LEADER LV 58SER06 Instruction Manual

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LV 58SER06

3G-SDI INPUT

INSTRUCTION MANUAL

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1. INTRODUCTION ........................................................................................................ 1

1.1 Scope of Warranty.....................................................................................................................1

1.2 Operating Precautions...............................................................................................................1

1.2.1 Maximum Allowable Input Voltage .....................................................................................1

1.2.2 Shorting and Applying External Input to the Output Connectors .......................................1

1.3 Notations Used in This Manual .................................................................................................1

2. SPECIFICATIONS ...................................................................................................... 2

2.1 General......................................................................................................................................2

2.2 Features.....................................................................................................................................2

2.3 Specifications.............................................................................................................................4

2.3.1 Input Signal ........................................................................................................................4

2.3.2 Output Signal......................................................................................................................5

2.3.3 I/O Connectors ...................................................................................................................5

2.3.4 Waveform Display ..............................................................................................................6

2.3.5 Vectorscope Display...........................................................................................................7

2.3.6 5 Bar Display......................................................................................................................7

2.3.7 CIE Chromaticity Diagram Display.....................................................................................8

2.3.8 Picture Display ...................................................................................................................8

2.3.9 Status Display.....................................................................................................................9

2.3.10 Analysis Features.............................................................................................................10

2.3.11 Closed Caption Display Function.....................................................................................12

2.3.12 Phase Difference Display.................................................................................................12

2.3.13 Embedded Audio Processing...........................................................................................13

2.3.14 Frame Capture Feature....................................................................................................13

2.3.15 General Specifications .....................................................................................................13

3. NAMES AND FUNCTIONS OF PARTS .................................................................... 14

3.1 Rear Panel...............................................................................................................................14

3.2 Display Screen ........................................................................................................................15

4. BEFORE YOU BEGIN MEASURING ....................................................................... 16

4.1 Unit Installation........................................................................................................................16

4.2 SDI Signal Input.......................................................................................................................16

4.3 SDI Signal Output....................................................................................................................17

4.3.1 Reclocked Input Signal Output ........................................................................................17

4.3.2 Test Pattern Signal Output ...............................................................................................17

4.4 Switching Input Channels........................................................................................................18

4.5 External Sync Signal Input......................................................................................................18

5. UNIT SETUP ............................................................................................................ 20

5.1 Tab Menu Operations..............................................................................................................20

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5.2 General Setup (GENERAL SETUP)........................................................................................21

5.3 Output Setup (SDI OUT SETUP) ............................................................................................23

5.4 Error Setup 1 (ERROR SETUP1) ...........................................................................................25

5.5 Error Setup 2 (ERROR SETUP2) ...........................................................................................26

5.6 Error Setup 3 (ERROR SETUP3) ...........................................................................................27

5.7 Error Setup 4 (ERROR SETUP4) ...........................................................................................29

5.8 Error Setup 5 (ERROR SETUP5) ...........................................................................................31

6. VIDEO SIGNAL WAVEFORM DISPLAY................................................................... 32

6.1 Setting the Waveform Display Position...................................................................................32

6.2 Setting the Display Mode ........................................................................................................33

6.3 Selecting Which Channels to Display .....................................................................................33

6.4 Configuring the Intensity and Scale Settings ..........................................................................34

6.4.1 Adjusting the Waveform Intensity ....................................................................................34

6.4.2 Selecting the Waveform Color .........................................................................................35

6.4.3 Adjusting the Scale Intensity............................................................................................35

6.4.4 Selecting the Scale Unit...................................................................................................35

6.4.5 Displaying a Scale for 75 % Intensity Color Bars ............................................................37

6.4.6 Selecting the Scale Color.................................................................................................38

6.5 Gain and Sweep Settings........................................................................................................38

6.5.1 Selecting the Fixed Gain..................................................................................................38

6.5.2 Setting the Variable Gain .................................................................................................39

6.5.3 Selecting the Sweep Method ...........................................................................................39

6.5.4 Selecting the Line Display Format ...................................................................................40

6.5.5 Selecting the Field Display Format ..................................................................................40

6.5.6 Selecting the Horizontal Magnification.............................................................................41

6.6 Selecting Lines ........................................................................................................................42

6.6.1 Turning Line Selection On and Off...................................................................................42

6.6.2 Setting the Line Selection Range.....................................................................................43

6.7 Configuring Cursor Settings ....................................................................................................43

6.7.1 Displaying Cursors...........................................................................................................43

6.7.2 Selecting X or Y Cursors..................................................................................................44

6.7.3 Moving Cursors ................................................................................................................44

6.7.4 Selecting the Unit of Measurement..................................................................................45

6.7.5 Setting the Reference Amplitude .....................................................................................45

6.8 Configuring Display Settings...................................................................................................46

6.8.1 Selecting the Filter ...........................................................................................................46

6.8.2 Displaying the Blanking Interval.......................................................................................47

6.8.3 Setting Waveform Persistence.........................................................................................48

6.8.4 Clearing Persistent Waveforms........................................................................................48

6.8.5 Timing and 4Y Parade Displays.......................................................................................49

6.9 Configuring the Color System Settings ...................................................................................50

6.9.1 Selecting the Color Matrix................................................................................................50

6.9.2 Enabling YGBR (or YRGB) Display .................................................................................51

6.9.3 Setting the Composite Display Format ............................................................................52

6.9.4 Setting the Setup Level....................................................................................................52

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7. VECTOR DISPLAY................................................................................................... 53

7.1 Configuring the Intensity and Scale Settings ..........................................................................53

7.1.1 Adjusting the Vector Intensity...........................................................................................54

7.1.2 Selecting the Vector Color ...............................................................................................54

7.1.3 Adjusting the Scale Intensity............................................................................................54

7.1.4 Displaying the I and Q Axes.............................................................................................54

7.1.5 Selecting the Scale Color.................................................................................................55

7.2 Setting the Gain.......................................................................................................................55

7.2.1 Selecting the Fixed Gain..................................................................................................56

7.2.2 Setting the Variable Gain .................................................................................................56

7.3 Selecting Lines ........................................................................................................................57

7.3.1 Turning Line Selection On and Off...................................................................................57

7.3.2 Setting the Line Selection Range.....................................................................................57

7.4 Configuring the Color System Settings ...................................................................................58

7.4.1 Selecting the Color Matrix................................................................................................58

7.4.2 Selecting the Composite Display Format.........................................................................59

7.4.3 Selecting the Setup Level ................................................................................................59

7.4.4 Displaying a Scale for 75 % Intensity Color Bars ............................................................60

7.5 Setting Vector Persistence ......................................................................................................60

7.5.1 Setting Vector Persistence...............................................................................................60

7.5.2 Clearing Persistent Vectors..............................................................................................61

7.6 Switching the Display Mode....................................................................................................61

7.7 Configuring the 5 Bar Display .................................................................................................62

7.7.1 5 Bar Display Explanation................................................................................................62

7.7.2 Selecting the Display Order .............................................................................................63

7.7.3 Selecting the Scale Unit...................................................................................................63

7.8 Configuring the Histogram Display..........................................................................................64

7.8.1 Selecting the Display Mode of the Histogram..................................................................64

7.8.2 Turning the RGB Signals On and Off...............................................................................65

7.9 Configuring the CIE Chromaticity Diagram Display ................................................................65

7.9.1 Displaying the Color Triangle ...........................................................................................66

7.9.2 Displaying the Color Scale...............................................................................................66

7.9.3 Displaying the Black-Body Radiation Curve ....................................................................67

7.9.4 Selecting the Display Mode of the Chromaticity Diagram ...............................................67

7.9.5 Cursor Measurement .......................................................................................................68

7.9.6 Selecting the Inverse Gamma Correction Value..............................................................68

7.9.7 Selecting the Filter ...........................................................................................................69

8. PICTURE DISPLAY .................................................................................................. 70

8.1 Adjusting the Picture ...............................................................................................................70

8.1.1 Adjusting the Brightness ..................................................................................................71

8.1.2 Adjusting the Contrast......................................................................................................71

8.1.3 Adjusting the Gain............................................................................................................71

8.1.4 Adjusting the Bias ............................................................................................................71

8.2 Configuring Marker Settings....................................................................................................72

8.2.1 Aspect Marker ..................................................................................................................72

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8.2.2 AFD Marker Settings........................................................................................................72

8.2.3 Safe Action Marker...........................................................................................................73

8.2.4 Safe Title Marker ..............................................................................................................73

8.2.5 Center Marker ..................................................................................................................74

8.3 Selecting Lines ........................................................................................................................74

8.3.1 Turning Line Selection On and Off...................................................................................74

8.3.2 Setting the Line Selection Range.....................................................................................75

8.4 Configuring Display Settings...................................................................................................75

8.4.1 Selecting the Display Size ...............................................................................................75

8.4.2 Displaying a Histogram ....................................................................................................76

8.4.3 Gamut Error Display.........................................................................................................77

8.4.4 Selecting the Gamut Error Display Format ......................................................................77

8.4.5 Displaying AFDs ...............................................................................................................77

8.5 Configuring Closed Caption Information Settings...................................................................79

8.5.1 Displaying the Closed Caption Information......................................................................79

8.5.2 Selecting the Format of English Closed Captions ...........................................................80

8.5.3 Selecting the Display Details of English Closed Captions...............................................80

8.5.4 Selecting the Format of Japanese Closed Captions .......................................................81

8.5.5 Selecting the Display Details of Japanese Closed Captions ...........................................81

8.5.6 Clearing Japanese Closed Captions................................................................................81

8.6 Hiding Menus and Markers .....................................................................................................81

9. STATUS DISPLAY.................................................................................................... 82

9.1 Status Display Explanation......................................................................................................82

9.2 Switching the Error Count Unit ................................................................................................86

9.3 Clearing the Error Count .........................................................................................................86

9.4 3G-SDI Line Numbers.............................................................................................................86

9.5 Configuring Event Log Settings...............................................................................................87

9.5.1 Event Log Explanation .....................................................................................................88

9.5.2 Starting Event Logging.....................................................................................................89

9.5.3 Clearing the Event Log.....................................................................................................89

9.5.4 Selecting the Overwrite Mode..........................................................................................89

9.5.5 Saving to USB Memory....................................................................................................90

9.6 Data Dump Settings ................................................................................................................92

9.6.1 Data Dump Explanation...................................................................................................92

9.6.2 Selecting the Display Mode .............................................................................................93

9.6.3 Selecting the Content to Display......................................................................................93

9.6.4 Selecting the Display Start Position.................................................................................95

9.6.5 Selecting the Sample Number Adjustment Step Size......................................................96

9.6.6 Selecting Lines and Samples...........................................................................................96

9.6.7 Saving to USB Memory....................................................................................................97

9.7 Configuring Phase Difference Measurement Settings............................................................99

9.7.1 Phase Difference Measurement Screen Explanation......................................................99

9.8 Displaying the List of Ancillary Data......................................................................................102

9.8.1 Ancillary Data Display Explanation ................................................................................102

9.8.2 Displaying the Ancillary Data Dump...............................................................................103

9.8.3 Updating the Data Dump................................................................................................103

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9.8.4 Selecting the Dump Mode..............................................................................................104

9.9 Detecting Ancillary Packets...................................................................................................104

9.9.1 Ancillary Packet Display Explanation.............................................................................105

9.10 Displaying EDH Packets .......................................................................................................107

9.10.1 EDH Packet Display Explanation...................................................................................107

9.10.2 Selecting the Display Format.........................................................................................109

9.10.3 Selecting the Dump Mode..............................................................................................109

9.11 Displaying the Format ID.......................................................................................................110

9.11.1 Format ID Display Explanation ...................................................................................... 110

9.11.2 Selecting the Display Format......................................................................................... 111

9.11.3 Selecting the Content to Display.................................................................................... 111

9.12 Displaying Audio Control Packets ......................................................................................... 112

9.12.1 Selecting the Group to Display ...................................................................................... 112

9.12.2 Selecting the Display Format......................................................................................... 113

9.12.3 Selecting the Dump Mode..............................................................................................113

9.13 V-ANC ARIB Display.............................................................................................................. 113

9.14 Displaying Closed Caption Packets ......................................................................................114

9.14.1 Closed Caption Packet Display Explanation..................................................................114

9.14.2 Selecting the Closed Caption Type................................................................................ 115

9.14.3 Selecting the Display Format......................................................................................... 115

9.14.4 Selecting the Dump Mode..............................................................................................115

9.15 Displaying the Inter-Stationary Control Data.........................................................................116

9.15.1 Inter-Stationary Control Data Display Explanation ........................................................ 117

9.15.2 Selecting the Display Format......................................................................................... 117

9.15.3 Setting the Bit Mask ....................................................................................................... 118

9.15.4 Selecting the Dump Mode..............................................................................................118

9.15.5 Displaying the Q Signal Log...........................................................................................119

9.16 Displaying the Data Broadcast Trigger Signal ......................................................................120

9.16.1 Selecting the Display Format.........................................................................................120

9.16.2 Selecting the Dump Mode..............................................................................................121

9.17 Displaying the User Data.......................................................................................................121

9.17.1 Selecting the Dump Mode..............................................................................................122

9.18 V-ANC SMPTE Display .........................................................................................................122

9.19 Displaying EIA-708 Data .......................................................................................................123

9.19.1 EIA-708 Data Display Explanation.................................................................................123

9.19.2 Selecting the Display Format.........................................................................................124

9.19.3 Selecting the Dump Mode..............................................................................................124

9.20 Displaying EIA-608 Data .......................................................................................................125

9.20.1 Selecting the Display Format.........................................................................................125

9.20.2 Selecting the Dump Mode..............................................................................................125

9.21 Displaying Program Data ......................................................................................................126

9.22 Displaying VBI Data...............................................................................................................127

9.23 Displaying AFD Packets ........................................................................................................128

9.23.1 AFD Packet Display Explanation ...................................................................................128

9.23.2 Selecting the Display Format.........................................................................................129

9.23.3 Selecting the Dump Mode..............................................................................................129

9.24 Performing Custom Searches ...............................................................................................130

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9.24.1 Detecting Data................................................................................................................130

9.24.2 Selecting the Dump Mode..............................................................................................131

10. FRAME CAPTURE................................................................................................. 132

10.1 Selecting the Capture Mode..................................................................................................132

10.2 Acquiring Frame Capture Data..............................................................................................133

10.2.1 Acquiring Data Manually ................................................................................................133

10.2.2 Acquiring Data Automatically (Error Capture)................................................................133

10.3 Displaying Frame Capture Data............................................................................................135

10.4 Saving to USB Memory.........................................................................................................135

10.5 Loading Frame Capture Data................................................................................................136

10.6 Deleting Frame Capture Data ...............................................................................................137

10.7 Frame Data File Format ........................................................................................................138

10.7.1 3G-SDI Frame Data Structure........................................................................................138

10.7.2 Header Information Explanation ....................................................................................139

10.7.3 Explanation of 3G-SDI, HD-SDI, and HD Dual Link Capture Data................................142

10.7.4 Explanation of SD-SDI Capture Data.............................................................................143

11. APPENDIX ............................................................................................................. 144

11.1 Menu Tree..............................................................................................................................144

11.1.1 Video Signal Waveform Menu........................................................................................144

11.1.2 Vector Menu ...................................................................................................................147

11.1.3 Picture Menu ..................................................................................................................148

11.1.4 Status Menu ...................................................................................................................150

11.1.5 Unit Setup.......................................................................................................................153

11.2 CHANGE HISTORY OF THE SOFTWARE ..........................................................................155

Index

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1. INTRODUCTION

Thank you for purchasing this LEADER instrument. To use this instrument safely, read this instruction manual thoroughly, and make sure that you know how to use the instrument properly.

If some point about the operation of this instrument is still unclear after you have read this instruction manual, refer to the contact information on the back cover of the manual to contact LEADER, or contact your local LEADER agent. After you have finished reading this manual, keep it in a convenient place so that you can refer to it when necessary.

1.1 Scope of Warranty

This LEADER instrument has been manufactured under the strictest quality control guidelines.

LEADER shall not be obligated to furnish the following free services during the warranty period.

1. Repair of malfunction or damages resulting from fire, natural calamity, or improper voltage applied by the user.

2. Repair of an instrument that has been improperly repaired, adjusted, or modified by personnel other than a factory-trained LEADER representative.

3. Repair of malfunctions or damages resulting from improper use.

4. Repair of malfunctions caused by devices other than this instrument.

5. Repair of malfunctions or damages without the presentation of a proof of purchase or receipt bill for the instrument.

1. INTRODUCTION

1.2 Operating Precautions

1.2.1 Maximum Allowable Input Voltage

The maximum signal voltage that can be applied to the input connectors is indicated below. Do not apply excessive voltage to the ports. Doing so may damage the device or lead to injury.

Table 1-1 Maximum allowable input voltage

Input Connector Maximum Input Voltage

INPUT 3G-SDI A, INPUT 3G-SDI B ±2V (DC + peak AC)

1.2.2 Shorting and Applying External Input to the Output Connectors

Do not short the output connectors. Doing so may damage the instrument. Do not apply an external signal to the output connectors. Doing so may damage the instrument and devices that are connected to it.

1.3 Notations Used in This Manual

The key and other operations explained in this manual apply to the LV 5800, but you can also perform similar operations on the LV 7800.

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2. SPECIFICATIONS

2.1 General

This 3G-SDI input unit can be installed into an input slot of an LV 5800 (multi monitor) or into an LV 7800 (multi rasterizer). The LV 58SER06 supports 3G-SDI levels A and B as well as HD-SDI, SD-SDI, and HD dual link. By operating the LV 5800 or LV 7800, you can use the LV 58SER06 to display information such as the video signal waveforms, vector waveforms, pictures, and error detection results of SDI signals.

In addition, the following features can be achieved when used in combination with other units. ・Lissajous and level displays of the embedded audio signal (in combination with the LV

58SER40A).

・Eye pattern display of SDI signals (in combination with the LV 58SER07).

2.2 Features

• Two Serial Digital Inputs

There are two 3G-SDI input connectors and two operation modes. In Single Input mode, you can monitor one input by switching between the two inputs. In Simultaneous Input mode, you can monitor the two inputs simultaneously. 3G-SDI and HD dual link signals are only supported by Single Input mode.

2. SPECIFICATIONS

• Two Serial Digital Outputs

The LV 58SER06 can reclock the input signals that are received by the input connector that has been selected with the input key (3G-SDI A or 3G-SDI B) and transmit these reclocked signals from the 3G-SDI A/B output connector. From the 3G-SDI B output connector, the LV 5800 can transmit a reclocked version of the SDI signal that is received by the 3G-SDI B input connector.

• Test Pattern Signal Output

The LV 58SER06 can operate as a 3G-SDI signal pattern generator and generate a 3G-SDI signal from the two output connectors.

• Video Signal Display

The LV 58SER06 can be used to display input signals' video signal waveforms, vector waveforms, and pictures on not only the 1-screen display, but 2- and 4-screen multi displays.

• Error Detection

The LV 58SER06 can detect CRC errors and other video signal errors as well as embedded audio signal and ancillary data errors.

• Automatic Video Format Setting

The LV 58SER06 can automatically set the video format of 3G-SDI and HD dual link signals according to the payload ID packet.

• Ancillary Data Analysis

The unit supports various types of ancillary data for analysis display.

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2. SPECIFICATIONS

• Phase Display Function

The relative phase between SDI inputs can be measured.

• 5 Bar Display

You can use the 5 bar display to simultaneously monitor component and composite gamut.

• CIE Chromaticity Diagram Display

The SDI video signal can be converted into CIE1931xy chromaticity coordinates and displayed on a CIE chromaticity diagram.

• Embedded Audio Extraction

You can use the LV 58SER06 with the LV 58SER40A (DIGITAL AUDIO) to display Lissajous curves and level meters. You can also generate AES/EBU signals.

• External Synchronization Signal

Allows tri-level sync signals or black burst signals of NTSC and PAL to be input.

• Closed Caption Data Display

The closed caption data that is multiplexed in the SDI signal can be overlaid on the picture display in the following format.

1) CEA/EIA-608-B closed caption data embedded in the CDP packet as defined in EIA-708-B

2) CEA/EIA-608-B closed caption data

3) VBI (CEA/EIA-608-B Line21) closed caption data

• Detailed Display of the CDP Packet

Displays the details of the CDP packet as defined in EIA-708-B.

1) Displays the header information of the CDP packet

2) Displays whether the time code packet is available and the time code

3) Displays whether closed caption packet is available and the closed caption data

4) Displays whether closed caption service information packet is available

5) Displays whether future packets are available.

• Detailed Display of the XDS Packet

Displays the content advisory information and copy management information of the XDS packet as defined by EIA/CEA-608-B.

• Program Description Packet Detection

Detects the program description packet as defined by ATSC A/65.

• Simple Japanese Closed Caption Display

Displays simple HD, SD, analog, and mobile phone closed captions contained in supplementary closed caption data packets.

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2.3 Specifications

2.3.1 Input Signal

Video Signal Format and Corresponding Standards

3G-SDI

YCBCR4:2:2 10 bit 1080p 60/59.94/50 SMPTE 424M

HD-SDI, SD-SDI

YCBCR4:2:2 10 bit

2. SPECIFICATIONS

FormatColor System Quantization

Scanning Frame Frequency

FormatColor System Quantization

Scanning Frame (Field) Frequency

1080i 60/59.94/50

1080p 30/29.97/25/24/23.98

1080PsF 30/29.97/25/24/23.98 SMPTE RP211

720p 60/59.94/50/30/29.97/25/24/23.98 SMPTE 292M

525i 59.94

625i 50

Corresponding

Standards

SMPTE 425M

Corresponding

Standards

SMPTE 274M

SMPTE 292M

SMPTE 296M

SMPTE 259M

HD Dual Link

GBR 4:4:4

YCBCR4:2:2

FormatColor System Quantization

Scanning Frame (Field) Frequency

10 bit

12 bit

10 bit 1080p 60/59.94/50

12 bit

1080i 60/59.94/50

1080p 30/29.97/25/24/23.98

1080PsF 30/29.97/25/24/23.98

1080i 60/59.94/50

1080p 30/29.97/25/24/23.98

1080PsF 30/29.97/25/24/23.98

1080i 60/59.94/50

1080p 30/29.97/25/24/23.98

1080PsF 30/29.97/25/24/23.98

1080p 24/23.98GBR 4:4:4 (2k) 12 bit

1080PsF 24/23.98

Corresponding

Standards

SMPTE 372M

2048×1080

Ancillary Data SMPTE 291M Embedded Audio SMPTE 299M Format Setting Automatic and manual

Automatic

3G-SDI, HD Dual Link The LV58SER06 detects the format information within the

payload ID (SMPTE 325M) and automatically sets the format.

HD-SDI, SD-SDI The LV 58SER06 determines the format from the input

signal's synchronization information and automatically sets the format.

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Manual The video signal format is set manually.

2.3.2 Output Signal

3G-SDI A/B Output Connector

When Input Reclocking Is Selected

When Test Pattern Generation Is Selected

3G-SDI B Output Connector

When Input Reclocking Is Selected

When Test Pattern Generation Is Selected

2. SPECIFICATIONS

Transmits a reclocked version of the signal received by the LV 5800's input channel, or transmits a reclocked version of the signal received by input channel A

Generates a test pattern signal

Transmits a reclocked version of the signal received by input channel B

Generates a test pattern signal

Test Pattern Signals

Format YCBCR4:2:2

Corresponding Standards SMPTE 424M and 425M Patterns 100 % color bars, 75% color bars,

Embedded Audio Not supported Bitrate 2.97 Gbps or 2.97/1.001 Gbps Oscillation Clock Driven by the internal oscillator

2.3.3 I/O Connectors

3G-SDI Input Connectors

Input Connectors 2 BNC connectors

Single Link 2 connections (channels A and B) Dual Link 1 connection (links A and B)

Input Impedance 75 Ω Input Return Loss 15 dB or greater (5 MHz to 1.485 GHz)

Maximum Input Voltage ±2V (DC + peak AC)

1080p/60, 59.94, or 50

100 % white, 50% white, black, check field, equalizer, and PLL

148.5 MHz ± 10 ppm or 148.5/1.001 MHz ± 10 ppm

10 dB or greater (1.485 to 2.97 GHz)

3G-SDI Output Connectors

Output Connectors 2 BNC connectors

When Input Reclocking Is Selected

Ach/Bch switchable or Ach fixed 1 system Bch fixed 1 system

When Test Pattern Generation Is Selected

1 system

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Output Impedance 75 Ω Output Return Loss 15 dB or greater (5 MHz to 1.485 GHz)

Output Voltage 800 mVp-p ± 10 %

2.3.4 Waveform Display

Waveform Operations

Display Modes Overlay (overlays component signals)

Blanking Interval Show or hide YCBCRto GBR Conversion Converts the YCBCRsignal to GBR and displays it Pseudo-Composite Display Displays component signals artificially as composite

Timing Display Uses a bowtie signal; displays the computed Y-CBand

Channel Assignment Displayed in GBR or RGB order (when GBR converted

Line Select Displays the selected line Display Adjustment Brightness adjustment and waveform color selection

2. SPECIFICATIONS

10 dB or greater (1.485 to 2.97 GHz)

Parade (displays component signals side by side)

signals

Y-CRresults

signals are displayed)

(white, green, or multi color) (Multi color is only available on the 1-screen display)

Vertical Axis

Scales

V Scale 0 to 0.7 V, or -0.3 to 0.7 V % Scale 0 to 100 % or -50 to 100 % Decimal Scale 64 to 940 (YGBR) and 64 to 960 (CbCr)

Hexadecimal Scale 040 to 3AC (YGBR) and 040 to 3C0 (CbCr) Gain ×1, ×5, or variable Variable Gain ×0.2 to ×10 Amplitude Accuracy ±0.5 % Frequency Response

3G-SDI, HD Dual Link (1080p/60, 1080p/59.94, and 1080p/50)

Y Signal ±0.5 % (1 to 60 MHz) CBCRSignal ±0.5 % (0.5 to 30 MHz) Low-Pass Attenuation 20 dB or greater (at 40 MHz)

HD-SDI, HD Dual Link (Excluding 1080p/60, 1080p/59.94, and 1080p/50)

Y Signal ±0.5% (1 to 3 0MHz) CBCRSignal ±0.5% (0.5 to 15 MHz) Low-pass Attenuation 20 dB or greater (at 20 MHz)

SD-SDI

Y Signal ±0.5% (1 to 5.75 MHz) CBCRSignal ±0.5% (0.5 to 2.75 MHz) Low-pass Attenuation 20 dB or greater (at 3.8 MHz)

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2. SPECIFICATIONS

Horizontal Axis

Line Display

Display Formats 1H, 2H (Overlay)

1H, 2H, 3H (Parade) Y-CB, Y-CR(Timing) 4H (4Y Parade)

Magnification ×1, ×10, ×20, ACTIVE, or BLANK Field Display

Display Formats 1V, 2V (Overlay)

1V, 2V, 3V (Parade) Magnification ×1, ×20, or ×40 Time Accuracy ±0.5 %

Cursor Measurement

Composition

Horizontal Cursors 2 (REF and DELTA) Vertical Cursors 2 (REF and DELTA)

Amplitude Measurement Percentage, voltage, DEC, or HEX displays Time Measurement Second display Frequency Measurement Computes and displays the frequency with the length of

one period set to the time between two cursors

2.3.5 Vectorscope Display

Scale 75 % or 100 % (color bar) Gain ×1, ×5, IQ-MAG, or variable Variable Gain ×0.2 to ×10 Amplitude Accuracy ±0.5 % IQ Axis Show or hide Pseudo-Composite Display Converts component signals into composite signals with

Display Adjustment Brightness adjustment and waveform color selection

Histogram Display Displays the luminance distribution

2.3.6 5 Bar Display

Bar Display Displays the YGBR component and composite gamut

Error Level Setting

Component Gamut The same as the gamut error Composite Gamut The same as the composite gamut error

Frequency Response The same as the gamut error

artificially added burst and displays the results

(The color matrix is converted to SDTV)

(white or green)

(When you are using line select, only the component

gamut of the selected line is detected)

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2. SPECIFICATIONS

2.3.7 CIE Chromaticity Diagram Display

Scale Color triangle, color scale, black-body radiation curve Display Mode Full color gamut, magnified display of the vicinity of the

white point

Cursor Measurement Display of xy chromaticity coordinates Inverse Gamma Correction Value

2.2 or 2.6 Low Pass Filter On or Off Line Select Displays the xy chromaticity coordinates of the selected

line

2.3.8 Picture Display

Display Format

3G-SDI, HD-SDI, HD Dual Link

Samples pixels and displays them (R, G, and B each use 8 bits)

SD-SDI Displayed by interpolating pixels (R, G, and B each use 8

bits)

Marker Displays Aspect marker, center marker,

safe action marker, and safe title marker

Gamut Error Display Marks the areas of the picture where there are gamut

errors Line Select Marks the selected line Display Sizes Compressed, full frame, and actual size display Histogram Display Displays the luminance distribution AFD Display Displays abbreviations for SMPTE 2016-1-2007 standard

AFD codes Image Quality Adjustment GBR level, contrast, and brightness Simple Japanese Closed Caption Display

Displays simple Japanese closed caption on the picture

screen

Closed Caption Format HD, SD, analog, or mobile phone closed captions Language 1 or 2 Corresponding Standards ARIB STD B-37 short form data Video Formats 1080i/59.94, 525i/59.94 Display Location Control Only HD and SD closed captions are supported. Displayable Characters Only kanji, roman numerals, katakana, hiragana,

additional characters (ARIB STD-B24), additional kanji

(ARIB STD-B24), and 1-byte DRCS are displayed

Character Sizes Character sizes set to standard, medium, or small, or

determined by a size specification code can be displayed

Page 16

2.3.9 Status Display

SDI Signal Status Display

Signal Detection Detects the presence of a SDI signal Format Displays the video signal format Embedded Audio Channel (*1)

SDI Signal Error Detection

CRC Error Detects 3G-SDI, HD-SDI, and HD dual link signal

EDH Error Detects SD-SDI signal transmission errors Phase Difference Error in Dual Link

TRS Error Detects TRS location and protection bit errors Illegal Code Error Detects data within the range of 000h to 003h and 3FCh to

Line Number Error Detects 3G-SDI, HD-SDI, and HD dual link signal line

2. SPECIFICATIONS

Indicates the embedded audio channels

transmission errors

Measures the phase difference between link A and link B

to detect the error. It will be made the error if phase

difference exceeds 100 clocks.

3FFh in locations other than the TRS and ADF headers

number errors

Ancillary Data Error Detection

Checksum Error Detects ancillary data transmission errors Parity Error Detects ancillary data header parity errors

Image Quality Error Detection

Frequency Response Removes transient gamut and composite gamut errors

due to overshoot and other anomalies

3G-SDI, HD-SDI, HD Dual Link

Approx. 1 MHz LPF (IEEE STD 205), approx. 2.8 MHz

LPF, or OFF

SD-SDI Approx. 1MHz LPF (EBU R103-2000) or OFF

Gamut Error Detects gamut errors

Upper Limit 90.8 to 109.4% Lower Limit -7.2 to 6.1 % Area Specification 0.0 to 5.0 % Time Specification 1 to 60 frames

Composite Gamut Error Detects level errors that occur when component signals

are converted to composite signals

Upper Limit 90.0 to 135.0 % Lower Limit -40.0 to 20.0 % Area Specification 0.0 to 5.0 % Time Specification 1 to 60 frames

Page 17

2. SPECIFICATIONS

Freeze Error (*2) Detects video freeze according to the specified time

Detection Method Checksum of the video period Time Specification 2 to 300 flames

Black Error (*2) Detects blackouts in the video

Black Level Designation 0 to 100 % Area Specification 1 to 100 % Time Specification 1 to 300 flames

Level Error (*2) Detects YCBCRlevel errors

Y Upper Limit -51 to 766 mV Y Lower Limit -51 to 766 mV CBCRUpper Limit -400 to 399 mV CBCRLower Limit -400 to 399 mV

Embedded Audio Error Detection (*1)

BCH Error Detects transmission errors in the audio packets

embedded in 3G-SDI, HD-SDI, and HD dual link signals

Parity Error Detects parity errors in the audio packets embedded in

3G-SDI, HD-SDI, and HD dual link signals

DBN Error Detects audio packet continuity errors Embedded Position Error Detects the presence of audio in lines where it should not

be embedded Event Log

Recorded Events Errors, changes in the input channel, and time stamps

*1 If the input signal is 3G-SDI level B, only stream 1 is supported. If the input signal is HD dual link, only

link A is supported.

*2 This is not supported when the input signal is 3G-SDI or HD dual link.

2.3.10 Analysis Features

Data Dump Display

Display Format Displays data separated by serial data sequence or by

3G-SDI Level B Stream 1, stream 2, both streams displayed at the same

Dual Link Link A, link B, both links displayed at the same time Line Select Displays the selected line Sample Select Displays from the selected sample Jump Feature Moves to EAV or SAV with the press of a single button Data Output Saved in text format to USB memory

EDH Display

Corresponding Standards SMPTE RP-165 Displayed Contents Analyzes and displays EDH packets and displays

Display Formats Text, hexadecimal, and binary

channel

time

received CRC errors

Page 18

2. SPECIFICATIONS

Format ID Display

Corresponding Standard SMPTE 352M, ARIB STD-B39 (*1) Display Details Displays payload information analysis

Audio Control Packet Display (*2)

Display Details Displays audio control packet analysis Display Formats Text, hexadecimal, and binary Group Selection Select one group from four available groups

Closed Caption Display (*1)

Corresponding Standards ARIB STD-B37 Displayed Contents Analyzes and displays closed caption signals Display Formats Text, hexadecimal, and binary

Inter-Stationary Control Signal (NET-Q) (*1)

Corresponding Standards ARIB STD-B39 Displayed Contents Analyzes and displays inter-stationary control signals Display Formats Text, hexadecimal, and binary Log Function Logs Q signals

Data Broadcasting Trigger Signal Display (*1)

Corresponding Standards ARIB STD-B35 Display Formats Text, hexadecimal, and binary

V-ANC User Data Display (*1)

Corresponding Standards ARIB TR-B23 Display Formats Hexadecimal and binary

ADF Packet Display (*1)

Corresponding Standards SMPTE 2016-1-2007 Display Formats Text, hexadecimal, and binary

ANC Packet Display (*2)

ANC Specification Method: DID/SDID Display Formats Hexadecimal and binary

Time Code Display (*2)

Supported Time Codes LTC (SMPTE 12M-2), VITC (SMPTE 12M-2), and

D-VITC (SMPTE 266M)

Display Mode The instrument's internal clock or the time code

*1 This is not supported when the input signal is 3G-SDI or HD dual link. *2 If the input signal is 3G-SDI level B, only stream 1 is supported. If the input signal is HD dual link, only

link A is supported.

Page 19

2. SPECIFICATIONS

2.3.11 Closed Caption Display Function

Corresponding Standards

EIA-708 SMPTE 334M (DID: 161h, SDID: 101h) EIA/CEA-608-B (EIA-708-B) SMPTE 334M (DID: 161h, SDID: 101h) EIA/CEA-608-B (EIA/CEA-608-B)

VBI (EIA/CEA-608-B Line21) CIA/EIA-608-B

Display Contents

CDP Packet Header information

XDS Packet Content advisory information

Program Description Packet Stuffing Descriptor

SMPTE 334M (DID: 161h, SDID: 102h)

• Frame rate

• Presence of the time code packet

• Presence of the closed caption packet and validity

• Presence of the caption service information packet and validity

• Presence of the future data packet Time code (when the time code packet is available) Closed caption data (when the closed caption packet is available and is valid) Presence of CC1 to CC4, TEXT1 to TEXT4, and XDS packet

Copy management information

AC3 Audio Descriptor Caption Service Descriptor Content Advisory Descriptor Extended Channel Name Descriptor Service Location Descriptor Time-Shifted Service Descriptor Component Name Descriptor DCC Departing Request Descriptor DCC Arriving Request Descriptor Redistribution Control Descriptor

2.3.12 Phase Difference Display

Display

Phase Difference Measurement

Phase Difference Measurement in Dual Link

Displays the phase difference between the SDI signal and external sync signal numerically and graphically Holds and displays eight phase difference values being measured

Displays the phase difference between link A and link B in terms of parallel clocks number

Page 20

External Synchronization Signal HD tri-level sync signal or B. B signal Display Range

V Direction Approximately ±1/2 frame H Direction (*1) ±1 line

*1 The H axis phase difference display may fluctuate within the following ranges in cases such as when

the signal is switched. ±3 clocks (for 3G-SDI level A, HD-SDI, SD-SDI, and HD dual link signals) ±6 clocks (for 3G-SDI level B signals)

2.3.13 Embedded Audio Processing

Clock Generation Generated from the video clock Synchronization All audio channels must be synchronized to the video

Phases All phases must be in-sync Channel Separation You may select a maximum of 4 groups of 16 channels

2. SPECIFICATIONS

clock

each (for 3G-SDI level B signals, only stream 1 is supported; for HD dual link signals, only link A is supported)

* You need an LV 58SER40A (DIGITAL AUDIO) unit to display and generate audio.

2.3.14 Frame Capture Feature

Function Captures frame data Capture Timing Manual and automatic (error capture) Display Displays the captured frame data or superimposes the

Media Internal memory (RAM) and USB memory

Data Output Frame captures can be saved to USB memory as .dpx

Data Input Data saved to USB memory can be loaded and displayed

Error Capturing Automatically captures frame data when an error occurs

*1 This cannot be displayed if the input signal is not the same format as the captured data.

2.3.15 General Specifications

captured frame data over the input signal

You can only record one frame of data to the internal memory

files, .tif files, or in a file format that the instrument can load

on the instrument (*1)

Environmental Conditions Conforms to those for the LV 5800 Power Consumption Supplied from the LV 5800; 18 W max. Weight 0.24 kg

Accessory Instruction manual...........................................1

Page 21

3. NAMES AND FUNCTIONS OF PARTS

3.1 Rear Panel

Figure 3-1 Rear panel

1 INPUT 3G-SDI A and INPUT 3G-SDI B

These are the SDI signal input connectors. To switch to a particular measurement channel, press A or B on the front panel. When Input Mode is set to Single Input in the unit setup, all input formats are supported, but you cannot monitor channels A and B at the same time. When Input Mode is set to Simultaneous Input, you can monitor channels A and B at the same time, but 3G-SDI and HD dual link signals are not supported.

Reference: Section 4.2, “SDI Signal Input,” and section 5.2, ”General Setup (GENERAL SETUP)”

2 OUTPUT 3G-SDI A/B

This is an output connector for a reclocked input signal or a test pattern signal. When you have selected to transmit a reclocked input signal, you can press the A or B key on the front panel to choose to transmit the reclocked INPUT 3G-SDI A or INPUT 3G-SDI B signal. When Input Mode is set to Simultaneous Input in the unit setup, you can also transmit a fixed reclocked version of the signal that is applied to INPUT 3G-SDI A. When you have selected to transmit a test pattern signal, a 3G-SDI test pattern signal is transmitted from this connector.

Reference: Section 4.3, “SDI Signal Output,” section 5.2, “General Setup (GENERAL SETUP),” and

section 5.3, “Output Setup (SDI OUT SETUP)”

Page 22

3 OUTPUT 3G-SDI B

This is an output connector for a reclocked input signal or a test pattern signal. When you have selected to transmit a reclocked input signal, the reclocked INPUT 3G-SDI B signal is transmitted from this connector. When you have selected to transmit a test pattern signal, a 3G-SDI test pattern signal is transmitted from this connector.

Reference: Section 4.3, “SDI Signal Output,” and section 5.3, “Output Setup (SDI OUT SETUP)”

3.2 Display Screen

This section explains the information about this unit that appears on the top of the screen.

3. NAMES AND FUNCTIONS OF PARTS

Figure 3-2 Display screen

1 Format

The input signal's scanning and frame (field) rate appear here.

2 Link format

The input signal format—3GA, 3GB, D, or a blank—appears here.

3 Color system

The color system and quantization (only when the signal is 3G-SDI or HD dual link) appear here.

4 Input signal

The selected unit/channel appear here.

5 Sync signal

When the measurement mode is set to WFM, VECT, PIC, or STATUS, the sync signal type—INT or EXT—appears here. However, when the input signal is 3G-SDI, the sync signal type is fixed to INT, and nothing appears here (for all displays excluding the phase difference display). When the measurement mode is AUDIO and this unit is selected, EMB appears.

6 Time

The time that you have selected for Time Code in the unit setup appears here.

Reference: Section 5.2, “General Setup (GENERAL SETUP)”

Page 23

4. BEFORE YOU BEGIN MEASURING

4.1 Unit Installation

• Installing the Unit in the LV 5800

The LV 58SER06 is an input unit. Refer to the LV 5800 instruction manual, and install the LV 58SER06 in a slot from 1 to 4. You can install up to four LV 58SER06 units.

• Installing the Unit in the LV 7800

For the LV 7800, the LV 58SER06 is a factory option. You cannot install or uninstall units. Contact your local LEADER agent. You can install up to four LV 58SER06 units.

4.2 SDI Signal Input

The signals that can be applied vary (as shown below) depending on the Input Mode setting in the unit setup. Apply a signal with an appropriate format to the LV 58SER06.

Reference: Input Mode → Section 5.2, “General Setup (GENERAL SETUP)”

Table 4-1 Input Signal

Input Mode 3G-SDI HD Dual Link HD-SDI SD-SDI Notes

Single Input Y Y Y Y You cannot monitor channels

A and B at the same time.

Simultaneous Input N N Y Y You can monitor channels

A and B at the same time.

(Y: supported; N: not supported)

The format is detected automatically by default. If the error message “UNKNOWN” appears, set Auto/Manual to Manual in the unit setup.

Reference: Auto/Manual → Section 5.2, “General Setup (GENERAL SETUP)”

The input connectors are terminated internally at 75 Ω, so there is no need to connect terminators to them.

Connect each of the external reference input connectors to a cable with a characteristic impedance of 75 Ω. If you use a cable longer than 70 m, errors may occur as a result of signal degradation.

It has been confirmed that errors do not occur when the LV 5800 receives an 800 mVp-p stress pattern through the following cables.

3G-SDI: LS-5CFB cable, 70 m HD-SDI: LS-5CFB cable, 110 m SD-SDI: L-5C2V cable, 260 m

Page 24

4.3 SDI Signal Output

The signals that can be transmitted vary (as shown below) depending on the settings in the unit setup. Regardless of the types of signals that are transmitted, connect the signals to SDI compatible picture monitors or other devices. You must terminate the receiving connectors at 75 Ω.

Reference: Input Mode, SDI Select Output → Section 5.2, “General Setup (GENERAL SETUP) ”

SDI OUT → Section 5.3, “Output Setup (SDI OUT SETUP)”

Table 4-2 Output Signal

A/Bch Output Bch Output

Single Input

Input

Input Through Input Through INPUT A/B INPUT B

Input Through 3G Test Signal INPUT A/B 3G Test Signal

3G Test Signal Input Through 3G Test Signal INPUT B

3G Test Signal 3G Test Signal

Cannot be set

4. BEFORE YOU BEGIN MEASURING

Unit Setup Settings Output Signal

SDI OUTInput Mode

SDI Select

Output

Cannot be set

Ach/Bch INPUT A/B INPUT BSimultaneous

Ach INPUT A INPUT B

OUTPUT A/B OUTPUT B

3G Test Signal 3G Test Signal

4.3.1 Reclocked Input Signal Output

You can transmit reclocked input signals by setting SDI OUT to Input Through in the unit setup. The OUTPUT 3G-SDI A/B connector transmits the reclocked version of the signal that has been received by the connector, either INPUT 3G-SDI A or INPUT 3G-SDI B, that you choose by pressing the A or B key on the front panel. When Input Mode is set to Simultaneous Input in the unit setup, you can also transmit a fixed reclocked version of the signal that is applied to INPUT 3G-SDI A. The OUTPUT 3G-SDI B connector transmits the reclocked version of the signal that has been received by INPUT 3G-SDI B.

Reference: Input Mode → Section 5.2, “General Setup (GENERAL SETUP) ”

4.3.2 Test Pattern Signal Output

You can transmit 3G-SDI test pattern signals by setting SDI OUT to Test Signal in the unit setup. You can select from eight test patterns. You can also choose to switch between patterns automatically.

Applying a signal to an input connector will increase the timing jitter in the output signal. Do not apply a signal to an input connector when you want to keep the timing jitter to a value within the range specified by SMPTE 424M.

Page 25

4. BEFORE YOU BEGIN MEASURING

4.4 Switching Input Channels

To switch to a particular input channel, press A or B on the front panel. If you have set SDI Select Output to Ach/Bch or A/Bch Output to Input Through in the unit setup, the signal for the channel that you have selected is transmitted.

If you set Input Mode to Single Input in the unit setup, you cannot monitor channels A and B simultaneously. If you switch the input channel within a selected area, the input channel will also be switched in all the areas that are displaying the signal of the unit whose input channel you switched.

4.5 External Sync Signal Input

On the video signal waveform display,(*1) vector display,(*1) and status display (phase difference display), you can display waveforms by applying an external sync signal. Apply an external sync signal to an external sync signal input connector, and then press EXT on the front panel. The LV 5800 determines the sync signal format automatically.

As shown in the figure below, the external sync signal input connectors are loop-through. Apply the input signal to one of the two connectors, and terminate the other connector at 75 Ω, or connect it to another 75 Ω device. If you connect to another device, be sure to terminate the device at the end of the chain at 75 Ω. Connect cables with a characteristic impedance of 75 Ω to the input connectors.

Figure 4-1 Loop Through

If you display the phase difference between the external sync signal (the reference) and the video signal waveform, the phase difference may fluctuate within the following ranges in cases such as when the signal is switched.

±3 clocks (for 3G-SDI level A, HD-SDI, SD-SDI, and HD dual link signals) ±6 clocks (for 3G-SDI level B signals)

*1 When the input signal is 3G-SDI, you cannot display waveforms using an external sync signal You can

only use the internal sync signal.

Page 26

4. BEFORE YOU BEGIN MEASURING

External sync signals that are compatible with each input signal are indicated with a check mark in the following table.

Table 4-3 External sync signal formats

Input Signal Format

525i/59.94

625i/50

1080i/60

1080i/59.94

1080i/50

1080PsF/30

1080PsF/29.97

1080PsF/25

1080PsF/24

1080PsF/23.98

1080p/30

1080p/29.97

1080p/25

1080p/24

1080p/23.98

720p/60

720p/59.94

720p/50

720p/30

720p/29.97

720p/25

720p/24

720p/23.98

NTSC with 10 field ID

(59.94Hz)(*2)

NTSC (59.94Hz)      

PAL (50Hz)       

1080i/60   

1080i/59.94   

1080i/50   

1080PsF/30  

1080PsF/29.97  

1080PsF/25  

1080PsF/24 

1080PsF/23.98 

1080p/30 

1080p/29.97 

1080p/25 

1080p/24 

External Sync Signal Format

1080p/23.98 

720p/60 

720p/59.94 

720p/50 

720p/30 

720p/29.97 

720p/25 

720p/24 

720p/23.98 

         

1080p/60 (*1)

1080p/59.94 (*1)

1080p/50 (*1)

*1 You cannot use the external sync signal to display the video signal waveform display and vector display. *2 If the input signal is 1080PsF/23.98 or 1080p/23.98, the 10 field ID is automatically detected.

Page 27

5. UNIT SETUP

In the unit setup, you can specify the input format, error detection settings, and other settings for individual units. If there is more than one LV 58SER06 installed in the LV 5800, you must set each LV 58SER06 individually. The settings that you configure in the unit setup apply to both LV 58SER06 channels (A and B). You cannot configure settings for each channel individually.

To open the unit setup, in the system menu, press F•1 UNIT SETUP, and then press the function key (F•1 to F•4) of the unit number that corresponds to the slot that the LV 58SER06 is installed in.

SYS → F•1 UNIT SETUP →

Figure 5-1 UNIT SETUP menu

5. UNIT SETUP

5.1 Tab Menu Operations

You can usually use the function menu to change the settings, but the unit setup settings appear on a tab menu. The list below explains how to perform different operations in the tab menu.

• To Move the Cursor

Turn the function dial (F•D). Depending on what you are setting, you may not be able to move the cursor.

• To Change the Tab

Press F•2 PREV or F•3 NEXT. Even if you switch to another tab, the settings are not confirmed until you press F•1 COMPLETE.

• To Select a Checkbox

Press the function dial (F•D).

• To Enter a Value

When you push the function dial (F•D), the color of the cursor changes from blue to green, and you can set the value by turning the function dial (F•D). To confirm the value that you have set, press the function dial (F•D) again.

• To Apply the Tab Settings

Press F•1 COMPLETE to apply the settings from all the tabs and return to the screen that is one level up.

• To Cancel the Tab Settings

Press F•7 CANCEL to cancel the settings from all the tabs and return to the screen that is one level up.

Page 28

5. UNIT SETUP

5.2 General Setup (GENERAL SETUP)

In the GENERAL SETUP tab, configure input mode, input signal format, and time code settings.

Figure 5-2 GENERAL SETUP display

• Input Mode

Select the input mode. When you switch to a different input mode, “System reconfiguration” is displayed. It takes a few seconds for the input mode to be applied to the LV 5800.

Single Input: All input formats are supported, but channels A and B cannot be

monitored at the same time. The transmitted signal is a reclocked version of the input signal or a 3G-SDI test pattern. This is the default setting.

Simultaneous Input: SD-SDI and HD-SDI input signals are supported. Channels A and B

can be monitored at the same time. The transmitted signal is a reclocked version of the input signal.

• Auto/Manual

Select the method for detecting the format.

Auto: The format is automatically detected from the input signal.

If the input signal is 3G-SDI or HD dual link, the format is automatically detected from the payload ID (SMPTE 325M). If there is no payload ID, the format indicated by the payload ID is not supported by the LV 58SER06, or the format indicated by the payload ID is different from the detected format of the input signal, “UNKNOWN” appears as an error message. This is the default setting.

Manual: You must set the format manually. If the format that you set is different from the

detected format of the input signal, the error message “UNKNOWN” appears.

Page 29

5. UNIT SETUP

• i/PsF Select

When Auto/Manual is set to Auto, select the display format for the following input formats. This setting cannot be chosen when Auto/Manual is set to Manual.

• 1080i/60 and 1080PsF/30

• 1080i/59.94 and 1080PsF/29.97

• 1080i/50 and 1080PsF/25

Interlace: The input format is displayed as interlaced. This is the default

setting.

Segmented Frame: The input format is displayed as segmented frame.

• Format

When Auto/Manual is set to Manual, select the input format. This setting cannot be chosen when Auto/Manual is set to Auto.

The combinations shown below are the formats that you can select. (The cells in the table that are shaded in are fixed values. You cannot change these settings.) If you specify a format that is not one of the following combinations, “ILLEGAL FORMAT” will be displayed. Specify a correct format.

When Input Mode is set to Simultaneous Input, Link Format is set to HD or SD.

Table 5-1 Setting the Input Format

Link Format Color System Pixel Depth Scanning Active

Sample

3G-A, 3G-B YCbCr(4:2:2) 10 bits 1080p 1920 60, 59.94, 50

HD-DualLink

HD YCbCr(4:2:2) 10 bits

YCbCr(4:2:2)

GBR(4:4:4)

10 bits 1080p 1920 60, 59.94, 50

12 bits

10 bits

12 bits

1080p 1920 30, 29.97, 25, 24, 23.98

1080i 1920 30, 29.97, 25

1080PsF 1920 30, 29.97, 25, 24, 23.98

1080p 1920 30, 29.97, 25, 24, 23.98

1080i 1920 30, 29.97, 25

1080PsF 1920 30, 29.97, 25, 24, 23.98

1080p 1920 30, 29.97, 25, 24, 23.98

1080i 1920 30, 29.97, 25

1080PsF 1920 30, 29.97, 25, 24, 23.98

1080p 2048(2k) 24, 23.98

1080PsF 2048(2k) 24, 23.98

1080p - 30, 29.97, 25, 24, 23.98

1080i - 30, 29.97, 25

1080PsF - 30, 29.97, 25, 24, 23.98

720p - 60, 59.94, 50, 30,

525i - 59.94SD YCbCr(4:2:2) 10 bits

625i - 50

Frame Rate (*1)

29.97, 25, 24, 23.98

*1 Note that when i/PsF Select is set to Interlace, the frame rate is displayed. For example, if the field rate

is 59.94, set the frame rate to 29.97.

Page 30

5. UNIT SETUP

• Time Code

Select the type of clock that you want to display in places such as the top of the screen and the event log.

Real Time: The time set in the system settings is displayed. This is the default setting. LTC: The LTC timecode embedded in the input signal is displayed. VITC: The VITC timecode embedded in the input signal is displayed. D-VITC: The D-VITC timecode embedded in the input signal is displayed. D-VITC

timecodes are enabled when the input signal is SD-SDI.

• SDI Select Output

When Input Mode is set to Simultaneous Input, select the signal that is transmitted from OUTPUT A/B. This setting cannot be chosen when Input Mode is set to Single Input.

Ach/Bch: The OUTPUT A/B connector transmits the reclocked version of the signal that

has been received by the connector, either INPUT A or INPUT B, that you choose by pressing the A or B key on the front panel.

Ach: The OUTPUT A/B connector transmits the reclocked version of the signal that

has been received by the INPUT A connector. This is the default setting.

5.3 Output Setup (SDI OUT SETUP)

In the SDI OUT SETUP tab, configure settings for the LV 58SER06 output connectors. When Input Mode is set to Simultaneous Input, this tab is not displayed. The transmitted signal is a reclocked version of the input signal.

Figure 5-3 SDI OUT SETUP display

Page 31

5. UNIT SETUP

• A/Bch Output

You can select what kind of signal to transmit from the 3G-SDI A/B output connector.

Input Through: The OUTPUT 3G-SDI A/B connector transmits the reclocked version of

the signal that has been received by the connector, either INPUT 3G-SDI A or INPUT 3G-SDI B, that you choose by pressing the A or B key on the front panel. This is the default setting.

3G Test Signal: The OUTPUT 3G-SDI A/B connector transmits a 3G-SDI test pattern

signal.

• Bch Output

You can select what kind of signal to transmit from the 3G-SDI B output connector.

Input Through: The OUTPUT 3G-SDI B connector transmits the reclocked version of

the signal that has been received by the INPUT 3G-SDI B connector. This is the default setting.

3G Test Signal: The OUTPUT 3G-SDI B connector transmits a 3G-SDI test pattern

signal.

• 3G-Level

Select the SMPTE 425M-specified level (level A or level B). The test pattern's transmission structure varies depending on the level.

A or B. The default setting is B.

• Frame Rate

Select the test pattern signal frame rate.

60, 59.94 (default setting), or 50

• Pattern

Select the test pattern signal output pattern. You cannot select an output pattern when Pattern Change is set to ON.

100% Color Bar: 100 % color bar (100 % white, 100 % saturation). This is the default

setting. 75% Color Bar: 75 % color bar (100 % white, 75 % saturation) 100 % White: 100 % white 50 % White: 50 % white Black: Black Check Field: Check field pattern (EQ + PLL) EQ: Equalizer test pattern PLL: PLL test pattern

Page 32

5. UNIT SETUP

• Pattern Change

You can select whether or not to automatically switch the test pattern.

OFF: The test pattern is not automatically switched. This is the default setting. ON: The test pattern is automatically switched.

You can set the switching time within the range of 5 to 300 frames. (Default setting: 30 frames.) For example, if the frame rate is 60 and you set the switching time to 30 frames, the pattern will switch every 0.5 seconds when the 3G-Level is A or every second when the level is B.

5.4 Error Setup 1 (ERROR SETUP1)

In the ERROR SETUP1 tab, configure SDI error detection settings.

Figure 5-4 ERROR SETUP1 display

• TRS Error

Select whether or not to detect TRS Pos and TRS Code errors.

ON or OFF. The default setting is ON.

• Line Number Error

Select whether or not to detect line number errors. This setting is valid when the input signal is 3G-SDI, HD-SDI, or HD dual link.

ON or OFF. The default setting is ON.

• CRC Error

Select whether or not to detect CRC errors. This setting is valid when the input signal is 3G-SDI, HD-SDI, or HD dual link.

ON or OFF. The default setting is ON.

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5. UNIT SETUP

• EDH Error

Select whether or not to detect EDH errors. This setting is valid when the input signal is SD-SDI.

ON or OFF. The default setting is ON.

• Illegal Code Error

Select whether or not to detect illegal code errors.

ON or OFF. The default setting is ON.

5.5 Error Setup 2 (ERROR SETUP2)

In the ERROR SETUP2 tab, configure ancillary data and embedded audio error detection settings.

Figure 5-5 ERROR SETUP2 display

• Parity Error

Select whether or not to detect parity errors in the ancillary data.

ON or OFF. The default setting is ON.

• Checksum Error

Select whether or not to detect checksum errors in the ancillary data.

ON or OFF. The default setting is ON.

• BCH Error

Select whether or not to detect BCH errors in the embedded audio. This setting is valid when the input signal is 3G-SDI, HD-SDI, or HD dual link.

ON or OFF. The default setting is ON.

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5. UNIT SETUP

• DBN Error

Select whether or not to detect DBN errors in the embedded audio.

ON or OFF. The default setting is ON.

• Parity Error

Select whether or not to detect parity errors in the embedded audio. This setting is valid when the input signal is 3G-SDI, HD-SDI, or HD dual link.

ON or OFF. The default setting is ON.

• Inhibit Line Error

Select whether or not to detect embedding errors in the embedded audio.

ON or OFF. The default setting is ON.

5.6 Error Setup 3 (ERROR SETUP3)

In the ERROR SETUP3 tab, configure gamut error settings.

Figure 5-6 ERROR SETUP3 display

• LowPass Frequency

Select the frequency response of the low-pass filter used for gamut error and composite gamut error detection. Set the low-pass frequency to remove transient errors caused by overshoot and other anomalies.

ALL:1MHz: A 1 MHz low-pass filter is applied (IEEE STD 205).

This is the default setting.

SD:1MHz Others:2.8MHz: When the input signal is SD-SDI, a 1 MHz low-pass filter is

applied. For all other signals, a 2.8 MHz low-pass filter is applied.

OFF: No low-pass filter is applied.

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5. UNIT SETUP

• Gamut Error

Select whether or not to detect gamut errors.

ON or OFF. The default setting is ON.

• Gamut Upper

Set the gamut error upper limit. An error occurs when the input signal level exceeds the specified value. In the 5 bar GBR display, levels that exceed the specified value are displayed in red.

90.8 to 109.4 % (default setting: 109.4 %)

• Gamut Lower

Set the gamut error lower limit. An error occurs when the input signal level goes below the specified value. In the 5 bar GBR display, levels that go below the specified value are displayed in red.

-7.2 to 6.1 % (default setting: -7.2 %)

• Area

Specify the percentage of the active picture area over which errors must occur to be recognized. You cannot configure this setting when Gamut Error is set to OFF.

0.0 to 5.0 % (default setting: 0.1 %)

• Duration

Set the number of consecutive frames over which errors must occur to be recognized. You cannot configure this setting when Gamut Error is set to OFF.

1 to 60 frames (default setting: 1 frame)

• Composite Gamut Error

Select whether or not to detect composite gamut errors.

ON or OFF. The default setting is ON.

• Setup

Select the setup level to add when converting component signals to composite signals.

0%: No setup level is added. This is the default setting.

7.5%: A setup level of 7.5 % is added.

• Composite Upper

Set the composite gamut error upper limit. An error occurs when the input signal level exceeds the specified value. In the 5 bar CMP display, levels that exceed the specified value are displayed in red.

90.0 to 135.0 % (default setting: 135.0 %)

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5. UNIT SETUP

• Composite Lower

Set the composite gamut error lower limit. An error occurs when the input signal level goes below the specified value. In the 5 bar CMP display, levels that go below the specified value are displayed in red.

-40.0 to 20.0 % (default setting: -40 %)

• Area

Specify the percentage of the active picture area over which errors must occur to be recognized. You cannot configure this setting when Composite Gamut Error is set to OFF.

0.0 to 5.0 % (default setting: 0.1 %)

• Duration

Set the number of consecutive frames over which errors must occur to be recognized. You cannot configure this setting when Composite Gamut Error is set to OFF.

1 to 60 frames (default setting: 1 frame)

5.7 Error Setup 4 (ERROR SETUP4)

In the ERROR SETUP4 tab, configure freeze error and black error settings. The settings that you configure here are valid when the input signal is HD-SDI or SD-SDI.

Figure 5-7 ERROR SETUP4 display

• Freeze Error

Select whether or not to detect freeze errors.

ON or OFF. The default setting is OFF.

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5. UNIT SETUP

• Area Upper, Area Lower, Area Left, and Area Right

Set what percent of each active picture area (the upper, lower, left, and right areas) will not be subject to error detection. You cannot configure this setting when Freeze Error is set to OFF.

0 to 100 % (default setting: 0 %)

• Duration

Set the number of consecutive frames over which errors must occur to be recognized. You cannot configure this setting when Freeze Error is set to OFF.

2 to 300 Frames (default setting: 2 Frames)

• Black Error

Select whether or not to detect black errors.

ON or OFF. The default setting is OFF.

• Level

Set the black error level. Any signals that are less than or equal to the specified value will be detected as errors. You cannot configure this setting when Black Error is set to OFF.

0 to 100% (default setting: 0 %)

• Area

Specify the percentage of the active picture area over which errors must occur to be recognized. You cannot configure this setting when Black Error is set to OFF.

1 to 100 % (default setting: 100 %)

• Duration

Set the number of consecutive frames over which errors must occur to be recognized. You cannot configure this setting when Black Error is set to OFF.

1 to 300 Frames (default setting: 1 Frames)

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5. UNIT SETUP

5.8 Error Setup 5 (ERROR SETUP5)

In the ERROR SETUP5 tab, configure level error settings. The settings that you configure here are valid when the input signal is HD-SDI or SD-SDI.

Figure 5-8 ERROR SETUP5 display

• Level Error

Select whether or not to detect level errors.

ON or OFF. The default setting is OFF.

• Luminance Upper

Set the luminance error upper limit. An error occurs when the input signal level exceeds the specified value. You cannot configure this setting when Level Error is set to OFF.

-51 to 766 mV (default setting: 766 mV)

• Luminance Lower

Set the luminance error lower limit. An error occurs when the input signal level goes below the specified value. You cannot configure this setting when Level Error is set to OFF.

-51 to 766 mV (default setting: -51 mV)

• Chroma Upper

Set the chroma error upper limit. An error occurs when the input signal level exceeds the specified value. You cannot configure this setting when Level Error is set to OFF.

-400 to 399 mV (default setting: 39 mV)

• Chroma Lower

Set the chroma error lower limit. An error occurs when the input signal level goes below the specified value. You cannot configure this setting when Level Error is set to OFF.

-400 to 399 mV (default setting: -400 mV)

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6. VIDEO SIGNAL WAVEFORM DISPLAY

To display video signal waveforms, press the WFM key on the front panel.

Figure 6-1 Video signal waveform display

6.1 Setting the Waveform Display Position

Use the V POS and H POS knobs on the front panel to adjust the display position of video signal waveforms.

LV 5800 LV 7800

Figure 6-2 V POS and H POS knobs

• V POS Knob

Adjusts the vertical position of the video signal waveform. Pressing the knob returns the waveform to its default position.

• H POS Knob

Adjusts the horizontal position of the video signal waveform. Pressing the knob returns the waveform to its default position.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.2 Setting the Display Mode

The video signal waveform display mode changes each time you press OVLAY on the front panel. When the OVLAY key is lit, the display mode is Overlay (waveforms are overlaid), when the OVLAY key is not lit, the display mode is Parade (waveforms are shown side by side). The default setting is parade mode. This setting is invalid when COLOR MATRIX is set to COMPOSITE or when the timing display or 4Y parade display is in use.

Reference: COLOR MATRIX → Section 6.9.1, “Selecting the Color Matrix”

LV 5800 LV 7800

Figure 6-3 OVLAY key

OVLAY = ON OVLAY = OFF

Figure 6-4 Overlay and parade displays

6.3 Selecting Which Channels to Display

Pressing a key from CH1 to CH3 turns on and off the display of the video signal waveform assigned to that key. The video signal waveform display is on when a key is lit and off when the key is not lit. By default, all of the video signal waveform displays are on. This setting is invalid when COLOR MATRIX is set to COMPOSITE, when YGBR or YRGB is set to ON, or when the timing display or 4Y parade display is in use. You cannot turn the displays for all the keys off.

Reference: COLOR MATRIX → Section 6.9.1, “Selecting the Color Matrix”

YGBR, YRGB → Section 6.9.2, “Enabling YGBR (or YRGB) Display”

Timing display, 4Y parade display → Section 6.8.5, “Timing and 4Y Parade Displays”

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6. VIDEO SIGNAL WAVEFORM DISPLAY

LV 5800 LV 7800

Figure 6-5 The CH1 to CH3 keys

Waveforms are assigned to the CH1 to CH3 keys as indicated below.

Table 6-1 Waveform assignments

COLOR MATRIX CH 1 CH 2 CH 3

YCbCr Y Cb Cr

GBR G B R

RGB R G B

6.4 Configuring the Intensity and Scale Settings

To configure the intensity and scale settings, press F•1 INTEN / SCALE in the video signal waveform menu. You can set the intensities and display colors of the video signal waveforms and scales.

WFM → F•1 INTEN / SCALE →

Figure 6-6 INTEN/SCALE menu

6.4.1 Adjusting the Waveform Intensity

To adjust the video signal waveform intensity, follow the procedure shown below. Press the function dial (F•D) to return the setting to its default value (0).

• Procedure

WFM → F•1 INTEN / SCALE → F•1 WFM INTEN

• Settings

Range: -128 to 127 (default setting: 0)

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.4.2 Selecting the Waveform Color

To select the video signal waveform color, follow the procedure shown below.

• Procedure

WFM → F•1 INTEN / SCALE → F•2 WFM COLOR

• Settings

WHITE: The video signal waveforms are displayed in white. This is the default setting. GREEN: The video signal waveforms are displayed in green.

Waveforms are displayed in white when PERSISTENCE is set to ON or INFINIT.

MULTI: The following colors are assigned to the YCbCr and GBR component

waveforms. Y: yellow, Cb: cyan, Cr: magenta, G: green, B: blue, R: red When COLOR MATRIX is set to COMPOSITE or when the timing display or 4Y parade display is in use, the video signal waveforms are displayed in white. This option is not selectable when the multi screen display is in use.

6.4.3 Adjusting the Scale Intensity

To adjust the scale intensity, follow the procedure shown below. Press the function dial (F•D) to return the setting to its default value (4).

• Procedure

WFM → F•1 INTEN / SCALE → F•3 SCALE INTEN

• Settings

Range: -8 to 7 (default setting: 4)

6.4.4 Selecting the Scale Unit

To select the scale unit, follow the procedure shown below. When COLOR MATRIX is set to COMPOSITE, the unit for NTSC signals will be set to % and the unit for PAL signals will be set to V, regardless of the unit you choose here.

White 100 % on the video signal will fall on the 0.7 V or 100 % scale line. Black 0 % on the video signal will fall on the 0 V or 0 % scale line.

Reference: COLOR MATRIX → Section 6.9.1, “Selecting the Color Matrix”

• Procedure

WFM → F•1 INTEN / SCALE → F•4 SCALE UNIT

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6. VIDEO SIGNAL WAVEFORM DISPLAY

• Settings

V: The scale shows voltages. This setting cannot be chosen when the input signal

is HD-SDI or SD-SDI. This is the default setting.

%: The scale shows percentages. This setting cannot be chosen when the input

signal is HD-SDI or SD-SDI.

HDV, SD%: The scale shows voltages when the input signal is HD-SDI and percentages

when the input signal is SD-SDI. This setting cannot be chosen when the input signal is 3G-SDI or HD dual link.

HDV, SDV: The scale shows voltages. This setting cannot be chosen when the input signal

is 3G-SDI or HD dual link.

HD%, SD%: The scale shows percentages. This setting cannot be chosen when the input

signal is 3G-SDI or HD dual link.

150%: The scale shows percentages. (Starting from -50 %.) This setting cannot be

selected when COLOR MATRIX is set to YCbCr or COMPOSITE.

1023: The scale shows 0 to 100 % as 64 to 940 (YGBR) or 64 to 960 (CbCr).

This setting cannot be chosen when COLOR MATRIX is set to COMPOSITE.

3FF: The scale shows 0 to 100 % as 040 to 3AC (YGBR) or 040 to 3C0 (CbCr).

This setting cannot be chosen when COLOR MATRIX is set to COMPOSITE.

SCALE UNIT = V SCALE UNIT = %

SCALE UNIT = 150% SCALE UNIT = 1023

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6. VIDEO SIGNAL WAVEFORM DISPLAY

SCALE UNIT = 3FF

Figure 6-7 Selecting the scale unit

6.4.5 Displaying a Scale for 75 % Intensity Color Bars

To display a scale that matches the peak levels of the color difference signals for 75 % intensity color bars, follow the procedure shown below. This menu item appears when COLOR MATRIX is set to YCbCr.

Reference: COLOR MATRIX → Section 6.9.1, “Selecting the Color Matrix”

• Procedure

WFM → F•1 INTEN / SCALE → F•5 75%COLOR SCALE

• Settings

ON: A scale for 75 % intensity color bars is displayed. OFF: A scale for 75 % intensity color bars is not displayed. This is the default setting.

75%COLOR SCALE = ON 75%COLOR SCALE = OFF

Figure 6-8 Displaying a scale for 75 % intensity color bars

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.4.6 Selecting the Scale Color

To select the scale color, follow the procedure shown below.

• Procedure

WFM → F•1 INTEN / SCALE → F•6 SCALE COLOR

• Settings

WHITE: The scale is displayed in white. YELLOW: The scale is displayed in yellow. This is the default setting. CYAN: The scale is displayed in cyan. GREEN: The scale is displayed in green. MAGENTA: The scale is displayed in magenta. RED: The scale is displayed in red. BLUE: The scale is displayed in blue.

6.5 Gain and Sweep Settings

To set the gain and sweep, press F•2 GAIN/SWEEP in the video signal waveform menu. You can configure the video signal waveform magnification.

WFM → F•2 GAIN / SWEEP →

Figure 6-9 GAIN / SWEEP menu

6.5.1 Selecting the Fixed Gain

To select the fixed video signal waveform gain, follow the procedure shown below.

• Procedure

WFM → F•2 GAIN / SWEEP → F•2 GAIN MAG

• Settings

X1: Waveforms are displayed at ×1 magnification. This is the default setting. X5: Waveforms are displayed at ×5 magnification.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.5.2 Setting the Variable Gain

To set the video signal waveform gain, follow the procedure shown below.

• Procedure

WFM → F•2 GAIN / SWEEP → F•1 GAIN VARIABLE

• Settings

CAL: The gain is fixed. This is the default setting. VARIABLE: You can adjust the waveform gain by turning the function dial (F•D). Press the

function dial (F•D) to return the setting to its default value (1.000 or 5.000). The adjusted gain value (the combination of F•1 GAIN VARIABLE and F•2 GAIN MAG) appears in the upper right of the screen.

0.200 to 2.000 (when GAIN MAG = ×1)

1.000 to 10.000 (when GAIN MAG = ×5)

GAIN MAG = X5 / GAIN VARIABLE = CAL GAIN MAG = X1 / GAIN VARIABLE = VARIABLE

6.5.3 Selecting the Sweep Method

To select the video signal waveform sweep method, follow the procedure shown below.

• Procedure

WFM → F•2 GAIN / SWEEP → F•3 SWEEP

• Settings

H: Lines are displayed. This is the default setting. V: Fields or frames are displayed. Because the sampled data is downsampled,

aliasing distortion occurs.

SWEEP = H SWEEP = V

Figure 6-10 Gain settings

Figure 6-11 Selecting the sweep method

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.5.4 Selecting the Line Display Format

To select the line display sweep time, follow the procedure shown below. When the OVLAY key is not lit (Parade display), this setting is fixed at 1H and does not appear on the menu.

• Procedure

WFM → F•2 GAIN / SWEEP → F•5 H_SWEEP

• Settings

1H: The sweep time is set to that of one line. This is the default setting. 2H: The sweep time is set to that of two lines.

H_SWEEP = 1H H_SWEEP = 2H

Figure 6-12 Selecting the line display format

6.5.5 Selecting the Field Display Format

To select the field display sweep time, follow the procedure shown below. When the OVLAY key is not lit (when the parade display is in use) or when the input signal is progressive, this setting is fixed at 1V and does not appear on the menu.

• Procedure

WFM → F•2 GAIN / SWEEP → F•5 V_SWEEP

• Settings

1V: The sweep time is set to that of one field. This is the default setting. 2V: The sweep time is set to that of one frame.

V_SWEEP = 1V V_SWEEP = 2V

Figure 6-13 Selecting the field display format

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6. VIDEO SIGNAL WAVEFORM DISPLAY

In addition, when F•5 V_SWEEP is set to 1V, follow the procedure shown below to select which field is displayed.

• Procedure

WFM → F•2 GAIN / SWEEP → F•6 FIELD

• Settings

FIELD1: Field 1 is displayed. This is the default setting. FIELD2: Field 2 is displayed.

6.5.6 Selecting the Horizontal Magnification

To select the horizontal magnification, follow the procedure shown below. The magnifications that you can select vary as shown below depending on how you configure settings such as COLOR MATRIX.

Table 6-2 Horizontal magnifications

SWEEP COLOR MATRIX OVLAY Key H_SWEEP X1 X10 X20 X40 ACTIVE BLANK

V - - - Yes No Yes Yes No No

YCbCr

GBR

RGB

COMPOSITE

OFF - Yes Yes Yes No Yes Yes

OFF - Yes No No No Yes No

1H Yes Yes Yes No Yes Yes

2H Yes Yes Yes No No Yes

1H Yes No No No Yes No

2H Yes No No No No No

• Procedure

WFM → F•2 GAIN / SWEEP → F•4 SWEEP MAG

• Settings

X1: The video signal waveforms are displayed so that they fit in the screen. This is

the default setting. X10: The waveforms are magnified from the center of the display to 10 times X1. X20: The waveforms are magnified from the center of the display to 20 times X1. X40: The waveforms are magnified from the center of the display to 40 times X1. ACTIVE: Everything but the video signal waveform blanking interval is magnified. BLANK: The video signal waveform blanking interval is magnified.

SWEEP MAG = X1 SWEEP MAG = X10

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SWEEP MAG = ACTIVE SWEEP MAG = BLANK

6.6 Selecting Lines

To configure the line select settings, press F•3 LINE SELECT in the video signal waveform menu. You can display the waveforms of the selected line. F•3 LINE SELECT does not appear when SWEEP is set to V.

Reference: SWEEP → Section 6.5.3, “Selecting the Sweep Method”

6. VIDEO SIGNAL WAVEFORM DISPLAY

Figure 6-14 Horizontal magnifications

WFM → F•3 LINE SELECT →

Figure 6-15 LINE SELECT menu

6.6.1 Turning Line Selection On and Off

To display the waveforms of the selected line, follow the procedure shown below.

• Procedure

WFM → F•3 LINE SELECT → F•1 LINE SELECT

• Settings

ON: The waveforms of the selected line are displayed. You can select a line with

the function dial (F•D). The number of the selected line appears in the bottom

left of the display. OFF: The waveforms of all lines are displayed on top of each other. This is the

default setting.

LINE SELECT = ON LINE SELECT = OFF

Figure 6-16 Turning line selection on and off

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.6.2 Setting the Line Selection Range

To set the line selection range, follow the procedure shown below. This menu item does not appear when the input signal is progressive.

• Procedure

WFM → F•3 LINE SELECT → F•2 FIELD

• Settings

FIELD1: A line from field 1 can be selected. (Example: 1 to 563) FIELD2: A line from field 2 can be selected. (Example: 564 to 1125) FRAME: All lines can be selected. This is the default setting. (Example: 1 to 1125)

6.7 Configuring Cursor Settings

To configure cursor settings, press F•4 CURSOR in the video signal waveform menu. You can display cursors and use them to make measurements.

WFM → F•4 CURSOR →

Figure 6-17 CURSOR menu

6.7.1 Displaying Cursors

To display cursors, follow the procedure shown below. The REF cursor is displayed in blue, and the DELTA cursor is displayed in green. The value of DELTA - REF appears as a measured value in the bottom right of the screen. (When Y UNIT is set to DEC or HEX, absolute values are displayed.)

• Procedure

WFM → F•4 CURSOR → F•1 CURSOR

• Settings

ON: Cursors are displayed. OFF: Cursors are not displayed. This is the default setting.

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6.7.2 Selecting X or Y Cursors

To select X (time measurement) or Y (amplitude measurement) cursors, follow the procedure shown below. When COLOR MATRIX is set to COMPOSITE, the cursor type is fixed at Y regardless of the setting you make here.

Reference: COLOR MATRIX → Section 6.9.1, “Selecting the Color Matrix”

• Procedure

WFM → F•4 CURSOR → F•2 XY SEL

• Settings

X: X cursors are displayed for measuring time. Y: Y cursors are displayed for measuring amplitude. This is the default setting.

XY SEL = X XY SEL = Y

6.7.3 Moving Cursors

To move a cursor, follow the procedure shown below to select a cursor. Then, move the cursor by turning the function dial (F•D). Triangles appear on both sides of the selected cursor. You can also select a cursor by pressing the function dial (F•D). Each time you press the function dial (F•D), the selected cursor switches from REF, to DELTA, to TRACK, and so on.

• Procedure

WFM → F•4 CURSOR → F•4 FD VAR

• Settings

REF: The REF cursor (blue) is selected. This is the default setting. DELTA: The DELTA cursor (green) is selected. TRACK: The REF cursor and DELTA cursor are both selected.

Figure 6-18 Selecting X or Y cursors

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.7.4 Selecting the Unit of Measurement

To select the units used in cursor measurement, follow the procedure shown below.

• Procedure

WFM → F•4 CURSOR → F•3 Y UNIT (when XY SEL is set to Y)

F•3 X UNIT (when XY SEL is set to X)

• Settings for Y UNIT

mV: Measurements are made in units of voltage. This setting cannot be chosen

when COLOR MATRIX is set to COMPOSITE. This is the default setting. %: Measurements are made as percentages. When COLOR MATRIX is set to

COMPOSITE (NTSC), 714 mV is 100 %. Otherwise, 700 mV is 100 %. R%: Measurements are made as percentages, with the amplitude where REF SET

is pressed set to 100 %.

This setting cannot be chosen when COLOR MATRIX is set to COMPOSITE. DEC: The scale shows 0 to 100 % in decimal as 64 to 940.

This setting cannot be chosen when COLOR MATRIX is set to COMPOSITE. HEX: The scale shows 0 to 100 % in hexadecimal as 040 to 3AC.

This setting cannot be chosen when COLOR MATRIX is set to COMPOSITE.

• Settings for X UNIT

sec: Measurements are made in units of time. This is the default setting. Hz: Measurements are made in units of frequency, with the length of one period set

to the distance between the two cursors.

6.7.5 Setting the Reference Amplitude

When Y UNIT is set to R%, follow the procedure shown below to set the amplitude at the location of your choice to 100 %. This menu item is available when Y UNIT is set to R%.

• Procedure

WFM → F•4 CURSOR → F•5 REF SET

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.8 Configuring Display Settings

To configure display settings, press F•5 ARRANGE in the video signal waveform menu. You can configure filter, blanking display, waveform persistence, timing display, and 4Y parade display settings.

WFM → F•5 ARRANGE →

Figure 6-19 ARRANGE menu

6.8.1 Selecting the Filter

To select the filter to apply to video signal waveforms, follow the procedure shown below. The filters that you can select vary depending on how COLOR MATRIX is set.

Reference: COLOR MATRIX → Section 6.9.1, “Selecting the Color Matrix”

• Procedure

WFM → F•5 ARRANGE → F•1 FILTER

• Settings When COLOR MATRIX Is Set to YCbCr, GBR, or RGB

FLAT: A filter with a flat frequency response over the entire bandwidth of the input

signal is used. This is the default setting. LOW PASS: A low-pass filter with the following characteristics is used.

Attenuation of 20 dB or more at 40 MHz (When the input signal is HD-SDI and

the video format is 1080p/60, 59.94, or 50.)

Attenuation of 20 dB or more at 20 MHz (When the input signal is HD-SDI and

the video format is not 1080p/60, 59.94, or 50.)

Attenuation of 20 dB or more at 3.8 MHz (When the input signal is SD-SDI.)

FILTER = FLAT FILTER = LOW PASS

Figure 6-20 Selecting the filter (component)

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6. VIDEO SIGNAL WAVEFORM DISPLAY

• Settings When COLOR MATRIX Is Set to COMPOSITE

FLAT: Only the pseudo-composite signal is displayed. This is the default

setting.

FLAT+LUM: The pseudo-composite signal and the luminance signal are displayed

side by side. A filter with an attenuation of 20 dB or more at 40 MHz is applied to the luminance signal.

LUM+CHROMA: The luminance and chrominance signals are displayed side by side. A

filter with an attenuation of 20 dB or more at 40 MHz is applied to the luminance signal.

FILTER = FLAT FILTER = FLAT+LUM

FILTER = LUM+CHROMA

Figure 6-21 Selecting the filter (composite)

6.8.2 Displaying the Blanking Interval

To set how the waveforms in the blanking interval are displayed, follow the procedure shown below.

• Procedure

WFM → F•5 ARRANGE → F•2 BLANKING

• Settings

REMOVE: Only the active interval is displayed. This is the default setting. H VIEW: The active interval and the horizontal blanking interval are displayed.

This setting cannot be chosen when COLOR MATRIX is set to COMPOSITE. V VIEW: The active interval and the vertical blanking interval are displayed. ALL VIEW: The entire input signal is displayed.

This setting cannot be chosen when COLOR MATRIX is set to COMPOSITE.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

BLANKING = REMOVE BLANKING = ALL VIEW

Figure 6-22 Blanking interval displays

6.8.3 Setting Waveform Persistence

To set waveform persistence, press F•3 PERSISTENCE in the video signal waveform menu. By making waveforms persistent, you can display past waveforms and present waveforms together.

WFM → F•5 ARRANGE → F•3 PERSISTENCE →

Figure 6-23 PERSISTENCE menu

To set waveform persistence, follow the procedure shown below.

• Procedure

WFM → F•5 ARRANGE → F•3 PERSISTENCE → F•1 PERSISTENCE

• Settings

ON: Waveform persistence is enabled. OFF: Waveform persistence is disabled. This is the default setting. INFINIT: Waveforms are displayed on top of each other.

6.8.4 Clearing Persistent Waveforms

When F•1 PERSISTENCE is set to INFINIT, you can clear persistent waveforms by following the procedure shown below.

• Procedure

WFM → F•5 ARRANGE → F•3 PERSISTENCE → F•2 PERSIST CLEAR

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.8.5 Timing and 4Y Parade Displays

To show the timing or 4Y parade display, follow the procedure shown below. When these displays are in use, the OVLAY key and the CH1 to CH3 keys are disabled.

• Procedure

WFM → F•5 ARRANGE → F•4 SPECIAL FORM

• Settings

NORMAL: Shows the video signal waveform display. This is the default setting. TIMING: Shows the timing display. 4Y PARADE: Shows the 4Y parade display. This setting cannot be chosen when the multi

screen display is in use.

SPECIAL FORM = TIMING SPECIAL FORM = 4Y PARADE

Figure 6-24 Timing and 4Y parade displays

• Timing Display Explanation

The time and amplitude differences between the Y(G) signal and the CB(B) and CR(R) signals can be measured by using a bowtie signal(*1) as the signal source. The two timing displays are shown side by side. The left display shows the differences between the Y(G) signal and the CB(B) signal. The right display shows the differences between the Y(G) signal and the CR(R) signal.

To measure the time difference, examine the space between the pinched area of the waveform, referred to as the null, and the long reference marker in the center of the waveform. If you use an LT 443D signal as the signal source, the marker spacing indicates a time difference of 1 ns. If the null is to the left of the reference marker, it indicates that the CB(B) or CR(R) signal is ahead of the Y(G) signal. If null is to the right of the reference marker, it indicates that these signals are behind the Y(G) signal.

To measure the amplitude difference, examine the width of the pinched area of the waveform. When there is an amplitude difference compared to the Y(G) signal, the pinched area is wide.

*1 Permission to use patented technology granted by Tektronix, Inc.

• 4Y Parade Display Explanation

The luminance signals from areas 1 to 4 are displayed in order from left to right. The input units and channels are displayed at the bottom of the screen.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

Note the following points about the 4Y parade display.

• The four input signals must be of the same format, and they must be synchronized.

• Any areas (from area 1 to 4) whose MODE settings are not set to WFM will not be

displayed.

• Frame-captured waveforms are not displayed.

• You cannot switch the input channels (A and B) and the display areas (1 to 4).

6.9 Configuring the Color System Settings

To configure the color system settings, press F•6 COLOR SYSTEM in the video signal waveform menu. You can set the color matrix and configure other settings that relate to the color system.

WFM → F•6 COLOR SYSTEM →

Figure 6-25 COLOR SYSTEM menu

6.9.1 Selecting the Color Matrix

The LV 58SER06 can use matrix calculation to display a YCBCRsignal as a GBR, RGB, or pseudo-composite signal. The signal components are assigned to CH1 to CH3, and they can be turned on and off. (This does not apply to pseudo-composite signals.) Follow the procedure shown below to select a waveform display format. The selected display format is indicated in the lower right of the display.

• Procedure

WFM → F•6 COLOR SYSTEM → F•1 COLOR MATRIX

• Settings

YCbCr: The YCBCRsignal is displayed without changes. This setting cannot be

chosen when the input signal is GBR (4:4:4). This is the default setting. GBR: The YCBCRsignal is converted into a GBR signal and displayed. RGB: The YCBCRsignal is converted into an RGB signal and displayed. COMPOSITE: The YCBCRsignal is converted into a pseudo NTSC or PAL composite signal

and displayed.

• Color burst frequencies do not match those of PAL and NTSC.

• Color burst and sync signal widths and locations are different from those of PAL and NTSC.

• The signal bandwidth is that of the original signal.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

COLOR MATRIX = YCbCr COLOR MATRIX = GBR

COLOR MATRIX = RGB COLOR MATRIX = COMPOSITE

Figure 6-26 Selecting the color matrix

6.9.2 Enabling YGBR (or YRGB) Display

To simultaneously display a luminance signal (Y) when COLOR MATRIX is set to GBR or RGB, follow the procedure shown below. When YGBR or YRGB is enabled, the CH1 to CH3 keys are disabled. These settings are available when F•1 COLOR MATRIX is set to GBR or RGB.

• Procedure

WFM → F•6 COLOR SYSTEM → F•2 YGBR → F•2 YRGB

• Settings

ON: YGBR or YRGB display waveforms are displayed. OFF: GBR or RGB waveforms are displayed. This is the default setting.

YGBR = ON YRGB = ON

Figure 6-27 YGBR and YRGB displays

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.9.3 Setting the Composite Display Format

To select the format for the pseudo-composite display, follow the procedure shown below.

• Procedure

WFM → F•6 COLOR SYSTEM → F•4 COMPOSITE FORMAT

• Settings

AUTO: When the input signal frame rate is 50 Hz, the format is PAL. Otherwise, the

format is NTSC. This is the default setting. NTSC: The format is NTSC. The scale shows percentages. PAL: The format is PAL. The scale shows voltages.

COMPOSITE FORMAT = NTSC COMPOSITE FORMAT = PAL

Figure 6-28 Setting the composite display format

6.9.4 Setting the Setup Level

To select the setup level for the pseudo-composite display, follow the procedure shown below. This menu item does not appear when the composite display format is PAL.

• Procedure

WFM → F•6 COLOR SYSTEM → F•5 SETUP

• Settings

0%: No setup level is added. This is the default setting.

7.5%: A setup level of 7.5 % is added.

SETUP = 0% SETUP = 7.5%

Figure 6-29 Setting the setup level

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7. VECTOR DISPLAY

To display vectors, press the VECT key on the front panel. Component signal vector displays are X-Y displays based on CB(horizontal) and CR(vertical). The vector display scale has the following qualities.

• Border: ±3 % of the full scale value of 0.7 V

• Circle: +20 % of green

7. VECTOR DISPLAY

Figure 7-1 Vector display

7.1 Configuring the Intensity and Scale Settings

To configure the intensity and scale settings, press F•1 INTEN / SCALE in the vector menu. You can set the intensities and colors of the vector and scale. F•1 INTEN / SCALE does not appear when DISPLAY is set to an option other than VECTOR.

Reference: DISPLAY → Section 7.6, “Switching the Display Mode”

VECT → F•1 INTEN / SCALE →

Figure 7-2 INTEN/SCALE menu

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7.1.1 Adjusting the Vector Intensity

To adjust the intensity of vectors and CIE chromaticity diagram waveforms, follow the procedure shown below. Press the function dial (F•D) to return the setting to its default value (0).

• Procedure

VECT → F•1 INTEN / SCALE → F•1 VECTOR INTEN

• Settings

Range: -128 to 127 (default setting: 0)

7.1.2 Selecting the Vector Color

To select the color of vectors and CIE chromaticity diagram waveforms, follow the procedure shown below.

• Procedure

VECT → F•1 INTEN / SCALE → F•2 VECTOR COLOR

7. VECTOR DISPLAY

• Settings

WHITE: Vectors are displayed in white. This is the default setting. GREEN: Vectors are displayed in green.

7.1.3 Adjusting the Scale Intensity

To adjust the scale intensity, follow the procedure shown below. Press the function dial (F•D) to return the setting to its default value (4).

• Procedure

VECT → F•1 INTEN / SCALE → F•3 SCALE INTEN

• Settings

Range: -8 to 7 (default setting: 4)

7.1.4 Displaying the I and Q Axes

To display the I and Q axes, follow the procedure shown below. When the full scale value of 0.7 V is 100 %, the I and Q axes are displayed at the following values.

Table 7-1 Displaying the I and Q axes

I-axis Q-axis

G 44.559 % 37.056 %

B 27.865 % 84.085 %

R 69.120 % 62.417 %

• Procedure

VECT → F•1 INTEN / SCALE → F•4 IQ AXIS

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• Settings

ON: The I and Q axes are displayed. OFF: The I and Q axes are not displayed. This is the default setting.

IQ AXIS = OFF IQ AXIS = ON

Figure 7-3 Displaying the I and Q axes

7.1.5 Selecting the Scale Color

7. VECTOR DISPLAY

To select the scale color, follow the procedure shown below.

• Procedure

VECT → F•1 INTEN / SCALE → F•5 SCALE COLOR

• Settings

7.2 Setting the Gain

To set the gain, press F•2 GAIN in the vector menu. F•2 GAIN does not appear when DISPLAY is set to an option other than VECTOR.

Reference: DISPLAY → Section 7.6, “Switching the Display Mode”

VECT → F•2 GAIN →

Figure 7-4 GAIN menu

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7.2.1 Selecting the Fixed Gain

To select the fixed vector gain, follow the procedure shown below.

• Procedure

VECT → F•2 GAIN→ F•2 GAIN MAG

• Settings

X1: Vectors are displayed at ×1 magnification. This is the default setting. X5: Vectors are displayed at ×5 magnification. IQ-MAG: Vectors are displayed at ×3.140 magnification.

(The gain is set so that the IQ signal fits within the perimeter of the vector scale

when NTSC SMPTE color bars are up-converted to HDTV.)

7.2.2 Setting the Variable Gain

To set the variable vector gain, follow the procedure shown below.

• Procedure

VECT → F•2 GAIN→ F•1 GAIN VARIABLE

7. VECTOR DISPLAY

• Settings

CAL: The gain is fixed. This is the default setting. VARIABLE: You can adjust the vector gain by turning the function dial (F•D). Press the

function dial (F•D) to return the setting to its default value (1.000, 3.140, or

5.000).

The adjusted gain value (the combination of F•1 GAIN VARIABLE and F•2

GAIN MAG) appears in the upper right of the screen.

0.200 to 2.000 (when GAIN MAG is set to X1)

1.000 to 10.000 (when GAIN MAG is set to X5)

0.628 to 6.280 (when GAIN MAG is set to IQ-MAG)

GAIN MAG = X1 GAIN MAG = IQ-MAG

GAIN VARIABLE = VARIABLE GAIN VARIABLE = CAL

Figure 7-5 Gain Settings

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7. VECTOR DISPLAY

7.3 Selecting Lines

To configure the line select settings, press F•3 LINE SELECT in the vector menu. You can display the vectors of the selected line. F•3 LINE SELECT does not appear when DISPLAY is set to HISTOGRAM.

Reference: DISPLAY → Section 7.6, “Switching the Display Mode”

VECT → F•3 LINE SELECT →

Figure 7-6 LINE SELECT menu

7.3.1 Turning Line Selection On and Off

To display the vectors of the selected line, follow the procedure shown below.

• Procedure

VECT → F•3 LINE SELECT → F•1 LINE SELECT

• Settings

ON: The vectors of the selected line are displayed. You can select a line with the

function dial (F•D). The number of the selected line appears in the bottom left

of the display. OFF: The vectors of all lines are displayed on top of each other. This is the default

setting.

LINE SELECT = ON LINE SELECT = OFF

Figure 7-7 Turning line selection on and off

7.3.2 Setting the Line Selection Range

To set the line selection range, follow the procedure shown below. This menu item does not appear when the input signal is progressive.

• Procedure

VECT → F•3 LINE SELECT → F•2 FIELD

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7. VECTOR DISPLAY

• Settings

7.4 Configuring the Color System Settings

To configure the color system settings, press F•4 COLOR SYSTEM in the vector menu. You can set the color matrix and configure other settings that relate to the color system. F•4 COLOR SYSTEM does not appear when DISPLAY is set to an option other than VECTOR.

Reference: DISPLAY → Section 7.6, “Switching the Display Mode”

VECT → F•4 COLOR SYSTEM →

Figure 7-8 COLOR SYSTEM menu

7.4.1 Selecting the Color Matrix

To select the vector display format, follow the procedure shown below. The selected display format is indicated in the lower right of the display.

• Procedure

VECT → F•4 COLOR SYSTEM → F•1 COLOR MATRIX

• Settings

COMPONENT: The component chrominance signal is displayed on the X and Y axes. This

is the default setting.

COMPOSITE: The component signal is converted into a pseudo-composite signal, and

the composite signal's chrominance signal is displayed on the X and Y axes.

COLOR MATRIX = COMPONENT COLOR MATRIX = COMPOSITE

Figure 7-9 Selecting the color matrix

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7. VECTOR DISPLAY

7.4.2 Selecting the Composite Display Format

To select the format for the pseudo-composite display, follow the procedure shown below.

• Procedure

VECT → F•4 COLOR SYSTEM → F•2 COMPOSITE FORMAT

• Settings

AUTO: When the input signal frame rate is 50 Hz, the format is PAL. Otherwise, the

format is NTSC. This is the default setting. NTSC: All input signals are converted into NTSC pseudo-composite signals. PAL: All input signals are converted into PAL pseudo-composite signals.

COMPOSITE FORMAT = NTSC COMPOSITE FORMAT = PAL

Figure 7-10 Selecting the Composite Display Format

7.4.3 Selecting the Setup Level

To select the setup level for the pseudo-composite display, follow the procedure shown below. This menu item does not appear when F•1 COLOR MATRIX is set to COMPONENT or the composite display format is set to PAL.

• Procedure

VECT → F•4 COLOR SYSTEM → F•3 SETUP

• Settings

0%: No setup level is added. This is the default setting.

7.5%: A setup level of 7.5 % is added.

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7. VECTOR DISPLAY

7.4.4 Displaying a Scale for 75 % Intensity Color Bars

To display a scale for 75 % intensity color bars, follow the procedure shown below.

• Procedure

VECT → F•4 COLOR SYSTEM → F•4 COLOR BAR

• Settings

100%: A scale that matches the peak levels of 100 % intensity color bars is displayed.

This is the default setting. 75%: A scale that matches the peak levels of 75 % intensity color bars is displayed.

COLOR BAR = 100% COLOR BAR = 75%

Figure 7-11 Displaying a scale for 75 % intensity color bars

(when receiving a 75 % intensity color bar signal)

7.5 Setting Vector Persistence

To set vector persistence, press F•6 PERSISTENCE in the vector menu. By making vectors persistent, you can display past vectors and present vectors together. F•6 PERSISTENCE does not appear when DISPLAY is set to an option other than VECTOR.

Reference: DISPLAY → Section 7.6, “Switching the Display Mode”

VECT → F•6 PERSISTENCE →

Figure 7-12 PERSISTENCE menu

7.5.1 Setting Vector Persistence

To set vector persistence, follow the procedure shown below.

• Procedure

VECT → F•6 PERSISTENCE → F•1 PERSISTENCE

• Settings

ON: Vector persistence is enabled. OFF: Vector persistence is disabled. This is the default setting. INFINIT: Vectors are displayed on top of each other.

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7.5.2 Clearing Persistent Vectors

When F•1 PERSISTENCE is set to INFINIT, you can clear persistent vectors by following the procedure shown below.

• Procedure

VECT → F•6 PERSISTENCE → F•2 PERSIST CLEAR

7.6 Switching the Display Mode

To switch between the vectorscope display, 5 bar display, histogram display, and CIE chromaticity diagram display, follow the procedure shown below.

Reference: 5 bar display → Section 7.7, “Configuring the 5 Bar Display”

Histogram display → Section 7.8, “Configuring the Histogram Display”

CIE chromaticity diagram display → Section 7.9, “Configuring the CIE Chromaticity Diagram

Display”

• Procedure

VECT → F•5 DISPLAY

7. VECTOR DISPLAY

• Settings

VECTOR: The vector display is shown. This is the default setting. 5BAR: The 5 bar display is shown. HISTOGRAM: The histogram display is shown. CIE1931: The CIE chromaticity diagram display is shown.

DISPLAY = 5BAR DISPLAY = HISTOGRAM

DISPLAY = CIE1931

Figure 7-13 Switching the display mode

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7.7 Configuring the 5 Bar Display

7.7.1 5 Bar Display Explanation

In the 5 bar display, the YCBCRsignal is converted into a GBR or pseudo-composite signal, and the peak levels of the converted signal's Y, G, B, R, and CMP (composite) components are displayed simultaneously using five bars.

The five bars are typically displayed in cyan, but portions that exceed their limits are displayed in red.

• Y: Levels less than 0 % or greater than 100 % are displayed in red.

• GBR: Levels that fall outside of the range that you set using Gamut Upper and Lower in

the unit setup display are displayed in red.

• CMP: Levels that fall outside of the range that you set using Composite Upper and

Lower in the unit setup display are displayed in red.

Reference: Section 5.6, “Error Setup 3 (ERROR SETUP3)”

When you set F•5 DISPLAY to 5BAR, F•4 5BAR SETUP appears, and you can press it to configure the 5 bar display settings. When F•5 DISPLAY is set to an option other than 5BAR, this menu item does not appear.

7. VECTOR DISPLAY

VECT → F•4 5BAR SETUP →

Figure 7-14 5 bar display

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7.7.2 Selecting the Display Order

To select the 5 bar display order, follow the procedure shown below.

• Procedure

VECT → F•4 5BAR SETUP → F•1 SEQUENCE

• Settings

GBR: The signals are displayed in this order: Y, G, B, R, CMP. This is the default

setting. RGB: The signals are displayed in this order: Y, R, G, B, CMP.

SEQUENCE = GBR SEQUENCE = RGB

7. VECTOR DISPLAY

Figure 7-15 Selecting the display order

7.7.3 Selecting the Scale Unit

To select the scale unit, follow the procedure shown below.

Reference: Section 7.4.2, “Selecting the Composite Display Format”

• Procedure

VECT → F•4 5BAR SETUP → F•2 SCALE

• Settings

%: A percentage scale is displayed for YGBR, and an IRE scale is displayed for

CMP. This is the default setting. mV: A millivolt scale is displayed. Depending on the composite display format, the

scale differs as follows:

NTSC: 100 % = 700 mV (YGBR) and 100 IRE = 714 mV (CMP)

PAL: 100 % (IRE) = 700 mV

SCALE = % SCALE = mV

Figure 7-16 Selecting the scale unit (with an NTSC signal)

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7. VECTOR DISPLAY

7.8 Configuring the Histogram Display

The histogram shows the distribution of the image data by plotting brightness on the horizontal axis and the number of pixels at each brightness level on the vertical axis. Dark points are displayed on the left of the histogram and bright points are displayed on the right.

To configure histogram display settings, set DISPLAY to HISTOGRAM on the vector menu. If DISPLAY is set to an option other than HISTOGRAM, F•1 MODE, F•2 R, F•3 G, and F•4 B do not appear.

Reference: Section 7.6, “Switching the Display Mode”

VECT →

Figure 7-17 Vector menu

7.8.1 Selecting the Display Mode of the Histogram

Carry out the procedure below to select the display mode.

• Procedure

VECT → F•1 MODE

• Settings

LUMA: The histogram of the Y (luminance) signal is displayed. This is the default

setting. ALIGN: The histograms of the Y, R, G, and B signals (in this order) are displayed side

by side. MIX: The histograms of the Y, R, G, and B signals are displayed on top of each other

as lines.

MODE = LUMA MODE = ALIGN

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7. VECTOR DISPLAY

MODE = MIX

Figure 7-18 Selecting the display mode of the histogram

7.8.2 Turning the RGB Signals On and Off

When F•1 MODE is set to MIX, carry out the procedure below to turn the R, G, and B signals on and off separately.

• Procedure

VECT → F•2 R → F•3 G → F•4 B

• Settings

ON: The R, G, or B signal is displayed. This is the default setting. OFF: The R, G, or B signal is not displayed.

7.9 Configuring the CIE Chromaticity Diagram Display

On the CIE chromaticity diagram display, YCBCRor GBR signals are converted into CIE1931xy chromaticity coordinates and displayed.

To configure CIE chromaticity diagram display settings, set DISPLAY to CIE1931 on the vector menu. If DISPLAY is set to an option other than CIE1931, F•1 SCALE, F•2 MODE, F•4 CURSOR, F•6 GAMMA, and F•7 FILTER do not appear.

Reference: Section 7.6, “Switching the Display Mode”

VECT →

Figure 7-19 Vector menu

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7.9.1 Displaying the Color Triangle

Carry out the procedure below to display a color triangle that has R, G, and B at its three vertices.

• Procedure

VECT → F•1 SCALE → F•1 TRIANGLE

• Settings

NTSC: A color triangle that corresponds to the ITU-R BT.470-6 NTSC specifications is

displayed. EBU: A color triangle that corresponds to the ITU-R BT.470-6 EBU specifications is

displayed. ITU-R 709: A color triangle that corresponds to ITU-R BT.709-5 is displayed. DCI: A color triangle that corresponds to SMPTE EG432-1 is displayed. OFF: The color triangle is not displayed. This is the default setting.

TRIANGLE = NTSC

7. VECTOR DISPLAY

Figure 7-20 Displaying the color triangle

7.9.2 Displaying the Color Scale

Carry out the procedure below to turn the horseshoe-shaped color scale on and off. This color scale conforms to CIE1931, and it displays color approximations for chromaticity coordinates.

• Procedure

VECT → F•1 SCALE → F•2 COLOR

• Settings

ON: The color scale is displayed. This is the default setting. OFF: The color scale is not displayed.

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7. VECTOR DISPLAY

7.9.3 Displaying the Black-Body Radiation Curve

Carry out the procedure below to turn the black-body radiation curve on and off. This black-body radiation curve conforms to CIE1960, and it displays changes to color temperatures.

• Procedure

VECT → F•1 SCALE → F•3 TEMP SCALE

• Settings

ON: The Black-Body radiation curve is displayed. OFF: The Black-Body radiation curve is not displayed. This is the default setting.

TEMP SCALE = ON

Figure 7-21 Displaying the black-body radiation curve

7.9.4 Selecting the Display Mode of the Chromaticity Diagram

Carry out the procedure below to select the display mode.

• Procedure

VECT → F•2 MODE

• Settings

DIAGRAM: Nearly all of the CIE chromaticity diagram is displayed. This is the default

setting. TEMP: The vicinity of the white point is magnified by a factor of two in the horizontal

and vertical directions and displayed. Only the black-body radiation curve and

the correlated color temperature lines are displayed. F•1 SCALE is not

displayed.

MODE = DIAGRAM MODE = TEMP

Figure 7-22 Selecting the display mode of the chromaticity diagram

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7.9.5 Cursor Measurement

Carry out the procedure below to turn cursors on and off. If you select “ON,” the cursors and the coordinates of the intersection of the cursors are displayed. To move the X axis cursor, turn the H POS knob. To move the Y axis cursor, turn the V POS knob. If you press both knobs, the cursors move to the D65 white point.

• Procedure

VECT → F•4 CURSOR → F•1 CURSOR

• Settings

ON: The cursor is displayed. OFF: The cursor is not displayed. This is the default setting.

CURSOR = ON (DIAGRAM) CURSOR = ON (TEMP)

7. VECTOR DISPLAY

Figure 7-23 Cursor measurement

7.9.6 Selecting the Inverse Gamma Correction Value

On the CIE chromaticity diagram display, when the input signal is converted into xy chromaticity coordinates, inverse gamma correction is performed. Carry out the procedure below to select the inverse gamma correction value.

• Procedure

VECT → F•6 GAMMA

• Settings

2.2: The inverse gamma correction value is set to 2.2. This corresponds to ITU-R

BT.1361. This is the default setting.

2.6: The inverse gamma correction value is set to 2.6. This corresponds to SMPTE

EG432-1.

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7.9.7 Selecting the Filter

Carry out the procedure below to select the filter to apply to input signals.

• Procedure

VECT → F•7 FILTER

• Settings

LOW PASS: A low-pass filter with the following characteristics is used.

Attenuation of 20 dB or more at 40 MHz (When the input signal is HD-SDI and

the video format is 1080p/60, 59.94, or 50.)

Attenuation of 20 dB or more at 20 MHz (When the input signal is HD-SDI and

the video format is not 1080p/60, 59.94, or 50.)

Attenuation of 20 dB or more at 3.8 MHz (When the input signal is SD-SDI.) FLAT: A filter with a flat frequency response over the entire bandwidth of the input

signal is used. This is the default setting.

7. VECTOR DISPLAY

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8. PICTURE DISPLAY

To display the picture, press the PIC key on the front panel.

8. PICTURE DISPLAY

Figure 8-1 Picture display

* Notes about the picture display:

• Because the sampled data is downsampled, aliasing distortion occurs.

• Data is processed in 8 bits.

• The two lines of pixels farthest to the left, right, top and bottom may not be displayed, depending on the picture processing circumstances.

8.1 Adjusting the Picture

To adjust the picture, press F•1 ADJUST in the picture menu. You can adjust the picture brightness, contrast, gain, and bias.

PIC → F•1 ADJUST →

Figure 8-2 ADJUST menu

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8.1.1 Adjusting the Brightness

To adjust the picture brightness, follow the procedure shown below. (Set the value as a percentage.) Press the function dial (F•D) to return the setting to its default value (0).

• Procedure

PIC → F•1 ADJUST → F•1 BRIGHTNESS

• Settings

Range: -30 to 30 (default setting: 0)

8.1.2 Adjusting the Contrast

To adjust the picture contrast, follow the procedure shown below. (Set the value to multiply by.) Press the function dial (F•D) to return the setting to its default value (1.00).

• Procedure

PIC → F•1 ADJUST → F•2 CONTRAST

8. PICTURE DISPLAY

• Settings

Range: 0.70 to 1.30 (default setting: 1.00)

8.1.3 Adjusting the Gain

To adjust the picture gain for R, G, and B, follow the procedure shown below. (Set the value to multiply by.) Press the function dial (F•D) to return the setting to its default value (1.00).

• Procedure

PIC → F•1 ADJUST → F•3 GAIN → F•1 R GAIN → F•2 G GAIN → F•3 B GAIN

• Settings

Range: 0.70 to 1.30 (default setting: 1.00)

8.1.4 Adjusting the Bias

To adjust the picture bias for R, G, and B, follow the procedure shown below. (Set the value as a multiple of 100 %.) Press the function dial (F•D) to return the setting to its default value (0.00).

• Procedure

PIC → F•1 ADJUST → F•4 BIAS → F•1 R BIAS → F•2 G BIAS → F•3 B BIAS

• Settings

Range: -0.30 to 0.30 (default setting: 0.00)

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8.2 Configuring Marker Settings

To configure marker settings, press F•2 MARKER in the picture menu. You can display various types of markers on the picture display. F•2 MARKER does not appear when SIZE is set to REAL or FULL_FRM.

Reference: SIZE → Section 8.4.1, “Selecting the Display Size”

PIC → F•2 MARKER →

Figure 8-3 MARKER menu

8.2.1 Aspect Marker

To display the aspect marker, follow the procedure shown below.

• Procedure

PIC → F•2 MARKER → F•1 ASPECT MARKER

8. PICTURE DISPLAY

• Settings

OFF: An aspect marker is not displayed. This is the default setting. 4:3 : A 4:3 aspect marker is displayed.

This setting cannot be chosen when the input signal is SD-SDI.

16:9 : A 16:9 aspect marker is displayed.

This setting cannot be chosen when the input signal is 3G-SDI, HD-SDI, or HD dual link.

AFD: The area around the active area that is written in the AFD (Active Format

Description) is indicated with a shadow. (If there are no AFD packets embedded in the input signal, the aspect marker is not displayed.) This setting cannot be chosen when the input signal is 3G-SDI or HD dual link.

8.2.2 AFD Marker Settings

When F•1 ASPECT MARKER is set to AFD, follow the procedure shown below to select the darkness of the shadow. The larger the number, the darker the shadow. If you specify 0, the active area specified by the AFD is indicated with a line. If there are no AFD packets embedded in the signal and you specify 0, the picture frame is indicated with a line. Press the function dial (F•D) to return the setting to its default value (0).

• Procedure

PIC → F•2 MARKER → F•6 SHADOW

• Settings

Range: 0 to 100 (default setting: 0)

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SHADOW = 0 SHADOW = 50

8.2.3 Safe Action Marker

To display a safe action marker, follow the procedure shown below. The size of the safe action marker is 90 % that of the frame (or aspect marker if an aspect marker is being displayed). When F•1 ASPECT MARKER is set to AFD, this menu item does not appear.

8. PICTURE DISPLAY

Figure 8-4 AFD marker settings

• Procedure

PIC → F•2 MARKER → F•2 SAFE ACTION

• Settings

ON: A safe action marker is displayed. OFF: A safe action marker is not displayed. This is the default setting.

8.2.4 Safe Title Marker

To display a safe title marker, follow the procedure shown below. The size of the safe title marker is 80 % that of the frame (or aspect marker if an aspect marker is being displayed). When F•1 ASPECT MARKER is set to AFD, this menu item does not appear.

• Procedure

PIC → F•2 MARKER → F•3 SAFE TITLE

• Settings

ON: A safe title marker is displayed. OFF: A safe title marker is not displayed. This is the default setting.

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8.2.5 Center Marker

To display a crosshair at the center of the picture display, follow the procedure shown below. When F•1 ASPECT MARKER is set to AFD, this menu item does not appear.

• Procedure

PIC → F•2 MARKER → F•4 CENTER

• Settings

ON: A center marker is displayed. OFF: A center marker is not displayed. This is the default setting.

8.3 Selecting Lines

To configure line selection settings, press F•3 LINE SELECT in the picture menu. The line selection feature allows you to display a marker on the selected line. F•3 LINE SELECT does not appear when SIZE is set to REAL or FULL_FRM.

Reference: SIZE → Section 8.4.1, “Selecting the Display Size”

8. PICTURE DISPLAY

PIC → F•3 LINE SELECT →

Figure 8-5 LINE SELECT menu

8.3.1 Turning Line Selection On and Off

To display a marker on the selected line, follow the procedure shown below.

• Procedure

PIC → F•3 LINE SELECT → F•1 LINE SELECT

• Settings

ON: A marker appears on the selected line. You can select a line with the function

dial (F•D). The number of the selected line appears in the bottom left of the display.

OFF: A marker does not appear on the selected line. This is the default setting.

LINE SELECT = ON LINE SELECT = OFF

Figure 8-6 Turning line selection on and off

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8. PICTURE DISPLAY

8.3.2 Setting the Line Selection Range

To set the line selection range, follow the procedure shown below. This menu item does not appear when the input signal is progressive.

• Procedure

PIC → F•3 LINE SELECT → F•2 FIELD

• Settings

8.4 Configuring Display Settings

To configure the display settings, press F•4 DISPLAY in the picture menu. You can configure the display size, histogram, gamut error display, and AFD display settings.

PIC → F•4 DISPLAY →

Figure 8-7 DISPLAY menu

8.4.1 Selecting the Display Size

To select the picture display size, follow the procedure shown below. The LV 58SER06 uses simple filtering to enlarge and reduce the picture.

• Procedure

PIC → F•4 DISPLAY → F•1 SIZE

• Settings

FIT: The picture is displayed at the optimal size for the screen. This is the default

setting.

REAL: A single sample of the video signal is displayed with a single pixel on the

screen. When the input signal is HD-SDI or HD dual link, you can use the V POS and H POS knobs to adjust the picture's display position. Press a knob to return the picture to the corresponding default location. This setting cannot be chosen when the input signal is 3G-SDI, 1080p/60,

59.94, or 50.

FULL_FRM: A single frame, including the blanking interval, is displayed.

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8. PICTURE DISPLAY

SIZE = FIT SIZE = REAL

SIZE = FULL_FRM

8.4.2 Displaying a Histogram

To display a histogram in the bottom right of the picture display, follow the procedure shown below. The histogram shows the distribution of the image data by plotting brightness on the horizontal axis and the number of pixels at each brightness level on the vertical axis. Dark points are displayed on the left of the histogram and bright points are displayed on the right.

• Procedure

PIC → F•4 DISPLAY → F•2 HISTOGRAM

• Settings

ON: A histogram is displayed. OFF: A histogram is not displayed. This is the default setting.

HISTOGRAM = ON HISTOGRAM = OFF

Figure 8-8 Selecting the display size

Figure 8-9 Displaying a histogram

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8.4.3 Gamut Error Display

To display the locations of gamut errors and level errors (only for luminance signals) on the picture, follow the procedure shown below. Any values that are outside of the Gamut Upper/Lower, Composite Upper/Lower, and Luminance Upper/Lower ranges specified in the unit set up are detected as errors. This menu item does not appear when, in the unit setup display, Gamut Error, Composite Gamut Error, and Level Error are all set to OFF.

Reference: Section 5.6, “Error Setup 3 (ERROR SETUP3)”

Section 5.8, “Error Setup 5 (ERROR SETUP5)”

* The display of level errors is not supported when the input signal is 3G-SDI or HD dual link.

• Procedure

PIC → F•4 DISPLAY → F•3 GAMUT ERROR

• Settings

ON: Gamut errors are displayed. OFF: Gamut errors are not displayed. This is the default setting.

8. PICTURE DISPLAY

8.4.4 Selecting the Gamut Error Display Format

To select the gamut error display format, follow the procedure shown below. This setting is valid when F•3 GAMUT ERROR is set to ON. This menu item does not appear when, in the unit setup display, Gamut Error, Composite Gamut Error, and Level Error are all set to OFF.

Reference: Section 5.6, “Error Setup 3 (ERROR SETUP3)”

Section 5.8, “Error Setup 5 (ERROR SETUP5)”

• Procedure

PIC → F•4 DISPLAY → F•4 GAMUT PATTERN

• Settings

WHITE: The picture brightness is halved, and gamut error locations are marked in

white.

This is the default setting. RED: The picture brightness is halved, and gamut error locations are marked in red. MESH: Gamut error locations are filled with a mesh pattern.

8.4.5 Displaying AFDs

To display abbreviations for SMPTE 2016-1-2007 standard AFD (Active Format Description) codes in the upper left of the display, follow the procedure shown below. If there are no AFD packets embedded in the input signal, “---------” is displayed. This is not supported when the input signal is 3G-SDI or HD dual link, so this menu item is not displayed.

• Procedure

PIC → F•4 DISPLAY → F•6 AFD ASPECT INFO

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8. PICTURE DISPLAY

• Settings

ON: AFD code abbreviations are displayed. OFF: AFD code abbreviations are not displayed. This is the default setting.

AFD ASPECT INFO = ON

Figure 8-10 Displaying AFDs

The AFD is abbreviated according to the coded frame or the AFD code. The displayed abbreviations are shown in the following table.

Table 8-1 Displaying AFD

Coded

Frame

0 (4:3) 0000 0000- UNDEFINED Undefined

0 (4:3) 0001 0001- RESERVED Reserved

0 (4:3) 0010 0010- 16:9LBTop Letterbox 16:9 image, at top of the coded frame

0 (4:3) 0011 0011- 14:9LBTop Letterbox 14:9 image, at top of the coded frame

0 (4:3) 0100 0100- >16:9LBox Letterbox image with an aspect ratio greater than 16:9,

0 (4:3) 0101 0101- RESERVED Reserved

0 (4:3) 0110 0110- RESERVED Reserved

0 (4:3) 0111 0111- RESERVED Reserved

0 (4:3) 1000 1000- FullFrame Full frame 4:3 image, the same as the coded frame

0 (4:3) 1001 1001- Full Frame Full frame 4:3 image, the same as the coded frame

0 (4:3) 1010 1010- 16:9LBox Letterbox 16:9 image, vertically centered in the coded

0 (4:3) 1011 1011- 14:9LBox Letterbox 14:9 image, vertically centered in the coded

0 (4:3) 1100 1100- RESERVED Reserved

0 (4:3) 1101 1101-4:3Full14:9 Full frame 4:3 image, with alternative 14:9 center

0 (4:3) 1110 1110-16:9LB14:9 Letterbox 16:9 image, with alternative 14:9 center

0 (4:3) 1111 1111-16:9LB4:3 Letterbox 16:9 image, with alternative 4:3 center

1 (16:9) 0000 0000w UNDEFINED Undefined

1 (16:9) 0001 0001w RESERVED Reserved

1 (16:9) 0010 0010w Full Frame Full frame 16:9 image, the same as the coded frame

1 (16:9) 0011 0011w 14:9Pillbox Pillarbox 14:9 image, horizontally centered in the coded

1 (16:9) 0100 0100w >16:9LBox Letterbox image with an aspect ratio greater than 16:9,

AFD

Code

Displayed AFD Explanation

vertically centered in the coded frame

frame with all image areas protected

frame

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8. PICTURE DISPLAY

Coded

Frame

1 (16:9) 0101 0101w RESERVED Reserved

1 (16:9) 0110 0110w RESERVED Reserved

1 (16:9) 0111 0111w RESERVED Reserved

1 (16:9) 1000 1000w FullFrame Full frame 16:9 image, the same as the coded frame

1 (16:9) 1001 1001w 4:3Pillbox Pillarbox 4:3 image, horizontally centered in the coded

1 (16:9) 1010 1010w FullNoCrop Full frame 16:9 image, with all image areas protected

1 (16:9) 1011 1011w14:9Pillbox Pillarbox 14:9 image, horizontally centered in the coded

1 (16:9) 1100 1100w RESERVED Reserved

1 (16:9) 1101 1101w4:3PB14:9 Pillarbox 4:3 image, with alternative 14:9 center

1 (16:9) 1110 1110wFul14:9Safe Full frame 16:9 image, with alternative 14:9 center

1 (16:9) 1111 1111wFull4:3Safe Full frame 16:9 image, with alternative 4:3 center

AFD

Code

Displayed AFD Explanation

vertically centered in the coded frame

frame

8.5 Configuring Closed Caption Information Settings

To display the closed caption information, press F•5 SUPER IMPOSE on the picture menu. You can display closed captions in English and Japanese.

Note the following points about the closed caption display.

• The closed caption display is not supported when the input signal is 3G-SDI or HD dual link, so F•5 SUPER IMPOSE is not displayed.

• If you leave the SUPER IMPOSE menu, closed captions will not be displayed.

• The various markers and line select markers will not be displayed on the SUPER IMPOSE menu.

• In the multi display, you cannot display closed-caption information in multiple areas.

PIC → F•5 SUPER IMPOSE →

Figure 8-11 SUPER IMPOSE menu

8.5.1 Displaying the Closed Caption Information

To display closed caption information, follow the procedure shown below.

• Procedure

PIC → F•5 SUPER IMPOSE → F•1 STANDARD

• Settings

OFF: Closed caption information is not displayed. CC SMPTE: SMPTE closed caption information is displayed in English. CC ARIB: Simple ARIB closed caption information is displayed in Japanese.

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8. PICTURE DISPLAY

• CS Display on the Japanese Closed Caption Display

If a clear screen packet is received, “CS” is displayed in cyan for approximately 0.5 seconds in the upper right of the screen.

8.5.2 Selecting the Format of English Closed Captions

When F•1 STANDARD is set to CC SMPTE, follow the procedure shown below to select the format of English closed captions.

• Procedure

PIC → F•5 SUPER IMPOSE → F•2 FORMAT

• Settings

608(708): CEA/EIA-608-B closed caption information that is embedded in EIA-708-B

CDP packets is displayed. This is the default setting. 608(608): CEA/EIA-608-B closed caption information is displayed. VBI: CEA/EIA-608-B closed caption information that is embedded in vertical

blanking intervals is displayed. 708: EIA-708 closed caption information that is embedded in EIA-708-B CDP

packets is displayed.

8.5.3 Selecting the Display Details of English Closed Captions

When F•1 STANDARD is set to CC SMPTE, follow the procedure shown below to select the display details of English closed captions.

When F•2 FORMAT is set to an option other than 708, press F•3 LANGUAGE to select the setting.

• Procedure

PIC → F•5 SUPER IMPOSE → F•3 LANGUAGE

• Settings

Range: CC1 to CC4, TEXT1 to TEXT4 (default setting: CC1)

When F•2 FORMAT is set to 708, press F•4 SERVICE DATA to select the setting. Press the function dial (F•D) to return the setting to its default value (1).

• Procedure

PIC → F•5 SUPER IMPOSE → F•4 SERVICE DATA

• Settings

Range: 1 to 63 (default setting: 1)

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8. PICTURE DISPLAY

8.5.4 Selecting the Format of Japanese Closed Captions

When F•1 STANDARD is set to CC ARIB, follow the procedure shown below to select the format of Japanese closed captions. A border is displayed around the name of the selected format of Japanese closed captions in the upper right of the screen. The closed caption format names are displayed in green when packets of the corresponding closed caption format are being received and in white otherwise.

• Procedure

PIC → F•5 SUPER IMPOSE → F•2 FORMAT

• Settings

HD: HD closed caption information is displayed. This is the default setting. SD: SD closed caption information is displayed. ANALOG: Analog closed caption information is displayed. CELLULAR: Cellular closed caption information is displayed.

8.5.5 Selecting the Display Details of Japanese Closed Captions

When F•1 STANDARD is set to CC ARIB, follow the procedure shown below to select the display details of Japanese closed captions.

• Procedure

PIC → F•5 SUPER IMPOSE → F•3 LANGUAGE

• Settings

1: Language 1 is displayed. This is the default setting. 2: Language 2 is displayed.

8.5.6 Clearing Japanese Closed Captions

When F•1 STANDARD is set to CC ARIB, follow the procedure shown below to clear Japanese closed captions.

• Procedure

PIC → F•5 SUPER IMPOSE → F•6 CLEAR

8.6 Hiding Menus and Markers

To hide the display of items other than the picture, such as menus and markers, follow the procedure shown below. To redisplay the hidden items, press a key on the front panel. This menu item does not appear when the multi screen display is in use.

• Procedure

PIC → F•6 MENU OFF

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9. STATUS DISPLAY

To show the status display, press the STATUS key on the front panel. The status display shows various error counters, the embedded audio channels, and other information. Switching video formats or input channels may cause disturbances in the signal that will cause errors to be counted.

9. STATUS DISPLAY

Figure 9-1 Status display

9.1 Status Display Explanation

• Signal

Whether or not an SDI signal is being applied to one of the SDI input connectors is indicated here. When SDI signal input has been detected, “DETECT” appears. Otherwise, “NO SIGNAL” appears. “NO SIGNAL” may appear even when a signal is applied to a connector if the signal amplitude is small or if there is a lot of jitter. If “NO SIGNAL” appears, the rest of the information listed below will be blank.

• Format

The input signal video format is indicated here. “-----” appears when the input signal format is not supported by the LV 58SER06 or when it is different than the format specified in the unit setup. When this happens, the rest of the information will be blank.

Reference: Section 5.2, “General Setup (GENERAL SETUP)”

• CRC (When the input signal is 3G-SDI)

An error is counted when the CRC embedded in the input signal is different from the CRC that the LV 58SER06 detects. When CRC Error is set to OFF in the unit setup, errors are not counted.

Reference: CRC Error → Section 5.4, “Error Setup 1 (ERROR SETUP1)”

• CRC Ych, CRC Cch (When the input signal is HD-SDI or HD dual link)

An error is counted when the CRC embedded in the input signal is different from the CRC that the LV 58SER06 detects. Errors are counted separately for the luminance signal (Ych) and the chrominance signal (Cch).

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9. STATUS DISPLAY

When CRC Error is set to OFF in the unit setup, errors are not counted.

Reference: CRC Error → Section 5.4, “Error Setup 1 (ERROR SETUP1)”

• EDH (When the input signal is SD-SDI)

An error is counted when the EDH packet contains an ancillary data error flag, an active picture error flag, or a full-field error flag and when the CRC in the EDH packet is different from the CRC that the LV 58SER06 calculates from the video data. When EDH Error is set to OFF in the unit setup, errors are not counted.

Reference: EDH Error → Section 5.4, “Error Setup 1 (ERROR SETUP1)”

• A/B Delay (When the input signal is HD dual link)

An error is counted if the phase difference between links A and B exceeds 100 clocks. (There is an error of ±3 clocks.)

• TRS Pos

Input signal TRS (Timing Reference Signal) errors are displayed here. An error is counted when the EAV (End of Active Video) and SAV (Start of Active Video) header word (3FFh, 000h, and 000h) locations are wrong and when the F, V, and H TRS protection bits do not conform to the video standard. When TRS Error is set to OFF in the unit setup, errors are not counted.

Reference: TRS Error → Section 5.4, “Error Setup 1 (ERROR SETUP1)”

• TRS Code

Input signal TRS (Timing Reference Signal) protection bit errors are displayed here. An error is counted when the F, V, and H protection bits in the XYZ word in the EAV (End of Active Video) and SAV (Start of Active Video) packets and the response to the P3, P2, P1, and P0 error correction flags do not conform to the video standard. When TRS Error is set to OFF in the unit setup, errors are not counted.

Reference: TRS Error → Section 5.4, “Error Setup 1 (ERROR SETUP1)”

• Illegal Code

An error is counted when the input signal data falls within the timing reference signal (TRS) range or the range specified for the ancillary data flag (ADF). In SDI signals, 10-bit levels 000h through 003h and 3FCh through 3FFh are reserved for the timing reference signal and the ancillary data flag, so they cannot be used for video signal data or ancillary data. When data other than TRS and ADF data is found in these bits, an error is counted. When Illegal Code Error is set to OFF in the unit setup, errors are not counted.

Reference: Illegal Code Error → Section 5.4, “Error Setup 1 (ERROR SETUP1)”

• Line Number (When the input signal is 3G-SDI, HD-SDI, or HD dual link)

An error is counted when the line number that is embedded in the input signal does not match the line number that has been counted by the LV 58SER06. When Line Number Error is set to OFF in the unit setup, errors are not counted.

Reference: Line Number Error → Section 5.4, “Error Setup 1 (ERROR SETUP1)”

• Checksum

The LV 58SER06 uses the checksum in the input signal's ancillary data header to count errors.

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9. STATUS DISPLAY

When Checksum Error is set to OFF in the unit setup, errors are not counted.

Reference: Checksum Error → Section 5.5, “Error Setup 2 (ERROR SETUP2)”

• Parity

The LV 58SER06 uses the parity bit in the input signal's ancillary data header to count errors. When Parity Error is set to OFF in the unit setup, errors are not counted.

Reference: Parity Error → Section 5.5, “Error Setup 2 (ERROR SETUP2)”

• Gamut

The gamut error count is displayed here. You can specify the error search range under Gamut Error in the unit setup. When Gamut Error is set to OFF, errors are not counted.

Reference: Gamut Error → Section 5.6, “Error Setup 3 (ERROR SETUP3)”

• Comp Gamut

Even when each of the component signals is within the specified limits, the limits may be exceeded when the signal is converted into a composite signal. An error is counted here when the conversion of the component signal into a composite signal results in a gamut error. You can specify the error search range under Composite Gamut Error in the unit setup. When Composite Gamut Error is set to OFF, errors are not counted.

Reference: Gamut Error → Section 5.6, “Error Setup 3 (ERROR SETUP3)”

• Freeze (When the input signal is HD-SDI or SD-SDI)

An error is counted when a pause is detected in the video data. The LV 58SER06 detects these errors by finding the checksum of one frame of video data from the point when signal processing began, and then comparing that checksum between frames. You can specify the error detection range under Area and Duration in the unit setup. When Freeze Error is set to OFF, errors are not counted.

Reference: Freeze Error → Section 5.7, “Error Setup 4 (ERROR SETUP4)”

• Black (When the input signal is HD-SDI or SD-SDI)

An error is counted when, in a single frame, a given amount of Y video data at or lower than the black level exists. You can specify the error detection range under Level, Area, and Duration in the unit setup. When Black Error is set to OFF, errors are not counted.

Reference: Black Error → Section 5.7, “Error Setup 4 (ERROR SETUP4)”

• Level Ych, Level Cch (When the input signal is HD-SDI or SD-SDI)

An error is counted when the video data exceeds the specified level. Errors are counted separately for the luminance signal (Ych) and the chrominance signal (Cch). You can specify the error detection range under Luminance and Chroma in the unit setup. When Level Error is set to OFF, errors are not counted.

Reference: Level Error → Section 5.8, “Error Setup 5 (ERROR SETUP5)”

• BCH (When the input signal is 3G-SDI, HD-SDI, or HD dual link)

Errors in the BCH code in the input signal's embedded audio are displayed here. When the input signal is 3G-SDI level B, only stream 1 errors are counted. When the input signal is HD

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9. STATUS DISPLAY

dual link, only link A errors are counted. When BCH Error is set to OFF in the unit setup, errors are not counted.

Reference: BCH Error → Section 5.5, “Error Setup 2 (ERROR SETUP2)”

• Parity (When the input signal is 3G-SDI, HD-SDI, or HD dual link)

Parity errors in the input signal's embedded audio are displayed here. When the input signal is 3G-SDI level B, only stream 1 errors are counted. When the input signal is HD dual link, only link A errors are counted. When Parity Error is set to OFF in the unit setup, errors are not counted.

Reference: Parity Error → Section 5.5, “Error Setup 2 (ERROR SETUP2)”

• DBN

Continuity errors in the input signal's embedded audio are displayed here. When the input signal is 3G-SDI level B, only stream 1 errors are counted. When the input signal is HD dual link, only link A errors are counted. Embedded audio packets contain data block number (DBN) words that indicate the packet's continuity. Packets are cyclically numbered from 1 to 255. An error is counted when a packet's DBN is out of sequence. When DBN Error is set to OFF in the unit setup, errors are not counted.

Reference: DBN Error → Section 5.5, “Error Setup 2 (ERROR SETUP2)”

• Inhibit

An error is counted when embedded audio packets are found in lines where they should not be embedded. When the input signal is 3G-SDI level B, only stream 1 errors are counted. When the input signal is HD dual link, only link A errors are counted. When Inhibit Line Error is set to OFF in the unit setup, errors are not counted.

Reference: Inhibit Line Error → Section 5.5, “Error Setup 2 (ERROR SETUP2)”

• CH

The channels of the audio packets embedded in the input signal are displayed here. When audio control packets are embedded, the LV 58SER06 detects the channels from the ACT bit. Otherwise, it detects the channels from the audio data packet. When the input signal is 3G-SDI level B, only the stream 1 channel is detected. When the input signal is HD dual link, only the link A channel is detected.

• From Reset

The time that has elapsed since the errors were cleared is displayed here. Errors are cleared when you press F•7 ERROR CLEAR, initialize the system settings, or turn the power on and off.

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9.2 Switching the Error Count Unit

To switch the error count unit, follow the procedure shown below.

• Procedure

STATUS → F•6 COUNTER

• Settings

SEC: Errors are counted in units of seconds. Even if multiple errors occur within the

same second, only a single error is counted. This is the default setting.

FIELD: Errors are counted in units of fields. The number of fields that have errors in them

is displayed.

%FIELD: The percentage of the fields since the start of error counting that contain errors is

displayed.

9.3 Clearing the Error Count

To reset the error count and From Reset values to zero, follow the procedure shown below.

9. STATUS DISPLAY

• Procedure

STATUS → F•7 ERROR CLEAR

9.4 3G-SDI Line Numbers

When the input signal is level B, line numbers are indicated differently depending on the display as shown below.

The DATA DUMP LINE No. indicated in the data dump display is the Original Picture source raster Line Number. (*1)

The INTERFACE LINE No. indicated in the format ID, control packet, and custom search displays is the Digital Interface Line Number. (*2) On the format ID and control packet screens, if a line number that has packets embedded in it is outside of the standards, it is displayed in red.

Table 9-1 Level B line numbers

Original Picture Source Raster Line Number Digital Interface

Stream 1 Stream 2 Line Number

2 3 1

4 5 2

1122 1123 561

1124 1125 562

1 2 563

3 4 564

1121 1122 1123

1123 1124 1124

1125 1 1125

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9. STATUS DISPLAY

When the input signal is level A, the Original Picture source raster Line Number and the Digital Interface Line Number are the same, so the line number is not indicated differently depending on the display.

*1 Original Picture source raster Line Number: An original video line number *2 Digital Interface Line Number: A line number that the transmission structure has

• Explanation

The LV 58SER06 also handles level B signals, which are 3G-SDI signals mapped from HD dual link (SMPTE 372M-compliant) signals. In HD dual link, two HD-SDI signals (link A and link B) are transmitted over two coaxial cables. The 1125-line progressive scans of the 1080p/60 (50, 59.94) original video are mapped into the second line of link A, the third line of link B, etc., and are transmitted. In this manner, you can transmit videos that have twice the frame rate of signals that are handled with HD-SDI. However, because the lines of the original video are mapped into the lines of the line numbers that each transmission structure, link A and link B, has, there will be differences in the two line number values. Packets such as ANC packets are managed by the line numbers of the transmission structures. Videos must be managed by their original line numbers. Therefore, the line select numbers of videos are managed by the original line numbers, and the data dumps that are linked to the line select numbers of videos are also managed by the original line numbers. When you want to map HD dual link to 3G-SDI level B, map link A to stream 1 and link B to stream 2. Therefore, there will be differences in the line numbers in the same manner as was described above for HD dual link.

9.5 Configuring Event Log Settings

To view the event log, follow the procedure shown below. You can view a log of the events that have occurred on each unit.

• Procedure

STATUS → F•1 EVENT LOG

Figure 9-2 Event log

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9.5.1 Event Log Explanation

Events are listed in the event log by the time of their occurrence. By turning the function dial (F•D) to the right, you can scroll the screen to view older events in the log. Also, by pressing the function dial (F•D), you can display the latest events in the log. The times that are displayed in the event log are determined by the time that you select for Time Code in the unit setup.

Reference: Time Code → Section 5.2, “General Setup (GENERAL SETUP)”

Precautions

• If Input Mode is set to Single Input in the unit setup, only the events from the currently

selected channel are displayed. You cannot log the events of channels A and B simultaneously.

• Even if multiple units are installed on the LV 5800, there is only one log file. For example, if

both an LV 58SER06 and an LV 58SER01A are installed, the events from up to four channels are displayed as one file.

• When the same event occurs successively and when multiple events occur at the same

time, they are treated as a single event.

• When multiple events occur at the same time, you may not be able to check all of the

events on the screen. When this happens, you can view all of the events by saving them to USB memory.

• The event display is cleared when you initialize the system settings or turn the power on

and off.

• Switching video formats or input channels may cause disturbances in the signal that will

cause errors to be displayed.

9. STATUS DISPLAY

The events that are displayed in the event log are listed below. Out of the events listed below, only the events that have been set to ON in the 5 unit setup are displayed.

Table 9-2 Events

Event Name Description

CRC CRC error (Only 3G-SDI signals)

CRC_Y Ych CRC error (Only HD-SDI and HD dual link signals)

CRC_C Cch CRC error (Only HD-SDI and HD dual link signals)

EDH EDH error (Only SD-SDI signals)

SDI_DELAY A/B delay error (Only HD dual link signals)

TRS_P TRS position error

TRS_C TRS code error

ILLEGAL Illegal code error

LINE Line number error (Only 3G-SDI, HD-SDI, and HD dual link signals)

CHK Ancillary data checksum error

PRTY Ancillary data parity error

GMUT Gamut error

CGMUT Composite gamut error

FRZ Freeze error (Only HD-SDI and SD-SDI signals)

BLK Black error (Only HD-SDI and SD-SDI signals)

LVL_Y Ych level error (Only HD-SDI and SD-SDI signals)

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Event Name Description

LVL_C Cch level error (Only HD-SDI and SD-SDI signals)

A_BCH Embedded audio BCH error (Only 3G-SDI, HD-SDI, and HD dual link signals)

A_PRTY Embedded audio parity error (Only 3G-SDI, HD-SDI, and HD dual link signals)

A_DBN Embedded audio DBN error

A_INH Embedded audio INHIBIT error

NO_SIGNAL No signal

UnKnown The input signal format is not supported or is different from the specified format.

9.5.2 Starting Event Logging

To start event logging, follow the procedure shown below.

• Procedure

STATUS → F•1 EVENT LOG → F•2 LOG

• Settings

START: Event logging is started. “NOW LOGGING” appears in upper right of the event

log. STOP: Event logging is stopped. “LOGGING STOPPED” appears in upper right of the

event log. This is the default setting.

9. STATUS DISPLAY

9.5.3 Clearing the Event Log

To clear the event log, follow the procedure shown below.

• Procedure

STATUS → F•1 EVENT LOG → F•3 CLEAR

9.5.4 Selecting the Overwrite Mode

The LV 5800 can display up to 5000 events. To select the action to perform when more than 5000 events occur, follow the procedure shown below.

• Procedure

STATUS → F•1 EVENT LOG → F•4 LOG MODE

• Settings

OVER WR: When more than 5000 events occur, the LV 5800 writes over older events. This

is the default setting. STOP: Events after the 5000th event are not logged.

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9.5.5 Saving to USB Memory

You can save the event log to USB memory as a text file. To do so, follow the procedure shown below.

1. Connect a USB memory device to the USB port.

2. Press F•6 USB MEMORY.

The file list display appears. This menu item appears when USB memory is connected.

9. STATUS DISPLAY

Figure 9-3 File list display

3. Press F•1 NAME INPUT.

The file name input display appears.

Figure 9-4 File name input display

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9. STATUS DISPLAY

4. Enter a file name using up to 20 characters.

The key operations on the file name input display are explained below. Spaces are invalid. The spaces that you enter are ignored.

F•1 CLEAR ALL: Deletes all characters. F•2 DELETE: Deletes the character at the cursor position. F•3 INSERT: Inserts an underscore (_) at the cursor position. F•4 <=: Moves the cursor to the left. F•5 =>: Moves the cursor to the right. F•6 CHAR SET: Enters the selected character. F•D: Turn to select a character, and press to enter the character.

You can copy the file name of an already saved file. To copy a file name, move the cursor to the file in the file list whose name you want to copy, and then press the function dial (F•D). If F•5 FILENAME AUTO INC is set to ON, a two-digit number will automatically be added to the end of the copied file name.

5. Press F•7 up menu.

6. Press F•2 STORE.

When the message “Saving file - Please wait.” disappears, the file has been successfully saved. If there is more than one file with the same name in the USB memory, an overwrite confirmation menu appears. If you want to overwrite the current file, press F•1 OVER WR YES. Otherwise, press F•3 OVER WR NO.

• Deleting an Event Log

To delete an event log that has been saved to USB memory, select the log file in the file list display, and then press F•4 FILE DELETE. To delete the file, press F•1 DELETE YES. To cancel the delete operation, press F•3 DELETE NO.

• Setting File Numbering

When you set F•5 FILENAME AUTO INC in the file list display to ON, a two-digit number is automatically added to the entered file name (starting with 00). The default setting is OFF. This number returns to 00 if you initialize the settings or turn the power on and off.

• USB Memory Folder Structure

Event logs are saved in the LOG folder. If there is no LOG folder in the USB memory, the LV 5800 will create a folder automatically.

USB memory

└ LOG

└ ****.TXT

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9.6 Data Dump Settings

To view the data dump, follow the procedure shown below. In the data dump, the data of the selected line is listed.

• Procedure

STATUS → F•3 SDI ANALYSIS → F•1 DATA DUMP

9. STATUS DISPLAY

Figure 9-5 Data dump

9.6.1 Data Dump Explanation

In the data dump, the input signal's embedded ancillary data is detected, and the following detection codes are displayed.

Table 9-3 Detection code list

Detection Code Display Color Description

ADF Cyan Ancillary data flags (000h, 3FFh, and 3FFh)

DID Cyan Data identification (the data after ADF)

SDID Cyan Secondary data identification

DBN Cyan Data block numbers

DC Cyan Data count (the data after the SDID/DBN)

UDW Cyan User data words (the user data words of the data count length

CS Magenta Checksum (the data immediately after UDW)

AP Yellow Active picture

(the secondary format data when the DID is smaller than 80H)

(the primary data format when the DID is larger than 80H)

after ADF)

(the active picture from after the SAV to just before the EAV

when the selected line is within the active video area)

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9. STATUS DISPLAY

9.6.2 Selecting the Display Mode

To select the data dump display mode, follow the procedure shown below.

Reference: Section 10.2, “Acquiring Frame Capture Data”

• Procedure

STATUS → F•3 SDI ANALYSIS → F•1 DATA DUMP → F•1 MODE

• Settings

RUN: The input signal data is automatically updated and displayed. This is the

default setting. HOLD: The input signal data is displayed statically.

You cannot change lines. FRM CAP: The frame capture data is displayed.

You cannot select this option when there is no frame capture data in the LV

5800 or when the frame capture data and the input signal format are different.

9.6.3 Selecting the Content to Display

To select the content to display in the data dump, follow the procedure shown below. When the input signal is 3G-SDI level A, this menu item is not displayed.

• Procedure

STATUS → F•3 SDI ANALYSIS → F•1 DATA DUMP → F•2 DISPLAY

• Settings (When the input signal is 3G-SDI level B)

STREAM 1: Stream 1 are displayed. This is the default setting. STREAM 2: Stream 2 are displayed. STREAM 1/2: Streams 1 and 2 are combined, and their data sequences are displayed.

• Settings (When the input signal is HD dual link)

LINK A: The parallel converted data sequences of link A are displayed. This is the

default setting. LINK B: The parallel converted data sequences of link B are displayed. LINK A/B: Links A and B are combined, and their parallel data sequences are displayed.

When you select LINK A/B, the content that is displayed varies, as shown below, depending on the format of the input signal.

• YCbCr (4:2:2) 10 bits

Because the selected line in the picture is embedded alternately in links A and B for each frame, the LV 58SER06 switches between links A and B at an irregular interval to display the information of the selected line.

• YCbCr (4:2:2) 12 bits

The lower 2 bits that have been assigned to link B are appended to the Y and CbCr channels, and these channels are displayed in 12 bits.

LEADER LV 58SER06 Instruction Manual

Specifications and Main Features

Frequently Asked Questions

User Manual

Contents

1.1 Scope of Warranty

1. INTRODUCTION

1.2 Operating Precautions

1.2.1 Maximum Allowable Input Voltage

1.2.2 Shorting and Applying External Input to the Output Connectors

1.3 Notations Used in This Manual

2.1 General

2.2 Features

2. SPECIFICATIONS

2.3 Specifications

2.3.1 Input Signal

2.3.2 Output Signal

2.3.3 I/O Connectors

2.3.4 Waveform Display

2.3.5 Vectorscope Display

2.3.6 5 Bar Display

2.3.7 CIE Chromaticity Diagram Display

2.3.8 Picture Display

2.3.9 Status Display

2.3.10 Analysis Features

2.3.11 Closed Caption Display Function

2.3.12 Phase Difference Display

2.3.13 Embedded Audio Processing

2.3.14 Frame Capture Feature

2.3.15 General Specifications

3. NAMES AND FUNCTIONS OF PARTS

3.1 Rear Panel

3.2 Display Screen

4. BEFORE YOU BEGIN MEASURING

4.1 Unit Installation

4.2 SDI Signal Input

4.3 SDI Signal Output

4.3.1 Reclocked Input Signal Output

4.3.2 Test Pattern Signal Output

4.4 Switching Input Channels

4.5 External Sync Signal Input

5.1 Tab Menu Operations

5.2 General Setup (GENERAL SETUP)

5.3 Output Setup (SDI OUT SETUP)

5.4 Error Setup 1 (ERROR SETUP1)

5.5 Error Setup 2 (ERROR SETUP2)

5.6 Error Setup 3 (ERROR SETUP3)

5.7 Error Setup 4 (ERROR SETUP4)

5.8 Error Setup 5 (ERROR SETUP5)

6.1 Setting the Waveform Display Position

6.3 Selecting Which Channels to Display

6.4 Configuring the Intensity and Scale Settings

6.4.1 Adjusting the Waveform Intensity

6.4.2 Selecting the Waveform Color

6.4.3 Adjusting the Scale Intensity

6.4.4 Selecting the Scale Unit

6.4.5 Displaying a Scale for 75 % Intensity Color Bars

6.4.6 Selecting the Scale Color

6.5 Gain and Sweep Settings

6.5.1 Selecting the Fixed Gain

6.5.2 Setting the Variable Gain

6.5.3 Selecting the Sweep Method

6.5.4 Selecting the Line Display Format

6.5.5 Selecting the Field Display Format

6.5.6 Selecting the Horizontal Magnification

6.6 Selecting Lines

6.6.1 Turning Line Selection On and Off

6.6.2 Setting the Line Selection Range

6.7 Configuring Cursor Settings

6.7.1 Displaying Cursors

6.7.2 Selecting X or Y Cursors

6.7.3 Moving Cursors

6.7.4 Selecting the Unit of Measurement

6.7.5 Setting the Reference Amplitude

6.8 Configuring Display Settings

6.8.1 Selecting the Filter

6.8.2 Displaying the Blanking Interval

6.8.3 Setting Waveform Persistence

6.8.4 Clearing Persistent Waveforms

6.8.5 Timing and 4Y Parade Displays