Service Handbook J Class Workstation HP Part No. A4476–90039 Edition E0496 Update to Service Handbook J Class Workstation HP Part No. A4081–90605 Hewlett–Packard Company 3404 E. Harmony Rd., Ft. Collins, CO 80525...
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The information contained in this document is subject to change without notice. HEWLETT–PACKARD MAKES NO WARRANTY OF ANY KIND WITH REGARD TO THIS MANUAL, IN- CLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Hewlett–Packard shall not be liable for errors contained herein or direct, indirect, special, incidental, or consequential damages in connection with the furnishing, performance, or use of this material.
Printing History New Editions of this manual incorporate all material updated since the previous edi- tion. Update packages may be issued between editions and contain replacement and additional pages to be merged into the manual by the user. The manual printing date and part number indicate its current edition. The printing date changes when a new edition is printed.
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Declaration D’Installation et de Mise en Exploita- tion d’un matériel de traitement de l’information (ATI), classé A en fonction des niveaux de perturbations radioélectriques émis, définis dans les normes européenne EN 55022 concernant la Compatibilité Electromagnétique. Cher client, Conformément à la Réglementation Française en vigueur l’installation, ou le transfert d’ins- tallation, et l’exploitation de cet appareil de classe A, doivent faire l’objet d’une déclaration (en deux exemplaires) simultanément auprès des services suivants: –...
Emissions Regulations Federal Communications Commission (FCC) This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules and the Canadian Department of Communications. These limits are designed to provide reasonable protection against harmful interference in a residential installation.
VCCI Class 1 ITE Emissions Regulations Compliance Any third–party I/O device installed in HP system(s) must be in accordance with the requirements set forth in the preceding Emissions Regulations statements. In the event that a third–party noncompliant I/O device is installed, the customer assumes all responsibility and liability arising therefrom.
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Electrostatic Discharge (ESD) Precautions Electrostatic charges can damage the integrated circuits on printed circuit boards. To prevent such damage from occurring, observe the following precautions when un- packing and installing the board. Stand on a static–free mat. Wear a static strap to ensure that any accumulated electrostatic charge dis- charges from your body to ground.
Warnings and Cautions WARNING: Removing device cover may expose sharp edges in equipment chassis. To avoid injury, use care when installing customer add–on devices. WARNUNG: Das Entfernen der Geräteabdeckung legt die scharfen Kanten im Inneren des Gerätes frei. Um Verietzungen zu vermeiden, seien Sie vorsichtig beim Einbau von zusätzlichen Bauteilen, die vom Kunden selber eingebaut werden können.
Product Information This chapter introduces the HP 9000 J Class workstation, including its controls and indicators. Included in this chapter are the following topics: Product description System unit controls Understanding the LED and LCD System unit rear panel connectors Monitor information Keyboard information Operating system overview Product Description...
Internal Storage Devices: – Fast, Wide SCSI Hard Disk Drives – up to two: 1.0 GB Drive 2.0 GB Drive – Single-Ended SCSI Removable Media – up to two CD-ROM Drive 2.0–8.0 GB, 4-mm DDS Tape Drive SCSI Floppy Drive Standard Network: –...
System LCD System Power Switch System Power LED Figure 1–1. System Unit Front Panel Controls System LCD The Liquid Crystal Display (LCD) is located on the left side of the front panel. It displays messages about the state of the system, including error codes. The following symbols appear in the LCD representing the different system activities shown: Operating system running Disk Access in progress...
System Power Switch Use the Power switch to power the system unit on and off. CAUTION: Do not turn off the power to the workstation without first performing the recommended shutdown proce- dure. Not shutting down the workstation properly, can damage the programs and data on the disk. Using the proper shutdown method for the worksta- tion and operating system ensures that remote users receive shutdown notices, messages can be broad-...
CD-ROM Drive Figure 1–3 shows the operating controls and features of the CD-ROM drive, and Table 1–1 describes those controls and features. Figure 1–3. CD-ROM Drive Controls and Features Product Information 1–5...
Table 1–1. CD-ROM Drive Controls and Features Control/Feature Purpose Headphone Jack Accommodates mini-headphones with a 3.5 mm diameter miniature stereo plug. Volume Control Adjusts the audio output volume to the headphone jack. Busy Indicator Lights during a data access operation and blinks dur- ing a data transfer.
DDS Tape Drive Depending on the configuration, this DDS drive may be a DDS-DC drive, or a DDS–2 drive. The DDS tape drive is a 3 1/2-inch form factor DDS tape drive with data compression and a SCSI interface. It conforms to the DDS format standard for storing computer data, and incorporates a data compression capability.
Table 1–2. LED Display Codes – DDS-DC Drive Cassette Drive Meaning Light Light Green Cassette (un)loading Amber Cassette loaded/online Pulsing Green Cassette loaded/activity Pulsing Amber Cassette loaded/offline Pulsing Green and Amber Write–Protect States Cassette (un)loading Cassette loaded/online Cassette loaded/activity Cassette loaded/offline Error States Media wear (caution) High humidity...
3. Repeat the operation you performed when the Media Wear (Caution) signal dis- played. If the Media Wear (Caution) signal still displays, then the data cassette should be replaced. 4. If you are performing a backup from disk to tape, discard the data cassette and back up your files using a new data cassette.
Floppy Disk Drive Figure 1–5 shows the operating controls and features of the floppy drive, and Table 1–4 describes those controls and features. Figure 1–5. Floppy Drive Controls and Features Table 1–4. Floppy Drive Controls and Features Control/Feature Purpose Floppy Drive Eject Button Push the eject button to remove floppy diskettes from the drive.
System Unit Rear Panel Connectors This section describes the following connectors on the system unit’s rear panel: Headphones connector Audio Mic connector Audio IN/OUT connectors PS2 keyboard and mouse connectors HP parallel Centronics I/O connector 802.3 AUI LAN connector 802.3 TP (Twisted Pair) LAN connector RS-232C serial I/O connectors HP HIL keyboard connector Monitor connector...
Audio IN (Stereo line-in) and Mic (Mic-in), and Audio OUT (Stereo line-out) and Headphones (headphone-out) connectors. The audio connectors are standard stereo audio mini-jacks. Hewlett-Packard recommends using gold-plated plugs available through audio retailers for best quality recording and playback through the external connectors. The following is a summary...
Keyboard Connectors PS/2 Keyboard Connectors The PS/2 connectors provide an interface for the keyboard, mouse, and a variety of other pointing devices, such as trackballs, to the system. Consult the documentation that accompanies each input device for specific information concerning its use. ITF Keyboard Connector The HP HIL connector provides an interface for the ITF Keyboard to the system.
Table 1–6. Serial I/O Pins Pin No. Signal Description Data Carrier Detect Receive Data Transmit Data Data Terminal Ready Ground Data Set Ready Request To Send Clear To Send Ring Indicator SCSI Connectors Use the SCSI connectors to connect external SCSI devices such as DDS-format tape drives and CD-ROM drives.
Monitor Information The J Class supports using one of the following two HP monitors: 17-inch, 1280x1024 color monitor (A4032A) 20-inch, 1280x1024 color monitor (A4033A) For information on these two monitors, see the HP A4032/A4033 Color Monitor CE Handbook (A4033–90099). Product Information 1–17...
Keyboards There are two types of Hewlett-Packard keyboards available for use with this workstation. They are the following: PS/2 Keyboard ITF Keyboard CAUTION: Use only devices that conform to the HP-HIL specifi- cation with Hewlett-Packard computer systems. De- vices that are not HP-HIL compatible but have simi- lar connectors may appear to be compatible, but will damage your system.
Table 1–7. PC Keyboard to ITF Keyboard Equivalent Keys PC Keycap Symbol ITF Keycap Symbol blank1 (left) blank2 blank3 blank4 (right) PrintScreen / SysReq Menu Scroll Lock Stop Pause / Break Break / Reset Page Up Prev Num Lock System / User Select Page Down Next...
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Table 1–6. PC Keyboard to ITF Keyboard Equivalent Keys (cont.) PC Keycap Symbol ITF Keycap Symbol Esc / Del Insert Insert Char Home Delete Delete Char Caps Lock Caps Esc Shifted Esc / Del Shifted Pause / Break Shifted Break / Reset Shifted Num Lock Shifted System / User Shifted 0 / Ins (number pad)
This workstation uses the HP-UX operating system, versions 9.05 PCO1 or 10.0 and later. Instant Ignition systems (systems with preloaded software) have X-windows and the Hewlett-Packard HP VUE 3.0 graphical user interface installed and configured. See the user’s guide for more information.
Environmental/ Installation/PM This chapter lists the environmental specifications, power specifications, and regula- tory requirements for the system. Installation and preventive maintenance informa- tion, if applicable, is also provided. Environmental Specifications Table 2–1 lists the environmental specifications for this workstation. Environmental/Installation/PM 2–1...
Table 2–1. Environmental Specifications Type Specification Altitude Operating 0–15,000 ft Non-operating 40,000 ft DC magnetic field Operating <5 Gauss Non-operating <2 Gauss @ 7 feet Electromagnetic Interference (EMI) Emissions FCC Class B CISPR B Susceptibility FCC Class B CISPR B Electrostatic Discharge Air discharge 0–16 kV, no effect...
Regulatory Requirements This section lists the regulatory approvals met by the J Class workstation. Underwriters Laboratories (UL) listed UL 1950 Canadian Standards Assoc. (CSA) certified CSA22.2 950 –M89 TUV EN60950 ZHI/618 ISO9241 90/270 EEC FCC 47 CFR, part 15 subpart J, Class B Korean RRL, Class B VCCI Class 1 EN55022/CISPR 22 Class B...
Preventive Maintenance The system unit requires no preventive maintenance. Some removable media storage devices require operator preventive maintenance. Refer to the J Class Owner’s Guide (Part Number A4081–90601) for more information. 2–4 Environmental/Installation/PM...
Configuration This chapter provides details about setting up and changing the system configuration. Workstation Configurations Refer to the HP 9000 Series 700 Configuration Guide for a complete list of sup- ported accessories, peripherals, and operating systems for this workstation. FRU Configurations This section provides information for setting up or changing the configuration of the system Field Replaceable Units (FRUs).
SCSI Terminators (must be removed) Jumpers Jumpers Target Term Target Term (Default) Figure 3–4. DDS-DC Drive SCSI Address/Jumper Settings Configuration 3–5...
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Bit 0 Bit1 Bit 2 Term SCSI Connector Power Connector SCSI Term SCSI Term PWR* Bit 2 PWR* Bit 1 Bit 0 Bit 2 Bit 1 Bit 0 (Default) *Term PWR is not used in HP workstation configurations. Figure 3–5. DDS-2 Tape Drive and SCSI Address/Jumper Settings 3–6 Configuration...
Jumper in = 0; out = 1 Top View of Floppy Disk Drive ID 2 ID 1 ID 0 Å Å SCSI ID Address Jumpers Å Å SCSI ID Address Jumpers SCSI ID Jumpers Address ID 2 ID 1 ID 0 Figure 3–7.
Memory This workstation has 16 memory slots, labeled 0A, 0B through 7A, 7B. Memory can be configured from 32 MB to 256 MB installed in pairs of 16 MB SIMMs, 128 MB to 768 MB (128 MB to 1 GB if you are running HP-UX 10.0), installed in pairs of 64 MB SIMMs, or memory can be cofigured in combinations of pairs of 32 MB and 128 MB SIMM pairs.
Monitor-Type Selection The J Class workstation supports the following two monitors: 17-inch, 1280x1024 color monitor (A4032A) 20-inch, 1280x1024 color monitor (A4033A) The monitor type does not have to be changed on this workstation since the worksta- tion is set up to support these monitors. However, if for some reason the monitor type needs to change, refer to Chapter 9 of this book.
Troubleshooting This chapter provides information about isolating a failing component, known as a Field Replaceable Unit (FRU), in a J Class workstation. To troubleshoot a J Class workstation, you must be familiar with the HP-UX operat- ing system and be able to start and stop processes. You should also be familiar with the boot ROM diagnostics, ISL diagnostics, and the Support Tools Manager online tests, which we describe in this chapter.
Press Power Switch On System Unit Plug In System Unit to Plugged In? a Live ac Outlet. Check ac Outlet Power: 90–132 V ac for 100/120 V Environ- ments 198–264 V ac for 220/240 V Environ- ments Is Fan Replace Power Supply Running? Unit.
Start Note any error or status messages. See Section “Identifying LCD-Indicated Conditions.” See Section “Selftest Failures.” Monitor Blank? Boot Manually. See Section “Dealing with a Boot Failure.” Unrecoverable (HPMC) Error? Run Self Test Diagnostics. Failing FRU Identified? Problems Accessing Boot Device? Run Support Wave Online Tests.
Identifying LCD-Indicated Conditions This workstation uses an LCD panel to display firmware/OS progress codes. The codes, referred to as chassis codes, consist of one of the mnemonics (up to 4 charac- ters) listed below followed by a 4-digit hex number identifying the code module be- ing executed: FLT –...
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Window 2 While the pdh is being verified, the following message is displayed: ZZZZ YYYY <– line 1 Selftest Sys Bd <– line 2 Window 3 After the pdh is verified, the selftest is executed. The display changes to: ZZZZ YYYY <–...
Dealing with a Boot Failure To start this workstation from an operating system stored on a device different from the usual boot device, to boot from a different disk, or to boot from another type of device (such as a DDS tape drive), see the following situations and examples that use the Boot Console Interface.
To find the location of the bootable operating systems on the various media in the file system, use the search command. Searching for Bootable Media To list all devices that may contain bootable media, go to the Main Menu of the Boot Console Interface and then type the following at the prompt: Main Menu: Enter a command or a menu >...
Here are examples of mnemonic notation: boot with “no parameters” selects the primary boot path in Enter stable storage. boot with the alternate or alt parameter selects the alternate boot path in stable storage. Here is an example of path number notation: boot p1 attempts to boot from the second path indicated by the Enter...
Selftest Failures Chassis codes are the key to debugging selftest errors. If a failure is found during selftest, chassis codes are displayed in the LCD. The procedure for using these codes to debug a failure is as follows: 6. Using Table 4–1, find the chassis code listed on the LCD. Codes 7000 through 7Dxx are memory errors.
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Table 4–1. I/O Failure Codes (Cont.) Ostat Code Name Notes Selftest CPU 0 4030 CHASSIS_CACHE_PM_FLUSH_ TEST 4040 CHASSIS_CACHE_FLUSH Selftest CPU 0 4040 CHASSIS_CACHE_FLUSH_ERR ( 0x4040 to 0x4047 ) TEST 4050 CHASSIS_ICACHE_MISS Selftest CPU 0 4051 CHASSIS_ICACHE_MISS_ERR TEST 4060 CHASSIS_DCACHE_MISS Selftest CPU 0 4060 CHASSIS_DCACHE_MISS_ERR ( 0x4060 to 0x4066 )
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Table 4–1. I/O Failure Codes (Cont.) Ostat Code Name Notes Selftest Mem Sys 7107 CHASSIS_MMC_ERR_IN_ x = SMC number CPU_TEST Selftest Mem Sys 7200 CHASSIS_NO_SMC_AVAILABLE No SMC available Selftest Sys Bd 721x CHASSIS_SMC_FAILED SMC failed, x = smc number Selftest Sys Bd 722x CHASSIS_SMC_BAD_REV SMC bad revision,...
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Table 4–1. I/O Failure Codes (Cont.) Ostat Code Name Notes WARN 7705 CHASSIS_GOOD_MEM_GOOFY GOOD_MEM > memory size WARN 770f CHASSIS_REV_1_SMC_ WARNING WARN 7800 CHASSIS_PDT_DISABLED_ WARNING Selftest Mem Sys 7800 CHASSIS_PDT_DISABLED_ HALT WARN 7801 CHASSIS_UPDATE_SBE_ OVRWRT WARN 7802 CHASSIS_UPDATE_DUP_ENTRY Selftest Mem Sys 7803 CHASSIS_UPDATE_EEPROM_ Selftest Mem Sys...
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Table 4–1. I/O Failure Codes (Cont.) Ostat Code Name Notes WARN 855Y LASI LAN WARN 86xY LASI SE SCSI x = SCSI address WARN 87xY FW SCSI card x=FW SCSI address WARN 88xY Architected devce on IOA0. x = GSC slot number WARN 8AxY...
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Table 4–1. I/O Failure Codes (Cont.) Ostat Code Name Notes WARN a70f CHASSIS_INIT_OTHR_PATH_ Call to init_boot_device FAILED Selftest Sys Bd a0ff CHASSIS_UNKNOWN_ Code returned from IPL LAUNCH_FLT WARN a0bd CHASSIS_DEVICE_NOT_READY BBAA and BBAD are used in Manufacturing Mode by the firmware INIT c100 CHASSIS_MONARCH_...
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Table 4–1. I/O Failure Codes (Cont.) Ostat Code Name Notes INIT cc4x CHASSIS_MEM_CPU_RENDEZ- x = slave cpu number VOUS Selftest Sys Bd ccfx CHASSIS_SLAVE_BIG_ERR x = slave cpu number TEST cdyx CHASSIS_IOA_TEST y = bus number, x = IOA number INIT cdyx CHASSIS_INITIALIZE_IO...
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Table 4–1. I/O Failure Codes (Cont.) Ostat Code Name Notes Selftest sys Bd cd24 CHASSIS_CHECK_EXP_4_ERR PA error sizing slot 4 on GSC with EISA on it INIT cd25 CHASSIS_CHECK_EXP_5 PA sizing slot 5 on GSC with EISA on it Selftest sys Bd cd25 CHASSIS_CHECK_EXP_5_ERR PA error sizing slot 5 on...
Running System Verification Tests HP-UX uses an online diagnostics product called the Support Tools Manager that allows system operation verification. Three interfaces are available with the Support Tools Manager: a command line in- terface (accessed through the cstm command), a menu-driven interface (accessed through the mstm command), and the graphical user interface (accessed through the xstm command).
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Messages similar to the following appear: Verification has started on device (CPU). Verification has started on device (FPU). CSTM>Verification of (FPU) has completed. CSTM>Verification of (CPU) has completed. Type to return to the prompt after all test results are reported. CSTM>...
Running ODE-Based Diagnostics The Offline Diagnostic Environment (ODE) consists of diagnostic modules for test- ing and verifying system operation. ODE provides all the necessary functions for the user to load specified tests and interact with those tests. ODE is an ISL utility. To boot ODE: Invoke the ISL environment from the system disk.
Field Replaceable Units This chapter lists the J Class Field Replaceable Units (FRUs) and provides proce- dures and illustrations showing their removal and replacement. Use the following tools to remove or replace FRUs: Light-duty flat blade screwdriver with 150-mm (6-in.) blade #1 Posi-Drive driver Needlenose pliers ESD equipment (see the “ESD Precautions”...
Exchange and Nonexchange Part Numbers In this chapter we refer to exchange and nonexchange part numbers. You must return FRUs with exchange part numbers in exchange for a replacement FRU. Do not return FRUs with nonexchange part numbers. You may discard them. Each of the J Class modules is shown separately with a table of its own FRUs.
Table 5–1. CPU Assembly (A4081–66001) FRU List Reference Part Number Description Number A2375–69057 CPU Module, 100 MHz (256 K x 256 K cache) (J200 only) A2375–69056 CPU Module, 120 MHz (256 K x 256 K cache) (J210 only) A3398–69008 CPU Module, 120 MHz (1 MB x 1 MB cache) (J210XC only) Not Shown A2876–69002...
Figure 5–4. Power Supply Assembly Table 5–3. Power Supply (0950–2497) Assembly FRU List Reference Part Number Description Number A4487–69001 Power Supply – 750W (J282, J2240) 0950–2497 Power Supply (J200–J280 only) A4081–62023 Power Supply Extractor Assembly Field Replaceable Units 5–7...
Figure 5–8. Chassis Table 5–7. Chassis FRU List Reference Part Number Description Number A4487–69500 Backplane PCA (J282, J2240) A4081–66003 System Backplane (J200–J280) A2876–62015 System Board Carrier Assembly A4081–62003 Chassis Subassembly A4081–62004 Front Bezel A4081–40004 Peripheral Door A4081–40014 Breakaway Hinge A4081–00014 Backplane Support A4081–62025 TOC Cable...
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S1311––00004 Memory Hold Down Bracket A4081–66011 Jumper PCA 5–14 Field Replaceable Units...
FRU Removal and Replacement The procedures in this section describe how to remove system unit FRUs. Observe any notices and prerequisites for removing a FRU. Replacement is the reverse of removal, unless noted. Before performing these procedures, observe the following precautions: 1.
Front Bezel This section describes how to remove the J Class front bezel or cover of the system unit. CAUTION: Do not attempt to operate the workstation with the front cover removed. The cover is needed for proper air flow for system cooling. 1.
CPU Assembly This section describes how to remove the J Class CPU assembly. To remove the CPU assembly, open the system unit and follow these steps: 1. Remove the two screws in the center of the CPU Assembly. 2. Pull the ejector latches on the left side, top and bottom of the CPU Assembly to release the assembly from the internal connectors.
When replacing the CPU Assembly follow these steps: 1. Pull drawer latches to open position. 2. Align the top of the CPU assembly with the guides on the system unit. Then, align the bottom with the guides and slide the CPU Assembly into the system unit.
Memory DIMM Removal Before removing memory DIMMs, open the system unit and remove the CPU assem- bly. Figure 5–12 shows the memory DIMM locations on the CPU Assembly. Figure 5–13 and Figure 5–14 show how to remove the memory DIMMs. Perform the following steps to remove a memory DIMM from the system unit: 1.
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2. Remove the memory retention bracket, if equipped, shown in Figure 5–13 by removing the two attachment screws. Memory Bracket Figure 5–13. Memory Retention Bracket 3. To remove a memory DIMM, open the ejector handles on both sides of the DIMM.
Memory DIMM Installation Before installing memory DIMMs, open the system unit and remove the CPU assem- bly. Refer to Chapter 3 for information about memory DIMM configurations. 1. To install a new memory DIMM, open the ejector tabs and line the DIMM up with the guides as shown in Figure 5–15, making sure to put the notched end to- ward the white ejector handle.
Processor Module To remove or replace a processor module, perform the following procedures: Open the system unit Remove the CPU assembly NOTICES: All processors must be the same type. Therefore 100 MHz/256 K cache, 120 MHz/256 K cache, and 120 MHz/1 M cache processors are incompatible. If mixed, selftest will fail.
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Attachment Shroud Screw Attachment Screw Figure 5–18. CPU Shroud Location (J282, J2240) 2. Disconnect the fan cable from the system motherboard. Refer to Figure 5–19 or Figure 5–20. CAUTION: Be sure to reconnect the fan cable(s) when you have finished installing the processor. Failure to reconnect the fan could cause the unit to overheat and damage the processor(s).
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Remove the six screws and pull the shroud straight up. CPU Processor Module. Disconnect fan cable from system board. Figure 5–19. Removing a CPU Processor Module 5–24 Field Replaceable Units...
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Remove four screws and pull shroud straight CPU Processor Module Disconnect fan cable from system board. Figure 5–20. Removing the CPU Processor Module (J280) 4. To remove a processor module, grasp the board and pull straight up. NOTICE: If you have only one processor, it must be installed in CPU slot 0.
1. To remove the protective dust cover on the processor module, grasp and pull the cover evenly 3. To install processor module, insert the module into the guides and press firmly and evenly into place to ensure the module is properly seated. 2.
Changing the Crystal Oscillator NOTICE: This procedure does not apply to the Model J280. To install the new crystal oscillator, perform the following steps: 1. Orient the board as shown in . 2. Remove the Crystal Oscillator located at UT20 on the system board as shown in Figure 5–23, from the system board.
DIP Switch Settings (Reference Only) Before placing the CPU assembly back in the sytem, ensure that the following DIP switches are set correctly. Use Figure 5–23 to locate these switches. Switch S2 Sets the SCSI host adapter address (always set to 7). always ON always OFF always OFF...
System Motherboard To remove the system motherboard, perform the following procedures: Open the system unit. Remove the CPU assembly. Disconnect the cables from the system motherboard. Perform the following steps to remove and replace the system motherboard: 1. Remove the shroud cover. 2.
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Screws Screws Figure 5–25. Removing the System Motherboard 6. Swap the EEPROM from the old system motherboard to the new one. The EEPROM is located at Reference Designator UH6 on the motherboard. The third line on the PROM is the LANIC ID. See Figure 5–26 for the location of the PROM on the system motherboard.
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UT20 S4 S2 Figure 5–26. System Motherboard Use a prom extraction tool to remove the EEPROM from the motherboard. A new tool recommended for this is vendor part number 560PR291, available through HP’s Support Materials Organization. 7. Reverse this procedure to install the new system motherboard. Field Replaceable Units 5–31...
Battery Before removing the battery, open the system unit and remove the CPU assembly. To remove the battery, lift the clip and slip the battery out of its holder, as shown in Figure 5–27 for the Model J280 and Figure 5–28 for all other models. CAUTION: Danger of explosion if battery is incorrectly replaced.
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Figure 5–28. Removing the Calendar Battery Field Replaceable Units 5–33...
LCD Unit Before removing the LCD (Liquid Crystal Display) unit, perform the following steps: Open the system unit Remove the CPU assembly Disconnect the LCD cable from the CPU board Push in the retainer clips and pull out the LCD display unit, as shown in Figure 5–29. Figure 5–29.
Speaker Before removing the speaker, perform the following steps: Open the system unit Remove the CPU assembly Disconnect the speaker cable from the CPU board Push in the speaker retainer clips and lift out the speaker, as shown in Figure 5–30. Push in the Speaker Retainer Clips Figure 5–30.
PCI, EISA or GSC Boards Follow these steps to remove or replace a PCI, EISA or GSC board: 1. Working from the rear of the workstation, unscrew the four captive screws and pull the EISA Assembly straight out using the handle. See Figure 5–31. Figure 5–31.
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NOTICE: On the J282 EISA assembly, you must disconnect the fan interconnect cable shown in Figure 5–32. Fan Interconnect Figure 5–32. J282 EISA Assembly Field Replaceable Units 5–37...
2. Rotate the unit 90 degrees clockwise and place on a flat surface, as shown in Figure 5–33. Figure 5–33. Rotating the EISA Assembly for Option Board Access 5–38 Field Replaceable Units...
3. Unscrew one screw at the back of the cover and lift the cover up and out to re- move it from the EISA Assembly. See Figure 5–34. Figure 5–34. Removing the EISA Assembly Cover Field Replaceable Units 5–39...
4. If you are removing a board, unscrew one screw holding the board connector in place and pull it straight up. See Figure 5–35. Figure 5–35. Removing an EISA or GSC Board 5–40 Field Replaceable Units...
5. To install an EISA or GSC board in an empty slot, unscrew one screw at the top of the slot cover and pull the cover straight up to remove it. See Figure 5–36. Figure 5–36. Removing the EISA Slot Cover Field Replaceable Units 5–41...
6. Place new board in the board guides and slide firmly into the connector. Check to see the board is evenly inserted to seat properly. See Figure 5–37. Figure 5–37. Installing an EISA or Graphics Board in the EISA Assembly 7.
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8. (J2240 Only) Before installing cover, if you installed an EISA, or graphics board that is taller than a PCI card remove the small break–off block from the cover that corresponds to that slot. Refer to Figure 5–38. Figure 5–38. Remove Block from PCI Assembly Cover Field Replaceable Units 5–43...
11. Slide EISA Assembly into system unit and secure with the four captive screws. See Figure 5–41. Figure 5–41. Replacing EISA Assembly 5–46 Field Replaceable Units...
I/O Assembly Remove the four screws holding the I/O Assembly in the workstation. Grasp the han- dle and pull the assembly out, as shown in Figure 5–42. Figure 5–42. Removing the I/O Assembly Field Replaceable Units 5–47...
Removable Storage Device Before removing a storage device, open the system unit. Perform the following steps to remove any of the removable storage devices: 1. Unscrew the two captive screws on the left side of the Storage Assembly and pull down the drawer latch on the right side of the Storage Assembly, as shown in Figure 5–43.
4. Set the drawer on a flat surface. NOTICE: The EMI plate may have a fan attached to it. If it does go to step 7. EMI Plate with no Fan Attached 5. Unscrew the captive screw holding the EMI plate at the back of the removable drives and lift the plate up and out of the drawer, as shown in Figure 5–44.
EMI Plate with Fan Attached 8. Unscrew the two M3 screws holding the fan to the EMI divider as shown in Figure 5–45. Figure 5–45. Removing the Storage Assembly Fan 9. Disconnect the power distribution cable from the SCSI Disk PCA as shown in Figure 5–46.
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Power Extender Power Distribution Cable Figure 5–46. Disconnecting the Power Distribution Cable 10. Reverse these steps to reinstall the storage assembly fan on the EMI plate. 11. Unscrew the captive screw holding the EMI plate at the back of the removable drives and lift the plate up and out of the drawer.
13. Unscrew the two screws holding the drive in the storage drawer, and slide the drive out of the drawer. See Figure 5–47. Figure 5–47. Removing Drive Screws 14. Check the SCSI address/jumper settings on the replacement drive, as shown in Chapter 3 of this handbook.
Hard Disk Before removing a hard disk, open the system unit. Perform the following steps to remove any of the removable storage devices: NOTICE: To install a second hard disk or replace an existing hard disk, check the SCSI ID of that disk before installing it.
4. Set the drawer on a flat surface. 5. Disconnect the SCSI and power cables from the back of the drive. 6. Remove the two screws holding the drive mounting bracket in place and slide the drive and bracket out. See Figure 5–49. PCB side of drive Figure 5–49.
Figure 5–50. Replacing Hard Drive Mounting Bracket and Drive Orientation 2. Figure 5–51 shows two drives and their orientation in the Storage Assembly. The drives are installed with the bottom of each drive (the part of the drive that shows the printed circuits) facing towards the middle. Field Replaceable Units 5–55...
Figure 5–51. Placing Hard Drives in Storage Drawer 3. With the disk mounting bracket between the guides on each side of the Storage Assembly, slide the disk into the Storage Assembly, securing it to the drawer with two side screws. See Figure 5–51. 4.
SCSI Disk PCA Before removing the SCSI Disk PCA, open the system unit and remove the Storage Assembly Perform the following steps to remove the SCSI Disk PCA: 1. Unscrew the captive screw holding the EMI divider at the back of the removable drives and lift the plate up and out of the drawer as shown in Figure 5–51 2.
Power Supply Perform the following steps to remove and replace the power supply assembly: 1. Disconnect the AC power cable from the rear of the system. 2. Open the system unit. 3. Unscrew the screw in the center of the power supply extractor and lift the extrac- tor up.
To replace the power supply assembly, follow these steps: 1. Slide the power supply assembly into the system unit as far as it will go. Figure 5–54. Replacing the Power Supply 2. Press down on the the power supply extractor to ensure the connections are made and secure the extractor with the center screw.
The power supply distributes power through the following connectors: CPU Board Connector (11-pin) Floppy Drive Connector (2-pin) Hard Disk Drive Connector (4-pin) Fan Connector on CPU board (2-pin) Table 6–1 lists the pinouts for the power supply connector to the CPU board: Table 6–1.
Table 6–4 lists the pinouts for fan power: Table 6–4. Fan Power Pinouts Pin Number Description Wire Color +12V GROUND Table 6–5 lists the pinouts for the LED connector: Table 6–5. LED Power Pinouts Pin Number Description Wire Color Cathode (–) Anode (–) Figure 6–2 shows the system unit block diagram.
Boot Console Interface The Boot Console Interface provides an “interactive” environment after the power-on sequence. Accessing the Boot Console Interface To access the boot console interface, follow these steps: Close any files and applications on your workstation. Follow your normal shutdown procedure. For more information on shutting down your workstation, see Using your HP Workstation.
Boot Console Menus The boot console menus follow, showing the various tasks you can perform and the information available. The shortened version of all commands is indicated by the upper case letters. Help is available for all the menus and commands by using either help, he, or ? and the menu or command you want help on.
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–––––– Information Menu –––––––––––––––––––––––––––––––––––––––––––– Command Description ––––––– ––––––––––– Display all system information BootInfo Display boot-related information CAche Display cache information COprocessor Display coprocessor information EIsa Display EISA slot information FWrVersion Display firmware version MEmory Display memory information MOnitor Display monitor type in EEPROM PRocessor Display processor information BOot [PRI|ALT|<path>]...
Searching for Bootable Media To list all devices that may contain bootable media, follow the directions in “Acces- sing the Boot Console Interface” earlier in this chapter, and then type the following at the prompt: Enter Main Menu: Enter a command or a menu > search ipl The search may turn up more devices than there are lines on your display.
Displaying and Setting Paths A path is the hardware address of a device that is attached to the I/O system of your workstation. The path command sets the system paths shown in Table 9–1: Table 9–1. System Paths Path Type Device primary or pri Your workstation’s default boot device...
To display the current setting for a particular system path, follow the directions in “Accessing the Boot Console Interface” earlier in this chapter, and then type the fol- lowing at the prompt: Enter Main Menu: Enter a command or a menu > path path_type where path_type is one of the path types listed in Table 9–1.
graphics0 Graphics device in slot0. If using a Dual Graphics Card, this is the port to the right on the card when facing the back of the workstation. graphics1 Graphics device in slot1. If using a Dual Graphics Card, this is the port to the right on the card when facing the back of the workstation.
Figure 9–2. EISA/GSC Slots from Outside the System Unit Physical slot 0 is always reserved for graphics cards only. monitor lets you change your workstation’s graphics configuration before you re- place your monitor. For information about changing the configuration after you re- place your monitor, see “Changing Your Monitor Type”...
MONITOR INFORMATION Slot # State Resolution Frequency Class ––––––––– –––––––– ––––––– –––––––––– ––––––––– ––––– graphics0 f8000000 Present 1280x1024 75Hz VESA graphics1 f4000000 Empty graphics2 f6000000 Empty graphics3 fa000000 Present 1024x1024 72Hz Current Console Path: GRAPHICS0 Stable Store Console Path: GRAPHICS0 In this example, the graphics cards are configured as follows Graphics slot 0 Dual Graphics Card...
MONITOR INFORMATION Type Resolution Frequency –––– –––––––––– ––––––––– 1280x1024 72Hz 1024x768 75Hz 1024x768 70Hz 1024x768 75Hz Flat Panel 1280x1024 60Hz 1024X768 60Hz 640X480 60Hz 1280X1024 75Hz VESA 1024X768 75Hz VESA 800X600 75Hz VESA 640X480 75Hz VESA 1280X1024 72HZ GrayScale 1280X1024 50HZ Enter monitor type selection from list above (or ’x’...
Slot # Slot State Device Information ––––––– –––––––––––– –––––––––––––––––––– Empty Empty Unconfigured HWP1850 Empty Empty Configured INP0100 In the table above, “Slot #” is the slot number as seen on the back of your worksta- tion; “Slot State” is the current state of any card in each slot; and “Device Informa- tion”...
When fastboot is disabled (set to off), more extensive memory testing and I/O inter- face testing is performed during the self tests, causing the boot process to take longer. If you are experiencing difficulty in booting your workstation, set fastboot to off and reboot the system.
Displaying PIM Information The pim command allows you to display the most recent PIM information for the specified fault type. To display PIM information for a specific fault, from the Service Menu type the following at the prompt: Enter Service Menu: Enter command > pim processor_number You can use pim in the following ways: pim –...
Invoking ISL from the Boot Console Interface Perform the following steps to invoke ISL from the boot console interface: Follow the directions in “Accessing the Boot Console Interface” earlier in this chapter, and then type the following at the prompt: Enter <device>...
listautofl or lsautofl – lists the contents of the (HP-UX) autoboot file. support – boots the Support Tape from the boot device. readss – displays 4 bytes (one word) from Stable Storage. The readss com- mand requires a decimal number between 0 and 255 to address four bytes in Stable Storage.
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If you are using a graphics monitor for the updating procedure characters may not be printed to the screen correctly because the character set for graphics printing is stored in the machine ROM that is overwritten. We recommend that you use a monitor con- nected to an RS-232 port for updating your workstation.
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Index boot command notations, 4-7 boot console interface accessing, 9-1 allowable memory configura- autoboot, 9-11 tions, 4-29 autosearch, 9-11 audio connectors commands headphone OUT, 1-13 eisa, 9-10 line IN, 1-13 monitor, 9-8 microphone IN, 1-13 fastboot, 9-11–9-12 menus, 9-2–9-3 audio features, 1-13 boot console user interface audio specifications, 1-14 booting the workstation, Initial...
removal and replacement cont. CD-ROM drive, 1-5 DDS-2 tape drive, 1-9–1-10 processor module, 5-19 DDS-DC tape drive, removable storage device, 1-7–1-10 5-39, 5-42, 5-47 floppy drive, 1-10 speaker, 5-28 LEDs, system unit, 1-3, 1-4 system motherboard, 5-22, 5-24 information command, 9-12 required tools, 5-1 Initial System Loader, 4-6 functional diagram of system, 6-3...
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manuals keyboard connector, 1-15 installation, 7-1 keyboards reference, 7-1 ITF, 1-18 service, 7-1 key equivalents, 1-19–1-20 memory, allowable configura- PC and ITF, 1-18 tions, 4-29 PS/2, 1-18 memory configuration, 3-10–3-11 memory configurations, 4-29 memory failures, 1-21, 4-9 memory SIMM, removal and re- LAN station address, displaying, placement, system unit, 5-16, 9-12...
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floppy drive, 6-2 hard disk drive, 6-2 LED power, 6-3 ODE, 9-15–9-16 running diagnostics, 4-32 power connector, 1-16 test modules power distribution diagram, 6-1 lasdiag, 4-32 ldiag, 4-32 power supply pinouts mapper, 4-32 CPU, 6-2 memtest, 4-32 fan, 6-3 update, 4-32 floppy disk drive, 6-2 updating sytem firmare, 9-15 hard disk drive, 6-2...