Analogic 2030 Generator
Manufacturer:
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Analogic 2030 you can upload the files here .
Model:
2030
Date:
1993
Category:
Group:
Description:
Multifunction Waveform Synthesizer
Information
The 2030 is a versatile 20-MHz Multifunction Waveform
Synthesizer capable of generating a wide variety of
waveforms with exceptionally low distortion and high
accuracy. Here is a summary of its functions and features:
Functions
O STANDARD WAVES: Sine, Square, Triangle, Pulse, Ramp
Up/Down, DC Level, and Pseudo-Random Noise.
□ MODULATED WAVES: Amplitude Modulation (AM), Frequency
Modulation (FM), Phase Modulation, External AM, Exponential
Decay, Linear and Logarithmic Sweep and sin X/X.
□ COMBINED WAVES: Sum and product combinations of up to four
standard functions.
□ SPECIAL WAVES: Miscellaneous special-purpose waveforms.
□ ARBITRARY WAVES: Pre-calculated waveforms received from an
external source via the built-in IEEE-488 bus.
□ Interactive graphics user Interface for ease of operation.
□ Menu-driven operation of standard and specialized
functions with additive noise.
□ Customized waveforms by combining and modulating standard
functions.
□ Versatile triggering and gating capabilities.
□ RS232 Interface and IEEE-488 (GPIB) instrumentation bus
for remote operation.
□ Isolated output for high noise immunity.
□ Exceptional amplitude flatness, within 0.3 dB at 20 MHz.
□ Frequency resolution of 0.1 ppm.
□ Deep dual 250K data point memory.
Manual type:
User Manual
Pages:
64
Size:
2.36 Mbytes (2470003 Bytes)
Language:
english
Revision:
2
Manual ID:
82-5081
Date:
1993 06 25
Quality:
Scanned document, reading partly badly, partly not readable.
Upload date:
2017 10 15
MD5:
6fd481bee1a37d8dfc747cc93a01d2b6
Downloads:
523
Information
1 Introduction
1.1 ABOUT THIS
MANUAL ... 1-1
1.2 PRODUCT
DESCRIPTION ... 1-1
1.3 SERVICE AND TECHNICAL
SUPPORT ... 1-2
2 Getting Started
; 2.1
INTRODUCTION ... 2-1
2.2 UNPACKING INSTRUCTIONS
... 2-1
j| 2.3 FRONT PANEL
CONTROLS ... 2-1
fc" 2.4 INPUT/OUTPUT
CONNECTIONS ... 2-1
2.5 INPUT LINE VOLTAGE
CONFIGURATION ... 2-4
I 2.6 BENCH-TOP
INSTALLATION ... 2-4
2.7 INITIAL CHECKOUT
PROCEDURE ... 2-5
3 Local Operation
3.1
INTRODUCTION ... 3-1
B 3.2 SUMMARY OF
FUNCTIONS ... 3-1
® 3.2.1 Waveform
Functions ... 3-1
w 3.2.2 Common Control Functions
... 3-2
p 3.3 I/O CONTROL
SOURCE ... 3-2
3.3.1 Exclusive Front Pane!
Control ... 3-3
r 3.3.2 Front Panel Control With GPIB
Access ... 3-3
3.3.3 Exclusive GPIB
Control ... 3-3
3.3.4 Exclusive RS232
Control ... 3-3
3.4 MAIN SIGNAL OUTPUT
CONTROL ... 3-4
3.4.1 OUT Control
Functions ... 3-4
^ 3.4.2 Run/Stop
Control ... 3-4
3.4.3 Output
Characteristics ... 3-5
3.5 CLOCK SOURCE
CONTROL ... 3-6
3.6 TRIGGER
CONTROL ... - ... 3-7
3.7 STANDARD WAVE
MENU ... 3-10
3.7.1 Setting Up a Standard Waveform
... 3-10
3.7.2 Using the GLITCH
Function ... 3-11
3.8 MODULATED WAVES
MENU ... 3-12
3.8.1 Setting Up a Modulated
Waveform ... 3-12
3.8.2 Using the Sweep Function LONG Submenu
... 3-13
3 Local Operation - Continued
3.9 COMBINED WAVES
MENU ... 3*14
3.9.1 Setting Up Standard
Functions ... 3-15
3.9.2 Frequency
Limitations ...
... 3-15
3.9.3 Selecting Modulation
Type ...
3-16
3.9.4 Defining a Combined
Output ... 3-16
3.9.5 Combined Waves
Example ... 3-17
3.10 SPECIAL WAVES MENU
... 3-18
3.11 SAVING, RECALLING OR DELETING INSTRUMENT SET-UPS
... 3-19
3.11.1 Saving
Set-Ups ... 3-19
3.11.2 Recalling Set-Ups
... 3-19
3.11.3 Deleting
Set-Ups ... 3-19
4 Remote Operation
4.1
INTRODUCTION ... 4-1
4.1.1 Connecting to the RS232
Interface ... 4-2
4.1.2 Programming Guidelines
... 4-2
4.2 COMMAND
ENTRY ... 4-2
4.3 MAINFRAME COMMON
COMMANDS ... 4-3
4.3.1 Trigger Commands
[TRIG] ... 4-3
4.3.2 Wave Functions
[WAVE] ... 4-3
4.3.3 Output Functions
[OUT] ... 4-3
4.3.4 Clock
Functions[CLK] ... 4-4
4.3.5 Directory Functions
[DIR] ... 4-4
4.3.6 Communication Functions
[VO] ... 4-4
4.3.7 Display Functions
[DISP] ... ,
4-4
4.3.8 Run/Stop Functions
[R/S] ... 4-4
4.4 STANDARD WAVE COMMANDS
[WAVE=STD] ... 4-5
4.4.1 Waveform
Command ... 4-5
4.4.2 Waveform Parameter
Commands ... 4-5
4.5 MODULATED WAVE COMMANDS [WAVE=:MOD]
... 4-6
4.5.1 Modulated
Waveforms ... 4-6
4.5.2 Modulated Waveform Parameter
Commands ... 4-6
4.6 COMBINED WAVES COMMANDS
[WAVE^COMB] ... 4-7
4.7 SPECIAL WAVES COMMANDS [WAVE=SPECIAL]
... 4-7
4.8 PROGRAMMING
EXAMPLES ... 4-8
4.8.1 Example #1 - Standard Wave
... 4-8
4.8.2 Example #2 - Modulated
Wave ...
... 4-8
4.8.3 Example #3 - Combined
Waves ... - •
4.8.4 Example #4 -
Queries ... 4-8
5 iEEE-bus and Arbitrary Waves
5.1
INTRODUCTION ... 5-1
5.2 GPIB
INTERFACE ... 5-1
5.2.1 IEEE-488 Implemented
Capabilities ... 5-1
5.2.2 GPIB Common Control
Commands ... 5-1
5.2.3 IEEE-488 Standard Data
Structure ... 5-2
5.3 ARBITRARY WAVES
[WAVE-ARB] ... 5-4
5.3.1 Data Transfer
Command ... 5-4
5.3.2 Data
Format ... 5-5
5.3.3 Arbitrary Wave Example #1
... 5-5
5.3.4 Arbitrary Wave Example #2
... 5-5
5.3.5 Arbitrary Wave Example #3
... 5-5
6 Applications
6.1 INTRODUCTION
... 6-1
6.2 AM RADIO TEST
SIGNAL ... 6-1
6.3 EXTERNAL CLOCKING SOURCE FOR TTL
DEVICES ... 6-1
6.4 GENERATING A HAVERSINE WAVE
... 6-2
6.5 SETTING UP A BURST
WAVEFORM ... 6-2
6.6 TESTING AN ANALOG
FILTER ... 6-2
7 Specifications