit shown below Leakage Tester g HIGH T a t 3 NORM Power Cord LOW E o GND a GND RIS _ J Device Under i t i 0 15 DMM 100 gt i i E DMM set to measure AC voltage ES Connect the power cord of the device under test to the power receptacle on the leakage tester NOTE The device under test 1s to be tested at its normal operating voltage Set the power switch of the device under test to ON Read the current leakage indicated on DMM Set the polarity switch on the leakage tester to RVS reverse Read the current leakage indicated on DMM NOTE If either reading is greater than the appropriate specification below the device under test fails Contact
20. If repairs adjustments were made or any parts replaced describe this in the area provided on the PM form Also include comments regarding any unusual environmental conditions that may affect the operation or reliability of the equipment in the area provided on the PM form On the following pages a repair log is included for your convenience to record the repair history of this product 6 22 Solar 9500 Information Monitor Revision C 2001085 078 Maintenance Repair Log Repair Log A repair log is included for your convenience to record the repair history of this product Unit Serial Number Institution Name Dat Maintenance Repalr Revision C Solar 9500 Information Monitor 6 23 2001085 078 Maintenance Repair Log Date Unit Serial Number Institution Name Maintenance Repalr 6 24 Solar 9500 Information Monitor 2001085 078 Revision C 1 Troubleshooting Revision C Solar 9500 Information Monitor 2001085 078 7 1 Troubleshooting Fault Isolation Fault Isolation First Things to Ask Visual Inspection The troubleshooting information presented in this chapter will help you narrow service problems to one of the replaceable assemblies Familiarize yourself with the following material in this chapter before attempting to service the monitor Familiarize yourself w
21. file system creation time is Tue Mar 30 15 22 58 1999 file system contains 1022112 blocks and 255520 inodes hecking used files hecking for orphaned files aking bit map free block list aking free inode list 03496 free blocks 245700 free inodes Filesystem hecking dev hd2b 085A 9500 Error Log All of the messages logged by the Solar 9500 Monitor Applications are sent to the 9500 ne file i option 4 displays the contents of this file See Navigating M utput on page 7 21 for information on how to scroll through and sah the output of this command 1 launch 4 9500 error log 7 system conf ig 10 reboot 2 check filesystems 5 basic error log 8 system info 11 halt 3 system boot logs 6 system error log 9 network info 12 help ommand last command 12 57 19 time 6 22 12 58 44 Page 335 of 425 line 6347 EE tome es CO Pea e un 22 12 29 31 localhost cleanup Freeing shared memory un 22 12 30 47 localhost root un 22 12 30 47 localhost root Starting 59500 on 5 59500 un 22 12 30 47 localhost mms 59500 bin identifyGraphicsCards 124 interface 0 00461013 subsystem 0x80001013 class reu 0x03000003 un 22 12 30 47 localhost mms 59500 bin ident ifyGraphicsCards 1241 interface 0x908010b5 subsystem 0x13141487 class reu 0x03800003 un 22 12 30 47 localhost mms 59500 bin identifyGraphicsCards 124 interface 0x908010b5 subsystem 0 13141487 class reu
22. 1 GND 13 2 PROG 13 2 5VDC 13 PROG_TMS 13 B3 NC J 13 A4 NC J 13 B4 NC 13 A5 TDI J 13 B5 GND Revision C Solar 9500 Information Monitor 8 31 2001085 078 Theory of Operation Signal Descriptions J14 26 Pin Supplemental NLX Motherboard Connector Pin Signal Name Pin Signal Name J14 X1 CD IN LT J14 Y1 CD IN RT 14 2 AGND 14 2 CD IN GND 14 3 MIC_IN J14 Y3 AVCC J14 X4 LINE OUT LT 14 Y4 LINE OUT RT J 14 X5 FP SPKR EN J14 Y5 FP MIC EN 14 X6 VOL DN J14 Y6 VOL_UP 14 7 GND 14 7 AC_RST 14 8 SMI J14 Y8 AC_SD IN 14 9 RESERVED 14 79 GROUND 14 10 RESERVED 14710 AC SD OUT J14 X11 RESERVED J14 Y11 AC_SYNC 14 12 AGND 14 12 14 13 MODEM MIC J14 Y13 MODEM_SPKR 8 32 Solar 9500 Information Monitor Revision 2001085 078 Theory of Operation Signal Descriptions Riser PCB Connectors J1 30 Pin Tramnet Ethernet I O Board Connector Pin Signal Name Pin Signal Name 12 1 TNET_TXD J 12 2 TNET TXC 12 3 5V 12 4 5V_RETURN 12 5 TNET_RXD 12 6 TNET_RXC 12 7 TNET_RTS J 12 8 TNET_CRS J 12 9 5V J 12 10 5V_RETURN 112 1 12 12 TNET_CDT J 12 13 TNET_LPBK 12 14 TNET_RESET J 12 15 5V J 12 16 5V_RETURN J 12 17 ENET_LPBK J 12 18 ENET_LITST 12 19 NC J 12 20 ENET_CDT J 12 21 5V 12 22 5V_RETURN 12
23. 2 Overview Revision C Solar 9500 Information Monitor 2001085 078 Overview The Solar 9500 Information Monitor The Solar 9500 Information Monitor The basic Solar 9500 Information Monitor consists of a Solar 9500 processing unit a compatible touchscreen display and one or more acquisition devices The processing unit is the heart of the system Primary user controls are provided by the touchscreen display but a keyboard and mouse may also be used 001A Up to two additional displays may be attached directly to the Solar 9500 Information Monitor to display layout configurations separate from the Primary Display The additional displays are connected via optional video boards installed in the Solar 9500 processing unit 2 2 Solar 9500 Information Monitor Revision C 2001085 078 Overview The Solar 9500 Information Monitor Front View On the front panel two indicator lights labeled AC and CPU show the operating condition of the unit A connector panel on the right side of the unit provides all the connections to interface equipment to the system BENI INDICATORS INTERCONNECT SIDE PANEL 003A Rear View Located at the rear of the unit are the equipotential lug power supply inlet and switch and a mounting bracket CAUTION The Solar 9500 processor must be mounted in the vertical position Never operate the u
24. 056A 5 Slide the hard drive assembly straight up and out of the chassis CAUTION Equipment damage hazard If the drive doesn t come out far enough for easy cable removal the cables may be twisted around the processor heat sink Carefully free the cables from the heat sink before proceeding 6 Disconnect the cables from the hard drive 7 Remove the four screws holding the bracket to the hard drive 8 Mount the bracket onto the new boot drive and reconnect the cables 9 Check the new boot drive jumper location Jumper location for master or single drive Pins 7 amp 8 75316 222 9266 8642 Circuit Board 109A 10 Carefully slide the new boot drive assembly straight into the chassis Revision C Solar 9500 Information Monitor 9 13 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly CAUTION Equipment damage hazard Carefully slide the boot drive assembly back into the chassis to prevent damage to components on the CPU motherboard 11 Replace the four screws holding the boot drive assembly to the chassis 12 Re install both covers as instructed in Assemble Front and Rear Covers on page 9 4 18 Connect a monitor video cable to the motherboard graphics port NOTE Some service screens only display on the motherboard graphics port 14 Re attach all cables and power cord 15 Connect a keyboard and a mouse 16 T
25. 0x03800003 un 22 12 30 47 localhost mms 59500 bin identifyGraphicsCards 124 Number of PCI graphics cards installed 3 un 22 12 30 47 localhost mms S9500 bin ident ifyGraphicsCards 1241 Number of MS graphics cards installed 2 un 22 12 30 47 localhost mms S9500 bin ident ifyGraphicsCards 124 Number of irrus graphics cards installed 1 un 22 12 30 48 localhost solar ALL DONE STARTING APPS FOR IN 5 59500 T 0 0020 LEELLEEEEEEEEEEE ksc started at 96 un 22 12 30 51 localhost ksc 1411 T 0 2350 G G salvo 6 Revision Solar 9500 Information Monitor 7 15 2001085 078 Troubleshooting Diagnosing System Problems with Houston Basic Error Log System Error Log Messages logged by the 59500 OS s runtime processes are sent to the basic log file Running 5 displays the contents of this file See ulti page Output on page 7 21 for information on how to serali through and search the output of this command 1 launch 4 9500 error log 7 system conf ig 10 reboot 2 check filesystems 5 basic error log 8 system info 11 halt 3 system boot logs 6 system error log 9 network info 12 help Command last command 13 00 31 time 6 22 13 01 35 Page 76 of 439 line 1426 ZA Pu CES 00 phys memory exists 01 localhost startup ns Starting to launch network services 01 localhost startup ns Cleaning up network services scratch dire Jun 11 09 23 01 localhost startup
26. 5V B8 INTD NC AQ RSVD NC B9 PRSNTI NC A10 10 810 RSVD 11 RSVD B11 PRSNT2 A14 RSVD NC B14 RSVD NC A15 RST B15 GND Al6 10 16 CLK A17 GNT B17 GND A18 GND 818 REQ 19 RSVD 819 10 20 030 820 031 21 3 3V B21 AD29 A22 AD28 822 GND A23 AD26 B23 AD27 A24 GND B24 AD25 25 4024 B25 3 3V A26 IDSEL B26 C BE3 27 3 3V 827 4023 28 4022 828 GND A29 AD20 B29 AD21 A30 GND B30 AD19 A31 AD18 B31 3 3V Revision C Solar 9500 Information Monitor 8 15 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name Connector Pin Signal Name A32 AD16 B32 AD17 A33 3 3V B33 C BE2 A34 FRAME B34 GND A35 GND B35 IRDY A36 TRDY 836 3 3V A37 GND B37 DEVSEL A38 STOP 838 GND A39 3 3V 839 LOCK A40 SDONE NC B40 PERR 41 SBO NC B41 3 3V A42 GND 842 SERR A43 PAR B43 3 3V A44 AD15 B44 1 A45 3 3V B45 AD14 A46 AD13 B46 GND A47 AD11 847 4012 48 GND B48 AD10 A49 AD9 849 GND A52 C BEO B52 AD8 A53 3 3V B53 07 54 AD6 B54 3 3V A55 AD4 B55 AD5 A56 GND B56 AD3 57 402 857 GND A58 ADO B58 AD1 A59 10 59 10 A60 REQ64 NC B60 ACK64 NC A61 5V 861 5V A62 5V B62 5V 8 16 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Signal Descriptions J2 15 Pin Video Connector
27. Acquisition Interfaces Dual Tram rac Housings Shown below are examples of how to connect two Tram rac housings to a Solar 9500 information processor CAUTION To be in compliance with EN 60601 1 2 both Tram racs must have a power supply when used outside the U S NOTE WHEN CONNECTED IN PARALLEL THE UNPOWERED RAC 4A MAY BE SUBSTITUTED BY A RAC 2 700520 00X 0188 Parallel Connection 700520 00X 411090 00X 2 E Do 019B Serial Connection 3 14 Solar 9500 Information Monitor Revision C 2001085 078 Installation Acquisition Interfaces About Tram net The three 9 pin connectors on the processing unit make a Tram net network available for the acquisition devices Tram net is a small network that offers ample flexibility a high rate of communication and relatively inexpensive cabling Data is transmitted at the rate of 921 6K bits per second It uses a star topology sometimes referred to as a rooted tree topology This means that the wiring of the network can be pictured as a star or a series of stars The center of each star is called a hub and at the points of the star are called nodes There are cables between the nodes and the hubs but no cables exist between nodes 02
28. BPs 1 8 NBP Temp 1 6 8 Respiration SpO2 SvO2 CO2 Gas Anesthetic Agent Cardiac output BIS not approved for use in Japan Vent CCO RMM Command Button A Command Button ties a button to a command operation such as Silence Alarms NBP Go Stop Zero All View Other Patient Switch Layout To Alarm Setup or Browser Message Window A Message Window displays relevant system messages such as alarm state and print status Revision C Solar 9500 Information Monitor 4 25 2001085 078 Software Configuration Creating Custom Layout Procedure Timer Window A Procedure Timer Window functions like a stopwatch to allow specific procedures to be timed Subgroups Window A Subgroups Window allows window layering functionality with creation save and retrieval of reusable building blocks Creating A Bed Layout The top level of the configuration editing menu is Bed Options This level allows you to create custom bed layouts using basic monitoring building blocks To access the Bed Options menu touch or click anywhere in a blank area between the top header window and the lower control buttons The Bed Options menu will now open displaying the following options Save Bed Waveform Window RM Loop Window Parameter Window Command Button Message Window Create Sub group Retrieve Sub group Procedure timer Background Delete NOTE If you are using a mouse for Configuration editing click and hold the left mous
29. NOTE If the reading is greater than the specification below and the device under test is powered from 100 240 V 50 60 Hz the device under test fails Contact GE Medical Systems Information Technologies Technical Support 100 microamperes 0 1 volts on the DMM when the device under test is powered from 100 240 V 50 60 Hz 11 Set the power switch of the device under test to OFF Patient Source Leakage Current Test This procedure only applies to Class I grounded earthed equipment and measures the leakage current from the ECG RESP connector of the device to ground 1 Configure the leakage tester like the circuit shown below with GND switch OPEN and polarity switch NORM Power Cord J Leakage Tester i HIGH S NORM Power Cord i LOW 5 GND zd me Device Under Closed GND Test ECG Test 0 15 m 1 100 x gt DMM set measure AC voltage 102A 2 Connect an ECG test body to the ECG RESP connector of the device under test 3 Set the power switch of the device to ON Revision C Solar 9500 Information Monitor 6 15 2001085 078 Maintenance Electrical Safety Tests 4 Read the leakage current indicated on the DMM 5 Change the leakage tester polarity switch to the RVS position 6 Read the leakage current indicated on the DMM NOTE If either reading is greater than
30. The following confirmation screen displays ves 041A Revision C Solar 9500 Information Monitor 4 13 2001085 078 Software Configuration Monitor Service Menu Controls and Menu Timeouts Select Change Timeouts to set the length of time a pop up window stays open The choices are 15 seconds 30 seconds 1 minute and No Timeout NOTE Service related windows do not time out Control and Menu Timeouts 042A 4 14 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Monitor Service Menu Module Calibration Select Calibrate in the Module Calibration window to calibrate a module Calibration menus are provided for CO2 and NBP NOTE These buttons to display the calibration means are active only if the associated Parameter is active and a module is present An on screen keypad is also available for all calibration windows where numeric entry is required See chapter 5 Module Calibration for further information on module calibration 043A Bed Unit Name Setup The Bed Unit Name Setup allows you to enter the bed and unit name Select Change Name to open a window with two data entry fields and Show Keyboard Ok and Cancel buttons The data fields are Unit Name and Bed Name Unit Name Bed jot To enter data select the Show Keyboard button You can now use the onscreen keyboard to enter the unit name After entering the unit name press
31. This window is for system diagnosis by GE service personnel Revision C Solar 9500 Information Monitor 4 17 2001085 078 Software Configuration Monitor Service Menu IP Address Select Change Address in the IP Address window to open two windows one with the current address netmask and action buttons OK and Cancel and the other with a numeric keypad CAUTION The IP address of the Unity Network MC network has been set at the factory to be unique When changing the IP address make sure no other equipment on the network has the same address When connected to the network the Solar 9500 will warn the user if duplicate IP addresses have been assigned 126 0 35 122 Address Setup Network Port iP Address Unity MC Riser D 1 Unity IX Motherboard Unity M Port Board Browser Motherboard CIS Print Server Motherboard 046C NOTE The Browser option must be activated See Stratification on page 4 32 or else the Browser and CIS Print Server fields are unavailable The CIS Print Server Motherboard is used to allow the Clinical Information System to print to the Solar 9500 patient data printer 4 18 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Monitor Service Menu Browser Server About Netmasks When Change Address is selected m Address window and numeric keypad appear t
32. Under Configuration Types select Bed layouts 3 Select Activate The message You must select something to activate displays 4 Select Dismiss The message Activating bed layouts will cause the system to restart Do you wish to continue displays 5 Select Yes 6 Select Dismiss when the status window displays successful activation 7 Enter the Service Menu screen again and repeat the above steps selecting Waveform layouts then Parameter Alarm Defaults sent by to activate all configuration types Revision C Solar 9500 Information Monitor 9 19 2001085 078 Field Replaceable Units Parts Lists and Drawings Verify Verify 1 Visually verify customized bed and waveform layouts for proper operation 2 Disconnect keyboard and mouse if connected 3 Perform the Checkout Procedure on page 6 18 Alarm Graph and Network Printer Setup 1 Manually enter Network Printer Setup per instructions in Printing on page 4 12 2 Manually enter Alarm Graph Setup from the main menu Select Setups gt Alarm Graph Setup 9 20 Solar 9500 Information Monitor Revision C 2001085 078 Field Replaceable Units Parts Lists and Drawings Upper Level Assembly 901007 003B Upper Level Assembly 901007 003B Find Num Number Item Description Ref Des Qty 1 401867 001 CARD GUIDE SNAP IN 2 5L 2 2 413079 005 BATTERY PACK 9500 11AA 13 2V Al 1 3 419080 001 ASM 9500 PWR SUPPLY
33. fel FPGA iL gt gt lt gt 5 8 Power SE ISA Bus Supply DO a Monitor 55 lt 25 POWER Audio Speaker Connector Amp Connector Solar 9500 Information Monitor Revision C Theory of Operation Subassemblies Riser I O PCB M Port PCB The Solar 9500 Riser I O board provides the drivers receivers protection circuitry and connectors for the Tramnet and Ethernet interfaces for the Solar 9500 Information Monitor The Riser I O board accepts 16 75V power from the power supply and provides an isolation barrier and filtering on the Riser I O board before routing the 16 75V filtered power to the three Tramnet connectors The Tramnet Hub Tramnet Drivers and receivers and protection circuitry are located on the Riser I O board The Tramnet Hub Multiplexes Demultiplexes data from the three Tramnet connectors on the Riser I O board into the single LAN bus format that is connected to the Riser Interface board via a 30 pin connector on the Riser I O board The 30 pin connector is also used to route the signals from the Ethernet LXT905 Ethernet Adapter to the Riser Interface board The Ethernet Transformers protection circuitry and connector also reside on the Riser T O board 16 75 Power Power Filtering Tramnet Interface Tramnet Driver Hub Transformer amp P
34. not used Audio Mic out Mini jack standard not used Environmental Specifications Item Description Power Requirements 110 120 10 50 60 Hz 220 240 1096 50 60 Hz Power Consumption 200 Watts includes Solar 9500 Tram rac and Tram Thermal dissipation 683 Btu hr Internal 10 watt hour UPS battery Provides 12 second backup power for clean disk shutdown Cooling Forced air Solar 9500 Information Monitor Revision C 2001085 078 Overview Technical Specifications Environmental Specifications Operating Conditions Temperature Humidity 10 C to 35 C 50 F to 95 F 15 to 85 noncondensing Storage Conditions Temperature 40 C to 70 C 40 F to 158 F Humidity 15 to 95 non condensing Physical Specifications Solar 9500 CPU Item Description Height 332 mm 13 0 in Width 348 mm 13 7 in Depth 156 mm 6 1 in Weight 9 kg 19 8 lbs max depending on options Certification Item Description Safety Standards Solar 9500 Processing Unit UL 60601 1 Classified UL Classified for CAN CSA C22 2 No 601 1 EN 60601 1 Certified CE Marking for the 93 42 EEC Medical Device Directive Refer to operator s manual for CE Marking specifics Revision C Solar 9500 Information Monitor 2001085 078 2 7 Overview Technical Specifications Classification
35. 2 5 1 30 37 18 oasis Lynx0S Copyright 1987 1997 Lynx Real Time Systems Inc 30 3 18 oasis Lynx0S 11 rights reserved 30 37 18 oasis Lynx0S 30 37 18 oasis LynxO0S LynxOS x86 created Fri Jan 15 10 46 57 PST 1999 30 37 18 oasis LynxOS Or ing preboot and boot block flags 30 7 37 18 oasis Lynx0S reboot_status 808 30 47 50 oasis Lynx0S Lynx0S 386 486 Pentium PC AT Version 2 5 1 30 47 50 oasis Lynx0S Copyright 1987 1997 Lynx Real Time Systems Inc 30 47 50 oasis Lynx0S All rights reserved 30 7 47 50 oasis LynxOS 30 47 50 oasis Lynx0S LynxOS x86 created Fri Jan 15 10 46 57 PST 1999 30 147 50 oasis LynxO0S Or ing preboot and boot block flags 30 47 50 oasis Lynx0S reboot status 808 30 49 26 s9500 012480 05 LynxOS 386 486 Pentium PC AT Version 2 5 1 30 49 26 s9500 012480 Lynx0S Copyright 1987 1997 Lynx Real Time Systems Inc Mar 30 49 26 s9500 012480 05 All rights reserved 30 49 26 s9500 012480 LynxDS 088A Solar 9500 Information Monitor Revision C 2001085 078 Troubleshooting Diagnosing System Problems with Houston System Config Running option 7 displays the contents of the display setup configuration file the system registry file the application registry file and the patient registry file See Navigating Multi page Output on page 7 21 for information on how to scroll through and search the output of this command 1 launch 4 9500 error log 7 system conf ig
36. 21 Diagnostic 55 065 4 21 locale Settings tree Eu ap EE ERE 4 22 Creating a Custom Layout 4 23 Editing Basics for All Customizable Windows 4 23 Display Features EC ae aote ed 4 24 An Overview of Configured Windows 4 25 Creating Bed uyana mene 4 26 Sample Creation of a Simple Bed Layout 4 29 Print System S tlings coe T ade dead ECC Ree d 4 31 Stratification 4 32 5 Module Calibration 5 1 lla ore 5 2 The Service Menu ueri hort ene p 5 3 Calibrate Non invasive Blood Pressure 5 5 Aboutthe Proced re x s testes ee e ta Gl CR E et 5 5 Manufacturer 5 5 Test Equipment oet Edessa tic tuo 5 5 Calibration Procedu 5 6 Calibrate Mainstream 02 5 9 Procedures oso e ROS tert eO RE 5 9 Manufacturer 5 9 TestEquipmenti icarier GR o e EE UR GER EO 5 9 Calibration Procedure r ice cece cece nm 5 9 0 02 Calibrations s ese
37. 23 ENET_RTS 12 24 ENET_CRS 12 25 ENET_RXD J 12 26 ENET_RXC J 1227 5V J 12 28 5V_RETURN 12 29 ENET_TXD J 12 30 ENET_TXC J2 4 Pin 16 75 Power Connector Pin Signal Name Pin Signal Name 2 1 16 75V 12 3 16 75V_RETURN J 2 2 16 75V 2 4 16 75V_RETURN J3 9 Pin Tramnet Connector J3T designates the TOP connector and J3B designates the BOTTOM connector Pin Signal Name Pin Signal Name 3 1 UP_RX1 3 T6 F16 75V 3 12 F16 75bV RETURN 3 7 3 13 UP RXI 3 T8 F16 75bV RETURN 3 14 F16 75V 3 T9 DN TX1 Revision C Solar 9500 Information Monitor 8 33 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name Pin Signal Name 13 5 DN_TX1 3 1 UP_RX2 3 6 F16 75V 13 82 F16 75V_RETURN 3 B7 NC 3 83 UP RX2 3 B8 F16 75V RETURN 3 B4 F16 75V 3 B9 DN TX24 13 85 DN TX2 J4 Two 9 Pin Tramnet Connectors Pin Signal Name Pin Signal Name 4 1 UP_RX3 4 6 F16 75V 14 2 F16 75V_RETURN 144 14 3 UP_RX3 14 8 F16 75V_RETURN 4 4 F16 75V 14 9 DN_TX3 145 DN_TX3 J5 8 Pin Ethernet Connector Pin Signal Name Pin Signal Name 5 1 15 5 15 2 ENET TX 5 6 _ 15 3 ENET_RX 15 1 15 4 5 8 M Port PCB Connectors 1
38. 50 uA 0 05 volts on the DMM the device fails this test Contact GE Medical Systems Information Technologies Technical Support 7 Change the GND switch to the Closed position 8 Read the leakage current indicated on the DMM 9 Change the leakage current switch to the RVS position 10 Read the leakage current indicated on the DMM NOTE If either reading is greater than 10 pA 0 01 volts on the DMM the device fails this test Contact GE Medical Systems Information Technologies Technical Support 11 Set the power switch of the device to OFF NOTE The AAMI and EN single fault condition ground open is 50 uA whereas the normal condition ground closed is less Patient Sink Leakage Current Test Mains Voltage on the Applied Part This procedure only applies to Class I grounded earthed equipment and measures the leakage current from a mains voltage source into the ECG RESP connector 1 Configure the leakage tester like the circuit shown below with GND switch CLOSED and polarity switch NORM Leakage Tester D HIGH sNORM Power Cord 2 LOW 3 GND o I l L o m RVS Device ga Closed 1 iol ECG Test Test 0 15pF or ECG Cable ___ DMM S1K 100 Keep cable length as short as possible dI DMM set measure voltage 103A 6 16 Solar 9500 In
39. 6 m 12 ft 2017005 00X Multi Link 6 Ld ECG Cable 3 6 m 12 ft 2017006 00X Multi Link 12 SL ECG Cable 3 6 m 12 ft 2017007 00X Multi Link 3 5 6 Adapter N A M1020453 M1020454 Multi Link to 300 series 3 Ld Trunk Cable 3 0m 10ft M1020541 M1020546 Multi Link to 300 series 5 Ld Trunk Cable 3 0 m 10 ft ECG Multi Link Lead Wires 412681 00X Multi Link lead wire Set Group 5 Ld Grabber 130 51 in 412682 00X Multi Link lead wire Set Group 3 Ld Grabber 130 51 in 414556 00 Multi Link lead wire set 5 10 Grabber 130 51 in 41646X 00X Multi Link lead wire set 5 Ld Grabber V2 V6 130 cm 51 in 2014811 001 Multi Link lead wire set 3 Ld MiniGrab AHA Ld 74 cm 29 in 2014813 001 Multi Link lead wire set 3 Ld MiniGrab IEC Ld I 74 cm 29 in Solar 9500 Information Monitor Revision C Electromagnetic Compatibility Electromagnetic Compatibility Part No Description Maximum Lengths 2014816 001 Multi Link lead wire set 3 Ld Adult Graber AHA Ld Il 74 cm 29 in 2014817 001 Multi Link lead wire set 3 Ld Adult Grabber IEC Ld Il 74 cm 29 in 411202 00X Multi Link Ldwr Set Group 5 Ld Snap 130 cm 51 in 411203 00X Multi Link Ldwr Set Group 3 Ld Snap 130 cm 51 in 900716 001 Multi Link Ldwr Set Mini Clip DIN Neonatal 60 cm 24 in 411200 00X Multi Link Ldwr Set 5 Ld Snap 130 cm 51 in 403751 0XX
40. 9 Parts Lists and Drawings before you perform an internal visual inspection of the components Solar 9500 Information Monitor Revision C 2001085 078 Troubleshooting Fault Isolation WARNING Shock hazard High voltages exist in this unit Use insulated tools Remove jewelry Use only one hand when possible Take the time to make all the recommended visual checks refer to the visual inspection chart below before starting any detailed troubleshooting procedures Visual Inspection Chart Area Look for the following problems 1 0 Connectors and Interface Cables m Fraying or other damage m Bent prongs or pins m Cracked housing m Loose screws in plugs m Excessive cable tension or wear m Secure mounting hardware Internal Harnesses and Cables m Excessive tension or wear m Loose connection m Strain reliefs out of place Circuit Boards Ground Wires Wiring m Moisture dust or debris top and bottom m Loose or missing components m Burn damage or smell of over heated components m Socketed components not firmly seated m PCB not seated properly in edge connectors m Solder problems cracks splashes on board incomplete feedthrough prior modifications or repairs m Loose wires or ground strap connections m Faulty wiring m Wires pinched or in vulnerable position Mounting Hardware m Loose or missing screws or other hardware especially fasteners used as connections to g
41. AD 23 11 826 GND 27 AD 20 11 827 AD 21 J 1 A28 AD 18 11 828 40019 J 1 A29 GND 1 829 AD 16 J 1 A30 AD 17 11 830 3 3VDC J 1 A31 IRDY 11 831 2 J 1 A32 DEVSEL 11 832 FRAME J 1 A33 3 3VDC 1 833 TRDY J 1 A34 STOP J 1 B34 GND J 1 A35 PERR 1 835 5 J 1 A36 SERR J 1 B36 LOCK J 1 437 GND 1 837 SBO J 1 438 C BE 1 1 838 3 3VDC J 1 A39 AD 13 1 839 AD 15 J 1 A40 AD 10 J 1 B40 PAR 1 A41 GND J 1 B41 AD 14 1 A42 C BE 0 1 842 GND J 1 A43 AD 00 1 B43 AD 11 J 1 A44 AD 06 1 B44 AD 12 J 1 A45 3 3VDC J 1 B45 AD 09 1 46 AD 05 J 1 B46 3 3VDC 47 AD 01 J 1 B47 AD 08 J 1 A48 AD 03 J 1 B48 AD 07 1 A49 GND J 1 B49 AD 04 1 A50 AD 02 1 B50 GND 51 5VDC J 1 B51 PCI PM Revision C Solar 9500 Information Monitor 2001085 078 Theory of Operation Signal Descriptions J1 ISA Section NLX Connector Pin Signal Name Pin Signal Name J 1 A52 RSTDRV J 1 B52 5VDC J 1 A53 IOCHK J 1 B53 IRQ9 1 454 SD 6 J 1 854 DRQ2 1 A55 SD 7 1 855 50 3 J 1 A56 SD 4 1 856 OWS 57 5VDC 1 857 SD 1 J 1 A58 50 2 J 1 B58 AEN 1 A59 50 5 1 859 IOCHRDY 1 60 SD 0 J 1 860 SA 18 J 1 A61 SMEMW 1 861 SMEMR J 1 A62 SA 19 11 862 SA 16 J 1 A63 I0W J1 B63 IOR J1 A64 SA 17 J1 B64 DRQ3 J 1 A65 GND 1 B65 SA 15 1 A66 DACK3 11 866
42. After making your selections choose OK or Cancel confirmation screen appears for you to confirm any changes NOTE When touchscreen calibration of the display is required it may take several seconds for the background tasks to complete before the calibration screen appears When calibrating the touchscreen only touch the displayed calibration target Otherwise the target area for selecting screen items will be out of position Because Polled Parameter 18 user purchased option it may not be selectable Direct Digital Writers DDW are NOT supported by the Solar 9500 4 16 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Monitor Service Menu Network Services Unix Access The Solar 9500 system uses the Unity Network to send Layouts Parameters and Alarm defaults and Solar 9500 software to other Solar 9500 beds in the same care unit or other care units on the network This window is used to diagnose system problems if the user interface is functional Select Run An Xterm to display a window that allows interaction with the Operating System When this window opens it displays a system name prompt i e 59500 To close the Run An Xterm window touch the close icon in the upper right corner of the X term window or from a keyboard type the word exit then press Enter CAUTION Use caution when running an Xterm Critical data may be unintentionally altered or deleted
43. Background opens the Background color selection window allowing you to set the background color of the subgroup m Delete allows you to delete the sub group Retrieve Sub group Allows you to retrieve a previously saved subgroup by bringing up the Select Layout Configuration window Choose the desired sub group from the list and select OK Procedure timer Allows you to open a timer window After you ve created the timer touch or click inside it to open the Timer options Select Delete to remove the timer window Background Allows you to open the Background color selection window where you can set the background color for the bed Delete Allows you to delete the entire bed window leaving just the background for creating a new bed CAUTION Use discretion when selecting Delete All objects added to the bed layout will be removed immediately and without confirmation NOTE If you accidentally delete a bed that has been previously saved select Setups on the Lower Control Buttons then select Switch Layout to bring up the Select Layout Configuration window Choose the desired bed layout from this list and select OK Sample Creation of a Simple Bed Layout create a simple bed layout follow these steps 1 Turn on Allow Configuration which is found in the Service menu 2 Delete the existing screen by finding a portion of the background invoking the Bed Options pop up menu and then selecting D
44. Configure the PC IP network to be on the same subnet as the Solar 9500 unit you are exporting to For example if the Solar 9500 has the IP address 3 20 109 1 with the netmask 255 0 0 0 then the PC must have an IP address 2 30 109 X with a netmask 255 0 0 0 2 Connect the PC to the Unity MC Network For networked units use a cable PN408997 001 or a standard Ct 5 network patch cable For units with a mini network using BASE T concentrator connect the PC to the network concentrator using cable PN408997 001 or standard Cat 5 network patch cable non networked units connect the PC directly to the Solar 9500 Unity MC network connector using an Ethernet crossover patch cable PN415480 001 3 Turn and log onto the PC Revision C Solar 9500 Information Monitor 9 15 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly 4 Manually change the PC IP address to match the Unity MC Network as follows Manual IP Address Change Windows NT or Windows 98 Windows 2000 Note If BlackICE VPN or any other firewall protection program is running on your PC or PC laptop disable these services before you perform the installation mTo disable BlackICE right click the BlackICE icon in your status tray and select Stop BlackICE Engine mTo disable your VPN client activate your Cisco Systems VPN client click Options and UNcheck Stateful Firewall Always On E
45. GE Medical Systems Information Technologies Technical Support 300 microamperes 0 3 volts on the DMM when the device under test is powered from 100 120 V 50 60 Hz 300 pA 0 3 volts on the DMM when the device under test is powered from a centered tapped 200 240 V 50 60 Hz single phase circuit 500 pA 0 5 volts on the DMM when the device under test is powered from a non center tapped 200 240 V 50 60 Hz single phase circuit NOTE Center tapped and non center tapped supply circuits produce different leakage currents and the UL and EN limits are different Set the power switch of the device under test to OFF Revision C Solar 9500 Information Monitor 6 13 2001085 078 Maintenance Electrical Safety Tests NOTE The DMM plus leakage tester network shown is the circuitry defined by the UL 60601 1 standard for measuring leakage current The measuring devices defined by various standard organizations EN UL etc produce almost identical test measurement results Enclosure Leakage Current Test Perform this test to measure current leakage through exposed conductive surfaces on the device under test during normal operation 1 Configure the leakage tester like the circuit shown below with GND switch OPEN and polarity switch NORM Leakage Tester cee 1 1 1 p HIGH 5 t gt NORM Power Cord i LOW EE pe 2 GND 4 i a
46. GND 1 A67 SA 14 1 867 SA 13 J 1 A68 DACK1 J 1 B68 5VDC J 1 A69 DRQ1 1 B69 REFRESH 1 70 SA 12 J 1 B70 SA 11 71 SYSCLK 1 871 SA 10 J 1 A72 SA 9 11 872 IRQ7 J 1 A73 5VDC 1 873 06 1 74 IRQ5 1 B74 SA 8 J1 A75 SA 7 1 875 SA 6 1 476 IRQ3 1 876 DACK2 J1 A77 IRQ4 1 877 SA 4 J1 A78 SA 5 J 1 B78 GND J 1 A79 TC J 1 B79 SA 3 J 1 A80 BALE 11 880 SA 2 1 A81 GND 11 881 SA 1 J 1 A82 OSC J 1 B82 SA 0 8 20 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name Pin Signal Name J 1 A83 10 516 1 883 5 1 84 516 1 884 LA 23 1 A85 IRQ11 1 885 LA 22 1 A86 IRQ10 1 886 LA 21 J 1 A87 IRQ15 1 887 LA 20 1 A88 IRQ12 1 888 LA 19 1 A89 GND 1 889 LA 18 J 1 A90 IRQ14 1 890 LA 17 1 91 DRQO 1 91 DACK0 1 492 MEMR 1 892 DACK5 J 1 493 MEMW 1 893 50 8 1 94 50 9 1 894 DACK6 1 A95 DRQ5 1 895 50 10 1 A96 DRQ6 J 1 B96 5VDC J 1 497 5VDC 1 97 SD 11 J 1 498 SD 12 J 1 B98 DRQ7 1 A99 DACK7 1 99 50 13 1 100 SD 14 1 8100 SD 15 1 101 MASTER 1 101 GND J1 IDE Floppy and Front Panel Section NLX Connector Pin Signal Name Pin Signal Name 1 102 IDEA DD8 1 8102 GND 1 A103 IDEA_RESET 1 8103 IDEA 907 1 A104 IDE
47. Information Defaults Height Weight vy passi 039A Revision C Solar 9500 Information Monitor 4 11 2001085 078 Software Configuration Monitor Service Menu Configure Printers Patient data on the Solar 9500 can be printed for review to a PostScript compatible printer or writer The Solar 9500 supports both parallel and network printers A network printer shares the network with other Solar 9500 monitors This means it is not connected to any one particular Solar 9500 monitor However there must be one Solar 9500 on the network that is configured with the printer s name and address If there is more than one printer on the network each must have its own name and address The Solar 9500 configured with that name and address then controls and queries that printer on the network for its status Refer to Serial Interface Controls on page 4 16 for instructions on configuring a port for a printer or writer Select Configure Printers to open the Net Printer Setup window NOTE Configure Printer is only used for setting up network printers Parallel printers do not need configuring PRN 50 and PRN 50 M digital writers are configured in Serial Interface Controls on page 4 16 Net Printer Setup Printer Address Port 040B The following options are available m New allows you to add another printer to the list When adding a printer to the network it is necessary to enter t
48. OFF for optional graphics cards only Turn on Wide Waveform Lines to make the waveforms bolder for distant viewing e g a surgeon s display After completing setup options select SAVE to save or Cancel to remove the choices When SAVE is selected the following message appears In order to make the display changes active a monitor reset 18 required Press SAVE to save the changes and reset the monitor immediately Press CANCEL to discard the changes and exit WARNING DO NOT make changes to the Display Setup while actively monitoring a patient because a reset of the unit is required and important data may be lost Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Monitor Service Menu Unit Defaults Parameters Selecting the Parameters option under Unit Defaults displays the Setup Parameter Defaults window All of the parameter menu options as well as arrhythmia and parameter alarm limits alarm levels and alarm volume can be accessed modified and saved as unit defaults Setup Parameter Defaults Setup Parameter Defaults In the Setup Parameter Defaults window there are buttons for each available parameter Select the appropriate button to open the corresponding defaults window and view or modify the current default settings for an available parameter CAUTION Incorrect Parameter Settings Changing the parameter defaults does NOT affect the current parameter and
49. Polled Parameter Interconnection The optional polled parameter service allows access to patient parameter data from the Solar 9500 to other data gathering devices Only the polled parameter service is available Admit discharge time software version and waveform services are NOT available via the serial interface Before connecting the data gathering device to the Solar 9500 processing unit you must first configure the serial channel of the processing unit via the Serial Interface Controls in the Service Menu Refer to chapter 4 Serial Interface Controls for details The serial port of the Solar 9500 has a standard PC pinout and functions as a DTE see EIA 232 E and EIA TIA 574 standards for further information The following table shows the pinout of the serial port on the Solar 9500 processing unit Pin Number Pin Name Direction To From the Solar 9500 1 DCD IN 2 RXD IN 3 TXD OUT 4 DTR OUT 5 GND GND 6 DSR IN 7 RTS OUT 8 CTS IN 9 RI IN To connect the Solar 9500 processing unit to a standard PC for data gathering a null modem cable with 9 pin female socket ends should be used The serial ports are not isolated on the Solar 9500 processing unit and if required an external isolation mechanism must be used Revision C Solar 9500 Information Monitor 3 17 2001085 078 Installation Local Area Network LAN Interfaces Local Area Network LAN Interfaces About Et
50. R133 and filtered by C31 and C33 CR26 is used to clamp the output to the 5V rail Revision C Solar 9500 Information Monitor 8 3 2001085 078 Theory of Operation Subassemblies 12 Volt Linear Regulator 12 5 Volt Regulators U17 and associated circuitry form a 12 volt linear regulator U17 is the same regulator that is used in the 3 3 volt circuit The output voltage is determined by the values of R138 and R139 and filtered by C54 The output is clamped by zener transient suppressor CR2 U6 is a fixed voltage output negative regulator The input is from an auxiliary winding of the main switching transformer T2 R107 and R106 are required to provide a minimum load for regulation C4 filters the output voltage and zener transient suppressor CR1 clamps the output voltage U1 is a 5 volt low current linear regulator C103 provides filtering for the output and transients suppressor CR5 protects the output from overvoltage transients External 16 75V Protect Circuit Since the 16 75 volt rail is the source for all of the other voltages it is necessary that the external 16 75 volt output be protected against short circuits or overloads U8 and associated circuitry form a auto reset electronic circuit breaker In the event of an overload the breaker will remain tripped for a period of time determined by the value of C112 and C114 The output of U8 at pin 6 drives an N channel mosfet U9 which is the pass element for the circuit R1
51. Shock hazard Do not leave unattached power cords connected to the AC mains WARNING Failure to implement a satisfactory maintenance schedule may cause undue equipment failure and possible health hazards Unless you have an Equipment Maintenance Contract GE Medical Systems Information Technologies does not in any manner assume the responsibility for performing the recommended maintenance procedures The sole responsibility rests with the individual or institution using the equipment GE Medical Systems Information Technologies service personnel may at their discretion follow the procedures provided in this manual as a guide during visits to the equipment site Perform electrical safety tests under normal ambient conditions of temperature humidity and pressure Solar 9500 Information Monitor Revision C 2001085 078 Maintenance Electrical Safety Tests Test Equipment Power Outlet Test Listed below are required tools and test equipment to perform electrical safety tests Equivalent equipment may be substituted as necessary Item Specification Leakage Current Tester Equivalent to the circuits shown Digital Multimeter DMM AC volts ohms Ground Bond Tester 0 1ohm ECG Test Body All leads together Before starting the tests the wall receptacle from which the device will get electrical power must be checked This test checks the condition of the wall receptacle to ensure corre
52. Signal Name NLX Conn J 1 pin 6 1 IDEB_RESET Al21 16 2 GND 6 3 IDEB DD7 B121 J64 IDEB DD8 8120 16 5 IDEB DD6 A123 6 6 IDEB DD9 A122 16 1 IDEB DD5 A124 6 8 IDEB DD10 B123 6 9 IDEB_DD4 B125 6 10 IDEB DD11 125 6 11 IDEB DD3 8126 6 12 IDEB DD12 A126 6 13 IDEB 002 128 6 14 IDEB DD13 B127 6 15 IDEB DD1 B129 6 16 IDEB 0014 8128 Revision Solar 9500 Information Monitor 8 27 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name NLX Conn J 1 pin Pin Signal Name NLX Conn J 1 pin 16 17 IDEB_DDO B130 16 18 IDEB 0015 129 6 19 GND 6 20 IDEKEY 16 21 IDEB DMARQ A131 16 22 GND 16 23 IDEB DIOW A130 6 24 GND 16 25 IDEB DIOR 8131 6 26 GND 16 21 IDEB_IORDY A132 16 28 IDEB CSEL 8132 6 29 IDEB_DMACK A134 6 30 GND 16 31 IDEB INTRQ 8133 6 32 IDEB RESRV 6 33 IDEB_DA1 B134 6 34 NC 6 35 IDEB DAO A136 6 36 IDEB DA2 8135 16 37 IDEB_CS0 A137 6 38 IDEB_CS1 B136 6 39 IDEB_DASP B137 6 40 GND 16 41 6 42 5V 6 43 GND 6 44 GND J7 40 Pin IDE Connector The signals in the table below are routed from the NLX motherboard connector to the IDE connector Pin Signal Name NLX Conn J 1 pin Pin Signal Name NLX Conn J 1 pin 71 IDEB RESET A121 11 2 GND 11 3 IDEB 007 8121 11 4 IDEB DD8 B120 7 5 IDEB DD6 A123 11 6 IDEB DD9 A
53. This assumes that the default MC network address of the Solar 9500 is unchanged from the factory default Consult the operating manual of the printer for setting the IP address and netmask 10 BASE T b 027 3 26 Solar 9500 Information Monitor Revision C 2001085 078 Installation Printer Interconnect Connecting to the Unity Network IX Network When connecting a network printer to the IX network the IP address should be a unique valid node within the subnet of the IX network The netmask should correspond with the rules determined by the institution for the IX network NOTE To share a printer between Solar 9500s on the IX network the Solar 9500s must also be connected to the MC network since all printer status information passes through the MC network IX NETWORK MC NETWORK PORT UNITY NETWORK MC NETWORK 028A Revision C Solar 9500 Information Monitor 3 27 2001085 078 Installation Keyboard and Mouse Keyboard and Mouse The optional keyboard and mouse can be used in lieu of the touchscreen interface They are also used when servicing or troubleshooting a Solar 9500 A port is provided for each device at the interconnect panel and they are NOT interchangeable Follow the directions below when connecting these devices KEYBOARD MOUSE 0298
54. Unity Networks offer the high rate of communication of 10 megabits per second This local area network links all patient monitors central stations and other GE equipment throughout the hospital Depending on the construction of the hospital thick net thin net or CAT 5 twisted pair cabling is used The Solar 9500 is designed to be used with twisted pair cabling Consult GE when trying to interface with either thick net or thin net cabling Solar 9500 Information Monitor Revision C 2001085 078 Installation Local Area Network LAN Interfaces Twisted Pair Twisted pair is the most popular cabling because it is easy to install and flexible to work with It uses the star topology with a concentrator as the hub of the segment Each of the network devices is connected directly to the concentrator so longer lengths of cable are required A maximum of 100 meters or 328 feet is the longest length of twisted pair cable allowed The number of devices is limited to the amount of connectors at the concentrator For example one segment may connect all the patient monitors and central stations in the ICU Intensive Care Unit and another may connect the monitoring system in the CCU Critical Care Unit Each segment could be a fully functioning stand alone system if they were not connected to each other However with a bridge or repeater to connect the ICU one segment with the CCU the other segment information can pass between any of the
55. Unscrew the eight screws that hold down the Riser Interface board and carefully remove the board from the chassis Revision C Solar 9500 Information Monitor 9 11 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly 10 Reverse the disassembly procedure to reassemble the unit 100A 11 Reconnect the power cord and all communication cables Test for proper operation and electrical safety see chapter 6 Maintenance 12 From the main menu select Patient Data Select Patient Info and click OK This writes the system configuration information to the EEPROM Install Boot Drive NOTE Do not replace the NLX Riser Interface PCB Assembly and the hard drive at the same time System configuration information is stored on these two assemblies and replacing both at the same time will result in lost system configuration information 1 Ifnecessary turn off the Solar 9500 remove the power cord and disconnect all other cables 2 Remove both covers as instructed in Remove Front and Rear Covers on page 9 4 3 Place unit connector panel side down 9 12 Solar 9500 Information Monitor Revision C 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly 4 Remove the four screws holding the hard drive assembly to the chassis pi VW Screws holding drive to chassis S ho Bracket Screws
56. WARNING The equipment or system should not be used adjacent to or stacked with other equipment If adjacent or stacked use is necessary the equipment or system should be tested to verify normal operation in the configuration in which it is being used Guidance and Manufacturer s Declaration Electromagnetic Emissions The Solar 9500 Information Monitor is intended for use in the electromagnetic environment specified below It is the responsibility of the customer or user to assure that the Solar 9500 Information Monitor 18 used in such an environment Emissions Test Compliance Electromagnetic Environment Guidance RF Emissions Group 1 The equipment uses RF energy only for its internal function Therefore its RF EN 55011 emissions are very low and are not likely to cause any interference in nearby electronic equipment RF Emissions Class A EN 55011 Harmonic Emissions Class A The equipmentis suitable for use in all establishments other than domestic and EN 61000 3 2 those directly connected to the public low voltage power supply network that Supplies buildings used for domestic purposes Voltage Fluctuations Complies Flicker Emissions EN 61000 3 3 A 2 Solar 9500 Information Monitor Revision C 2001085 078 Electromagnetic Compatibility Electromagnetic Compatibility EMC Guidance and Manufacturer s Declaration Electromagnetic Immunity The Solar 9500 Informati
57. WRDATA B145 8 23 GND 824 WE A146 J 8 25 GND 8 26 0 8146 18 21 MSENO B147 18 28 WP A148 8 29 GND J 8 30 RDDATA B148 8 31 GND J 8 32 HDSEL A149 8 33 GND 8 34 DSKCHG B149 Revision C Solar 9500 Information Monitor 8 29 2001085 078 Theory of Operation Signal Descriptions J9 Power Supply Monitor Connector Pin Signal Name Signal Name 1 BATT_CTR_TAP Input This voltage is one half the voltage on the BATTERY signal 10 kOhm series resistor on power supply board provides short circuit protection 2 BATTERY Input Battery voltage from power supply 10 kOhm series resistor on power supply board provides short circuit protection Nominal voltage 14 4 VDC Voltage output range 12 18 VDC 3 BATCON Output TTL level signal to the power supply to enable the battery 4 ACOFF Input TTL level signal from the power supply 5 416 75 MON Input Voltage range is 16 75V 5 10 kOhm series resistor on power supply board provides short circuit protection 6 PS ID 1 Input TTL level signal from the power supply 1 PS ID 2 Input TTL level signal from the power supply 8 GND Ground 9 GND Ground 10 TEMP OUT Input 10mV per degree C Voltage output from the power supply J10 Speaker Connector Pin Signal Name NLX Conn J 1 pin Pin Signal Name NLX Conn J 1 pin 110 1 SPKR_VO1
58. a tone Select Stop Tone to turn tone off Select Close to end test and close the window Under Diagnostic Messages you can display and print all system and Tram Log Files See chapter 7 Troubleshooting for more information Revision C Solar 9500 Information Monitor 4 21 2001085 078 Software Configuration Monitor Service Menu Locale Settings Use the Locale Settings option to change languages and country specific features 1 Select Locale The following window appears Select a Locale Danish Dutch English French French_France OK Cancel 050 2 Select a language and or country then click A dialog box similar to the following appears You are changing the locale from English to French This will cause a software restart Do you wish to continue 3 Select Yes The Solar 9500 restarts in the new language 051A 4 22 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Creating a Custom Layout Creating a Custom Layout The Solar 9500 Information Monitor allows you to create and configure custom screen layouts to suit your needs With configuration editing enabled any of the windows on the screen can be resized from any corner Windows can also be moved around on the screen by grabbing the edge of the window NOTE Windows cannot be moved outside of the bed window in which they were created If the layout you just configured is some
59. alarm settings until you select Save and then Restore on the Setup Parameter Defaults screen NOTE The difference between run time changes and parameter default changes is whether the parameter is accessed through the main menu or the service menu Parameter menus accessed from the main menu display Control in the upper right corner whereas they display Defaults via the service menu For example ECG Control vs ECG Defaults Revision C Solar 9500 Information Monitor 4 7 2001085 078 Software Configuration Monitor Service Menu ECG Lead and Size NOTE When setting the parameter defaults for CO2 only the CO2 waveform scale CO2 units and CO2 color can be set The CO2 modules the SAM and the RAMS all have other parameter configuration defaults that cannot be changed Examples are O2 waveform scale O2 units O2 color N20 compensation either on off or a percent and O2 compensation Alarm Defaults To set alarm defaults select a parameter from the Setup Parameter Defaults window then select To Alarm Setup The Alarm Defaults window displays see next page P Lead nibo RE A alysi Arrhythmia Filtering ECG Defaults v v TE 4 8 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Monitor Service Menu Alarm Limits 110 Minutes of Trend Data Alarm Defaults Alarm Volume State 036A Alarm L
60. are provided for the rest of the system for proper operation and monitoring This power supply is forced air cooled In addition the power supply sub chassis is used as a heat sink for convection cooling The Solar 9500 power supply consists of a mains AC line PWM converter which creates a bulk output voltage from which the other outputs are developed The mains bulk output is diode or d with the battery input so that the necessary outputs will remain active when the AC mains source is removed 16 75 Volt AC Mains Converter The 16 75 volt AC mains converter is a two transistor forward converter which takes the AC line input and creates the bulk 16 75 volt output 5V DC DC Converter Circuit U12 is a high power synchronous current mode switching regulator The circuit incorporates a voltage booster so an N Channel Mosfet can be used for the high side switch Under voltage lockout keeps the converter from switching until the voltage at U12 17 reaches approximately 9 35V and shutdowns when the voltage drops below 9 0V The switching frequency is determined by the values of R120 and C124 Soft start timing is determined by the value of C18 C5 C6 C7 and L2 provide the bulk filtering for the input 3 3 Volt Linear Regulator U16 and associated circuitry form a 3 3 volt linear regulator U16 is a low dropout adjustable three ampere regulator The 5V input is filtered by C134 The output is set by the values of R54 R132 and
61. batteries and has X seconds left before automatic shutdown Shut Down Now 075A Select Shut Down Now or the unit goes into automatic shutdown in 12 seconds When power is restored the unit goes through start up and returns to it s normal operating condition 7 4 Solar 9500 Information Monitor Revision C 2001085 078 Troubleshooting Fault Isolation Battery Failure If there was a power interruption and the unit did not shut down the following message appears after full power is resumed AC power has been restored Normal operation resumed Close 076A Select Close and resume normal operation On power up if the battery pack of the Solar 9500 CPU does not have enough capacity to provide the 12 seconds of back up power the following message appears WARNING BATTERY DISCHARGED OR FAILED The battery cannot sustain operation if power is lost This situation is due to a discharged battery or a battery failure Shut Down Now And Acknowledge Perform Maintenance And Close 069A You can m select Shut Down Now And Perform Maintenance or m select Acknowledge And Close to continue normal operation Repeat this test after 24 hours of continuous AC power to the Solar 9500 CPU If after a power cycle the above message displays again then replace the battery pack See chapter 6 Maintenance for information on replacing the battery pack Revision C Solar 9500 Information Monitor 7 5 2001
62. housing This step does not apply to a Tram rac 2 housing Check the analog output connector yellow using an oscilloscope Observe a signal at the appropriate pins found in the following table The output signal is dependent upon which Tram and input module functions are activated at the monitor Tram rac 3 amp 4 housings use the front round connector Revision C Solar 9500 Information Monitor 6 19 2001085 078 Maintenance Checkout Procedure Analog Output Signals Pins for Pins for Tram rac 4A D Type Round Signal Source Bezel Number for BP Connector Connector Output Pin 1 Pin8 Signal GND for Tram Waveforms 2 Pin2 Pin2 Trace I ECG Tram Pin3 Pin 6 Tram BP3 or SPO Value Tram Pin 4 Reserved for Future Use Pin5 Pin4 Tram ART 10r BP1 Tram Pin 6 Pin9 Slot 3 Series 7000 Waveform A Right Side or Module Parameter 6 Pin 7 Pin 11 Slot 4 Series 7000 Waveform A Right Side or Module Parameter 8 Pin 8 Pin 8 Signal GND for Series 7000 Waveforms Pin 9 Pin1 Tram ECG II Tram Pin 10 Pin 3 Tram ECG V Tram 11 7 Tram 4 or RESP Tram Pin 12 Reserved for Future Use Pin 13 Pin 5 Tram BP2 or SPO Waveform Tram Pin 14 Pin 10 Slot 3 Series 7000 Waveform B Left Side or Module Parameter 5 Pin 15 Slot 4 Series 7000 Waveform B Left Side or Module Parameter 7 NOTE top displayed trace on the monitor is present unless AVR AVL or AVF l
63. i Co i RvSs Device Spon I Closed GND Test 0 15 DMM 1K 5 100 0 exposed conductive chassis 1 1 f Wah s s I DMM set to measure AC voltage 074A 2 Connect probe to an unpainted non anodized chassis ground on the unit under test 3 Setthe power switch of the device to ON 4 Readthe current leakage indicated on DMM NOTE Center tapped and non center tapped supply circuits produce different leakage currents and the UL and EN limits are different 5 Setthe polarity switch to RVS 6 Readthe current leakage indicated on DMM NOTE If either reading is greater than the appropriate specification below the device under test fails Contact GE Medical Systems Information Technologies Technical Support 6 14 Solar 9500 Information Monitor Revision C 2001085 078 Maintenance Electrical Safety Tests 300 microamperes 0 3 volts on the DMM when the device under test is powered from 100 120 V 50 60 Hz 300 LA 0 3 volts on the DMM when the device under test is powered from a centered tapped 200 240 V 50 60 Hz single phase circuit 500 uA 0 5 volts on the DMM when the device under test is powered from a non center tapped 200 240 V 50 60 Hz single phase circuit 7 Set the GND switch on the leakage tester to CLOSED 8 Read the current leakage indicated on DMM 9 Set the polarity switch to RVS 10 Read the current leakage indicated on DMM
64. instructions to install the cable shroud FRONT COVER CABLE SHROUD lunas 010A 1 Remove the front cover as instructed in Processing Unit Setup on page 3 3 2 Snapthe cable shroud pn 420235 001 onto the side of the Solar 9500 housing 3 Secure with the three self tapping screws provided pn 45177 205 4 Replace the front cover as instructed in Processing Unit Setup on page 3 3 CAUTION Do not force the cover Ensure that the front cover is aligned properly on its hinges before closing Forcing the front cover into place with improper alignment will cause damage to the cover Revision C Solar 9500 Information Monitor 3 5 2001085 078 Installation Display Descriptions Display Descriptions SOLAR 9500 CPU PRIMARY DISPLAY Primary Display Secondary Display Remote Display 1 2 A single Solar 9500 processing unit can be connected to up to three displays as shown in the block diagram below and described as follows SECONDARY DISPLAY or REMOTE DISPLAY APPLICATIONS DISPLAY TOUCHSCREEN TOUCHSCREEN This is the first in a series of monitors may be the only monitor connected to the Solar 9500 processing unit The primary display is distinguished from the other monitors by the eight control buttons displayed at the bottom of the screen Real Time data parameter waveforms and numerics and or No
65. log 9500 990213 Feb 17 09 24 39 localhost ksc i 26 T 1280583 9530 rocket 42 queuemanager state change from running to stopping fmms tmp log 9500 990212 Feb 17 09 24 39 localhost ksc i 26 T 1280583 9530 rocket 42 queuemanager sending signal 15 process 100 fmms tmp og 9500 990211 Feb 17 09 24 39 localhost ksc 128 T 1280583 9530 rocket 43 solargraph state change from running to stopping fmms tmp og 9500 990210 Feb 17 09 24 39 localhost ksc 128 T 1280583 9540 rocket 43 solargraph sending signal 15 process 19 imms tmp log S9500 990209 Feb 17 09 24 39 localhost ksc 128 T 1280583 9540 rocket 45 nslist state change from running to stopping fimms tmpAog 9500 990206 Feb 17 09 24 39 localhost ksc 128 T 1280583 9550 rocket 45 nslist sending signal 15 process 138 fmms tmpAog 9500 990207 Feb 17 09 24 40 localhost ksc 128 T 1280584 4510 rocket 12 audsrv actual exit value 1 0 Feb 17 09 24 40 localhost ksc 128 T 1280584 4510 rocket 12 audsrv state change from stopping to failed Feb 17 09 24 40 localhost ksc 128 T 1280584 4990 rocket 26 qui state change from stopping to done Set Search String to Feb 17 09 24 40 localhost ksc 128 T 1280585 0510 rocket 22 Feb 17 09 24 40 localhost ksc 128 T 1280585 0520 rocket 22 window Manageri actual exit value 1 0 window Manager state change from stopping to shutdown started actual exit value 1 0 state change from stopping to f
66. of the bed window and select Save Bed or choose the Save Layout option in the Setups menu 12 Move the cursor to the text entry field and type TEST 13 Press OK Test the Layout To confirm that the TEST layout was saved go to the Setups menu and select Switch Layout When the selection menu appears select MMS Default then press OK Now repeat but select TEST instead 4 30 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Creating Custom Layout Print System Settings Select Print System Settings to print a Solar 9500 System Configuration Record NOTE GE recommends printing the system configuration for each unit after completion of customer configuration Retain copies for future reference The following information is on the Solar 9500 System Configuration Record IP Address Settings Unity Network MC Riser IP Address Unity Network MC Riser IP Netmask Unity Network IX Motherboard IP Address Unity Network IX Motherboard IP Netmask M Port IP Netmask Browser Motherboard IP Address CIS Print Server Motherboard IP Address Application Layout Setup Primary Monitor Layout Secondary Monitor Layout View Only Monitor 1 Layout View Only Monitor 2 Layout Patient View Layout Serial Interfaces Serial Port 1 Device Serial Port 1 Display Serial Port 2 Device Serial Port 2 Display Default Patient Information Default Patient Units Default Location ID Default Site Number Appl
67. outlined in chapter 3 Installation and disconnect the display from the power source and the network 2 Usea clean lint free cloth and one of the cleaning solutions listed above Wring the excess solution from the cloth Do not drip any liquid into open vents switches plugs or connectors 3 Dry the surfaces with a clean cloth or paper towel Cleaning the Touch Screen Display To clean the Touch Screen Display follow this procedure 1 Turn OFF at the mains power switch on the display and disconnect it from the power source 2 Clean the screen with an ammonia free glass cleaner and lint free cloth CAUTION Do not spray any glass cleaning solution or any general cleaning solutions directly onto the monitor s display surface Always dampen the towel and then clean the Screen 6 4 Solar 9500 Information Monitor Revision C 2001085 078 Maintenance Cleaning Cleaning Inside the Solar 9500 CPU The Solar 9500 CPU uses a forced air cooling system that draws air through the unit As a result there can be a buildup of lint and other debris inside the unit Accumulations of lint and debris can lead to thermal failures or short circuit failures if not removed regularly It is recommended that the inside of the Solar 9500 should be cleaned every 12 months To clean the inside of the Solar 9500 follow this procedure 1 Power down the Solar 9500 according to the procedure outlined in chapter 3 Installation a
68. search wraps around to the beginning or end of the output Remember that pressing the Enter key without entering an option executes the previously executed command Therefore when scrolling through occurrences of a search string press n or N and Enter the first time and from then on just press Enter If you want to look at the very end of a long log file after you first have it displayed use to page backwards thus causing the very last page of output to display and then press Enter by itself to continue displaying pages in reverse order 7 22 Solar 9500 Information Monitor Revision C 2001085 078 0 Theory of Operation evision Solar 9500 Information Monitor 2001085 078 Theory of Operation Overview Overview The Solar 9500 has three main components the processing unit displays with touchscreens and acquisition devices The processing unit receives digital encoded information from the acquisition devices Smart acquisition devices e g the TRAM SAM etc send post processed waveform and parameter data to the CPU While non intelligent devices e g BP and Temp modules send via the Tram Rac filtered and digitized but non processed data to the processing unit The processing unit further processes the waveform and parameter data reformats for the data and then directs it for drawing on one or more displays or to one or more printers The data is also processed for alarm control tr
69. series the center Tram net connector of the Tram rac connects to the second Tram rac housing The Tram rac housing farthest from the monitor must have a power supply CAUTION To be in compliance with EN 60601 1 2 both Tram racs must have a power supply when used outside the U S Revision C Solar 9500 Information Monitor 3 11 2001085 078 Installation Acquisition Interfaces Tram rac 2 Housing Shown below is the connection from the Tram rac 2 housing to a Solar 9500 processing unit NOTE To connect the Solar 9500 processing unit to the Tram rac housing use cable pn 700520 00x or equivalent A Tram net hub assembly is NOT used with the Solar 9500 processing unit 700520 00X 016B Tram rac 4A Housing Shown below is the connection from the Tram rac 4A housing to a Solar 9500 processing unit 700520 00X V m 7 0178 3 12 Solar 9500 Information Monitor Revision C 2001085 078 Installation Acquisition Interfaces Unity Network ID Connectivity Device Shown below is a connection from the Unity Network ID to a Solar 9500 processing unit The Unity Network ID may be connected to any M Port 104A Revision C Solar 9500 Information Monitor 3 13 2001085 078 Installation
70. the Tab button on the screen keypad to advance the cursor to Bed Name or on to Hide Keyboard You can also put the cursor in either field by touching the screen When complete select Ok to close the window and save the changes or select Cancel to close the window without saving Revision C Solar 9500 Information Monitor 4 15 2001085 078 Software Configuration Monitor Service Menu Serial Interface Controls Select Serial Interfaces to open the Serial Port Configuration Control window Serial Port Configuration Control Serial Port 1 Serial Port 2 Device Display Device D y EA 045A In this window you define what device is connected to Serial Port 1 and Serial Port 2 Under Serial Port 1 and Serial Port 2 are two choice lists labeled Device and Display The Device list includes Off Touch Screen RAMS M 200 Polled Parameter and Writer When Touchscreen is selected the options Display 1 Display 2 or Display 3 depending on the number of displays currently available appears in the Display box Select Writer when a PRN 50 or PRN 50 M is connected NOTE If a PRN 50 or PRN 50 M writer is connected to an M Port it will always be used by the Solar 9500 even if a serial port 1s configured to be used for a PRN 50 or PRN 50 sM writer Patient data Trends Arrhythmia Review Alarm History etc Procedures PA Wedge 12SL etc and System information error logs etc are not supported on a writer
71. the supply mains input circuitry are UL and EN certified and meet all safety and constructional requirements of UL 60601 1 and EN 60601 1 as part of patient care Class 1 medical electrical equipment AC Mains Power Entry Assembly An AC mains power entry assembly includes a male input connector with an AC power switch The AC power switch breaks both line and neutral AC Mains Power Fusing Both sides of the AC mains line and neutral are individually fused Fuses are located on the circuit board and are type T rated at 6 3 amperes AC Mains Safety Ground A grounded connection is provided from the grounding pin on the AC mains power entry assembly to a stud on the chassis This Solar 9500 Video Circuit Board Assembly provides an analog RGB video signal that is input to a video monitor to provide the display for the Solar 9500 Information Monitor The circuit board interfaces to the Solar 9500 Processor via the PCI Bus The video display format is 1024 horizontal x 768 vertical x 16 bit pixels at 70 Hertz noninterlaced The RAMDAC palette provides 65 536 colors selected from a possible 16 million colors The circuit board supports multiple dynamic panning and scrolling windows and contains enough video memory for 2 and 2 8 screens of data on the dynamic video plane and enough video memory for one screen of data on the static video plane The dynamic and static video planes may be overlayed or underlayed and use transparency to provide
72. to assure that you get the most from your equipment Solar 9500 Information Monitor Revision C 2001085 078 Introduction 5 afety Information Eq uipment Sym bols Some of the following symbols appear on the equipment N ATTENTION Consult accompanying documents before using the equipment In Europe this symbol means dangerous or high voltage In the United States 2 this symbol represents caution notice below To reduce the risk of electric shock do NOT remove cover or back Refer servicing to qualified personnel Defibrillator proof type CF equipment type CF equipment is specifically designed for applications where a conductive connection directly to the heart is 1 established The paddles indicate the equipment is defibrillator proof Defibrillator proof type BF equipment type BF equipment is suitable for intentional external and internal application to the patient excluding direct cardiac application Type BF equipment is type equipment with F type isolated floating part The paddles indicate the equipment is defibrillator proof Type B equipment type B equipment is suitable for intentional external and internal application to the patient excluding direct cardiac application Equipotentiality Alternating current AC Power I ON O OFF Fuse 22 gt PRESS Press to open Medical Equipment y lt gt d With respect to electric shock fire and me
73. waste stream which may be illegal in your area Please call 1 800 8 BATTERY for information on the Ni Cd battery recycling and disposal bans restrictions in your area GE s involvement in this program is part of our commitment to preserving our environment and conserving natural resources Solar 9500 Information Monitor Revision C 2001085 078 Maintenance NLX Motherboard Battery Replacement NLX Motherboard Battery Replacement The NLX Motherboard has an on board 3 6 VDC battery as a backup power source for circuits requiring keep alive power such as the real time clock Because the normal life of this battery is a little over five years replace the battery every five years or when the system will not keep date and time after doing a power cycle 1 Remove the board as described in Replace the NLX Motherboard on page 9 7 Replace battery BT1 and reassemble Battery is in a socket and requires no soldering Perform leakage tests Reconnect the Solar 9500 to the network and power source Apply power and verify operation tH I E c E Fa da 26 o 8 11 A 1 8 HE gs 5 oO SH a p qe B pg E zl te e s EE 42
74. window displays the messages Calibrating and Press button when 0 is supplied NOTE If you select Abort Calibration before 096 or 1096 gases are entered you must restart the calibration procedure Revision C Solar 9500 Information Monitor 5 13 2001085 078 Module Calibration Calibrate Sidestream CO2 10 CO2 Calibration 7 Select Press when gas is supplied and the messages change to Waiting for 10 Gas and Press when 10 is supplied 8 Reconnect the calibration adapter to the tubing and apply 10 calibration gas to the airway adapter of the sensor When CAL gas 18 applied during calibration a waveform similar to that displayed below will show the CO2 level 1096 066A 0 To view the CO2 waveform close the Service Menu window move the CO2 calibration window Calibration Completion 9 Select Press when gas is supplied to begin 10 gas calibration A blanking out of both Module Status windows indicates that the calibration was completed If the calibration failed one of the following messages appear One Of The Cal Gases is Wrong or Bad 10 Gas Used NOTE The previously stored calibration factors are held if the calibration fails 5 14 Solar 9500 Information Monitor Revision C 2001085 078 Module Calibration Calibrate Barometric Pressure for Interfaced 2 Calibrate Barometric Pressure for Interfaced CO2 About the Procedure This p
75. 0 SDONE J X B40 PERR J X A41 SBO J 41 3 3V 42 GND J X B42 SERR J X A43 PAR J X B43 3 3V JX A44 AD15 J X B44 C BE1 J 45 3 3V J X B45 AD14 J X A46 AD13 J X B46 GND 47 11 47 4012 J X A48 GND J X B48 AD10 J 49 AD9 J X B49 GND J X A52 0 52 AD8 J X A53 3 3V J X B53 07 54 AD6 J X B54 3 3V J 55 AD4 J 855 405 J X A56 GND J X B56 AD3 J X A57 AD2 X B57 GND J X A58 ADO J X B58 AD1 J 59 10 J 859 10 J X A60 REQ64 J 860 ACK64 J X A61 5V J X B61 5V J X A62 5V J X B62 5V Revision C Solar 9500 Information Monitor 8 25 2001085 078 Theory of Operation Signal Descriptions J5 ISA Connectors Pin Signal Name Pin Signal Name 5 1 IOCHK 5 1 GND J542 50 7 J 5 B2 RESET 5 43 ISA SD 6 J 5 83 5V J 5 A4 ISA_SD 5 J 5 B4 ISA_IRQ 9 5 5 SD 4 5 85 5V 5 6 SD 3 5 86 DRQ2 5 7 ISA SD 2 J 5 87 12V 5 8 ISA_SD 1 J 5 B8 SRDY 5 9 SD 0 5 89 12V 5 10 IOCHRDY 5 10 GND 5 11 AEN 5 11 SMEMW J5 A12 ISA_SA 19 5 12 SMEMR 5 13 SA 18 5 813 IOW 5 14 ISA_SA 17 5 14 IOR 5 15 SA 16 5 815 DACK3 5 16 SA 15 5 816 DRQ3 5 17 ISA_SA 14 5 17 DACK1 5 18 ISA_SA 13 J 5 B18 DRQ1 5 19 SA 12 5 819 REFRESH 5 420 ISA SA 11 5 82
76. 0 SYSCLK 5 21 SA 10 5 821 ISA_IRQ 7 J 5 A22 ISA_SA 9 5 822 ISA IRQ 6 J5 A23 ISA_SA 8 J5 B23 ISA_IRQ 5 J5 A24 ISA SA 7 5 24 ISA_IRQ 4 J5 A25 ISA SA 6 J5 B25 ISA_IRQ 3 5 26 ISA SA 5 J 5 B26 DACK2 5 27 ISA SA 4 J5 B27 TC 5 28 ISA_SA 3 5 828 BALE J 5 A29 ISA_SA 2 J 5 B29 5V J 5 A30 ISA_SA 1 J 5 B30 05 5 31 ISA SA 0 J5 831 GND 8 26 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name Pin Signal Name 5 1 5 15 01 516 5 2 ISA LA 23 5 02 10 516 5 3 ISA_LA 22 5 03 ISA IRQ 10 5 4 ISA LA 21 15 04 ISA IRQ 11 5 5 ISA_LA 20 5 05 ISA_IRQ 12 5 6 ISA_LA 19 J5 D6 ISA IRQ 15 5 7 ISA LA 18 15 07 ISA IRQ 14 5 8 ISA LA 17 5 08 DACK0 5 9 MEMR 5 09 DRQO 5 10 MEMW 15 010 DACK5 5 11 SD 8 15 011 DRQ5 5 12 SD 9 15 012 DACK6 J5 C13 ISA SD 10 J 5 D13 DRQ6 J5 C14 ISA SD 11 5 D14 DACK7 5 15 SD 12 15 015 DRQ7 J 5 C16 ISA SD 13 J 5 D16 5V 5 17 SD 14 15 017 MASTER J5 C18 ISA SD 15 5 018 oV J6 44 Pin IDE Connector The signals in the table below are routed from the NLX motherboard connector to the IDE connector Note that IDE Channel is not used by the Riser Interface board Pin Signal Name NLX Conn J 1 pin Pin
77. 085 078 Software Configuration Creating Custom Layout m All window pop up option menus contain the Delete key which removes the window from the display Waveform Window Options Delete 0528 Parameter Options Selections Delete 053A Display Features Below is a sample of the Solar 9500 Information Monitor display screen or Bed Window Bed Window VALADAT OASIS Case Timer 000 00 00 30 Aug 2002 10 10 Parameter Waveform Alarm Audio Off Windows Window 2 Il I L 30 min 30 min 160 fure 7 gt Procedure Timer Unmonitored Parameter Window _ Procedure Timer 000 00 00 Message Window u Waveform Window Button Lower Control Buttons 0548 4 24 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Creating Custom Layout An Overview of Configured Windows Bed Window A Bed Window is the top level of configurable windows It contains other windows which can be saved and retrieved Only one bed window can be displayed at a given time Waveform Window Waveform Windows contain scrolling or non scrolling waveforms You can save and retrieve contents of a Waveform Window layout Waveform Windows can also be configured to print Parameter Window A Parameter Window contains parameter data for any one of the following ECG
78. 085 078 Troubleshooting Fault Isolation High Temperature Failure If the battery pack becomes completely discharged and the power goes down the hard drive may become corrupted In this case after replacing the battery pack the following message appears on the display at power up Repairing the hard disk dev hd2x This may take several minutes Do not power down CAUTION Powering down while the above message is displayed may cause further damage to the hard drive The Solar 9500 CPU uses a forced air cooling system that draws air through the unit a result there can be a buildup of lint and other debris inside the unit Accumulations of lint or blockage of ventilation holes can lead to thermal failures If the internal temperature of the unit rises above the normal operating temperature the following message appears WARNING SYSTEM TEMPERATURE TOO HIGH The internal temperature of the system has exceeded safe limits System may overheat Shut Down Now And Acknowledge Perform Maintenance And Close 077A You can m select Shut Down Now And Perform Maintenance or m select Acknowledge And Close to continue normal operation Check that the Solar 9500 CPU s cooling fans are functioning correctly Check for any buildup of lint or blockage of the ventilation hole and clean the unit as instructed in chapter 6 Maintenance Solar 9500 Information Monitor Revision C 2001085 078 Troubleshoot
79. 0A NOTE Do not confuse the internal hub or node with the Tram net hub assembly used with other GE modular monitors The hub described in these paragraphs refers to the electronic distribution point of data Data is acquired at a node and is transmitted through a hub to all the other nodes Each node has an address so data will be received by the node with the correct destination address It is impossible for a node to communicate with another node without the data going through a hub somewhere along its journey The hub controls all of the data traffic in the system In a Tram net system the head hub is contained in the patient monitor but there will be intermediate hubs in the Tram rac housing and Tram module as well Revision C Solar 9500 Information Monitor 3 15 2001085 078 Installation Acquisition Interfaces Processing Unit RAMS Interconnection Before connecting the RAMS to the Solar 9500 processing unit you must first configure the serial channel of the processing unit via the Serial Interface Controls in the Service Menu See chapter 4 Serial Interface Controls for details The RAMS interfaces with a Solar 9500 via the RAMS RS 282 connection to the Solar processing unit with an interface cable pn 414803 003 as shown below 021A 3 16 Solar 9500 Information Monitor Revision C 2001085 078 Installation Processing Unit P olled Parameter Interconnection Processing Unit
80. 10 C2 and R111 are used to control the turn on time of U9 R110 and R111 are bypassed by CR7 so U9 can be turned off rapidly when a overload occurs The feedback sense voltage is developed across sense resistor R8 and filtered by R112 and C8 The additional filtering is required to prevent nuisance tripping due to transients L1 C3 and C113 are used to filter the input to the circuit Transient suppressor CR9 protects the output from over voltage Battery Control Charging Circuit Comparator U7 and associated circuitry control the connection of the battery to the main rail Q3 and Q4 both have to be on in order for the battery to be connected BATCON is a signal that is controlled by the main processor board When BATCON goes low Q2 turns off which allows Q4 to turn on U7 monitors the battery voltage If the voltage is high enough the output at U7 1 will be high and Q3 will be turned on When both Q3 and Q4 are on the gate of P channel mosfet Q1 is near ground turning it on This connects the battery to the main rail via or ing diode CR3 The battery is continuously trickle charged from the main 16 75 volt rail via current limiting resistors R6 and R7 CR6 is used to prevent the battery from driving the 16 75 volt rail when it drops below the battery voltage 8 4 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Subassemblies AC Mains Input Power Requirements Video PCB All components used in
81. 10 reboot 2 check filesystems 5 basic error log 8 system info 11 halt 3 system boot logs 6 system error log 9 network info 12 help Command last command 13 03 29 time 6 22 13 03 56 Page 1 of 4 line e ZA 19 Display ksc Config File XF86CONFIG SOLAR_CONF conf XMMSConf igCMM MMSFIRSTSCREEN 0 WIDELINES 6 tuelveslDISPLAY unix 0 1 tuelveslfCTIUE true alarmmgrDISPLAY unix 0 0 alarmmgrACTIVE true alarmsetupDISPLAY unix 0 0 alarmsetupACTIVE true trendsDISPLAY unix 0 0 trendsACTIVE true stappDISPLAY unix 0 0 stappACTIVE true coappDISPLAY unix 0 0 coappACTIVE true wedgeDISPLAY unix 0 0 wedgeACTIVE true guiZDISPLAY unix 0 2 089A Revision C Solar 9500 Information Monitor 7 17 2001085 078 Troubleshooting Diagnosing System Problems with Houston System Info Running option 8 displays the following information m software revision information m the results of a software compatibility check m the Solar 9500 s hostname n the Solar 9500 s Unity Network MC network interface s ethernet address the Solar 9500 s filesystem usage statistics detailed harddrive partition information for each of the Solar 9500 s filesystems a summary of the currently used memory on the Solar 9500 and a detailed list of the currently running processes on the Solar 9500 See Navigating Multi page Output on pag
82. 122 7 7 IDEB DD5 A124 11 8 IDEB DD10 B123 17 9 IDEB_DD4 8125 17 10 IDEB DD11 A125 711 IDEB DD3 B126 7 12 IDEB DD12 A126 11 13 IDEB DD2 A128 7 14 IDEB DD13 B127 17 15 IDEB_DDI B129 11 16 IDEB 0014 8128 7 17 IDEB_DDO B130 J 1 18 IDEB_DD15 A129 11 19 GND 11 20 IDEKEY 11 21 IDEB DMARQ A131 11 22 GND 11 23 IDEB DIOW A130 11 24 GND 11 25 IDEB DIOR 8131 7 26 GND 8 28 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name NLX Conn J 1 pin Pin Signal Name NLX Conn J 1 pin 11 21 IDEB_IORDY A132 11 28 IDEB CSEL 8132 11 29 IDEB DMACK A134 17 30 GND 7 31 IDEB INTRQ 8133 7 32 IDEB_RESRV 11 33 IDEB DA1 B134 J 1 34 NC 11 35 IDEB DAO A136 J 7 36 IDEB DA2 8135 7 37 IDEB_CS0 A137 11 38 IDEB_CS1 B136 7 39 IDEB_DASP B137 11 40 GND J8 34 Floppy Connector The signals in the table below are routed from the NLX motherboard connector to the Floppy connector Pin Signal Name NLX Conn J 1 pin Pin Signal Name NLX Conn J 1 pin 8 1 DRV2 A138 18 2 DENSEL 141 8 3 GND 8 4 NC 18 5 FLOPPYKEY J 8 6 DRATEO B139 8 7 GND J8 8 INDX A143 8 9 GND 18 10 FDME1 A144 18 1 GND 18 0 50 8141 8 13 GND 18 14 FDS1 B140 J 8 15 GND J 8 16 FDMEO A142 18 17 MSEN1 B143 18 18 DIR B142 J 8 19 GND J 8 20 STEP A147 18 21 GND 18 22
83. 5 9 Module Calibration Calibrate Mainstream 2 3 Select the CO2 button to display the CO2 Calibration menu Set Barometric Pressure Calibrate Module CO2 Calibration Y Lum ocu 064A 4 Under Set Barometric Pressure enter the current pressure by using the up and down arrows the slide bar or touching the keypad 1con and entering the pressure from the keypad pop up NOTE Barometric pressure is used to calculate the percentage of CO2 in the patient s airway from the mmHg value This calculation is based on the following equation CO2 mmHg CO2 x 100 mmHg barometric pressure 096 CO2 Calibration 5 Disconnect the calibration adapter from the tubing and move adapter through room air to induce 096 CO2 as shown below N 065 6 Under Calibrate Module select the Start Calibration The text on this button changes to Abort Calibration The Module Status window displays the messages Calibrating and Press button when 0 CO2 is supplied NOTE If you select Abort Calibration before 0 or 10 gases are entered you must restart the calibration procedure 5 10 Solar 9500 Information Monitor Revision C 2001085 078 Module Calibration Calibrate Mainstream CO2 10 CO2 Calibration 7 Select Press when gas is supplied and the messages change to Waiting for 10 Gas and Press when 10 is supplied 8 Reconnect the calibration adapter to the tubing and apply 10 ca
84. 55 AD5 A56 GND 856 AD3 A57 AD2 857 GND A58 ADO 858 ADI A59 IO B59 IO A60 REQ64 B60 ACK64 A61 5V 861 5V A62 5V 862 5V J2 J3 M Port Connectors Pin Signal Name Pin Signal Name 1 BRD 5 BRXD 2 BRD 6 BTD SID 3 BID SID 7 BTXD 4 RETURN 8 5V 8 36 Solar 9500 Information Monitor Revision C 2001085 078 9 Field Replaceable Units Parts Lists and Drawings evision Solar 9500 Information Monitor 9 1 2001085 078 Field Replaceable Units Parts Lists and Drawings Ordering Parts Ordering Parts The parts lists and assembly drawings in this chapter supply enough detail for you to order parts for the assemblies considered field serviceable If you require additional information schematics or troubleshooting assistance contact Tech Support To order parts contact Service Parts at the address or telephone number listed on the How to Reach Us page found in the front of this manual Field Replaceable Units The table below lists field replaceable units that can be ordered Field Replaceable Units Item Part Number Power Supply Assembly 419080 001 NLX Motherboard PCB Assembly with 64 MB DIMM 422593 001 NLX Motherboard PCB Assembly with 128 MB DIMM 422593 002 Required for J apanese language Riser I O PCB 801378 001 Video PCB 801314 001 NLX Riser Interface PCB 801376 001 Boot Hard Drive Repl
85. 9500 can act as a print server for multiple printers NOTE The Solar 9500 print server routes all print jobs to a print spooler server This print spooler server is identified with the CIS Print Server IP Address See IP Address on page 4 18 CAUTIONS Multiple Solar 9500s can not act as print servers for a single printer Using them in this manner will result in unpredictable behavior Solar 9500 printers may not be shared with other devices e g CIC 3 22 Solar 9500 Information Monitor Revision C 2001085 078 Installation Printer Interconnect Shown are two methods of connecting to the parallel port Connect the printer to the processing unit with cable pn 6119 104 as shown PARALLEL PORT 025A Printer to Parallel Port PARALLEL PORT MC NETWORK 026A Printer to Parallel Port System to the Unity Network MC Network Revision C Solar 9500 Information Monitor 3 23 2001085 078 Installation Printer Interconnect PRN 50 Digital Writer A PRN 50 or PRN 50 M digital writer can be connected to one of the Solar 9500 M Ports or serial ports A writer connected to an M Port will not be used by the Solar 9500 if a writer is configured to a serial port I a A Cable PN 418335 001 4 J Note If connecting to PRN 50 with A0
86. A DD9 1 8104 IDEA 006 1 A105 5VDC 1 105 IDEA DD5 J 1 A106 IDEA DD4 J 1 B106 IDEA DD11 J 1 A107 IDEA DD10 1 8107 IDEA DD12 J 1 A108 IDEA DD3 1 8108 GND 1 A109 IDEA DD13 J 1 B109 IDEA DD14 J 1 A110 IDEA DD1 J 1 B110 IDEA DD2 1 111 GND J1 B111 IDEA_DD0 Revision C Solar 9500 Information Monitor 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name Pin Signal Name 1 112 IDEA DIOW 1 8112 IDEA 0015 1 113 IDEA DMARQ 1 113 IDEA_DIOR 1 114 IDEA IORDY 1 8114 IDEA_CSEL 1 A115 IDEA DMACK 1 B115 IDEA INTRQ J 1 A116 RESERVED 11 8116 5VDC 1 117 IDEA DA2 1 B117 IDEA DAI J 1 A118 IDEA 50 J 1 B118 IDEA DAO J 1 A119 5VDC 1 8119 IDEA_CS1 1 120 IDEA DASP 1 120 IDEB 008 1 121 IDEB_RESET 121 IDEB DD7 1 122 IDEB DD9 1 8122 GND 1 A123 IDEB DD6 J 1 B123 IDEB DD10 1 A124 IDEB DD5 1 124 5VDC 1 125 IDEB DD11 1 8125 IDEB DD4 1 A126 IDEB DD12 1 126 IDEB DD3 127 GND 1 8127 IDEB DD13 1 128 IDEB DD2 1 128 IDEB 0014 1 129 IDEB DD15 1 129 IDEB_DDI J 1 A130 IDEB DIOW 1 130 IDEB J 1 131 IDEB DMARQ 1 131 IDEB DIOR J1 A132 IDEB_IORDY J1 B132 IDEB_CSEL J1 A133 GND J1 B133 IDEB_INTRQ J1 A134 IDEB_DMACK 1 134 IDEB DA1 1 A135 RESERVED 1 8135 IDEB DA2 1 A136 IDEB DAO 1 136 IDEB CS1 1 137 IDEB
87. A3 1 4 419139 001 HOUSING 9500 REAR 0 5 419140 001 HOUSING 9500 FRONT 0 6 419322 001 9500 GCX MOUNTING HARDWARE 1 7 419422 003 BRKT ASM 9500 DRV BAY 1 8 419746 001 LIGHT PIPE 9500 POWER 1 9 420109 001 COVER 9500 FLOPPY OPENING 1 10 420924 002 DIMM 64MB EDD 16MX72 60NS UNB A11 A12 2 11 421537 001 NLX RAIL CPU W GND CLIP W FAST 2 12 422450 001 GASKET EMC 3HX3 8W59L D PSA 3 13 422168 001 LYNXOS V2 5 1 W TCP STRMS MOTF 1 14 421378 002 SPEAKER ASSEMBLY SOLAR CPU SP1 1 15 700659 003 CBL ASM 9500 HD POWER W7 1 16 700659 005 CBL ASM 9500 RISER POWER w1 1 17 700659 006 CBLASM 9500 PS SIGNAL W2 1 18 700659 009 CBL ASM 9500 TRAMNET POWER W3 1 19 700659 010 CBL ASM 9500 TRAMNET RISER W4 1 20 700659 011 CABLE ASM 9500 3 5 HD W6 1 21 700659 017 CBL ASM 9500 FAN Bl 1 22 2001075 001 SCR MACH FLHD M3X6LG SS W THD LK 3 23 411059 006 SCREW SEMS PH M3 5X6 ZIN 16 24 411059 007 SCREW SEMS PH M3 X 22M 2 25 411061 003 SCR PH M4X0 7X8LG SEMS 4 26 411323 001 NUT HEX KEPS M3 5 CLASS 87 4 27 411324 001 NUT HEX KEPS M4 7 CLASS 87 2 28 419475 001 LATCH NLX CPU 1 29 419924 001 GUIDE NLX CPU RAIL 8 30 419977 001 SCREW 6 32 NLX EJECTOR MOUNT 1 Revision C Solar 9500 Information Monitor 9 21 2001085 078 Field Replaceable Units Parts Lists and Drawings Upper Level Assembly 901007 003B Find Num Item Number Item Description RefDes Qty 31 45000 604 SCREW SEMS PH 6 32X1 4 4 32 45209 306 SCREW PH M3 X 6MM 9 33 413085 001 SC
88. B3 J 10 2 SPKR_VO2 110 3 NC NC J11 Power Supply Connector Pin Signal Name Pin Signal Name 11 1 3 3VDC 11 2 3 3VDC 11 3 GND 114 5VDC 11 5 GND J 11 6 5VDC 111 7 GND 111 8 PWOK J 11 9 5VSB J 11 10 12VDC J11 11 3 3VSENSE J11 12 12VDC 11 13 GND 111 414 PS ON 111 15 GND J 11 16 GND 1147 GND 1118 5VDC J 11 19 5VDC J 11 20 5VDC 8 30 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Signal Descriptions J12 30 Pin Riser I O Board Connector The signals in the table below are routed from circuitry on the Riser Interface board to the Riser I O Board connector Pin Signal Name Pin Signal Name 12 1 TNET_TXD J 12 2 TNET_TXC J 12 3 5VDC 12 4 GND 12 5 TNET_RXD 12 6 TNET_RXC 12 7 TNET RTS 12 8 TNET_CRS J 12 9 5VDC J 12 10 GND J 12 11 NC 12 12 TNET_CDT J 12 13 TNET_LPBK J 12 14 TNET_RESET J 12 15 5VDC 112 16 GND J 12 17 ENET LPBK 12 18 ENET LITST 12 19 12 20 CDT J 12 21 5VDC 12 22 GND 12 23 ENET_RTS 12 24 ENET_CRS 12 25 ENET_RXD J 12 26 ENET_RXC 12 27 5VDC J 12 28 GND 12 29 ENET_TXD J 12 30 ENET_TXC J13 10 Pin EPLD Programming Header The signals in the table below are routed from programming header to the Altera EPLD and used to program the Altera EPLDs on the board Pin Signal Name Pin Signal Name J 13 A1 PROG_TCK 13
89. Descriptions J2 J3 and J4 PCI Connectors Pin Signal Name Pin Signal Name 1 TRST JX B1 12V JX A2 12V J 82 TCK J TMS J X B3 GND J 4 TDI JX B4 TDO J 5 5V J X B5 5V J INTA J X B6 5V J 7 INTC J X B7 INTB J X A8 5V J X B8 INTD J 9 RSVD J X B9 PRSNTI J X A10 10 JX B10 RSVD JX A11 RSVD JX B11 PRSNT2 J X A14 RSVD J 14 RSVD 15 RST JX B15 GND JX A16 10 JX B16 CLK 17 GNT J X B17 GND JX A18 GND JX B18 REQ J 19 RSVD J X B19 10 20 4030 J 820 AD31 J 21 3 3V 21 AD29 J X A22 AD28 J 822 GND J X A23 AD26 J X B23 AD27 J X A24 GND J X B24 AD25 25 24 JX B25 3 3V JX A26 IDSEL J X B26 C BE3 J X A27 3 3V J X B27 AD23 J X A28 AD22 JX B28 GND J X A29 4020 X B29 4021 J 30 GND J X B30 AD19 J 1 4018 J X B31 3 3V J X A32 AD16 J X B32 AD17 J X A33 3 3V J X B33 2 8 24 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name Pin Signal Name J X A34 FRAME J X B34 GND J X A35 GND J X B35 IRDY J X A36 TRDY J X B36 3 3V J 7 GND 837 DEVSEL J X A38 STOP J X B38 GND J X A39 3 3V J X B39 LOCK J X A4
90. Dyer hn ep cire dg 6 19 Tram rac Housing 6 19 Tram net Communication Check sss 6 20 Unity Network MC Network 6 21 Weblink Access Check optional feature 6 21 Printer Check printer optional 6 21 Unity Network ID 6 21 ia a ia 6 22 Completions Anri enen ath RR 6 22 sedo ate aca 6 22 Solar 9500 Information Monitor Revision C 2001085 078 RepairLog senem near nan 6 23 Troubleshooting 7 1 7 2 First THINGS to ASK 2 5 Ain aa etches aM huuu aQ a etant den Verb asada 1 2 ec ete e ce eter na 1 2 Main Power and Display 7 4 Fuse Replacement nennen nena 77 AC Line Voltage vex eR CX ace ca onc eee 7 9 120 AC 50 60 HZ tes entree oce to Fr Rena pod 7 9 240 50 60 252 deter ding ward 7 9 Troubleshooting Procedure na 7 10 Service Mer zio tite pao xu dno a os aang nad
91. Hz to 2 5 GHz 4 12 80 2 10 800 2 d 23 VP 800 MHz to 2 5 GHz where P is the maximum output power rating of the transmitter in watts W according to the transmitter manufacturer and d is the recommended separation distance in meters Field strengths from fixed RF transmitters as determined by an electromagnetic site survey should be less than the compliance level in each frequency range Interference may occur in the vicinity of equipment marked with the following symbol Note 1 At 80 MHz and 800 MHz the higher frequency range applies Note 2 These guidelines may not apply in all situations Electromagnetic propagation is affected by reflection from structures objects aF ield strengths from fixed transmitters such as base stations for radio cellular cordless telephones and land mobile radio AM and FM radio broadcast and TV broadcast cannot be predicted theoretically with accuracy To assess the electromagnetic environment due to fixed RF transmitters an electromagnetic site survey should be considered If the measured field strength in the location in which the equipment is used exceeds the applicable RF compliance level above the equipment should be observed to verify normal operation If abnormal performance is observed additional measures may be necessary such as re orienting or relocating the equipment bO ver the frequency range 150 KHz to 80 MHz field strength
92. IN 18 355 AlddNS M3MOd g CE LdS 8 LV ev sS 8M XIN UMd XIN 1015 8 1075 rly Sr ly orev 14 1401 25777 irsiy ATENISSY 82d e av v MOVd AYILLVE ATEWISSV NVI LV tg OLV 4 MYOMLAN 8A33 259 AYONIN A 18N3SSV 824 O3QIA AT18W3SSV 824 OJONA AT8W3SSV 82d LYOd W Zab lV zdoiv ersiv 3snon 254 Tahvava Revision C Solar 9500 Information Monitor 2001085 078 9 24 Electromagnetic Compatibility evision Solar 9500 Information Monitor 2001085 078 Electromagnetic Compatibility Electromagnetic Compatibility Electromagnetic Compatibility EMC Changes or modifications to this system not expressly approved by Information Technologies can cause EMC issues with this or other equipment This system is designed and tested to comply with applicable regulation regarding EMC and must be installed and put into service according to the EMC information stated in this appendix WARNING Use of portable phones or other radio frequency RF emitting equipment near the system may cause unexpected or adverse operation
93. IN 4 13 2V RED PIN 5 RETURN BLACK PIN 6 N C 068 6 Reconnect the AC power cord and turn the power to zero the capacity counter on the Riser Interface board 7 Power down the Solar 9500 8 Reconnect the battery cable and reassemble the Solar 9500 NOTE The electrical connector of the internal battery is mechanically polarized to insure only proper connection Do not force improper connection 9 Perform leakage tests 10 Reconnect the Solar 9500 to the network and power source Revision C Solar 9500 Information Monitor 6 7 2001085 078 Maintenance Battery Pack Maintenance Battery Recycling 11 Apply power The following message appears WARNING BATTERY DISCHARGED OR FAILED The battery cannot sustain operation if power is lost This situation is due to a discharged battery or a battery failure Shut Down Now And Acknowledge Perform Maintenance And Close 069A 12 Select Acknowledge And Close to continue and verify operation The EPA certified RBRC Battery Recycling Seal on the nickel cadmium Ni Cd battery indicates GE Medical Systems Information Technologies Inc is voluntarily participating in an industry program to collect and recycle these batteries at the end of their useful life when taken out of service in the United States or Canada The RBRC program provides a convenient alternative to placing used Ni Cd batteries in the trash or the municipal
94. L 12 lead analysis Browser server access Layout Configuration the ability to create and save customized layouts m Polled Parameter serial polled parameter service Stratification A separate password is required to access each Contact GE Medical Systems information Technology to obtain the password s for this monitor You will need this monitors ethernet address 00 00 a1 01 29 c5 Arrhythinia Bl es Browser Layout Configuration Polled Parameter Es 106A NOTE After selecting stratification options go to the Monitor Service menu and run Display Setup You must click Save whether or not you make changes in Display Setup Refer to Display Layout Setup on page 4 4 for details 4 32 Solar 9500 Information Monitor Revision C 2001085 078 D Module Calibration Revision C Solar 9500 Information Monitor 2001085 078 5 1 Module Calibration General General Module or sensor calibrations are performed on the CO2 Anesthetic gas SVO2 and NBP Tram modules Some of the module sensor calibrations can be performed by the user others must be performed by service personnel only The following list describes the module and in which manual the procedure is described NBP Tram MGA IR Mainstream CO2 Module MGA IR Sidestream CO2 Module Capnostat Mainstream Capnostat Dual CO2 Module SAM SAM 80 SVO2 RAMS RM This manual This chapter This manual This chapter This manua
95. Ms used are 4 MBit VRAMs organized as 256K x 16 bits The Solar 9500 Riser Interface board provides interconnection between the NLX motherboard and system plug in boards The Riser Interface board can accommodate up to 3 PCI plug in boards and one ISA board The Riser Interface board contains two Intel 82596CA Network controller chips that provide the Unity Network MC network and the Tramnet Network interfaces when the Riser I O board is installed The Riser Interface board also performs power supply monitoring functions has connectors for a floppy drive two IDE connectors for hard drives a power supply connector and a speaker connector The Riser Interface board has a 304 pin connector that provides the connection to the NLX motherboard The PCI bus signals from the NLX motherboard connector are routed to three PCI connectors on the Riser Interface board to accommodate up to 3 PCI plug in boards The PCI bus signals are also routed to the PLX 9080 PCI Interface Controller that is used to interface the PCI bus to a Local bus on the Riser Interface board The local bus provides access to two Intel 82596CA Network Controller chips 256K bytes of SRAM and the local bus controller The Intel 82596CA chips are used to control the Tramnet and the MC network Ethernet when the Riser I O board is plugged into the Riser Interface board The SRAM is used by the system to buffer data to and from the Tramnet and the MC network Ethernet The Local bus controll
96. Multi Link Ldwr Set Radiotranslucent Grabber 1 6 m 60 in 421930 00X Multi Link Ldwr Set 6 Ld Snap 130 cm 51 in 412680 00X Multi Link Ldwr Set Individual Grabber 130 cm 51 in 412596 00X Multi Link Ldwr Set Individual Snap 130 cm 51 in 416447 0XX Multi Link Ldwr Set Individual Grabber V2 V6 130 51 in 545315 545317 300 Series 3 Ld Set w clips 15 cm 30 in 8001958 8001960 300 Series 3 Ld Set w clips 1 5 m 60 in 545327 300 Series 3 Ld Set w snaps 15 cm 30 in 545316 535318 300 Series 5 Ld Set w clips 125 49 in 8001959 8001961 300 Series 5 Ld Set w clips 1 5 m 60 in 545328 300 Series 5 Ld Set w snaps 125 49 in 54534X 300 Series replacement clip lead 125 49 in 800327X 300 Series replacement clip lead 1 5 m 60 in 545358 545359 300 Series replacement clip lead 15 cm 30 in 54535X 300 Series replacement snap lead 125 49 in Invasive BP Cables and Tranducers 700078 001 Utah Transducer Adapter Cable 3 6 m 12 ft 700077 001 Spectramed Transducer Adapter Cable 3 6 m 12 ft 2005772 001 Dual BP adapter 30 cm 12 2016997 00 Utah Transducer Adapter Cable 3 6 m 12 ft 2016996 00X Abbott Transpac lll Adapter Cable 3 6 m 12 ft 2021196 00X Abbott Transpac IV Adapter Cable 3 6 m 12 ft 2021197 00X Edwards Truwave Adapter Cable 3 6m 12 ft 2016995 00X Spectramed Transducer Adapter Cable 3 6 m 12 ft N A Utah Disposable Transducers DPT DP2 DP 3 N A N A Spectramed Transducers TC MQ N A
97. REW PH M3 X 8MM SS COAT 9 36 419468 001 PCB SOLAR 9500 NLX MOTHERBOARD A2 1 37 801376 001 SOLAR 9500 NLX RISER Al 1 38 801378 001 PCB SOLAR 9500 RISER 1 0 A4 1 39 407460 003 BRKT 9500 AUTOPORT ISA BLANK 1 40 419311 001 CHASSIS ASM 9500 NLX 1 41 419533 001 BRKT 9500 CHASSIS FAN 1 42 419710 002 PANEL ASM 9500 EMI ACCESS 1 43 419721 001 BRKT 9500 TOP CHASSIS EMI 1 44 420235 001 COVER 9500 HOUSING CABLE 1 45 45177 205 SCREW PH PLASTITE 4 20 X 3 8 3 46 9956 101 BAG ZIPLOCK CLR 2MIL POLY 3 1 47 9976 003 BAG ANTI STATIC 9 00W X 12 50L 1 57 2002322 009 59500 MON APPS V4A MULTI 1 63 2002613 001 PCITRIPLE MPORT Al5 1 9 22 Solar 9500 Information Monitor Revision C 2001085 078 Field Replaceable Units Parts Lists and Drawings Upper Level Assembly 901007 003B INSTALL FIRST GRAPHICS BOARD IN PCI SLOT INSTALL SECOND GRAPHICS BOARD IN PCI SLOT B gt gt 42 REF GASKET ADHESIVE GASKET DETAIL Revision C Solar 9500 Information Monitor 2001085 078 Upper Level Assembly 901007 003B Field Replaceable Units Parts Lists and Drawings GYVH S E gnriv Add014 DIG AS YMd IMYA es wn 72 gt 55 9 5 o LE 18 355 89d 4354 X
98. Solar 9500 Information Monitor Service Manual Software Version 4 2001085 078 Revision C GE Medical Systems Information Technologies gemedicalsystems com NOTE Due to continuing product innovation specifications in this manual are subject to change without notice RAC RAMS SAM SOLAR TRAM NET TRAM RAC and UNITY NETWORK are trademarks of GE Medical Systems Information Technologies registered in the United States Patent and Trademark Office All other trademarks contained herein are the property of their respective owners GE Medical Systems Information Technologies 2003 2004 All rights reserved T 2 Solar 9500 Information Monitor Revision C 2001085 078 27 September 2004 Contents 1 oriotarrei Ll Manual Information 2 12 Revision HISTOR unan a amam aaa a RE 12 Manual ten pes ete Pe puit ei 1 2 Intended 2222222222 2 2 1 2 Safety Information 2 1 3 Responsibility of the 1 3 Generali i roto CETERO So eed t ge eds 1 3 Warnings Cautions and Notes 1 4 Equipment u u pss uns ete eo e ita 1 5 Service Information 1 6 Service R
99. _CS0 1 137 IDEB_DASP J 1 A138 DRV2 J 1 B138 GND J 1 A139 5VDC 1 8139 DRATEO 1 A140 RESERVED 1 8140 FDS1 1 141 DENSEL 1 141 FSDO 1 142 FDMEO 1 142 DIR 143 INDX J 1 B143 MSEN1 8 22 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name Pin Signal Name J 1 A144 FDME1 1 B144 GND J 1 145 GND 1 B145 WRDATA 1 A146 WE 1 B146 A147 STEP 1 8147 MSENO 1 148 WP J 1 B148 RDDATA 1 149 HDSEL 1 B149 DSKCHG J 1 A150 SDA J 1 B150 GND J1 A151 SCL 1 8151 IRSLO J 1 A152 FAN TACHI 1 8152 1511 J 1 153 FAN TACH2 J 1 B153 IRSL2 J 14154 FAN TACH3 11 8154 IRTX J 14155 FAN_CTL 1 B155 IRRX 1 A156 5VDC J 1 B156 FP_SLEEP 157 05813 1 157 FP_RST J 1 A158 USB1 3 P 1 8158 GND J 1 A159 USB1 3 OC 1 8159 PWRLED 1 A160 USB2 4_N 1 B160 PWOK 14161 USB2 4 P J 1 B161 SOFT_ON OFF 1 A162 USB2 4 OC 1 B162 PS ON 163 GND J 1 B163 LAN_WAKE 1 A164 VBAT J 1 B164 LAN_ACTVY_LED J 14165 TAMP_DET 1 B165 MDM WAKE 1 A166 MSG WAIT LED 1 B166 1394 PWR 1 167 1394 GND J 1 B167 RESERVED 1 A168 RESERVED J 1 B168 RESERVED 1 A169 5VSB J 1 B169 RESERVED J 1 A170 3 3VSENSE 1 8170 5 Revision Solar 9500 Information Monitor 8 23 2001085 078 Theory of Operation Signal
100. a typical commercial or hospital environment If the user of the equipment requires continued operation during power mains interruptions it is recommended that equipment be powered from an uninterruptible power supply or a battery Power Frequency 3 A m 3 A m Power frequency magnetic fields should be at levels 50 60 Hz characteristic of a typical location in a typical Magnetic Field commercial or hospital environment EN 61000 4 8 NOTE U is the AC mains voltage prior to application of the test level Revision C Solar 9500 Information Monitor A 3 2001085 078 Electromagnetic Compatibility Electromagnetic Compatibility EMC Guidance and Manufacturer s Declaration Electromagnetic Immunity The Solar 9500 Information Monitor is intended for use in the electromagnetic environment specified below It is the responsibility of the customer or user to assure that the Solar 9500 Information Monitor is used in such an environment Immunity Test EN 60601 TestLevel Compliance Level Electromagnetic Environment Guidance Portable and mobile RF communications equipment should not be used closer to any part of the equipment including cables than the recommended separation distance calculated from the equation applicable to the frequency of the transmitter Recommended separation distance Conducted RF 3 Vrms 3V rms EN 61000 4 6 150 KHz to 80 MHz 4 12 Radiated RF 3V m 3V m JP EN 61000 4 3 80 M
101. acement 2016371 001 Battery Pack 413079 005 M Port PCB Assembly 2002613 001 Label Kit 422449 001 9 2 Solar 9500 Information Monitor Revision C 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly Disassembly Assembly Opening the Unit for Service Use these step by step disassembly assembly instructions when you need to replace various PCB assemblies from the monitor assembly WARNING Monitoring will be interrupted Make sure the monitor is not monitoring a patient WARNING Due to possible high voltage present use an insulated screwdriver at all times when making adjustments Below are the procedures for removing and replacing the front and rear plastic covers and field replaceable units Revision C Solar 9500 Information Monitor 9 3 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly Remove Front and Rear Covers 1 Turn power off as instructed in Turning Power Off on page 3 30 and disconnect the AC power cord and all communication cables NOTE Wait 40 seconds after removing power before continuing this procedure system remains energized for a period of time after shutdown 2 Lay the Solar 9500 processing unit on its back 3 Press in on the two tabs and pull up to remove the front housing cover 4 Turn the unit over and remove the four screws holding the mounting plate 5 Remove the mounting plate an
102. ailed Feb 17 09 24 40 localhost ksc 128 T 1280585 2340 rocket 17 floatlink Feb 17 09 24 40 localhost ksc 128 T 1280585 2340 rocket 17 floatlink Feb 17 09 24 41 localhost mbedsrv 45 Cleaning up bedsrv Feb 17 09 24 41 localhost mbedsrv 45 CallbackList non existant Callbackld 1 passed to remove Feb 17 09 24 41 localhost tnetlink 107 wrParameterPresent 0 type 1 pos 0 Feb 17 09 24 41 localhost ksc 128 T 1280585 8280 rocket 19 X state change from stopping to done Feb 17 09 24 41 localhost tnetlink 107 wrParameterPresent 0 type 2 pos 0 Feb 17 09 24 41 localhost tnetlink 107 wrParameterPresent 0 type 3 pos 1 Feb 17 09 24 41 localhost tnetlink 107 wrParameterPresent 0 type 5 pos 2 Feb 17 04 24 41 Incalhnst tnetlinkMN71 wrParameterPresent fl 4 nas 3 fail error Search String fail Search Down Search Up Print Page Print File Dismiss 083A Click on the name of the log file you want to view NOTE An external keyboard and mouse are highly recommended for these operations Log Files Displayed here are the searchable Log Files for this system Click on a file to display all the messages for that file in the adjoining window and view the Log Files type Set Search String to Listed here are four preset search words for finding text within a file Additional searches can be accomplished by entering text into the Search String text block Search Down Search Up Cli
103. ameter modules CAUTION To be in compliance with EN 60601 1 2 a Tram rac must have a power supply when used outside the U S Additional optional components include RAMS One or two additional displays Unity Network ID Browser server Additional single or dual parameter modules PostScript Printer and or PRN 50 or PRN 50 M anda Shown below is an example of a Solar 9500 Information Monitoring System SOLAR 9500 INFORMATION DE MONITORING SYSTEM teen TRAM RAC HOUSING WITH TRAM MODULE LASER PRINTER OPTIONAL SOLAR 9500 PROCESSOR TO FROM OTHER PARTS TO FROM OTHER PARTS OFTHE HOSPITAL lt 1 s PART of the ERE UNITY NETWORK OF THE HOSPITAL 006A 3 2 Solar 9500 Information Monitor 2001085 078 Revision C Installation Processing Unit Setup Processing Unit Setup Check the unit for proper voltage setting before installation Although the AC mains voltage on Solar 9500 processing unit is factory set for your requirements the power supply could be damaged if 51 is in the wrong position CAUTION Make sure the voltage selection switch is in the correct position before connecting AC mains The power supply will be damaged if the switch is in the 115 volt position and a high range voltage 195 270VAC is applied The supply will not function if in
104. and functional order a good maintenance schedule must be adhered to The manufacturer recommends the following m Visual Inspection This should be performed by service personnel upon receipt of the equipment every 12 months thereafter and prior to servicing the unit m Cleaning This should be performed by service personnel upon receipt of the equipment every 12 months thereafter and each time the unit 1s serviced m Electrical Safety Tests These should be performed by service personnel upon receipt of the equipment every 12 months thereafter and each time the unit 1s serviced m Checkout Procedure This should be performed by qualified service personnel upon receipt of the equipment every 12 months thereafter and each time the unit 1s serviced Manufacturer Responsibility WARNING Failure on the part of all responsible individuals hospitals or institutions employing the use of this device to implement the recommended maintenance schedule may cause equipment failure and possible health hazards The manufacturer does not in any manner assume the responsibility for performing the recommended maintenance schedule unless an Equipment Maintenance Agreement exists The sole responsibility rests with the individuals hospitals or institutions utilizing the device 6 2 Solar 9500 Information Monitor Revision C 2001085 078 Maintenance Visual Inspection Visual Inspection The Solar 9500 Information Monit
105. ar 9500 Information Monitor 2001085 078 Revision C CE GE Medical Systems 0459 Information Technologies gemedical com World Headquarters GE Medical Systems Information Technologies Inc 8200 West Tower Avenue Milwaukee WI 53223 USA Tel 1 414 355 5000 1 800 558 5120 US only Fax 1 414 355 3790 European Representative GE Medical Systems Information Technologies GmbH Munzinger StraBe 3 5 D 79111 Freiburg Germany Tel 49 761 45 43 0 Fax 49 761 45 43 233 Asia Headquarters GE Medical Systems Information Technologies Asia GE China Co Ltd 24th Floor Shanghai MAXDO Center 8 Xing Yi Road Hong Qiao Development Zone Shanghai 200336 P R China Tel 86 21 5257 4650 Fax 86 21 5208 2008
106. ation The Service Menu 3 Inthe Module Calibration section select Calibrate The Calibrate window with buttons NBP CO2 and Close display Calibrate NOTE These buttons are active only if their Parameters are present and turned on 5 4 Solar 9500 Information Monitor Revision C 2001085 078 Module Calibration Calibrate Non invasive Blood Pressure NBP Calibrate Non invasive Blood Pressure NBP About the Procedure The overall accuracy of non invasive blood pressure NBP readings by the monitor depend on the following m the zero pressure reading and m the voltage span of the NBP sensor in the monitor This procedure provides a method of verifying these items are accurate and also checks the NBP pneumatic circuit plumbing for leaks Manufacturer Recommendation The manufacturer recommends performing this procedure upon initially receiving the monitor before it is used on a patient and once each year thereafter Also perform the procedure each time the monitor is opened for service or repair simply to verify the NBP pneumatic circuit plumbing did not develop inadvertent air leaks Test Equipment The following items are required to complete the NBP calibration procedure m Manometer Sensym PDM200M or mercury manometer NBP tube pn 414873 001 NBP cuff pn 9461 301 any size will work Something to wrap the NBP cuff around PVC pipe or other tube NBP bulb hand pump to manuall
107. ation cables Test for proper operation and electrical safety see chapter 6 Maintenance 9 8 Solar 9500 Information Monitor Revision C 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly Replace Add Video PCB or M Port PCB Assembly CAUTION This assembly is extremely static sensitive and should be handled using electrostatic discharge precautions Remove the front cover CAUTION The input capacitors store high voltages After the supply is turned off bleeder resistor R57 discharges the capacitors It takes about 30 seconds for the voltage to discharge to a safe level Loosen the two chassis mount screws and swing the power supply chassis down as in Replace the Power Supply Assembly on page 5 Remove one screw and unmount the Riser I O board as in Replace Riser I O PCB Assembly on page 8 NOTE Disconnecting cables is not necessary although access to the PCI slot channel may be easier If adding a new board remove the slot cover Retain the screw and discard the bracket If replacing a Video or M Port board unscrew the PCB and gently pull up while grasping the bracket and the back end of the board When inserting a new board carefully slide the board down the PCI slot channel and push down making sure that the metal tab goes through the bottom of the chassis Revision C Solar 9500 Information Monitor 9 9 2001085 078 Field Replac
108. avigation option runs by entering the command with the keyboard and pressing Enter just like executing the menu items When a menu item s output displays all menu items are still available When another menu item is executed the currently displayed output is replaced with the output of the most recently run menu item Entering in an invalid menu item or output navigation option causes Houston to display all of the possible commands that can be entered including the multi page output navigation options After entering an invalid command you must rerun the previous menu item in order to navigate through its output 1 launch 4 9500 error log 7 system conf ig 10 2 check filesystems 5 basic error log 8 system info 11 3 system boot logs 6 system error log 9 network info 12 Command last command 14 01 25 time Request 2 is invalid The current menu is 1 launch 4 9500 error log 7 system conf ig 2 check filesystems 5 basic error log 8 system info 3 system boot logs 6 system error log 9 network info Other commands include menu print set and shou To page through a long display use these commands page forwards page backwards regexpr search using regexpr as the regular expression search again forwards N search again backwards Simply pressing lt Enter gt without a command will execute the previously executed command 093A The navigation commands include page forwards page backwar
109. cero PM 8060 9 pin Cicero PM 8060 25 pin PM 8050 Julian North American Drager Medical Narkomed 2B 2C 3 4 Continuous Cardiac Output Manufacturer Model Abbott Laboratories Q Vue Q2 Baxter Edwards Vigilance Vigilance European Gas Analyzers Manufacturer Model Datex Capnomac Ultima Datex Ohmeda 5250 RGM Resp Gas Rascal Il Anes Gas Revision C Solar 9500 Information Monitor 2001085 078 2 9 Overview Supported Devices Anesthesia Ventilators Manufacturer Model Datex Ohmeda 7800 7810 7900 Aestiva 3000 Ventilators Manufacturer Model Bear Medical Bear 1000 Bird 8400ST 6400ST VIP Drager Medical Babylog 8000 Evita Evita 2 Evita 2 Dura Evita 4 Hamilton Medical Amadeus Veolar Galileo Nellcor Puritan Bennett 7200E SPE AE Adult 5 tar 1500 2000 Infant Star 500 950 840 Siemens Medical SV 300 SV 300A SV 900C D E 2 10 Solar 9500 Information Monitor 2001085 078 Revision C 3 Installation Revision C Solar 9500 Information Monitor 2001085 078 3 1 Installation System Components System Components The Solar 9500 Information Monitoring System consists of four basic components m Solar 9500 processing unit m touch screen Primary Display m Tram module n Tram rac housing holds Tram and single par
110. chanical hazards only in C US accordance with UL 60601 1 and CAN CSA C22 2 NO 601 1 Revision C Solar 9500 Information Monitor 1 5 2001085 078 Introduction Service Information Service Information Service Requirements Follow the service requirements listed below Equipment Identification Refer equipment servicing to GE Medical Systems Information Technologies authorized service personnel only Any unauthorized attempt to repair equipment under warranty voids that warranty It is the user s responsibility to report the need for service to GE Medical Systems Information Technologies or to one of their authorized agents Failure on the part of the responsible individual hospital or institution using this equipment to implement a satisfactory maintenance schedule may cause undue equipment failure and possible health hazards Regular maintenance irrespective of usage is essential to ensure that the equipment will always be functional when required Every GE Medical Systems Information Technologies device has a unique serial number for identification A sample of the information found on a serial number label is shown below HHH HG HH H H Description product code year manufactured C fiscal week manufactured production sequence number E manufacturing site F miscellaneous characteristic Solar 9500 Information Monitor Revision C 2001085 078
111. ck filesystems system error log 10 reboot 11 halt 12 environment info last command 11 30 28 time 3 system boot logs system config 4 9500 error log system info Command 2 Monitored Current Input Value MBTemp BatCTap Bat 16 75V PurSupTempC BatQ mAHrs Unused Unused RsrTemp C 0xd4 Oxb8 COxbf 0xb0 COx2b 0xb8 0 0x18 Oxb4 Oxf f COxfF 0x20 High Oxf Ff 0 0xe0 0xc8 0xd4 8 0 Oxec 0 Oxd8 0x28 Oxb4 Oxf 0 COxfF 0x32 13 help Low 0x00 0 0 Oxb0 0 COxb4 0xa8 0x3a 0xa0 0xa0 0 4 0x24 0x05 0x00 0x00 0x2e 7 21 11 30 43 Alarm POHER POHER POHER POHER POHER POHER POHER TEMP BATTERY BATTERY POHER TEMP BATTERY UNKNOHN UNKNOHN TEMP 092A NOTE The monitored 2 5V input always displays 0 00 as the current value Help To display online help on how to use Houston run option 18 7 20 Solar 9500 Information Monitor Revision C 2001085 078 Troubleshooting Diagnosing System Problems with Houston Navigating Multi page Output When the output displays on multiple pages the line below the command prompt shows the following information The current page number The total number of pages of output The line number of the current page A description of the basic output navigation options Each n
112. cking on either of these buttons will find and highlight a matching file message Print Page Select this button to send the currently displayed Log Files messages to the printer that was set up to receive System printouts see Select Printers from the main menu Print File Select this button to send all of the messages of the displayed Log File to the printer that was set up to receive System printouts see Select Printers from the main menu Solar 9500 Information Monitor 2001085 078 Revision C Troubleshooting Troubleshooting Procedure Log File Types Log File Timestamps There are six different log file types stored by the Solar 9500 1 mms tmp log 9500 This is the main message log used by the system It contains the most recent messages sent by the suite of Solar 9500 Monitor applications This file is the first that should be viewed when trying to diagnose a problem 2 mms tmp log basic This file contains messages sent by processes other than the Solar 9500 monitor applications e g network services the log file compression process and the battery and voltage monitoring 3 mms tmp log messages This file contains all operating system messages e g boot up time 4 mms persistent log S9500 This file contains the Critical Messages and a history of critical problems and system modifications e g software activation etc 5 mms persistent log S9500 TramErrlogFile This is the mos
113. connectivity device a Tram and single parameter modules in one or two Tram rac housings via the Tram net interface and the RAMS Random Access Mass Spectrometer via an RS 232 interface The Tram net interface is a GE proprietary network used for communications between a bedside monitor and the Tram rac s The Tram rac housing remote acquisition case acquires patient data for the Solar 9500 Information Monitor System The Tram rac Housing Service Manual has more information There are two Tram rac housings available for the monitor m Tram rac 2 housing which holds a single Tram module and m Tram rac 4A housing which can hold a Tram module SAM module and or additional single parameter modules NOTE The Solar 9500 is NOT compatible with the RAC 2A housing Shown below is a Tram rac 4 housing with a Tram module and two single parameter modules inserted Solar 9500 Information Monitor Revision C 2001085 078 Installation Acquisition Interfaces Tram rac Power Supply Connection If a Tram rac power supply is used connect the power cord as shown below CAUTION To be in compliance with EN 60601 1 2 a Tram rac must have a power supply when used outside the U S Tram rac with Power Supply 015A Processing Unit Tram rac Interconnection The Solar 9500 processing unit will support up to two Tram rac housings These housings can be connected in parallel or series When connected in
114. ct results from leakage tests For international wall receptacles refer to the internal standards agencies of that particular country Use a digital multimeter to ensure the wall receptacle is wired properly If other than normal polarity and ground is indicated corrective action must be taken before proceeding The results of the following tests will be meaningless unless a properly wired wall receptacle 1s used Ground Earth Integrity Listed below are two methods for checking the ground earth integrity Ground Continuity Test and Impedance of Protective Earth Connection These tests determine whether the device s exposed metal and power inlet s earth ground connection has a power ground fault condition Perform the test method below that is required by your Country Local governing safety organization Revision C Solar 9500 Information Monitor 6 11 2001085 078 Maintenance Electrical Safety Tests Ground Continuity Test Completion of this test is checked by the following steps 1 Disconnect the device under test from the power outlet 2 Connect the negative lead of the DMM to the protective earth terminal ground pin in power inlet connector or the protective earth pin in the Mains plug ground pin in power cord Refer to the US 120Vac power cord figure above 3 Set the DMM to the milliohm mQ range 4 Connect the positive lead of the DMM to all exposed metal surfaces on the device unde
115. d carefully lift up the rear housing cover E x 007B Cover release tabs Mounting plate screws 4 places Assemble Front and Rear Covers 1 Lay the Solar 9500 processing unit on its front 2 Placethe rear housing cover and the mounting bracket on the back of the unit being careful to align the screw bosses with the openings in the plastic cover and install the four screws 3 Turnthe unit over 4 Insert the top of the front cover into the hinges on the top of the rear cover 5 Rotate the front cover down until the two tabs engage and lock into the rear cover 9 4 Solar 9500 Information Monitor Revision C 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly Replace the Power Supply Assembly CAUTIONS The input capacitors store high voltages After the supply is turned off bleeder resistor R57 discharges the capacitors It takes about 30 seconds for the voltage to discharge to a safe level This assembly is extremely static sensitive and should be handled using electrostatic discharge precautions 1 Remove the front cover 2 Loosen the two chassis mount screws and swing the power supply chassis down to access interconnecting cables LOOSEN 2 SCREWS AND PULL DOWN TO ACCESS POWER SUPPLY CONNECTORS VAG GY tg fa 9
116. dd in video board must be ordered The Solar 9500 can support up to two add in video boards The web browser feature is only supported on the motherboard video connection non scrolling and requires a screen description of Primary Secondary or Applications Only See Display Layout Setup on page 4 4 for details Revision C Solar 9500 Information Monitor 3 7 2001085 078 Installation Processing Unit Display Interconnection Processing Unit Display Interconnection Each display in a Solar 9500 system must be connected according to its configuration Illustrated below are simplified interconnect diagrams for the various display configurations Two Displays Primary Non Scrolling Three Displays Primary Non Scrolling PRIMARY DISPLAY PRIMARY DISPLAY VIDEO MAIN Non Scrolling Motherboard m m m TOUCHSCREEN SECONDARY or REMOTE SECONDARY or REMOTE p gt TOUCHSCREEN secondary only amp TOUCHSCREEN secondary only 7 Scrolling VIDEO A Scrolling Scrolling Two Displays Primary Scrolling Three Displays Primary Scrolling PRIMARY DISPLAY PRIMARY DISPLAY Scrolling Scrolling VIDEO VIDEO A TOUCHSCREEN TOUCHSCREEN SECONDARY or REMOTE SECONDARY
117. ded Separation Distances A 5 Compliant Cables and Accessories A 6 vi Solar 9500 Information Monitor Revision C 2001085 078 1 Introduction Revision C Solar 9500 Information Monitor 2001085 078 1 1 Introduction Manual Information Manual Information Revision History Manual Purpose Intended Audience Each page of this manual has the document part number and revision letter at the bottom of the page The revision letter identifies the document s update level The revision history of this document is summarized below Revision History Revision Date Comment A 10 November 2003 Initial release of this manual B 13 J anuary 2004 Manual updated to include a new field replaceable unit and add note for Stratification changes 27 September 2004 Additions stating EMC requirements for EN 60601 1 2 See m Appendix A Electromagnetic Compatibility EMC on page 2 m Cautions on pages 3 2 3 11 3 14 and 6 19 This manual supplies technical information for service representatives and technical personnel so they can maintain the equipment to the assembly level Use it as a guide for maintenance and electrical repairs considered field repairable Where necessary the manual identifies additional sources of relevant information and technical assistance See the operator s manual for the instructions necessar
118. ds search using a regular expression n search again forwards N search again backwards Revision C Solar 9500 Information Monitor 7 21 2001085 078 Troubleshooting Diagnosing System Problems with Houston The search capability can be a very useful tool for looking through log files that are hundreds of pages long If you are unfamiliar with regular expressions you can still use the command to perform searches To perform a search press the forward slash key type in the string you want to search for and then press the Enter key Be sure not to puta space between the forward slash and the text string unless you want the space to be part of the search string Characters that are interpreted as special regular expression commands include If you want to include one of these characters in your search string prefix it with a backslash For example to search for exit enter the command exit and press the Enter key If no occurrences of the search string can be found in the output the current page of the output is still displayed Occurrences of a search string in the output display page by page Press the key and then the Enter key to display the next page containing occurrences of the search string Use N to display the nearest previous page containing an occurrence If no further pages exist with the occurrences of the search string the
119. e 6 Insert the software CD into the PC CDROM drive The software export application automatically launches NOTE If the application does not launch in 60 seconds double click the respective CDROM drive and launch the software export application If the application still does not launch double click the CDROM drive double click the bin folder and double click autostart exe 7 Ifan IP Address Change window displays select No 9 16 Solar 9500 Information Monitor Revision C 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly NOTE Depending on your IP address an Address Change window may display DO NOT select Yes to automatically change the IP address to 126 126 126 126 The IP address of the PC was already configured to match the Unity MC Network in step 4 IP Address Change E xj Click YES to change the IP address to 126 126 126 126 and restart your Computer automatically Before clicking YES close all applications or else unsaved data will be lost Click NO to change the IP address manually to match the appropriate Unity network IP address Yes No Select No to manually Change IP Address 8 Proceed to Export Software on page 9 18 Export Software From a Source Solar 9500 When the target Solar 9500 with the new boot drive is running software and parameter defaults can be exported pushed over the network from a source Solar 9500 Source Units e 77
120. e 7 21 for information on how to scroll through and search the output of this command 1 launch 4 9500 error log 7 system conf ig 10 reboot 2 check filesystems 5 basic error log 8 system info 11 halt 3 system boot logs 6 system error log 9 network info 12 help Command last command 13 04 57 time 6 22 13 05 46 Page 1 of 11 line ZA 149 0 59500 Monitor Apps 421848 001 Ver 1A X27 19May99 14 23 59500 System Apps 421850 001 Uer 1A X9 05May99 15 07 59500 OS 421851 001 Ver 1A 17 19May99 16 06 Software Compatibility The active set of software is compatible 00 00 a1 01 29 c5 Disk Usage Information Filesystem BlkSize Blocks Used Free dev hdZb 2048 270144 111842 158302 dev hdZc 2048 1022112 318682 703430 090A 7 18 Solar 9500 Information Monitor Revision C 2001085 078 Troubleshooting Diagnosing System Problems with Houston Network Info Running option 9 displays the following network related information the contents of the startup file that initializes the network interfaces the active configuration of each of the network interfaces the contents of the etc hosts file the contents of the etc resolv conf file statistics on the network interfaces the Solar 9500 s current routing table a detailed list of the currently active connections on the network and statistics on the network managed memory See Navigating Multi page Output on page 7 21 for information on how to
121. e and input modules checkout procedures refer to their appropriate service manuals Required Tools Special Equipment See the chart below for the equipment necessary to perform this checkout procedure Equivalent equipment may be substituted Item Manufacturer and Part Number Model Tram 100 850 module GE any BP module GE any Multifunctional Micro simulator MARQ 1 Oscilloscope Tektronix 2215 Port Checkout DIDCA 420915 031 AutoP ort to M Port adapter 2001973 001 Initial Power Up Complete the following steps Failure to attain any of the listed results indicates a malfunction 1 With AC switch OFF check the line voltage configuration of the Solar 9500 and attach the power cord to the appropriate line source 2 Confirm that all components of the monitoring system are correctly connected as described in chapter 3 Installation 3 Power ON all devices and the Solar 9500 under test 4 Verify that the AC LED on the front panel illuminates indicating the power is ON Also verify that the two fans inside the Solar 9500 are running and that the CPU LED on the front panel illuminates indicating CPU activity 5 Place the Tram module into the top two slots of the Tram rac housing Verify that the power indicator illuminates 6 Configure the monitor display with as many waveforms as possible Refer to the appropriate monitor operator s manual if necessary 7 The waveforms should look clean no noise
122. e button to scroll down the menu When you release the left button the highlighted menu item is selected 4 26 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Creating Custom Layout Bed Options Save Bed Allows you to name and save the currently displayed bed for future retrieval NOTE Bed layout names may contain alphanumeric characters 0 9 A Z a space a dash and an underscore only If unacceptable characters are entered a tone will sound Waveform Window Allows you to create and configure a Waveform window After you ve created the Waveform window touch or click inside it to open the Waveform window options Selecting Delete removes the waveform window For information on selecting waveforms to display in a waveform window refer to the Solar 9500 Information Monitor Operator s Manual RM Loop Window Allows RM Loop Window creation configuration The RM Loop Window displays two loop graphs containing the following information m Pressure Volume m Flow Volume Depending upon the aspect ratio of the window i e horizontal or vertical format the RM loop graphs are arranged side by side or top to bottom Selecting either graph displays detailed information about that graph Parameter Window Allows you to create and configure a parameter window After you ve created the Parameter window touch or click inside it to open the Parameter window options Choosin
123. e device is in doubt test all functions The use of ACCESSORY equipment not complying with the equivalent safety requirements of this equipment may lead to a reduced level of safety of the resulting system Consideration relating to the choice shall include use of the accessory in the PATIENT VICINITY and evidence that the safety certification of the ACCESSORY has been performed in accordance to the appropriate EN 60601 1 and or EN 60601 1 1 harmonized national standard If the installation of the equipment in the USA will use 240V rather than 120V the source must be a center tapped 240V single phase circuit Revision C Solar 9500 Information Monitor 1 3 2001085 078 Introduction 5 afety Information Warnings Cautions and Notes The terms danger warning and caution are used throughout this manual to point out hazards and to designate a degree or level or seriousness Familiarize yourself with their definitions and significance Hazard is defined as a source of potential injury to a person DANGER indicates an imminent hazard which if not avoided will result in death or serious injury WARNING indicates a potential hazard or unsafe practice which if not avoided could result in death or serious injury CAUTION indicates a potential hazard or unsafe practice which if not avoided could result in minor personal injury or product property damage NOTE provides application tips or other useful information
124. eable Units Parts Lists and Drawings Disassembly Assembly 7 Screw the board bracket into the top of the PCI slot channel WV VS 099A HH PS 2 74 i 8 Reverse the disassembly procedure to reassemble the unit 9 Reconnect the power cord and all communication cables Test for proper operation and electrical safety see chapter 6 Maintenance Revision C Solar 9500 Information Monitor 9 10 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly Replace NLX Riser Interface PCB Assembly CAUTION This assembly is extremely static sensitive and should be handled using electrostatic discharge precautions Remove the front and rear covers Remove the power supply as in Replace the Power Supply Assembly on page 5 Remove the front EMI cover that contains the battery pack Loosen seven screws then slide the EMI cover down and lift out Remove the NLX motherboard as in Replace the NLX Motherboard on page 7 Remove the Riser I O board as in Replace Riser I O PCB Assembly on page 8 Remove any Video boards as in Replace Add Video PCB or M Port PCB Assembly on page 9 Remove the fan assembly attached to the chassis by loosening the screw and lifting up on the fan bracket Remove any remaining cables to the Riser Interface board including the speaker connector
125. eads are used then lead II is output Tram net Communication Check 1 Plugthe Tram rac housing cables into each of the three Tram net connectors blue 2 Verify that the waveforms recover on the monitor display each time the cable is reconnected 6 20 Solar 9500 Information Monitor 2001085 078 Revision C Maintenance Checkout Procedure Unity Network MC Network Check 1 Disconnect the patient cable from the Tram module and verify alarms at the central station 2 From the lower control buttons on the screen select Patient Data 3 From the pop up window select View Other Patient 4 From the Patient View window choose the Select Unit and Bed button Verify that in the Beds window you see beds listed other than your own NOTE A Solar 9500 can only be viewed if it has a Bed and Unit name and is also actively acquiring data from a Tram 5 Select another Bed and verify that the unit under test displays the other Bed s data 6 Close the Remote View window Weblink Access Check optional feature The Unity Network IX network is used for the connection between the Weblink MAS system and the Solar 9500 system Do the following to check Weblink connection 1 Select the Browser option under the Patient Data menu to verify that the Solar 9500 and Weblink MAS system are connected through a common network NOTE If the Browser option does not display the Solar 9500 has not been co
126. elete If the display is crowded you may have to first delete other windows in order to get to the bed window s background Create a Waveform Window 3 Move the cursor into the middle of the bed window Click and hold to invoke the Bed Options pop up menu and select Waveform Window 4 Move and resize the waveform window by grabbing the edge to move and the corner to resize Make the window about 12 as high as the bed window Repeat the last two steps but place this waveform window directly below the first Revision C Solar 9500 Information Monitor 4 29 2001085 078 Software Configuration Creating Custom Layout Create a Parameter Window Setting up the Waveform Window 5 In the top waveform window press on the Configure Window in the lower left corner of the window After the menu appears add several waveforms to the window by clicking on the toggle buttons 6 Use the arrow in the waveform window to place the waveforms in the desired spot Repeat for lower waveform window 7 Move the cursor into the open area of the bed window invoke the pop up and select Parameter Window 8 Move the parameter window to the right of the waveform window 9 Press in the middle of the parameter window to invoke the Parameter Options pop up menu and select Selections 10 Select a desired parameter Repeat and create several other desired parameter window Save the Bed 11 Invoke the pop up menu over a blank area
127. en description the application appears on NOTE An application can be assigned to only one display Screen descriptions cannot be duplicated each must be unique e g If Primary is selected for one video output then Primary cannot be selected for another video output The 1251 and Browser applications are optional software packages These applications can only be assigned if they are enabled The Browser can only be run on the Motherboard Main video connection non scrolling and requires a screen description of Primary Secondary or Applications Only You cannot assign any non real time applications to a display that doesn t have a user input device such as a remote display 4 4 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Monitor Service Menu Display Setup shown is for a system with 3 displays Application Dispiay Setup E Motherboard Video Video Video Output Main Slot A Slot B Wedge Cath insertion 3 i Cardiac Output E lo A ST Display C Trends Alarm Setup Alarm History Ventilator Summary Rin Application 3 rs ESSERE com s a p E 3 Waveform Scrolling l 288 Wide Waveform 3 1 OFF Dance 033C Primary The primary display is the first in a series of monitors or the sole monitor connected to the Solar 9500 processing unit It is distinguished fr
128. ending and sending to other network devices Processing Unit Operation The Solar 9500 Processing Unit is an Intel Architecture platform It is based on a main processor board or Motherboard a Riser Interface board a Riser I O board a power supply sub assembly and a hard drive Optional graphics boards are installed into the PCI bus sockets The Riser Interface board is found at the bottom of the chassis All boards plug into the riser board directly or through a ribbon cable except for the main memory boards which plug into the Motherboard Power Supply Assembly Board not shown BT for clarity KYS T 7 Internal Speaker Rear Cover Main Fan Main Processor 3 5 Hard Drive ISA Slot Unity 1 0 Front Cover PCI Slots Optional Graphics Board Front EMI 094A 8 2 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Subassemblies Subassemblies Power Supply Assembly The Solar 9500 power supply receives input line voltage from the AC mains and produces six output sources 16 75 12 12 5 5 and 3 3 to satisfy the Solar 9500 system requirements The supply has a separate battery input 13 2V which is used for an orderly shutdown during power interruption The 16 75 12 and 5 volt outputs are not battery backed since they are not required during shutdown Several analog outputs and digital input output signals
129. equirements 1 6 1 1 6 2 Overview 21 The Solar 9500 Information Monitor 2 2 RP PLE LL 2 3 Rear View nece a al yk 2 3 Interconnection oec PEPPER 2 4 Technical Specifications 2 5 Supported Devices nena 2 9 3 Installation iii ox uyayuq JL System Components 3 2 Processing Unit Setup 4 3 3 MOUNTING creer n em ed e CO 3 4 Installing Cable Shroud sepe he HERR E EG 3 5 Display Descriptions 3 6 Primary Displays i vost 3 6 Secondary Display serrer ei aaa 3 6 Remote Display L 2 eee ec LAO o cea 3 6 TOUcliscreer seorsim p 3 7 Revision C Solar 9500 Information Monitor i 2001085 078 Scrolling vs Non scrolling Waveforms 3 7 BrowserSuppofe kaa nee eta A 3 7 Processing Unit Display Interc
130. er provides the local bus arbitration and status registers to monitor and control the local arbitration and interrupts The IDE bus and Floppy Interface signals are routed directly from the NLX motherboard connector to the IDE connectors and a Floppy Interface connector The ISA bus signals are routed from the NLX motherboard connector to an ISA connector on the Riser Interface board and also to a National Semiconductor LM78 System Hardware Monitor chip One ISA board may be plugged into the Riser Interface board The LM78 chip is used to monitor the AC power and battery supply voltages Revision C Solar 9500 Information Monitor 8 7 2001085 078 Theory of Operation Subassemblies Audio signals are routed from the NLX motherboard through an audio amplifier on the Riser Interface board to a speaker connector on the Riser Interface board CLOCKS To All Logic 8 8 2001085 078 3 PCI PLX9080 i82596CA Interface Board Network 5 Slots Interface Controller 5 Controller O n Config 25 i82596CA 8 Prom Network lt Controller Q S 5 e Local Bus eS Controller ed x m FPGA bytes o 2 9 O ISA Bus de gt Controller
131. erboard Pin 1 is toward the back of the motherboard back panel I O connectors The NLX connector pinout is shown in sections because it is routed to multiple connectors on the Riser Interface board The NLX connector pinout is shown in sections because it is routed to multiple connectors on the Riser Interface board J1 PCI Section NLX Connector Pin Signal Name Pin Signal Name 1 12V 1 81 PCSPKR_RT 2 REQ4 1 82 12V J 1 43 12V J 1 B3 PCSPKR_LFT J 1 A4 GNT4 1 84 12V 5 3 3VDC J 1 B5 PCICLKO PCIINT3 1 86 GND 7 3 3VDC 1 87 PCICLK1 J1 A8 PCIINTO 1 88 SER 1 9 PCIINT1 J 1 B9 PCIINT2 J 1 A10 PCICLK2 J 1 B10 3 3VDC J 1 A11 3 3VDC J 1 B11 PCICLK3 12 PCI RST 1 812 GND J 1 A13 GNTO 1 B13 GNT3 PCICLK4 J1 B14 3 3VDC 15 GND J1 B15 GNT2 J 1 A16 GNTI 1 816 AD 31 17 3 3VDC 1 817 REQO J1 A18 REQ2 1 818 GND 1 A19 REQ3 J 1 B19 AD 29 J 1 A20 AD 30 J 1 B20 AD 28 21 GND 11 821 AD 26 1 A22 AD 25 11 822 3 3VDC J 1 A23 REQ1 11 823 AD 24 8 18 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Signal Descriptions Pin Signal Name Pin Signal Name J 1424 AD 27 11 824 C BE 3 1 A25 3 3VDC J 1 B25 AD 22 J 1 A26
132. failure from which it cannot recover it displays the fail safe service mode application called Houston Houston provides several system maintenance functions to help with diagnosing system problems Although it does not provide a complete set of tools it can display much of the common data needed when investigating major system errors NOTE A keyboard and mouse must be connected to the Solar 9500 in order to use Houston If a keyboard and mouse are not connected turn the Solar 9500 s power off and wait for it to shutdown Plug ina keyboard and mouse then turn the Solar 9500 on The keyboard may now be used to operate Houston 13 help 7 18 8 34 24 084A The top area of the Houston display consists of A numbered list of menu items A prompt Command where all keyboard input displays A display of the time at which the last command executed A display of the current date month day and time hh mm ss which updates every 15 seconds The rest of the area of the display is devoted to showing the output from executed menu items A menu item is executed by typing in either its number its highlighted letter or its full name and then pressing the Enter key As the menu item is being executed the command prompt is replaced with working When the item is finished running its output is displayed If the output is longer than can be fully displayed on the screen it is displayed one page at a time Pressing t
133. formation Monitor Revision C 2001085 078 Maintenance Electrical Safety Tests Test Completion 2 3 4 5 WARNING Shock hazard The following step causes high voltage at the test body Do not touch the test body Set power switch on the device to ON Read leakage current indicated on DMM Change the leakage tester polarity switch to the RVS position Read the leakage current indicated on the DMM NOTE If either reading is greater than the appropriate specification below the device under test fails Contact GE Medical Systems Information Technologies Technical Support 10 uA 0 01 volts on the DMM at 120 VAC using the test body 20 pA 0 02 volts on the DMM at 240 VAC using the test body 50 pA 0 05 volts on the DMM at 120 240 VAC using the ECG cable NOTE The 10 and 20 pA limits are based on internal design standards The 50 pA limit is common to all standards AAMI ES 1 standard requires using the patient cable Set the power switch on the device to OFF Disconnect the leakage tester from the wall receptacle Disconnect all test equipment from the device Disconnect the device power cord plug from the leakage tester power receptacle Revision C Solar 9500 Information Monitor 6 17 2001085 078 Maintenance Checkout Procedure Checkout Procedure This procedure tests the functions of the monitor Tram rac housing and associated communication networks For the Tram modul
134. g Selections opens the parameter selection window and choosing Delete removes the parameter window Within the Parameter selection window you can define the parameter to be displayed in that parameter window Command Button Allows you to create and configure a Command button After you ve created the command button touch or click inside it to open the Button options Selecting Assign Function opens the Button setup window Selecting Background opens the Background color selection window Within the Button setup window select the appropriate function from the list of available options These options are Switch Layout Silence Alarms Zero All Revision C Solar 9500 Information Monitor 4 27 2001085 078 Software Configuration Creating a Custom Layout NBP Go Stop Alarm Setup View Other Patient Browser Edit Remote 1 Display Edit Remote 2 Display After highlighting your choice select OK to activate your choice and close the window or select Close to close the window without making changes Message Window Allows you to create and configure a Message window After you ve created the message window touch or click inside it to open the Message Options window To define the message type select Message Selection This opens the Message Type Selection window This window offers choices of Window Type choose from Alarm State or Scrolling Msgs or Close After defining the message type select Backgr
135. he Name by which the printer will be referred to the IP Address of the printer and the Port Number of the printer The port number may be found in the printer s network documentation For example Hewlett Packard LaserJets use Port 9100 m Remove allows you to remove a printer from the list m Undo All allows you to erase all changes made Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Monitor Service Menu Clear Print Queue Show Keyboard displays an on screen keyboard This button switches to Hide Keyboard when pressed Select Hide Keyboard to remove the keyboard from the display Ok closes the window and prompts you to reboot You may choose not to reboot but changes are not effective until you do Cancel allows you to cancel the changes and closes the window NOTE A parallel port printer does not need configuration and is not configured with this window To test the network printer s choose Select Printer from the Setups menu Select a network printer and print the Software Revision page It may take up to 5 minutes before the printer name s are displayed in the Network Printers window NOTE If a net printer IP address changes The printer has to be reselected from the Setups gt Select Printers menu Note that the printer IP address is not displayed in the window where printers are selected Select Clear Print Queue to remove data waiting to be printed toa printer
136. he Enter key executes the previously run command However after a menu item is run the previously executed command is set to see Navigating Multi page Output on page 7 21 Revision C Solar 9500 Information Monitor 7 13 2001085 078 Troubleshooting Diagnosing System Problems with Houston Overview of the Menu Items Prompt Action 1 launch Attempt to restart the Solar 9500 Monitor Applications 2 check filesystems Reboot the Solar 9500 and perform a filesystem check 3 system boot logs Display the boot logs 4 9500 error log Display the 59500 Monitor Applications error log mms tmp log 9500 5 basic error log Display the 9500 OS error log mms tmp log basic 6 system error log Display the 59500 System Applications error log mms tmp log messages 7 system config Display the system registry and display configuration 8 system info Display the system s configuration information 9 network info Display the system s network configuration and status information 10 reboot Reboot the system 11 halt Halt system 12 environment info Display the system s operating environment information 13 help Display a help screen Launch To launch the Solar 9500 Monitor apps select option 1 This attempts to start up the Solar 9500 Monitor Applications and if successful the monitor becomes operational If an unexpected e
137. he current IP Addresses and netmasks display if they have been entered the numeric keypad allows you to enter an address or netmask you can select OK to exit and store you can select Cancel to exit without saving and if OK is selected a confirmation box appears so you can confirm any change The following network addresses are invalid First octet of network address gt 239 1 0 0 0 1 1 0 0 1 1 1 0 0 1 0 0 0 0 1 0 1 1 1 0 127 0 0 1 loopback address Addresses currently in use on the network The Browser Server IP address must be a legal address on the Unity Network IX network The example below shows an acceptable and an unacceptable address Acceptable Not Acceptable IX Network 151 1 2 3 151 1 2 3 Browser Server 151 1 2 2 151 1 3 3 Netmask 255 255 255 0 255 255 255 0 CIS Print Server 151 1 2 1 151 1 5 8 The variable netmask capability of the Solar 9500 allows for an advanced network with intelligent routers Typically for the Unity Network MC network the netmask should be 255 0 0 0 For the Unity Network IX network the netmask should be set to match the rules for subnet segments as defined by the institution s network topology Revision C Solar 9500 Information Monitor 4 19 2001085 078 Software Configuration Monitor Service Menu Time and Date Changing time and date occurs immediately on all display devices NOTE When a monitor is connected to the MC network the time and date is automaticall
138. hernet The Solar 9500 supports two separate LAN ethernet connections One connection is dedicated to the Unity Network MC network and one is dedicated to the Unity Network IX network hereafter referred to as MC network or IX network Both use a twisted pair network connection The MC Mission Critical network is used to connect the Solar 9500 processing unit to other bedsides This network contains all the waveforms parameters alarms and other time sensitive data This network is also used to send status information about the printers and for pushing layout unit defaults and Solar 9500 software between Solar 9500 systems The MC network is a 10BaseT network The IX Information Exchange network is used for connection to a Weblink Multiple Access Server MAS and possibly a network laser printer The Unity IX network is a 10BaseT 100BaseTX Network with auto sensing between protocols Below are the locations of the MC and IX network connector ports on the Solar 9500 processing unit UNITY NETWORK MC NETWORK Real Time Data UNITY NETWORK IX NETWORK Non Real Time Data Cp 0228 See chapter 4 Software Configuration for information on how to setup and configure the networks Ethernet is a local area network used as the main link of the Unity Network a comprehensive information communication system The
139. ication Display Setup Motherboard Video Description Video Slot A Description Video Slot B Description Waveform Scrolling Wide Waveform Lines Browser Startup Display Wedge Cath Insertion Display Cardiac Output Display ST Display Trends Display Alarm Setup Display Alarm History Display 12 SL Display Ventilator Summary Display Alarm Graph Setup ECG Leads BP Site Other Chart Speed Arrhythmia P rint Duration Parameter P rint Duration Graticules Grid Stratification Arrhythmia Review Package 12 SL Package Browser Package Layout Configuration P ackage Serial Polled Parameters Package Default Unit Settings Bed Name Unit Name Language Menu Timeout End Case Defaults Network Printer Configuration Entry for each network printer Printer Selections Patient Data Printer Procedures Printer Manual Graph Printer Alarm Graph Printer System Printer Remote Graph Printer Revision C Solar 9500 Information Monitor 2001085 078 Software Configuration Creating Custom Layout Stratification Select Stratification to configure software options Each option is password controlled based on the ethernet address This message displays A separate password is required to access each item Contact GEMS IT to obtain the password for the monitor You will need your ethernet address XX XX XX XX XX xx where x your monitor s ethernet address These options are Arrhythmia Review arrhythmia waveform review 12S
140. imits Set alarm limits on the left side of the screen by selecting the up down arrows Alarm Level and State Set alarm levels to Crisis Warning Advisory or Message Set alarm state to On Off or Always On NOTE Setting an alarm state to Always On means that the user does not have the option to change the individual parameter alarm to the Off state Alarm Volume Set alarm volume by selecting the up down arrows Set alarm volume to On Off or Always On NOTE Setting the alarm volume to Always On means the user does not have the option to turn the alarm volume off Defaults Select Restore to restore alarm defaults to either User Defaults or GE clinical layouts Defaults Alarm Graphing Set alarm graphing to On or Off to enable or disable automatic graphing of alarms as they occur Arrhythmia Alarm Levels Select Arrhythmia Alarm Levels to open the Arrhythmia Defaults window All 15 monitored arrhythmia conditions have alarm level choices Crisis Warning Advisory or Message System Alarm Levels Select System Alarm Levels to open the System Alarm Defaults window Includes NIBP Set ECG Leads Fail and SpO2 Probe Off Patient to System Warning or System Advisory Revision C Solar 9500 Information Monitor 4 9 2001085 078 Software Configuration Monitor Service Menu NOTE After modifying any defaults remember to return to the Setup Parameter Defaults wind
141. ine the local bus master the master is either the processor the PCI Interface Controller DRAM Controller or the Memory Controller Inputs to the arbitration logic block are the bus request from the processor the bus request from the PCI Interface Controller the DRAM controller bus request and the request for VRAM memory to register transfer from the Memory Controller The memory controller logic initiates and controls the VRAM memory to shift register transfers VRAM memory to shift register transfers are used to change the stream of dynamic pixel data from the VRAMs to a different location of the VRAM This allows the data for each window to reside anywhere in the VRAM without regard to the location that the data is displayed on the screen Inputs to the memory controller are the windowing data from the VRAM and the bus grant signal from the arbitration logic The Pixel Mux formats the pixel information for the RAMDAC The inputs to the pixel mux are the dynamic pixel data the static pixel data and the pixel formatting control signals from the Memory Controller The dynamic pixel data and the static pixel data from the VRAMs are latched pipelined in the pixel multiplexer The pixel tap data from the Memory controller is used to provide single pixel increments for horizontal panning Data is read from the VRAMs on a 32 bit bus and contains four sixteen bit pixels The pixel tap data allows the display for an individual window to begin at a p
142. ing F use Replacement Fuse Replacement Both sides of the AC mains line and neutral are individually fused 1 2 Remove power cord from source and back of device Lay device on its back and remove housing cover as shown Loosen the two chassis mount screws and swing the power supply chassis down to access interconnecting cables PRESS IN ON THE TWO TABS AND PULL UP TO REMOVE THE HOUSING COVER m LOOSEN SCREWS AND PULL DOWN TO ACCESS POWER SUPPLY CONNECTORS 77 ms 6 6 9 S E 4 odio WERT K S 079A Revision C Solar 9500 Information Monitor 7 7 2001085 078 Troubleshooting F use Replacement 4 Remove two screws from the input assembly Input assembly with two screws Fuses PN 1908 508 SLO BLO 6 3A 080B Remove the two screws and input assembly Remove and replace defective fuse s Reverse the procedure to reassemble the device on oO Apply power and check operation 7 8 Solar 9500 Information Monitor Revision C 2001085 078 Troubleshooting AC Line Voltage Test AC Line Voltage Test This test verifies that the domestic wall outlet supplying power to the equipment is properly wired For international wiring tests refer to the internal standards agencies of that particular country 120 VAC 50 60 Hz Use a digital
143. ing time is equivalent to 18 seconds of discharge time A fully charged battery pack has a capacity of 360 seconds and can handle about thirteen consecutive power interrupted shutdowns When a battery pack is replaced the capacity counter on the Riser Interface PCB is zeroed This is done to prevent the Solar 9500 from making a false assumption of the battery capacity When the new battery pack is connected it takes 80 hours for the capacity counter to reach 360 regardless of the true capacity of the battery Replace the battery pack every two years or when a battery failure is indicated during troubleshooting Battery Pack Replacement 1 Power down the Solar 9500 according to the procedure outlined in chapter 3 Installation and disconnect the monitor from the power source and the network Remove the front cover Loosen the seven screws around the EMI cover and remove Disconnect the battery pack cable from the Power Supply assembly SU ant Loosen the two nuts on the battery pack replace the pack and retighten the nuts Solar 9500 Information Monitor Revision C 2001085 078 Maintenance Battery Pack Maintenance LOOSEN 7 SCREWS TO REMOVE EMI COVER LOOSEN 2 NUTS TO REPLACE BATTERY PACK FRONT COVER BATTERY PACK CONNECTOR END VIEW DDD 1 2 PIN NUMBER SIGNAL 18 AWG WIRE COLOR PIN 1 12 2 RED PIN 2 RETURN BLACK PIN 3 7 2V SENSE WHITE P
144. ith the Service Menus Read the General Fault Isolation suggestions Familiarize yourself with the assembly details in chapter 9 Parts Lists and Drawings If the unit is not working properly save some time troubleshooting by asking yourself these basic questions Is the power cord connected Is the unit turned ON at the rear of the monitor Are both LEDs on the front of the processor on Are all the communication cables firmly connected Were there any changes in the use location or environment of the equipment that could cause the failure m Has the unit been modified in any way either in software or hardware Is operator error the cause of the problem Try to repeat the user s scenario exactly and compare that to the proper operation of the equipment Check the operator s manual as necessary A thorough visual inspection of the equipment can save time Small things disconnected cables foreign debris on circuit boards missing hardware loose components can frequently cause symptoms and equipment failures that may appear to be unrelated and difficult to track The following steps might seem trivial but it is highly recommended that they be performed to remove these simple failures as causes of problems m Power down the unit as described in chapter 3 Installation Remove the power cord and disconnect all other cables from the processor Check all fuses See Fuse Replacement on page 7 7 Refer to chapter
145. ixel boundary rather than only on 32 bit boundaries The pixel mux also determines display priority between the static plane and the dynamic plane A 0 value on the overlaying plane is used to indicate transparency and the underlaying plane pixel value will be displayed This feature is used to provide static text overlaying dynamic graphical data Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Subassemblies Riser Interface PCB The RAMDAC used on the circuit board is a Brooktree Bt485A The RAMDAC provides the analog video output signals The RAMDAC accepts pixel information from the pixel mux and uses this pixel information as inputs to the RAM in the RAMDAC The RAM is configured to contain 32 levels of intensity for each of the three colors Red Green and Blue Optionally one of the colors may have 64 levels of intensity Since each color can have its intensity selected independently of the other two colors the total number of colors available at any time is 32 x 32 x 64 or 65 536 The RAMDAC also contains the on chip cursor and provides a clock signal used on the board The dynamic pixel VRAM provides enough memory for 2 and 2 3 screens of 1024 x 768 16 bit pixel planes The static pixel VRAM provides enough memory for one screen of 1024 x 768 16 bit pixels The static VRAM also has an additional 512 KBytes of memory is used by the processor for program memory and windowing parameter memory The VRA
146. k device and the network For twisted pair cabling the transceiver is connected directly to the network device Section A section is a single length of twisted pair cable with a RJ 45 connector on each end A section goes from one twisted pair transceiver to the concentrator 2 Segment A segment is comprised of all the sections of twisted pair cable connected in a star formation to one concentrator 3 20 Solar 9500 Information Monitor Revision C 2001085 078 Installation Printer Interconnect Printer Interconnect The following types of printer connections are supported by the Solar 9500 A network printer connected to either ethernet interface via a hub or switch A printer connected to a parallel port A PRN 50 or PRN 50 M connected to an M Port A PRN 50 or PRN 50 M connected to a serial port NOTE Only one parallel port printer can be used Only one PRN 50 or PRN 50 M writer can be used IfaPRN 50 or PRN 50 M writer is connected to an M Port it will always be used by the Solar 9500 even if a serial port is configured to be used for a PRN 50 or PRN 50 M writer If more than one PRN 50 or 50 M writer is connected to M Ports only the one that was connected first will be used If it is disconnected then one of the other available writers will be used Parallel port printers and writers are broadcast to the network and can be shared by other Solar 9500s The para
147. l This chapter Solar 9500 Operator s Manual Solar 9500 Operator s Manual Solar 9500 Operator s Manual and SAM SAM 80 Service Manual Solar 9500 Operator s Manual RAMS Service Manual Respiratory Mechanics Module Service Manual 5 2 Solar 9500 Information Monitor 2001085 078 Revision C Module Calibration The Service Menu The Service Menu The Service Menu is for use by qualified personnel to troubleshoot repair or configure the Solar 9500 Information Processor CAUTION The Service Menu is intended for use only by qualified personnel Unnecessary tampering with service mode menu options for experimentation purposes may cause a malfunction of the equipment and is not recommended by the manufacturer 1 To access the SERVICE MODE menu execute the following menu sequence starting from the MAIN menu Setups Configuration Service Service mode 2 Atthe numeric touchscreen keypad enter day and month from monitor screen with leading zeros July 4 0407 Enter Password The following Service menu screen displays Control and Menu F Timeouts Monitor Service Layout Controls Display Layout Setup Unit Defaults Printing Module Bed Unit Name Serial Interface Network Services Calibration Setup Controls Unix Access EA IP Address Time and Date Audio Diagnostic Messages Locale Settings Revision C Solar 9500 Information Monitor 5 3 2001085 078 Module Calibr
148. libration gas to the airway adapter of the sensor When CAL gas 18 applied during calibration a waveform similar to that displayed below shows the CO2 level 10 066A 0 NOTE To view the CO2 waveform close the Service Menu window and move the CO2 calibration window 9 Next select Press when gas is supplied to begin 10 calibration A blanking out of both Module Status windows indicates that the calibration was completed Calibration Completion If the calibration failed one of the following messages appear One Of The Cal Gases is Wrong or Bad 10 Gas Used NOTE The previously stored calibration factors are held if the calibration fails Revision C Solar 9500 Information Monitor 5 11 2001085 078 Module Calibration Calibrate Sidestream CO2 Calibrate Sidestream CO2 About the Procedure This procedure provides a method of verifying the accuracy of the MGA IR Sidestream CO2 module Manufacturer Recommendation Test Equipment Calibration Procedure The manufacturer recommends performing this procedure upon initially receiving the module before it is used on a patient and once each year thereafter Also perform the procedure each time the module is opened for service or repair The following items are required to successfully complete the CO2 calibration procedure Description Part Number Quantity C02 Module Calibration Kit 405910 001 1 The calib
149. llel port printer or writer name is identified and broadcasted as the bed name of the Solar 9500 it is connected to for example Bed 1 WRITER Laser Printer WARNINGS SHOCK HAZARD Laser printers are UL 60950 EN 60950 certified equipment which may not meet the leakage current requirements of patient care equipment This equipment must not be located in the patient vicinity unless the medical system standard EN 60601 1 1 is followed Do not connect a laser printer to a multiple portable socket outlet MPSO supplying patient care equipment The use of a MPSO for a system will result in an enclosure leakage current equal to the sum of all the individual earth leakage currents of the system if there is an interruption of the MPSO protective earth conductor Revision C Solar 9500 Information Monitor 3 21 2001085 078 Installation Printer Interconnect An optional laser printer can be directly connected to the Solar 9500 processing unit at the parallel port or to either network used by the Solar 9500 However this printer must be PostScript level 2 compatible See Printing on page 4 12 for detailed information about printer configuration All printers are shared across the network whether they are directly connected to the network or indirectly through a Solar 9500 with a parallel port printer This is accomplished by assigning a Solar 9500 to act as the print server for each printer on the network A single Solar
150. meouts Controls Module Bed Unit Name Serial Interface Network Services Calibration Setup Controls Unix Access IP Address Time and Date Audio Diagnostic Messages Locale Settings ET 0318 4 2 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Monitor Service Menu Layout Controls Allow Configuration Disable Configuration Delete Layouts NOTE Configuration editing is an optional software package If your Solar 9500 is not enabled for configuration editing the Layout Controls will be inactive Configuration editing allows you to create modify and save screen layouts Configuration editing uses a number of windows to help you design your screen These windows are combined and layered to maximize functionality and to permit you to configure the Solar 9500 according to your personal preference Configuration editing functions are addressed in greater detail later in this chapter Select Allow Configuration and the words Configuration ON display in red at the top of the primary display to show that configuration editing is enabled When you are finished with configuration editing turn configuration editing off Configuration editing can be disabled from the service menu by selecting Disable Configuration or from the Setups menu by selecting Turn layout configuration off A layout is the base layer or background canvas of the screen layout including Parameter bl
151. n Real Time data a display with trends alarm history etc are displayed on this screen A secondary display has touchscreen capabilities and displays Real Time and or Non Real Time data on a two or three display system A remote display is a view only monitor and is not intended to be used as a touchscreen display No user interface or applications in display setup are available Up to two remote displays can be connected to the Solar 9500 processing unit 3 6 Solar 9500 Information Monitor Revision C 2001085 078 Installation Display Descriptions Touchscreen Interface A touchscreen display is the recommended user interface although a keyboard and or mouse may be used The touchscreen must be compatible with ELO Touchsystems Smart Set protocol You may connect up to two touchscreens to the Serial Ports 1 and 2 of the Solar 9500 processing units See chapter 4 Software Configuration for information on Serial Port Configuration Scrolling vs Non scrolling Waveforms Browser Support Scrolling refers to the ability to continuously move the waveforms across the display from right to left Non scrolling waveforms are static with an erase bar moving across the display As the erase bar sweeps the display it erases the data in front of the bar and writes new data in back of the bar The base Solar 9500 system only supports non scrolling waveforms For scrolling and non scrolling waveform capability the PCI bus a
152. n cases Unit must be powered down before servicing Refer to Turning Power Off on page 3 30 Revision C Solar 9500 Information Monitor 3 29 2001085 078 Installation Turning Power Off Turning Power Off The preferred method of turning on the Solar 9500 power off is to first shut the system down by using the on screen menu command then use the on off mains power switch located on the back of the unit CAUTION Do not move the system while turning power off Additionally wait 40 seconds after removing power before moving the system The system remains energized for a period of time after shutdown Using the Menu Command To power down the processing unit select the Setups button on the bottom of the primary display Next select the Configuration Service menu option This will take you to the Configuration menu where you can select Shut System Down confirmation screen displays Shut system down Cancel shutdown 030A Select Shut system down to start the orderly shut down process Wait until the message Caution Do not move the Solar 9500 monitor for 40 seconds after turning power off appears and complete the shut down by pressing the on the on off power switch on the back of the processing unit Alternate Power Down Method If necessary you can directly turn off the Solar 9500 with the on off switch However the system sees this as an AC power failure which causes it to run on the inte
153. nabled gt Stateful Firewall Always On Disabled gt Stateful Firewall Always a From the tool bar click Start Settings Control Panel b Click the Network icon in the Control Panel window c On the Protocol or Configuration tab select the appropriate TCP IP Ethernet adapter for your network card d Select Properties e Click Specify an IP address f Type the appropriate IP address and Subnet Mask g Click OK h Click OK i Click Yes to restartthe PC and launch the application a From the tool bar click Start Settings Network and Dial up Connections b Right click Local Area Connection C Select Properties d Click Internet Protocol TCP IP e Click P roperties f Click Use the following IP address g Type the IP address that matches your Unity MC Network and Subnet Mask For example IP Address 126 126 126 126 Netmask 255 0 0 0 h Click OK i Click OK Note You may need to restart the PC forthe IP change to be recognized 5 Verify communication with the Solar 9500 by performing a ping At the PC select Start Run Type CMD and press Enter c At the C N prompt type ping lt space gt xxx x x xx where x the Solar 9500 IP address d Press Enter Information returned in the cmd window indicates whether the Solar 9500 is replying to the ping If communication is not successful failure messages display i e Destination host unreachabl
154. nd disconnect the monitor from the power source and the network 2 Remove the front and rear covers from the device 3 Loosen the two screws holding the power supply in place and swing the power supply down to expose the interior of the device 4 Using source of clean dry compressed air blow all lint and debris from between the circuit boards and the other assemblies CAUTION Do not use a vacuum device unless suitable static control procedures are followed Many vacuum systems generate appreciable static electricity which could damage semiconductor circuits in the monitor 5 Make sure all circuit boards are seated firmly Make sure all cables are connected Re assemble the Solar 9500 Perform leakage tests Connect the Solar 9500 to the network and to the power source Apply power to the Solar 9500 and verify operation Revision C Solar 9500 Information Monitor 6 5 2001085 078 Maintenance Battery Pack Maintenance Battery Pack Maintenance The battery pack consists of 11 Nickel Cadmium cells that deliver 13 2 volts of DC power The battery pack provides a soft shutdown in the event of interrupted AC power The Riser Interface PCB 801376 001 has a capacity counter that keeps track of how many seconds of charge the battery pack has Every time the Solar 9500 uses the battery to shutdown the capacity counter decreases and as AC power is reapplied it increases Four hours of charg
155. nfigured for this option 2 Verify that after about 30 seconds a browser window displays on the main graphics display Printer Check printer optional Select Start Manual Print from the waveform window and verify waveforms are printed For more information on printing see the Solar 9500 Information Monitor operator s manual Unity Network ID Check Refer to the Unity Network ID service manual for checkout procedures Revision C Solar 9500 Information Monitor 6 21 2001085 078 Maintenance Checkout Procedure M Port Check Completion PM Form If connecting to a PRN 50 with AutoPort then adapter PN 2001973 001 is required Plug the adapter end labeled AUTOPORT into the AutoPort device 1 Plug the adapter PN 2001973 001 end labeled AUTOPORT into the Port Checkout DIDCA side labeled PORT CHECKOUT 2 Connect one end of a category 5 cable to the adapter on the Port Checkout DIDCA and the other end to one of the M Ports 3 Verify that the M Port status LED illuminates green 4 Repeat the above steps for all M Ports This completes the checkout procedure m Disconnect all test equipment m Return the monitor and Tram rac housing to service Due to continuing product innovation and because specifications in this manual are subject to change without notice a PM form is not included with this manual For the latest PM form regarding this product contact GE Medical Systems Information Technologies Service
156. nit in the horizontal position EQUIPOTENTIAL G POWER SUPPLY INLET AND POWER SWITCH MOUNTING BRACKET 004A 2 3 Revision C Solar 9500 Information Monitor 2001085 078 Overview The Solar 9500 Information Monitor Interconnection Shown below is the right side interconnect panel and a description of each connectors use UNITY NETWORK PARALLEL PORT MC NETWORK DISPLAY SCROLLING TRAM NET p 25 SERIAL PORT 1 i 5 MOUSE KEYBOARD SERIAL PORT 2 PCI BUS SLOTS NOT USED UNITY NETWORK IX NETWORK NOT USED NOT USED NOT USED M PORTS 0058 m UNITY NETWORK MC NETWORK is the Unity Network connection that provides real time data Parameter waveforms and numerics between GE devices m UNITY NETWORK IX NETWORK is the Unity Network connection that provides non real time data between the Solar 9500 system and other hospital intranet devices m TRAM NET is the GE acquisition network connection that provides real time data between a Tram rac s patient connected acquisition devices Trams and single parameter modules and the Solar 9500 Information Monitor PCI BUS SLOT is for optional add in boards e g the second display M PORTS are for Unity Network ID PRN 50 or PRN 50 M connection m PARALLEL PORT is for connecting to a PostScrip
157. nodes patient monitors and central stations on either branch similar to a patient transfer from one unit to another Revision C Solar 9500 Information Monitor 3 19 2001085 078 Installation Local Area Network LAN Interfaces Network Terms Illustrated below is a simplified view of a network and a definition of its terms Twisted Pair Transceiver It passes data back and forth O between the network device and the LAN A twisted pair transceiver is attached directly to the network device at the 15 pin D type AUI I connector The twisted pair cable is connected from the 45 ba B connector at the transceiver and the RJ 45 connector at the concentrator Note that the Solar 9500 has a built in twisted pair transceiver t I 1 1 1 6 amp ods EC m I 1 1 I Lee Reh m I E E 1 s I amp E m un Concentrator To implement the star topology each network a device is connected to a concentrator The concentrator functions as H a central hub and simply passes all network data between each ES network device in the star segment Typically the concentrator EN supports 8 to 12 network devices be linked to other concentrators to form larger networks Node Each network device or node is assigned an address number and requires a transceiver to interface between the networ
158. ns Cleaning up orphaned distribution files Jun 11 09 23 01 localhost startup ns Launching network services daemons Jun 11 09 23 01 localhost startup ns Completed launching network services Jun 11 09 23 03 localhost prodInstd Software product installation daemon monit oring mms tmp ns incoming appre lease Jun 11 09 23 04 localhost nsdaemon 941 nsdaemon running Jun 11 09 23 04 localhost nsdaemon 941 Could not attach to Ruhat db with shmid 1 Argument invalid improper Jun 11 09 30 01 localhost arnold mms tmp log basic threshold 1048576 ret_thre shold 2097152 hour 1 Jun 11 09 30 01 localhost arnold Not retiring mms tmp log basic size 75104 does not exceed threshold 1048576 Jun 11 09 30 01 localhost arnold done Jun 11 09 35 01 localhost arnold mms tmp log messages threshold 1048576 ret t 08 Messages logged by the 59500 System Applications and the operating system are sent to the system log file SE option 6 displays the contents of this file See 1 gati Output page 7 21 for information on how to scroll 2 and search the output of this command 1 launch 4 9500 error log 7 system config 10 reboot 2 check filesystems 5 basic error log 8 system info 11 halt 3 system boot logs 6 system error log 9 network info 12 help Command last command 13 02 33 time 6 22 13 02 33 1 of 24 line Oma L L ES 0 30 16 37 17 oasis Lynx0S Lynx0S 386 486 Pentium PC AT Version
159. ocks buttons and waveform windows Selecting Delete Layout opens a display that allows you to choose which layouts to remove NOTE Currently active layouts layouts listed in the Layout Setup menu and GE clinical layouts cannot be deleted Revision C Solar 9500 Information Monitor 4 3 2001085 078 Software Configuration Monitor Service Menu Display Layout Setup Selecting Default Layouts displays the Application Layout Setup window If your unit has optional graphics cards you can program the Default Layouts for additional displays and define the default layout to be used on each display Under Layout Setup choose the default layouts for the Primary the Secondary the Remote 1 and 2 and the Patient View Layout Setup shown is for a system with 8 displays Application Layout Setup Primary Secondary Remote 1 Remote 2 Patient view 032A Screen Description Options Selecting Display Setup displays the Application Display Setup screen For each video output choose the Screen Description Each application can be assigned to any of the available video outputs whose screen descriptions are Primary Secondary or Apps Only column labeled Motherboard Main refers to the graphics port on the Solar 9500 motherboard The column Video Slot A refers to the first add in video card the column Video Slot B refers to the second add in video card A highlighted green circle indicates which video scre
160. olar 9500 Information Monitor Revision 2001085 078 Electromagnetic Compatibility Electromagnetic Compatibility Part No Description Maximum Lengths 2008064 001 Transcutaneous TC Module N A 406132 001 5 02 Module N A 900101 002 Sidestream CO2 Module N A 900553 001 Capnostat Mainstream CO2 Module N A 2004182 001 BIS EEG Module BIS not approved for use in J apan N A 900681 001 5 0 Module N A 409822 001 SAM Module N A 2003382 001 ICG BlOz Hemodynamics Module N A 2001891 001 Masimo Set Pulse Oximetry Module N A 9399 001 Dual Temperature Module N A 406236 001 Dual BP Module N A 900031 002 TRAM RAC w power supply N A 2014219 001 Unity Network ID N A 419181 001 Respiratory Mechanics Module N A 418331 002 PRN 50 Printer N A 700520 00X TRAMNet Cable 7 6 m 25 ft N A 45 series Category 5 cable N A 418720 001 Remote Control N A 80274 00X Power Cord 18 m 6 ft 401855 XXX Power Cord 2 4m 8 ft 2009708 002 Digital Video Cable 1 8 m 6 ft 2015690 001 Touch Cable RS232 1 8 m 6 ft 2009707 002 Analog Video Cable 18 m 6 ft 2014533 00X 18 inch Medical Grade Flat Panel Display N A 2017367 001 15 inch Medical Grade Flat Panel Display N A 2006829 00X 15 inch Medical Grade Flat Panel Display N A Solar 9500 Information Monitor 2001085 078 A 9 Electromagnetic Compatibility Electromagnetic Compatibility For your notes Sol
161. om the other monitors by the eight control buttons displayed at the bottom of the screen Real Time data parameter waveforms and numerics and or Non Real Time data a display with trends alarm history etc display on he screen Secondary secondary display has touchscreen capabilities and displays Real Time and or Non Real Time data on a two or three display system Remote 1 2 remote display is a view only monitor and not intended to be used as a touchscreen display Only Real Time data displays Up to two remote displays can be connected to the Solar 9500 processing unit NOTE You cannot assign Non Real Time applications to a remote display Unused The display is not configured for use Revision C Solar 9500 Information Monitor 4 5 2001085 078 Software Configuration Monitor Service Menu Waveform Options The base Solar 9500 system only supports non scrolling waveforms using the Motherboard Main connection For scrolling and non scrolling waveform capability the PCI bus add in video board must be ordered The Solar 9500 can support up to two add in video boards Slot A and B Scrolling refers to the ability to continuously move the waveforms across the display Non scrolling waveforms are static with an erase bar moving across the display As the erase bar sweeps the display it erases the data in front of the bar and writes new data in back of the bar Turn Waveform Scrolling erase bar mode ON and
162. on Monitor is intended for use in the electromagnetic environment specified below It is the responsibility of the customer or user to assure that the Solar 9500 Information Monitor is used in such an environment Immunity Test EN 60601 Test Level Compliance Level Electromagnetic Environment Guidance Electrostatic 6 kV contact 6 kV contact Floors should be wood concrete or ceramic tile If Discharge ESD floors are covered with synthetic material the relative EN 61000 4 2 8 KV air 8 KV air humidity should be at least 30 Electrical Fast 2 kV for power supply lines 2 kV for powersupply Mains power should be that of a typical commercial Transient Burst lines or hospital environment EN 61000 4 4 1 kV for input output lines 1 for input output lines Surge 1 kV differential mode 1 kV differential mode Mains power should be that of a typical commercial EN 61000 4 5 or hospital environment 2 kV common mode 2 kV common mode Voltage dips short interruptions and voltage variations on power supply input lines EN 61000 4 11 5 U 29596 dip in for 0 5 cycles 4096 U 26096 dip in U for 5 cycles lt 70 0 gt 30 dip in U for 25 cycles lt 5 U 29596 dip in Up for5s lt 5 U gt 95 dip U for 0 5 cycles lt 40 U 76096 dip in Ug for 5 cycles lt 70 U 23096 dip in Ug for 25 cycles lt 5 U 29596 dip in Uy for5s Mains power should be that of
163. onitor should deflate the cuff at pressures exceeding 330 mmHg End the test Close all open windows NOTE 14 After approximately 5 minutes the monitor will deflate the cuff switch to normal operation Turn the manometer off and remove the test equipment from the monitor Solar 9500 Information Monitor Revision C 2001085 078 Module Calibration Calibrate Mainstream CO2 Calibrate Mainstream CO2 About the Procedure This procedure provides a method of verifying the accuracy of the MGA IR Mainstream CO2 module Manufacturer Recommendation The manufacturer recommends performing this procedure upon initially receiving the module before it is used on a patient and once each year thereafter Also perform the procedure each time the module is opened for service or repair Test Equipment The following items are required to successfully complete the CO2 calibration procedure Description Part Number Quantity C02 Module Calibration Kit 405910 001 1 Calibration Procedure 1 Connect the Calibration Kit to the MGA IR Mainstream CO2 Module and Sensor as shown below MAINSTREAM CO Calibration adapter Calibration Tank 063A 2 Enter the Service Menu as described on page 5 3 Revision C Solar 9500 Information Monitor 2001085 078
164. onnection 3 8 Flat Panel Display Interconnection 3 9 Display MOUNTING crie ree exter Rente er utr 3 9 Acquisition Interfaces 3 10 Tr m raciHousing 3 10 Tram rac Power Supply Connection 3 11 Processing Unit Tram rac 1 3 11 Tramm rac 2 Housing ii tad eee paqa pied beeches te Eee ds 3 12 Tram rac 4A 0 2 22 2 2 3 12 Unity Network ID Connectivity Device 3 13 Dual Tram rac HOUSINGS 3 14 About Timne ritiri bedi dal ada 3 15 Processing Uni RAMS 1 3 16 Processing Unit Polled Parameter Interconnection 3 17 Local Area Network LAN Interfaces 3 18 ADOULEINOMGL siii ix ced S cet ee pec Rear VE 3 18 Twisted Pall vo daa 3 19 Network Terms vele vd da 3 20 Printer 2 3 21 kaser Printe oi S CA iR ar 3 21 50 Digital Writer isses 3 24 RM RMM and
165. or and its components should be carefully inspected prior to installation once every 12 months thereafter and each time the equipment is serviced Carefully inspect the equipment for physical damage to the case the display screen the controls and the keyboard Do not use the monitor if damage is determined Refer damaged equipment to qualified service personnel m Inspect all external connections for loose connectors or frayed cables Have any damaged connectors or cables replaced by qualified service personnel m Inspect the display face for marks scratches or other damage Physical damage to a CRT face may pose an implosion hazard Have the CRT replaced by qualified service personnel if necessary Revision C Solar 9500 Information Monitor 6 3 2001085 078 Maintenance Cleaning Cleaning Cleaning Precautions Use one of the following approved solutions Cidex solution or Sodium hypochlorite bleach diluted or Mild soap diluted Lint free cloth Dust Remover compressed air To avoid damage to the equipment surfaces never use the following cleaning agents organic solvents ammonia based solutions acetone solution Betadine solution n n n m alcohol based cleaning agents n m awaxcontaining a cleaning substance or abrasive cleaning agents Exterior Cleaning To clean the exterior of the Solar 9500 follow this procedure 1 Power down the Solar 9500 according to the procedure
166. ound to define the background color for the message window or select Delete to delete this message window from the display Select Close to close this window Create Sub group Allows you to create a subgroup or collection of windows for configuring your display Subgroups are usually made of commonly used sets of parameter windows waveform windows command buttons and message windows These subgroups can be saved and retrieved for ease of customizing After you ve created a subgroup touch or click inside it to open the Sub group options Sub group options include the following m Save Sub group allows you to name and save the subgroup for retrieval at a later time NOTE Bed layout names may contain alphanumeric characters 0 9 A Z a space a dash and an underscore only If unacceptable characters are entered a tone will sound m Command Button allows you to create and configure a command button within the sub group m Waveform Window allows you to create and configure a waveform window within the sub group m Parameter Window allows you to create and configure a parameter window within the sub group m Message Window allows you to create and configure a message window within the sub group 4 28 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Creating Custom Layout m Procedure timer allows you to create a procedure timer within the sub group m
167. ow and select one of the following options 037A Save After modifying a parameter default settings select Save to save the changes Restore Select Restore to restore the most recently saved settings When Restore is selected a message window opens This will change all parameter settings back to the user default settings Do you wish to continue Select Yes to change the settings or No to close the message window without making changes Reset Select Reset to reset all settings back to the original factory settings When Reset is selected a message window opens This will change all parameter settings back to the original GE clinical layouts default settings Do you wish to continue Select Yes to change the settings or No to close the message window without making changes Print Select Print to initiate a printout of the saved user default settings for all of the available parameters GE Medical Systems Information Technologies recommends printing default settings after making changes Close Select Close to close the Setup Parameter Defaults window 4 10 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Monitor Service Menu End Case Select End Case to set the default behavior when the End Case button is selected End Case 038A Patient Info Select Patient Info to set the default units of measure for patient information Patient
168. petitions eae aie ae an 7 10 Diagnostic 55 065 7 11 File TYPES hese nad aos 7 12 Log File TiMestamps is 7 12 Diagnosing System Problems with Houston 7 13 General 1 13 1 13 Overview of the Menu ltems 7 14 Navigating Multi page Output 7 21 Theory of Operation 8 1 Overview ocv eb cepe Ea RC Pad Ca c Pac OG PY 8 2 Processing Unit Operation 8 2 Subassemblies er ac e x c c ee e CC C e 8 3 Power Supply Assembly 8 3 Video PEB Lich tenu de Mesi ter 8 5 Riser Interface P CB ovt t c PE a ria 8 7 EE 8 9 ess ot teh dea ten oe ka 8 9 Signal Descriptions la yuna Sha a uyaq a Wy aa 8 11 Power Supply 8 11 Video P GB Conne ctors ua e ies ere Gee acc b te 8 15 Riser Interface PCB Connectors 8 18 Riser I O PCB 8 33 M PortPCB
169. present EPLD DALLAS RJ45 SERIAL ID CONN PROM 3X 3X and Isolation UART RELAY 16 85 3X INTEL 82559 x PCI CONNECTOR ETHERNET HUB REPEATER LXT914 107 Solar 9500 Information Monitor Revision C 2001085 078 Theory of Operation Signal Descriptions Signal Descriptions Power Supply PCB Connectors E1 CHASSIS 25 1 5 ASSEMBLY NLX HD CNIL A1J1 1 6 O JL FL E FAN BATTERY Revision C Solar 9500 Information Monitor 8 11 2001085 078 Theory of Operation Signal Descriptions J1 Power Supply Output Connector to Riser Board Pin Signal Name 11 1 43 3V J12 3 3V 11 3 GND 11 4 5 0 1 5 GND 1 6 5 0V 11 1 GND 11 8 PW OK 19 5 0V Vsb 11 10 12 0V Justi 43 3V 11 12 12 0V 11 13 GND J 1 14 NIC 11 15 GND 11 16 GND 11 17 GND J 1 18 5 0V J 1 19 5 0V J 1 20 5 0V 8 12 Solar 9500 Information Monitor 2001085 078 Revision C Theory of Operation Signal Descriptions J3 Hard Drive Power Pin Signal Name 3 1 12V 3 2 GND 3 3 GND 3 4 5V J5 Battery Input Connector Pin Signal Name 5 1 13 2 5 2 GND 5 3 VB7 2 5 4 VB13 2 5 5 GND J5 6 N C J6 Signal Interface
170. r test If the metal surfaces are anodized or painted scrape off a small area in a inconspicuous place for the probe to make contact with the metal 5 Resistance must read 0 1 ohm or less without power cord 0 2 ohms or less with power Impedance of Protective Earth Connection This test unlike a ground continuity test will also stress the ground system by using special ground bond testers This test normally is only required as a manufacturing production test to receive safety agency compliance i e EN 60601 1 Some country agency s do require this test after field equipment repairs i e Germany s DIN VDE 0751 standards Consult your country local safety agency if in question Compliance is checked by the following steps 1 A current not less than 10 and not exceeding 25A from a current source with a frequency of 50 or 60 Hz with a no load voltage not exceeding 6 V is passed for at least 5 s through the protective earth terminal or the protective earth pin in the mains plug and each accessible metal part which could become live in case of failure in basic insulation 2 voltage drop between the parts described is measured and the impedance determined from the current and voltage drop It shall not exceed the values indicated For equipment without a power supply cord the impedance between the protective earth terminal and any accessible metal part which is protectively earthed shall not exceed 0 1 ohms
171. ration procedure is relatively simple and should be performed once per year The calibration procedure is as follows 1 Connect the Calibration Kit to the MGA IR Sidestream CO2 Module and Sensor as shown below SIDESTREAM CO pump ZN CO2 5 Calibration Tank Calibration adapter 067A 2 Enter the Service Menu as described on page 5 3 5 12 Solar 9500 Information Monitor Revision C 2001085 078 Module Calibration Calibrate Sidestream CO2 3 Select CO2 to display the CO2 Calibration menu Set Barometric Pressure Calibrate Module CO2 Calibration Y Lum ocu 064 4 Under Set Barometric Pressure enter the current pressure by using the up and down arrows the slide bar or touching the keypad icon and entering the pressure from the keypad pop up NOTE Barometric pressure is used to calculate the percentage of CO2 in the patient s airway from the mmHg value This calculation is based on the following equation CO2 mmHg CO2 x 100 mmHg barometric pressure 0 CO2 Calibration 5 Disconnect the calibration adapter from the tubing and move adapter through room air to induce 0 CO2 as shown below V Ww As 065A 6 Under Calibrate Module select Start Calibration text on this button changes to Abort Calibration Module Status
172. rnal battery followed by a start of the automatic shutdown procedure Since the battery 15 intended for orderly shutdown during an AC failure condition we recommend that you shut down the system through the menu command With a new fully charged battery only 13 continuous shutdowns are supported before a recharge is necessary CAUTION Do not move the system while turning power off Wait 40 seconds after removing power before moving the system 3 30 Solar 9500 Information Monitor Revision C 2001085 078 d Software Configuration evision Solar 9500 Information Monitor 2001085 078 Software Configuration Monitor Service Menu Monitor Service Menu The Service Menu is for use by qualified field engineers and factory service personnel to configure and service the Solar 9500 Information Monitor CAUTION The Service Menu is intended for use only by qualified personnel Unnecessary tampering with service mode menu options for experimentation purposes may cause a malfunction of the equipment and is not recommended by the manufacturer To access the SERVICE MODE menu execute the following menu sequence starting from the MAIN menu Setups Configuration Service Service mode At the numeric touchscreen keypad enter the day and month using leading zeros July 4 0407 The following Service menu screen displays Control and Menu Layout Display Layout Setup Unit Defaults Printing Ti
173. rocedure sets the barometric pressure for an interfaced CO2 using Calibrate in the Module Calibration window of the Service Menu NOTE The buttons to display the calibration means are active only if the associated Parameter is active and an interface device is present Procedure 1 Enter the Service Menu as described on page 5 3 2 Select Calibrate to display the following window Calibrate 043A 3 will be active when an interface device with CO2 parameter is connected to the Solar 9500 Select CO2 Set Barometric Pressure CO2 Calibration 760 mmHg fi v 108A 4 Enterthe current pressure by using the up and down arrows the slide bar or touching the keypad icon and entering the pressure from the keypad pop up NOTE Barometric pressure is used to calculate the percentage of CO2 in the patient s airway from the mmHg value This calculation is based on the following equation CO2 mmHg CO2 x 100 mmHg barometric pressure Revision C Solar 9500 Information Monitor 5 15 2001085 078 Module Calibration Calibrate Barometric Pressure for Interfaced 2 For your notes 5 16 Solar 9500 Information Monitor Revision C 2001085 078 Maintenance Revision C Solar 9500 Information Monitor 2001085 078 Maintenance Maintenance Schedule Maintenance Schedule Manufacturer Recommendations To make sure the Solar 9500 Information Monitor remains in proper operational
174. rotection LAN Controllers Interface cheer Transformer 10 Base T Adapter amp Protection L Interface 096A The M Port board plugs into one of the PCI bus slots The board provides the addition of three M Port connections to the host system Each M Port connection uses a RJ 45 connector and may communicate in either the 10Base T ethernet format or the RS 232 serial format The three ports operate simultaneously For an RS 232 connected device the circuit board uses a one wire serial data transfer to provide identification of certain connected devices The circuit board is capable of supporting a combination polling status monitoring operation independently for each M Port to determine the connectivity on each M Port If no device is detected on the M Port the M Port switches between the 10Base T ethernet mode and the RS 232 mode until a device is detected Devices may be identified by the ethernet Revision C Solar 9500 Information Monitor 8 9 2001085 078 Theory of Operation Subassemblies link indicator active or by polling the interface for responses in each M Port mode If an ethernet device is operating the host monitors the ethernet link state bit and remains in the ethernet 10Base T mode until the link state bit indicates the ethernet device is no longer active If a serial RS 232 device is active the host remains in the serial RS 232 mode until the host software determines that the RS 232 device is no longer
175. round planes on the mother board Power Source m Faulty wiring especially AC outlet m Circuit not dedicated to system Power source problems can cause static discharge resetting problems and noise WARNING Repair multilayer and surface mount PCB assemblies at your own risk Improper repair methods can damage the PCB assemblies even further Only qualified service personnel with the proper laboratory equipment should attempt to repair PCB assemblies Revision C Solar 9500 Information Monitor 7 3 2001085 078 Troubleshooting F ault Isolation Main Power and Display Power CAUTION Make sure the voltage selector switch S1 is in the correct position for the applied voltage Turn the mains power switch of the processing and display to the ON 1 position During normal operation the main power switches are left in the ON position There are two LEDs in on the front panel of the Solar 9500 CPU one is marked AC and the other CPU Use the following table to check on their status AC CPU Description Off Off No power applied to the Solar 9500 or fuses blown Off On Running on batteries and will shut down shortly On Off Hardware problem Check the power supply On On Normal operating mode AC Power Failure If the Solar 9500 CPU has an AC power failure the following message appears WARNING AC POWER NO LONGER DETECTED The system is now running on
176. rror occurs the Solar 9500 retries launching itself again unless a fourth launch is tried within a fifteen minute time span If that occurs Houston displays again Check Filesystems To ensure that the Solar 9500 s filesystems are intact run option 2 This reboots the system and performs a filesystem check on all of the filesystems After it is done checking its filesystems it reboots again If the Solar 9500 does not successfully boot and Houston is again displayed use the system boot logs command to view the results of the filesystem check 7 14 Solar 9500 Information Monitor 2001085 078 Revision C Troubleshooting Diagnosing System Problems with Houston System Boot Logs The results of the most recent operating system boots display in most recent order by running option 3 This also includes results of filesystems checks See Navigatin Output on page 7 21 for information on how to scroll through and the output of this command 1 launch 4 9500 error log 7 system conf ig 10 reboot 2 check filesystems 5 basic error log 8 system info 11 halt 3 system boot logs 6 system error log 9 network info 12 help ommand last command 12 55 18 time 6 22 12 55 33 Page 1 of 18 line 1 cs A L L 0 LynxOS Startup Date set to Thu Jun 22 12 29 14 CDT 2000 dev hd2c clean hecking dev hd2c all sizes and block numbers in decimal block size is 2048 file system is byte suapped
177. s should be less than 3 V m A 4 Solar 9500 Information Monitor Revision C 2001085 078 Electromagnetic Compatibility Electromagnetic Compatibility Recommended Separation Distances The table below provides the recommended separation distances in meters between portable and mobile RF communications equipment and the Solar 9500 Information Monitor The Solar 9500 Information Monitor is intended for use in the electromagnetic environment on which radiated RF disturbances are controlled The customer or the user of the Solar 9500 Information Monitor can help prevent electromagnetic interference by maintaining a minimum distance between portable and mobile RF communications equipment transmitters and the Solar 9500 Information Monitor as recommended below according to the maximum output power of the communications equipment Separation Distance in Meters m According to Frequency of Transmitter 422 150 kHz to 80 MHz 80 MHz to 800 MHz 2 800 MHz to 2 5 GHz Watts d 12VP d 1 2 VP d 23 VP 0 01 0 12 0 12 0 23 0 1 0 38 0 38 0 73 1 1 2 1 2 2 3 10 3 8 3 8 1 3 100 12 12 23 At 80 MHz and 800 MHz the separation distance for the higher frequency range applies For transmitters rated at a maximum output power not listed above the recommended separation distance d in meters m can be estimated using the equitation applicable to the frequency of the transmitter where Pis the ma
178. scroll through and search the output of this command 1 launch 4 9500 error log 7 system conf ig 10 reboot 2 check filesystems 5 basic error log 8 system info 11 halt 3 system boot logs 6 system error log 9 network info 12 help Command last command 13 06 44 time 6 22 13 07 20 Page 1 of 8 line ES bin ifconfig strmux0 126 186 109 41 netmask 255 0 0 0 bin ifconfig 151 186 109 41 netmask 255 255 0 0 Active Configuration for straw strmux0 f lags 863 lt UP BROADCAST NOTRAILERS RUNNING 5 IMPLEX gt inet 126 186 109 41 netmask Oxff000000 broadcast 126 255 255 255 Active Configuration for pro0 f lags 8843 lt UP BROADCAST RUNNING SIMPLEX MULTICAST gt inet 151 186 109 41 netmask Oxffff0000 broadcast 151 186 255 255 etc hosts File 127 1 localhost mailhost loghost 126 186 109 41 oasis etc resolv conf File File does not exist hostname lookups not performed 091A Reboot To reboot the system run option 10 Halt To halt the system run option 11 Revision C Solar 9500 Information Monitor 7 19 2001085 078 Troubleshooting Diagnosing System Problems with Houston Environment Info Running option 12 displays the system s operating voltages and temperatures See Navigating Multi page Output on page 7 21 for information on how to scroll through and search the output of this command 1 launch basic error log 9 network info 2 che
179. su P g SE B is Dg EPI T3 F 555 erzo Marzo esn eer oer 145 zen za an en syn M ezn ain sin en sn ar ssn ven sen Battery 1 Taw E ezio gir I veio 7 zuo 6 0 D IE C 422 610 071A Revision C Solar 9500 Information Monitor 6 9 2001085 078 Maintenance Electrical Safety Tests Electrical Safety Tests General Recommendations Test Conditions Electrical safety tests provide a method of determining if potential electrical health hazards to the operator of the device exist To help you establish a systematic maintenance routine GE recommends that you perform all safety tests presented in this chapter upon receipt of the device every twelve months thereafter each time the main enclosure is disassembled or a circuit board is removed tested repaired or replaced and record the date and results on the Maintenance Repair Log included at the end of this chapter WARNING
180. t recently acquired TRAM error log file It is updated whenever the log viewer application is started and a TRAM module is available to the system 6 rc log 0 xx These files contain system bootup information and are ordered by date with the most recent listed first The first four message types listed may also have a date and time stamped version of the file These are older versions of the respective message logs that have been compressed to reserve hard disk drive space The files are ordered by date with the most recent listed first Each of the compressed files have a YYMMDD HHMMSS gz appended to the end of the log file name The YYMMDD is year month date the HHMMSS is hour minute second the gz signifies that the file has been compressed The timestamps in the log file may differ from the display time because the timestamp reflects system time and the display reflects MC network time Once an hour the system creates a Response Statistic entry in the 59500 log where the timestamp at the left is the system time and the timestamp at the right is the display time To determine the real time of a given log file calculate the difference between these two times Solar 9500 Information Monitor Revision C 2001085 078 Troubleshooting Diagnosing System Problems with Houston Diagnosing System Problems with Houston General Houston Main Menu If a Solar 9500 cannot fully boot or has encountered a major system
181. t compatible printer m SERIAL PORTS 1 amp 2 are for touch screen PRN 50 PRN 50 M RAMS interface connections or for polled parameter service KEYBOARD is a PS 2 keyboard connection MOUSE is a PS 2 mouse connection WARNING Connect devices solely manufactured or approved by GE directly to the Unity Networks Contact GE Technical Support before connecting equipment from other manufacturers 2 4 Solar 9500 Information Monitor Revision C 2001085 078 Overview Technical Specifications Technical Specifications Display Specifications Item Description Type High definition raster or TFT Active Matrix Color LCD Color depth 16 bit color Resolution 1024 horizontal x 768 vertical Vertical Frequency 70 Hz non scrolling erase bar 60 Hz scrolling Horizontal Frequency 57 kHz minimum Video bandwidth 110 MHz minimum Linearity 1 596 of vertical height Max Solar 9500 Features and Options Item Description User interface SAW Touchscreen ELO touch systems SMART SET compatible Waveform presentation Non scrolling erase bar or scrolling Number of waveforms 30 waveforms Number of parameters 30 parameter windows Sweep speeds 1 5 10 15 25 35 50 mm sec Seconds per waveform Max of 12 seconds at 25 mm sec based on display configuration Pressure waveform scales Full individual or free Software options
182. talled software displays in the Software list NOTE The software consists of S9500 OS S9500 SYSTEM APPS and S9500 MONITOR APPS All three software components must be present at each Solar 9500 Each software component is followed by the version Select the current OS SYSTEM APPS and MONITOR APPS from the list Select Export to send all selected components Select Yes at the Are you sure prompt 9 18 Solar 9500 Information Monitor Revision C 2001085 078 Field Replaceable Units Parts Lists and Drawings Activate Defaults at Target When the export is complete a window listing the success failure status of each export displays 7 Choose to Print or Dismiss close the window Leave the Service Menu screen open Tue Nov 3 11 00 13 1998 59500 MONITOR APPS Ver 1A X14 290ct9 exported to SOLAR BILL Success Print Dismiss Watch the file export process messages on screen At the target Solar 9500 on screen status messages show each software component unbundle and self activate NOTE A Solar 9500 with the new boot drive self activates the software so it is no longer necessary to activate using the Network Services 8 Ifthe display setup did not use the motherboard graphics port return the monitor video cable to the correct graphics board location Activate Defaults at Target 1 Return to the Service Menu screen at the target Solar 9500 and under Network Services select Activate Locally 2
183. ten all screws Replace the front and rear covers Reconnect the power cord and all communication cables Test for proper operation and electrical safety see chapter 6 Maintenance TOP PLATE SCREWS 5 PLACES ENSURE THAT BOARD EMI FINGERS ARE INSIDE CHANNEL POWER SUPPLY SCREWS 2 PLACES 097A Revision C Solar 9500 Information Monitor 9 7 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly Replace Riser I O PCB Assembly CAUTION This assembly is extremely static sensitive and should be handled using electrostatic discharge precautions Remove the front cover Remove the power supply as in Replace the Power Supply Assembly on page 5 Disconnect the 4 pin power cable by gently pulling away from the board Carefully disconnect the 30 pin ribbon cable by squeezing the metal locks on either side of the connector with your thumb and index finger NOTE The 30 pin ribbon cable connector is very fragile Take care when reattaching this cable Remove the Riser I O board by loosing the screw on the outside of the chassis while holding on to the Riser I O board assembly and swing the bottom of the board up and out of the unit Reverse the disassembly procedure to reassemble the unit 7 Reconnect the power cord and all communic
184. the 230 volt position when the low range voltage 90 135VAC is applied 1 Lay the Solar 9500 processing unit on its back 2 Simultaneously press in on the two release tabs and lift up the front A ot COVER RELEASE TABS cover 3 View the power supply voltage setting through the window at the top of the unit FACTORY SET POWER SUPPLY INPUT VOLTAGE 008A Revision C Solar 9500 Information Monitor 2001085 078 Installation Processing Unit Setup 4 Replace cover by carefully aligning the top edge of the cover into the hinge teeth on the back cover then swing the front cover down until the release tabs are fully engaged Mounting The processing unit MUST be installed in a vertical position with the supplied bracket before use CAUTION Operating the device in a horizontal position or without the supplied bracket may cause damage to the equipment Wall channel 2 9 HP 0098 3 4 Solar 9500 Information Monitor Revision C 2001085 078 Installation Processing Unit Setup Installing Cable Shroud After installing all of the interface cables use the following
185. the effect of scrolling or panning data on the display along with stationary text or data Window attributes including scrolling and or panning rates and static plane overlay or underlay are selectable on a window by window basis A 64 x 64 pixel three color cursor is available on the display A Fujitsu SparcLite MB86831 32 bit processor is used on the circuit board and a minimum of 512 KBytes of memory are available for program and windowing parameter memory The 512 KBytes of program and windowing parameter memory physically reside in the unused portion of the static plane VRAM Video Random Access Memory A block diagram of the Solar 9500 video circuit board is shown in the following figure Revision C Solar 9500 Information Monitor 8 5 2001085 078 Theory of Operation Subassemblies CONT ARBRES DATA PROCESSOR RAMDAC gt 68 CONT ADDRESS gt DATA mczmmzoDx gt ooo ITRATION CONT ADDRESS EEPROM DATA 095A Windowing hardware is used to select the pixel information sent to the RAMDAC The windowing hardware consists of the arbitration logic the memory controller logic and the pixel multiplexer The windowing hardware allows the display controller to support multiple windows that can independently scroll or pan waveform and graphical data The Arbitration Logic is used to determ
186. thing you would like to reuse save the layout before disabling configuration editing For more information on saving a layout refer to Creating A Bed Layout on page 4 26 When Configuration Editing is enabled pressing a command button parameter window or waveform window will cause a different option menu to be displayed instead of the normal action Editing Basics for All Customizable Windows The following are basic editing principles for working with customizable windows WARNINGS Do not configure the screen in such a way that parameter and alarm data is obscured This could delay recognition of critical events when monitoring a patient Always turn layout configuration OFF when finished with configuration editing Failure to turn configuration off may result in accidental configuration changes by the operator and loss of important data NOTE Configuration editing must be enabled It may be easier to use a mouse for these operations For all operations use the left button only The right button is not used m Click and hold the cursor on the background of a window to display a pop up menu listing options for that window m Select the edge of a window to show the cursor and allow it to be dragged to an appropriate spot on the display m Select any corner of a window to show a right angled or L shaped cursor and allow the window to be resized Revision C Solar 9500 Information Monitor 4 23 2001
187. urn the Solar 9500 power switch on If the battery failure message displays select Acknowledge and Close The Solar 9500 splash screen and the message Initializing displays NOTE The first time a boot drive from GE is powered up the software self configures and may reset the Unity MC IP address to the factory assigned address 17 Note the IP address inet xxx xxx xxx xxx that displays on the Initializing screen IP NOTE Disregard the on screen request for a password but keep the Solar 9500 running Proceed to Export Software and Parameter Defaults on page 9 14 Export Software and Parameter Defaults Export the Solar 9500 software using m a separate PC connected to the Unity MC network See Export Software From a Separate PC on page 9 15 OR m a source Solar 9500 running existing software Export Software From a Source Solar 9500 on page 9 17 9 14 Solar 9500 Information Monitor Revision C 2001085 078 Field Replaceable Units Parts Lists and Drawings Disassembly Assembly Export Software From a Separate PC PC Requirements and Setup Microsoft Windows 98 Windows NT or Windows 2000 CDROM drive Unity MC Network card Pentium II or higher processor 64 MD RAM Use cable PN 408997 001 or a standard Cat 5 network patch cable for the network connection between the PC and the Unity MC Network NOTE For Windows 98 systems only one network adapter is allowed 1
188. ute the following menu sequence starting from the MAIN menu Setups Configuration Service Service mode At the numeric touchscreen keypad enter the day and month using leading zeros July 4 0407 The following Service menu screen displays Display Layout Setup Unit Defaults Printing Monitor Service Layout Controls Module Bed Unit Name Serial Interface Network Services Calibration Setup Controls Unix Access IP Address Time and Date Audio Diagnostic Messages Locale Settings 031B 7 10 Solar 9500 Information Monitor Revision C 2001085 078 Troubleshooting Troubleshooting Procedure Diagnostic Messages Select Display and Print Log Files to view a window with system messages for use by GE engineering personnel Log Files fmms tmp og S3500 fimms tmp og 9500 Feb 17 09 24 39 localhost ksc 128 T 1280583 9510 rocket 39 wedge sending signal 15 process 68 Imms7tmp log 39500 990217 Feb 17 09 24 39 localhost ksc 128 T 1280583 9510 rocket 40 trends state change from running to stopping fmms tmp og 9500 990216 Feb 17 09 24 39 localhost ksc 128 T 1280583 9510 rocket 40 trends sending signal 15 process 94 Imms7tmp log 39500 990215 Feb 17 09 24 39 localhost ksc 128 T 1280583 9520 rocket 41 prtserver state change from running to stopping fmms tmp og 9500 990214 Feb 17 09 24 39 localhost ksc 128 T 1280583 9520 rocket 41 prtserver sending signal 15 process 77 fmms tmp
189. voltmeter to check the voltages of the 120 volt AC wall outlet dedicated circuit recommended If the measurements are significantly out of range have a qualified electrician repair the outlet The voltage measurements should be as follows 1 120 VAC 10 VAC between the line contact and neutral and between the line contact and ground 2 Less than 3 VAC between neutral and ground NEUTRAL GROUND 081A 240 VAC 50 60 Hz Use a digital voltmeter set to measure at least 300 VAC to check the voltages of the NEMA 6 20R AC wall outlet dedicated circuit recommended If the measurements are significantly out of range have a qualified electrician repair the outlet The voltage measurements should be as follows 1 120 VAC G 10 VAC between either hot contact and ground 2 210 to 230 VAC between the two hot contacts Revision C Solar 9500 Information Monitor 7 9 2001085 078 Troubleshooting Troubleshooting Procedure Troubleshooting Procedure Service Menu The Service Menu is for use by qualified field engineers and factory service personnel to configure and service the Solar 9500 Information Monitor CAUTION The Service Menu is intended for use only by qualified personnel Unnecessary tampering with service mode menu options for experimentation purposes may cause a malfunction of the equipment and is not recommended by the manufacturer To access the SERVICE MODE menu exec
190. ximum output power rating of the transmitter in watts W according to the transmitter manufacturer NOTE These guidelines may not apply in all instances Electromagnetic propagation is affected by absorption and reflection from structures objects and people Revision C Solar 9500 Information Monitor A 5 2001085 078 Electromagnetic Compatibility Electromagnetic Compatibility Compliant Cables and Accessories WARNING The use of accessories transducers and cables other than those specified may result in increased emissions or decreased immunity performance of the equipment or system The tables below list cables transducers and other applicable accessories with which Information Technologies claims EMC 2001085 078 compliance NOTE Any supplied accessories that do not affect EMC compliance are not included Part No Description Maximum Lengths ECG Cables 416035 00X Multi Link 12 Ld ECG Standard Cable 3 6 m 12 ft 412931 00X Multi Link 5 Ld ECG Standard Cable 6 0 m 20 ft 412944 00X Multi Link 3 Ld ECG Neonatal Cable 3 6m 12ft 2001292 00X Multi Link 3 Ld ECG Cable w Grabber 3 6 m 12 ft 411910 00X Multi Link 5 Ld ECG ESU 3 6 m 12 ft 2017003 00X Multi Link 3 5 Ld ECG Cable 3 6 m 12 ft 2017004 00X Multi Link 3 Ld Neonatal ECG Cable 3 6m 12 ft 2021141 00X Multi Link 3 Ld ECG Cable w Grabber 3
191. y over inflate the cuff The table below lists items for connecting the NBP tube between the manometer and NBP cuff Description Part Number Quantity NBP cuff coupling 400787 001 1 NBP hose coupling 46100 002 1 NBP tee 4745 101 2 Manometer tubing 401582 001 2 ft Revision C Solar 9500 Information Monitor 5 5 2001085 078 Module Calibration Calibrate Non invasive Blood Pressure Calibration Procedure NBP Zero Calibration WARNING When the NBP cuff is used in this procedure it must be tightly wrapped around a rigid cylinder or pipe Do not put the NBP cuff around a human arm during the calibration procedures due to the potential for injury Enter the Service Menu as described on page 5 3 Select the NBP button to display the NBP Calibration menu Calibrate Calibrate Check Calibration NBP Calibration zero gain calibration status Calibration Cuff messages Ei EJ EJ EJ EA EJ 061 With the cuff and tubing disconnected perform zero calibration Under Calibrate zero select the Start button The message Zeroing appears in the Calibration messages area When complete the message Zero Calibration complete appears Connect a cuff and manometer to the monitor as shown on the following page 5 6 Solar 9500 Information Monitor Revision C 2001085 078 Module Calibration Calibrate Non invasive Blood Pressure
192. y to operate the equipment safely in accordance with its function and intended use This manual is intended for service representatives and technical personnel who maintain troubleshoot or repair this equipment Solar 9500 Information Monitor Revision C 2001085 078 Introduction 5 afety Information Safety Information Responsibility of the Manufacturer General GE Medical Systems Information Technologies is responsible for the effects of safety reliability and performance only if m Assembly operations extensions readjustments modifications or repairs are carried out by persons authorized by GE m The electrical installation of the relevant room complies with the requirements of the appropriate regulations m The equipment is used in accordance with the instructions for use This device is intended for use under the direct supervision of a licensed health care practitioner This device is not intended for home use U S law restricts this device to be sold by or on the order of a physician Contact GE Medical Systems Information Technologies for information before connecting to the equipment any devices that are not recommended in this manual Parts and accessories used must meet the requirements of the applicable EN 60601 series safety standards and or the system configuration must meet the requirements of the EN 60601 1 1 medical electrical systems standard Periodically and whenever the integrity of th
193. y updated from the network time WARNING Loss of patient data history Changing the time or date settings may result in the loss of patient data history If one monitor s time or date is changed all monitors on the network listen and follow suit within 3 5 seconds Changing the time base of one monitor may cause some loss of patient data history for all the monitors on the network When you select Change Time and Date the Time and Date Control window displays Time and Date Control Day Month Year 4 Hour Minute Lus 0478 You can change the Day Month Year Hour and Minute by selecting a numeric field and using the arrow buttons to increase or decrease the number You can take one of the following actions m Select Current Time to reset the time based on the current time of the system clock m Select OK to display the message Press Change to change the time Press Cancel to ignore the time change m Select Cancel to exit without saving 4 20 Solar 9500 Information Monitor Revision C 2001085 078 Software Configuration Monitor Service Menu Audio Select Test Audio to open a window with a slider bar to adjust the test audio volume from 0 to 100 and two buttons Play Tone and Close 70 Play Tone Close 049A To test the audio subsystem do the following 1 2 3 4 Diagnostic Messages Move the slider to desired volume level Select Play Tone for

Solar® 9500 Information Monitor

Contents

Download Pdf Manuals

Related Search

Related Contents

Solar&reg; 9500 Information Monitor

Contents

Download Pdf Manuals

Related Search

Related Contents

Solar® 9500 Information Monitor