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Manuals and User Guides for Teledyne m2020. We have
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Teledyne m2020 manual available for free PDF download: User Manual
Teledyne m2020 User Manual (244 pages)
Genie Nano Series Monochrome & Color GigE Vision Area Scan
Brand:
Teledyne
| Category:
Digital Camera
| Size: 10.71 MB
Table of Contents
Table of Contents
3
Contents
9
Genie Nano Series Overview
10
Description
10
Gige with Turbodrive
10
Genie Nano Overview
11
Gige Firmware
11
Part Numbers and Software Requirements
12
Monochrome Cameras
12
Color Cameras
14
Accessories
17
Teledyne DALSA Development Software
18
Third Party Gige Vision Development
18
About Gige Vision
18
Genie Nano Common Specifications
19
Sensor Cosmetic Specifications
21
Dynamic Range & Signal to Noise Ratio Test Conditions
22
EMI, Shock and Vibration Certifications
22
Mean Time between Failure (MTBF)
23
Model Specifications: M/C1940 & M/C1920
24
Spectral Response
26
Model Specifications: M/C2020, M/C2050
27
Model Specifications: M/C2420, M/C2450
28
Spectral Responses
29
Model Specifications: M/C4060, M/C4040
30
Spectral Responses
31
Model Specifications: M/C4030, M/C4020
32
Spectral Responses
33
Model Specifications: M/C640, M/C800, M/C1280, M/C1930, M/C2590
34
Spectral Response
37
Model Specifications: Nano XL - M/C 5100, M/C 4090
38
Spectral Response
40
Model Specifications: C4900
41
Spectral Response
42
Model C4900 Sensor Cosmetic Specifications
43
Guide to Using a Rolling Shutter Camera
44
Characteristics
44
Overview of Electronic Rolling Shutter (ERS) Exposures
45
Overview of Global Reset Release (GRR) Exposures
46
Comparison of Similar On-Semi and Sony Sensors
47
Nano Quick Start
49
Testing Nano Without a Lens
49
Testing Nano with a Lens
49
The Camera Works - Now What
49
Connecting the Genie Nano Camera
50
Gige Network Adapter Overview
50
PAUSE Frame Support
50
Connect the Genie Nano Camera
50
Connectors
51
LED Indicators
52
Camera Status LED Indicator
52
LED States on Power up
52
Genie Nano IP Configuration Sequence
53
Supported Network Configurations
53
Preventing Operational Faults Due to Esd
54
Using Nano with Sapera Api
55
Network and Computer Overview
55
Procedure
56
Camera Firmware Updates
56
Firmware Via Linux or Third Party Tools
56
I Nstallation
56
Gige Server Verification
57
Gige Server Status
57
Optimizing the Network Adapter Used with Nano
58
Quick Test with Camexpert (Windows)
58
About the Device User ID
59
Operational Reference
60
Using Camexpert with Genie Nano Cameras
60
Camexpert Panes
60
Camexpert View Parameters Option
61
Camera Information Category
62
Camera Information Feature Descriptions
62
Power-Up Configuration Dialog
66
Camera Power-Up Configuration
66
Load / Save Configuration
66
Sensor Control Category
67
Sensor Control Feature Descriptions
68
Offset/Gain Control Details (Sony Sensors)
71
Sony Sensors Gain Stage Diagram
71
Offset/Gain Control Details (On-Semi Python Sensors)
72
On-Semi Python Sensors Gain Stage Diagram
72
Bayer Mosaic Pattern
73
Onsemi Sensor Artifacts with Fast Readout Mode
73
Fast Readout Mode Artifacts Correction
74
Exposure Alignment: Overview
74
Synchronous Exposure Alignment
74
Reset Exposure Alignment
74
Sensor Exposure Timing: Sony Sensor Models
75
Trigger Characteristics: Start of Exposure
75
Sensor Exposure Timing: Onsemi Python Models
76
Trigger Characteristics: Start of Exposure
76
Auto-Brightness Control Category
77
Auto-Brightness Feature Descriptions
77
Using Auto-Brightness
79
General Preparation
79
Auto-Brightness with Frame Luminance Averaging
80
Auto-Gain
80
Auto-Brightness by Using Auto-Exposure and Auto-Gain
80
I/O Control Category
81
I/O Control Feature Descriptions
82
I/O Module Block Diagram
86
Trigger Mode Details
86
Trigger Source Types (Trigger Mode=On)
86
Input Line Details
87
Trigger Overlap: Feature Details
88
Output Line Details
95
Output High and Output Low Block Diagram
95
Counter and Timer Control Category
96
Counter and Timer Control Feature Description
96
Counter and Timer Group Block Diagram
100
Example: Counter Start Source = off
101
Example: Counter Start Source = Counterend (Itself)
101
Example: Counterstartsource = EVENT and Signal (Edge Base)
102
Example: Counterstartsource = Line (Edge Base) Example
102
Advanced Processing Control Category
103
Advanced Processing Control Feature Descriptions
103
Lookup Table (LUT) Overview
106
LUT Size Vs. Output Pixel Format
106
Defective Pixel Replacement
107
Example User Defective Pixel Map XML File
107
Monochrome Defective Pixel Replacement Algorithm Description
108
Color Defective Pixel Replacement Algorithm Description
110
Color Processing Control Category
111
Color Processing Control Feature Description
111
Color Processing Functional Overview
112
White Balance Operation
113
Simplified RGB Design Firmware Block Diagram
113
Saturation and Luminance Operation
114
Flat Field Correction Category
115
Flat Field Correction Feature Description
115
Cycling Preset Mode Control Category
117
Cycling Preset Mode Control Feature Description
118
Using Cycling Presets-A Simple Example
122
Multi-Exposure Cycling Example Setup
122
Cycling Reset Timing Details
123
Case 1: Cycling with Internal Synchronous Increment
123
Case 2: Cycling with External Asynchronous Increment
123
Using Cycling Presets with Output Controls
124
Feature Settings for this Example
124
Cycling Mode Constraints with a Changing ROI
125
Specifics Concerning Onsemi Sensor Models
125
Specifics Concerning Sony Sensor Models
125
Image Format Control Category
126
Image Format Control Feature Description
127
Width and Height Features for Partial Scan Control
132
Vertical Cropping (Partial Scan)
132
Maximum Frame Rate Examples (Models M/C 1920 & 1940)
133
Maximum Frame Rate Examples (Models M2420 & M2450)
133
Maximum Frame Rate Examples (Models M2020 & M2050)
134
Maximum Frame Rate Examples (Models M/C 4040 & 4060)
134
Maximum Frame Rate Examples (Models M/C 4020 & 4030)
135
Maximum Frame Rate Examples (Model M/C 2590)
135
Maximum Frame Rate Examples (Model C 4900)
136
Maximum Frame Rate Examples (Model M/C 1930)
137
Maximum Frame Rate Examples (Model M/C 1280)
137
Maximum Frame Rate Examples (Model M/C 800)
138
Maximum Frame Rate Examples (Model M/C 640)
138
Maximum Frame Rate Examples (Nano XL-M5100)
139
Maximum Frame Rate Examples (Nano XL-M4090)
140
Horizontal Cropping (Partial Scan)
141
Using the Multiple ROI Mode
141
Important Usage Details
142
Example: Two Horizontal ROI Areas (2X1)
142
Example: Four ROI Areas (2X2)
143
Example: Actual Sample with Six ROI Areas (3X2)
143
Horizontal and Vertical Flip
145
Image Flip - Full Frame
145
Image Flip - Multi-ROI Mode
146
Binning Function and Limitations
147
Horizontal Binning Constraints
147
Vertical Binning Constraints
147
Internal Test Pattern Generator
148
Metadata Control Category
149
Metadata Control Category Feature Descriptions
149
Metadata Notes
152
Extracting Metadata Stored in a Sapera Buffer
153
Acquisition and Transfer Control Category
155
Acquisition and Transfer Control Feature Descriptions
156
Acquisition Buffering
157
Using Transfer Queue Current Block Count with Camexpert
158
Features that Cannot be Changed During a Transfer
158
Action Control Category
159
Action Control Feature Descriptions
160
Gige Vision Action Command Reference
160
Nano Features Supporting Action Command
160
Event Control Category
161
Event Control Feature Descriptions
162
Basic Exposure Events Overview
166
Events Associated with Triggered Synchronous Exposures
167
Events Associated with Triggered Multiple Frame Synchronous Exposures
167
Overview of Precision Time Protocol Mode (IEEE 1588)
168
PTP Master Clock Identity
168
An Example with Two Nano Cameras
168
IEEE 1588 Reference Resources
169
Examples Using Timestamp Modulo Event for Acquisitions
169
Case Examples Overview
169
Case 1: Simple Repeating Acquisitions as Upcoming Events
169
Case 2: Potential Uncertainness to the Start Time
170
Case 3: Timer Reset before the Actual Start Time
171
Case 4: Timer Reset after the Actual Start Time
172
Case 5: Changing 'Timestampmodulo' During Acquisitions
173
Gige Vision Transport Layer Control Category
174
Gige Vision Transport Layer Feature Descriptions
174
Defaults for Devicepacketresendbuffersize
179
Gige Vision Host Control Category
180
Teledyne DALSA Turbodrive
180
File Access Control Category
180
File Access Control Feature Descriptions
181
Updating Firmware Via File Access in Camexpert
184
Overview of the Deviceuserbuffer Feature
184
Implementing Trigger-To-Image Reliability
185
Overview
185
T2IR with Genie Nano
185
Nano Features for T2Ir Monitoring
185
Sapera Tools for Networking
187
Nano Ip Configuration Mode Details
187
Technical Specifications
188
Mechanical Specifications - C & Cs Mount
188
Mechanical Specifications - Nano Xl
190
Temperature Management
191
Notes on Genie Nano Identification and Mechanical
191
Sensor Alignment Specification
191
Connectors
192
10-Pin I/O Connector Details
192
Camera DC Power Characteristics
193
I/O Mating Connector Sources
193
Power over Ethernet (Poe) Support
193
Input Signals Electrical Specifications
194
External Input Details
194
External Input DC Characteristics
194
External Input AC Timing Characteristics
195
External Inputs: Using TTL/LVTTL Drivers
195
External Inputs: Using Common Collector NPN Drivers
196
External Inputs: Using Common Emitter NPN Driver
196
External Inputs: Using a Balanced Driver
197
Output Signals Electrical Specifications
197
External Output Details and DC Characteristics
197
External Output AC Timing Characteristics
198
External Outputs: Using External TTL/LVTTL Drivers
199
External Outputs: Using External LED Indicators
199
Using Nano Outputs to Drive Other Nano Inputs
201
Computer Requirements for Nano Cameras
202
Host PC System
202
Recommended Network Adapters
202
Ethernet Switch Requirements
203
IEEE 802.3X Pause Frame Flow Control
203
Ethernet to Fiber-Optic Interface Requirements
203
Ec & Fcc Declarations of Conformity
204
Models: M/C1920, M/C1940
204
Models: M/C2590, M/C1930, M/C1280, M/C800, M/C640
205
Models: M/C2020, M/C2050, M/C2420, M/C2450
206
Models: M/C4020, M/C4030, M/C4040, M/C4060
207
Models: M/C5100, M/C4090
208
Additional Reference Information
209
Lens Options for Models 'M/C1940' & 'M/C1920
209
Lens with the Correct Image Circle
209
Lens Options for Models '2450/2420' & '2050/2020
210
Lens Options for Models '4060/4040/4030/4020
210
Lens Options for XL Models 'M/C 5100' and 'M/C 4090
211
Lens Options for Model 'C4900
212
Lens Options for Models 'M/C2590
212
Lens Options for Models 'M/C1930
213
Lens Options for Models 'M/C1280
213
Lens Options for Models 'M/C800
214
Lens Options for Models 'M/C640
214
Additional Lens Parameters (Application Specific)
215
Optical Considerations
215
Illumination
215
Light Sources
216
IR Cut-Off Filters
216
Nano Models with Built-In IR Cut-Off Filters
216
Guidelines for Choosing IR Cut-Off Filters
216
Back Focal Variance When Using any Filter
217
Lens Modeling
219
Magnification and Resolution
219
Len Modeling
219
Sensor Handling Instructions
220
Electrostatic Discharge and the Sensor
220
Protecting against Dust, Oil and Scratches
220
Cleaning the Sensor Window
221
Ruggedized Cable Accessories
221
Cable Assembly G3-AIOC-BLUNT2M
222
Cable Assembly G3-AIOC-BRKOUT2M
224
Components Express Right-Angle Cable Assemblies
226
Cable Assembly: Right-Angle I/O Bunt End
226
Cable Assembly: Right-Angle I/O to Euro Block
227
Ruggedized RJ45 Ethernet Cables
228
Components Express Contact Information
228
Cable Assembly: Right-Angle Ethernet
229
Right-Angle Cable-Set (Mounted)
230
Troubleshooting
231
Overview
231
Problem Type Summary
231
Verifying Network Parameters
233
Before Contacting Technical Support
233
Device Available with Operational Issues
233
Firmware Updates
233
Power Failure During a Firmware Update-Now What
234
Cabling and Communication Issues
234
Acquisition Error Without Timeout Messages
234
Grab Has Random Bad Data or Noise
235
No Camera Exposure When Expected
235
Camera Is Functional but Frame Rate Is Lower than Expected
236
Camera Acquisition Is Good but Frame Rate Is Lower than Expected
236
Camera Is Functional, Frame Rate Is as Expected, but Image Is Black
236
Other Problems or Issues
237
Preventing Dropped Packets by Adjusting Power Options
237
Random Invalid Trigger Events
237
Minimum Sapera Version Required
238
Issues with Uninstalling Cognex Visionpro with Sapera LT Camexpert
238
Addendums
239
AC Characteristics: "1 Input / 3 Output" Models
239
Revision History
240
Contact Information
241
Sales Information
241
Technical Support
241
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