Sign In
Upload
Manuals
Brands
Agilent Technologies Manuals
Inverter
E8267D PSG
Agilent Technologies E8267D PSG Manuals
Manuals and User Guides for Agilent Technologies E8267D PSG. We have
2
Agilent Technologies E8267D PSG manuals available for free PDF download: User Manual, Installation Manual
Agilent Technologies E8267D PSG User Manual (318 pages)
PSG Signal Generators
Brand:
Agilent Technologies
| Category:
Inverter
| Size: 3.85 MB
Table of Contents
Table of Contents
3
Signal Generator Overview
15
Signal Generator Models and Features
15
E8257D PSG Analog Signal Generator Features
16
E8267D PSG Vector Signal Generator Features
17
E8663D PSG Analog Signal Generator Features
18
Options
20
Firmware Upgrades
20
To Upgrade Firmware
20
Modes of Operation
21
Continuous Wave
21
Swept Signal
21
Analog Modulation
22
Digital Modulation
22
Front Panel
23
Display
24
Softkeys
24
Knob
24
Amplitude
24
Frequency
24
Save
24
Recall
24
Trigger
25
Menus
25
Help
25
Ext 1 Input
25
Ext 2 Input
26
Lf Output
26
Mod On/Off
26
Alc Input
26
RF On/Off
26
Numeric Keypad
26
Rf Output
27
Sync out
27
Video out
27
Incr Set
27
Gate/ Pulse/ Trigger Input
27
Arrow Keys
27
Hold
27
Return
28
Contrast Decrease
28
Contrast Increase
28
Local
28
Preset
28
Line Power LED
28
Line
28
Standby LED
28
Symbol Sync
28
Data Clock
29
Data
29
Q Input
29
I Input
29
Front Panel Display
30
Active Entry Area
31
Frequency Area
31
Annunciators
31
Digital Modulation Annunciators
33
Amplitude Area
33
Error Message Area
33
Text Area
33
Softkey Label Area
33
Rear Panel
34
Event 1
38
Event 2
38
Pattern Trig in
38
Burst Gate in
38
Auxiliary I/O
39
Digital Bus
40
Q out
40
I out
40
Wideband I Inputs
40
I-Bar out
40
Wideband Q Inputs
41
COH CARRIER (Serial Prefixes >=US4646/MY4646)
41
Ghz REF out (Serial Prefixes >=US4646/MY4646)
41
Q-Bar out
41
AC Power Receptacle
42
Gpib
42
Mhz EFC
42
ALC HOLD (Serial Prefixes >=US4722/MY4722)
42
Auxiliary Interface
43
Mhz in
43
Lan
43
Mhz out
44
Stop Sweep In/Out
44
Baseband Gen Clk in
44
Z-Axis Blank/Mkrs
44
Sweep out
44
Trigger out
44
Trigger in
45
Source Settled
45
Source Module Interface
45
Rf out
46
Ext 1
46
Ext 2
46
Pulse Sync out
47
Pulse Video out
47
Pulse/Trig Gate Input
47
Alc Input
47
Data Clock
47
I in
47
Symbol Sync
48
Q in
48
Data
48
Lf out
48
Flash Drive (Serial Prefixes >=US4829/SG4829/MY4829 (E8267D) and >=US4928/SG4928/MY4928 (E8257D))
49
Basic Operation
51
Using Table Editors
52
Table Editor Softkeys
53
Modifying Table Items in the Data Fields
53
Using the User-Defined RF Output Power Limit (Option 1EA, 1EU, or 521 Only)
54
Selecting a User-Defined RF Output Power Limit
54
Using the User-Defined RF Output Power Limit (Option 1EU, or 521 Only)
54
Configuring the RF Output
56
Configuring a Continuous Wave RF Output
56
Configuring a Swept RF Output
59
Using Ramp Sweep (Option 007)
63
Extending the Frequency Range
73
Modulating a Signal
73
Turning on a Modulation Format
73
Applying a Modulation Format to the RF Output
74
Using Data Storage Functions
75
Using the Memory Catalog
75
Using the Instrument State Registers
77
Using Security Functions
79
Understanding PSG Memory Types
79
Removing Sensitive Data from PSG Memory
84
Using the Secure Display
87
Enabling Options
88
Enabling a Software Option
88
Using the Web Server
89
Activating the Web Server
89
Basic Digital Operation
93
Custom Modulation
93
Custom Arb Waveform Generator
94
Custom Real Time I/Q Baseband
94
Arbitrary (ARB) Waveform File Headers
94
Creating a File Header for a Modulation Format Waveform
95
Modifying Header Information in a Modulation Format
96
Storing Header Information for a Dual ARB Player Waveform Sequence
101
Modifying and Viewing Header Information in the Dual ARB Player
101
Playing a Waveform File that Contains a Header
104
Using the Dual ARB Waveform Player
105
Accessing the Dual ARB Player
105
Creating Waveform Segments
106
Building and Storing a Waveform Sequence
107
Playing a Waveform
108
Editing a Waveform Sequence
108
Adding Real-Time Noise to a Dual ARB Waveform (E8267D with Option 403)
109
Storing and Loading Waveform Segments
109
Renaming a Waveform Segment
110
Using Waveform Markers
110
Waveform Marker Concepts
111
Accessing Marker Utilities
115
Viewing Waveform Segment Markers
116
Clearing Marker Points from a Waveform Segment
117
Setting Marker Points in a Waveform Segment
118
Controlling Markers in a Waveform Sequence (Dual ARB Only)
120
Viewing a Marker Pulse
122
Using the RF Blanking Marker Function
123
Setting Marker Polarity
125
Triggering Waveforms
125
Source
126
Mode and Response
126
Accessing Trigger Utilities
127
Setting the Polarity of an External Trigger
128
Using Gated Triggering
128
Using Segment Advance Triggering
130
Using Waveform Clipping
131
How Power Peaks Develop
131
How Peaks Cause Spectral Regrowth
133
How Clipping Reduces Peak-To-Average Power
134
Configuring Circular Clipping
137
Configuring Rectangular Clipping
138
Using Waveform Scaling
139
How DAC Over-Range Errors Occur
139
How Scaling Eliminates DAC Over-Range Errors
140
Scaling a Currently Playing Waveform (Runtime Scaling)
141
Scaling a Waveform File in Volatile Memory
141
Setting the Baseband Frequency Offset
142
Optimizing Performance
143
Using the ALC
143
Selecting ALC Bandwidth
143
Optimizing Performance
144
To Select an ALC Bandwidth
144
Using External Leveling
144
To Level with Detectors and Couplers/Splitters
144
To Level with a MM-Wave Source Module
147
Creating and Applying User Flatness Correction
147
Creating a User Flatness Correction Array
149
Creating a User Flatness Correction Array with a MM-Wave Source Module
154
Using the Option 521 Detector Calibration (Option 521)
160
Running the Option 521 Detector Calibration
160
Restoring the Factory Flatness Calibration
160
Adjusting Reference Oscillator Bandwidth (Option UNR/UNX/UNY)
161
To Select the Reference Oscillator Bandwidth
161
To Restore Factory Default Settings
161
Optimizing Phase Noise and Harmonics below 3.2 Ghz (Option UNX/UNY)
161
Optimizing Phase Noise below 250 Mhz
162
Figure
162
Optimizing Harmonics below 2 Ghz
163
Caution
162
Analog Modulation
165
Analog Modulation Waveforms
165
Configuring am (Option UNT)
166
To Set the Carrier Frequency
166
To Set the RF Output Amplitude
166
To Set the am Depth and Rate
166
To Turn on Amplitude Modulation
166
Configuring FM (Option UNT)
166
To Set the RF Output Frequency
166
Analog Modulation
166
Configuring ΦM (Option UNT)
167
To Set the RF Output Frequency
167
To Set the RF Output Amplitude
167
To Activate FM
168
To Activate FM
167
To Set the FM Deviation and Rate
167
Configuring Pulse Modulation (Option UNU/UNW)
168
To Set the RF Output Frequency
168
To Set the RF Output Amplitude
168
To Set the Pulse Period, Width, and Triggering
168
To Activate Pulse Modulation
168
Triggering Simultaneous Pulses from Two Psgs Using an Internal or an External Pulse Source
169
Configuring the LF Output (Option UNT)
170
Analog Modulation Waveforms
170
To Configure the LF Output with an Internal Modulation Source
171
To Configure the LF Output with a Function Generator Source
172
Custom Arb Waveform Generator
173
Overview
173
Working with Predefined Setups (Modes)
173
Selecting a Custom ARB Setup or a Custom Digital Modulation State
173
Working with User-Defined Setups (Modes)-Custom Arb Only
174
Modifying a Single-Carrier NADC Setup
174
Customizing a Multicarrier Setup
175
Recalling a User-Defined Custom Digital Modulation State
176
Working with Filters
176
Using a Predefined FIR Filter
177
Using a User-Defined FIR Filter
178
Working with Symbol Rates
183
To Set a Symbol Rate
183
To Restore the Default Symbol Rate (Custom Real Time I/Q Only)
184
Working with Modulation Types
185
To Select a Predefined Modulation Type
185
To Use a User-Defined Modulation Type (Real Time I/Q Only)
186
Differential Wideband IQ (Option 016)
191
Single-Ended Wideband IQ (Option 015 - Discontinued)
191
Configuring Hardware
192
To Set a Delayed, Positive Polarity, External Single Trigger
192
Custom Real Time I/Q Baseband
195
Overview
195
Working with Predefined Setups (Modes)
195
Selecting a Predefined Real Time Modulation Setup
195
Deselecting a Predefined Real Time Modulation Setup
196
Working with Data Patterns
196
Using a Predefined Data Pattern
197
Using a User-Defined Data Pattern
197
Using an Externally Supplied Data Pattern
201
Working with Burst Shapes
201
Configuring the Burst Rise and Fall Parameters
202
Using User-Defined Burst Shape Curves
202
Configuring Hardware
205
To Set the External DATA CLOCK to Receive Input as Either Normal or Symbol
205
To Set the BBG DATA CLOCK to External or Internal
206
To Adjust the I/Q Scaling
206
Working with Phase Polarity
206
To Set Phase Polarity to Normal or Inverted
206
Working with Differential Data Encoding
206
Understanding Differential Encoding
207
Using Differential Encoding
211
GPS Modulation (Option 409)
215
Real Time MSGPS
216
Signal Generation Block Diagram
217
Scenario Files
218
RF Power Level Considerations
219
Generating a Real Time MSGPS Signal
222
Configuring the External Reference Clock
223
Real Time GPS
224
Real Time GPS Introduction
225
Setting up the Real Time GPS Signal
230
Configuring the External Reference Clock
231
Testing Receiver Sensitivity
233
Multitone Waveform Generator
235
Overview
235
Creating, Viewing, and Optimizing Multitone Waveforms
236
To Create a Custom Multitone Waveform
236
To View a Multitone Waveform
237
To Edit the Multitone Setup Table
238
To Minimize Carrier Feedthrough
240
To Determine Peak to Average Characteristics
241
Two-Tone Waveform Generator
245
Overview
245
Creating, Viewing, and Modifying Two-Tone Waveforms
245
To Create a Two-Tone Waveform
246
To View a Two-Tone Waveform
247
To Minimize Carrier Feedthrough
248
To Change the Alignment of a Two-Tone Waveform
249
AWGN Waveform Generator
251
Configuring the AWGN Generator
251
Arb Waveform Generator AWGN
251
Real Time I/Q Baseband AWGN
252
Peripheral Devices
253
N5102A Digital Signal Interface Module
253
Clock Timing
253
Connecting the Clock Source and the Device under Test
266
Data Types
268
Operating the N5102A Module in Output Mode
269
Operating the N5102A Module in Input Mode
278
Millimeter-Wave Source Modules
286
Millimeter- Wave Source Modules
286
Using Agilent Millimeter- Wave Source Modules
286
Using Agilent Millimeter-Wave Source Modules
286
Using Other Source Modules
290
Troubleshooting
293
RF Output Power Problems
293
No RF Output Power When Playing a Waveform File (E8267D Only)
293
RF Output Power too Low
294
The Power Supply Has Shut down
294
Signal Loss While Working with a Mixer
294
Signal Loss While Working with a Spectrum Analyzer
296
No Modulation at the RF Output
299
Sweep Problems
300
Sweep Appears to be Stalled
300
Cannot Turn off Sweep Mode
300
Incorrect List Sweep Dwell Time
300
List Sweep Information Is Missing from a Recalled Register
301
Data Storage Problems
301
Registers with Previously Stored Instrument States Are Empty
301
Saved Instrument State, but Register Is Empty or Contains Wrong State
301
Cannot Turn off Help Mode
302
Signal Generator Locks up
302
Fail-Safe Recovery Sequence
302
Error Messages
303
Error Message File
304
Error Message Format
304
Error Message Types
304
Contacting Agilent Sales and Service Offices
305
Returning a Signal Generator to Agilent Technologies
305
Advertisement
Agilent Technologies E8267D PSG Installation Manual (43 pages)
Signal Generators
Brand:
Agilent Technologies
| Category:
Signal Processors
| Size: 0.68 MB
Table of Contents
Table of Contents
3
1 Safety Information
5
Instrument Markings
5
Warnings, Cautions, and Notes
6
General Safety Considerations
6
2 Getting Started
7
Checking the Shipment
8
Meeting Electrical and Environmental Requirements
9
Environment
9
Ventilation
9
Line Settings
10
Connecting the AC Power Cord
10
AC Power Cord Localization
11
Configuring the Display
12
Contrast and Brightness
12
Inverse Video
12
Screen Saver
12
Updating the Display During Remote Operation
13
Configuring for Remote Control
14
GPIB Interface Configuration
14
LAN Interface Configuration
14
RS-232 Interface Configuration
16
Ordering Accessories
17
Front Handles and Rack Mount Flanges
17
E8257D/67D PSG Documentation
17
Proper Usage and Cleaning
19
Cleaning Suggestions
19
Contacting Agilent Sales and Service Offices
20
Returning a Signal Generator to Agilent Technologies
21
3 Operation Verification
23
Performing a Self-Test
24
Self-Test Failure
25
Checking the Maximum Leveled Power
26
Maximum Leveled Power Check Failure
26
Checking the Output Power
29
Problems with Output Power
36
4 Regulatory Information
37
Statement of Compliance
38
Assistance
38
Certification
38
Compliance with German Noise Requirements
38
Compliance with Canadian EMC Requirements
39
Advertisement
Related Products
Agilent Technologies E8267C PSG
Agilent Technologies E8267D
Agilent Technologies E8267C
Agilent Technologies E8267Db
Agilent Technologies E8267CK-602
Agilent Technologies E8257D/67D
Agilent Technologies E8257D
Agilent Technologies E8257C
Agilent Technologies E8247C
Agilent Technologies E8257Db
Agilent Technologies Categories
Measuring Instruments
Laboratory Equipment
Test Equipment
Water Pump
Power Supply
More Agilent Technologies Manuals
Login
Sign In
OR
Sign in with Facebook
Sign in with Google
Upload manual
Upload from disk
Upload from URL