Equipment information
Kirisun Communications FP420 Transceiver
Manufacturer:
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Kirisun Communications FP420 you can upload the files here .
Model:
FP420
Date:
Category:
Group:
Description:
Manual Type:
User Manual
Pages:
15
Size:
6.91 Mbytes (7246753 Bytes)
Language:
english
Revision:
Manual-ID:
Date:
Quality:
Electronic document, no scan, very well readable.
Upload date:
2019 08 31
MD5:
2378a4a0d09c73156a29fb2394f1c780
Downloads:
253
Information
Section 1 Introduction
1.1 THE MODEL
395 ... 1-1
1.2 ORGANIZATION OF THIS
MANUAL ... 1-2
Section 2 Initial Preparation
2.1 THIS
SECTION ... 2-1
2.2 RECEIVING AND INSPECTING
SHIPMENTS ... 2-1
2.3 RETURNING EQUIPMENT FOR
REPAIR ... 2-1
2.4 PREPARATION FOR STORAGE OR
SHIPMENT ... 2-2
2.5 LINE VOLTAGES AND FUSES
...
2-2
2.6 INITIAL
TURN-ON ... 2-4
2.7 ERROR MESSAGES
...
2-5
2.8 FUNCTIONAL
CHECKOUT ... 2-5
Continuous Mode
Check ... 2-5
Sweep Mode
Check ... 2-5
Gated Mode Check
... 2-5
Triggered Mode
Check ... 2-6
2.9 OPERATOR MAINTENANCE
...
2-6
2.9.1 Routine
Maintenance ... 2-6
2.9.2 Battery
Replacement ... 2-7
2.10 RACK MOUNTING
EARS ... 2-7
2.11 REMOTE
SETUP ... 2-7
2.11.1
RS-232 ... 2-7
2.11.2 IEEE-488 (Option
001) ... 2-10
Section 3 Introduction To The Model 395
3.1 OVERVIEW OF THE MODEL 395
...
3-1
Using the Model 395
... 3-1
3.2 NAVIGATING THE
SCREENS ... 3-1
3.2.1 Front Panel Keys and
Screens ... 3-1
3.2.2
Softkeys ... 3-2
3.2.3 Extended
Screens ... 3-2
3.2.4 Changing Numeric
Values ... 3-3
3.2.5 Correcting Mistakes
...
3-4
3.3 ON-SCREEN
HELP ... 3-4
3.4 ERROR MESSAGES
...
3-5
3.5 INITIAL
SETUP ... 3-5
3.6 model 395 AS A FUNCTION
GENERATOR ... 3-6
Example 1. Setting Up the Function
Generator ... 3-6
3.7 model 395 AS AN ARBITRARY WAVEFORM
GENERATOR ... 3-10
Example 2 Creating an Arbitrary Waveform Using Line
Draw ... 3-11
Example 3 Generating the Arb
Waveform ... 3-14
Example 4. Creating an Arb Waveform Using Waveform
Insert ... 3-17
Example 5. Creating an Arbitrary Waveform Using Point
Edit ... 3-19
3.8 THE model 395 AS A WAVEFORM SEQUENCE Generator ... 3-22
Example 6 Creating a Waveform
Sequence ... 3-22
3.9 STORING AND RECALLING
SETUPS ...
3-24
Example 7. Storing and Recalling an Instrument
Setup ... 3-24
3.10 THE model 395 AS A SWEEP
GENERATOR ... 3-25
Example 8. Setting up the Sweep
Generator ... 3-25
3.11 THE model 395 AS A TRIGGER
GENERATOR ... 3-27
Example 9 Setting up the Triggered
Generator ... 3-27
3.12 THE model 395 AS A PULSE
GENERATOR ... 3-31
Example 10 Setting up the Pulse
Waveform ... 3-31
Example 11 Setting up the Pulse Train
Waveform ... 3-34
3.13 THE model 395 AS A NOISE
GENERATOR ... 3-43
Example 12 Setting Up the Signal To Noise
Waveform ... 3-43
3.14 THE model 395 AS AN AMPLITUDE MODULATION SIGNAL
SOURCE ... 3-46
Example 13 Setting Up Amplitude
Modulation ... 3-46
3.15 THE model 395 SUMMING
INPUT ... 3-48
Example 14. Setting Up Summing
Input ... 3-48
Section 4 Front Panel Operation Reference
4.1
INTRODUCTION ... 4-1
4.2 FRONT
PANEL ... 4-1
4.3 REAR
PANEL ... 4-9
4.4
REFERENCE ... 4-11
4.4.1
Amplitude ... 4-11
4.4.2 AM In (amplitude modulation And
SCM) ... 4-14
4.4.3 Arbitrary
Waveforms ... 4-16
4.4.3.1
Introduction ... 4-16
4.4.3.2 Creating
Waveforms ... 4-17
4.4.3.3 Create From
Copy ... 4-18
4.4.3.4 Modifying
Waveforms ... 4-19
4.4.4 Filter
... 4-29
4.4.4.1
Introduction ...
4-29
4.4.4.2
Mode ... 4-29
4.4.4.3
Filter ... 4-30
4.4.5 Frequency
... 4-30
4.4.5.1 Standard Waveform Frequency
... 4-30
4.4.5.2 Standard Waveform
Period ... 4-30
4.4.5.3 Arbitrary Waveforms - Frequency /
Period ... 4-31
4.4.5.4 Sequence -
Frequency/Period ... 4-31
4.4.5.5 Pulse / Pulse Train
Period ... 4-31
4.4.5.6 Noise
Clock ... 4-31
4.4.6 MODE
... 4-32
4.4.7
OFFSET ... 4-34
4.4.8 REMOTE
... 4-35
4.4.9
RESET ... 4-36
4.4.10
SEQUENCE ... 4-37
4.4.11
SETUPS ... 4-40
4.4.12 STANDARD
WAVEFORMS ... 4-41
4.4.12.1
Introduction ... 4-41
4.4.12.2
Sine ... 4-42
4.4.12.3
Square ... 4-42
4.4.12.4
Triangle ...
4-42
4.4.12.5
DC ... 4-42
4.4.12.6 Positive
Ramp ... 4-43
4.4.12. 7 Negative
Ramp ... 4-43
4.4.12.8
Sin(x)/x ... 4-43
4.4.12.9 Positive
Haversine ... 4-43
4.4.12.10 Negative
Haversine ... 4-43
4.4.12.11
Pulse ... 4-43
4.4.12.12 Pulse
Train ... 4-46
4.4.12.13 Digital Noise
...
4-51
4.4.12.14 Analog Noise (White Analog
Noise) ... 4-52
4.4.12.15
Comb ... 4-55
4.4.12.16 Signal Plus Noise
...
4-57
4.4.12.17 Signal Plus Comb
...
4-60
4.4.12.18 AM /
SCM ... 4-63
4.4.12.19
FM ... 4-65
4.4.12.20 Arb Waveforms
...
4-66
4.4.12.21 Sequence
...
4-66
4.4.13
Status ... 4-67
4.4.14 Sum in
... 4-68
4.4.15
Sweep ... 4-69
4.4.16 Sync Out
... 4-74
4.4.17 Trigger
... 4-76
4.4.18
Utility ... 4-77
4.4.19 Ref In / Ref
Out ... 4-79
Section 5 Remote Operation
5.1 INTRODUCTION
... 5-1
5.2 SCPI PRIMER
... 5-2
5.2.1
Parameters ... 5-3
5.2.2
Queries ... 5-4
5.2.3 SCPI Punctuation and
Syntax ...
5-4
5.2.4 Condensed
Rules: ... 5-4
5.2.5 Text Symbols
...
5-5
5.2.6 Example Command Tree
...
5-6
5.2.7 Example Command Table
...
5-8
5.2.8 Example Command Syntax
Diagrams ... 5-8
5.3 REMOTE RS-232
SETUP ... 5-11
5.3.1 Hardware
Setup ... 5-11
5.3.2 Instrument
Setup ... 5-11
5.4 IEEE-488.1 (GPIB)
SETUP ... 5-12
5.4.1 Hardware
Setup ... 5-12
5.4.2 Instrument
Setup ... 5-12
5.5 SCPI PROGRAMMING
EXAMPLES ... 5-13
5.5.1 model 395 As a Function
Generator ... 5-14
Example 1. Setting Up the Function
Generator ... 5-14
5.5.2 model 395 as an Arbitrary Waveform
Generator ... 5-15
Example 2 Creating an Arbitrary Waveform Using Line
Draw ... 5-15
Example 3 Running the Arb
Waveform ... 5-16
Example 4. Creating an Arb Waveform Using Waveform
Insert ... 5-17
Example 5. Creating an Arbitrary Waveform Using Point
Edit ... 5-17
5.5.3 The model 395 as a Waveform Sequence
Generator ... 5-19
Example 6 Creating a Waveform
Sequence ... 5-19
5.5.4 Storing and Recalling
Setups ... 5-20
Example 7. Storing and Recalling an Instrument
Setup ... 5-20
5.5.5 The model 395 As a Sweep
Generator ... 5-20
Example 8. Setting up the Sweep
Generator ... 5-20
5.5.6 The model 395 as a Trigger
Generator ... 5-21
Example 9 Setting up the Triggered
Generator ... 5-21
5.5.7 The model 395 as a Pulse
Generator ... 5-22
Example 10 Setting up the Pulse
Waveform ... 5-22
Example 11 Setting up the Pulse Train
Waveform ... 5-22
5.5.8 The model 395 as a Noise
Generator ... 5-24
Example 12 Setting Up the Signal To Noise
Waveform ... 5-24
5.5.9 The model 395 as an Amplitude Modulation Signal
Source ... 5-24
Example 13 Setting Up Amplitude
Modulation ... 5-24
5.5.10 The model 395 and its Summing
Input ... 5-25
Example 14. Setting Up Summing
Input ... 5-25
5.6 SCPI
COMMANDS ... 5-27
5.6.1 ABORT
... 5-27
5.6.2 CALibration
... 5-27
5.6.3
DISPlaY ... 5-28
5.6.4
INITiate ... 5-29
5.6.5
MMEMory ... 5-29
5.6.6
OUTPut ... 5-31
5.6.7
RESet ... 5-32
5.6.8
[SOURce] ... 5-33
5.6.9 STATus
... 5-44
5.6.10
SYSTem ... 5-45
5.6.11
TEST ... 5-45
5.6.12 TRACe
... 5-46
5.5.12
TRIGger ... 5-48
5.7 IEEE 488.2 COMMON
COMMANDS ... 5-50
5.8 HIGH SPEED BINARY WAVEFORM
TRANSFER ... 5-51
5.9 RS-232-C
PROGRAMMING ...
5-53
5.10 GPIB ERROR HANDLING AND STATUS
REPORTING ... 5-53
5.11 RESUMING LOCAL
OPERATION ... 5-58
Appendix A Specifications
Appendix B Menu - Quick Reference
Appendix C SCPI Command - Quick Reference
Appendix D Rack Ears Kit Installation
Appendix E Information/Error Messages
Appendix F DSO Upload
Appendix G Performance Verification and Alignment Procedures
Manual Type:
Service Manual
Pages:
50
Size:
3.52 Mbytes (3688013 Bytes)
Language:
english
Revision:
Manual-ID:
V130823
Date:
Quality:
Electronic document, no scan, very well readable.
Upload date:
2019 08 31
MD5:
fbd18ec3e35d28728cc4fa5b25a09ebe
Downloads:
370
Information
Chapter 1 Overview ... 2
Chapter 2 External View and Functional Keys ... 3
Chapter3 Circuit Description ... 6
Chapter 4 Function Description and Parameter Settings ... 16
Chapter5 Disassembly for Repair ... 18
Chapter 6 Adjustment ... 26
Chapter7 Major Specification ... 27
Chapter 8 Service and Test Equipment ... 28
Chapter 9 Troubleshooting ... 29
Appendix1 Abbreviation ... 31
Appendix 2 Electronic Parts List ... 31
Appendix 3 Spare Parts List (Structure Part) ... 39
Appendix 4 Accessories reference List ... 41
Figure1 FP420 Schematic Pane Diagram ... 42
Figure2 FP420 Top Board Position Mark Diagram ... 48
Figure3 FP420 Bottom Board Position Mark Diagram ... 49