Equipment information
LeCroy WAVEJET 300 SERIES Oscilloscope
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Model:
WAVEJET 300 SERIES
Date:
2007
Category:
Group:
Description:
DSO
Information
The right tools make debugging and validating a faster and
smoother process. The WAVEJET 300 SERIES provides more
tools and greater performance than other oscilloscopes in the
100 MHz to 500 MHz range. It sets a new standard for portable
oscilloscopes.
The WAVEJET 300 SERIES offers a set of features and capabilities
not typically found in a portable Oscilloscope. Its small form
factor boasts the biggest, brightest, highest resolution display
in this class. It also provides connectivity through USB, GPIB,
and Ethernet. These features, plus the longest memory length
available in a small portable oscilloscope, make
the WaveJet truly unique.
1. Display
The 7.5" VGA display allows you to easily view
signal details. It also provides room to display
measurements and menus without cluttering the
waveform grid.
2. Power Up Time
The WaveJet is on and ready to use in less than
3 seconds.
3. Connectivity
Documenting your work is easy using the front-
mounted USB port on the WaveJet. Simply press
the Print button on the front panel to quickly save
screen images to your USB memory device.
4. Probe Sense Ring
Probe attenuation is automatically detected with
the WaveJet’s Probe sense ring, eliminating the
need to manually select the attenuation factor.
5. Portability
The small 4" footprint and light weight of the
WaveJet means it is easy to carry and use
anywhere, even when bench space is limited.
6. Auto Setup
Quickly configure vertical, horizontal, and trigger
settings with a single button press.
7. Communication
Communicate with WaveJet
using GPIB or Ethernet with
WaveJet’s available Plug-In remote control Accessories. Make
use of LeCroy’s ScopeExplorer or ActiveDSO
tools for easy communication between the
WaveJet and your PC.
8. Intensity/Replay Control
Rotate to control waveform intensity, or push to
toggle to Replay mode. In Replay mode, rotate
this knob to see a history of waveforms captured
by the WaveJet.
9. Active Channel Indicators
These channel LEDs are color matched to each
waveform on the display. The active channel for the
vertical controls is always lit to simplify operation.
10. Push Knobs
Push the Offset knob to automatically zero the
channel offset, or the Delay knob to automatically
center the trigger point on the screen.
11. Local Language User Interface
Select from 9 different language preferences.
Manual Type:
Datasheet
Pages:
8
Size:
3.73 Mbytes (3910277 Bytes)
Language:
english
Revision:
Manual-ID:
WJDSrevA
Date:
2007 02 28
Quality:
Electronic document, no scan, very well readable.
Upload date:
2021 01 16
MD5:
3a6c29d05ccc0567691c26a797ff4287
Downloads:
1593
Manual Type:
User Manual
Pages:
59
Size:
782.19 Kbytes (800965 Bytes)
Language:
english
Revision:
Manual-ID:
WJ-RCM-E
Date:
2007 02 01
Quality:
Electronic document, no scan, very well readable.
Upload date:
2021 01 12
MD5:
71cebb7e95592d2d7f2b8ac512a63a9c
Downloads:
224
Information
Remote Control Manual
1. INTRODUCTION ... 3
1.1 WJ-GPIB Hardware ... 3
1.2 WJ-LAN Hardware ... 3
2. INSTALLATION OF GPIB AND TCP/IP ... 4
WaveJet Remote Control Interface Installation Procedure ... 4
2.1 List of IEEE 488.1 Interface functions subsets implemented ... 5
2.2 Device behavior when the address is changed outside the range 0 to 30 ... 5
2.3 When a user-initiated address change is recognized by the device ... 5
2.4 Device setting at power-on, including commands which modify the power-on settings ... 5
2.5 Message exchange options ... 5
Size and behavior of input buffer ... 5
Queries that return more than one <RESPONSE MESSAGE UNIT> ... 5
Queries that generate a response when parsed ... 5
Queries that generate a response when read ... 5
Commands that are coupled ... 5
2.6 Functional elements used in constructing device-specific commands ... 6
2.7 Buffer size limitations related to block data ... 7
2.8 List of <PROGRAM DATA> elements ... 7
2.9 Response syntax for every query. ... 7
2.10 Device-to-device message transfer traffic that does not follow the rules for <RESPONSE
MESSAGE> elements ... 8
2.11 Size of block data responses ... 8
2.12 List of common commands and queries which are implemented ... 8
2.13 State of the device after successful completion of the Calibration query ... 9
2.14 Maximum length of the block used to define the trigger macro, if *DDT is implemented ... 9
2.15 Macro parameters ... 9
2.16 Response to the identification common query, *IDN? ... 10
2.17 Size of protected user data storage area if the *PUD command and *PUD? query are implemented
... 10
2.18 Size of resource description if the *RDT command or *RDT? query are implemented. ... 10
2.19 States affected by *RST, *LRN?, *RCL, and *SAV ... 10
2.20 Scope of self-test performed by the *TST? query ... 10
2.21 Additional status data structures used in the device’s status reporting ... 10
Status Byte Register ... 10
Service Request Enable Register ... 10
Standard Event Status Register ... 11
Standard Event Status Enable Register ... 11
Trigger Event Status Register ... 11
Trigger Event Status Enable Register ... 11
2.22 For each command, a statement describing whether it is overlapped or sequential ... 11
2.23 For each command device, the documentation shall specify the functional criteria that are met
when an operation complete message is generated in response to that command ... 11
3. REMOTE MENU ... 12
4. LIMITATIONS ON REMOTE FUNCTION ... 13
5. RESPONSE FORMATS ... 14
6. REMOTE COMMANDS ... 15