LEADER LV 58SER01A, LV 58SER01 Instruction Manual

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LV 58SER01A

LV 58SER01

SDI INPUT

INSTRUCTION MANUAL

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

1.1 Maximum Allowable Input Voltage to the Input Connector .........................................................1

1.2 Precautions Concerning the Unit ................................................................................................1

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

1.4 Trademark Acknowledgments.....................................................................................................1

2. PRODUCT SPECIFICATIONS..................................................................................... 2

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

2.2 Features of the SDI Input Unit.....................................................................................................2

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

2.3.1 Input signal ................................................................................................................................... 4

2.3.2 Input/Output Connector ................................................................................................................ 5

2.3.3 Waveform Display Function .........................................................................................................5

2.3.4 Vectorscope Display.....................................................................................................................6

2.3.5 CIE Chromaticity Diagram Display ............................................................................................... 7

2.3.6 Phase Difference Display ............................................................................................................. 7

2.3.7 Picture Display .............................................................................................................................7

2.3.8 Status Display............................................................................................................................... 8

2.3.9 5 BAR Display ............................................................................................................................10

2.3.10 Analysis Function .......................................................................................................................10

2.3.11 Embedded Audio Processing ..................................................................................................... 11

2.3.12 Cable Length Meter Measurement.............................................................................................12

2.3.13 Frame Capture Function ............................................................................................................12

2.3.14 Closed Caption Display Function ...............................................................................................13

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

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

4. MENU STRUCTURE ................................................................................................. 16

4.1 Waveform Display Menu ...........................................................................................................16

4.2 Vectorscope Display Menu........................................................................................................18

4.3 Picture Display Menu ................................................................................................................19

4.4 Status Display Menu..................................................................................................................21

5. SYSTEM SETUP OF THE UNIT ................................................................................ 24

5.1 GENERAL SETUP ....................................................................................................................26

5.2 ERROR SETUP1 ......................................................................................................................31

5.3 ERROR SETUP2 ......................................................................................................................34

5.4 ERROR SETUP3 ......................................................................................................................36

5.5 ERROR SETUP4 ......................................................................................................................39

5.6 ERROR SETUP5 ......................................................................................................................41

6. VIDEO SIGNAL WAVEFORM DISPLAY .................................................................... 43

6.1 Setting the Waveform Display Position.....................................................................................43

6.2 Setting the Waveform Display Mode.........................................................................................44

6.3 Setting the Waveform Display Channels ..................................................................................45

6.4 Intensity Adjustment ..................................................................................................................46

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6.4.1 Adjusting the Intensity of the Video Signal Waveforms.............................................................. 46

6.4.2 Selecting the Video Signal Waveform Color .............................................................................. 47

6.4.3 Adjusting the Scale Intensity ......................................................................................................47

6.4.4 Setting the Scale Unit.................................................................................................................47

6.4.5 Displaying the 75 % Color Bar Scale ......................................................................................... 49

6.4.6 Selecting the Scale Color ........................................................................................................... 49

6.5 Adjusting the Gain.....................................................................................................................50

6.5.1 Changing the Vertical Magnification of the Video Signal Waveforms ........................................ 51

6.5.2 Setting the Horizontal Sweep of the Video Signal Waveforms ..................................................51

6.5.3 Changing the Horizontal Magnification of the Video Signal Waveforms....................................54

6.5.4 Selecting the Displayed Field for V Display ...............................................................................55

6.6 Line Select.................................................................................................................................56

6.6.1 Line Select..................................................................................................................................56

6.6.2 Field Selection of Line Select ..................................................................................................... 57

6.7 Cursor Measurement.................................................................................................................57

6.7.1 Displaying the Cursors ...............................................................................................................58

6.7.2 Selecting X-Axis or Y-Axis Cursor ..............................................................................................58

6.7.3 Selecting the Cursor Measurement Unit ....................................................................................58

6.7.4 Moving the Cursors ....................................................................................................................59

6.7.5 Setting the Reference Amplitude................................................................................................60

6.8 Setting the Display Style ...........................................................................................................61

6.8.1 Setting the Filter .........................................................................................................................61

6.8.2 Displaying the Blanking Period ..................................................................................................63

6.8.3 Persistence Display of the Waveform ........................................................................................ 63

6.8.4 Clearing the Persistence Characteristics ................................................................................... 64

6.8.5 TIMING .......................................................................................................................................64

6.8.6 4Y PARADE................................................................................................................................65

6.9 Setting the Color System of the Waveform Display..................................................................66

6.9.1 Setting the Color Matrix of the Waveform Display .....................................................................67

6.9.2 Y-GBR (RGB) Display ................................................................................................................68

6.9.3 Setting the Video Signal Display Format for the Pseudo-Composite Display............................68

6.9.4 Setting the Setup for the Pseudo-Composite Display................................................................69

7. VECTORSCOPE DISPLAY........................................................................................ 70

7.1 Displaying Vector Waveforms ...................................................................................................70

7.2 Adjusting the Intensity...............................................................................................................71

7.2.1 Adjusting the Intensity of Vector Waveforms..............................................................................71

7.2.2 Selecting the Vector Waveform Color ........................................................................................72

7.2.3 Adjusting the Scale Intensity ......................................................................................................72

7.2.4 Displaying the IQ Axis ................................................................................................................72

7.2.5 Selecting the Scale Color ........................................................................................................... 73

7.3 Adjusting the Gain.....................................................................................................................73

7.3.1 Varying the Gain ......................................................................................................................... 74

7.3.2 Selecting the Gain ...................................................................................................................... 74

7.4 Line Select.................................................................................................................................75

7.4.1 Line Select..................................................................................................................................75

7.4.2 Field Selection............................................................................................................................76

7.5 Setting the Color System ..........................................................................................................76

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7.5.1 Composite and Component Displays......................................................................................... 77

7.5.2 Setting the Video Signal Display Format for the Pseudo-Composite Display............................77

7.5.3 Selecting the Setup ....................................................................................................................78

7.5.4 Selecting the Color Bar Saturation ............................................................................................. 78

7.6 Switching the Display Mode......................................................................................................79

7.7 Setting Persistence ...................................................................................................................80

7.7.1 Persistence Display of the Waveform ........................................................................................ 81

7.7.2 Clearing the Persistence Characteristics ................................................................................... 81

7.8 Configuring the 5 BAR Display..................................................................................................81

7.8.1 Display Order of the 5 BAR Display ...........................................................................................82

7.8.2 5 BAR Scale ............................................................................................................................... 82

7.9 Setting the Histogram Display...................................................................................................83

7.9.1 Selecting the Histogram Display Mode ......................................................................................83

7.9.2 Turning the RGB Signals On and Off ......................................................................................... 84

7.10 Configuring the CIE Chromaticity Diagram Display..................................................................84

7.10.1 Displaying the Color Triangle .....................................................................................................85

7.10.2 Displaying the Color Scale .........................................................................................................85

7.10.3 Displaying the Black-Body Radiation Curve...............................................................................86

7.10.4 Selecting the Display Mode of the Chromaticity Diagram..........................................................86

7.10.5 Cursor Measurement..................................................................................................................87

7.10.6 Selecting the Inverse Gamma Correction Value ........................................................................87

7.10.7 Selecting the Filter......................................................................................................................87

8. PICTURE DISPLAY ................................................................................................... 88

8.1 Adjusting the Picture Display ....................................................................................................89

8.1.1 Adjusting the Brightness.............................................................................................................89

8.1.2 Adjusting the Contrast ................................................................................................................ 90

8.1.3 Adjusting the Gain ...................................................................................................................... 90

8.1.4 Adjusting the Bias.......................................................................................................................90

8.2 Displaying the Safety Markers ..................................................................................................91

8.2.1 Aspect Marker (4:3)....................................................................................................................92

8.2.2 Aspect Marker (16:9)..................................................................................................................92

8.2.3 Safe Action Marker.....................................................................................................................93

8.2.4 Safe Title Marker ........................................................................................................................ 93

8.2.5 Center Marker ............................................................................................................................93

8.2.6 Aspect Marker (AFD)..................................................................................................................93

8.2.7 Selecting the Form of the AFD Marker.......................................................................................94

8.3 Displaying the Line Select Marker ............................................................................................95

8.3.1 Displaying the Line Select Marker..............................................................................................96

8.3.2 Selecting the Line Select Field ................................................................................................... 96

8.4 Picture Display Format..............................................................................................................97

8.4.1 Selecting the Picture Size ..........................................................................................................98

8.4.2 Displaying a Histogram ..............................................................................................................99

8.4.3 Displaying the Gamut Error Locations .......................................................................................99

8.4.4 Selecting the Gamut Error Pattern ...........................................................................................100

8.4.5 Displaying AFDs.......................................................................................................................100

8.5 Displaying the Closed Caption Information.............................................................................102

8.5.1 Displaying English Closed Caption Information .......................................................................103

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8.5.2 Selecting English Closed Caption Format................................................................................103

8.5.3 Selecting English Closed Caption Data Type...........................................................................104

8.5.4 Displaying Japanese Closed Caption Information ...................................................................104

8.5.5 Selecting the Japanese Closed Caption Format...................................................................... 104

8.5.6 Selecting the Japanese closed caption Data ........................................................................... 105

8.5.7 Clearing the Japanese Closed Caption Data ...........................................................................105

8.6 Hiding the Menu and Marker...................................................................................................105

9. STATUS DISPLAY.................................................................................................... 106

9.1 Status Display Screen .............................................................................................................107

9.1.1 Description of the Status Display ............................................................................................. 107

9.1.2 Details of the Status Display..................................................................................................... 108

9.2 Switching the Error Count Unit................................................................................................ 114

9.3 Clearing the Error Count .........................................................................................................114

9.4 Event Log ................................................................................................................................115

9.4.1 Starting or Stopping the Event Log........................................................................................... 117

9.4.2 Clearing the Event Log............................................................................................................. 117

9.4.3 Log Operation Mode................................................................................................................. 117

9.4.4 Saving to USB Memory ............................................................................................................ 118

9.5 Data Dump Display .................................................................................................................121

9.5.1 Data Dump Display Mode ........................................................................................................ 122

9.5.2 Selecting the Data Dump Display Format ................................................................................122

9.5.3 Automatically Searching the EAV/SAV..................................................................................... 125

9.5.4 Selecting the Number of Steps for Changing the Sample Number.......................................... 126

9.5.5 Selecting the Line Number and Sample Number..................................................................... 126

9.5.6 Saving to USB Memory ............................................................................................................ 127

9.5.7 Deleting a Data Dump File .......................................................................................................128

9.5.8 Auto Generation of File Names................................................................................................ 128

9.6 Displaying the Phase Difference between the SDI and External Sync Signal .......................129

9.6.1 Displaying the Phase Difference Measurement Screen Between SDI Signal and EXT REF

Signal........................................................................................................................................131

9.6.2 Displaying the Phase Difference Measurement Screen of Link A and B .................................133

9.7 Lip Sync Display......................................................................................................................135

9.7.1 Adjusting the Scale...................................................................................................................136

9.8 Displaying the List of Ancillary Data........................................................................................136

9.8.1 Displaying the Ancillary Data Dump ......................................................................................... 137

9.8.2 Updating the Data Dump..........................................................................................................137

9.8.3 Data Dump Display Mode ........................................................................................................ 138

9.9 Displaying the Ancillary Data Details.......................................................................................138

9.9.1 Description of the ANC PACKET Summary Display ................................................................140

9.9.2 Displaying the EDH Packet ......................................................................................................142

9.9.3 Displaying the Format ID..........................................................................................................144

9.9.4 Displaying the Audio Control Packet ........................................................................................ 146

9.9.5 Displaying the Closed Caption Data ........................................................................................148

9.9.6 Displaying the Inter-Stationary Control Data ............................................................................ 150

9.9.7 Displaying the Data Broadcast Trigger Signal..........................................................................154

9.9.8 Displaying the User Data 1 Packet ..........................................................................................155

9.9.9 Displaying the User Data 2 Packet ..........................................................................................156

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9.9.10 Displaying EIA-708 Data ..........................................................................................................156

9.9.11 Displaying EIA-608 Data ..........................................................................................................158

9.9.12 Displaying Program Data ......................................................................................................... 160

9.9.13 Displaying VBI Data .................................................................................................................160

9.9.14 Displaying AFD Packets...........................................................................................................161

9.9.15 Customized Search of Ancillary Packets..................................................................................163

10. FRAME CAPTURE FUNCTION ............................................................................... 166

10.1 Setting the Capture Mode .......................................................................................................166

10.2 Capture Menu..........................................................................................................................167

10.3 Selecting the Frame Capture Mode ........................................................................................168

10.4 Capture One Frame Data........................................................................................................168

10.5 Selecting the Display...............................................................................................................170

10.6 Saving to USB Memory...........................................................................................................171

10.7 Loading from USB Memory.....................................................................................................172

10.8 Deleting a Screen Capture File...............................................................................................173

10.9 Dual Link..................................................................................................................................174

10.10 File Format of Captured Frame Data ......................................................................................174

10.10.1 Header Data .............................................................................................................................174

10.10.2 HD Format................................................................................................................................ 177

10.10.3 SD Format ................................................................................................................................ 178

11. A/B OUTPUT SELECT FUNCTION ......................................................................... 179

12. FIRMWARE REVISION HISTORY........................................................................... 180

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1. INTRODUCTION

1.1 Maximum Allowable Input Voltage to the Input Connector

The maximum allowable input voltage to the input connector is shown in the table below. Do not apply excessive voltage to prevent damage to the instrument.

Maximum Input Voltage

Input Connector Maximum Input Voltage

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

1.2 Precautions Concerning the Unit

Aliasing occurs in the V sweep display of 1080p/60, 59.94, and 50, because the unit decimates the sampling data. The picture display is processed using 8 bits even if the quantization is set to 12 bits.

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.

1.4 Trademark Acknowledgments

The typefaces included herein are solely developed by DynaComware Taiwan Inc.

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2. PRODUCT SPECIFICATIONS

2.1 General

This SDI input unit can be installed into the input slot of an LV 5800 (multi monitor) or into an LV 7800 (multi rasterizer). You can install a maximum of four LV 58SER01A units into these instruments. By operating the instrument, you can display SDI signals' video signal waveforms, vector waveforms, pictures, error detection results, and so on.

From Ach / Bch output terminal (reclock out), the SDI signal input to A ch or B ch can be output by interlocking with the input key. (*1) In addition, the following features can be achieved when used in combination with other units. (*2)

• Eye pattern display of SDI signals (in combination with the LV 58SER02).

• Lissajous and level displays of the embedded audio signal (in combination with the LV 58SER40A).

*1 This function is not available on the LV 58SER01. *2 This instruction manual does not cover these features. See the instruction manual of the other unit.

2.2 Features of the SDI Input Unit

● Two Serial Digital Inputs/Outputs

Each unit contains two SDI inputs. The unit can receive two separate SDI signals or a single dual link signal. In addition, the unit is equipped with SDI outputs that deliver reclocked signals of each SDI input. Furthermore, from Ach / Bch output terminal (reclock out), the SDI signal input to Ach or Bch can be output by interlocking with the input key. (*1)

*1 This function is not available on the LV 58SER01.

● Video Signal Display Function

The video signal waveforms, vectors, and pictures of the SDI signal can be shown on a 1-, 2-, or 4-screen multi display. In the multi display, you can select any combination of the input signals and display the video signal waveform and the like.

* Multi display does not allow link A and link B to be displayed separately during dual link operation.

● Error Detection Function

Various errors can be detected including SDI signal errors such as CRC errors of HD-SDI signals and EDH errors of SD-SDI signals as well as errors related to the embedded audio signals and ancillary data.

● Ancillary Data Analysis

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

● SDI-EXT REF Phase Display Function

The relative phase between SDI inputs can be measured.

● Lip Sync Display Function

Combining the LV 58SER01A with an LT 4400 (in which an LT 4400SER01 is installed) and an LV 58SER40(A) makes it possible to measure the offset between the video signal and the audio signal that occurs in the transfer route.

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2. PRODUCT SPECIFICATIONS

● 5 BAR Display Function

The 5 BAR display allows simultaneous monitoring of 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 Demultiplex Function

The unit is equipped with a function for demultiplexing the embedded audio signal. Level meter and Lissajous displays can be achieved when used in combination with the digital audio unit (LV 58SER40A). The signal can also be output as AES/EBU.

● Eye Pattern Display

Eye patterns can be displayed by installing the Eye Pattern Unit (LV 58SER02). The eye pattern display allows you to select A or B.

● External Synchronization

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

Supported Formats and Standards of Dual Link System Video Signals

Format Quantization Scanning Frame (Field) Frequency Supported Standards

GBR 4:4:4

Y,CB,CR 4:2:2

(2K)

2. PRODUCT SPECIFICATIONS

10 bit

12 bit

10 bit 1080p 60/59.94/50

12 bit

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

1080i 60/59.94/50

1080p 24/23.98GBR 4:4:4

1080PsF 24/23.98

SMPTE 372M

(1920×1080)

(2048x1080)

* The picture display is 8-bit resolution. * The phase difference between link A and link B is automatically corrected up to 100 clocks

(approximately 1.4 μs) and displayed. Various error detecting functions shown in the status display do not operate correctly when link A and link B have not synchronized.

Supported Formats and Standards of Single Link Video Signals

Format Quantization Scanning Frame (Field) Frequency Supported Standards

Y,CB,CR 4:2:2 10 bit

* The picture display is 8-bit resolution.

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/

525i 59.94

625i 50

30/29.97/25/24/23.98

SMPTE 274M

SMPTE 292M

SMPTE 296M

SMPTE 292M

SMPTE 259M

Other Standards

Ancillary Standard SMPTE 291M Embedded Audio Standards SMPTE 299M (HD-SDI)

SMPTE 272M (SD-SDI)

Format Setting

Link Switching Manual switching between single link and dual link Format Setting Auto setting (automatically sets only the frame/field

frequency for the dual link)

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2.3.2 Input/Output Connector

SDI Input

Input Connector BNC connector 2 connectors

During single link Ach/Bch 2 systems

During dual link Link A/Link B 1 system Input Impedance 75 Ω Input Return Loss ≥ 15 dB (5 MHz to serial clock frequency) Maximum Input Voltage ±2 V (DC + Peak AC)

SDI Output

Output Connector BNC connector 2 connectors

During single link Ach/Bch switchable 1 system (*1)

During dual link Link A/Link B 1 system Output Impedance 75 Ω Output Voltage 800 mVp-p ± 10 % Output Return Loss ≥ 15 dB (5 MHz to serial clock frequency)

2. PRODUCT SPECIFICATIONS

Serially reclocks the input signal and outputs the resultant signal

Bch fixed 1 system

*1 In LV 58SER01, Ach is fixed.

2.3.3 Waveform Display Function

Waveform Operation

Display Mode Overlay display (Displays component signals overlaid)

Blanking Period Show/hide switchable Y, CB, CRto GBR Conversion Converts Y, CB, CRsignals into G, B, R and displays the

Pseudo-Composite Display Displays component signals artificially as composite

Timing Display (*1) Displays by calculating Y-CB and Y-CR. Uses bowtie

Channel Assignment Select G, B, R order or R, G, B order during G, B, R

Line Select Displays the selected line Image Quality Adjustment Brightness adjustment

Parade display (Displays component signals side by side)

result

signals

signals. (Authorized by Tektronix, Inc.)

conversion display

Vertical Axis

Sensitivity

V Scale 0 V to 0.7 V and -0.3 V to 0.7 V

% Scale 0 % to 100 % and -50 % to 100 %

Decimal Scale 64 to 940 (YGBR), 64 to 960 (CbCr)

Hexadecimal 040 to 3AC (YGBR), 040 to 3C0 (CbCr) Gain ×1, ×5, or variable Variable Gain ×0.2 to ×10

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2. PRODUCT SPECIFICATIONS

Amplitude Accuracy ≤ ±0.5 % Frequency Characteristics HDTV

Y Signal ≤ ±0.5 % (1 MHz to 30 MHz)

CB, CRSignal ≤ ±0.5 % (0.5 MHz to 15 MHz)

Low-pass Attenuation ≥ 20 dB (at 20 MHz) Frequency Characteristics SDTV

Y Signal ≤ ±0.5 % (1 MHz to 5.75 MHz)

CB, CRSignal ≤ ±0.5 % (0.5 MHz to 2.75 MHz)

Low-pass Attenuation ≥ 20 dB (at 3.8 MHz)

Horizontal Axis

Line Display

Display Format Overlay : 1H, 2H

Parade : 1H, 2H, 3H Timing : Y- CB, Y- C

4Y Parade(*2) : 4H

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

Display Format Overlay(*3) : 1V, 2V

Parade : 1V, 2V, 3V Magnification ×1, ×20, ×40 Time Base Accuracy ≤ ±0.5 %

Cursor Measurement

Configuration

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

Amplitude Measurement Measure in terms of [%] or [V] or [DEC] or [HEX]

Time Measurement Displayed in [sec] Frequency Display Displays the frequency in which the time between

*1 Dual link is not supported. *2 The 4Y parade display requires that the four inputs are of the same format and are synchronized. *3 2V display not allowed for progressive

2.3.4 Vectorscope Display

Sensitivity 75% or 100% (for the color bars) Gain ×1, ×5, IQ-MAG, or variable Variable Gain ×0.2 to ×10 Amplitude Accuracy ≤ ±0.5 % IQ Axis Select show/hide Pseudo-Composite Display Displays component signals by converting to composite

Image Quality Adjustment Brightness adjustment Histogram Display Displays the luminance distribution

cursors is considered a cycle

signals that have BURST added artificially.

(The color matrix for HDTV signals is converted to

SDTV.)

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2. PRODUCT SPECIFICATIONS

2.3.5 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

2.3.6 Phase Difference Display

Display Displays the phase difference between the SDI signal

and external sync signal numerically and graphically Holds and displays eight phase difference values being measured

Display Range

V Direction Approximately ±1/2 frame (see Section 9.6, “Displaying

the Phase Difference between the SDI and External Sync Signal”.)

H Direction (*1) ±1 line Synchronization Signal HD tri-level sync signal or B. B signal Phase Difference Measurement in Dual Link

Displays the phase difference between link A and link B in terms of parallel clocks number. (includes an error of ±1 clock)

*1 The phase difference display in the H direction may fluctuate in the range of ±1 clock when the signal

is switched.

2.3.7 Picture Display

HDTV Display Displayed by sampling pixels (8 bits for R, G, and B) SDTV Display Displayed by interpolating pixels (8 bits for R, G, and B) Marker Display Center marker display

Gamut Error Display Marks sections containing gamut errors within the

Line Select Displays a marker for the selected line Display Size Reduced display, full frame display, and actual size

Histogram Display Displays the luminance distribution AFD Display Displays abbreviations for SMPTE 2016-1-2007

4:3 or 16:9 marker display Safe action marker display Safe title marker display AFD marker display

picture

display (*1)

standard AFD codes

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2. PRODUCT SPECIFICATIONS

Image Quality Adjustment GBR level adjustment, contrast adjustment, and

brightness adjustment

Simple Japanese Closed Caption Display

Displays simple Japanese closed caption on the picture screen. (You can choose to display HD, SD, analog, or mobile phone closed captions. You can select display

language 1 or 2.) Standard ARIB STD B-37 short form data Video Formats 1080i/59.94 (SMPTE 274M, 292M)

525i/59.94 (SMPTE 259M) Display The display location can only be adjusted for HD and SD

closed caption. 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.

*1 Actual size display cannot display in 1080p/60, 59.94, 50 formats respectively.

2.3.8 Status Display

Status Display of SDI Signals

Signal Detection Detects the presence or absence of SDI signals Format Detected among the supported video signal formats

Equivalent Cable Length Measurement

Supported Cables HD-SDI: Select L-7CHD, LS-5CFB, or 1694A

Accuracy ±20 m Resolution 5 m (10 m for L-7CHD)

Embedded Audio Channel Displays the multiplexed audio channel number

Error Detection of SDI Signals

CRC Error Detects transmission errors of HD-SDI signals EDH Error Detects transmission errors of SD-SDI signals TRS Error Detects errors in the TRS position and protection bit Line Number Error Detects line number errors in HD-SDI signals Illegal Code Error Detects data in the range of 000h to 003h and 3FC to

Embedding Prohibition Error Detects the presence or absence of audio in the

(Detects only the frame rate during dual link)

Displays the signal attenuation of the SDI signal by

converting to cable length

SD-SDI: Select LS-5C2V, 8281, or 1505A

(Supports only link A during dual link)

3FF outside the TRS or ADF header.

embedded prohibition line.

(Supports only link A during dual link)

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2. PRODUCT SPECIFICATIONS

Cable Length Meter Error Detects the signal attenuation to detect errors

HD-SDI Set in the range of 5 m to 200 m in 5-m intervals SD-SDI Set in the range of 50 m to 300 m in 5-m intervals

Phase Difference Error in Dual Link

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. (Phase difference

measurement includes the error of ±1 clock.)

Error Detection in Embedded Audio (Supports only link A during dual link)

BCH Error Detects transmission errors in audio packets embedded

in HD-SDI signals DBN Error Detects sequency errors in audio packets Parity Error Detects parity errors in audio packets embedded in

HD-SDI signals

Error Detection in Ancillary Data

Checksum Error Detects transmission errors in the ancillary data Parity Error Detects parity errors in the ancillary data header.

Image Quality Evaluation

Gamut Error Detects gamut errors according to the specified time

Indicates the gamut error position on the picture

Upper Limit 90.8 % to 109.4 % (0.1 % resolution) Lower Limit -7.2 % to +6.1 % (0.1 % resolution) Area Designation 0.0 % to 5.0 % (0.1 % resolution) Time Designation 1 to 60 frames Frequency Characteristics Eliminates transient gamut errors such as in an

overshoot.

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

LPF, OFF

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

Composite Gamut Error Monitors the level error when the component signal is

converted into composite signal

Upper Limit 90.0 % to 135.0 % (0.1 % resolution) Lower Limit -40.0 % to 20.0 % (0.1 % resolution) Frequency Characteristics Common with the gamut error

Level Error Detects Y CBCRlevel errors

(Dual link is not supported.)

Y Upper Limit -51 mV to 766 mV (1-mV resolution) Y Lower Limit -51 mV to 766 mV (1-mV resolution) CBCRUpper Limit -400 mV to 399 mV (1-mV resolution) CBCRLower Limit -400 mV to 399 mV (1-mV resolution)

Freeze Detection Detects video freeze according to the specified time

(Dual link is not supported.)

Detection Method Checksum of the video period Time Designation 2 to 300 frames

Page 16

Black Detection Detects blackouts in the video

Black Level Designation 0 to 100% Area Designation 1 to 100 % Time Designation 1 to 300 frames

Event Log

Logged Items Error items, input switching operations, and timestamps

2.3.9 5 BAR Display

Bar Display Displays the YGBR component and composite gamut Error Level Setting

Component Gamut Common with the gamut error Composite Gamut Common with the composite gamut error

Gamut Display Frequency Characteristics

Miscellaneous When a line is selected, detection is performed on only

2. PRODUCT SPECIFICATIONS

(Dual link is not supported.)

Common with the gamut error

the selected line for the component gamut.

2.3.10 Analysis Function

Data Dump Display

Display Format Displayed by serial data sequence or channel separation

Line Select Displays the selected line Sample Select Displays selected samples Jump Function Move to EAV or SAV by one-key operation Data Output Save data in text format to a PC via Ethernet network or

Lip Sync Display (*1)

Displayed Contents Displays the offset between the video and audio signals

Supported Format 1080i/59.94, 1080i/50, 720p/59.94, 525i/59.94, and

Displayed Channels 16 channels

Audio Control Packets (only link A is supported for dual link)

Displayed Contents Analyzes and displays audio control packets Display Format Text, hexadecimal, or binary Group Selection Select a group among four groups

(Select link A, link B, or link A/B to be displayed for dual

link)

USB memory

as a numeric value and on a graph

625i/50

EDH Display

Supported Standard SMPTE RP-165 Displayed Contents Analyzes and displays EDH packets and displays

received CRC errors Display Format Text, hexadecimal, or binary

Page 17

2. PRODUCT SPECIFICATIONS

Format ID Display

Supported Standards SMPTE 352M and ARIB STD-B39

(only SMPTE 352M is supported for dual link) Displayed Contents Analyzes and displays the format ID

Closed Caption Display (not supported for dual link)

Supported Standard ARIB STD-B37 Displayed Contents Analyzes and displays closed caption signals Display Format Text, hexadecimal, or binary

Inter-Stationary Control Signal (NET-Q) (not supported for dual link)

Supported Standard ARIB STD-B39 Displayed Contents Analyzes and displays inter-stationary control signals Display Format Text, hexadecimal, or binary Log Function Logs Q signals

Data broadcasting trigger signal (no supported for dual link)

Supported Standard ARIB STD-B35 Display Format Text, hexadecimal, or binary

V-ANC User Data Display (not supported for dual link)

Supported Standard ARIB TR-B23 Display Format Hexadecimal or binary

Arbitrary Ancillary Packet Display (only link A is supported for dual link)

ANC Designation Select DID or SDID Display Format Hexadecimal or binary

ADF Packet Display (not supported for dual link)

Supported Standard SMPTE 2016-1-2007 Display Format Text, hexadecimal, or binary

Time Code Display (only link A is supported for dual link)

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

Display Method Switches the display between the internal clock and time

*1 To perform lip sync measurements, an LT 4400 (in which an LT 4400SER01 is installed) and an LV

58SER40(A) are required.

2.3.11 Embedded Audio Processing

D-VITC (SMPTE 266M)

code

Clock Generation System

SD-SDI Generated from the video clock HD-SDI Generated from the video clock Dual Link Generated from the video clock

Synchronization Relationship All synchronized to the video clock Phase Relationship All matched Demultiplexed Channel Select up to four groups (16 channels) from Ach, Bch, or

link A during dual link

* The LV 58SER40A is required to display and output audio.

Page 18

2. PRODUCT SPECIFICATIONS

2.3.12 Cable Length Meter Measurement

Detection System Converts the signal attenuation to a coaxial cable length

and displays the result

Supported Cables

HD-SDI L-7CHD, LS-5CFB, and 1694A SD-SDI LS-5C2V, 8281, and 1505A

Display Range

HD-SDI Less than 5 m to greater than or equal to 130 m

(Less than 10 m to greater than or equal to 200 m for

L-7CHD.) SD-SDI Less than 50 m to greater than or equal to 300 m

Accuracy ±20 m Resolution 5 m (10 m for L-7CHD)

2.3.13 Frame Capture Function

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

captured frame data over the input signal

Media Internal RAM memory and USB memory

Only one frame from two signals can be stored in the

internal memory (only one frame from one signal during

dual link).

Data Output Screen captures can be saved as .dpx files, .tif files, or in

a file format that the LV 5800 can load. They can be

saved to USB memory or sent to a PC through an

Ethernet connection.

Data Input Data saved to USB memory can be loaded and

displayed on the LV 5800.

Error Capture Function Automatically captures frame data when an error occurs

* The captured frame can only be displayed if an SDI input of the same format as the captured data is

available.

Page 19

2. PRODUCT SPECIFICATIONS

2.3.14 Closed Caption Display Function

Supported Standards

Function Name Standard DID SDID

EIA-708 CC decode function SMPTE334M 161h 101h

EIA/CEA-608-B CC decode function (EIA-708-B) SMPTE334M 161h 101h

EIA/CEA-608-B CC decode function (EIA/CEA-608-B) SMPTE334M 161h 102h

VBI (EIA/CEA-608-B Line21) CC decode function CEA/EIA-608-B

Display Contents of the CDP Packet

Header information of the CDP packet

• 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

Displayed Contents of the XDS Packet

Displayed Contents of the Program Description Packet

2.3.15 General Specifications

Environmental Conditions Conforms to the instrument that it is installed in Power Consumption Supplied from the instrument; 18 W max. Weight 0.28 kg Accessory Instruction manual

Content advisory information

Copy management information

Stuffing Descriptor

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

Page 20

3. NAMES AND FUNCTIONS OF PARTS

LV 58SER01A LV 58SER01

1 INPUT SDI A (SDI Signal Input A Connector)

Input A connector for SDI signal. It corresponds to link A during dual link. Each input connector is internally terminated at 75 Ω. You do not need to connect a terminator. Use a cable with a characteristic impedance of 75 Ω for the connection.

Do not apply a voltage exceeding ±2 V (DC + peak AC) to the SDI signal input connector. If you do, the instrument may malfunction.

2 OUTPUT SDI A/B (SDI Signal Output A/B Connectors)

Reclocked outputs of SDI signals. The SDI signals applied to the INPUT SDI A and INPUT SDI B can be switched and output. Connect the output to an external instrument such as a picture monitor supporting SDI input. 75-Ω termination is required at the receiving end.

* It cannot be switched and output in LV 58SER01, and it becomes the reclock output of INPUT SDI A.

3 INPUT SDI B (SDI Signal Input B Connector)

Input B connector for SDI signal. It corresponds to link B during dual link. Each input connector is internally terminated at 75 Ω. You do not need to connect a terminator. Use a cable with a characteristic impedance of 75 Ω for the connection.

Do not apply a voltage exceeding ±2 V (DC + peak AC) to the SDI signal input connector. If you do, the instrument may malfunction.

Page 21

3. NAMES AND FUNCTIONS OF PARTS

4 OUTPUT SDI B (SDI Signal Output B Connector)

Reclocked output of SDI signal applied to the INPUT SDI B. Connect the output to an external instrument such as a picture monitor supporting SDI input. 75-Ω termination is required at the receiving end.

Page 22

4. MENU STRUCTURE

4.1 Waveform Display Menu

4. MENU STRUCTURE

WFM

INTEN /

SCALE

GAIN/

SWEEP

LINE

SELECT

CURSOR

WFM

INTEN

WFM

COLOR

WFM

COLOR

SCALE

INTEN

SCALE

UNIT

SCALE

UNIT

SCALE

UNIT

75%COLOR

SCALE

COLOR

GAIN

VARIABLE

GAIN

MAG

SWEEP

MAG

SWEEP

MAG

SWEEP

MAG

SWEEP

MAG

SWEEP

MAG

H_SWEEP

V_SWEEP

FIELD

LINE

SELECT

FIELD

CURSOR

( -128 - 0 - 127 )

( WHITE / GREEN )

( WHITE / GREEN / MULTI )

( -8 - 4 - 7 )

( HDV,SD% / HDV,SDV / HD%,SD% / 1023 / 3FF )

( HDV,SD% / HDV,SDV / HD%,SD% / 150% / 1023 / 3FF )

( HDV,SD% / HDV,SDV / HD%,SD% )

( ON / OFF )

( WHITE / YELLOW / CYAN / GREEN / MAGENTA / RED / BLUE )

( CAL / VARIABLE )

( X1 / X5 )

( H / V )

( X1 / X10 / X20 / ACTIVE / BLANK )

( X1 / X10 / X20 / BLANK )

( X1 / ACTIVE )

( X1 )

( X1 / X20 / X40 )

( 1H / 2H )

( 1V / 2V )

( FIELD1 / FIELD2 )

( ON / OFF )

( FIELD1 / FIELD2 / FRAME )

( ON / OFF )

XY SEL

Y UNIT

X UNIT

FD VAR

REF SET

( X / Y )

( mV / % / R% / DEC / HEX )

( % )

( sec / Hz )

( REF / DELTA / TRACK )

Page 23

ARRANGE

4. MENU STRUCTURE

FILTER

BLANKING

( FLAT / LOW PASS )

( FLAT / FLAT+LUM / LUM+CHROMA )

( REMOVE / H VIEW / V VIEW / ALL VIEW )

( REMOVE / V VIEW )

COLOR

F6 F1

SYSTEM

PERSISTENCE

SPECIAL

FORM

SPECIAL

FORM

COLOR MATRIX

COLOR

MATRIX

YGBR

YRGB

COMPOSITE

FORMAT

SETUP

PERSISTENCE

PERSIST

CLEAR

( NORMAL / TIMING )

( NORMAL / TIMING / 4Y PARADE )

( YCbCr / GBR / RGB / COMPOSITE )

( GBR / RGB / COMPOSITE )

( ON / OFF )

( AUTO / NTSC / PAL )

( 0% / 7.5% )

( ON / OFF / INFINIT )

*1 Displayed if 2- or 4- screen multi display is enabled. *2 Displayed if 1-screen display is enabled. *3 Displayed if COLOR MATRIX is set to YCbCr . *4 Displayed if COLOR MATRIX is set to GBR or RGB. *5 Displayed if COLOR MATRIX is set to COMPOSITE. *6 Displayed if COLOR MATRIX is set to YCbCr, GBR, or RGB and H_SWEEP is set to 1H. *7 Displayed if COLOR MATRIX is set to YCbCr, GBR, or RGB and H_SWEEP is set to 2H. *8 Displayed if COLOR MATRIX is set to COMPOSITE and H_SWEEP is set to 1H. *9 Displayed if COLOR MATRIX is set to COMPOSITE and H_SWEEP is set to 2H. *10 Displayed if SWEEP is set to V. *11 Displayed if SWEEP is set to H and the OVLAY key is ON. *12 Displayed if SWEEP is set to V, the OVLAY key is ON, and the input signal is interlace or segmented

frame. *13 Displayed if V_SWEEP is set to 1V and the input signal is interlace or segmented frame. *14 Displayed if SWEEP is set to H. *15 Displayed if the input signal is interlace or segmented frame. *16 Displayed if XY SEL is set to Y and COLOR MATRIX is set to YCbCr, GBR, or RGB. *17 Displayed if XY SEL is set to Y and COLOR MATRIX is set to COMPOSITE. *18 Displayed if XY SEL is set to X. *19 Displayed if Y UNIT is set to R%. *20 Displayed if COLOR MATRIX is set to YCbCr, GBR, or RGB. *21 Displayed if the link format is single link or the color system is set to YCbCr (4:2:2) in dual link format. *22 Displayed if the link format is dual link and color system is set to GBR (4:4:4). *23 Displayed if COLOR MATRIX is set to GBR. *24 Displayed if COLOR MATRIX is set to RGB. *25 Displayed if COLOR MATRIX is set to COMPOSITE and the composite display format is NTSC.

Page 24

4.2 Vectorscope Display Menu

4. MENU STRUCTURE

VECT F1

INTEN / SCALE

MODE ( LUMA / ALIGN / MIX )

SCALE TRIANGLE

GAIN

R ( ON / OFF )

MODE ( DIAGRAM / TEMP )

LINE

SELECT

COLOR

SYSTEM

5BAR SETUP

B ( ON / OFF )

CURSOR CURSOR ( ON / OFF )

DISPLAY

( ON / OFF )

( VECTOR / 5BAR / HISTOGRAM / CIE1931 )

VECTOR

INTEN

VECTOR

COLOR

SCALE

INTEN

IQ AXIS

SCALE

COLOR

COLOR ( ON / OFF )

TEMP

SCALE

GAIN

VARIABLE

GAIN

MAG

LINE

SELECT

FIELD

COLOR

MATRIX

COMPOSITE

FORMAT

SETUP

COLOR

BAR

F1F4

SEQUENCE

SCALE

( -128 - 0 - 127 )

( WHITE / GREEN )

( -8 - 4 - 7 )

( ON / OFF )

( WHITE / YELLOW / CYAN / GREEN / MAGENTA / RED / BLUE )

( NTSC / EBU / ITU-R 709 / DCI / OFF )

( ON / OFF )

( CAL / VARIABLE )

( X1 / X5 / IQ-MAG )

( ON / OFF )

( FIELD1 / FIELD2 / FRAME )

( COMPONENT / COMPOSITE )

( AUTO / NTSC / PAL )

( 0% / 7.5% )

( 100% / 75% )

( GBR / RGB )

( % / mV )

Page 25

F6 F1

PERSISTENCE

GAMMA ( 2.2 / 2.6 )

FILTER ( LOW PASS / FLAT )

*1 Displayed if DISPLAY is set to VECTOR. *2 Displayed if DISPLAY is set to HISTOGRAM. *3 Displayed if MODE is set to DIAGRAM on the chromaticity diagram display menu. *4 Displayed if MODE is set to MIX on the histogram display menu. *5 Displayed if DISPLAY is set to CIE1931. *6 Displayed if DISPLAY is set to an option other than HISTOGRAM. *7 Displayed if the input signal is interlace or segmented frame. *8 Displayed if COLOR MATRIX is set to COMPOSITE and the composite display format is NTSC. *9 Displayed if DISPLAY is set to 5BAR.

4.3 Picture Display Menu

4. MENU STRUCTURE

PERSISTENCE ( ON / OFF / INFINIT )

PERSIST

CLEAR

PIC

F1 F1

ADJUST

1 2

MARKER

BRIGHTNESS

CONTRAST

GAIN

F4 F1

BIAS

ASPECT

MARKER

ASPECT

MARKER

ASPECT

MARKER

SAFE

ACTION

SAFE

TITLE

CENTER

SHADOW ( 0 - 100 )

( -30 - 0 - 30 )

( 0.70 - 1.00 - 1.30 )

( OFF / 4:3 / AFD )

( OFF / 4:3 )

( OFF / 16:9 / AFD )

( ON / OFF )

R GAIN

G GAIN

B GAIN

R BIAS

G BIAS

B BIAS

( 0.70 - 1.00 - 1.30 )

( -0.30 - 0.00 - 0.30 )

Page 26

4. MENU STRUCTURE

LINE

SELECT

DISPLAY

SUPER

IMPOSE

OFF

LINE

SELECT

FIELD

SIZE

HISTOGRAM

GAMUT

ERROR

GAMUT

PATTERN

AFD ASPECT

INFO

STANDARD ( OFF / CC SMPTE / CC ARIB )

FORMAT

LANGUAGE

SERVICE

DATA

CLEAR

( ON / OFF )

( FIELD1 / FIELD2 / FRAME )

( FIT / REAL / FULL_FRM )

( FIT / FULL_FRM )

( ON / OFF )

( WHITE / RED / MESH )

( ON / OFF )

( 608(708) / 608(608) / VBI / 708 )

( HD / SD / ANALOG / CELLULAR )

( CC1 / CC2 / CC3 / CC4 / TEXT1 / TEXT2 / TEXT3 / TEXT4 )

( 1 / 2 )

( 1 - 63 )

*1 Displayed if SIZE is set to FIT. *2 Displayed if the input signal is HD and the link format is single. *3 Displayed if the input signal is HD and the link format is dual. *4 Displayed if the input signal is SD. *5 Displayed if ASPECT MARKER is set to an option other than AFD. *6 Displayed if ASPECT MARKER is set to AFD. *7 Displayed if the input signal is interlace or segmented frame. *8 Displayed if the conditions in *9 are not met. *9 Displayed if the following conditions are satisfied.

• Link format is dual link. • Color system is set to YCbCr (4:2:2).

• Pixel depth is set to 10 bit. • Scanning is set to 1080p.

*10 Displayed if either Gamut Error or Composite Gamut Error is set to ON in the ERROR SETUP3 page

in the system settings. *11 Displayed if Link Format is set to Single Link. *12 Displayed if STANDARD is CC SMPTE. *13 Displayed if STANDARD is CC ARIB. *14 Displayed if STANDARD is CC SMPTE and FORMAT is 608(708), 608(608), or VBI. *15 Displayed if STANDARD is CC SMPTE and FORMAT is 708. *16 Displayed if 1-screen display is enabled.

Page 27

4.4 Status Display Menu

4. MENU STRUCTURE

STATUS

EVENT LOG

SDI ANALYSIS

LOG

CLEAR

LOG MODE

USB

MEMORY

DATA

DUMP

( START / STOP )

( OVER WR / STOP )

F1 F 1

F2 F 1

F4 F 1

NAME INPUT

STORE

FILE DELETE

FILENAME AUTO INC

up menu

MODE

DISPLAY

JUMP

F.D 1CLICK

F.D FUNCTION

USB MEMORY

up menu

CLEAR ALL

DELETE

INSERT

CHAR

SET up

( ON / OFF )

( RUN / HOLD )

( RUN / HOLD / F RM CAP )

( SERIAL / COMPO / BINARY )

( LINK A / LINK B / LINKA/B )

( EAV / SAV )

( 1 / 10 / 50 )

( LINE / SAMPLE )

menu OVER WR

YES OVER WR

NO DELETE

YES DELETE

NAME

INPUT

STORE

FILE

F4 F1

DELETE

FILENAME

AUTO INC

up menu

( ON / OFF )

CLEAR

ALL

DELETE

INSERT

CHAR

SET

OVER WR YES

OVER WR NO

DELETE YES

DELETE NO

Page 28

4. MENU STRUCTURE

EXT_REF

PHASE

F3 F1

PHASE

ANC DATA

F4 F1 F2

VIEWER

ANC

F5 F1

PACKET

ANC DUMP

PAGE

DOWN

EDH

FORMAT

CONTROL

F3 F1

PACKET

V-ANC

ARIB

SDI

NUMBER

SDI

MEMORY

CLEAR

REFERENCE

SELECT

USER REF

SET

REF

DEFAULT

SCALE MAX

HOLD TIME

DUMP

MODE

DISPLAY ( TEXT / DUMP )

DUMP

MODE

STANDARD

LINK

SELECT

DISPLAY

DUMP

MODE

GROUP

CLOSED

CAPTION

NET-Q

( 1 / 2 / 3 / 4 / 5 / 6 / 7 / 8 )

( EXT / LINK A )

( 50ms / 100ms / 5 00ms / 1.0 s / 2.5 s )

( HOLD / 1s / 3s )

( HEX / BINARY )

( SMPTE / ARIB )

( LINK A / LINK B )

( TEXT / DUMP )

( HEX / BINARY )

( 1 / 2 / 3 / 4 )

DISPLAY

TYPE

DUMP

MODE

DISPLAY

DUMP

MODE

Q LOG

CLEAR

BIT MASK

( TEXT / DUMP )

( HD / SD / ANALO G / CELLULAR )

( HEX / BINARY )

( TEXT / DUMP / Q LOG )

( HEX / BINARY )

COMPLETE

ALL ON

ALL OFF

CANCEL

Page 29

4. MENU STRUCTURE

V-ANC

F5 F1

SMPTE

CUSTOM

COUNTER ( SEC / FIELD / %FIELD )

ERROR

CLEAR

DATA

TRIGGER

USER

DATA1

USER

DATA2

EIA-708

F2 F1

EIA-608

PROGRAM

VBI

AFD

DID

SDID

SET

DUMP

MODE

( 00 - FF )

( -- / 00 - FF )

( HEX / BINARY )

DUMP

MODE

DUMP

MODE

DUMP

MODE

DISPLAY

DUMP

MODE

DISPLAY

DUMP

MODE

DISPLAY

DUMP

MODE

( TEXT / DUMP )DISPLAY

( HEX / BINARY )

( TEXT / DUMP )

( HEX / BINARY )

( TEXT / DUMP )

( HEX / BINARY )

( TEXT / DUMP )

( HEX / BINARY )

*1 Displayed if a USB memory device is connected to the USB connector. *2 Displayed if a file with the same name exists in the USB memory. *3 Displayed if the capture mode is set to video frame and the capture frame is being performed. *4 Displayed if the link format is single. *5 Displayed if the link format is dual. *6 Displayed if MODE is RUN or FRM CAP. *7 Displayed if REFERENCE SELECT is EXT. *8 Displayed if the input signal is SD. *9 Displayed if DISPLAY in the same menu level is set to DUMP. *10 Displayed if DISPLAY in the same menu level is set to TEXT or Q LOG.

Page 30

5. SYSTEM SETUP OF THE UNIT

The system setup is used to set the basic format, error detection, and the like of this unit. If multiple units are installed in the instrument, you must set each unit separately. The system setup applies to both channels A and B of each unit. You cannot set each channel separately. The setup is carried out at the unit level.

● Key Operation to Display the Setup Screen

Page 31

5. SYSTEM SETUP OF THE UNIT

● Setup Items

The setup items of each page are illustrated below.

Page 32

5.1 GENERAL SETUP

GENERAL SETUP page is used to select single link (1920x1080) or dual link (1920x1080) or dual link (2048x1080:2k), and to set video signal format, time code format, and OUTPUT SDI A/B connectors (LV 58SER01 is not supported).

● Key Operation to Display the Setup Screen

• SYS → F•1 UNIT SETUP → F•1 to F•4 (SETUP for the unit number in which this unit is

installed)

• F•3 NEXT from the ERROR SETUP5 page

• F•2 PREV from the ERROR SETUP1 page

Single Link

5. SYSTEM SETUP OF THE UNIT

Dual Link (1920x1080)

Page 33

5. SYSTEM SETUP OF THE UNIT

Dual Link (2048x1080)

● Setting the Items

Use the function dial (F•D) at the lower right of the front panel and place checks in the relevant setup items.

Checking the Setup Items

1. Turn the function dial (F•D) to move the cursor ( ).

2. Press the function dial (F•D) at the relevant item.

A red check appears in the box of the selected item, and the check placed on the previously selected item clears.

Applying the Settings

3. Press F•1 COMPLETE.

The settings are applied. Then, the screen returns to the unit selection menu. The settings are applied only if you carry out this step. If you do not want to apply the settings, press F•7 CANCEL. The screen returns to the unit selection menu without applying the settings.

Applying the Setup Items at Once

You can also specify settings on multiple pages and apply all the settings at once. To do so, press F•3 NEXT or F•2 PREV to move between pages and continue specifying the settings. When you are done specifying all the settings, press F•1 COMPLETE .

* Press F•7 CANCEL to not apply any of the specified settings.

Page 34

● Description of Setup Items

• Link Format

Selects out of single link, dual link (1920x1080), or dual link (2048x1080: 2k). If you select dual link, only the frame rate is automatically detected. You must manually select the color system, quantization, and scan mode. In addition, the dual link function operates only if signals are applied to both link A and B.

Single: Operate in single link mode . Dual: Operate in dual link mode (1920x1080). 2k: Operate in dual link mode (2048x1080).

• Manual Select

When format is Single link, you set whether to detect automatically the frame rate and the scan mode. If the input signal format is different from the setup format when Manual has been selected, an error message "UNKNOWN" is displayed at the upper right of the screen.

Auto: The frame rate and the scan mode are detected automatically. Manual: The frame rate and the scan mode are set up manually.

5. SYSTEM SETUP OF THE UNIT

When Manual is selected, "MANUAL FORMAT" tab is displayed newly at the right side of the "GENERAL SETUP" tab. To display the MANUAL FORMAT screen, press F•3 NEXT on the GENERAL SETUP screen.

In the MANUAL FORMAT screen, the scan mode is displayed at the left side and the frame rate is displayed at the right side. To set up the format, select the scan mode first. Since the frame rate corresponding to the selected scan mode is displayed, next select the frame rate.

Refer to the "Supported Formats and Standards of Single Link System Video Signals" of "2.3.1, Input Signal" for the format which can be set up.

Page 35

5. SYSTEM SETUP OF THE UNIT

• Single Link Format

i/PsF Select

Select the display format of the video. This item appears in single link mode and Manual Select is Auto.

Interlace: Displayed in the interlace format. Segmented Frame: Displayed in the segmented frame format.

Time Code

Select which clock to use to display the current time and the timestamps of the event log and Q signal log. This setting (excluding D-VITC) applies to both single link and dual link operations.

Real Time: Display the time using the internal realtime clock. LTC: Display the time using the LTC time code embedded in the

SDI signal.

VITC: Display the time using the VITC time code embedded in

the SDI signal.

D-VITC: Display the time using the D-VITC time code embedded in

the SD-SDI signal.

SDI Select Output

Select the operation of the OUTPUT SDI A/B output terminal from below. This item appears in single link mode. This setting is not available on the LV 58SER01.

Ach/Bch: Switch the reclocked output according to the input channel

of the active window.

Ach: Reclock and output the Ach input signal regardless of the

selected channel.

Page 36

5. SYSTEM SETUP OF THE UNIT

• Dual Link Format

Color System

Select the color system from below. This item appears in dual link mode.

GBR(4:4:4): Select the GBR 4:4:4 input signal. YCbCr(4:2:2): Select the YCBCR4:2:2 input signal. (This is not selectable when the

link format is 2k.)

Pixel Depth

Select the number of quantization bits per pixel. This item appears in dual link mode.

10bit: Select the input signal of 10-bit quantization. (This is not selectable

when the link format is 2k.)

12bit: Select the input signal of 12-bit quantization.

Scanning

Select the scan mode from below. This item appears in dual link mode.

1080i: Select the interlace input signal. (This is not selectable when the link

format is 2k.) 1080PsF: Select the segment-frame input signal. 1080p: Select the progressive input signal.

Time Code

Select which clock to use to display the current time and the timestamps of the event log and Q signal log. This setting applies to both single link and dual link operations.

Real Time: Display the time using the internal realtime clock. LTC: Display the time using the LTC time code embedded in the SDI

signal link A. VITC: Display the time using the VITC time code embedded in the SDI

signal link A.

* If you select a pixel depth or scanning setting that is not supported by the specified color system, the

“ILLEGAL FORMAT” message will appear.

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5.2 ERROR SETUP1

The ERROR SETUP1 page is used to set the TRS, line number, CRC/EDH, illegal code, and cable error.

● Key Operation to Display the Setup Screen

• SYS → F•1 UNIT SETUP → F•1 to F•4 (SETUP for the unit number in which this unit is installed) → press F•3 NEXT once or F•2 PREV five times from the GENERAL SETUP

page

• F•3 NEXT from the GENERAL SETUP page

• F•2 PREV from the ERROR SETUP2 page

5. SYSTEM SETUP OF THE UNIT

● Setting the Items

Some setup items require a check to be placed while others require a value to be entered. In either case, the function dial (F•D) at the lower right of the front panel is used to specify the settings.

[See Also] Setting items that require a check to be placed, Applying the Setup Items at Once

→ Section 5.1, “GENERAL SETUP”

Entering Values

1. Turn the function dial (F•D) to move the cursor ( ).

The input box turns purple.

2. Press the function dial (F•D).

The input box turns yellow-green.

3. Turn the function dial (F•D) to select the desired value.

4. Press the function dial (F•D).

The specified value appears in the input box.

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Applying the Settings

5. Press F•1 COMPLETE.

● Description of Setup Items

• TRS Error

Controls the detection of TRS POS errors and TRS Code errors. ON: Detect, OFF: Not detect

[See Also] Description of TRS POS errors → “• TRS Pos: TRS POS Error Detection” in section

9.1.2

Description of TRS Code errors → “• TRS Code: TRS Code Error Detection” in section

9.1.2

• Line Number Error (HD)

Controls the detection of line number errors. ON: Detect, OFF: Not detect

5. SYSTEM SETUP OF THE UNIT

[See Also] Description of line number errors → “• Line Number: Line Number Error Detection” in

section 9.1.2

• CRC Error (HD)

Controls the detection of CRC errors. ON: Detect, OFF: Not detect

[See Also] Description of CRC error → “• CRC Ych, CRC Cch: CRC Error Detection” in section

9.1.2

• EDH Error (SD)

Controls the detection of EDH errors. ON: Detect, OFF: Not detect

[See Also] Description of EDH error → “• EDH: EDH Error Detection” in section 9.1.2

• Illegal Code Error

Controls the detection of illegal code errors. ON: Detect, OFF: Not detect

[See Also] Description of illegal code errors → “• Illegal code: Illegal Code Error Detection” in

section 9.1.2

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5. SYSTEM SETUP OF THE UNIT

• Cable Error

Controls the detection of cable errors. ON: Detect, OFF: Not detect If the signal attenuation calculated by the equivalent cable length measurement exceeds the warning level specified in this setting, the cable length in the status display is shown in yellow. If the signal attenuation exceeds the error level, the cable length is shown in red.

[See Also] Description of the equivalent cable length measurement → “• Cable Length: Equivalent

Cable Length Meter” in section 9.1.2

You can set the following items only if the cable error setting above is ON.

HD Cable: Select the cable type for HD-SDI signal input. HD Cable Error: Set the error cable length of the equivalent cable length

measurement for HD-SDI signal input. Selectable range: 5 to 200 m in 5 m steps

HD Cable Warning: Set the warning cable length of the equivalent cable

length measurement for HD-SDI signal input.

Selectable range: 5 to 200 m in 5 m steps SD Cable: Select the cable type for SD-SDI signal input. SD Cable Error: Set the error cable length of the equivalent cable length

measurement for SD-SDI signal input.

Selectable range: 50 to 300 m in 5 m steps SD Cable Warning: Set the warning cable length of the equivalent cable

length measurement for SD-SDI signal input.

Selectable range: 50 to 300 m in 5 m steps

Page 40

5.3 ERROR SETUP2

The ERROR SETUP2 page is used to set the parity and checksum errors of the ancillary data as well as the errors concerning BCH, DBN, parity, and embedded prohibition line.

● Key Operation to Display the Setup Screen

• SYS → F•1 UNIT SETUP → F•1 to F•4 (SETUP for the unit number in which this unit is installed) → press F•3 NEXT twice or F•2 PREV four times from the GENERAL SETUP

page.

• F•3 NEXT from the ERROR SETUP1 page

• F•2 PREV from the ERROR SETUP3 page

5. SYSTEM SETUP OF THE UNIT

● Setting the Items

Use the function dial (F•D) at the lower right of the front panel and place checks in the relevant setup items.

[See Also] Setup procedure details → Section 5.1, “GENERAL SETUP”

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5. SYSTEM SETUP OF THE UNIT

● Description of Setup Items

• Parity Error (Ancillary Data Error Setup)

Controls the detection of parity errors in the ancillary data header section. ON: Detect, OFF: Not detect

[See Also] Description of parity errors → “• (ANC) Parity: Ancillary Parity Bit Error Detection” in

section 9.1.2

• Checksum Error

Controls the detection of checksum errors. ON: Detect, OFF: Not detect

[See Also] Description of checksum errors → “• Checksum: Checksum Error Detection” in section

9.1.2

• BCH Error

Controls the detection of BCH errors. ON: Detect, OFF: Not detect

[See Also] Description of BCH errors → “• BCH: BCH Error Detection” in section 9.1.2

• DBN Error

Controls the detection of DBN errors. ON: Detect, OFF: Not detect

[See Also] Description of DBN errors → “• DBN: Audio DBN Error Detection” in section 9.1.2

• Parity Error (Embedded Audio Error Setup)

Controls the detection of parity errors in embedded audio packets. ON: Detect, OFF: Not detect

[See Also] Description of parity errors → “• (Audio) Parity: Audio Parity Error Detection” in section

9.1.2

• Inhibit Line Error

Controls the detection of inhibit line errors. ON: Detect, OFF: Not detect

[See Also] Description of inhibit line errors → “• Inhibit: Detection of Embedding to the Audio

Embedded Prohibition Line” in section 9.1.2

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5.4 ERROR SETUP3

The ERROR SETUP3 page is used to set gamut errors and composite gamut errors.

● Key Operation to Display the Setup Screen

• SYS → F•1 UNIT SETUP → F•1 to F•4 (SETUP for the unit number in which this unit is installed) → press F•3 NEXT three times or F•2 PREV three times from the GENERAL

SETUP page.

• F•3 NEXT from the ERROR SETUP2 page

• F•2 PREV from the ERROR SETUP4 page

5. SYSTEM SETUP OF THE UNIT

● Setting the Items

[See Also] Setup procedure details → Section 5.2, “ERROR SETUP1”

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● Description of Setup Items

• LowPass Frequency

A low-pass filter is applied to the video data before detecting gamut errors and composite gamut errors. Select the characteristics of the filter from below.

HD/SD:1MHz: Apply a 1-MHz low-pass filter to the HD-SDI and SD-SDI

HD:2.8MHz SD:1MHz: Apply a 1-MHz low-pass filter to SD-SDI input signals

OFF: Do not apply any filter processing to the input signal.

• Gamut Error

5. SYSTEM SETUP OF THE UNIT

input signals. The filter complies with EBU R103-2000 in the case of SD-SDI input signals.

and 2.8-MHz low-pass filter to HD-SDI input signals. The filter complies with EBU R103-2000 in the case of SD-SDI input signals. The filter has the characteristics defined by IEEE STD 205 in the case of HD-SDI input signals.

Controls the detection of gamut errors. ON: Detect, OFF: Not detect

[See Also] Description of gamut errors → “• Gamut: Gamut Error Detection” in section 9.1.2

Gamut Upper: The upper limit of the gamut error level (selectable range: 90.8 to

109.4 %, 636 to 766 mV) An error occurs if the level exceeds the upper limit.

Gamut Lower: The lower limit of the gamut error level (selectable range: -7.2 to

6.1 %, -50 to 43 mV) An error occurs if the level falls below the lower limit.

You can set the following items only if the gamut error is ON.

Area: Set the percentage threshold of errors in the active picture area

used to trigger an error (selectable range 0.0 to 5.0%)

Duration: Set threshold of the number of consecutive video frames

containing errors used to trigger an error (selectable range: 1 to 60 frames)

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5. SYSTEM SETUP OF THE UNIT

• Composite Gamut Error

Controls the detection of composite gamut errors. ON: Detect, OFF: Not detect

[See Also] Description of composite gamut errors → “• Comp Gamut: Composite Gamut Error

Detection” in section 9.1.2

Setup: Select whether to include Y setup when converting the

composite signal. 0%: No setup, 7.5%: Include 7.5 % setup

Composite Upper: The upper limit of the composite gamut error level

(selectable range: 90.0 to 135.0 %, 643 to 964 mV for NTSC and 630 to 945 mV for PAL) An error occurs if the level exceeds the upper limit.

Composite Lower: The lower limit of the composite gamut error level

(selectable range: -40.0 to 20.0 %, -286 to 143 mV for NTSC and -280 to 140 mV for PAL) An error occurs if the level falls below the lower limit.

You can set the following items only if the composite gamut error is ON.

Area: Set the percentage threshold of errors in the active

picture area for activating the error (selectable range 0.0 to 5.0%)

Duration: Set threshold of the number of consecutive video frames

containing errors used to trigger an error (selectable range: 1 to 60 frames)

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5.5 ERROR SETUP4

The ERROR SETUP4 page is used to set freeze errors and black errors. This setup does not support a dual link. A setup is not displayed when the setup of a link format is a dual link.

[See Also] Setup of a link format → Section 5.1, "GENERAL SETUP"

● Key Operation to Display the Setup Screen

• SYS → F•1 UNIT SETUP → F•1 to F•4 (SETUP for the unit number in which this unit is installed) → press F•3 NEXT four times or F•2 PREV twice from the GENERAL SETUP

page.

• F•3 NEXT from the ERROR SETUP3 page

• F•2 PREV from the ERROR SETUP5 page

5. SYSTEM SETUP OF THE UNIT

● Setting the Items

[See Also] Setup procedure details → Section 5.2, “ERROR SETUP1”

● Description of Setup Items

• Freeze Error

Controls the detection of freeze errors. ON: Detect, OFF: Not detect

[See Also] Description of freeze errors → “• Freeze: Freeze Error Detection” in section 9.1.2

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5. SYSTEM SETUP OF THE UNIT

You can set the following items only if the freeze error is ON.

Area Upper: Set the percentage of the upper active picture area to be excluded

from the error detection (selectable range 0 to 100 %)

Area Lower: Set the percentage of the lower active picture area to be excluded

from the error detection (selectable range 0 to 100 %)

Area Left: Set the percentage of the left active picture area to be excluded

from the error detection (selectable range 0 to 100 %)

Area Right: Set the percentage of the right active picture area to be excluded

rom the error detection (selectable range 0 to 100 %)

Duration: Set threshold of the number of consecutive video frames

containing errors used to trigger an error (selectable range: 2 to 300 frames)

• Black Error

Controls the detection of black errors. ON: Detect, OFF: Not detect

[See Also] Description of black errors → “• Black: Black Error Detection” in section 9.1.2

You can set the following items only if the black error is ON.

Level: Set the black level of the Y video data (selectable range: 0 to

100 %) Dots whose level is lower than the specified level are considered error dots.

Area: Set the percentage threshold of errors in the active picture area

for activating the error (selectable range 1 to 100%)

Duration: Set threshold of the number of consecutive video frames

containing errors used to trigger an error (selectable range: 1 to 300 frames)

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5.6 ERROR SETUP5

The ERROR SETUP5 page is used to set level errors. This setup does not support a dual link. A setup is not displayed when the setup of a link format is a dual link.

[See Also] Setup of a link format → Section 5.1, "GENERAL SETUP"

● Key Operation to Display the Setup Screen

• SYS → F•1 UNIT SETUP → F•1 to F•4 (SETUP for the unit number in which this unit is installed) → press F•3 NEXT five times or F•2 PREV once from the GENERAL SETUP

page.

• F•3 NEXT from the ERROR SETUP4 page

• F•2 PREV from the GENERAL SETUP page

5. SYSTEM SETUP OF THE UNIT

● Setting the Items

[See Also] Setup procedure details → Section 5.2, “ERROR SETUP1”

Page 48

● Description of Setup Items

• Level Error

Controls the detection of level errors. ON: Detect, OFF: Not detect

[See Also] Description of level errors → “• Level Ych, Level Cch: Level Error Detection” in section

9.1.2

You can set the following items only if the level error is ON.

Luminance Upper: Set the upper limit of the luminance data of the active

Luminance Lower: Set the lower limit of the luminance data of the active

Chroma Upper: Set the upper limit of the chroma data of the active

Chroma Lower: Set the lower limit of the chroma data of the active

5. SYSTEM SETUP OF THE UNIT

picture area in mV. An error occurs if the level exceeds this value (selectable range: -51 to 766 mV in 1 mV steps).

picture area in mV. An error occurs if the level falls below this value (selectable range: -51 to 766 mV in 1 mV steps).

picture area in mV. An error occurs if the level exceeds this value (selectable range: -400 to 399 mV).

picture area in mV. An error occurs if the level falls below this value (selectable range: -400 to 399 mV).

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6. VIDEO SIGNAL WAVEFORM DISPLAY

Press the WFM (video signal waveform display) key on the front panel to display the video signal waveform, scale, waveform display menu, and the like.

6.1 Setting the Waveform Display Position

Use the V POS (vertical position adjustment) control and H POS (horizontal position adjustment) control on the front panel to adjust the position of the video signal waveform display in the selected display area.

● V POS Control

Adjusts the vertical display position of the video signal waveform. Press the control to reset the vertical display position of the video signal waveform to the reference position.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

● H POS Control

Adjusts the horizontal display position of the video signal waveform. Press the control to reset the horizontal display position of the video signal waveform to the reference position.

6.2 Setting the Waveform Display Mode

You can switch between overlay display (mode in which waveforms are overlaid) or parade display (mode in which waveforms are displayed side by side) for the waveforms shown in the selected display area. Press the OVLAY (overlay display) key on the front panel to make the switch. Waveforms are displayed overlaid if the OVLAY key is illuminated; waveforms are displayed in parade mode if not.

● Overlay Display

If overlay display is enabled, the waveforms that are turned ON in section 6.3, “Setting the Waveform Display Channels” are displayed overlaid.

● Parade Display

If parade display is enabled, the waveforms that are turned ON in section 6.3, “Setting the Waveform Display Channels” are displayed side by side.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.3 Setting the Waveform Display Channels

Press the CH1 to CH3 keys to turn ON/OFF the display of the component video signal waveform assigned to each key in the selected display area. The waveform assigned to each key is displayed if the corresponding channel (CH1 to CH3) key is illuminated and not displayed if the key is OFF.

The waveform assignments to the CH1 to CH3 keys are shown in the table below according to the settings described in section 6.9.1, “Setting the Color Matrix of the Waveform Display” as shown below.

COLOR MATRIX CH1 CH2 CH3

Y, Cb, Cr Y Cb Cr

GBR G B R

RGB R G B

COMPOSITE - - -

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6.4 Intensity Adjustment

Carry out the procedure below to display the menu used to adjust the intensity of the video signal waveforms and the scale, the unit displayed on the scale, and the like.

6. VIDEO SIGNAL WAVEFORM DISPLAY

6.4.1 Adjusting the Intensity of the Video Signal Waveforms

Carry out the procedure below to adjust the intensity of the video signal waveforms. Adjustment range: -128 to 127

● Procedure

WFM → F•1 INTEN/SCALE → F•1 WFM INTEN : -128 to 0 to 127

After carrying out the procedure above, turn the function dial (F•D). Press the function dial (F•D) to return to the default value (0).

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.4.2 Selecting the Video Signal Waveform Color

Carry out the procedure below to select the video signal waveform color from one of the following:

WHITE GREEN MULTI: Assign the following YCbCr or GBR colors to the waveform display:

Y: Yellow, Cb: Cyan, Cr: Magenta, G: Green, B: Blue, R: Red Waveforms are displayed in white for the pseudo-composite, timing, and 4Y parade displays. This option is not selectable when the multi display is in use.

● Procedure

WFM → F•1 INTEN/SCALE → F•2 WFM COLOR : WHITE / GREEN / MULTI

6.4.3 Adjusting the Scale Intensity

Carry out the procedure below to adjust the intensity of the scale. Adjustment range: -8 to 7

● Procedure

WFM → F•1 INTEN/SCALE → F•3 SCALE INTEN : -8 to 4 to 7

After carrying out the procedure above, turn the function dial (F•D). Press the function dial (F•D) to return to the default value (4).

6.4.4 Setting the Scale Unit

Carry out the procedure below to change the scale unit according to the input video signal format. This setting is valid when COLOR MATRIX is not set to COMPOSITE. You can select from one of the following scale unit settings.

HDV, SD%: The scale unit is V (volts) for the HDTV format and % for the SDTV format. HDV, SDV: The scale unit is V (volts) for both the HDTV and SDTV formats. HD%, SD%: The scale unit is % for both the HDTV and SDTV formats.

When COLOR MATRIX is not set to COMPOSITE, the following settings are also available:

150%: The scale unit is %, and the display starts at -50 %.

You cannot select this option when COLOR MATRIX is set to YCbCr. 1023: 0 to 100 % is displayed as 64 to 940 (YGBR), 64 to 960 (CbCr). 3FF: 0 to 100 % is displayed as 040 to 3AC (YGBR), 040 to 3C0 (CbCr).

A white 100 % video signal falls on the scale line for 0.7 on the volt scale and on the scale line for 100 on the % scale. A black 0 % video signal falls on the scale line for zero on both the volt and % scales.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

% scale V scale

150 % scale 1023 scale

3FF scale

●Procedure

• When COLOR MATRIX is set to YCbCr

WFM → F•1 INTEN/SCALE → F•4 SCALE UNIT : HDV,SD% / HDV,SDV / HD%,SD% / 1023 / 3FF

• When COLOR MATRIX is set to GBR or RGB

WFM → F•1 INTEN/SCALE → F•4 SCALE UNIT : HDV,SD% / HDV,SDV / HD%,SD% / 150% / 1023 / 3FF

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.4.5 Displaying the 75 % Color Bar Scale

Carry out the procedure below to display a scale that matches the peak level of the chroma difference signal in case the 75 % color bar is displayed as a waveform. If ON is specified, the 75 % color bar scale is displayed. This menu is displayed only when the color matrix setting of the waveform display is YCbCr.

● Procedure

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

6.4.6 Selecting the Scale Color

Select the scale color from the following seven colors.

WHITE YELLOW CYAN GREEN MAGENTA RED BLUE

● Procedure

WFM → F•1 INTEN/SCALE → F•6 SCALE COLOR : WHITE / YELLOW / CYAN / GREEN / MAGENTA / RED / BLUE

Page 56

6.5 Adjusting the Gain

Carry out the procedure below to display the menu used to set the vertical/horizontal magnification of the video signal waveforms.

6. VIDEO SIGNAL WAVEFORM DISPLAY

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.5.1 Changing the Vertical Magnification of the Video Signal Waveforms

Carry out the procedure below to change the vertical magnification of the video signal waveforms. Magnification is decided by combination of F•1 GAIN VARIABLE and F•2 GAIN MAG.

● GAIN VARIABLE

CAL: x1 VARIABLE: x0.200 to ×2.000

Turn the function dial to change the vertical magnification. Press the

function dial to reset the vertical magnification to the default value (x1.00).

● GAIN MAG

x1: x1 x5: x5

The table below shows the variable range of the vertical magnification of the waveform by combination of F•1 GAIN VARIABLE and F•2 GAIN MAG.

CAL VARIABLE

×1 ×1 ×0.200 to ×2.000

×5 ×5 ×1.000 to ×10.000

● Procedure

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

• WFM → F•2 GAIN/SWEEP → F•2 GAIN MAG : ×1 / ×5

Turn the function dial (F•D) with F•1 GAIN set to VARIABLE to change the vertical magnification in the range of ×0.200 to ×10.000. Press the function dial to reset the vertical magnification to the default value (×1.000 if F•2 GAIN MAG is set to ×1 or ×5.000 if F•2 GAIN MAG is set to ×5).

6.5.2 Setting the Horizontal Sweep of the Video Signal Waveforms

Carry out the procedure below to change the horizontal sweep setting of the video signal waveforms.

● Sweep Selection

Carry out the procedure below to select from the following available settings.

H: Line display V: For interlace/segmented frames — Field Display

For progressive — Frame display

● Procedure

WFM → F•2 GAIN/SWEEP → F•3 SWEEP : H / V

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6. VIDEO SIGNAL WAVEFORM DISPLAY

● H Sweep Selection

If you set the sweep to H (line display) and the display mode is overlay, carry out the procedure below to select the display method.

1H: 1 line display 2H: 2 line display

If the display mode is parade, the display method is fixed to 1H. In this case, this menu does not appear.

● Procedure

If F•3 SWEEP is H and the waveform display mode is set to overlay

WFM → F•2 GAIN/SWEEP → F•5 H_SWEEP:1H / 2H

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6. VIDEO SIGNAL WAVEFORM DISPLAY

● V Sweep Selection

If you set the sweep to V (field/frame display) and the display mode is overlay, carry out the procedure below to select the display method. However, if the input signal is progressive, the display method is fixed to 1V, and this menu does not appear.

1V: 1 frame display (if the input signal is progressive)

1 field display (if the input signal is interlace or segmented frame)

2V: 1 frame display

If the display mode is parade, the display method is fixed to 1V. In this case, this menu does not appear.

● Procedure

If F•3 SWEEP is V, the input signal is interlace or segmented frame, and the waveform display mode is set to overlay

WFM → F•2 GAIN/SWEEP → F•5 V_SWEEP : 1V / 2V

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.5.3 Changing the Horizontal Magnification of the Video Signal Waveforms

You can change the horizontal sweep magnification of the video signal waveforms.

● If F•3 SWEEP is H

Carry out the procedure below to select the magnification from the following:

×1: Display the waveform so that the video signal waveform fits on the

screen

×10 / ×20: Magnify the video signal waveform with respect to the ×1 sweep

length. The waveform is magnified around the magnification reference line on the 0-V scale line. This menu does not appear if the color matrix of the waveform display is set to COMPOSITE.

ACTIVE: Magnify the waveform other than the H blanking period of the

input video signal. This item does not appear if H sweep is set to 2H.

BLANK: Magnify the waveform in the H blanking period of the input video

signal.This item does not appear if the color matrix of the waveform display is set to COMPOSITE.

● Procedure

If F•3 SWEEP is H

WFM → F•2 GAIN/SWEEP → F•4 SWEEP MAG : ×1 / ×10 / ×20 / ACTIVE / BLANK

● If F•3 SWEEP is V

Carry out the procedure below to select the magnification from the following:

×1: Display the waveform so that the video signal waveform fits on the

screen

×20 / ×40: Magnify the video signal waveform with respect to the ×1 sweep

length. The waveform is magnified around the magnification reference line on the 0-V scale line.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

● Procedure

If F•3 SWEEP is V

WFM → F•2 GAIN/SWEEP → F•4 SWEEP MAG : ×1 / ×20 / ×40

6.5.4 Selecting the Displayed Field for V Display

Carry out the procedure below to select the field for V display (field/frame display).

FIELD1: Display the video signal waveform of field 1. FIELD2: Display the video signal waveform of field 2.

This menu appears if the input signal is set to interlace or segmented frame and V_SWEEP is 1V.

● Procedure

If F•3 SWEEP is V, F•5 V_SWEEP is 1V, and the input video format is not progressive

WFM → F•2 GAIN/SWEEP → F•6 FIELD : FIELD1 / FIELD2

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6.6 Line Select

Carry out the procedure below to display the menu used to select a line. This menu does not appear during V display.

6. VIDEO SIGNAL WAVEFORM DISPLAY

6.6.1 Line Select

Carry out the procedure below to select the line number of the video signal waveform during the line display. In internal synchronization mode, the line number of the input video signal is used as a reference. In external synchronization mode, the line number of the external sync signal is used as a reference. The displayed line may be off if the line select function is used in external synchronization mode depending on the phase of the external sync signal.

● Procedure

WFM → F•3 LINE SELECT → F•1 LINE SELECT : OFF / ON

Select the line number by selecting ON and turning the function dial (F•D).

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.6.2 Field Selection of Line Select

Carry out the procedure below to select the line selection range from the following list. This menu does not appear if the input signal is progressive.

FIELD1: Limit the line select range to FIELD1 of the reference signal. FIELD2: Limit the line select range to FIELD2 of the reference signal. FRAME: Place no limits to the line select range.

● Procedure

If the input video format is not progressive

WFM → F•3 LINE SELECT → F•2 FIELD : FIELD1 / FIELD2 / FRAME

6.7 Cursor Measurement

Carry out the procedure below to display the setup menu for the cursors used in the voltage and time measurements.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.7.1 Displaying the Cursors

Select ON according to the procedure below to display the cursors. The REF and DELTA cursors are displayed in blue and green, respectively. Select OFF to clear the cursors.

● Procedure

WFM → F•4 CURSOR → F•1 CURSOR : ON / OFF

6.7.2 Selecting X-Axis or Y-Axis Cursor

Carry out the procedure to set the measurement axis to X (time) or Y (amplitude). The axis is fixed to Y if the color matrix of the waveform display is set to COMPOSITE. Even if you select X, it will be invalid.

● Procedure

WFM → F•4 CURSOR → F•2 XY SEL : X / Y

6.7.3 Selecting the Cursor Measurement Unit

Carry out the procedure below to select the cursor unit from the following:

● Y-Axis Unit

mV: Displayed in terms of a voltage. %: Display using a ratio where 700 mV is taken to be 100 % during component

display.

Display using a ratio where 714 mV is taken to be 100 % during

pseudo-composite display. R%: Display using a ratio where the measured value when you press REF SET

in the reference amplitude setting is taken to be 100 %. DEC: The scale shows 0 to 100 % in decimal as 64 to 940. HEX: The scale shows 0 to 100 % in hexadecimal as 040 to 3AC.

The unit is fixed to % if the color matrix of the waveform display is set to COMPOSITE.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

● X-Axis Unit

sec: Display in terms of time Hz: Display the frequency taking the interval between the cursors to be 1

period.

The measured value between the REF and DELTA cursor is displayed at the lower right of the screen according to the specified unit.

● Procedure

• If XY SEL is set to Y and COLOR MATRIX is set to YCbCr, GBR, or RGB

WFM → F•4 CURSOR → F•3 Y UNIT : mV / % / R% / DEC / HEX

• If XY SEL is set to Y and COLOR MATRIX is set to COMPOSITE

WFM → F•4 CURSOR → F•3 Y UNIT : %

• If XY SEL is set to X

WFM → F•4 CURSOR → F•3 X UNIT : sec / Hz

6.7.4 Moving the Cursors

Carry out the procedure below to select and move the cursor.

REF: Select the REF cursor. DELTA: Select the DELTA cursor. TRACK: Select the REF and DELTA cursors simultaneously.

You can also select the cursor by pressing the function dial (F•D). Each time you press the function dial (F•D), the cursor is selected in the following order: REF, DELTA, and TRACK.

● Procedure

WFM → F•4 CURSOR → F•4 FD VAR : REF / DELTA / TRACK

A triangle is displayed at either end of the selected cursor. Turn the function dial (F•D) to move the cursor.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.7.5 Setting the Reference Amplitude

Carry out the procedure below to specify 100 % amplitude if the Y-axis cursor unit is set to R%. This menu does not appear if XY SEL is set to X or if 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 Setting the Display Style

Carry out the procedure below to display the menu used to set the filter, blanking period display, and persistence display of the waveform.

6.8.1 Setting the Filter

● If the Color Matrix of the Waveform Display Is Not Set to COMPOSITE

Carry out the procedure below to select the filter for the displayed video signal.

FLAT: Filter with flat frequency characteristics over the entire bandwidth of the

LOW PASS: Filter with the following filter characteristics.

Filter Characteristics

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

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

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

● Procedure

If COLOR MATRIX is not COMPOSITE

WFM → F•5 ARRANGE → F•1 FILTER : FLAT / LOW PASS

input signal.

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

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

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6. VIDEO SIGNAL WAVEFORM DISPLAY

● If the Color Matrix of the Waveform Display Is Set to COMPOSITE

The luminance signal of the pseudo-composite signal or the luminance and color signals of the pseudo-composite signal can be displayed by the pseudo-composite waveform. Carry out the procedure below to select the mode from the following:

FLAT: Only the pseudo-composite signal waveform display FLAT+LUM: Parade display of the pseudo-composite signal waveform and the

luminance signal. A filter that has the frequency characteristics shown below is applied to the luminance signal.

LUM+CHROMA: Parade display of the luminance and color signals of the

pseudo-composite signal. A filter that has the frequency characteristics shown below is applied to the luminance signal.

Filter Characteristics

HD: Attenuation of 20 dB or more at 20 MHz SD: Attenuation of 20 dB or more at 3.8 MHz

● Procedure

If COLOR MATRIX is COMPOSITE

WFM → F•5 ARRANGE → F•1 FILTER : FLAT / FLAT+LUM / LUM+CHROMA

FLAT FLAT+LUM

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6. VIDEO SIGNAL WAVEFORM DISPLAY

LUM+CHROMA

6.8.2 Displaying the Blanking Period

Carry out the procedure below to change the waveform display setting for the blanking period.

REMOVE: Display only the waveform in the active period of the input video signal. H VIEW: Display only the waveform in the active period and the horizontal blanking

period of the input video signal. Not displayed if the color matrix of the

waveform display is set to COMPOSITE. V VIEW: Display only the waveform in the active period and the vertical blanking

period of the input video signal. ALL VIEW: Display the entire input video signal. Not displayed if the color matrix of the

waveform display is set to COMPOSITE.

● Procedure

• If COLOR MATRIX is not COMPOSITE

WFM → F•5 ARRANGE → F•2 BLANKING : REMOVE / H VIEW / V VIEW / ALL VIEW

• If COLOR MATRIX is COMPOSITE

WFM → F•5 ARRANGE → F•2 BLANKING : REMOVE / V VIEW

6.8.3 Persistence Display of the Waveform

You can change the persistence characteristics of the displayed waveform. This feature allows the current waveform to be displayed simultaneously with past waveforms (overlaid). Carry out the procedure below to select the persistence from the following:

ON: Enable the persistence characteristics of the waveform display. OFF: Disable the persistence characteristics of the waveform display. INFINIT: Overlay the waveforms until the persistence is cleared or until the display

mode is changed.

● Procedure

WFM → F•5 ARRANGE → F•3 PERSISTENCE → F•1 PERSISTENCE : ON / OFF / INFINIT

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.8.4 Clearing the Persistence Characteristics

If the persistence display of the waveform is set to INFINIT, you can clear the waveforms that were displayed using the persistence feature to stop overlaying of the waveforms. Once you clear the waveforms, the overlay display starts again.

● Procedure

If PERSISTENCE is set to INFINIT

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

6.8.5 TIMING

Carry out the procedure below to select TIMING to measure the time and amplitude differences between channels with respect to CH1 (Y/G). A bowtie signal is used as a signal source (authorized by Tektronix, Inc.). Two timing displays are displayed side by side. The CH1 to CH3 and OVLAY key statuses are ignored.

* Bowtie signal waveform measurement

If you set the LV 5800 to TIMING display, CH1 (Y/G) and CH2 (CB/B) are displayed on the left and CH1 (Y/G) and CH3 (CR/R) are displayed on the right. The vertical lines of bowtie signals are marker signals. The long marker at the center is the reference marker (no time difference). The interval between markers represents a timing difference of 1 ns (when LEADER’s LT 443D is used). The timing difference is read from the interval between the null and the reference marker. If the null is positioned to the left of the reference marker, this indicates that CB/B or CR/R is advanced relative to Y/G. If there is an amplitude difference between channels, the depth of the null is decreased.

● Procedure

• During 2- or 4-screen multi display

WFM → F•5 ARRANGE → F•4 SPECIAL FORM : NORMAL / TIMING

• During 1-screen display

WFM → F•5 ARRANGE → F•4 SPECIAL FORM : NORMAL / TIMING / 4Y PARADE

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6.8.6 4Y PARADE

Select 4Y PARADE by carrying out the procedure below to display the luminance signals of areas 1 to 4 in order from the left on the 4-screen multi display. The four inputs of the 4Y parade must be of the same format and must be synchronized with each other.

• Valid only during 1-screen display. 4Y PARADE does not appear under SPECIAL FORM during 2- or 4-screen multi display.

• If areas 1 to 4 are set to a mode other than WFM, its corresponding section is not displayed.

• The CH1 to CH3 keys are invalid.

• The OVLAY keys are invalid.

• The frame_captured waveform is not displayed.

• Cannot switch the input channel A/B during 4Y PARADE display.

● Procedure

• During 2- or 4-screen multi display WFM → F•5 ARRANGE → F•4 SPECIAL FORM : NORMAL / TIMING

6. VIDEO SIGNAL WAVEFORM DISPLAY

• During 1-screen display WFM → F•5 ARRANGE → F•4 SPECIAL FORM : NORMAL / TIMING / 4Y PARADE

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.9 Setting the Color System of the Waveform Display

Carry out the procedure below to display the menu used to set the color system such as the color matrix of the waveform display.

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.9.1 Setting the Color Matrix of the Waveform Display

When the luminance and chroma difference are being applied to this unit, it can display the YCbCr signals through matrix conversion as GBR signals or RGB signals. Each signal is assigned to CH1 to CH3 keys and can be turned ON/OFF.

[See Also] Signal Assignments to the CH1 to CH3 keys → Section 6.3, “Setting the Waveform Display

Channels”

In addition, component signals can be displayed artificially as composite signals. Carry out the procedure below to select the display format. The selected display format is displayed at the lower right of the screen.

YCbCr: Display the waveforms using luminance and chroma difference

signals. GBR: Convert Y, CB, CRsignals into G, B, R and display the waveform RGB: Convert Y, CB, CRsignals into R, G, B and display the waveform COMPOSITE: Artificially covert the component signal into a pseudo-composite

signal such as NTSC or PAL and display the waveform.

* When the link format is a dual link and a color system is GBR (4:4:4), YCbCr cannot select.

Notes on the COMPOSITE setting

• The frequency of the color burst does not match the frequency of PAL or NTSC.

• The width and position of the color burst and synchronization signal are different from those of PAL and NTSC.

• The signal bandwidth is the bandwidth of the original signal.

• The CH1 to CH3 keys are invalid.

● Procedure

WFM → F•6 COLOR SYSTEM → F•1 COLOR MATRIX : YCbCr / GBR / RGB / COMPOSITE

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6.9.2 Y-GBR (RGB) Display

If the color matrix is set to G, B, R or R, G, B and you select ON by carrying out the procedure below, the luminance signal (Y) is displayed simultaneously with the G, B, R or R, G, B signal that is calculated through matrix conversion. Y-GBR display is activated if G, B, R is selected; Y-RGB display is activated if R, G, B is selected. If Y-GBR display or Y-RGB display is selected, the CH1 to CH3 keys are invalid.

● Procedure

• If GBR is selected

WFM → F•6 COLOR SYSTEM → F•2 YGBR : ON / OFF

• If RGB is selected

WFM → F•6 COLOR SYSTEM → F•2 YRGB : ON / OFF

6. VIDEO SIGNAL WAVEFORM DISPLAY

6.9.3 Setting the Video Signal Display Format for the Pseudo-Composite Display

Carry out the procedure below to select NTSC or PAL for the pseudo-composite display. You can also select auto.

NTSC: Artificially convert all video signal formats into NTSC composite signal.

The scale is set to % regardless of the SCALE UNIT setting.

PAL: Artificially convert all video signal formats into PAL composite signal.

The scale is set to V regardless of the SCALE UNIT setting.

AUTO: Convert to PAL composite signal for a video format with the field

frequency set to 50 Hz or the frame frequency set to 25 Hz or 50 Hz. Convert to NTSC composite signal for all other cases.

● Procedure

WFM → F•6 COLOR SYSTEM → F•4 COMPOSITE FORMAT : NTSC / PAL / AUTO

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6. VIDEO SIGNAL WAVEFORM DISPLAY

6.9.4 Setting the Setup for the Pseudo-Composite Display

Carry out the procedure below to select the setup level for the pseudo-composite display from the following. This menu does not appear if the composite display format is PAL.

0%: Not include a setup.

7.5%: Pseudo-composite waveform display with a 7.5-% setup included.

● Procedure

WFM → F•6 COLOR SYSTEM → F•5 SETUP : 0% / 7.5%

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7. VECTORSCOPE DISPLAY

7.1 Displaying Vector Waveforms

Press the VECT (vector) key on the front panel to display the vector waveform, scale, vector display menu, and the like. The vector waveform display of the component signal is achieved using X-Y display of C (horizontal) and CR(vertical) signals.

• Frame: Amplitude ±3 % of full scale (0.7 V)

• Circle: ±20 % with respect to green (HD-SDI) ±20 % with respect to red (SD-SDI)

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7.2 Adjusting the Intensity

Carry out the procedure below to display the menu used to adjust the intensity of the vector waveforms and the scale, the scale color, and turn ON/OFF the IQ axis display. If DISPLAY is set to an option other than VECTOR, the INTEN/SCALE menu does not appear.

7. VECTORSCOPE DISPLAY

7.2.1 Adjusting the Intensity of Vector Waveforms

Carry out the procedure below to adjust the intensity of vector waveforms and CIE chromaticity diagram waveforms.

● Procedure

VECT → F•1 INTEN/SCALE → F•1 VECTOR INTEN : -128 to 0 to 127

After pressing F•1 VECTOR INTEN above, turn the function dial (F•D). Press the function dial (F•D) to return to the reference value (0). Adjustment range: -128 to 127

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7. VECTORSCOPE DISPLAY

7.2.2 Selecting the Vector Waveform Color

Carry out the procedure below to select the vector color and CIE chromaticity diagram waveform color from one of the following:

WHITE GREEN

● Procedure

VECT → F•1 INTEN/SCALE → F•2 VECTOR COLOR : WHITE / GREEN

7.2.3 Adjusting the Scale Intensity

Carry out the procedure below to adjust the intensity of the scale.

● Procedure

VECT → F•1 INTEN/SCALE → F•3 SCALE INTEN :-8 to 4 to 7

After pressing F•3 SCALE INTEN above, turn the function dial (F•D). Press the function dial (F•D) to return to the reference value (4). Adjustment range: -8 to 7 (16 levels)

7.2.4 Displaying the IQ Axis

Carry out the procedure below to turn ON/OFF the IQ axis display. The IQ axis cannot be displayed for 625/50i. IQ axis for HDTV (if the full scale value, 0.7 V, is set to 100 %) is displayed using the values below.

I axis G = 44.559 % Q axis G = 37.056 %

B = 27.865 % B = 84.085 % R = 69.120 % R = 62.417 %

● Procedure

VECT → F•1 INTEN/SCALE → F•4 IQ AXIS : ON / OFF

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7.2.5 Selecting the Scale Color

Carry out the procedure below to select the scale color for the vector waveform display from the following seven colors.

WHITE YELLOW CYAN GREEN MAGENTA RED BLUE

● Procedure

VECT → F•1 INTEN/SCALE → F•5 SCALE COLOR : WHITE / YELLOW / CYAN / GREEN / MAGENTA / RED / BLUE

7.3 Adjusting the Gain

7. VECTORSCOPE DISPLAY

Carry out the procedure below to display the menu used to set the gain of the vector waveform. If DISPLAY is set to an option other than VECTOR, the GAIN menu does not appear.

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7.3.1 Varying the Gain

You can continuously vary the gain of the vector waveform. Carry out the procedure below to select from the following available settings and adjust the gain.

CAL: x1 VARIABLE: x0.200 to x2.000

● Procedure

VECT → F•2 GAIN→ F•1 GAIN VARIABLE : CAL / VARIABLE

7. VECTORSCOPE DISPLAY

Turn the function dial (F•D) to adjust the gain. The specified gain is displayed at the upper right of the screen. Press the function dial (F•D) to the reference value (x1).

7.3.2 Selecting the Gain

Carry out the procedure below to select the gain from the following:

X1: 1 time X5: 5 times IQ-MAG: Set the gain so that the IQ signal is positioned at the circumference of the

vector scope graticule when the NTSC SMPTE color bar is up-converted to HDTV. (The gain is approximately x3.1 when the SMPTE Color Bar is applied.)

● Procedure

VECT → F•2 GAIN→ F•2 GAIN MAG : X1 / X5

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7.4 Line Select

You can monitor a particular line by using the line select function of the vectorscope display. Carry out the procedure below to display the line select menu and specify the settings. If DISPLAY is set to HISTOGRAM, the LINE SELECT menu does not appear.

7. VECTORSCOPE DISPLAY

7.4.1 Line Select

Select ON by carrying out the procedure below to select a line on the vector scope display and display the result. Select OFF to clear the line select function and display all the lines.

● Procedure

VECT → F•3 LINE SELECT → F•1 LINE SELECT : ON / OFF

After selecting ON above, turn the function dial (F•D) to select the line number. The selected line number is displayed at the lower left of the screen.

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7.4.2 Field Selection

Carry out the procedure below to select the variable range of the function dial (F•D) for the line select display on the vector scope display. You cannot select the field if the video signal format is progressive.

FIELD1: Limit the range to field 1. FIELD2: Limit the range to field 2. FRAME: Vary over the entire frame.

● Procedure

VECT → F•3 LINE SELECT → F•2 FIELD : FIELD1 / FIELD2 / FRAME

7.5 Setting the Color System

The vector scope display of component signals is X-Y display of chroma difference signals. However, you can also convert the signal into pseudo-composite signal to be displayed on the vector scope. You can also set the setup and the color bar saturation. Carry out the procedure below to display the color system setup menu and specify the settings. If DISPLAY is set to an option other than VECTOR, the COLOR SYSTEM menu does not appear.

7. VECTORSCOPE DISPLAY

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7. VECTORSCOPE DISPLAY

7.5.1 Composite and Component Displays

Carry out the procedure below to select whether to display the component signal artificially as a composite signal or display the vector scope display using chroma signals for the vector scope display. The selected display format is displayed at the lower right of the screen.

COMPONENT: Display the chroma difference signals of the component signal on

the X-Y vector scope display.

COMPOSITE: Artificially convert the component signal into a composite signal

and display the result on the vector scope display.

● Procedure

VECT → F•4 COLOR SYSTEM → F•1 COLOR MATRIX : COMPONENT / COMPOSITE

7.5.2 Setting the Video Signal Display Format for the Pseudo-Composite Display

Carry out the procedure below to select NTSC or PAL for the pseudo-composite display. You can also select auto.

NTSC: Artificially convert all video signal formats into NTSC composite signal. PAL: Artificially convert all video signal formats into PAL composite signal. AUTO: Convert to PAL composite signal for a video format with the field frequency

set to 50 Hz or the frame frequency set to 25 Hz or 50 Hz. Convert to NTSC composite signal for all other cases.

● Procedure

VECT → F•4 COLOR SYSTEM → F•2 COMPOSITE FORMAT : AUTO / NTSC / PAL

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7.5.3 Selecting the Setup

Carry out the procedure below to select the setup level for the vector scope display of the pseudo-composite display from the following:

0%: Not include a setup.

7.5%: Include a 7.5 % setup.

You can select the setup level only during the pseudo-composite display when the display format is NTSC. The menu does not appear during the component display or during the pseudo-composite display when the display format is PAL.

7. VECTORSCOPE DISPLAY

● Procedure

VECT → F•4 COLOR SYSTEM → F•3 SETUP : 0% / 7.5%

7.5.4 Selecting the Color Bar Saturation

Select 75 % by carrying out the procedure below to display a scale that matches the peak level of the chroma difference signal if the 75 % color bar is displayed.

● Procedure

VECT → F•4 COLOR SYSTEM → F•4 COLOR BAR : 100% / 75%

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7. VECTORSCOPE DISPLAY

7.6 Switching the Display Mode

Carry out the procedure below to switch between the vectorscope display, 5 BAR display, histogram display, and CIE chromaticity diagram display.

Page 86

7. VECTORSCOPE DISPLAY

● 5 BAR display

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

[See Also] Section 7.8, “Configuring the 5 BAR Display”

● 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.

[See Also] Section 7.9, “Setting the Histogram Display”

● CIE Chromaticity Diagram Display

YCBCRsignals and GBR signals are converted into CIE1931xy chromaticity coordinates and displayed on a CIE chromaticity diagram.

[See Also] Section 7.10, “Configuring the CIE Chromaticity Diagram Display”

7.7 Setting Persistence

Carry out the procedure below to display the intensity/persistence menu used to set the persistence characteristics of the vector scope display. If DISPLAY is set to an option other than VECTOR, the PERSISTENCE menu does not appear.

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7. VECTORSCOPE DISPLAY

7.7.1 Persistence Display of the Waveform

You can change the persistence characteristics of the vector waveform. This feature allows the current waveform to be displayed simultaneously with past waveforms (overlaid). Carry out the procedure below to select the persistence from the following:

mode is changed.

● Procedure

VECT → F•6 PERSISTENCE → F•1 PERSISTENCE : ON / OFF / INFINIT

7.7.2 Clearing the Persistence Characteristics

● Procedure

If PERSISTENCE is set to INFINIT

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

7.8 Configuring the 5 BAR Display

Use the 5 BAR setup menu to set the 5 BAR display.

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7. VECTORSCOPE DISPLAY

7.8.1 Display Order of the 5 BAR Display

Select the displayed order of the five bars for the 5 BAR display from the following:

GBR: Display in the following order from the left: Y, G, B, R, and CMP. RGB: Display in the following order from the left: Y, R, G, B, and CMP.

● Procedure

During 5 BAR display

VECT → F•4 5BAR SETUP → F•1 SEQUENCE : GBR / RGB

7.8.2 5 BAR Scale

You can set the 5 BAR scale to % or mV. If you select mV, the scale varies depending on the input signal as follows:

NTSC: 100IRE = 700 mV (Y, G, B, R), 714 mV (CMP) PAL: 100IRE = 700 mV

The input signal setting is synchronized to the setting described in section 7.5.2, “Setting the Video Signal Display Format for the Pseudo-Composite Display.”

● Procedure

During 5 BAR display

VECT → F•4 5BAR SETUP → F•2 SCALE : % / mV

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7. VECTORSCOPE DISPLAY

7.9 Setting the Histogram Display

Use the histogram display menu to configure the histogram settings.

7.9.1 Selecting the Histogram Display Mode

Carry out the procedure below to select the display mode.

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

● Procedure

VECT → F•4 MODE : LUMA / ALIGN / MIX

LUMA ALIGN

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7. VECTORSCOPE DISPLAY

MIX

7.9.2 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 : ON / OFF

→ F•3 G : ON / OFF

→ F•4 B : ON / OFF

7.10 Configuring the CIE Chromaticity Diagram Display

Use the chromaticity diagram display menu to configure CIE chromaticity diagram settings.

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7. VECTORSCOPE DISPLAY

7.10.1 Displaying the Color Triangle

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

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

displayed.

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

displayed. ITU-R 709: A triangle that corresponds to ITU-R BT.709-5 is displayed. DCI: A triangle that corresponds to SMPTE EG 432-1 is displayed. OFF: The color triangle is not displayed.

● Procedure

VECT → F•1 SCALE → F•1 TRIANGLE : NTSC / EBU / ITU-R 709 / DCI / OFF

NTSC

7.10.2 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 : ON / OFF

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7. VECTORSCOPE DISPLAY

7.10.3 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 : ON / OFF

7.10.4 Selecting the Display Mode of the Chromaticity Diagram

Carry out the procedure below to select the display mode. If you select “TEMP,” only the black-body radiation curve and the correlated color temperature lines will be displayed. F•1 SCALE is not displayed.

DIAGRAM: Nearly all of the CIE chromaticity diagram is displayed. TEMP: The vicinity of the white point is magnified by a factor of two in the

horizontal and vertical directions and displayed.

● Procedure

VECT → F•2 MODE : DIAGRAM / TEMP

DIAGRAM TEMP

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7.10.5 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 : ON / OFF

ON (DIAGRAM) ON (TEMP)

7. VECTORSCOPE DISPLAY

7.10.6 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.

2.2: A triangle that corresponds to ITU-R BT.1361 is displayed.

2.6: A triangle that corresponds to SMPTE EG 432-1 is displayed.

● Procedure

VECT → F•6 GAMMA : 2.2 / 2.6

7.10.7 Selecting the Filter

Carry out the procedure below to select the filter to apply to input signals. For the low-pass filter characteristics, see section 6.8.1, “Setting the Filter.”

LOW PASS: A low-pass filter is applied. FLAT: A flat filter is applied.

● Procedure

VECT → F•7 FILTER : LOW PASS / FLAT

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8. PICTURE DISPLAY

Press the PIC (picture display) key on the front panel to display the picture, picture display menu, and the like.

8. PICTURE DISPLAY

* The picture display may not display 2 pixels of data around the edges due to the specifications of the

image processing.

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8.1 Adjusting the Picture Display

The available adjustment functions on the picture display are brightness, contrast, RGB gain, and RGB bias. To perform these adjustments, display the picture adjustment menu by carrying out the procedure below.

8. PICTURE DISPLAY

8.1.1 Adjusting the Brightness

Carry out the procedure below to adjust the brightness of the picture display. Brightness adjustment range: -30 to 30 %

● Procedure

PIC → F•1 ADJUST → F•1 BRIGHTNESS : -30 to 0 to 30

After carrying out the procedure above, turn the function dial (F•D) to adjust the brightness. Press the function dial (F•D) to return to the default value (0).

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8.1.2 Adjusting the Contrast

Carry out the procedure below to adjust the contrast of the picture display. Contrast adjustment range: ×0.70 to ×1.30

● Procedure

PIC → F•1 ADJUST → F•2 CONTRAST : 0.70 to 1.00 to 1.30

After carrying out the procedure above, turn the function dial (F•D) to adjust the contrast. Press the function dial (F•D) to return to the default value (1.00).

8.1.3 Adjusting the Gain

Carry out the procedure below to select the color to be adjusted. Then, adjust the gain of the picture display. Gain adjustment range of R, G, and B: ×0.70 to ×1.30

● Procedure

8. PICTURE DISPLAY

• PIC → F•1 ADJUST → F•3 GAIN → F•1 R GAIN : 0.70 to 1.00 to 1.30

• PIC → F•1 ADJUST → F•3 GAIN → F•2 G GAIN : 0.70 to 1.00 to 1.30

• PIC → F•1 ADJUST → F•3 GAIN → F•3 B GAIN : 0.70 to 1.00 to 1.30

After carrying out the procedure above, turn the function dial (F•D) to adjust the gain. Press the function dial (F•D) to return to the default value (1.00).

8.1.4 Adjusting the Bias

Carry out the procedure below to select the color to be adjusted. Then, adjust the bias of the picture display. Bias adjustment range of R, G, and B: -0.30 (-30 %) to 0.30 (30 %)

● Procedure

• PIC → F•1 ADJUST → F•4 BIAS → F•1 R BIAS : -0.30 to 0.00 to 0.30

• PIC → F•1 ADJUST → F•4 BIAS → F•2 G BIAS : -0.30 to 0.00 to 0.30

• PIC → F•1 ADJUST → F•4 BIAS → F•3 B BIAS : -0.30 to 0.00 to 0.30

After carrying out the procedure above, turn the function dial (F•D) to adjust the bias. Press the function dial (F•D) to return to the default value (0.00).

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8.2 Displaying the Safety Markers

To display various markers such as the safety marker on the picture display, carry out the procedure below to display the marker display menu.

8. PICTURE DISPLAY

The safety marker is displayed if the picture size is set to FIT and the menu display OFF function is disabled.

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8.2.1 Aspect Marker (4:3)

When displaying HD-SDI signals with the picture aspect ratio of 16:9, the marker can be displayed at the position corresponding to 4:3. Depending on whether the 4:3 aspect marker display is ON, the sizes of the safe action marker and safe title marker vary. Carry out the procedure below to select 4:3 and display the 4:3 aspect marker.

● Procedure

PIC → F•2 MARKER → F•1 ASPECT MARKER : OFF / 4:3 / AFD

ASPECT MARKER = OFF ASPECT MARKER = 4:3

8. PICTURE DISPLAY

8.2.2 Aspect Marker (16:9)

When displaying SD-SDI signals with the picture aspect ratio of 4:3, the marker can be displayed at the position corresponding to 16:9. Depending on whether the 16:9 aspect marker display is ON, the sizes of the safe action marker and safe title marker vary. Carry out the procedure below to select 16:9 and display the 16:9 aspect marker.

● Procedure

PIC → F•2 MARKER → F•1 ASPECT MARKER : OFF / 16:9 / AFD

ASPECT MARKER = OFF ASPECT MARKER = 16:9

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8.2.3 Safe Action Marker

When ASPECT MARKER is set to an option other than AFD, you can display a safe action marker with a width and length that are 90 % of those of the picture display active area. If the aspect marker is displayed, the safe action markers are displayed at the 90 % positions vertically and horizontally with respect to the aspect marker. Carry out the procedure below to turn ON/OFF the safe action marker.

● Procedure

PIC → F•2 MARKER → F•2 SAFE ACTION : ON / OFF

8.2.4 Safe Title Marker

When ASPECT MARKER is set to an option other than AFD, you can display a safe title marker with a width and length that are 80 % of those of the picture display active area. If the aspect marker is displayed, the safe title markers are displayed at the 80 % positions vertically and horizontally with respect to the aspect marker. Carry out the procedure below to turn ON/OFF the safe title marker.

8. PICTURE DISPLAY

● Procedure

PIC → F•2 MARKER → F•3 SAFE TITLE : ON / OFF

8.2.5 Center Marker

When ASPECT MARKER is set to an option other than AFD, a center marker can be displayed at the center of the picture display. Carry out the procedure below to turn ON/OFF the center marker.

● Procedure

PIC → F•2 MARKER → F•4 CENTER : ON / OFF

8.2.6 Aspect Marker (AFD)

If you use the following procedure to select AFD, the area around the active area that is written in the AFD (Active Format Description) is indicated with a shadow. Use SHADOW to select the darkness of the shadow.

• If there are no AFD packets embedded in the input signal, the AFD marker is not displayed.

• You cannot display the safe action marker, safe title marker, or center marker at the same time that the AFD marker is displayed.

• This setting is not available when the link format is set to dual (you cannot select AFD).

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8. PICTURE DISPLAY

● Procedure

• HD PIC → F•2 MARKER → F•1 ASPECT MARKER : OFF / 4:3 / AFD

• SD PIC → F•2 MARKER → F•1 ASPECT MARKER : OFF / 16:9 / AFD

8.2.7 Selecting the Form of the AFD Marker

When ASPECT MARKER is set to AFD, you can 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. Adjustment range: 0 to 100

● Procedure

PIC → F•2 MARKER → F•6 SHADOW : 0 to 100

After carrying out the procedure above, turn the function dial (F•D). Press the function dial (F•D) to return to the default value (0).

SHADOW = 0 SHADOW = 50

SHADOW = 100

LEADER LV 58SER01A, LV 58SER01 Instruction Manual

Specifications and Main Features

Frequently Asked Questions

User Manual

Contents

1. INTRODUCTION

1.1 Maximum Allowable Input Voltage to the Input Connector

1.2 Precautions Concerning the Unit

1.3 Notations Used in This Manual

1.4 Trademark Acknowledgments

2. PRODUCT SPECIFICATIONS

2.1 General

2.2 Features of the SDI Input Unit

2.3 Specifications

2.3.1 Input signal

2.3.2 Input/Output Connector

2.3.3 Waveform Display Function

2.3.4 Vectorscope Display

2.3.5 CIE Chromaticity Diagram Display

2.3.6 Phase Difference Display

2.3.7 Picture Display

2.3.8 Status Display

2.3.9 5 BAR Display

2.3.10 Analysis Function

2.3.11 Embedded Audio Processing

2.3.12 Cable Length Meter Measurement

2.3.13 Frame Capture Function

2.3.14 Closed Caption Display Function

2.3.15 General Specifications

3. NAMES AND FUNCTIONS OF PARTS

4.1 Waveform Display Menu

4. MENU STRUCTURE

4.2 Vectorscope Display Menu

4.3 Picture Display Menu

4.4 Status Display Menu

5. SYSTEM SETUP OF THE UNIT

5.1 GENERAL SETUP

5.2 ERROR SETUP1

5.3 ERROR SETUP2

5.4 ERROR SETUP3

5.5 ERROR SETUP4

5.6 ERROR SETUP5

6.1 Setting the Waveform Display Position

6.2 Setting the Waveform Display Mode

6.3 Setting the Waveform Display Channels

6.4 Intensity Adjustment

6.4.1 Adjusting the Intensity of the Video Signal Waveforms

6.4.2 Selecting the Video Signal Waveform Color

6.4.5 Displaying the 75 % Color Bar Scale

6.5 Adjusting the Gain

6.5.1 Changing the Vertical Magnification of the Video Signal Waveforms

6.5.3 Changing the Horizontal Magnification of the Video Signal Waveforms

6.6 Line Select

6.6.1 Line Select

6.6.2 Field Selection of Line Select

6.7.1 Displaying the Cursors

6.7.3 Selecting the Cursor Measurement Unit

6.8 Setting the Display Style

6.8.4 Clearing the Persistence Characteristics

6.8.6 4Y PARADE

6.9 Setting the Color System of the Waveform Display

6.9.1 Setting the Color Matrix of the Waveform Display

6.9.2 Y-GBR (RGB) Display

7.1 Displaying Vector Waveforms

7.2 Adjusting the Intensity

7.2.2 Selecting the Vector Waveform Color

7.2.5 Selecting the Scale Color

7.3.1 Varying the Gain

7.4 Line Select

7.4.2 Field Selection

7.5.1 Composite and Component Displays

7.6 Switching the Display Mode

7.7 Setting Persistence

7.7.1 Persistence Display of the Waveform

7.8.1 Display Order of the 5 BAR Display

7.9 Setting the Histogram Display

7.9.2 Turning the RGB Signals On and Off

7.10 Configuring the CIE Chromaticity Diagram Display

7.10.1 Displaying the Color Triangle

7.10.3 Displaying the Black-Body Radiation Curve