Wavetek 1385 Generatore
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Modello:
1385
Data:
1996
Categoria:
Gruppo:
Descrizione:
50 MHz VXIbus Arbitrary Waveform Synthesizer
Informazioni
The MODEL 1385 is a high performance Synthesized Arbitrary
Waveform Generator (ARB) with the following main features:
• Isolated Analog Output
• Up to 50 MHz Sampling Frequency
• 12 Bit Vertical Resolution
• 128K points (512K optional) Horizontal Resolution
• Intermodule Triggering, Summing and Phase Control
• Waveform Linking and Looping
• 64K bytes Shared Memory for fast data transfer
• Auxilliary Analog Output
• SCPI Compatible Command Language
• Single Slot, C-Size VXIbus Module
The waveform Synthesizer can be programmed to produce
standard waveforms in the frequency range of 1 mHz to 20
MHz; or arbitrary waveforms from 5 points minimum to 128K
(512) maximum sampled at frequencies from 125 mHz to 50 MHz.
Additionally, a Clock Output is provided from 125 mHz to 100
MHz.
Waveforms can be created by selection of the standard
waveforms, drawing waveforms by defining straight line
segments, or downloading of binary images. The A24 Shared
Memory may be used for significantly faster downloads than
by using the word-serial protocol.
Waveforms can also be linked together to form complex
waveforms. Up to 4096 segments can be linked together.
The main waveform output provides up to llVp-p into 500
(22Vp-p into open circuit). Waveform dc offset or dc output
is also provided up to ±5.5 V into 5012, 11V into open
circuit). Output Lo (outer of BNC) may be up to 7V away from
chassis ground.
The control language adheres to the SCPI (Standard Commands
for Programmable Instruments) format Version 1992.0,
February 1992 (refer to the SCPI manual for further
information). SCPI is an industry standard language for
remote instrument programming. The Wavetek Model 1385
waveform Synthesizer is a single-slot “C” size VXIbus
module. Using any manufacturer’s VXIbus chassis, the Model
1385 can be controlled using the SCPI language and the
appropriate controller.
Multiple ARBs may be linked and operated together inside one
VXIbus chassis. In parallel operation, model 1395's may be
slaved to a master clock/trigger bus on the VXIbus backplane
to create a multichannel waveform Synthesizer with phase
control between channels.
The model 1385 has extensive self-adjustment utilities built
in. Calibration constants are maintained in non-volatile
memory (contains no battery).
Tipo di manuale:
Manuale d'uso
Pagine:
134
Dimensione:
5.91 Mbytes (6200852 Bytes)
Lingua:
english
Revisione:
Issue 1
ID del manuale:
850309-1.0
Data:
1996 08 01
Qualità:
Documento scansionato, tutto leggibile.
Data caricamento:
2017 01 02
MD5:
5b42dba0d8864463ef6d6e3bee014b3e
Scaricamenti:
499
Informazioni
Operator's & Maintenance Manual
SECTION 1 GENERAL
1.1 THE MODEL
1385 ...
1-1
1.2
SPECIFICATIONS ...
1-1
1.2.1 Waveforms
(Functions) ... 1-1
1.2.2 ARB Waveform Creation and
Editing ... 1-2
1.2.3 Operational
Modes ... 1-2
1.2.4 Input and Output
Specifications ... 1-2
1.2.4.1
Outputs ... 1-2
1.2.4.2
Inputs ... 1-4
1.2.5 Waveform
Characteristics ... 1-5
1.2.6
Frequency ... 1-5
1.2.6.1 Arb Clock and Waveform
Timing: ... 1-6
1.2.7
Amplitude ... 1-6
1.2.8
Offset ... 1-6
1.2.9
Filtering, ... 1-6
1.2.10 Linked SEQuence Operation
... 1-6
1.2.11
Sweep ... 1-6
1.2.12
Triggering ... 1-7
1.2.13
Modulation ... 1-7
1.2.14 Intermodule
Operation ... 1-8
1.2.15 Frequency
List ... 1-8
1.2.16 Option 001
... 1-8
1.2.17
AutoCal/Diagnostics ... 1-8
1.3 GENERAL
... 1-8
1.3.1 SCPI
Programming ... 1-8
1.3.2 VXI Interface
... 1-9
1.3.3
Environmental ... , ... 1-10
1.3.4
Size ... 1-10
1.3.5
Power ... 1-10
1.3.6
Reliability ... 1-10
1.3.7 Cooling
Requirement ... 1-10
1.3.8
Safety ... 1-10
1.3.9 EMC
... 1-10
SECTION 2 PREPARATION
2.1 RECEIVING
INSPECTION ...
2-1
2.1.1 Unpacking
Instructions ...
2-1
2.1.2 Returning
Equipment ...
2-1
2.2 PREPARATION FOR STORAGE OR
SHIPMENT ... 2-1
2.2.1
Packaging ...
2-1
2.2.2
Storage ...
2-1
2.3 PREPARATION FOR
USE ...
2-1
2.3.1 Logical Address
Selection ...
2-2
2.3.2 Data Transfer Bus
Arbitration ...
2-2
2.4
INSTALLATION ...
2-4
2.5 INITIAL CHECKOUT AND OPERATION
VERIFICATION ... 2-4
SECTION 3 OPERATION
3.1
INTRODUCTION ...
3-1
3.2 CONNECTORS AND LED
INDICATORS ... 3-1
3.3 MODEL 1385 PROGRAMMING
... 3-3
3.3.1 SCPI Command
Table ... 3-3
3.3.1.1 Long and Short Form
Keywords ... 3-3
3.3.1.2 Keyword
Organization ... 3-3
3.3.1.3 Parameter
Forms ...
3-3
3.3.2 Command Message
Format ... 3-4
3.3.2.1 Program Message Unit
... 3-4
3.3.2.2 Program Message
... 3-4
3.3.2.3 Program Message
Delimiters ... 3-4
3.3.2.4 Program Message
Terminators ... 3-8
3.3.2.5
Queries ... 3-8
3.3.3 Model 1385 SCPI
Commands ... 3-9
3.3.3.1 CALibration
Subsystem ... 3-9
3.3.3.2 INITiate
Subsystem ... 3-11
3.3.3.3 OUTPut
Subsystem ... 3-12
3.3.3.4 RESet
Subsystem ... 3-13
3.3.3.5 SOURce
Subsystem ... 3-13
3.3.3.6 STATus
Subsystem ... 3-20
3.3.3.7 SYSTem
Subsystem ... 3-21
3.3.3.8 TEST
Subsystem ... 3-22
3.3.3.9 Trace
Subsystem ... 3-23
3.3.3.10 TRIGger Subsystem
... 3-25
3.3.3.11 Binary Waveform
Transfer ... 3-26
3.3.3.12 Shared Memory Waveform
Download ... 3-26
3.3.4 IEEE-488.2 Common
Commands ... 3-28
3.4 MODEL 1385
OPERATION ... , ...
3-28
3.4.1 Output Terminations
... 3-28
3.4.2 Input/Output
Protection ... 3-29
3.4.3 Power On/Reset
Defaults ...
3-29
3.4.4 Standard Functions
(CW) ... 3-30
3.4.5 Trace Operations and USER Function (RAST)
... 3-32
3.4.5.1 Trace
Definition ... 3-32
3.4.5.2 Trace
Data ... 3-34
3.4.5.3 Trace Copy, Resize, Rename, and
Delete ... 3-35
3.4.5.4 Trace
Limits ...
3-35
3.4.5.5 Trace
Queries ... 3-36
3.4.6 Waveform Download
Operations ... 3-37
3.4.6.1 Definite Length Arbitrary Block
Transfer ... 3-37
3.4.6.2 Shared Memory
Transfer ... 3-38
3.4.7 Non-continuous
Modes ... 3-39
3.4.7.1 Triggered
Operation ... 3-39
3.4.7.2 Gated
Operation ... 3-43
3.4.8 Sequence
Operation ... 3-43
3.4.8.1 CONTinuous
Sequencing ... 3-43
3.4.8.2 TRIGgered Mode
Sequencing ... 3-46
3.4.9 AM/SCM
Operation ...
3-46
3.4.10 Sync/Position
Markers ... 3-47
3.4.11 Frequency Sweep
... 3-47
3.4.11.1 Sweep
Generator ... 3-47
3.4.11.2 Frequency
List ...
3-49
3.4.11.3 Frequency
SMP! ... 3-50
3.4.12 Clock Input/Output Operation
... 3*50
3.4.13 Intermodule
Operations ... 3-52
3.4.13.1 Intermodule
Triggering ... 3-52
3.4.13.2 Intermodule Phase
Lock ... 3-58
SECTION 4 CALIBRATION
4.1 FACTORY
REPAIR ... 4-1
4.2
CALIBRATION ... 4-1
4.3 REQUIRED TEST
EQUIPMENT ... 4-1
4.4 PERFORMANCE VERIFICATION
PROCEDURE ... 4-1
4.4.1
Procedure ... 4-2
4.4.2 Connector
Termination ... 4-2
4.4.3
Preparation ... 4-2
4.4.4 Test
Equipment ... 4-2
4.4.5 Self
Calibration ... 4-2
4.4.6 Self
Test ... 4*2
4.4.7 Square Wave
Symmetry ...
4-2
4.4.8 Square Wave
Quality ... 4-2
4.4.9 SCM
Null ... 4-3
4.4.10 Elliptic Fitter Amplitude Flatness
Correction ... 4-3
4.5 ALIGNMENT
PROCEDURE ... 4-3
4.5.1 Self
CaHfora&on__ ... 4-4
4.5.2 Semi-Aytomaied
Procedure ... 4-4
4.5.3 Preparation
... 4-4
4.5.4 Connector Termination________________________________4-4
4.5.5 Alignment Procedure
... 4-4
4.5.5.1 Square Wave
Symmetry ... 4-5
4.5.5.2 Square Wave
Quality ...
4-5
4.5.5.3 Self
Calibration ... 4-5
4.5.5.4 SCM
Null ... 4-6
4.5.5.5 Elliptic Filter Amplitude Flatness Correction
... 4-6
SECTION 5 mmTS AND SCHEMATICS
5.1
DRAWINGS ...
5-1
ERRATA ...
5-1
$3 ORDERING PARTS
... 5-1
APPENDIX A SELF CALIBRATION
A.1
INTRODUCTION ...
A-1
A,2 CALIBRATION QUERY
RESPONSE ...
A-1
APPENDIX B SELF TEST
B.1 INTRODUCTION
...
B-1
B.2 TEST QUERY
RESPONSE ...
B-1
APPENDIX C SCPI CONFORMANCE INFORMATION
C.1 INTRODUCTION
...
C-1
C.2 REFERENCE INFORMATION
...
C-1
C.3 SCPI CONFORMANCE
INFORMATION ... C-2
C.3.1 Model 1385 scpi version
...
C-2
C.4 MODEL 1385 SCPI COMMAND SYNTAX
... C-2
C.4.1 SCPI Confirmed
Commands ...
C-2
C.4.2 SCPI Approved
Commands ...
C-2
C.4.3 Commands not part of the SCPI
Specification ... C-2
C.4.4 incomplete Command Inplementation
... C-2
APPENDIX D SCPI COMMAND TREE
D.1 COMMAND
TREES ...
D-1
APPENDIX E SAMPLE PROGRAMS
E.1
INTRODUCTION ...
E-1
E.1.1 Example 1
...
E-1
E.1.2 Example 2
...
E-2
E.1.3 Example
3 ...
E~2
E.1.4 Example
4 ...
E-3
E.1.5 Example
5 ...
E-4
E.1.6 Example
6 ...
E-7
CONTENTS (Continued)