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InfiniiVision DSO7014B
Agilent Technologies InfiniiVision DSO7014B Manuals
Manuals and User Guides for Agilent Technologies InfiniiVision DSO7014B. We have
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Agilent Technologies InfiniiVision DSO7014B manuals available for free PDF download: User Manual, Datasheet, Product Fact Sheet
Agilent Technologies InfiniiVision DSO7014B User Manual (432 pages)
7000B Series
Brand:
Agilent Technologies
| Category:
Test Equipment
| Size: 8.82 MB
Table of Contents
Figure 18. Using TV Holdoff to Synchronize to Color Field 1 or
1
Safety Notices
2
Table 1. 7000B Series Model Numbers, Bandwidths, and Sampling Rates
4
Table of Contents
7
Figures
21
Tables
23
Getting Started
25
Inspect the Package Contents
26
Tilt the Oscilloscope for Easy Viewing
28
Power-On the Oscilloscope
29
Power Requirements
29
Ventilation Requirements
29
To Mount the Oscilloscope in a Rack
29
To Power-On the Oscilloscope
30
Recall the Default Oscilloscope Setup
31
Table 1. Default Configuration Settings
31
Input a Waveform and Autoscale
32
How Autoscale Works
33
Become Familiar with Oscilloscope Controls and Connectors
34
Front Panel Controls and Connectors (4-Channel)
35
Front Panel Controls and Connectors (2-Channel, Differences Only)
36
Front Panel Control and Connector Descriptions
37
Do Not Connect a Host Computer to the Oscilloscope's USB Host Port
37
Rear Panel (4-Channel)
42
Rear Panel (2-Channel)
43
Rear Panel Connector Descriptions
44
Front Panel Overlays for Different Languages
45
Using the Oscilloscope Softkey Menus
46
Become Familiar with the Osciilloscope Display
48
Figure 1. Interpreting the Oscilloscope Display
48
Access the Built-In Quick Help
49
To View Quick Help
49
To Select the Quick Help Language
50
To Get the Latest Quick Help
50
Probing the Device under Test
51
Analog Input Impedance (50 Ohm or 1 Mohm)
52
Autoprobe Interface
52
Passive Probes
53
Active Probes
53
Table 2 Passive Probes
53
Table 3 Active Probes
54
Connect the Probes to the Oscilloscope
55
Maximum Input Voltage at Analog Inputs
55
Do Not Float the Oscilloscope Chassis
55
Compensating Passive Probes
56
Calibrating Probes
57
Manually Setting the Probe Attenuation Factor
59
Digital Probes
60
Displaying Waveforms
61
Using the Horizontal Controls
62
To Adjust the Horizontal (Time/DIV) Scale
63
To Adjust the Horizontal Delay (Position)
63
Panning and Zooming Single or Stopped Acquisitions
64
To Change the Horizontal Time Mode (Normal, XY, or Roll)
65
Figure 2 Example of Centering a Signal on the Display
67
Figure 3 Signal Centered on the Display
67
Figure 4 Cursors Set on Displayed Signal
68
Figure 5 Cursors Set to Center of Signal
69
Figure 6 Signals Are 90 out of Phase
70
To Display the Zoomed Time Base
71
Figure 7 Signals Are in Phase
71
To Change the Horizontal Scale Knob's Coarse/Fine Adjustment Setting
73
To Position the Time Reference (Left, Center, Right)
74
To Navigate the Time Base
74
Using the Vertical Controls
77
To Turn Waveforms on or off (Channel or Math)
78
To Adjust the Vertical Scale
78
To Adjust the Vertical Position
78
To Specify Channel Coupling
79
To Specify Channel Input Impedance
79
To Specify Bandwidth Limiting
80
To Change the Vertical Scale Knob's Coarse/Fine Adjustment Setting
81
To Invert a Waveform
81
Setting Analog Channel Probe Options
82
To Specify the Channel Units
82
To Specify the Probe Attenuation
82
To Specify the Probe Skew
83
To Calibrate a Probe
83
Changing the Display Settings
84
To Adjust Waveform Intensity
84
Figure 8 Amplitude Modulation Shown at 100% Intensity
84
To Set or Clear Infinite Persistence
85
Figure 9 Amplitude Modulation Shown at 40% Intensity
85
To Clear the Display
86
To Adjust the Grid Brightness
86
To Display Waveforms as Vectors or Dots
87
To Freeze the Display
87
Using Labels
89
To Turn the Label Display on or off
89
To Assign a Predefined Label to a Channel
90
To Define a New Label
91
To Load a List of Labels from a Text File You Create
92
To Reset the Label Library to the Factory Default
93
Triggering
95
Triggering - General Information
97
Trigger Mode and Coupling Menu
98
Auto and Normal Trigger Modes
99
Choosing Auto Trigger Mode or Normal Trigger Mode
99
Auto Mode
100
Normal Mode
100
Trigger Level Adjustment
102
Trigger Coupling
103
Trigger Noise Rejection
104
HF Reject
105
LF Reject
105
Noise Rejection
106
Trigger Holdoff
107
Trigger Holdoff Operating Hints
107
To Set Holdoff
107
External Trigger Input
109
2-Channel Oscilloscope External Trigger Input
109
Maximum Voltage at 2-Channel Oscilloscope External Trigger Input
110
4-Channel Oscilloscope External Trigger Input
111
Maximum Voltage at 4-Channel Oscilloscope External Trigger Input
111
Trigger Types
112
Duration Trigger
114
Qualifier Time Set Softkey
115
Qualifier Time Set Softkey
116
Edge Trigger
117
Glitch or Narrow Pulse Capture
119
Figure 10 15 Ns Narrow Pulse, 20 Ms/DIV, Normal Mode
120
Figure 11 15 Ns Narrow Pulse, 20 Ms/DIV, Peak Detect Mode
121
Using Peak Detect Mode to Find a Glitch
121
Nth Edge Burst Trigger
123
Pattern Trigger
125
Hex Bus Pattern Trigger
126
Pulse Width Trigger
128
Qualifier Time Set Softkey
130
Sequence Trigger
131
Figure 12 Sequence Trigger Flowchart
131
Define the "Find" Stage
132
Define the "Trigger On" Stage
134
Define the Optional "Reset On" Stage
136
Adjust the Trigger Level
137
TV Trigger
138
TV Triggering Examples
142
To Trigger on a Specific Line of Video
142
Figure 13 Example: Triggering on Line
143
To Trigger on All Sync Pulses
144
Figure 14 Triggering on All Lines
144
To Trigger on a Specific Field of the Video Signal
145
Figure 15 Triggering on Field
145
To Trigger on All Fields of the Video Signal
146
Figure 16 Triggering on All Fields
146
To Trigger on Odd or Even Fields
147
Figure 17 Triggering on Color Field 1 Alternating with Color Field
148
Table 4. Half-Field Holdoff Time
149
USB Trigger
150
Measurements and Math Functions
153
List of Automatic Measurements
154
Making Automatic Measurements
156
Measurement Statistics
157
Measurement Thresholds
160
Measurement Definitions
162
Time Measurements
162
Figure 19 Isolating an Event for Frequency Measurement
164
Delay and Phase Measurements
166
Voltage Measurements
169
Overshoot and Preshoot Measurements
174
Figure 20 Isolating Area for Top Measurement
174
Figure 21 Automatic Overshoot Measurement
176
Cursor Measurements
177
To Make Cursor Measurements
178
Cursor Examples
180
Figure 22. Cursors Used to Measure Pulse Widths Other than Middle Threshold
180
Figure 23 Cursors Measure Frequency of Pulse Ringing
181
Figure 24 Cursors Track Zoom Sweep
181
Figure 25 Measuring Pulse Width with Cursors
182
Figure 26 Moving the Cursors Together to Check Pulse Width Variations
182
Math Functions
183
To Use Waveform Math
183
To Perform a Math Function Upon an Arithmetic Operation
184
Math Scale and Offset
184
Units
185
Multiply
187
Figure 27 Example of Multiply
188
Add or Subtract
189
Figure 28 Example of Subtract
190
Differentiate
191
Figure 29 Example of Differentiate Function
192
Integrate
193
Figure 30 Integrate and Signal Offset
194
Square Root
195
Figure 31 Example of (Square Root)
196
FFT Measurement
197
Figure 32 Aliasing
198
FFT Operation
199
Saving, Recalling, and Printing
205
Saving and Recalling Data
206
Selecting a Destination for Your Saved Data
206
Table 5 Saving Oscilloscope Data
206
Selecting a File Name
208
Saving Waveform Trace and Oscilloscope Setup
209
Display Image and Waveform Data File Formats
210
Choosing Save Settings
211
To Save a Waveform And/Or Setup to a USB Mass Storage Device
215
Table 6 Recommended Signal Mapping
215
To Save a Waveform And/Or Setup to the Oscilloscope's Internal Memory
216
To Recall Waveform Trace And/Or Oscilloscope Setup
216
File Explorer
217
Printing Screens
220
To Print the Oscilloscope's Display
220
Options
221
Palette
221
Acquisition Modes
223
Starting, Stopping, and Single Acquisitions (Run Control)
224
To Start and Stop an Acquisition
224
To Make a Single Acquisition
225
Acquisition Modes
227
At Slower Sweep Speeds
227
Selecting the Acquisition Mode
227
Normal Mode
227
Peak Detect Mode
228
High Resolution Mode
228
Table 7. Infiniivision Series Oscilloscope Bandwidths, Maximum Sample Rates,And
228
Averaging Mode
229
Figure 33 Random Noise on the Displayed Waveform
231
Figure 34 128 Averages Used to Reduce Random Noise
231
Realtime Sampling Option
232
Segmented Memory
234
Using Segmented Memory
234
Web Interface
239
Setting up the Oscilloscope's LAN Connection
241
To Establish a LAN Connection
241
Stand-Alone (Point-To-Point) Connection to a PC
242
Accessing the Web Interface
244
Browser Web Control
245
Remote Front Panel
245
Remote Programming
247
Remote Programming with Agilent IO Libraries
249
Get Image
250
Identification Function
251
Instrument Utilities
252
Setting a Password
253
Serial Decode/Lister
255
Serial Decode
256
Lister
257
Searching Lister Data
259
CAN/LIN Triggering and Serial Decode
261
Setup for CAN Signals
262
CAN Triggering
264
CAN Serial Decode
266
Interpreting CAN Decode
267
CAN Totalizer
268
Interpreting CAN Lister Data
269
Searching for CAN Data in the Lister
270
Setup for LIN Signals
272
LIN Triggering
274
LIN Serial Decode
276
Interpreting LIN Decode
277
Interpreting LIN Lister Data
278
Searching for LIN Data in the Lister
279
C/SPI Triggering and Serial Decode
281
Setup for I C Signals
282
Setup for I2C Signals
282
I2C Triggering
284
I 2 C Serial Decode
288
I2C Serial Decode
288
Interpreting I 2 C Decode
289
Interpreting I 2 C Lister Data
290
Searching for I 2 C Data in the Lister
291
Setup for SPI Signals
292
SPI Triggering
295
SPI Serial Decode
297
Interpreting SPI Decode
298
Interpreting SPI Lister Data
299
Searching for SPI Data in the Lister
300
I 2 S Triggering
301
Setup for I2 Signal
301
S Triggering and Serial Decode
301
Setup for I S Signals
302
I S Triggering
306
I 2 S Serial Decode
309
Interpreting I 2 S Decode
310
Interpreting I 2 S Lister Data
311
Searching for I 2 S Data in the Lister
312
Flexray Triggering and Serial Decode
313
Setup for Flexray Signals
314
Flexray Triggering
315
Triggering on Flexray Frames
315
Triggering on Flexray Errors
316
Triggering on Flexray Events
317
Flexray Serial Decode
318
Interpreting Flexray Frame Decode
319
Flexray Totalizer
320
Interpreting Flexray Lister Data
321
Searching for Flexray Data in the Lister
322
MIL-STD 1553 Triggering and Serial Decode
323
Probing MIL-STD 1553 Signals
324
Setup for MIL-STD 1553 Signals
325
MIL-STD 1553 Triggering
326
MIL-STD 1553 Serial Decode
327
Interpreting MIL-STD 1553 Decode
328
Viewing MIL-STD 1553 Data in the Lister
329
Searching for MIL-STD 1553 Data in the Lister
330
UART/RS232 Triggering and Serial Decode
333
Setup for UART/RS232 Signals
334
UART/RS232 Triggering
335
UART/RS232 Serial Decode
338
Interpreting UART/RS232 Decode
339
UART/RS232 Totalizer
340
Interpreting UART/RS232 Lister Data
341
Searching for UART/RS232 Data in the Lister
342
Analyzing Data
343
Performing Mask Tests
344
To Create a Mask from a "Golden" Waveform (Automask)
344
Setup Options
346
Mask Test Trigger Output
348
Mask Statistics
348
To Manually Modify a Mask File
350
Building a Mask File
353
Enabling Presision Measurements and Math
357
Digital Channels
359
To Connect the Digital Probes to the Device under Test
360
Probe Cable for Digital Channels
360
Acquiring Waveforms Using the Digital Channels
363
To Display Digital Channels Using Autoscale
364
Example
364
Figure 35 Autoscale of Digital Channels 0 to 3 (MSO Models Only)
365
Interpreting the Digital Waveform Display
366
To Change the Displayed Size of the Digital Channels
367
To Switch a Single Channel on or off
367
To Switch All Digital Channels on or off
367
To Switch Groups of Channels on or off
368
To Change the Logic Threshold for Digital Channels
368
To Reposition a Digital Channel
369
To Display Digital Channels as a Bus
369
Digital Channel Signal Fidelity: Probe Impedance and Grounding
374
Input Impedance
374
Figure 36 DC and Low-Frequency Probe Equivalent Circuit
375
Figure 37 High-Frequency Probe Equivalent Circuit
375
Figure 38. Impedance Versus Frequency for both Probe Circuit Models
376
Probe Grounding
376
Figure 39 Common Mode Input Voltage Model
377
Best Probing Practices
378
To Replace Digital Probe Leads
379
Table 8 Digital Probe Replacement Parts
379
Oscilloscope Utility Settings
381
Configuring the [Quick Action] Key
382
Setting Oscilloscope Preferences
383
To Choose "Expand About" Center or Ground
383
To Disable/Enable Antialiasing
383
To Set up the Screen Saver
384
To Set Autoscale Preferences
385
To Disable/Enable Transparent Backgrounds
386
To Load the Default Label Library
386
To Specify the Measurement Window for Zoom Mode
386
Setting Rear Panel Options
388
To Set the Reference Signal Mode
388
Maximum Input Voltage at 10 Mhz REF Connector
389
To Set the Trigger out Source
391
Setting the Oscilloscope's Clock
392
Entering Licenses and Displaying License Information
393
Licensed Options Available
393
To Display License Information
393
To Enter Licenses
393
Table 9 Licensed Options Available
394
Other Options Available
395
Table 10 Calibration Option
395
Secure Environment Mode Option
396
Upgrading to an MSO
396
Performing Service Tasks
397
To Display Oscilloscope Information
397
To Perform User Calibration
397
Figure 40 User Calibration Cable for 2-Channel Oscilloscope
399
Figure 41 User Calibration Cable for 4-Channel Oscilloscope
400
To Display the User Calibration Status
400
To Clean the Oscilloscope
401
To Perform Self Test
401
To Check Warranty and Extended Services Status
402
To Return the Instrument
402
To Contact Agilent
403
Reference
405
Specifications and Characteristics
406
Accessories Available
407
Table 11 Accessories Available for 7000B Series Oscilloscopes
407
Software and Firmware Updates
410
Measurement Category
411
Measurement Category Definitions
411
Transient Withstand Capability
412
Maximum Input Voltage at Analog Inputs and 2-Channel External Trigger Input
412
Maximum Input Voltage at Digital Channels
412
Environmental Conditions
413
Binary Data (.Bin) Format
414
Binary Data in MATLAB
415
Binary Header Format
415
Example Program for Reading Binary Data
418
Examples of Binary Files
418
CSV and ASCII XY Files
422
Points
422
Acknowledgements
423
Index
425
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Agilent Technologies InfiniiVision DSO7014B Datasheet (28 pages)
InfiniiVision 7000B Series Oscilloscopes
Brand:
Agilent Technologies
| Category:
Test Equipment
| Size: 2.85 MB
Table of Contents
Other Useful Features
5
Software Applications
8
Probes and Accessories
11
Performance Characteristics
16
Ordering Information
25
Agilent Technologies InfiniiVision DSO7014B Product Fact Sheet (2 pages)
InfiniiVision 7000B Series
Brand:
Agilent Technologies
| Category:
Test Equipment
| Size: 2.04 MB
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