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P/N 4730-0230-01

HDI 3000 Field Service Manual Diagnostics Supplement Service Manual 4730-0230-01 Rev A consists of: HDI 3000 Service Manual Diagnostics Supplement P/N 4720-0230-01 Rev A (August 1997)

August 1999

Rev B

Incremental updates may occur to this manual after its initial release. Pages changed or added after the initial release can be identified by a change date located at the bottom of the page. No change date on a page indicates that page is the original release and has not been changed (hardcopy version only). A change bar ( ) located in the outside margin of a page denotes the specific part of a page that was changed on that date. The List of Effective Pages included herein (hardcopy version only), indicates the change dates for each page. ATL Ultrasound P.O. Box 3003 Bothell, WA 98041-3003 USA Copyright E 1997 by ATL Ultrasound All rights reserved Printed in USA

“ATL”, “Advanced Technology Laboratories”, and ”HDI” are registered trademarks of ATL Ultrasound “High Definition” and “Tissue Specific” are trademarks of ATL Ultrasound. Non-ATL product names may be trademarks or registered trademarks of their respective owners.

How to Use This Manual Audience This manual supports the field service maintenance and repair of the HDI 3000 system. The user of this document is a qualified ultrasound electronics technician who has completed training classes on the system and its peripherals.

Manual Organization This manual has been formatted and distributed in two versions: for laptop-computer-screen viewing and for printed-page viewing. Although both versions contain identical information, the laptop page numbers and printed page numbers do not always correspond to each other. Use paragraph, figure, and table numbers when referring others to specific parts of this manual. In the laptop version, the table of contents, index entries, and cross references use hypertext links to provide access to the referenced information.

i

19A 9A--1

Diagnostics

Introduction Diagnostic information for the HDI 3000 is contained in Section 9 of the HDI 3000 Field Service Manual Volume 2, Procedures, (P/N 4720-0015-03 or later) and in this Diagnostics Supplement. Section 9 of the field service manual contains information on core bootup fault isolation, system alerts, and system diagnostics. The information in Section 9 is applicable to all service personnel. The Diagnostics Supplement expands upon the general diagnostic information in the service manual and provides information on remote diagnostics (Service Access Diagnostics). The information in the Diagnostics Supplement is applicable only to ATL field service personnel and others with remote access to diagnostics. The Diagnostics Supplement sections can be inserted directly into the field service manual after Section 9. Section 9A contains information on general fault isolation, channel walk tests, ECG tests, up9A--1

grade procedures, and other information. Section 9B contains fault isolation tables to quickly reference suspected Field Replaceable Units (FRUs). Section 9C contains information on the capabilities of Service Access Diagnostics.

9A--2

General Fault Isolation After the system boots up, the preferred method of troubleshooting the system is to access the diagnostics and to run the following tests in the order listed. 1. 2D End-To-End Test 2. 2D Back-End Test 3. Color End-To-End Test 4. Color Back-End Test 5. Comprehensive Test 6. Channel Board Fault Isolation 7. Channel Walk Test

9A--2

9A--2.1

Error Code Interpretation When a system dialog alert or run-time alert is displayed, a description of the error code is displayed with the error code at the bottom of the dialog box. There are approximately 20 reportable error codes. The error codes are 20-digit numbers formatted as follows: abcd efgh ijkl xxxxxxxx Where: ab = PCB reporting the error. (Refer to Table 9A--1.) cd = processor reporting the error on the PCB. (Refer to Table 9A--1.) e through l = 32 bit hex error ID unique to the reported error. xxxxxxxx = data associated to the error and applicable only to engineering. Error codes in this manual will omit these last eight digits.

9A--3

Table 9A--1. PCB and Processor Error Codes PCB Codes “ab” Code

PCB Reporting Error

02

ADAPTR

03

AIFOM1

04

AIFOM2

11

CPANEL

12

CPU

19

FEC

1e

MPS

1f

PCM

20

PIM

21

PSP1

23

SSP1

24

SSP2

25

SSP3

9A--4

Processor Codes “cd” Code Processor Reporting Error 01

SCIP

02

MOP

10

ADAPTR TRAP

11

ADAPTR PAP

NOTE: When “ab” is the same as “ef” a PCB has sent an unsolicited message to the system software. For example, error code “1902 1902 0124 02f3e754” indicates an error sent by the FEC MOP to the system software. NOTE: Only 20 run-time alerts and system dialog alerts report to the monitor, however, there are a number of errors that may occur and report only to the error log. Refer to paragraph 9A--3.3 or 9A--3.4. Refer to the diagnostic tables in Section 9B for a list of the error codes and the PCBs that may be responsible for each error. 9A--5

NOTE: Only 20 run-time alerts and system dialog alerts report to the monitor, however, there are a number of errors that may occur and report only to the error log. Refer to paragraph 9A--3.3. CAUTION Most error codes may not be caused by the PCB reporting the error. For example, a front end error code may actually be caused by the AIM, Channel PCBs, or Scanhead Select PCB.

9A--2.2

2D Tests The 2D End-To-End Test fakes a TEST Linear 5.0 scanhead and is used to verify the 2D data path from the FEC to the monitor. The 2D Back-End Test also fakes a TEST Linear 5.0 scanhead but verifies only the “back-end” of the 2D End-To-End Test data path (from the IMEM PCB to the monitor). During the 2D Back-End Test, the CPU injects a known test pattern into the IMEM PCB. The test pattern simulates data that would be expected to come from the FEC. 9A--6

If the 2D End-To-End Test fails, perform the 2D Back-End Test. If both tests fail, the problem is in the data path between the IMEM PCB and the monitor. If only the 2D End-To-End Test fails, the problem is in the data path between the front end and the IMEM PCB. The 2D End-to-End Test and the 2D Back-End-Test each may be run in less than one minute. -

Perform the following procedure to run the 2D End-To-End Test or 2D Back-End Test: NOTE: If the Comprehensive Test has been run, reboot the system before executing the 2D End-To-End or 2D Back-End Test. 1. Verify at least one scanhead connector is not being used. 2. Press and hold Superkey, then press zero from the keyboard. The Machine Diagnostics Menu is displayed.

9A--7

3. In the User field, type the appropriate information using the keyboard, and press RETURN. The cursor moves to the Password field. 4. In the Password field, type the appropriate information using the keyboard. 5. Use the trackball to move the cursor to OK. Press SELECT. The Diagnostic Tools Menu is displayed on the left of the display with the following options: User Login Tests, Utils. Error Log Configuration Options Fake Scanheads Close 6. Select Tests, Utils. from the menu. Press SELECT. 9A--8

7. Select Machine with the trackball. Quickly press SELECT twice. 8. Select 2D Ultrasound. Select the diamond to the left of the Test & Utilities option at the bottom of the display. Press SELECT. A menu is displayed with the Back-End-Test and the End-To-End Test options. 9. Select the desired test. Select the Execute button. Press SELECT. The test status is displayed on the monitor.

9A--2.3

Color Tests The Color End-To-End Test fakes a TEST Linear 5.0 scanhead and is used to verify the color data path from the IMEM to the ADAPTR to the SSP and back to the IMEM and on to the monitor. (The fake scanhead sets up the front end to pass the correct imaging parameters. A test pattern of I and Q data is generated on the CPU PCB and passes through the AIFOM where the correct header information is attached.) From the AIFOM, the I and Q test pattern follows the same data path as other color data. 9A--9

The Color Back-End Test also fakes a TEST Linear 5.0 scanhead but verifies only the “back-end” of the Color End-To-End Test data path (from the IMEM to the monitor). During the Color Back-End Test, the CPU injects a known test pattern into the IMEM. The test pattern simulates data that would be expected at the IMEM. Perform the Color End-To-End Test to verify the entire color data path is functional. If this test fails, perform the Color Back-End Test. If both tests fail, the problem is in the data path between the IMEM PCB and the monitor. If only the Color End-To-End Test fails, the problem is in the data path between the AIFOM and the IMEM PCB. Both the Color End-To-End Test and the Color Back-End Test display similar color test patterns in the center of the linear display. The Color End-to-End Test and the Color Back-End Test each may be run in less than two minutes. During the Color End-To-End Test, the system clock stops updating for approximately 20 to 25 seconds. During the Color Back-End Test, the system clock stops updating for approximately 4 to 6 seconds.

9A--10

-

Perform the following procedure to run the Color End-To-End Test, or Color Back-End Test: NOTE: If the Comprehensive Test has been run, reboot the system before executing the Color End-To-End or Color Back-End Test. 1. Perform steps 1 through 7 of the 2D End-To-End or 2D BackEnd Test procedure (paragraph 9A--2.2). 2. Select Color Ultrasound. Select the diamond to the left of the Test & Utilities option at the bottom of the display. Press SELECT. A menu is displayed with the Color Back-End Test, and the Color End-To-End Test options. 3. Select the desired test. Select the Execute button. Press SELECT. The test status is displayed on the monitor.

9A--11

9A--2.4

Comprehensive Test Refer to Section 9, Diagnostics of the HDI 3000 Field Service Manual Volume 2 Procedures (P/N 4720-0015-03 or higher) for a description of the Comprehensive Test.

9A--2.5

Channel Board Fault Isolation Use the following procedure to isolate image artifacts to a specific Channel Board, scanhead, or the Scanhead Select PCB. 1. Verify the system has booted up. 2. Connect scanheads to all three scanhead connectors. 3. Perform the Channel Walk Utility (paragraph 9A--2.6) using scanheads connected to all three connectors.

9A--12

a. If image artifacts are seen at all three scanhead connectors using multiple scanheads, the problem has been isolated to a specific Channel PCB. b. If the test results are bad with a scanhead connected to only one connector, either the scanhead or the Scanhead Select PCB is bad. NOTE: You must exit diagnostics and reboot the system when re-selecting a scanhead. 4. Swap two of the scanheads. a. If the problem moves with the scanhead from one connector to the other, replace the scanhead. b. If the problem does not move with the scanhead, replace the Scanhead Select PCB.

9A--13

9A--2.6

Channel Walk Utility The Channel Walk Utility is used to check receive and transmit functions of individual channels or boards (Table 9A--2). Table 9A--2.

Chan Walk Test

Chan Walk Test Receiver and Transmitter Status Receiver Status 1

Transmitter Status 2

Receive Walk 1 Board

All receivers on selected board turned on. All others off.

All transmitters should be on. Select “T” to turn them on.

Receive Walk 0 Board

All receivers on selected board turned off. All others on.

All transmitters should be on. Select “T” to turn them on.

Receive Walk 1 Channel All receivers turned off except for selected receiver.

All transmitters should be on. Select “T” to turn them on.

Receive Walk 0 Channel All receivers turned on except for selected receiver.

All transmitters should be on. Select “T” to turn them on.

Transmit Walk 1 Board

All receivers should be turned on. Select “R” to turn them on.

All transmitters on selected board turned on. All others off.

Transmit Walk 0 Board

All receivers should be turned on. Select “R” to turn them on.

All transmitters on selected board turned off. All others on. 9A--14

Chan Walk Test

Receiver Status 1

Transmitter Status 2

Transmit Walk 1 Channel All receivers should be turned on. Select “R” to turn them on.

All transmitters turned off except for selected transmitter.

Transmit Walk 0 Channel All receivers should be turned on. Select “R” to turn them on.

All transmitters turned on except for selected transmitter.

1. The receiver status is independent of the transmitter status. Turning on the receiver does not affect the transmitter. 2. The transmitter status is independent of the receiver status. Turning on the transmitter does not affect the receiver.

9A--15

-

To use the Channel Walk Utility: 1. Connect and select a scanhead to a scanhead. 2. Verify the system has booted up and is imaging. 3. Set the system gain and TGC settings to maximum. 4. Press Superkey and zero and type the correct username and password to access the Diagnostic Tools Menu. Use the trackball to select Tests, Utils. from the menu. Press SELECT. The following menu items are displayed: External Environment... Machine... 5. Select Machine. Press SELECT twice. The following individual test options are displayed: 2D Ultrasound Color Ultrasound 9A--16

Doppler Ultrasound M-Mode Ultrasound Image Bus Internal Ethernet RF Bus SCSI Power Subsystem... Display Subsystem... Control Subsystem... Processing Subsystem... Acquisition Subsystem... 6. Select the Acquisition Subsystem from the list. Verify it is highlighted with reverse video. 7. Select the diamond to the left of the Test & Utilities option at the bottom of the display. Press SELECT. The display appears as in Figure 9A--1. 9A--17

8. Select Execute and press SELECT. The display appears as in Figure 9A--2. 9. Move the cursor to the blank box under the word ChanWalk. Press SELECT. The displayed cursor changes from a shaded box to an “I” shape. 10. Press the “h” key on the keyboard to display the help screen (Figure 9A--3). The first six items on the displayed list indicate the capabilities of the ChanWalk Utility. The remaining items indicate the options available to the service representative. (Refer to step 13.) NOTE: The most commonly used test within this utility is to check for receiver gain or “drop-out”. Press the greater than or less than keys (> or ” to increment an individual channel or board D “” or “” to increment an individual channel or board D “Englis_N< is not exactly output. The SYSCPU Serial console message:

TBD.

Attempted: 0x56121000 (CDiagsMachine_Test)-Software Version: 4252--0720--16 021.01 is not exactly output.

9B--69

9C Local/Remote Diagnostics Access 9C--1

Introduction Local and remote access to system diagnostics is controlled by system software. Local access to diagnostics (access by someone standing in front of the system) is controlled by the Service Access Diagnostics machine option (SAD). Remote access to system diagnostics(modem access by the Technical Support Group) is controlled by Remote Diagnostics.

9C--2

Service Access Diagnostics The Service Access Diagnostics machine option was implemented with 038.15 software to control field-access to system diagnostic tests and utilities and other diagnostic information. The option is disabled on all domestic (U.S.) systems shipped with 038.15 software and above (restricting access to system diagnostic capabilities). It is enabled on international systems (no change in diagnostic capabilities from previous software versions). 9C--1

The Service Access Diagnostics machine option was implemented by domestic Customer Support to encourage CSRs and BMETs to pass the “triage” of a problematic system to the Bothell-based Technical Support Group (TSG) which will troubleshoot the system using remote diagnostics. This troubleshooting approach provides a more timely response for the customer, better support for CSRs, and gives ATL more control over machine maintenance and repair. Disabling Service Access Diagnostics does not affect diagnostics used by the CSR to setup the system or install an upgrade. It also does not affect customer access to User Diagnostics. However, disabling Service Access Diagnostics removes the following options from system diagnostics: D Tests, Utils., Error Log, and Fake Scanhead menu items from the CSR diagnostics. (The User Login, Configuration, and Options menu items are available in CSR diagnostics for upgrades and installation of machine options whether the Service Access Diagnostic machine option is disabled or enabled.)

9C--2

D Access to VxWorks and system messages via the serial port after bootup. Bootup messages will be available regardless of whether Service Access Diagnostics is enabled or disabled. D Second page of all system dialog alert and run-time alert messages. Disabling the Service Access Diagnostics machine option also adds temporary field access to Tests, Utils., Error Log, and Fake Scanhead menu items. (Restores diagnostic capabilities of previous software versions.) Disabling the Service Access Diagnostics does not affect access to user diagnostics via the SETUPS key on the keyboard. Access to Service Access Diagnostics is by enabling the machine option for permanent continuous access or by obtaining an ”Access Key” for temporary access. Access by either means requires entry of the correct username and password.

9C--3

9C--2.1

Temporary Field Access to Diagnostics Temporary field access to diagnostics and the serial port may be necessary to support clinical trial systems, systems at shows, or for other reasons. This is facilitated by the Diagnostics menu option on the Service Access Diagnostics menu (accessed using Superkey-0). When selected, the Diagnostics menu option displays the Diagnostic Feature Access menu which prompts for an “Access Key” to be entered. The Access Key is generated by the Technical Support Group. Once the key is entered from the keyboard, the Service Access Diagnostics option is enabled for the given date. The default date is the current date, however, the date can be changed. Keys are unique per machine and date, and may not be re-used. Clinical trial and show systems, etc., may have the Service Access Diagnostics machine option enabled by default to allow for extended diagnostics access.

9C--4

-

To obtain temporary field access to diagnostics: 1. Depress and hold Superkey then press zero on the keyboard. The Machine Diagnostics menu is displayed. 2. In the User field, type the appropriate information using the keyboard. Press RETURN. The cursor moves to the Password field. 3. In the password field, type the appropriate information using the keyboard. 4. Use the trackball to move the cursor to OK. Press SELECT. The Service Access Diagnostics Menu is displayed (Figure 9C--1). 5. Move the cursor to Diagnostics. Press SELECT. The Diagnostic License Setup menu is displayed (Figure 9C--2).

9C--5

J. Smith General Hospital

123456789000000 C4--2 40R Abd/General

02 Jul 97 4:35:26 pm

Tls 0.2 MI 1.0 16 Hz 13.8cm

HDI

User Login Configuration Options Diagnostics

Close

Figure 9C--1.

Service Access Diagnostics Menu 9C--6

J. Smith General Hospital

123456789000000 C4--2 40R Abd/General

02 Jul 97 4:35:26 pm

Tls 0.2 MI 1.0 16 Hz 13.8cm

HDI

User Login Configuration Options Diagnostics

Diagnostics License Setup Date of Access: (mm/dd/yy) Access Key:

07/02/97

I

Close Cancel

Figure 9C--2.

OK

Diagnostics License Setup Menu 9C--7

6. Call the Technical Support Group to obtain the Access Key. 7. Move the cursor to the Access Key field. Press SELECT. 8. Type the 8-digit Access Key from the system keyboard, paying attention to whether the characters are upper or lower case. (Alpha characters in the Access Keys are case sensitive.) 9. Select OK. Press SELECT. The Diagnostic Tools Menu is displayed. The system is capable of all diagnostic functions at this point. Refer to Section 9A for information. NOTE: Temporary access to diagnostics expires the first time power is cycled after midnight of the day of issue. Once expired, a new Access Key must be generated by the Technical Support Group.

9C--8

9C--3

Remote Diagnostics Remote Diagnostics adds the ability to remotely execute diagnostic tests (paragraph 9C--3.1) and the ability to keep the modem continuously connected without reprogramming the modem (paragraph 9C--3.2). (The system serial port output is disabled at the beginning of system bootup if the system detects a modem.) Before using Remote Diagnostics the modem operating parameters must be set to the system communication settings. Refer to the modem initialization procedure (paragraph 9C--3.3).

9C--3.1

Remote Test Execution Software version 038.15 enables the system to execute tests and other functions for Remote Diagnostics. The executable tests and functions include: D 2D and Color End-to-End Tests D PSP Primary and Secondary Buffer Tests D Execution of any test (given Test Component and Name) D Test looping/aborting 9C--9

Also, the System Diagnostic Tools (SDT) support a batch mode which automatically executes any test, Vx Works, or Unix command and saves the results to a log file. This feature is used by the System Diagnostics group to execute tests on lab systems and to partially automate testing of production machines. Remote Test Execution is available only from Bothell Technical Support Group to remote systems. However, it may be necessary for CSRs to connect systems for remote access. Refer to the procedure below and Figure 9C--3 for information. -

To connect a system for remote test execution by the Technical Support Group: 1. Move the system to an analog phone line. 2. Turn on power to the system. 3. Connect the modem to the system and to the phone line as shown in Figure 9C--3. 9C--10

4. Turn on power to the modem. 5. Call TSG and provide them with the phone number of the direct line to the system. TSG will dial the system and remotely interrogate it as necessary. 6. When remote testing is complete, disconnect the system from the modem and the phone line.

9C--11

HDI 3000

25 pin to 9 pin adapter

CPU PCB Serial port (9 pin DSUB)

Modem

Sun System

115V Power Archive

Sun System

Modem RS232 cable (25 pin to 25 pin DSUB)

Located at remote site.

Modem Phone jack to analog phone line

UNIX Network

Modem

1. Sun computer systems and UNIX network are located in ATL Product Generation Dept. 2. PC’s and PC network are located in ATL Technical Support.

Figure 9C--3.

Server (Sun)

PC 2

PC Network

PC 2

System Interconnect Diagram for Remote Diagnostics 9C--12

9C--3.2

Continuous Modem Connection to the Serial Port For systems with software version 036.06 and below, the modem must be turned off when it is not being used to protect it from being reprogrammed by the serial port output. For systems with software version 038.15 and above, the system software checks for presence of the modem. If a modem is attached and is not on-line, the serial port output is disabled and the modem is reset. This sequence of events happens twice during bootup and enables the modem to remain attached to the system without being inadvertently reprogrammed.

9C--3.3

Modem Initialization Before using the modem for Remote Diagnostics, the modem must be initialized. Initialization is required to set modem operating parameters to values that the system will accept. These parameters include baud rate, parity, start bits, and etc. The initialization process must be done only once. After the initialization process is completed the modem can be used for Remote Diagnostics on any HDI 3000 system. 9C--13

-

To initialize the modem: 1. Connect the modem to the serial port on the rear of the system. 2. Press SETUPS on the system keyboard. 3. Select Diagnostics from the lower left corner of the display. Press SELECT. The user diagnostics menu is displayed. 4. Select Initialize Modem from the lower left corner of the display. Press SELECT. The system then sends a string of commands through the serial port to the modem. The modem is then programmed to the correct communications parameters. 5. Disconnect the modem from the system. 6. Reboot the system.

9C--14

Index Numbers 2D Tests, 9A--6

A Automatic Firmware Flashing, 9A--51

B Back--End Test, 2D, 9A--2 , 9A--7 Back--End Test, Color, 9A--2 , 9A--9 Bootup Looping Mode Display, 9A--45 Index--1

Index Bootup Status Show Report, 9A--50 Show Report Display, 9A--52 Bottom, Error Log, 9A--76

C Chan Walk Test, Receiver and Transmitter Status, 9A--14 Channel Board Fault Isolation, 9A--2 Channel Walk Test, 9A--2 Receive Walk 1 Board Display, 9A--27 Channel Walk Utility, 9A--14 Help Screen, 9A--22 Parameter Settings, 9A--26 Receive Commands, 9A--23 Selection Screen (30.05 and Above), 9A--21 Index--2

Setup, 9A--23 Test Screen, 9A--20 Transmit Commands, 9A--24 Clear Log, 9A--74 Color Tests, 9A--9 Comprehensive Test, 9A--2 , 9A--12 Sub-Test Menu Path, 9A--104 Sub-Tests, 9A--98 Configuration Expected PCB Part Number, 9A--81 Installed PCB Part Number, 9A--81 Machine Config. Display, 9A--84 , 9A--85 Save Installed as Expected, 9A--81 Continuous Modem Connection to Serial Port, 9C--13 Index--3

Index CSR Diagnostics, 9A--31 Accessing Diagnostic Tools Menu, 9A--31 Close, 9A--31 , 9A--94 Configuration, 9A--31 , 9A--81 Error Log, 9A--31 Fake Scanhead, 9A--31 , 9A--89 Options, 9A--31 , 9A--86 Tests, Utils., 9A--31 , 9A--32 User Login, 9A--31 , 9A--32

D Diagnostic Tables, 9B--1 Diagnostics Accessing Individual Tests, 9A--95 Bootup Tests Indicate Failure, 9B--7 Index--4

Core Bootup -- SYSCPU Console Output Fault Symptoms, 9B--60 Introduction, 9A--1 , 9C--1 , 9C--4 Machine Comprehensive Test Fails, 9B--49 Machine Functional Test Fails, 9B--45 Operational Fault is Indicated, 9B--45 Run-time Alert Appears, 9B--13 Top Level Fault Indications, 9B--2 User Interface Fails to Boot, 9B--3 Disable Flash Mismatch Notification, 9A--51 Disable Next Boot Flash Mismatch Notification, 9A--51 Display Feature List, System Feature History, 9A--36 Download Error Log to Optical Disk, 9A--106 , 9A--109 Download System to Optical Disk, 9A--106 , 9A--110

Index--5

Index E ECG Gain Tests, 9A--28 Enable Flash Mismatch Notification, 9A--51 Enable/Disable Looping of Booting, 9A--43 End--To--End Test, 2D, 9A--2 , 9A--7 End--To--End Test, Color, 9A--2 , 9A--9 Error Code Interpretation, 9A--3 Error Description Box, 033.27 and Below, 9A--62 Error Id’s, 9A--70 Error Information Box, 033.27 and Below, 9A--61 Error Log, 9A--5 , 9A--6 , 9A--53 033.27 and Below Error Description Box, 9A--62 Error Informaiton Box, 9A--61 Index--6

Errors Box, 9A--59 Properties, 9A--63 034.17 and Above, 9A--66 Bottom, 9A--76 Clear Log, 9A--74 Error Id’s, 9A--70 Error Window, 9A--68 Group by Fault, 9A--69 Log Button, 9A--76 Menu Bar, 9A--69 Print, 9A--74 Search List, 9A--70 Stack Trace, 9A--72 Summary, 9A--77 Sys Data, 9A--72 Index--7

Index Top, 9A--76 User Events, 9A--70 Close, 9A--79 Display, 9A--53 033.27 and Below, 9A--54 034.17 Software and Above, 9A--66 Display Figure, 034.17 Software and Above, 9A--67 Hide, 9A--79 Printing Options Figure, 9A--75 Properties Display, 9A--60 Search List Criteria Figure, 9A--71 Summary Figure, 9A--78 System Data Used at Power Down Figure, 9A--73 Error Log Menu Bar, 034.17 and Above, 9A--69 Index--8

Error Log Procedures, 9A--79 033.27 and Below, 9A--55 Character String Search, 9A--57 Displaying 25 Previous User Events, 9A--58 Error Selection, 9A--56 Scroll Bar Use, 9A--56 Specific Error Number Search, 9A--57 Character String Search, 9A--55 , 9A--80 Displaying 25 Previous User Events, 9A--55 Error Selection, 9A--55 , 9A--79 Scroll Bar Use, 9A--55 , 9A--80 Specific Error Number Search, 9A--55 Error Log Properties, 033.27 and Below, 9A--63 Error Log Reference Information, 033.27 and Below, 9A--59 Error Window, 034.17 and Above, 9A--68 Index--9

Index F Fake Scanhead, 9A--89 Selection Display, 9A--92 Tissue Specific Setups Display, 9A--93 Fault Isolation Channel Board, 9A--12 General, 9A--2 File Management Utilities, 9A--106

G Group by Fault, 9A--69

L Log Button, Error Log, 9A--76 Index--10

M Machine Options Software Backup on Hard Drive, 9A--106 , 9A--111 Machine Options Software Restore on Hard Drive, 9A--106 , 9A--112 Modem Initialization, 9C--13 Module Flash Loading Always Done, 9A--46 Disabled, 9A--46 On Next Boot, 9A--46

O Options Authorized, 9A--86 Display, 9A--88 MO Files During Upgrade, 9A--87 Index--11

Index Unauthorized, 9A--86

P PCB Bootup Error Status, 9A--49 Bootup Status, 9A--50 Replacement, 9A--46 PCB LED, Card Cage Locations, Front, 9C--6 , 9C--7 , 9C--12 Print, Error Log, 9A--74

R Remote Diagnostics, 9C--9 Continuous Modem Connection to Serial Port, 9C--13 Modem Initialization, 9C--13 Remote Test Execution, 9C--9 Index--12

Remote Test Execution, 9C--9

S Search List, 9A--70 Service Access Diagnostics, Automatic Firmware Flashing, 9A--51 Stack Trace, 9A--72 Summary, 9A--77 Sys Data, 9A--72 System Backup on Hard Drive, 9A--106 , 9A--113 System Restore on Hard Drive, 9A--106 , 9A--114 System Upgrade, 9A--46 From Optical Disk, 9A--115

Index--13

Index T Tests, Utils. Menu, 9A--32 Comprehensive Test, 9A--33 , 9A--35 Display Feature List, 9A--33 , 9A--35 Enable/Disable Looping of Booting, 9A--33 , 9A--43 Module Flash Loading Always Done, 9A--33 , 9A--46 Module Flash Loading Disabled, 9A--33 , 9A--46 Module Flash Loading On Next Boot, 9A--33 , 9A--46 PCB’s Bootup Error Status, 9A--33 , 9A--34 , 9A--49 PCB’s Bootup Status, 9A--33 , 9A--34 , 9A--50 Show Bootup Status Report, 9A--33 , 9A--34 , 9A--50 Top, Error Log, 9A--76

Index--14

U User Events, 9A--70

V Verify System Files, 9A--106 , 9A--114

Index--15