Сигейт F3 Serial Port Diagnostics
Сигейт F3 Serial Port Diagnostics
Сигейт F3 Serial Port Diagnostics
Level 1 and 2
"BufferCompare, c[SrcBlk],[RefBlk],[NumBlks],[ContOnErr]";
Level F
"BufferCompare, V[SrcBlk],[RefBlk],[NumBlks],[ContOnErr]";
Input Parameters:
0 - First Source Buffer Block Number.
If this parameter is entered, it specifies the number of the first buffer block that contains the source data to be compared.
Type: Unsigned 16-bit value
Range: 0 to Buffer Size (in blocks) minus 1
Default: If this parameter is not entered, the first block of the Diagnostic Read Buffer will be the first
source block.
1 - First Reference Buffer Block Number.
If this parameter is entered, it specifies the number of the first buffer block to which the source data is
to be compared.
Type: Unsigned 16-bit value
Range: 0 to Buffer Size (in blocks) minus 1
Default: If this parameter is not entered, the first block of the Diagnostic Write Buffer will be the first
reference block.
2 - Number of Buffer Blocks to Compare.
This parameter specifies the number of consecutive buffer blocks to be compared.
Type: Unsigned 16-bit value
Range: 1 to maximum number of buffer blocks
Default: If Parameters 0, 1 and 2 are not entered, the entire Diagnostic Read Buffer will be compared to
the Diagnostic Write Buffer. If Parameter 2 is not entered and either Parameter 0 or 1 is entered, a single buffer block will be compared.
3 - Continue on Error option.
If this parameter is entered, the compare operation will compare all of the specified bytes and display
an error for each miscompare that is detected. If this parameter is not entered, the compare operation
will stop when the first miscompare is detected.
Type: Unsigned 8-bit value
Range: 0 to 0xFF
Default: None
Output Data: If an error occurred, the following information will be displayed:
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
If the error is a buffer miscompare, the following additional information will be displayed:
"at SrcBlk = cccc Addr = dddddddd Data = ee, RefBlk = ffff Addr = gggggggg Data = hh"
where
cccc is the number of the Source Buffer Block in which the miscompare occurred.
dddddddd is the address of the Source Buffer byte that miscompared.
ee is the value of the Source Buffer byte that miscompared.
ffff is the number of the Reference Buffer Block in which the miscompare occurred.
gggggggg is the address of the Reference Buffer byte that miscompared.
hh is the value of the Reference Buffer byte that miscompared.
Revision History:
0001.0000 Initial revision.
0011.0000 Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Buffer Copy (Level 2, 7, F 'C')
Description: The Buffer Copy command copies the contents of the specified source buffer block(s) to the
specified destination buffer block(s).
If entered, this parameter contains the number of Fast IO iterations (almost analogous to revolutions) to
measure for contact detect baseline measurement.
Type:Unsigned 8-bit value
Range:0 to 0xFF
Default: 50
3 - Starting wedge
This number is the starting wedge from Index.
Type:Unsigned 16-bit value
Range:0x0000 to 0xFFFF
Default: 0
4 - Fast IO "A" wedges
This parameter specifies the "A" pre write/read number of wedges for Fast IO.
Type:Unsigned 16-bit value
Range:0x0000 to 0xFFFE
Note there is a memory limitation on this value, this # wedges directly impacts memory set aside for
Fast IO.
Default: Scales with number of Servo wedges/track.
5 - Fast IO "B" wedges
This parameter specifies the "B" write/read number of wedges for Fast IO.
Type:Unsigned 16-bit value
Range:0x0000 to 0xFFFE
Note there is a memory limitation on this value, this # wedges directly impacts memory set aside for
Fast IO.
Default: Scales with number of Servo wedges/track.
6 - Fast IO "C" wedges
This parameter specifies the "C" post write/read number of wedges for Fast IO.
Type:Unsigned 16-bit value
Range:0x0000 to 0xFFFE
Note there is a memory limitation on this value, this # wedges directly impacts memory set aside for
Fast IO.
Default: Scales with number of Servo wedges/track.
7 - Fast IO "D" wedges
This parameter specifies the "D" secondary write/read number of wedges for Fast IO.
Type:Unsigned 16-bit value
Range:0x0000 to 0xFFFE
Note there is a memory limitation on this value, this # wedges directly impacts memory set aside for
Fast IO.
Default: 0
8 - Fast IO "E" wedges
This parameter specifies the "E" post secondary write/read number of wedges for Fast IO.
Type:Unsigned 16-bit value
Range:0x0000 to 0xFFFE
Note there is a memory limitation on this value, this # wedges directly impacts memory set aside for
Fast IO.
Default: 0
9 - Starting heater DAC
This number is the starting heater DAC.
Type:Unsigned 8-bit value
Range:0x00 to 0xFF
Default: 0
10 - Heater DAC coarse increment
This number is the coarse heater DAC increment.
Type:Unsigned 8-bit value
Range:0x00 to 0xFF
Default: 1
11 - Fixed PES Threshold
This number is the fixed PES threshold.
Type:Decimal float
Range:14 character entry
Default: 0.05
12 - Filter Delta
This number is the filter delta.
Type:Unsigned 8-bit value
Range:0x00 to 0xFF
Default: 70
Output Data:
If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa R/W Status c R/W Error dddddddd"
where
aaaaaaaa is the Diagnostic Error Code
c is the status returned by the R/W subsystem
dddddddd is the error code returned by the R/W subsystem
If the Verbose Formatted ASCII Data Output Mode is selected:
Bit 0: Displays a legthy list of parameter initialization.
Bits 31-1: NA
Standard display:
Parameter setup
Heater Only Search
Revs aa
BaselineRevs bb
APreWrNumSvoWedges cccc
BWrNumSvoWedges dddd
CPostWrNumSvoWedges eeee
DRdNumSvoWedges ffff
EPostRdNumSvoWedges gggg
HeaterStart hh
HeaterIncr ii
PesThreshold +j.jjjjjjE+j
FilterDelta kk
where
aa, bb number of iterations of Fast IO measurements.
cccc Fast IO "A" parameter.
dddd Fast IO "B" parameter.
eeee Fast IO "C" parameter.
ffff Fast IO "D" parameter.
gggg Fast IO "E" parameter.
hh Heater Start.
ii Heater Increment.
+j.jjjjjjE+j Fixed PES Threshold.
kk Filter Delta window.
Contact Detect loop
State DAC dPESSigma
a,bb, c
a,bb, c
a,bb, c
a,bb, c
a,bb, c
a,bb, c
a,bb, c
where
a Contact Detect loop state, defined as:
S searching
DC contact detected
DV contact verified
bb Current heater DAC.
c dPES variance, displayed as Scientific Notation floating point value.
Test Summary ffff
Zone aa
Cyl bbbbbbbb
Hd cc
Freq dddd
IW ee
Ovs ee
Dur ee
ContactVar f
ContactThresh g
Clearance h
Temp ii
M,
IW ee
OVS ee
OSD ee
Read Heat jj
Preheat jj
Write Heat jj
where
aa Target zone.
bbbbbbbb Target cylinder.
cc Target head.
dddd Frequency in MHz.
ee Write powers.
f Variance at contact.
g Threshold of contact.
h Calculated clearance at contact DAC.
ii Current drive temperature.
jj Heater values.
Revision History:
0001.0000Initial revision.
0001.0001Added new parameters: Starting Heat Coarse Heater Increment Fixed PES Threshold Filter
Delta
0002.0000Added new parameter Baseline Iterations. This addition lines up naturally with the Iterations
parameter, hence all other parameters shifted down.
0011.0000Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Convert Data Track Percentage To Servo Offset Count (Level 2 'v')
Description: This command converts the specified data track percentage to a servo offset count for the
current target track.
Quick Help: "ConvertTrackPercentageToOffsetCount, v[Percentage]";
Input Parameters:
0 - Data Track Percentage.
This parameter specifies the data track percentage for which the servo offset count is to be displayed. It
is in units of 0.1% of the data track width. Ifthis parameter is not entered, the offset count between
track centers will be displayed. For drives that implement V2BAR, this number will vary with radial position.
Type:Signed 16-bit value
Range:0x8000 to 0x7FFF
Default: 0x3e8 (1000 decimal or 100% offtrack)
Output Data: If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
If no error occurred, the following information will be displayed.
"Phy Cyl cccccccc Log Hd d Data Track Percentage eeee Servo Offset Count ffff Data T
where
cccccccc is the physical cylinder address
d is the logical head address
eeee is the data track percentage
ffff is the servo offset count that will move the head offtrack by the specified
percentage on the specified track.
wwww is the width of a data track, in units of servo position. Q14 scaling, so 0x4000 is the width of a
data track at nominal TPI (before VTPI and warping)
Revision History:
0001.0000 Initial revision.
0002.0000 Changed to use Q14 servo count, instead of old servo offset count. Output also changed to
include data track width in Q14 servo counts.
0011.0000 Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Copy Correction Buffer (Level G 'C')
Description: This command copies the specified segment of the Correction Buffer to another place in the
same buffer.
Quick Help: "CopyCorrectionBuffer, C[SrcAddr],[DestAddr],[NumSyms]";
Input Parameters:
0 - Source Address Offset of Correction Buffer.
This parameter specifies the source address offset of the correction buffer.
Type:Unsigned 16-bit value
Range:0 to 0xffff,
Default: 0
1 - Destination Address Offset of Correction Buffer.
This parameter specifies the destination address offset of the correction buffer.
Type:Unsigned 16-bit value
Range:0 to 0xffff
Default: 0
2 - Symbol Count of Correction Buffer Units To Be Copied.
This parameter specifies the count of the symbols in the correction buffer to be copied.
Type:Unsigned 16-bit value
Range:0 to 0xffff
Default: 0
Output Data:
If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
Revision History:
0001.0000Initial revision.
0011.0000Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Copy Log File (Level L 'c')
Description: This command copies the specified source log file to the specified destination log file.
Quick Help: "CopyLogFile, C[SrcLog],[DestLog],[AppendOpt]";
Input Parameters:
0 - Source Log Number.
This parameter specifies the number of the log that is the source of the data to be copied.
The following are the default or special log files supported by the diagnostics:
0x0000: ACTIVE_ERROR_LOG_ID - Indicates the currently active error log.
0x0001: ACTIVE_ASCII_LOG_ID - Indicates the currently active ASCII log.
0x0002: ACTIVE_RW_STATISTICS_LOG_ID - Indicates the currently active R/W statistics log.
0xFFFC: DEFAULT_ERROR_LOG_ID - Indicates the default error log.
0xFFFD: DEFAULT_RW_STATISTICS_LOG_ID - Indicates the default R/W statistics log.
0xFFFE: TEMPORARY_LOG_ID - This log is used internally for copy operations.
0xFFFF: INVALID_LOG_ID - Indicates an invalid log.
Type:Unsigned 16-bit value
Range:0 to 0xFFFF
Default: None
1 - Destination Log Number.
This parameter specifies the number of the log that is the destination of the data to be copied.
Type:Unsigned 16-bit value
Range:0 to 0xFFFF
Default: None
2 - Append Source Log to Destination Log.
If any value is entered for this parameter, the specified source log will be appended to the end of the
specified destination log.
Type:Unsigned 16-bit value
Range:0 to 0xFFFF
Default: None
Output Data:
If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
Revision History:
0001.0000Initial revision.
0011.0000Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Corrupt LBA (Level 2 'o')
Description: This command corrupts blocks in User Area starting at the specified LBA (Logical Block Address) for the specified number of blocks. Each block will be corrupted by the specified number of bytes
to corrupt. The location within the blocks where the corruption should occur is determined by the specified offset and option flag. This Diagnostic command basically does Read Long operation, corrupt the
Diag Read buffer then does Write Long operation with the corrupted Diag Read buffer.
Quick Help: "CorruptLba, o[Lba],[NumBlocks],[NumBytes],[ByteOffset],[Flags]";
Input Parameters:
0 - LBA (Logical Block Address) Number.
This parameter specifies the address of the first User Area LBA to corrupt.
Type:Unsigned 32-bit value
Range:0 to maximum User Area LBA
Default: None
1 - Number of Blocks To Corrupt
This parameter specifies the number of consecutive blocks to corrupt.
Type:Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 1
2 - Number of Bytes To Corrupt.
This parameter specifies the number of bytes to be corrupted for each block.
Type:Unsigned 16-bit value
Range:0 to 0xffff
Default: None
3 - Starting Byte Offset for Consecutive Corruption
This parameter specifies the starting byte offset for consecutive corruption.
This parameter is valid only when lower 4 bits of the parameter 4 are all 0.
Consecutive bytes starting from the byte offset specified by this parameter for the number of bytes
specified by the parameter 2 will be corrupted.
Type:Unsigned 16-bit value
Range:0 to 0xffff
Default: 0
4 - Options
This parameter is a bit-significant value that specifies the following options
Bits 15-5: not used.
Bit 4: Enable ECC Correction for the Read Long operation part of the Corrupt LBA diag command.
If this bit is set ECC Correction will be enabled for the read long operation, else ECC Correction will be
disabled.
Bit 0-3:Region Selector for Corruption
If this is 0 then consecutive bytes specified by parameter 2 and 3 will be corrupted.
If this field is either 0xA, 0xD or 0xE then bytes at random byte offsets will be corrupted by the number
of bytes specified by the parameter 2.
If this is 0xA then user data region and ECC region will be corrupted.
If this is 0xD only data region will be corrupted.
If this is 0xE only ECC region will be corrupted.
Type:Unsigned 8-bit value
Range:0 to 0xFFFF
Default: 0 (ECC Correction disabled, consecutive corruption selected)
Output Data: If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa R/W Status c R/W Error dddddddd"
and
"Next User LBA eeeeeeee LLL CHS ffffff.g.hhhh PLP CHS iiiiii.j.kkkk"
"Remaining Transfer Length llllllll"
or
"Next System LBA eeeeeeee LLL CHS ffffff.g.hhhh PLP CHS iiiiii.j.kkkk"
"Remaining Transfer Length llllllll"
where
aaaaaaaa is the Diagnostic Error Code
c is the status returned by the R/W subsystem
0 = R/W request completed successfully with error recovery
1 = R/W request completed successfully (no error recovery performed)
2 = R/W request failed
dddddddd is the error code returned by the R/W subsystem
eeeeeeee is the Disk Logical Block Address of the sector in error
ffffff is the Logical Cylinder Address of the sector in error
g is the Logical Head Address of the sector in error
hhhh is the Logical Sector Address of the sector in error
To corrupt a single LBA at 32 random byte offsets within data region only with ECC correction enabled
(in this case LBA at 0x51237)
F3 2>o51237,,20,,1D
or
F3 2>o51237,1,20,,1D
Revision History: 0001.0000 Initial revision.
Create Log File (Level L 'c')
Description: This command creates the specified log file.
Quick Help: "CreateLogFile, c[Log],[LogType],[BufferOrDiskOpt],[NumBytes]";
Input Parameters:
0 - Log Number.
This parameter specifies the number that will be associated with the log that is to be created.
The following are the default or special log files supported by the diagnostics:
0x0000: ACTIVE_ERROR_LOG_ID - Indicates the currently active error log.
0x0001: ACTIVE_ASCII_LOG_ID - Indicates the currently active ASCII log.
0x0002: ACTIVE_RW_STATISTICS_LOG_ID - Indicates the currently active R/W statistics log.
0xFFFC: DEFAULT_ERROR_LOG_ID - Indicates the default error log.
0xFFFD: DEFAULT_RW_STATISTICS_LOG_ID - Indicates the default R/W statistics log.
0xFFFE: TEMPORARY_LOG_ID - This log is used internally for copy operations.
0xFFFF: INVALID_LOG_ID - Indicates an invalid log.
Type:Unsigned 16-bit value
Range:0 to 0xFFFF
Default: None
1 - Log Type.
This parameter specifies the type of log file to be created.
0 = Error Log
1 = ASCII Log
2 = Read/Write Statistics Log
Type:Unsigned 8-bit value
Range:0 to 2
Default: None
2 - Buffer or Disc Log.
This parameter specifies whether the log file is to be stored in the data buffer or on the disc.
0 = Buffer Log
1 = Disc Log
Type:Unsigned 8-bit value
Range:0 to 1
Default: None
3 - Log Size in bytes.
This parameter specifies the size, in bytes, of the log file to be created.
Type:Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: None
Output Data: If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
Revision History:
0001.0000Initial revision.
0011.0000Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Decrement Read/Write Scope Sync (Online '<')
Description: This command decrements the number of the Servo Wedge for which the Scope Sync Pulse
will be generated.
Quick Help: "DecRwScopeSync";
Input Parameters: None
Output Data: If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
If no error occurred, the following information will be displayed.
" Burst cccc"
where
cccc is the current Scope Sync Wedge number
Revision History:
0001.0000Initial revision.
0011.0000Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Delete Log File (Level L 'd')
Description: This command deletes the specified log file.
Quick Help: "DeleteLogFile, d[Log]";
Input Parameters:
0 - Log Number.
This parameter specifies the number of the log to be deleted.
The following are the default or special log files supported by the diagnostics:
0x0000: ACTIVE_ERROR_LOG_ID - Indicates the currently active error log.
0x0001: ACTIVE_ASCII_LOG_ID - Indicates the currently active ASCII log.
0x0002: ACTIVE_RW_STATISTICS_LOG_ID - Indicates the currently active R/W statistics log.
0xFFFC: DEFAULT_ERROR_LOG_ID - Indicates the default error log.
0xFFFD: DEFAULT_RW_STATISTICS_LOG_ID - Indicates the default R/W statistics log.
0xFFFE: TEMPORARY_LOG_ID - This log is used internally for copy operations.
0xFFFF: INVALID_LOG_ID - Indicates an invalid log.
Type:Unsigned 16-bit value
Range:0 to 0xFFFF
Default: None
Output Data:
If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
Revision History:
0001.0000Initial revision.
0011.0000Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Disable / Enable Servo ZAP coefficients and ZAP read (Level 5 'd')
Description: This command disables / enables the servo from using the coefficients in the ZAP table.
Quick Help: "DisableEnableServoZap, d[ZapControlMode]";
Input Parameters:
0 - ZAP Control Mode.
If this parameter is not entered, the command will display the current ZAP control mode only without
changing it.
If this parameter is entered, the ZAP control mode will be set to this value with the meaning as the following:
0: Disable ZAP coefficients
1: Enable Write ZAP coefficients only with ZAP data from disk
2: Enable both Read and Write ZAP coefficients with ZAP data from ZAP table
3: Reserved for future use
4: Enable Read ZAP coefficients only with ZAP data from disk
5: Enable both Read and Write ZAP coefficients with ZAP data from disk
Type:Unsigned 8-bit value
Range:0 to 5
Default: 0
Output Data: If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
If no error occurred, one of the follwing information will be displayed to indicate the current ZAP control
mode
ZAP control: No
ZAP control: Write ZAP from disc
ZAP control: Read/Write ZAP from table
ZAP control: Reserved
ZAP control: Read ZAP from disc
ZAP control: Read/Write ZAP from disc
Revision History:
0001.0000Initial revision.
0011.0000Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Display Active Status (Online '.')
Description: The Display Active Status command displays the drives's active status information.
Quick Help: "DisplayActiveStatus";
Input Parameters: None
Output Data: If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
If no error occurred and the current Read/Write Sector Address is in the User Area,the following information will be displayed.
"Current User LBA cccccccc LLL CHS dddddd.e.ffff PLP CHS gggggg.h.iiii"
"R/W Status j R/W Error kkkkkkkk lll...l"
If no error occurred and the current Read/Write Sector Address is in the User Area, the following information will be displayed.
"Current System LBA cccccccc LLL CHS dddddd.e.ffff PLP CHS gggggg.h.iiii"
"R/W Status j R/W Error kkkkkkkk lll...l"
where
cccccccc is the current Read/Write Disk Logical Block Address
dddddd is the current Read/Write Logical Cylinder Address
e is the current Read/Write Logical Head Address
ffff is the current Read/Write Logical Sector Address
gggggg is the current Read/Write Physical Cylinder Address
h is the current Read/Write Logical Head Address
iiii is the current Physical Sector Address
j is the sense status returned by the R/W subsystem for the last operation
kkkkkkkk is the error code returned by the R/W subsystem for the last operation
lll...l is a string that indicates whether or not the drive is currently ready
Revision History:
0001.0000Initial revision.
0011.0000Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Display ASCII Command Information (Level C 'Q')
Description: This command displays the revision of the specified ASCII serial port diagnostic command.
Quick Help: "DisplayAsciiCmdInfo, Q[CmdLevel],[Cmd]";
Input Parameters:
0 - Diagnostic Command Level.
This parameter specifies the Diagnostic Command Level of the ASCII Serial PortDiagnostic Command for
which the revision is to be displayed. Entering a value of '0' selects the All Level commands. Entering a
value of '^' selects the
Online commands.
Type:ASCII character
Range:Any printable ASCII character
Default: None. If this parameter is not entered, the revision of all supported ASCII commands in all supported command levels will be displayed.
1 - Diagnostic Command.
This parameter specifies the ASCII Diagnostic Command for which the revision is to be displayed. If the
Online commands are selected by entering a '^' for Parameter 0 and an upper or lower case alphabetic
character is entered for this parameter, it will be interpreted as a control character. For example, if '^' is
entered for Parameter 0 and 'C' is entered for Parameter 1, the revision of the online Control-C command will be displayed.
Type:ASCII character
Range:Any printable ASCII character
Default: None. If this command is not entered, the revision of all supported ASCII commands in the level
specified by Parameter 0 will be displayed.
Output Data:
For each command specified, the following is displayed:
Level LL 'CC': Rev XXXX.YYYY, RRRRRR, SSSSSS
or
All Levels LL 'CC': Rev XXXX.YYYY, RRRRRR, SSSSSS
or
Online LL 'CC': Rev XXXX.YYYY, RRRRRR, SSSSSS
Where:
LL = Command Level
CC = Command Character
XXXX= Major Revision Number
YYYY= Minor Revision Number
RRRRRR = "Overlay" or "Flash"
SSSSSS = Command help string
Revision History: 0001.0000Initial revision.
Display Batch File (Level 6 'D')
Description: This command displays the contents of the specified Diagnostic Batch File. A Batch File is
sequence of ASCII Diagnostic Commands entered by the user via the serial port
interface.
Quick Help: "DisplayBatchFile, D[BatchFileNum]";
Input Parameters:
0 - Batch File Number.
This parameter specifies the number of the Batch File to be displayed.
Type: Unsigned 8-bit value
Range: 0 t0 0xFF
Default: 0
Output Data:
Displays the ASCII Serial Port Command sequence contained in the Batch File.
Revision History:
0001.0000 Initial revision.
0011.0000 Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Display Congen (Online Control U)
Description: This command displays the Congen information.
Quick Help: "DisplayCongen";
Input Parameters: None
Output Data:
If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
If no error occurred, the Congen data will be displayed as follows:
F3 T>
00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F
0000: A8 5C 00 00 00 08 53 43 68 00 00 00 01 10 01 00
0010: 00 00 00 00 00 00 0B 00 01 00 0A 00 82 00 00 00
0020: 03 00 16 00 8E 00 00 00 04 00 16 00 A6 00 00 00
0030: 07 00 0A 00 BE 00 00 00 08 00 12 00 CA 00 00 00
0040: 0A 00 0A 00 DE 00 00 00 1A 00 0A 00 EA 00 00 00
0050: 3A 00 26 00 F6 00 00 00 00 00 16 00 1E 01 00 00
0060: DC 01 0C 00 38 01 00 00 3E 00 DC 02 48 01 00 00
0070: B4 03 00 00 01 10 00 00 00 00 00 00 06 00 01 00
0080: 81 0A C0 08 FF 00 00 00 05 00 FF FF 83 16 0D BE
0090: 00 00 00 0E 00 00 06 46 02 00 00 01 01 18 01 18
00A0: 40 00 00 00 84 16 02 44 8A 02 00 00 00 00 00 00
00B0: 00 00 00 00 00 00 00 00 1C 20 00 00 87 0A 00 08
00C0: FF 00 00 00 00 00 FF FF 88 12 14 00 FF FF 00 00
00D0: FF FF FF FF 80 20 00 00 00 00 00 00 8A 0A 02 00
00E0: 00 00 00 00 00 00 00 00 9A 0A 00 02 00 00 00 05
00F0: 00 00 00 04 BA 26 00 05 00 00 00 00 00 0A 00 00
0100: 00 00 00 00 00 00 00 00 00 00 00 02 00 00 00 00
0110: 00 00 00 00 00 00 00 00 00 00 00 00 80 16 30 32
0120: 36 46 51 30 32 34 31 00 00 00 00 00 00 00 00 00
0130: 01 37 03 40 DC 01 0C 00 01 00 00 18 00 02 00 00
0140: 00 00 00 00 BE 00 DC 02 5A 0C FF 3F 37 C8 10 00
0150: 00 00 00 00 3F 00 00 00 00 00 00 00 00 00 00 00
0160: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
0170: 00 00 00 40 04 00 20 20 20 20 20 20 20 20 53 54
0180: 45 33 32 34 34 38 31 30 41 53 20 20 20 20 20 20
0190: 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20
01A0: 20 20 20 20 20 20 10 00 00 00 20 2F 00 40 00 02
01B0: 00 02 00 00 FF 3F 10 00 3F 00 10 FC FB 00 10 01
01C0: FF FF FF 0F 00 00 07 04 23 00 78 00 78 00 78 00
01D0: 78 00 00 00 00 00 00 00 00 00 00 00 00 00 1F 00
01E0: 26 21 00 00 20 20 20 20 7E 20 1B 00 6B 34 01 7F
01F0: 03 40 28 34 01 3C 03 40 7F 00 00 00 00 00 FE FE
0200: FE FF 00 00 00 FE 00 00 00 00 00 00 00 00 00 00
0210: 99 A9 6B 1C 00 00 00 00 00 00 00 00 00 00 00 00
0220: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
0230: 00 00 00 00 00 00 24 20 22 20 00 00 00 00 00 00
0240: 00 00 00 00 00 00 00 00 21 00 00 00 00 00 00 00
0250: 00 00 00 00 02 00 00 00 00 00 00 00 00 00 00 00
0260: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
0270: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
0280: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
0290: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
02A0: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
02B0: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
02C0: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
02D0: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
02E0: 00 00 00 00 08 10 20 20 00 00 00 00 00 00 00 00
02F0: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
0300: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
0310: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
0320: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
0330: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
0340: 00 00 00 00 00 00 00 00 0F 00 06 00 03 00 00 00
0350: 32 00 14 00 33 00 24 00 0F 00 1E 00 32 00 00 00
0360: 13 00 61 00 32 00 14 00 32 00 00 00 3A 00 00 00
0370: 22 00 2D 00 32 00 00 00 32 00 00 00 32 00 00 00
0380: 22 00 00 00 1A 00 00 00 12 00 00 00 10 00 00 00
0390: 3E 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
03A0: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
03B0: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
03C0: 00 00 40 4B 00 00 00 00 00 00 00 00 00 00 00 00
03D0: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
03E0: 40 04 00 15 20 00 2C 01 00 00 00 00 99 A9 6B 1C
03F0: 99 A9 6B 1C 00 A0 08 00 00 00 00 00 00 00 00 00
0400: 00 00 00 00 00 00 00 00 00 00 00 00 D0 07 E8 03
0410: 54 15 3C 00 00 26 00 00 00 00 08 00 00 00 00 00
0420: 00 00 00 00 00 00 00
DriveNativeInfo Mode Page
DriveNativeInfo Group
Byte:011E: PartNumber = 30 32 36 46 51 30 32 34 31
'026FQ0241'
Byte:0127: PartNumberWhitespacePad = 00 00 00 00 00 00 00 00''
Byte:012F: PartNumberPad = 00
Byte:0130: ProcessControlVersion = 01 37
Byte:0132: CongenConfigurationState = 03
Byte:0133: WrittenCount = 40
Bytes Returned = 0.
F3 T>
Revision History:
0001.0000 Initial revision.
0011.0000 Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic External Test Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Display Controller Registers (Online Control I)
Description: This command displays the controller registers to the serial port.
Quick Help: "DisplayControllerRegs";
Input Parameters: None
Output Data:
The controller registers will be output as 16-bit values. There are eight columns per block of registers.
For example:
Output Data:
If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
Slips Output Fields:
LBA - LBA of first good sector AFTER slipped section
Span - Length in sectors of slip
Cumm - Cummulative length of all slips up to and including this slip
Log cyl, hd, sctr, zn, phys cyl, phys sctr - These indicate the location of the first sector after slip. This address matches the LBA listed in the first column. Note that physical head will equal the logical head.
SFI - Symbols from index of the first sector after the slip.The SFI corresponds to the LBA listed in the first
column
Slips Sample:
F3 T>V8001,,10,6
90EB432118811 D20 881 D45A5290EB54
90FB0911288217FA0 8827FB590E90FB1B
91023011388316820 88368359C6910243
91095611488415090 88450A588291096A
91107D11588513910 8853925956911092
9117A411688612190 88621A5A0E9117BA
Head 0: entries 22Eslips1BBE
Head 1: entries 187slips3B5
Total Entries3B5Total Slips1F73
F3 T>V1,,881,6
User Slip Defect List
log loglogphysphys
LBA spancummcylhdsctr zncylsctrSFIPBA
90EB432118811 D20 881 D45A5290EB54
90FB0911288217FA0 8827FB590E90FB1B
91023011388316820 88368359C6910243
91095611488415090 88450A588291096A
91107D11588513910 8853925956911092
9117A411688612190 88621A5A0E9117BA
Head 0: entries 22Eslips1BBE
Head 1: entries 187slips3B5
Total Entries 3B5Total Slips1F73
Note that no header is displayed.
F3 T>V2,0
System Slip Defect List
log loglogphysphys
LBA spancummcylhdsctr zncylsctrSFI
0000000248840 FFFFFFFF
16688 268 268 960012491A0 FFFFFFFF
Head 0: entries2slips268
Total Entries2Total Slips268
Note that SFI is not currently supported for the system area.
F3 T>V4
Reassigned Sectors List Original New
log loglogphyphy
LBAPBA cylhdsctr zncylsctrSFI
If no error occurred, the following information will be displayed for each DiagnosticBuffer File.
"Blks cccccc-dddddd (eeeeee), BufAddr ffffffff-gggggggg, DBA hhhhhhhh, BytesPerBlk i
where
cccccc is the number of the file's first buffer block
dddddd is the number of the file's last buffer block
eeeeee is the number of buffer blocks
ffffffff is the buffer address of the file's first byte
gggggggg is the buffer address of the file's last byte
hhhhhhhh is the DBA address of the file's first byte
iii is the number of bytes per block
jjj...j is an ASCII string that is the file's name
Revision History:
0001.0000 Initial revision.
0011.0000 Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic ExternalTest Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Display DST Status (Online Control K and Online Control Y)
Description: This command displays the status (percent complete, etc) of any current DriveSelf Test
(DST) activity.
Quick Help: "DisplayDstStatus";
Input Parameters:None
Output Data:
If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
Sample output shown below:
Total process 8% complete
50% of current test complete <== NOTE: This line only appears on non-AT drives.2 out of 7 steps complete in current testCurrent operation is aborted.Current status0
Revision History:
0001.0000 Initial revision.
0011.0000 Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic ExternalTest Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Display / Edit Log (Levels 2,3,4,7,A,T 'E')
Description: This command displays or modifies the specified Log File.
Quick Help: "DisplayEditLog, E[LogNum],[ErrCodeOrSpecialFuncKey],[SpecialFunc]";
Input Parameters:
0 - Log Number.
This parameter specifies the number of the log to be displayed.If thisparameter is not entered, the Active Error Log will be displayed.If thisparameter is equal to 0, the Active Error Log will be cleared.If thisparameter is entered and is not equal to 0, it specifies the number of theLog to be displayed.
The following are the default or special log files supported by the diagnostics:0x0000: ACTIVE_ERROR_LOG_ID - Indicates the currently active error log.0x0001: ACTIVE_ASCII_LOG_ID - Indicates
the currently active ASCII log.
0x0002: ACTIVE_RW_STATISTICS_LOG_ID - Indicates the currently active R/W statistics log.0xFFFC: DEFAULT_ERROR_LOG_ID - Indicates the default error log.
0xFFFD: DEFAULT_RW_STATISTICS_LOG_ID - Indicates the default R/W statistics log.0xFFFE: TEMPORARY_LOG_ID - This log is used internally for copy operations.0xFFFF: INVALID_LOG_ID - Indicates an
invalid log.
Type: Unsigned 16-bit value
Range:0 to 0xFFFF
Default: Display Active Error Log
A warning message may be printed which indicates that some of the Firmware Package information has
been truncated. The most likely causes of this warning would be that Package information I invalid or
that this diagnostic does not support the Firmware Package format returned by the d example output:
Warning: Package Info truncation occurred.
"Controller FwRev CCCCCCCC, CustomerRel DDDDDD, Changelist EEEE, ProdType FFFF, Date
GG/GG/GGG
where
CCCCCCCC is the Controller Firmware Revision.
DDDD is the Customer Release number.
EEEEEEEE is the Perforce Changelist Number.
FFFF is the Product Type.
GG/GG/GGGG is the date the code was built.
HHHHHH is the time the code was built.
IIIIIIII is the global ID of the person that built the code.
"Servo FwRev CCCC
where
CCCC is the Servo Firmware Revision.
"RAP FW Implementation Key: CC, RAP FormatRev DD, ContentsRev EE";
where
CC is the RAP FW Implemenation Key.
DD is the RAP Format Revision.
EE is the RAP Contents Revision.
Revision History:
0001.0000 Initial revision.
0002.0000 Added Firmware Package Information to the DSB.
0011.0000 Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic ExternalTest Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
0012.0000 Added RAP FW Implementation Key.
Display Log File (Level L 'D')
Description: This command displays the specified log file.
Quick Help: "DisplayLogFile, D[Log],[ErrCode]";
Input Parameters:
0 - Log Number.
This parameter specifies the number of the log to be displayed.If a Log Numberis not entered, the Active
Error Log will be displayed.
The following are the default or special log files supported by the diagnostics:0x0000: ACTIVE_ERROR_LOG_ID - Indicates the currently active error log.0x0001: ACTIVE_ASCII_LOG_ID - Indicates
the currently active ASCII log.
0x0002: ACTIVE_RW_STATISTICS_LOG_ID - Indicates the currently active R/W statistics log.0xFFFC: DEFAULT_ERROR_LOG_ID - Indicates the default error log.
0xFFFD: DEFAULT_RW_STATISTICS_LOG_ID - Indicates the default R/W statistics log.0xFFFE: TEMPORARY_LOG_ID - This log is used internally for copy operations.0xFFFF: INVALID_LOG_ID - Indicates an
invalid log.
Type: Unsigned 16-bit value
Range:0 to 0xFFFF
Default: Active Error Log
1 - Display Error Code.
This parameter specifies the Diagnostic Error Code to be displayed.Only logentries containing this error
code will be displayed.This parameter is onlyvalid when displaying error log files.
Type: Unsigned 16-bit value
Range:0 to 0xFFFF
Default: None
Output Data:
Description: The Display Micro Jog Value for Logical CHS commmand seeks to the specified logicaltrack,
gets the track's micro jog value and displays it.If no address is specified,this command will seek to the
next logical track in the Test Space and display itsmicro jog value.
Quick Help: "DisplayMicroJogForLogChs, O[LogCyl],[Hd],[Opts],[SysAreaOpt]";
Input Parameters:
0 - Logical Cylinder Address.
If Parameter 3 is entered, Parameter 0 is the address of the System Area logicalcylinder for which the
micro jog value is to be displayed.If Parameter 3 is notentered, Parameter 0 is the address of the User
Area logical cylinder for which themicro jog value is to be displayed.If both Parameter 0 and 1 are not
entered,the micro jog value will be displayed for the next logical track in the Test Space.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: None
1 - Logical Head Address.
This parameter is the address of the Logical Head for which the micro jog valueis to be displayed.If both
Parameter 0 and 1 are not entered, the micro jogvalue will be displayed for the next logical track in the
Test Space.
Type: Unsigned 8-bit value
Range:0 to 0xFF
Default: None
2 - Display Micro Jog options.
This parameter is a bit-significant value that specifies various options fordisplaying the micro jog value.The bits are defined as follows:
bit 0: Disable Micro Jog Display
0 enables the micro jog value to be displayed
1 disables the micro jog value from being displayed
Type: Unsigned 16-bit value
Range:0 to 0xFFFF
Default: 0 (Micro Jog Display enabled)
3 - System Area Flag.
If any value is entered then Parameter 0 specifies a System Area logical cylinder,else it specifies a User
Area logical cylinder.
Type: Unsigned 16-bit value
Range:0 to 0xFFFF
Default: None
Output Data:
If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
If no error occurred and the track is in the User Area, the following informationwill be displayed.
"User LBA cccccccc LLL CHS dddddd.e.ffff PLP CHS gggggg.h.iiii""MR Offset = jjjj"
If no error occurred and the track is in the System Area, the following informationwill be displayed.
"System LBA cccccccc LLL CHS dddddd.e.ffff PLP CHS gggggg.h.iiii""MR Offset = jjjj"
where
cccccccc is the Disk Logical Block Address
dddddd is the Logical Cylinder Address
e is the Logical Head Address
ffff is the Logical Sector Addressgggggg is the Physical Cylinder Address
h is the Logical Head Address
iiii is the Physical Sector Address
jjjj is the MR Offset value for the track
Revision History:
0001.0000 Initial revision.
0011.0000 Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic ExternalTest Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
Display / Modify Adaptive Parameter (Level 2, 7 'I')
Description: This command is used to invoke the Read/Modify Adaptive Parameter subcommands.
Quick Help: "DisplayModifyAdaptiveParm, I,[GroupId]";
Input Parameters:
0 - Not Used.
Please see the other Read/Modify Adaptive Parameters commands for details regardingthe use of this
parameter.
Type: N/A
Range:N/A
Default: None
1 - P1 (Adaptive Parameter Group ID).
This parameter specifies the ID of the Adaptive Parameter Group that containsthe value to be displayed
or modified.
00 = CAP (Controller Adaptive Parameters)01 = RAP (Read / Write Adaptive Parameters)02 = SAP (Servo
Adaptive Parameters)
03 = RW Working Parameters (Read / Write Working Parameters)FF = Table of Contents (All allowable
Group IDs)
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
Output Data:
Please see each individual Read/Modify Adaptive Parameter subcommand for more detailsregarding its
output data format.
Examples:
The following will present the Display/Modify Adaptives command's Table of Contents:
F3 2>I,FF
Revision History:
0001.0000 Initial revision.
0002.0000 Corrected Working Parameters display for Maintenance Heat.
0002.0001 Added separate command and diagnostic files to handle the different adaptive0011.0000Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic ExternalTest Service Error Codes (DETSEC) into a single set of Diagnostic Error Codes(DiagError).parameters.
0011.0001Added support for modifying/reading SAP Flex Bias Table and SAP Bias Hysteresis Ta
Display / Modify CAP (Level 2, 7 'I,0')
Description: This command displays the values of the specified controller adaptive parameters. (It does
not currently support the modification of controller adaptive parameters.)
Quick Help: "DisplayModifyCap, I[ParmValue],0,[ParmId]";
Input Parameters:
0 - P0 (New CAP Value).
If this parameter is entered, the adaptive value specified by command parameter 2 will be set equal to
the value of this parameter.
Type: Quote-delimited string or hex value
Range: 1 to 255 character string or 0000 to FFFF (if hex value)
Default: None
1 - P1 (CAP Group ID = 0).
This parameter specifies the Group ID of the CAP, which is 0.
Type: Unsigned 32-bit value
Range: 0 is the only valid value.
Default: 0
2 - P2 (CAP Value ID).
Range:0 to 0xFFFFFFFF
Default: 0
3 - P3 (select value to be modified).
If Parameter 0 is entered, this parameter is used to select the value to bemodified.The definition of this
parameter depends on the value entered forParameter 2.See the Parameter 2 description for more information.
If Parameter 0 is not entered and Parameter 1 is set to display RAP, thisparameter will specifies the
heads to display their adaptive value based onthe display mode that is set by Level T O comamnd.With
Verbose FormattedASCII Output Mode, the adaptive value on all heads will be displayed.WithFormatted
ASCII Output Mode, if Parameter3 is not entered only the adaptive
value on the existing heads will be displayed; if Parameter3 is entered onlythe adaptive value on the
requested head will be displayed. Otherwise thisparameter is not used.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
4 - P4 (select value to be modified).
If Parameter 0 is entered, this parameter is used to select the value to bemodified.The definition of this
parameter depends on the value entered forParameter 2.See the Parameter 2 description for more information.
If Parameter 0 is not entered, this parameter is not used.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
5 - P5 (select value to be modified).
If Parameter 0 is entered, this parameter is used to select the value to bemodified.The definition of this
parameter depends on the value entered forParameter 2.See the Parameter 2 description for more information.
If Parameter 0 is not entered, this parameter is not used.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
6 - P6 (select value to be modified).
If Parameter 0 is entered, this parameter is used to select the value to bemodified.The definition of this
parameter depends on the value entered forParameter 2.See the Parameter 2 description for more information.
If Parameter 0 is not entered, this parameter is not used.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
7 - RAP Update Option.
This parameter is a bit significant value that specifies how the modifiedRAP values are to be applied.The
bits are defined as follows:
Bits 31-2: not used
Bit 1: Enable Track Format update.
If this bit is equal to 1, the Track Format will be updated based on theRAP values that were modified.If
this bit is equal to 0, the
Track Format will not be modified.
Bit 0: Enable Channel Parameter Reload.
If this bit is equal to 1, the Channel Registers will be updated basedon the RAP values that were modified.If this bit is equalto 0, the Channel Registers will not be modified.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0 (Disable Track Format Update and Channel Parameter Reload)
Output Data:
(P1=01) RAP:
(P2=05) RAP Tuned Zone Parms:
(P3=00) Reg Group 00:
P4= 0 Reg Addr: 0086(P5=00) User Zone 00:006A(P5=01) User Zone 01:0067(P5=02) User Zone
02:0065(P5=80) System Zone 00: 0062
(P3=01) Reg Group 01:
P4= 0 1 2 Reg Addr: 0060 0061 0063(P5=00) User Zone 00:E1D3 204F 2630(P5=01) User Zone 01:E1D3
204F 262B(P5=02) User Zone 02:E1D3 204F 2633(P5=80) System Zone 00: E1D3 204F 262F
The following is an example of the RAP Tuned Head Parameters information that will bedisplayed.
(P1=01) RAP:
(P2=06) RAP Tuned Head Parms:
(P3=00) Head 00:
(P4=00) Reg Group 00:
P5= 0 1 2 3 4 5 6 7 8
Reg Addr: 0089 008A 008B 0093 0094 0096 0098 0097 0098 00
(P6=00) User Zone 00 Reg Data:3DF4 3DF4 A1EF 0804 0CB8 0004 0500 C900 0100 98
(P6=01) User Zone 01 Reg Data:3DF4 3DF4 A1EF 0804 0C60 0004 0500 C900 0100 AA
(P6=02) User Zone 02 Reg Data:3DF4 3DF4 A1EF 0804 0C20 0004 0500 C900 0100 A3
(P6=80) System Zone 00 Reg Data: 3DF4 3DF4 A1EF 0804 0BC0 0004 0500 C900 0100 A4
P5=101112131415161718
Reg Addr: 00B9 00BB 00C0 00C1 00C2 00C3 00C4 00C5 00C6 00
(P6=00) User Zone 00 Reg Data:4026 0800 0000 0000 0000 0000 2828 2828 2828 28
(P6=01) User Zone 01 Reg Data:4026 0800 0000 0000 0000 0000 2828 2828 2828 28
(P6=02) User Zone 02 Reg Data:4026 0800 0000 0000 0000 0000 2828 2828 2828 28
(P6=80) System Zone 00 Reg Data: 4026 0800 0000 0000 0000 0000 2828 2828 2828 28
P5=20212223242526Reg Addr: 00CE 00CF 00D0 00D1 00D2 00D3 00D4 (P6=00) User Zone 00 Reg Data:7C7C 7C00 0000 0000 0000 0000 0000 (P6=01) User Zone 01 Reg Data:7C7C 7C00 0000 0000 0000
0000 0000 (P6=02) User Zone 02 Reg Data:7C7C 7C00 0000 0000 0000 0000 0000 (P6=80) System Zone
00 Reg Data: 7C7C 7C00 0000 0000 0000 0000 0000
The following is an example of the RAP Zone Format Budget Parameters information thatwill be displayed.
(P1=01) RAP:
(P2=07) RAP Zone Format Budget Parms:
Format Budget Rev: 01
InitialPloPlo IsgPreSrvGap PostSrvGap SeqPlo1 SeqPlo
(P3=0)(P3=1) (P3=2)(P3=3)(P3=4)(P3=5)(P3=6)
(P4=00) User Zone 00: 1C 260D2004 141E(P4=01) User Zone 01: 1B 250C2005 131D(P4=02) User Zone
02: 1C 260B2005 131D(P4=03) User Zone 03: 1D 260B2005 141D(P4=04) User Zone 04: 1C 260B2105
131D(P4=05) User Zone 05: 1D 250B2105 141C(P4=06) User Zone 06: 1C 240C2105 141C(P4=07) User
Zone 07: 1B 240C2105 131C(P4=08) User Zone 08: 1C 250A2104 131C(P4=09) User Zone 09: 1D
240A2004 141B(P4=0A) User Zone 0A: 1C 230A2004 131A(P4=0B) User Zone 0B: 1C 230A2005
131A(P4=0C) User Zone 0C: 1C 230A1F04 131A(P4=0D) User Zone 0D: 1B 220A1F04 131A(P4=0E) User
Zone 0E: 1B 21091F04 1218(P4=0F) User Zone 0F: 1B 20091D04 1217(P4=80) System Zone 00:1A
20091D04 1117
SeqPad SeqIsgWr SeqIsgRd SeqSgToRg SeqSkipRdDelay SeqSyncTo
(P3=7)(P3=8)(P3=9)(P3=A) (P3=B)(P3=C)(P4=00) User Zone 00:0213 19 0834 34(P4=01) User Zone
01:0212 18 0833 34(P4=02) User Zone 02:0212 18 0934 34(P4=03) User Zone 03:0212 18 0934
34(P4=04) User Zone 04:0212 18 0934 34(P4=05) User Zone 05:0212 17 0935 32(P4=06) User Zone
06:0212 17 0935 32(P4=07) User Zone 07:0212 17 0833 32(P4=08) User Zone 08:0211 16 0833
32(P4=09) User Zone 09:0211 16 0834 32(P4=0A) User Zone 0A:0211 15 0833 31(P4=0B) User Zone
0B:0211 15 0833 2F(P4=0C) User Zone 0C:0211 15 0833 2F(P4=0D) User Zone 0D:0210 14 0732
2E(P4=0E) User Zone 0E:0210 13 0732 2D(P4=0F) User Zone 0F:0210 12 0732 2A(P4=80) System Zone
00:0210 12 0631 2A
The following is an example of the RAP Head Format Budget Parameters information thatwill be displayed.
(P1=01) RAP:
(P2=08) RAP Head Format Budget Parms:
Format Budget Rev: 01
(P3=00) Head 00:
SeqSgToWg (P4=00) User Zone 00:0F (P4=01) User Zone 01:10 (P4=02) User Zone 02:11 (P4=03) User
Zone 03:11 (P4=04) User Zone 04:12 (P4=05) User Zone 05:12
(P4=06) User Zone 06:12 (P4=07) User Zone 07:12 (P4=08) User Zone 08:12 (P4=09) User Zone 09:12
(P4=0A) User Zone 0A:12 (P4=0B) User Zone 0B:12 (P4=0C) User Zone 0C:12 (P4=0D) User Zone 0D:12
(P4=0E) User Zone 0E:12 (P4=0F) User Zone 0F:11 (P4=80) System Zone 00: 11
The following is an example of the RAP TCC Temperature Point Parameters informationthat will be displayed.
(P1=01) RAP:
(P2=09) RAP TCC Temp Point Parms: 19 37 FFFFFFF6
The following is an example of the RAP TCC Preamp Parameters information that will bedisplayed.
(P1=01) RAP:
(P2=0A) RAP TCC Preamp Parms:
(P3=00) Head 00:
WrCurWrDampWrDampDurWrPreHtWrHt RdHt(P4=0)(P4=1)(P4=2) (P4=3)(P4=4)(P4=5)(P5=00) User
Zone 00:0F08 0E20 1E1F(P5=01) User Zone 01:0F08 0E20 1E1F(P5=02) User Zone 02:0F08 0E28
2627(P5=80) System Zone 00:0F08 0E28 2627
The following is an example of the RAP TCC Preamp Offset Parameters information thatwill be displayed.
(P1=01) RAP:
(P2=0B) RAP TCC Preamp Offset Parms:
(P3=00) Set 00:
(P4=00) Head 00:
WrCurOffWrDampOffWrDampDurOffWrPreHtOffWrHtOff
(P5=0) (P5=1) (P5=2) (P5=3)(P5=4)
(P6=00) User Zone 00:00000000 00
(P6=01) User Zone 01:00000000 00
(P6=02) User Zone 02:00000000 00
(P6=80) System Zone 00: 00000000 00
(P3=01) Set 01:
(P4=00) Head 00:
WrCurOffWrDampOffWrDampDurOffWrPreHtOffWrHtOff
(P5=0) (P5=1) (P5=2) (P5=3)(P5=4)
(P6=00) User Zone 00:00000000 00
(P6=01) User Zone 01:00000000 00
(P6=02) User Zone 02:00000000 00
(P6=80) System Zone 00: 00000000 00
(P3=02) Set 02:
(P4=00) Head 00:
WrCurOffWrDampOffWrDampDurOffWrPreHtOffWrHtOff
(P5=0) (P5=1) (P5=2) (P5=3)(P5=4)
(P6=00) User Zone 00:00000000 00
(P6=01) User Zone 01:00000000 00
(P6=02) User Zone 02:00000000 00
(P6=80) System Zone 00: 00000000 00
The following is an example of the RAP CRC display.
(P1=01) RAP:
(P2=0C) RAP CRC: 00000000
Revision History:
0001.0000 Initial revision.
0011.0000 Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic ExternalTest Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
if RAP_FORMAT_14_REV_2
0012.0000Changed Gamma values.Added new TCS values.endif
Display / Modify RAP revision 10 (Level 2, 7 'I,1')
Description: This command displays and optionally modifies the value of the specified read adaptiveparameter.
Quick Help: "DisplayModifyRap, I[ParmValue],1,[ParmId],[P3],[P4],[P5],[P6],[UpdateOpts]";
Input Parameters:
0 - P0 (New RAP Value).
If this parameter is entered, the adaptive value specified by commandparameters 1 though 7 will be set
equal to the value of this parameter.If this parameter is not entered, the RAP values specified by commandparameters 1 and 2 will be displayed.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: None
1 - P1 (RAP Group ID = 1).
This parameter specifies the RAP ID (1).
Type: Unsigned 32-bit value
Range:1 is the only valid value.
Default: NA
2 - P2 (RAP Value ID).
This parameter specifies the ID of the RAP value to be displayed or modified.If Parameter 0 is not entered, entering a value of zero forthis parameterwill display all of the parameters in the group RAP.
The Adaptive Parameter IDs and the values of parameters 3-6are defined as follows:
0x00 = All RAP Parameters
Parameters 3-6 are not used
0x01 = Drive Configuration
Parameters 3-6 are not used
0x02 = Temperature Sensor Configuration
Parameters 3-6 are not used
0x03 = Zone Configuration
Parameters 3-6 are not used
0x04 = Tuned Drive parameters
Parameter 3 = Register Group Parameter 4 = Register Index Parameter 5 = not used Parameter 6 = not
used
0x05 = Tuned Zone parameters
Parameter 3 = Register Group Parameter 4 = Register Index
Parameter 5 = Zone Number
0x00 = User Zone 00x01 = User Zone 1 . . .
0x80 = System Zone
Parameter 6 = not used
0x06 = Tuned Head parameters
Parameter 3 = Head
Parameter 4 = Register Group
Parameter 5 = Register Index
Parameter 6 = Zone Number
0x00 = User Zone 00x01 = User Zone 1 . . .
0x80 = System Zone
0x07 = Zone Format Budget parameters
Parameter 3 = Zone Format Budget Parameter Index
Parameter 4 = Zone Number
0x00 = User Zone 00x01 = User Zone 1 . . .
Default: 0
3 - P3 (select value to be modified).
If Parameter 0 is entered, this parameter is used to select the value to bemodified.The definition of this
parameter depends on the value entered forParameter 2.See the Parameter 2 description for more information.
If Parameter 0 is not entered and Parameter 1 is set to display RAP, thisparameter will specifies the
heads to display their adaptive value based onthe display mode that is set by Level T O comamnd.With
Verbose FormattedASCII Output Mode, the adaptive value on all heads will be displayed.WithFormatted
ASCII Output Mode, if Parameter3 is not entered only the adaptivevalue on the existing heads will be
displayed; if Parameter3 is entered onlythe adaptive value on the requested head will be displayed.
Otherwise thisparameter is not used.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
4 - P4 (select value to be modified).
If Parameter 0 is entered, this parameter is used to select the value to bemodified.The definition of this
parameter depends on the value entered forParameter 2.See the Parameter 2 description for more information.
If Parameter 0 is not entered, this parameter is not used.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
5 - P5 (select value to be modified).
If Parameter 0 is entered, this parameter is used to select the value to bemodified.The definition of this
parameter depends on the value entered forParameter 2.See the Parameter 2 description for more information.
If Parameter 0 is not entered, this parameter is not used.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
6 - P6 (select value to be modified).
If Parameter 0 is entered, this parameter is used to select the value to bemodified.The definition of this
parameter depends on the value entered forParameter 2.See the Parameter 2 description for more information.
If Parameter 0 is not entered, this parameter is not used.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
7 - RAP Update Option.
This parameter is a bit significant value that specifies how the modifiedRAP values are to be applied.The
bits are defined as follows:
Bits 31-2: not used
Bit 1: Enable Track Format update.
If this bit is equal to 1, the Track Format will be updated based on theRAP values that were modified.If
this bit is equal to 0, theTrack Format will not be modified.
Bit 0: Enable Channel Parameter Reload.
If this bit is equal to 1, the Channel Registers will be updated basedon the RAP values that were modified.If this bit is equalto 0, the Channel Registers will not be modified.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0 (Disable Track Format Update and Channel Parameter Reload)
Output Data:
If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
If no error occurred and the RAP data is being displayed ...
The following is an example of the RAP Drive Configuration information that willbe displayed.
(P1=01) RAP:
(P2=01) RAP Drive Config:
Format Rev: 0010Contents Rev: 0D00
Drive Serial Number: InvalidRAP Heads: 0001
RAP User Zones: 0010RAP System Zones: 0001
The following is an example of the RAP Temperature Sensor Configuration informationthat will be displayed.
(P1=01) RAP:
(P2=02) RAP Temp Sensor Config:
Thermistor Temp Sensor Offset: 00Thermistor Temp Sensor Scale: 64Thermistor Temp Table Elements:
1E
Thermistor Temp Lookup Table:
0 1 2 3 4 5 6 7Temperature:FFD0 FFDA FFE3 FFEC FFFE 000F 001F 002FA to D Value: FF91 FF8D FF89
FF86 FF7E FF76 FF6E FF67
8 9 A B C D E FTemperature:003E 004D 005B 0076 0090 00A9 00D9 0107A to D Value: FF5F FF57 FF50
FF40 FF31 FF21 FF02 FEE3
1011121314151617Temperature:0138 016D 01A9 01CA 01EE 0214 023E 0254A to D Value: FEC5 FEA6
FE87 FE77 FE68 FE58 FE49 FE41
18191A1B1C1DTemperature:026B 0283 029C 02B6 02D2 02EEA to D Value: FE3A FE32 FE2A FE22 FE1B
FE13
The following is an example of the RAP Zone Configuration information that will bedisplayed.
(P1=01) RAP:
(P2=03) RAP Zone Config:
Min Alt Tracks Per Zone: 00
StartCylNumCylsSpareCylsUser Zone00: 00000000002BD1000011User Zone01:
00002BD1002940000010User Zone02: 000055110026E400000FSystem Zone 00:
00007BF500012C00000E
The following is an example of the RAP Tuned Drive Parameters information that will bedisplayed.
(P1=01) RAP:
(P2=04) Tuned Drive Parms:
(P3=00) Reg Group 00:
P4= 0 1 2 3 4 5 6 7 8 9 A B C D
Reg Addr: 0000 0001 0055 0084 0085 0086 008C 008E 0090 0092 0095 0099 009B 009C 00
Reg Data: 0390 000B 01C7 8078 11D2 0092 4100 8A00 0073 0003 0021 01E9 0000 000F 00
P4=101112131415161718191A1B1C1D
Reg Addr: 009F 00A0 00A1 00A3 00A4 00A5 00A6 00A7 00B7 00B8 00BC 00BD 00BE 00BF 00
Reg Data: 0000 2000 0000 0000 38DA 14D1 0048 7880 FA00 1986 0000 1525 00F0 7F00 00
P4=202122232425262728292A2B2C2D
Reg Addr: 00DA 00DC 00DD 00DE 00E0 00E2 00E5 00E9 00EB 00EC 00ED 00EE 00EF 00F0 00
Reg Data: 2100 00D4 0000 0000 6817 0000 0000 0000 0000 0000 0000 0000 0000 001C 00
P4=303132333435363738393AReg Addr: 00F3 00F5 00F6 00F7 00F8 00F9 00FA 00FB 00FC 00FD
00FEReg Data: 0000 0088 0020 0020 0000 0FFF 0000 0000 0000 0040 0000
(P3=01) Reg Group 01:
P4= 0 1 2 3 4 5 6 7 8 9 A B C D
Reg Addr: 0061 0062 0063 0064 0075 0076 00E4 00E5 00E6 00EA 00EB 00EC 00ED 00EE 00
Reg Data: 204F 0044 2630 0000 0520 0000 F20B 0000 0000 0000 0000 0D07 0000 4020 00
P4=10111213141516171819Reg Addr: 00F4 00F5 00F6 00F7 00F8 00F9 00FB 00FD 00FE 00FFReg Data:
0004 0002 0024 0000 0000 0000 015A 1847 0000 0400
The following is an example of the RAP Tuned Zone Parameters information that will bedisplayed.
(P1=01) RAP:
(P1=01) RAP:
(P2=08) RAP Head Format Budget Parms:
Format Budget Rev: 01
(P3=00) Head 00:
SeqSgToWg (P4=00) User Zone 00:0F (P4=01) User Zone 01:10 (P4=02) User Zone 02:11 (P4=03) User
Zone 03:11 (P4=04) User Zone 04:12 (P4=05) User Zone 05:12 (P4=06) User Zone 06:12 (P4=07) User
Zone 07:12 (P4=08) User Zone 08:12 (P4=09) User Zone 09:12 (P4=0A) User Zone 0A:12 (P4=0B) User
Zone 0B:12 (P4=0C) User Zone 0C:12 (P4=0D) User Zone 0D:12 (P4=0E) User Zone 0E:12 (P4=0F) User
Zone 0F:11 (P4=80) System Zone 00: 11
The following is an example of the RAP TCC Temperature Point Parameters informationthat will be displayed.
(P1=01) RAP:
(P2=09) RAP TCC Temp Point Parms: 19 37 FFFFFFF6
The following is an example of the RAP TCC Preamp Parameters information that will bedisplayed.
(P1=01) RAP:
(P2=0A) RAP TCC Preamp Parms:
(P3=00) Head 00:
WrCurWrDampWrDampDur(P4=0)(P4=1)(P4=2)(P5=00) User Zone 00:0F08 0E
(P5=01) User Zone 01:0F08 0E(P5=02) User Zone 02:0F08 0E(P5=80) System Zone 00:0F08 0E
The following is an example of the RAP TCC Preamp Offset Parameters information thatwill be displayed.
(P1=01) RAP:
(P2=0B) RAP TCC Preamp Offset Parms:
(P3=00) Set 00:
(P4=00) Head 00:
WrCurOffWrDampOffWrDampDurOff(P5=0) (P5=1) (P5=2) (P6=00) User Zone 00:000000 (P6=01) User
Zone 01:000000 (P6=02) User Zone 02:000000 (P6=80) System Zone 00: 000000
(P3=01) Set 01:
(P4=00) Head 00:
WrCurOffWrDampOffWrDampDurOff(P5=0) (P5=1) (P5=2) (P6=00) User Zone 00:000000 (P6=01) User
Zone 01:000000 (P6=02) User Zone 02:000000 (P6=80) System Zone 00: 000000
(P3=02) Set 02:
(P4=00) Head 00:
WrCurOffWrDampOffWrDampDurOff(P5=0) (P5=1) (P5=2) (P6=00) User Zone 00:000000 (P6=01) User
Zone 01:000000 (P6=02) User Zone 02:000000 (P6=80) System Zone 00: 000000
The following is an example of the RAP CRC display.
(P1=01) RAP:
(P2=0C) RAP CRC: 00000000
Revision History:
0001.0000 Initial revision.
0011.0000 Combined the PSG Diagnostic Error Codes (PSGDEC) and the Diagnostic ExternalTest Service
Error Codes (DETSEC) into a single set of Diagnostic Error Codes (DiagError).
if RAP_FORMAT_14_REV_2
0012.0000 Changed Gamma values.Added new TCS values. Endif
Display / Modify RAP revision 11 (Level 2, 7 'I,1')
Description: This command displays and optionally modifies the value of the specified read adaptiveparameter.
Quick Help: "DisplayModifyRap, I[ParmValue],1,[ParmId],[P3],[P4],[P5],[P6],[UpdateOpts]";
Input Parameters:
0 - P0 (New RAP Value).
If this parameter is entered, the adaptive value specified by commandparameters 1 though 7 will be set
equal to the value of this parameter.If this parameter is not entered, the RAP values specified by commandparameters 1 and 2 will be displayed.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: None
1 - P1 (RAP Group ID = 1).
This parameter specifies the RAP ID (1).
Type: Unsigned 32-bit value
Range:1 is the only valid value.
Default: NA
2 - P2 (RAP Value ID).
This parameter specifies the ID of the RAP value to be displayed or modified.If Parameter 0 is not entered, entering a value of zero forthis parameterwill display all of the parameters in the group RAP.
The Adaptive Parameter IDs and the values of parameters 3-6are defined as follows:
0x00 = All RAP Parameters
Parameters 3-6 are not used
0x01 = Drive Configuration
Parameters 3-6 are not used
0x02 = Temperature Sensor Configuration
Parameters 3-6 are not used
0x03 = Zone Configuration
Parameters 3-6 are not used
0x04 = Tuned Drive parameters
Parameter 3 = Register Group Parameter 4 = Register Index Parameter 5 = not used Parameter 6 = not
used
0x05 = Tuned Zone parameters
Parameter 3 = Register Group Parameter 4 = Register Index
Parameter 5 = Zone Number
0x00 = User Zone 00x01 = User Zone 1 . . .
0x80 = System Zone
Parameter 6 = not used
0x06 = Tuned Head parameters
Parameter 3 = Head
Parameter 4 = Register Group Parameter 5 = Register Index
Parameter 6 = Zone Number
0x00 = User Zone 00x01 = User Zone 1 . . .
0x80 = System Zone
0x07 = Zone Format Budget parameters
Parameter 3 = Zone Format Budget Parameter Index
Parameter 4 = Zone Number
0x00 = User Zone 00x01 = User Zone 1 . . .
0x80 = System Zone
Parameter 5 = not used Parameter 6 = not used
0x08 = Head Format Budget parameters
Parameter 3 = Head
Parameter 4 = Zone Number0x00 = User Zone 00x01 = User Zone 1 . . .
0x80 = System Zone
Parameter 5 = not used Parameter 6 = not used
0x09 = TCC Preamp Temperature Point parameters
Parameters 3-6 are not used
0x0A = TCC Preamp parameters
Parameter 3 = Head
Parameter 4 = TCC Preamp Parameter Index
Parameter 5 = Zone Number
0x00 = User Zone 00x01 = User Zone 1 . . .
0x80 = System Zone
Parameter 6 = not used
If Parameter 0 is entered, this parameter is used to select the value to bemodified.The definition of this
parameter depends on the value entered forParameter 2.See the Parameter 2 description for more information.
If Parameter 0 is not entered, this parameter is not used.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
5 - P5 (select value to be modified).
If Parameter 0 is entered, this parameter is used to select the value to bemodified.The definition of this
parameter depends on the value entered forParameter 2.See the Parameter 2 description for more information.
If Parameter 0 is not entered, this parameter is not used.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
6 - P6 (select value to be modified).
If Parameter 0 is entered, this parameter is used to select the value to bemodified.The definition of this
parameter depends on the value entered forParameter 2.See the Parameter 2 description for more information.
If Parameter 0 is not entered, this parameter is not used.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0
7 - RAP Update Option.
This parameter is a bit significant value that specifies how the modifiedRAP values are to be applied.The
bits are defined as follows:
Bits 31-2: not used
Bit 1: Enable Track Format update.
If this bit is equal to 1, the Track Format will be updated based on theRAP values that were modified.If
this bit is equal to 0, theTrack Format will not be modified.
Bit 0: Enable Channel Parameter Reload.
If this bit is equal to 1, the Channel Registers will be updated basedon the RAP values that were modified.If this bit is equalto 0, the Channel Registers will not be modified.
Type: Unsigned 32-bit value
Range:0 to 0xFFFFFFFF
Default: 0 (Disable Track Format Update and Channel Parameter Reload)
Output Data:
If an error occurred, the following information will be displayed.
"DiagError aaaaaaaa "
where
aaaaaaaa is the Diagnostic Error Code
If no error occurred and the RAP data is being displayed
The following is an example of the RAP Drive Configuration information that willbe displayed.
(P1=01) RAP:
(P2=01) RAP Drive Config:
Format Rev: 0010Contents Rev: 0D00
Drive Serial Number: InvalidRAP Heads: 0001
RAP User Zones: 0010RAP System Zones: 0001Tracks/zone:Alts/volume:Sec/track:Total Cyls:
The following is an example of the RAP Temperature Sensor Configuration informationthat will be displayed.
(P1=01) RAP:
(P2=02) RAP Temp Sensor Config:
Thermistor Temp Sensor Offset: 00Thermistor Temp Sensor Scale: 64Thermistor Temp Table Elements:
1E