Agilent Technologies Sprinkler 54753a User Manual

Agilent 54753A and 54754A  
TDR Plug-in Modules  
Programmer’s Quick Reference  
 
Introduction  
Introduction  
54750A/83480A  
Mainframes  
For controlling 54753A and 54754A TDR plug-in modules that are installed in  
a 54750A or 83480A mainframes, refer to the following books:  
• This manual, the 54753A and 54754A TDR Plug-in Modules Programmer’s  
Quick Reference  
54753A and 54754A Programmer’s Guide for detailed information.  
54750A Oscilloscope and 83480A Analyzer Programmer’s Guide for infor-  
mation about programming the oscilloscope.  
54753A and 54754A User’s Guide for general information about the opera-  
tion of the TDR plug-in module.  
86100-Series  
Mainframes  
For controlling 54753A and 54754A TDR plug-in modules that are installed in  
an 86100-series mainframe, refer to the following books:  
• 86100-series programmer’s guide.  
• 86100-series online help.  
Notational  
computer type. All characters appearing in computer type are key  
Conventions  
words and must be entered exactly as shown.  
CAPITAL LETTERS. Capital letters indicate the short form of a command.  
The actual command is not case sensitive and can be entered in upper or  
lower case.  
<>. Angular brackets enclose words or characters that symbolize a program  
code parameter or an GPIB command.  
::= "is defined as." For example, <A> ::= <B> indicates that <A> can be  
replaced by <B> in any statement containing <A>.  
| "or." Indicates a choice of one element from a list. For example, <A> | <B>  
indicates <A> or <B> but not both.  
... An ellipsis (trailing dots) indicate that the preceding element may be  
repeated one or more times.  
iii  
 
Introduction  
[ ] Square brackets indicate that the enclosed items are optional.  
{ } When several items are enclosed by braces, one, and only one of these  
elements may be selected.  
Definitions  
d ::= A single ASCII numeric character, 0-9.  
n ::= A single ASCII non-zero, numeric character, 1-9.  
<NL> ::= Newline or Linefeed (ASCII decimal 10).  
<sp> ::= space character.  
<white_space> ::= space(s) and tabs.  
iv  
 
Contents  
Root Level Commands 4  
Acquire Commands 7  
Calibrate Commands 8  
Channel Commands 9  
Disk Commands 11  
Display Commands 12  
Function Commands 13  
Histogram Commands 19  
Limit Test Commands 20  
Marker Commands 21  
Mask Test Commands 23  
Measure Commands 25  
TDR Commands 37  
Waveform Commands 41  
Waveform Memory Commands 42  
3
 
Root Level Commands  
Command  
:BLANk {CHANnel<number> | WMEMory<number> |  
FUNCtion <number> | FFT | RESPonse<number> |  
HISTogram | PMEMory1}  
Turns off an active channel, function, waveform memory, pixel memory, FFT,  
histogram, or TDR response. The VIEW command turns them on.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For pixel memories (PMEMory): 1. For  
TDR response: 1, 2, 3, or 4.  
Command  
:COMMents {PLUGin<number>, <comments>}  
Sets the comments field for the plugin. This field is used to describe options  
included in the plugin, or for user commands about the plugin.  
<number> Represents the plugin slot numbered 1 through 4.  
<comments> Represents the unquoted string.  
4
 
Root Level Commands  
Command  
:DIGitize [<waveform_name>][,<waveform_name>]  
Invokes a special mode of data acquisition that is more efficient than using  
the RUN command. This command initializes the selected channels,  
functions, responses, or FFT to “unacquired,” then acquires them according  
to the current instrument settings. When all signals are completely acquired,  
the instrument is stopped.  
<waveform_name> {CHANnel<number> | FUNCtion<number> | FFT |  
RESPonse<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For responses:  
1, 2, 3, or 4.  
Command  
:MENU {APPLication | CHANnel<number> | ACQuire |  
TIMebase | TRIGger | DISK | DISPlay | MARker |  
MEASure | MATH | WAVeform | SETup | PRINt |  
HELP | UTILity | FFT | LTESt | HISTogram |  
MTESt | MEYE | TDR<number> | MTDR<number>}  
<number> For channels, indicates the slot (1 through 4) in which the channel resides,  
followed by an optional A or B identifying which of two possible channels in  
the slot is being referenced.  
For TDR, controls the TDR/TDT menus for channels 2 and 4.  
For MTDR, controls the TDR/TDT menus for channels 2 and 4.  
5
 
Root Level Commands  
Command  
:STORe:WAVEform {CHANnel<number> |  
FUNCtion<number> | WMEMory<number> | HISTogram |  
FFT | RESPonse<number>},{WMEMory<number>}  
Copies a channel, function, stored waveform, histogram, TDR response, or  
FFT to a waveform memory. The first parameters specifies the source of the  
copy and can be any channel, function, waveform memory, histogram, TDR  
response, or the FFT. The second parameter is the destination of the copy,  
and can be any waveform memory.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For responses: 1, 2, 3, or 4.  
Command  
:VIEW {CHANnel<number> | WMEMory<number> |  
FUNCtion<number> | FFT | RESPonse<number> |  
HISTogram | PMEMory1}  
Turns on a channel, function, pixel memory, waveform memory, TDR  
response, histogram, or FFT. Use the BLANk command to turn these off.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4. For  
pixel memories (PMEMory): 1.  
6
 
Acquire Commands  
Command  
:ACQuire:BEST[?] {THRuput | FLATness}  
When averaging is enabled with ACQuire:AVERage, the FLATness option  
improves the step flatness by using a signal processing algorithm within the  
instrument. You should use this option when performing TDR measurements  
or when step flatness is important. The THRuput option improves the  
instrument’s throughput and should be used whenever best flatness is not  
required.  
7
 
Calibrate Commands  
Command  
:CALibrate:SAMPlers[?] {DISable | ENABle}  
Enables or disables the samplers in the plug-in.  
8
 
Channel Commands  
Command  
:CHANnel<number>:OFFSet[?] <offset_value>  
For TDR and TDT applications, you may change the offset to magnify offset  
in some circumstances. This command is used to set the magnify offset as  
well as the offset.  
<number> An integer, 1-4, indicating the slot in which the channel resides.  
<offset_value> Offset value at center screen; can be volts, amperes, or other units.  
Command  
:CHANnel<number>:RANGe[?] <range_value>  
For TDR and TDT applications, you may change the range to magnify range  
in some circumstances. This command is used to set the magnify range as  
well as the range.  
<number> An integer, 1-4, indicating the slot in which the channel resides.  
<range_value> Full-scale voltage of the specified channel number.  
Command  
:CHANnel<number>:SCALe[?] <scale_value>  
For TDR and TDT applications, you may change the scale to magnify scale in  
some circumstances. This command is used to set the magnify scale as well  
as the scale.  
<number> An integer, 1-4, indicating the slot in which the channel resides.  
<scale_value> Vertical scale of the channel in units per division.  
9
 
Channel Commands  
Command  
:CHANnel<number>:TDRSkew <percent> [%]  
This command sets the TDR skew for the given channel. The TDR skew  
control moves the TDR step relative to the trigger position. The control may  
be set from -100 to 100 percent of the allowable range. This command is only  
applicable to TDR channels.  
<number> An integer, 1 through 4, indicating the slot in which the channel resides,  
followed by an optional A or B identifying which of two possible channels in  
the slot is being referenced.  
<percent> A number between -100 and 100, used to set the step position.  
Command  
:CHANnel<number>:UNITs[?] {VOLT | AMPere | WATT |  
UNKNown | OHM | REFLect | GAIN}  
For TDR and TDT applications, you can select the units OHM, REFLect, and  
GAIN. OHM and REFLect may be selected for TDR channels, while GAIN  
may be selected for TDT channels. You must perform a normalization and a  
reference plane calibration to select these units.  
<number> An integer, 1-4, indicating the slot in which the channel resides.  
10  
 
Disk Commands  
Command  
:DISK:LOAD "<filename>", <source>  
Loads a setup, waveform, database, mask, TDR/TDT calibration, or pixel  
memory from the disk. The filename does not include a suffix. The suffix  
supplied by the instrument depends on the source and file format specified.  
The TDRTDT option is a file type choice used to load TDR/TDT calibration  
values into the instrument.  
<source> {DATabase | MASK | PMEMory 1 | SETup |  
WMEMory<number> | TDRTDT}  
<filename> Is an MS-DOS compatible file name up to 8 characters long.  
<number> Represents waveforms 1, 2, 3, or 4.  
Command  
:DISK:STORe <source>, "<filename>"[,<format>]  
Stores a setup, waveform, database, mask, TDR response, TDR/TDT  
calibration, or pixel memory to the disk. The filename does not include a  
suffix. The suffix is supplied by the instrument depending on the source and  
file format specified. The database may only be saved in internal format.  
<source> {DATabase | MASK | PMEMory 1 | SETup |  
WMEMory<number> | TDRTDT}  
<filename> Is an MS-DOS compatible file name up to 8 characters long.  
<number> Represents waveforms 1, 2, 3, or 4.  
<format> {TEXT [,YVALues | VERBose] | INTernal}  
11  
 
Display Commands  
Command  
:DISPlay:ASSign[?] {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | FFT},{UPPer | LOWer}  
Assigns the specified channel, waveform, function, TDR response, or FFT to  
a particular portion of the waveform area on the screen. This command has  
no effect when the graticule format is single.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
12  
 
Function Commands  
Command  
:FUNCtion{1 | 2}:ADD <source>[,<source>]  
Defines a function that takes the algebraic sum of two defined operands.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> |  
<float_value>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
Command  
:FUNCtion{1 | 2}:BWLimit {{CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number>}, <bandwidth>}  
Provides a bandwidth limit filter function. You can use this function on  
waveforms to limit the bandwidth of the signal. In TDR or TDT applications  
where the accuracy of normalization is not required, you can use this to  
simulate a bandlimited signal through a device under test.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<bandwidth> Real number indicating frequency limit for the specified function.  
13  
 
Function Commands  
Command  
:FUNCtion{1 | 2}:DIFFerentiate {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | <float_value>}  
Computes the discrete derivative of the defined operand’s waveform.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
Command  
:FUNCtion{1 | 2}:DIVide <source>[,<source>]  
Defines a function that divides the first operand by the second operand.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> |  
<float_value>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
Command  
:FUNCtion{1 | 2}:FFTMagnitude {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | <float_value>}  
Defines a function that computes the FFT magnitude.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
14  
 
Function Commands  
Command  
:FUNCtion{1 | 2}:INTegrate {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | <float_value>}  
Defines a function that computes the integral of the defined operand’s  
waveform.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
Command  
:FUNCtion{1 | 2}:INVert {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | <float_value>}  
Defines a function that inverts the defined operand’s waveform by  
multiplying by -1.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
Command  
:FUNCtion{1 | 2}:MAGNify {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | <float_value>}  
Defines a function that is a copy of the operand. The magnify function is a  
software magnify. No hardware settings are altered as a result of using this  
function. It is useful for scaling channels, another function, TDR/TDT  
responses and memories with the RANGE and OFFSET commands in this  
subsystem.  
Magnify performs the same operation as the "ONLY" operator, and is the  
preferred operator of the two. "ONLY" is included in this instrument for  
compatibility with previous instruments.  
15  
 
Function Commands  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
Command  
:FUNCtion{1 | 2}:MAXimum {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | <float_value>}  
Defines a function that computes the maximum value of the operand  
waveform in each time bucket.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
Command  
:FUNCtion{1 | 2}:MINimum {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | <float_value>}  
Defines a function that computes the minimum of each time bucket for the  
defined operand’s waveform.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
16  
 
Function Commands  
Command  
:FUNCtion{1 | 2}:MULTiply <source>[,<source>]  
Defines a function that algebraically multiplies the first operand by the  
second operand.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> |  
<float_value>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
Command  
:FUNCtion{1 | 2}:SUBTract <source>[,<source>]  
Defines a function that algebraically subtracts the second operand from the  
first operand.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> |  
<float_value>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
17  
 
Function Commands  
Command  
:FUNCtion{1 | 2}:VERSus <source>[,<source>]  
Defines a function for an X-versus-Y display. The first operand defines the  
Y axis and the second defines the X axis. The Y-axis range and offset are  
initially equal to that of the first operand and can be adjusted with the  
RANGE and OFFSET commands.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> |  
<float_value>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<float_value> A real number.  
18  
 
Histogram Commands  
Command  
:HISTogram:WINDow:SOURce[?] {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | FFT}  
Selects the source of the histogram window. The histogram window will track  
the source’s vertical and horizontal scale.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR response: 1, 2, 3, or 4.  
19  
 
Limit Test Commands  
Command  
:LTESt:SWAVeform[?]  
<source>,<destination>,[,<filename>[,<format>]]  
Saves waveforms from a channel, function, histogram, TDR response, or  
waveform memory in the event of a failure detected by the limit test. Each  
waveform source can be individually specified, allowing multiple channels or  
functions to be saved to disk or waveform memories. Setting a particular  
source to OFF removes any waveform save action from that source.  
<source> {CHANnel<number> | FUNCtion<number> | HISTogram  
| RESPonse<number> | WMEMory<number>}  
<destination> {OFF | WMEMory<number> | DISK}  
When DISK is selected, a file name is required.  
<filename> A descriptive file prefix consisting of up to four characters. If no filename is  
specified, the prefix defaults to CH1A..CH4B, FN1, FN2, FFT, HIST,  
MEM1..MEM4, RSP1..RSP4.  
<format> {TEXT [,YVALues | VERBose] | INTernal}  
20  
 
Marker Commands  
Command  
Command  
:MARKer:MODE[?] {OFF | MANual | WAVeform |  
MEASurement | HISTogram | TDRTDT}  
Sets the marker mode.  
:MARKer:PROPagation[?] {DIELectric | METer | FEET}  
<propagation>  
Sets the propagation velocity for TDR and TDT measurements. The  
propagation may be specified as a dielectric constant or in meters per second  
or feet per second. The value is used to determine the distance from the  
reference plane in TDR and TDT marker measurements.  
<propagation> Dielectric constant or propagation value.  
Command  
:MARKer:REFerence[?] {TRIGger | REFerence}  
Specifies the marker reference for TDR and TDT style markers. If the  
reference is TRIGger, then all horizontal axis marker measurements are made  
with respect to the trigger point. If the reference is REFerence, then all  
horizontal axis marker measurements are made with respect to the reference  
plane. You must perform a normalization and reference plane calibration  
before using a reference plane reference. This feature is available only for  
TDR and TDT applications.  
21  
 
Marker Commands  
Command  
:MARKer:X1Y1source[?] {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | HISTogram | FFT}  
Sets the source for the X1 and Y1 markers.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B indicating which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR response: 1, 2, 3, or 4.  
Command  
:MARKer:X2Y2source[?] {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | HISTogram | FFT}  
Sets the source for the X2 and Y2 markers.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B indicating which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR response: 1, 2, 3, or 4.  
Command  
:MARKer:XUNITs[?] {SECond | METer | FEET}  
Sets the units for horizontal display in TDR and TDT applications. The units  
may be in seconds, meters, or feet relative to the trigger or reference plane.  
The marker mode must be TDRTDT to use this feature. See the  
:MARKer:REFerence command for information on setting the reference point.  
Command  
:MARKer:YUNITs[?] {VOLT | OHM | REFlect}  
Sets the units for vertical display in TDR and TDT applications. The units  
may be in volts, ohms, or % relection. The marker mode must be TDRTDT to  
use this features.  
22  
 
Mask Test Commands  
Command  
:MTESt:AMASk:SOURce[?] {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | FFT}  
Selects the source for the interpretation of the AMASk:XDELta and  
AMASk:YDELta parameters when AMASk:UNITs is set to CURRent. When  
UNITs are CURRent, the XDELta and YDELta parameters are defined in  
terms of the measurement system of the selected source.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B indicating which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR response: 1, 2, 3, or 4.  
Command  
:MTESt:SWAVeform[?]  
<source>,<destination>[,<filename>[,<format>]]  
Saves waveforms from a channel, function, TDR response, histogram, or  
waveform memory in the event of a failure detected by the Mask Test. Each  
waveform source can be individually specified, allowing multiple channels or  
functions to be saved to disk or waveform memories. Setting a particular  
source to OFF removes any waveform save action from that source.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> | HISTogram |  
FFT}  
23  
 
Mask Test Commands  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
<destination> {OFF | WMEMory<number> | DISK}  
<filename> A descriptive file prefix consisting of up to four characters. If no filename is  
specified, the prefix defaults to CH1A..CH4B, FN1, FN2, FFT, HIST,  
MEM1..MEM4, RSP1..RSP4.  
<format> {TEXT [,YVALues | VERBose ] | INTernal}  
Command  
:MTESt:SCALe:SOURce[?] {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number>}  
Sets the source used by the mask subsystem for interpretation of the  
SCALe:Y1 and SCALe:Y2 parameters. SCALe:Y1 and SCALe:Y2 set the  
vertical boundaries of the coordinate system for mask testing, and are  
affected by the scaling of the selected source.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B indicating which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR response: 1, 2, 3, or 4.  
24  
 
Measure Commands  
Command  
:MEASure:DELTatime[?] [<source>[,<source>]]  
Measures the delta time between two edges. If one source is specified, the  
delta time from the leading edge of the specified source ot the trailing edge of  
the specified source is measured. If two sources are specified, the delta time  
from the leading edge on the first source to the trailing edge on the second  
source is measured.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:DUTycycle[?] [<source>]  
Measures the ratio of the positive pulse width to the period.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
25  
 
Measure Commands  
Command  
:MEASure:FALLtime[?] [<source>]  
Measures the time at the upper threshold of the falling edge, measures the  
time at the lower threshold of the falling edge, then calculates the fall time.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:FREQuency[?] [<source>]  
Measures the frequency of the first complete cycle on the screen using the  
mid-threshold levels of the waveform (50% levels if standard measurements  
are selected).  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
26  
 
Measure Commands  
Command  
:MEASure:NWIDTh[?] [<source>]  
Measures the width of the first negative pulse on the screen using the  
mid-threshold levels of the waveform (50% levels with standard  
measurements selected).  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:OVERshoot[?] [<source>]  
Measures the width of the overshoot of the first edge on the screen.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:PERiod[?] [<source>]  
Measures the period of the first complete cycle on the screen using the  
mid-threshold levels of the waveform (50% levels with standard  
measurements selected).  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
27  
 
Measure Commands  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:PREShoot[?] [<source>]  
Measures the preshoot of the first edge on the screen.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:PWIDth[?] [<source>]  
Measures the width of the first positive pusle on the screen using the  
mid-threshold levels of the waveform (50% levels with standard  
measurements selected).  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
28  
 
Measure Commands  
Command  
:MEASure:RISetime[?] [<source>]  
Measures the rise time of the first displayed edge by measuring the time at  
the lower threshold of the rising edge, measuring the time at the upper  
threshold of the rising edge, then calculating the rise time.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:SOURce[?] <source>[,<source>]  
Selects the source for measurements. Two sources can be specified with this  
command. All measurements except MEASure:DELTatime are made on the  
first specified source. The delta time measurement uses two sources if two  
are specified. If only one source is specified, the delta time measurement  
uses that source for both of its parameters.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> | HISTogram |  
FFT}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
29  
 
Measure Commands  
Command  
:MEASURE:TEDge[?] <meas_thres_txt>,  
<slope><occurrence>[,<source>]  
Measures the time interval between the trigger event and the specified  
threshold level and transition.  
<meas_thres_ {UPPer | MIDDle | LOWer}  
txt>  
<slope> {- (minus) for falling | + (plus) (optional) for rising}  
<occurrence> Numeric value representing which edge of the occurrence should be used for  
the measurement.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:TMAX[?] [<source>]  
Measures the first time at which the maximum voltage of the source  
waveform occurred. When FFT is the specified source, the frequency at  
which the first maximum value occurred is measured.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> | FFT}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
30  
 
Measure Commands  
Command  
:MEASure:TMIN[?] [<source>]  
Measures the time at which the first minimum voltage of the source  
waveform occurred. When FFT is the specified source, the frequency at  
which the first minimum value occurred is measured.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> | FFT}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:TVOLt[?] <voltage>,  
<slope><occurrence>[,<source>]  
Measures the time interval between the trigger event and the defined voltage  
level and transition.  
<voltage> Voltage level at which time will be measured.  
<slope> The direction of the waveform change when the specified voltage is crossed,  
either rising (+) or falling (-).  
<occurrence> The number of the crossing to be reported (if one, the first crossing is  
reported; if two, the second is reported, and so on).  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
31  
 
Measure Commands  
Command  
:MEASure:VAMPlitude[?] [<source>]  
Calculates the difference between the top and base voltage of the specified  
source.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:VAVerage[?] {CYCLe | DISPlay},[<source>]  
Calculates the average voltage over the displayed waveform.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:VBASe[?] [<source>]  
Measures the statistical base of the waveform.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
32  
 
Measure Commands  
Command  
:MEASure:VLOWer[?] [<source>]  
Measures the voltage value at the lower threshold of the waveform.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:VMAX[?] [<source>]  
Measures the absolute maximum voltage present on the selected source  
waveform. When FFT is the specified source, the maximum value in  
spectrum is measured.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> | FFT}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:VMIDdle[?] [<source>]  
Measures the voltage value at the middle threshold of the waveform.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
33  
 
Measure Commands  
Command  
:MEASure:VMIN[?] [<source>]  
Measures the absolute minimum voltage present on the selected source  
waveform. When FFT is the specified source, the minimum value in the  
spectrum is measured.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> | FFT}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:VPP[?] [<source>]  
Measures the absolute maximum and minimum voltages on the selected  
source, then calculates the peak-to-peak voltage as the difference between  
the two voltages. When FFT is the specified source, the range of values in the  
spectrum is measured.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> | FFT}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
34  
 
Measure Commands  
Command  
:MEASure:VRMS[?] {CYCLe | DISPlay}, {AC | DC}  
[,<source>]  
Measures the RMS voltage of the selected waveform by subtracting the  
average value of the waveform from each data point on the display.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:VTIMe[?] <time>[,<source>]  
Measures the voltage at the specified time. The time is referenced to the  
trigger event and must be on the screen. When FFT is the specified source,  
the value at the specified frequency is measured.  
<time> Displayed time from the trigger in seconds, or frequency in Hertz for FFT.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number> | FFT}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
35  
 
Measure Commands  
Command  
:MEASure:VTOP[?] [<source>]  
Measures the statistical top of the selected source waveform.  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
Command  
:MEASure:VUPper[?] [<source>]  
Measures the voltage value at the upper threshold of the waveform.]  
<source> {CHANnel<number> | FUNCtion<number> |  
RESPonse<number> | WMEMory<number>}  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
36  
 
TDR Commands  
Command  
Command  
Command  
Command  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:CALibrate  
Begins a TDR or TDT normalization and reference plane calibration. Which  
calibration is done (TDR or TDT) depends on the setting of the TDRTDT  
control.  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:CALibrate  
:CANCel  
Activates the cancel softkey during a TDR or TDT normalization and  
reference plane calibration.  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:CALibrate  
:CONTinue  
Activates the continue softkey during a TDR or TDT normalization and  
reference plane calibration.  
:TDR{2 | 4}:PRESet  
Sets up the instrument for TDR or TDT measurements, based on the  
stimulus.  
37  
 
TDR Commands  
Command  
:TDR{2 | 4}:RATE[?] {AUTO | <rate>}  
Sets the period of the TDR pulse generator. You should usually leave this set  
to AUTO unless you need to define a specific rate. In AUTO, the instrument  
will attempt to keep subsequent periods off screen when the timebase is  
changed.  
<rate> Period to which you want to set the generator, in Hertz. You can add a suffix  
to indicate that the rate is in Hertz (HZ, KHZ, MHZ, and so on).  
Command  
Command  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}[?] {OFF |  
DIFFerential | COMMonmode | NORMalize}  
Turns on or off the response of a TDR or TDT stimulus.  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:HORizontal[?]  
{TSOurce, MANual}  
Specifies whether the TDR/TDT response should track the source channel’s  
horizontal scale (TSOurce), or use a user-defined scale specified with the  
HORizontal:POSItion and HORizontal:RANGe commands (MANual). TSOurce  
is the usual setting.  
Command  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4):  
HORizontal:POSition[?] <position>  
Specifies the horizontal position of the TDR/TDT response when horizontal  
tracking is set to manual. The position is always referenced to center screen.  
<position> Offset from the center of the screen, in seconds.  
Command  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:  
HORizontal:RANGe[?] <range>  
Specifies the range of the TDR/TDT response when the horizontal tracking is  
set to manual.  
<range> Horizontal range in seconds.  
38  
 
TDR Commands  
Command  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:RISetime[?]  
<risetime>  
Sets the risetime for the normalized response. The risetime setting is limited  
by the timebase settings and the record length.  
<risetime> Risetime setting in seconds.  
Command  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:TDRDest[?]  
CHANnel<number>  
Selects a TDR destination channel for an external stimulus. When you use an  
external stimulus, you must use this command to specify where the TDR  
channel is coming into the instrument.  
<number> An integer, 1 through 4, indicating the slot in which the channel resides,  
followed by an optional A or B identifying which of two possible channels in  
the slot is being referenced.  
Command  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:TDRTDT[?]  
{TDR | TDT}  
Sets the instrument to make either TDR or TDT measurements. When the  
setting is TDT, both TDR and TDT measurements can be made  
simultaneously. You must select a TDT destination channel before selecting  
TDT.  
Command  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:TDTDest[?]  
{NONE | CHANnel<number>}  
Selects a destination channel for a normalization measurement.  
<number> An integer, 1 through 4, indicating the slot in which the channel resides,  
followed by an optional A or B identifying which of two possible channels in  
the slot is being referenced.  
39  
 
TDR Commands  
Command  
Command  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:VERTical[?]  
{TSOurce | MANual}  
Specifies whether the TDR/TDT response should track the source channel’s  
vertical scale (TSOurce), or use a user-defined scale specified with the  
VERTical:OFFSet and VERTical:RANGe commands (MANual). TSOurce is  
the usual setting.  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:  
VERTical:OFFSet[?] <offset_value>  
Sets the vertical position of the specified response when vertical tracking is  
set to MANual. The position is always referenced to center screen.  
<offset_value> Offset value in volts, watts, or decibels, depending on the current channel  
UNITs. Suffix UNITs are ignored; only the scalar part is used (“m” in “mw”).  
Command  
:TDR{2 | 4}:RESPonse{1 | 2 | 3 | 4}:  
VERTical:RANGe[?] <range_value>  
Specifies the vertical range of the TDR/TDT response when the vertical  
tracking mode is set to MANual.  
<range_value> Vertical range in volts, watts, or decibels, depending on the current UNITs  
setting and suffix supplied. (The suffix does not set the UNITs; it is ignored.)  
Command  
:TDR{2 | 4}:STIMulus[?] {OFF | ON | ON1 | ON2 |  
ON1AND2 | DIFFerential | COMMonmode |EXTernal |  
ON3 | ON4 | ON3AND4}  
Turns the TDR/TDT stimulus on or off.  
40  
 
Waveform Commands  
Command  
:WAVeform:SOURce[?] {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | DATabase | HISTogram | FFT}  
Selects a channel, function, TDR response, waveform memory, database,  
histogram, or FFT as the waveform source.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. For TDR responses: 1, 2, 3, or 4.  
41  
 
Waveform Memory Commands  
Command  
:WMEMory<number>:SAVE {CHANnel<number> |  
FUNCtion<number> | RESPonse<number> |  
WMEMory<number> | HISTogram | FFT}  
Stores the specific channel, waveform memory, function, histogram, or FFT  
to the waveform memory.  
<number> For channels: an integer, 1 through 4, indicating the slot in which the channel  
resides, followed by an optional A or B identifying which of two possible  
channels in the slot is being referenced. For functions: 1 or 2. For waveform  
memories (WMEMory): 1, 2, 3, or 4. Storing a waveform memory to itself  
does not change the memory. For TDR responses: 1, 2, 3, or 4.  
42  
 

AAMP of America TV Cables PXDX KI User Manual
Acoustic Research Headphones AW722 User Manual
Adcom Stereo Amplifier GFA 7700 User Manual
Advantech Computer Hardware PCA 6186 User Manual
Advantech Computer Hardware PCA 6187 User Manual
Aiwa Car Stereo System CDC MP3 YU User Manual
Aiwa DVD Player XD DV520 User Manual
AOSafety Respiratory Product M Tac User Manual
A T International Cordless Telephone CL82101 User Manual
Axis Communications Security Camera AXIS 2420 User Manual