Leader LV5300A Instruction Manual

page of 573

/ 573
Contents
Table of Contents
Bookmarks

Table of Contents

Quick Links

LV5300 / LV5300A / LV5350 / LV7300

WAVEFORM MONITOR / RASTERIZER

LV7300-SER01

LV7300-SER02

LV5300-SER11 / LV5350-SER11

LV5300-SER12 / LV5350-SER12

LV5300-SER20 / LV5350-SER20 / LV7300-SER20

LV5300-SER21 / LV5350-SER21 / LV7300-SER21

LV5300-SER22 / LV5350-SER22 / LV7300-SER22

LV5300-SER23 / LV5350-SER23 / LV7300-SER23

LV5300-SER24 / LV5350-SER24 / LV7300-SER24

LV5300-SER25 / LV5350-SER25 / LV7300-SER25

LV5300-SER26 / LV5350-SER26 / LV7300-SER26

LV5300-SER27 / LV5350-SER27 / LV7300-SER27

LV5300-SER28 / LV5350-SER28 / LV7300-SER28

LV5300-SER40 / LV5350-SER40 / LV7300-SER40

Instruction Manual

Thank you for purchasing.

Please carefully read this instruction manual and the included "GENERAL SAFETY SUMMARY".

Please use the product safely.

SDI INPUT

SDI INPUT / EYE

BATTERY ADAPTER V MOUNT

BATTERY ADAPTER QR GOLD

AUDIO

CLOSED CAPTION

CIE

HDR

TSG

FOCUS ASSIST

LAYOUT

TALLY

EXTENDED VEC

Table of Contents

Need help?

Do you have a question about the LV5300A and is the answer not in the manual?

Questions and answers

Summary of Contents for Leader LV5300A

Page 1 LV5300 / LV5300A / LV5350 / LV7300 WAVEFORM MONITOR / RASTERIZER LV7300-SER01 SDI INPUT LV7300-SER02 SDI INPUT / EYE LV5300-SER11 / LV5350-SER11 BATTERY ADAPTER V MOUNT LV5300-SER12 / LV5350-SER12 BATTERY ADAPTER QR GOLD LV5300-SER20 / LV5350-SER20 / LV7300-SER20 AUDIO LV5300-SER21 / LV5350-SER21 / LV7300-SER21...
Page 2: Table Of Contents
1.2.5 About Standby Mode ..................2 1.2.6 Backup ......................2 1.2.7 About the LCD Panel (LV5300/LV5300A/LV5350) ........... 2 About Trademarks and Licenses ................. 3 Terminology Used in This Manual ................3 PRODUCT CONFIGURATION ................5 Lineup ........................5 Hardware Options ....................5 Software Options .....................
Page 3 3.3.23 HDR Display (SER23) ..................36 3.3.24 Audio Display ....................36 3.3.25 Status Display ....................39 3.3.26 Eye Pattern (LV5300/LV5300A/LV7300-SER02) ............. 46 3.3.27 Jitter Display (LV5300/LV5300A/LV7300-SER02) ........... 47 3.3.28 Tally Display ..................... 48 3.3.29 Camera ID Display .................... 48 3.3.30 General Specifications ..................
Page 4 7.2.14 Date and time settings ..................159 7.2.15 Configuring the LV7290 ................... 160 Displaying System Information ................162 Installing Software Options ..................164 Adjusting the Backlight (LV5300/LV5300A/LV5350) ........... 165 Turning Off the LCD Panel (LV5300/LV5300A/LV5350) ..........165 Initialization ......................166...
Page 5 7.7.1 Initializing Settings ..................166 7.7.2 Initializing the Layout ..................167 7.7.3 Initializing the Operation keys ................167 7.7.4 Initializing the Settings and Layout ..............167 CAPTURE FEATURE ..................168 Capturing the Displayed Screen ................168 Displaying Screen Capture Data ................168 Saving to a USB Memory Device ................
Page 6 10.6.3 Selecting the Y-Axis Measurement Unit .............. 201 10.6.4 Selecting the X-Axis Measurement Unit .............. 202 10.6.5 Moving the Cursors ..................202 10.6.6 Turning the Cursor Value Display On and Off ............202 10.7 Configuring the Line Selection Settings ..............203 10.7.1 Turning Line Selection On and Off ..............
Page 7 11.8.1 Setting the Variable Gain .................. 223 11.8.2 Selecting the Fixed Gain ................... 223 11.8.3 Selecting the Observation Point ................. 223 11.9 Configuring the Marker Settings ................224 11.9.1 Displaying the Vector Marker ................224 11.9.2 Configuring the Variable Marker ................ 225 11.10 Configuring the Line Selection Settings ..............
Page 8 13.3.1 Displaying Gamut Errors .................. 252 13.3.2 Turning the Information On and Off ..............253 13.3.3 Configuring the SCTE-104 Detection Display settings ........... 254 13.3.4 Displaying the SCTE-104 Detection screen ............255 13.4 Configuring the Marker Settings ................257 13.4.1 Turning the Frame Marker On and Off ..............
Page 9 14.1 Video Signal Waveform Display ................294 14.1.1 Scale Display ....................294 14.1.2 Selecting the Scale Display ................300 14.1.3 Setting the Reference Level ................301 14.1.4 Cursor Display ....................302 14.2 Vector Display....................... 303 14.2.1 HDR Mode Display ................... 303 14.2.2 Histogram Display ...................
Page 10 15.8.2 Event Log Display ................... 329 15.8.3 Channel Status Display ..................330 15.8.4 Displaying User Bits..................331 15.8.5 Resetting Errors ....................331 16. STATUS DISPLAY ..................332 16.1 Status Screen Description ..................332 16.2 Configuring Error Detection Settings ................ 337 16.2.1 Error Setup 1 ....................
Page 11 Displaying the SCTE-104 Detection screen ............390 16.9.18 Displaying SR Live Packets ................392 16.9.19 Performing Custom Searches ................393 17. EYE PATTERN DISPLAY (LV5300/LV5300A/LV7300-SER02) ......395 17.1 Eye Pattern Display Description ................397 17.2 Jitter Display Description ..................399 17.3...
Page 12 17.10 Configuring the Jitter Display Settings ..............421 17.10.1 Selecting the Magnification ................422 17.10.2 Selecting the Filter ..................422 17.10.3 Selecting the Sweep Time ................422 17.10.4 Turning the Peak Hold On and Off ..............423 17.10.5 Clearing the Peak Hold ..................423 17.10.6 Turning Cursors On and Off ................
Page 13 WFM Menu ......................520 20.7 VECT Menu ......................523 20.8 PIC Menu ......................530 20.9 AUDIO Menu ......................535 20.10 STATUS Menu ....................... 538 20.11 EYE Menu (LV5300/LV5300A/LV7300-SER02) ............545 20.12 MULTI Menu ......................547 21. FIRMWARE UPDATE HISTORY ..............548...
Page 14: General Safety Summary
■ Note about Reading This Manual The contents of this manual contain specialized terminology and may be difficult to understand. If you have any questions about the contents of this manual, please contact your local LEADER agent. ■ Symbols and Terms The following symbols and terms are used in this instruction manual and on the instrument to indicate important warnings and notes.
Page 15 Failing to do so could lead to fire. Turn OFF the power switch, and remove the power cord from the outlet. After making sure that fire has not spread anywhere, contact your local LEADER agent.
Page 16 Using a power cord that does not meet the standards could lead to fire. If the power cord is damaged, stop using it, and contact your local LEADER agent. Using a damaged power cord could lead to electrical shock or fire.
Page 17 To ensure stable performance, we recommend that you have the instrument calibrated regularly. Also, if the instrument malfunctions, repairs are necessary. For repairs and calibration, contact your local LEADER agent. ■ Routine Maintenance When you clean the instrument, remove the power plug from the outlet.
Page 18: Introduction
1. INTRODUCTION INTRODUCTION Thank you for purchasing this LEADER instrument. To use this instrument safely, read this instruction manual thoroughly, and make sure that you know how to use the instrument properly. If some point about the operation of this instrument is still unclear after you have read this instruction manual, refer to the contact information on the back cover of the manual to contact LEADER, or contact your local LEADER agent.
Page 19: Mechanical Shock
To continually use the last-memory feature, we recommend that you replace the backup battery with a new one every five years after you purchase the instrument. You cannot replace the backup battery yourself. For details, contact your nearest LEADER agent. 1.2.7 About the LCD Panel (LV5300/LV5300A/LV5350) There may be a small number of pixels in the LCD panel that do not light or are always on.
Page 20: About Trademarks And Licenses
If you need the source code covered by the GNU General Public License, CONTACT YOUR LOCAL LEADER AGENT. [Notes] 1. Leader does not provide warranty or support for the software covered by the GNU General Public License. 2. Alteration and distribution of this program shall be performed under your responsibility.
Page 21 1. INTRODUCTION • Input Formats and Link Systems The following names are used for the input formats and link systems. Multi link may be used as a collective term to refer to dual link and quad link. Table 1-3 Input formats and link systems Name Description Link System...
Page 22: Product Configuration
The features of LV5300 and LV5300A are the same. Hardware Options This instrument operates as a measuring instrument by installing hardware options. To replace or add hardware options, contact your local LEADER agent. You cannot install or uninstall units. Table 2-1 Hardware options...
Page 23: Software Options
The following software options (sold separately) can be installed in the instrument. If you want to obtain a software option, provide your local LEADER agent with the instrument’s MAC address (see the LICENSE tab) and serial number (see the rear panel). We will issue a license key.
Page 24: Specifications
RASTERIZER are compact waveform display devices supporting 12G-SDI to SD-SDI standards. The LV5300/LV5300A and LV5350 are 3U half-rack size waveform monitors with a built-in LCD while the LV7300 is a 1U half-rack size rasterizer that can be connected to an external LCD.
Page 25: Features
While providing high flexibility through various options and high functionality for various situations, the LV5300/LV5300A is 3U half-rack size with 300 mm depth, the LV5350 is 3U half-rack size with 85 mm depth, and the LV7300 is 1U half-rack size with 300 mm depth.
Page 26 SDI INPUT 1 or SDI INPUT 2 by switching. The function of SDI OUTPUT 2 on the LV5300/LV5300A and LV5350 can be switched between the reclocked output of the SDI signal of SDI INPUT 2, the SD output of the screen display, and the SDI signal generation function.
Page 27 You can select the sensitivity according to the image scene. Only SDI INPUT 1 supports the eye pattern display. LEADER does not guarantee the operation on all HDMI monitors.
Page 28: Specifications
3. SPECIFICATIONS Specifications 3.3.1 SDI Video Formats and Standards (SER01/SER02/SER28) Table 3-1 SD video signal formats and standards Color System Quantization Image Field Frequency/Scanning Supported Standard 4:2:2 10 bit 720×487 59.94 /I SMPTE ST 259 720×576 50 /I Table 3-2 HD video signal formats and standards Color System Quantization Image...
Page 29 3. SPECIFICATIONS Table 3-3 3G-A video signal formats and standards Color System Quantization Image Frame (Field) Frequency/Scanning Supported Standard 4:2:2 10 bit 1920×1080 60/59.94/50 /P SMPTE ST 274 SMPTE ST 425-1 48/47.95 /P 2048×1080 60/59.94/50/48/47.95 /P SMPTE ST 425-1 SMPTE ST 2048-2 12 bit 1920×1080 60/59.94/50 /I...
Page 30 3. SPECIFICATIONS Table 3-4 3G-B-DL Video Signal Formats and Standards Color System Quantization Image Frame (Field) Frequency/Scanning Supported Standard 4:2:2 10 bit 1920×1080 60/59.94/50 /P SMPTE ST 274 SMPTE ST 372 SMPTE ST 425-1 48/47.95 /P 2048×1080 60/59.94/50/48/47.95 /P SMPTE ST 372 SMPTE ST 425-1 SMPTE ST 2048-2 12 bit...
Page 31 3. SPECIFICATIONS Table 3-5 3G(DL)-4K Video Signal Formats and Standards Division Quantizati Transmission Color System Image Frame Frequency/Scanning Supported Standard System Square 4:2:2 10bit 3840×2160 30/29.97/25/24/23.98 /P SMPTE ST 425-3 SMPTE ST 2036-1 30/29.97/25/24/23.98 /PsF 4096×2160 30/29.97/25/24/23.98 /P SMPTE ST 425-3 SMPTE ST 2048-1 30/29.97/25/24/23.98 /PsF 2 sample...
Page 32 3. SPECIFICATIONS Table 3-7 12G video signal formats and standards Division Transmission Color System Quantization Image Frame Frequency/Scanning Supported Standard System 2 sample 4:2:2 10 bit 3840×2160 60/59.94/50 /P SMPTE ST 2036-1 interleave SMPTE ST 2082-10 48/47.95/P 4096×2160 60/59.94/50/48/47.95 /P SMPTE ST 2048-1 SMPTE ST 2082-10 12 bit...
Page 33: Sdi Audio Formats And Standards (Ser01/Ser02/Ser20)
3. SPECIFICATIONS 3.3.2 SDI Audio Formats and Standards (SER01/SER02/SER20) Supported Standard 12G, 6G, 3G, HD SMPTE ST 299 SMPTE ST 272 Sampling Frequency 48 kHz Quantization 24 bit Format L-PCM Clock Generation Generated from the video clock Synchronization Synchronized to the video signal All SDI signals must be synchronized during Simul Display.
Page 34: Sdi Output Connector (Ser01/Ser02/Ser24/Ser28)
5.940 to 11.880 GHz -4 dB or more (SDI OUTPUT 1) Output Voltage 800 mVp-p ± 10 % (into 75 Ω) Output Signal (LV5300/LV5300A/LV5350) Reclocked signal of SDI input (*1), TSG output, SDI monitor output SDI OUTPUT 1 Reclock output of SDI INPUT 1 or selected reclock output of...
Page 35: External Reference Input
3. SPECIFICATIONS 3.3.5 External Reference Input Connector Type Number of Input Connectors 1 pair Input Impedance 15 kΩ passive loop-through Input Return Loss ≥ 30 dB for 50 kHz to 30 MHz into 75 Ω Maximum Input Voltage ±5 V (DC + peak AC) Input Signal Tri-level sync or NTSC/PAL black burst signal Function...
Page 36: Headphone Output
LV5350 or LV7300 (*3) Equivalent to 48I when the SDI input is 48P. LEADER does not guarantee the operation on all HDMI monitors. LEADER does not guarantee that all touch panel type monitors will work with the LV7300. 3.3.7 Headphone Output...
Page 37: Front Panel
USB device. Pinch out and swipe operations are not supported. LEADER does not guarantee that all touch panel type monitors will work with the LV7300. You cannot use TELNET and the LV7290 at the same time.
Page 38: Capturing
3. SPECIFICATIONS 3.3.10 Capturing Screen Capture Function Captures the screen Display Displays only the captured image or overlays the captured image over the input signal Media Internal memory (RAM) and USB memory You can only save one screen capture to the internal memory. Data Output Saved to bitmap format to a USB memory device or to a file format that the instrument can load (BSG).
Page 39: Tsg (Ser24/Ser28)
3. SPECIFICATIONS 3.3.11 TSG (SER24/SER28) Table 3-8 HD video signal formats and standards Color System Quantization Image Frame (Field) Frequency/Scanning Supported Standard 4:2:2 10 bit 1280×720 60/59.94/50 /P SMPTE ST 292-1 SMPTE ST 296 30/29.97/25/24/23.98 /P 1920×1080 60/59.94/50 /I SMPTE ST 274 SMPTE ST 292-1 30/29.97/25/24/23.98 /P 30/29.97/25/24/23.98 /PsF...
Page 40 3. SPECIFICATIONS Table 3-11 12G video signal formats and standards Division Color System Quantization Image Frame Frequency/Scanning Supported Standard Transmission System 2 sample 4:2:2 10 bit 3840×2160 60/59.94/50 /P SMPTE ST 2036-1 interleave SMPTE ST 2082-10 48/47.95/P 4096×2160 60/59.94/50/48/47.95 /P SMPTE ST 2048-1 SMPTE ST 2082-10 4:4:4...
Page 41 3. SPECIFICATIONS Output Pattern 100% color bar, 75% color bar, HD multiformat color bar (*1), 4K multiformat color bar (*1), color raster, gamma, cross hatch, 10 step, limit lamp, check field, lip sync pattern (SER20), HDR color bar (SER23) (*1) YCbCr/RGB on/off, Level Adjustment When the following patterns are selected, you can turn on and off YCbCr or RGB separately.
Page 42: Presets
Customized Layout (SER26) Function Freely arrange the windows shown with the WFM, VECT, PIC, AUDIO, STATUS, and EYE (LV5300/LV5300A/LV7300-SER02) keys (one of each), and a window consisting of six displays shown with MULTI Display Format Displays up to two single link input signals in tiled, mixed, V aligned, or H aligned mode.
Page 43: Video Signal Waveform Display
3. SPECIFICATIONS Enhanced Layout (SER26) Function When multiple channels of single link are displayed, the selected channel is automatically shown in a specific area. You can make the specific area larger than the other areas to show the selected channel enlarged. Time Display Displayed Contents Current time, time code...
Page 44 3. SPECIFICATIONS 3G, HD (1080/60P, 1080/59.94P, 1080/50P) Y Signal ±0.5 % (1 to 30 MHz) Signal ±0.5 % (0.5 to 15 MHz) Low-Pass Attenuation ≥ 20 dB (at 20 MHz) Y Signal ±0.5 % (1 to 5.75 MHz) Signal ±0.5 % (0.5 to 2.75 MHz) Low-Pass Attenuation ≥...
Page 45: Vector Display
3. SPECIFICATIONS 3.3.15 Vector Display Vector Mode Vector, RGB vector (SER40), YCbCr vector (SER40) Display Colors 7 colors to choose from Blanking Interval H and V blanking periods can be masked (according to the video signal waveform display settings). Pseudo-Composite Display Artificially converts component signals into composite signals and displays the result Line Select...
Page 46: Picture Screen
3. SPECIFICATIONS Line Select Displays the selected line Low-Pass Filter The same as for gamut errors 3.3.16 Picture Screen Quantization 8 bit (internal signal processing is performed with signed 12 bit or higher) Level Mapping Maps the black level to 0 (8bit), SDI code value (when receiving 10 bit RGB) 1024 to 255 (8 bit) Display Sizes Reduced, actual size, ×2 (4K not supported), full frame (4K...
Page 47: Superimpose Display (Ser21)
3. SPECIFICATIONS 3.3.17 Superimpose Display (SER21) Displays English closed captions, European closed captions, and Japanese closed captions over the picture English Closed Caption Supported Standards (Mapping Standards) EIA-708 SMPTE ST 334 EIA/CEA-608-B (EIA-708-B) SMPTE ST 334 EIA/CEA-608-B (EIA/CEA-608-B) SMPTE ST 334 VBI (EIA/CEA-608-B Line21) CIA/EIA-608-B Supported Video Formats...
Page 48: Cinelite Display
3. SPECIFICATIONS TV Commercial Material Checking Function Checks whether closed caption displays are present during the closed caption prohibited time Check Period The material start time and end time can be specified using timecodes. Log Display Color Closed Caption during Prohibited Time Closed Caption Not during Prohibited Time Green Check Result Display...
Page 49 3. SPECIFICATIONS HDR Display (SER23) System Gamma OFF Narrow Range Displays the relative HLG luminance with the SDI code value 64 assumed to 0% and 940 assumed to be 1200% or 100% Full Range Displays the relative HLG luminance with the SDI code value 0 assumed to 0% and 1023 assumed to be 1200% or 100% System Gamma ON Assuming a Display with a peak brightness of 1000 Nits...
Page 50: Cinelite Advanced Display
3. SPECIFICATIONS 3.3.19 CINELITE Advanced Display Function Synchronizes the markers on the waveform display, vector display, and chromaticity diagram display to the points selected with CINELITE Waveform Display Link Markers Synchronizes the markers on the waveform display to the points selected with CINELITE Number of Link Markers Up to 16 (for YRGB, YGBR display) (including the 4 reference points)
Page 51: Cinezone Display
3. SPECIFICATIONS 3.3.20 CINEZONE Display SDR Display Gradation and Step Function Adds colors to the display in accordance with luminance levels Display Colors Linear (1024 colors), step (12 colors) Upper Limit -6.3 to 109.4 % (values equal to or greater than the upper limit are displayed in white) Lower Limit -7.3 to 108.4 % (values less than the lower limit are...
Page 52: Focus Assist (Ser25)
3. SPECIFICATIONS 3.3.21 Focus Assist (SER25) Detection Sensitivity LOW, MIDDLE, HIGH Highlight Display Color WHITE, GREEN, BLUE, RED Picture Luminance Level OFF, EMBOSS, 25%, 50%, 75%, 100% 3.3.22 CIE Chromaticity Diagram Display (SER22) Display Standard CIE1931 (xy display), CIE1976 (u'v’ display) Display Type Chromaticity diagram display, color temperature display Display Mode...
Page 53: Hdr Display (Ser23)
3. SPECIFICATIONS 3.3.23 HDR Display (SER23) Supported Standard ITU-R BT.2100 (HLG: Hybrid Log Gamma, Full range / Narrow range), ITU-R BT.2100 (PQ: Perceptual Quantization, Full range / Narrow range), S-Log3, C-Log, Log-C Supported Formats All formats except SD-SDI Function Video Waveform Display Scale, cursor Vector Display Histogram...
Page 54 3. SPECIFICATIONS Level meter Displayed Channels Dynamic Range SDI-60 dBFS, -90 dBFS, reference level±3 dB Level Accuracy ±0.3 dB (-50 to 0 dBFS, 1 kHz, signal source impedance 40 Ω or less) Frequency Response 30 Hz to 20 kHz ± 0.4 dB (4 dBu, 1 kHz reference, TRUE PEAK response) 20 Hz to 20 kHz + 0.4 dB, -0.6 dB (4 dBu, 1 kHz reference, TRUE PEAK response)
Page 55 3. SPECIFICATIONS Status Display (SER20) Level Audio levels are displayed using numbers (dBFS). Error Detection Counts the number of errors that occur for each channel Level Over Counts the number of times that the level of the input signal exceeds the set value Detection Setting -40.0 to 0.0 dBFS Clipping...
Page 56: Status Display
3. SPECIFICATIONS 3.3.25 Status Display Signal Detection Detects the presence of an SDI signal Format Display Displays the video signal format Frequency Deviation Display Function Displays the sampling frequency deviation Displays an error if ±10 ppm is exceeded Measurement Range ±100 ppm Precision ±2 ppm...
Page 57 3. SPECIFICATIONS Ancillary Data Packet Error Detection Checksum error Detects ancillary data transmission errors Parity Error Detects ancillary data header parity errors Embedded Audio Packet Error Detection (*1) BCH Error Detects audio packet transmission errors DBN Error Detects audio packet continuity errors Parity Error Detects audio packet parity errors Embedded Position Error Detects the presence of audio in lines where it should not be...
Page 58 3. SPECIFICATIONS Gamut Error Detects gamut errors Detection Range Upper limit 90.8 to 109.4% Lower Limit -7.2 to 6.1% Low-Pass Filter Low-Pass Filter Format HD/SD: 1 MHz HD: 2.8 MHz SD: 1 MHz SD 720×487 Approx. 1 MHz (EBU R103-2000) Approx.
Page 59 3. SPECIFICATIONS Data Dump Display Display Format Displays serial data sequence or displays each color component separately SD, HD, 3G-A PICTURE, stream 1, stream 2 3G-B-DL PICTURE, link A, link B 3G(DL)-4K (SER28) PICTURE, link 1, link 2 6G (SER28), 12G (SER28) PICTURE, sub 1, sub 2, sub 3, sub 4 Display Format Details PICTURE...
Page 60 3. SPECIFICATIONS Payload ID Display Supported Standard SMPTE ST 352 Displayed Contents Analyzes and displays payload information Display Format Text and binary Displaying Audio Control Packets Supported Standard SMPTE ST 299-1, SMPTE ST 272 Displayed Contents Displays audio control packet analysis Display Format Text, hexadecimal, binary Display Format...
Page 61 3. SPECIFICATIONS Inter-Stationary Control Signal (NET-Q) Display (*1) ARIB STD-B39 Analysis display of inter-stationary control signals Text, hexadecimal, binary Q signal logging Analysis display of the format ID Outputs Q signal logs in CSV format through a USB memory device Data Broadcast Trigger Signal Display (*1) ARIB STD-B35 Text, hexadecimal, binary...
Page 62 Measurement Range (Bar Display) ±50 ms, ±100 ms, ±500 ms, ±1.0 s, ±2.5 s Measurement Range (Numeric Display) ±3999 ms Measurement Resolution 1 ms TSG patterns not made by Leader may be supportable by specifying the video signal setting and audio signal setting.
Page 63: Eye Pattern (Lv5300/Lv5300A/Lv7300-Ser02)
3. SPECIFICATIONS 3.3.26 Eye Pattern (LV5300/LV5300A/LV7300-SER02) SDI Input Connector SDI INPUT 1 Display Displays the input SDI waveform before equalizing Number of Displays 1-Screen Display Displays the eye pattern of the selected filter in a single screen 2-Screen Display Displays the timing filter and eye pattern of the selected filter...
Page 64: Jitter Display (Lv5300/Lv5300A/Lv7300-Ser02)
Rising edge overshoot Falling edge overshoot Histogram Display Displays the frequency distribution of the eye pattern waveform amplitudes 3.3.27 Jitter Display (LV5300/LV5300A/LV7300-SER02) SDI Input Connector SDI INPUT 1 Display Displays the jitter component of an SDI signal Number of Displays...
Page 65: Tally Display
3. SPECIFICATIONS Jitter Filter 10Hz HPF 10Hz 100Hz HPF 100Hz 1 kHz HPF 1 kHz 100 kHz HPF 100 kHz TIMING HPF 10Hz ALIGNMENT 12G (SER28), 6G (SER28) HPF 100 kHz 3G, HD HPF 100 kHz HPF 1 kHz Cursor Measurement Jitter value measurement through the use of cursors Automatic Measurement Display Feature Displays the jitter value in seconds (sec) and unit intervals...
Page 66: General Specifications
Up to 2,000 m Overvoltage Category Ⅰ Pollution Degree Power Requirements Voltage DC 10 to 18 V Power Consumption LV5300/LV5300A 80 W max. LV5350 60 W max. LV7300 80 W max. Dimensions LV5300/LV5300A 215 (W) × 132 (H) × 132 (D) mm (excluding protrusions) LV5350 215 (W) ×...
Page 67: Panel Description
4. PANEL DESCRIPTION PANEL DESCRIPTION Front Panel Figure 4-1 LV5300/LV5300A front panel Figure 4-2 LV5350 front panel...
Page 68 4. PANEL DESCRIPTION Table 4-1 LV5300/LV5300A/LV5350 front panel description Name Description Handle Use this to carry the instrument. Displays measurement and setup screens. Control the instrument with the touch panel. F•1 to F•7 Carries out the corresponding function menu operation.
Page 69 4. PANEL DESCRIPTION Name Description Connect a USB memory device, USB mouse, or touch panel monitor. [See also] 5.3, “Connecting USB Devices.” Headphone This is a mini-plug headphone jack. When a pair of headphones are connected to jack this jack, the instrument transmits the audio signal embedded in the SDI signal.
Page 70 4. PANEL DESCRIPTION Figure 4-3 LV7300 front panel Table 4-2 LV7300 front panel description Name Description F•1 to F•7 Carries out the corresponding function menu operation. [See also] 5.5.2, “Function Menu Operations” V POS Turn to adjust the vertical position of the video signal waveform or other item.
Page 71 4. PANEL DESCRIPTION Name Description [See also] 16, “Status Display” SELECT Carries out the corresponding function menu operation. [See also] 5.5.2, “Function Menu Operations” The eye pattern is displayed. You can change the layout as you like. (SER02) [See also] 17, “EYE PATTERN DISPLAY (SER02)” MULTI Shows a combination of measurement screens.
Page 72: Rear Panel
4. PANEL DESCRIPTION Rear Panel Figure 4-4 LV5300/LV5300A rear panel Figure 4-5 LV5350 rear panel...
Page 73 4. PANEL DESCRIPTION Table 4-3 LV5300/LV5300A/LV5350 rear panel description Name Description SDI OUTPUT SDI signal output connectors [See also] 5.4.1, “SDI Signal I/O.” SDI INPUT SDI signal input connectors. [See also] 5.4.1, “SDI Signal I/O.” DC INPUT DC inlet. [See also] 5.1, “Turning the Instrument On and Off”...
Page 74 4. PANEL DESCRIPTION Figure 4-6 LV7300 rear panel (SER01/SER02) Table 4-4 LV7300 rear panel description Name Description SDI INPUT SDI signal input connectors. (SER01/SER02) [See also] 5.4.1, “SDI Signal I/O.” SDI OUTPUT SDI signal output connectors (SER01/SER02) [See also] 5.4.1, “SDI Signal I/O.” REMOTE 15-pin D-sub remote connector.
Page 75: Before You Begin Measuring
5. BEFORE YOU BEGIN MEASURING BEFORE YOU BEGIN MEASURING Precautions When Installing the ZEN series The ZEN series WAVEFORM MONITORs have intake and exhaust ports for ventilation. The intake ports and exhaust ports of each model are shown below. Taking precautions the following when installing the ZEN series. •...
Page 76 • When installing the ZEN series instruments side by side, make sure that the intake and exhaust ports are not next to each other. • When installing the LV5300/LV5300A and the LV5350 or LV5600 side by side, place the LV5300/LV5300A on the right side when viewed from the front panel side.
Page 77: Turning The Instrument On And Off
If you do not intend to use the instrument for an extended period of time, disconnect the power supply. 60W max. on the LV5350 Figure 5-1 LV5300/LV5300A/LV5350 DC INPUT connector Figure 5-2 LV7300 DC INPUT connector Table 5-1 DC INPUT pinout Pin No.
Page 78: Connecting Usb Devices
5. BEFORE YOU BEGIN MEASURING Connecting USB Devices The front panel has two USB ports. You can connect a USB memory device, USB mouse, or touch panel monitor to these ports. You can connect the devices to either USB port, but you cannot connect the same type of devices to the instrument simultaneously.
Page 79: Signal I/O
5. BEFORE YOU BEGIN MEASURING Signal I/O 5.4.1 SDI Signal I/O Figure 5-3 LV5300/LV5300A/LV5350 SDI I/O connectors When an SER01 or SER02 is installed Figure 5-4 LV7300 SDI I/O connectors • SDI Signal Input SDI INPUT 1/2 Apply signals that are specified in section 3.3.1, “SDI Video Formats and Standards,” and section 3.3.2, “SDI Audio Formats and Standards.”...
Page 80 You can use the instrument as a signal generator. Further, on the LV5300/LV5300A and LV5350, you can select Monitor Out. If you select Monitor Out, SDI OUTPUT 2 transmits the instrument’s screen for monitoring purposes.
Page 81: External Sync Signal Input
5. BEFORE YOU BEGIN MEASURING 5.4.2 External Sync Signal Input Figure 5-5 LV5300/LV5300A/LV5350 External sync signal input connectors Figure 5-6 LV7300 External sync signal input connectors On the video-signal-waveform and vector displays, you can apply an external sync signal to display waveforms.
Page 82 5. BEFORE YOU BEGIN MEASURING External sync signals that are compatible with each input signal are indicated with a check mark in the following table. Proper measurement is possible only for combinations that are indicated with check marks. Table 5-2 External sync signal formats (SD, HD) SDI (SD, HD) Input Signal Format NTSC (59.94Hz) ✓...
Page 83 5. BEFORE YOU BEGIN MEASURING Table 5-3 External sync signal formats (3G) SDI (3G) Input Signal Format NTSC (59.94Hz) ✓ ✓ ✓ ✓ ✓ PAL (50Hz) ✓ ✓ ✓ ✓ ✓ 1080/60I ✓ ✓ ✓ 1080/59.94I ✓ ✓ ✓ 1080/50I ✓...
Page 84 5. BEFORE YOU BEGIN MEASURING Table 5-4 External sync signal formats (6G) SDI (6G) Sub Image Input Signal Format (*1) NTSC (59.94Hz) ✓ PAL (50Hz) ✓ 1080/30P ✓ 1080/29.97P ✓ 1080/25P ✓ 1080/24P ✓ 1080/23.98P ✓ If the input signal is 6G, the phase difference is measured for the 4k sub image format. Table 5-5 External sync signal formats (12G) SDI (12G) Sub Image Input Signal Format (*1)
Page 85: Monitor Signal Output (Lv7300)
5. BEFORE YOU BEGIN MEASURING 5.4.3 Monitor Signal Output (LV7300) Figure 5-8 LV7300 Monitor output connectors The SDI OUTPUT connector and TMDS OUTPUT connector transmit the instrument’s screen for monitoring purposes. Connect to an full high definition (1920×1080) display. • Selecting the output format On the MONITOR OUT tab of the SYS menu, select the output format.
Page 86: Operation Basics
5. BEFORE YOU BEGIN MEASURING Operation Basics 5.5.1 Displaying the Function Menu Use the function menu to change the various settings. Normally the function menu is displayed, but it can be cleared by pressing the mode key that is currently selected. You can also set it to disappear automatically on the GENERAL tab of the SYS menu.
Page 87: Mouse And Touch Panel Control
5. BEFORE YOU BEGIN MEASURING • Selecting Settings To select a setting from a list like the one shown in the figure above for F•4 WFM COLOR, press F•4 several times to select the setting you want. The setting changes each time you press F•4.
Page 88 5. BEFORE YOU BEGIN MEASURING • Tab Screen Settings Click or tap the setting on the screen and the function menu. You can change a value on a tab screen by using the ▲▼ key to the left and right of FD or the mouse wheel.
Page 89: Tab Menu Operations
5. BEFORE YOU BEGIN MEASURING 5.5.4 Tab Menu Operations Normally, the function menus are used to configure the various settings. However, tab menus—such as that shown below—are displayed in some situations. This section explains how to operate the tab menu, using the GENERAL tab menu as an example.
Page 90: Setting The Key Lock
5. BEFORE YOU BEGIN MEASURING 5.5.5 Setting the Key Lock You can prevent unintentional operations on the instrument by enabling the key lock. The key lock disables all the keys except for the power switch. Mouse and touch panel control are also disabled. •...
Page 91: Measurement Screen Description
5. BEFORE YOU BEGIN MEASURING Measurement Screen Description The measurement screen layout can be arranged as you like. This section explains items that are common to all displays. Figure 5-14 Measurement screen description...
Page 92 If this alarm appears even though there are no problems with the operating environment, contact your local LEADER agent. [See also] 7.2.15, “Displaying System Information.” and 7.2.1, “General Settings.”...
Page 93: Basic Operation
6. BASIC OPERATION BASIC OPERATION Setting the Input Signals This section explains the INPUT menu settings and input format display. 6.1.1 Selecting the Input Mode When SDI System on the SDI IN SETUP1 tab is set to 2K SD/HD/3G-A/3G-B-DL, to select the input mode, follow the procedure below.
Page 94: Selecting The Simul Mode
6. BASIC OPERATION DISPLAY = SIMUL Figure 6-1 Selecting the input mode 6.1.2 Selecting the Simul Mode When in simul mode, to select how to set each channel, follow the procedure below. If you change INDIVIDUAL to COM, all the settings are changed to those of the channel selected with F•6 INPUT SELECT on each measurement screen.
Page 95: Selecting The Displayed Channel
6. BASIC OPERATION 6.1.3 Selecting the Displayed Channel To select the channels to display, follow the procedure below. Procedure INPUT → F•1 A: ON / OFF → F•2 B: ON / OFF You can also use F•6 INPUT SELECT on each measurement screen to select the display channels.
Page 96: Setting The Signals To Measure
6. BASIC OPERATION Setting the Signals to Measure This section explains the procedure from applying an input to displaying the measurement screen for each of the different input signal formats. 6.2.1 SD, HD, 3G-A, and 3G-B-DL Measurement 1. On the SDI IN SETUP1 tab of the SYS menu, set SDI System to 2K SD/HD/3G-A/3G-B- [See also] 7.1.1, “Configuring the SDI Input Connectors”...
Page 97 6. BASIC OPERATION 2. If the input signal is HD or 3G, press F•2 PREV TAB or F•3 NEXT TAB, and under SETTING on the SDI IN SETUP2 tab, set the payload ID. Select Use or Not Use. If you select Not Use, specify the following settings. •...
Page 98 6. BASIC OPERATION 4. Apply SDI signals to the SDI INPUT connectors on the rear panel. Figure 6-5 LV5300/LV5300A SDI input connectors Figure 6-6 LV5350 SDI input connectors Figure 6-7 LV7300 SDI input connectors 5. Press INPUT to select the channels you want to measure.
Page 99: Measuring 6G Signals (Ser28)
6. BASIC OPERATION 6.2.2 Measuring 6G Signals (SER28) 1. On the SDI IN SETUP1 tab of the SYS menu, set SDI System to 4K 6G. [See also] 7.1.1, “Configuring the SDI Input Connectors” SYS → F•1 SIGNAL IN OUT → F•2 PREV TAB or F•3 NEXT TAB → Figure 6-9 SDI IN SETUP1 tab 2.
Page 100 6. BASIC OPERATION Figure 6-11 LV5300/LV5300A SDI input connectors Figure 6-12 LV5350 SDI input connectors Figure 6-13 LV7300 SDI input connectors 5. When you press INPUT, F•1 A is fixed to ON. Simul mode cannot be used. Figure 6-14 Measurement screen To measure 6G-SDI signals, use cables and connectors that are appropriate for transmitting 6G- SDI signals.
Page 101: Measuring 12G Signals (Ser28)
6. BASIC OPERATION 6.2.3 Measuring 12G Signals (SER28) 1. On the SDI IN SETUP1 tab of the SYS menu, set SDI System to 4K 12G. [See also] 7.1.1, “Configuring the SDI Input Connectors” SYS → F•1 SIGNAL IN OUT → F•2 PREV TAB or F•3 NEXT TAB → Figure 6-15 SDI IN SETUP1 tab 2.
Page 102 6. BASIC OPERATION Figure 6-17 LV5300/LV5300A SDI input connectors Figure 6-18 LV5350 SDI input connectors Figure 6-19 LV7300 SDI input connectors 5. When you press INPUT, F•1 A is fixed to ON. Simul mode cannot be used. Figure 6-20 Measurement screen To measure 12G-SDI signals, use cables and connectors that are appropriate for transmitting 12G-SDI signals.
Page 103: Measuring 3G(Dl)-4K Signals (Ser28)
6. BASIC OPERATION 6.2.4 Measuring 3G(DL)-4K Signals (SER28) 1. On the SDI IN SETUP1 tab of the SYS menu, set SDI System to 4K 3G Dual Link. [See also] 7.1.1, “Configuring the SDI Input Connectors” SYS → F•1 SIGNAL IN OUT → F•2 PREV TAB or F•3 NEXT TAB → Figure 6-21 SDI IN SETUP1 tab 2.
Page 104 3. Press COMPLETE. 4. Apply 3G-B DS signals to the SDI INPUT connectors on the rear panel. Connectors 1 and 2 is pair. Figure 6-23 LV5300/LV5300A SDI input connectors Figure 6-24 LV5350 SDI input connectors Figure 6-25 LV7300 SDI input connectors...
Page 105 6. BASIC OPERATION 5. When you press INPUT, F•1 A-B is fixed to ON. Figure 6-26 Measurement screen...
Page 106: Selecting The Measurement Mode
6. BASIC OPERATION Selecting the Measurement Mode The types of measurement screens available are WFM, VECT, PIC, AUDIO, STATUS, and EYE. There is also another type, MULTI, that combines these six types. Press a mode key on the front panel to select the type. 6.3.1 Video Signal Waveform Display To display video signal waveforms, press WFM.
Page 107: Picture Screen
6. BASIC OPERATION 6.3.3 Picture Screen To show the picture display, press PIC. The available features include monochrome display, marker display, line select display, and focus assist display (SER25). Figure 6-29 Picture display 6.3.4 Audio Display To show the audio display, press AUDIO. The available features include meter display, Lissajous display (SER20), surround display (SER20), and status display (SER20) of the signal selected with F•7 MAPPING.
Page 108: Status Display
Event log display and data dump display are available. Figure 6-31 Status display 6.3.6 Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) To show eye patterns, press EYE. (If LV5350 or LV7300-SER02 is not installed, the EYE key is disabled.) You can also show jitter by switching F•1 EYE/JITTER MODE.
Page 109: Multi Display
6. BASIC OPERATION 6.3.7 Multi Display To show a multi screen, which is a combination of measurement screens, press MULTI. If Mode Key Direct on the GENERAL tab is set to Single, you can select between six types of layouts by using F•1 LAYOUT SELECT. To set each measurement screen, use F•2 MULTI WFM MENU to F•7 MULTI EYE MENU.
Page 110 6. BASIC OPERATION • USER 2 The picture is displayed in the main screen, and the video signal waveform and vector are displayed as thumbnails. Figure 6-34 Multi display (USER 2, Single Mode) • USER 3 The vector is displayed in the main screen, and the video signal waveform and picture are displayed as thumbnails.
Page 111 6. BASIC OPERATION • USER 4 The picture, video-signal-waveform, and vector are displayed top to bottom. This is suitable for simul mode. Figure 6-36 Multi display (USER 4, Simul Mode) • USER 5 The picture and video signal waveform are displayed in the top and bottom screens. This is suitable for simul mode.
Page 112 6. BASIC OPERATION • USER 6 The tally, picture, and video signal waveform are displayed in tiles. This is suitable for simul mode. Figure 6-38 Multi display (USER 6, Simul Mode)
Page 113: Operation Key Actions
6. BASIC OPERATION Operation Key Actions Operation keys are shortcut keys for functions that are frequently used in video content production. Key assignments can be changed freely on the OPERATION KEY tab. [See also] OPERATION KEY tab → 7.2.13, “Setting the Operation keys” The S-CUT key can be controlled from the panel, mouse, and touch panel.
Page 114: Customized Layout (Ser26)
6. BASIC OPERATION • Operation keys Other Than S-CUT Other operation keys can be controlled from the mouse and touch panel. This is valid on the video signal waveform display and vector display. Each time you press the key, the settings assigned to the key switch. [See also] Video signal waveform display →...
Page 115: Layout Procedure
6. BASIC OPERATION 6.5.2 Layout Procedure As an example, this section explains how to change the layout of a multi display (User 1) in the following manner. a) Display the layout screen b) Change TIME in the upper right of the screen to DATE c) Superimpose the vector on the picture d) Add audio e) Add TIME to the status...
Page 116 6. BASIC OPERATION a) Display the layout screen 1. Press MULTI, and set F•1 LAYOUT SELECT to USER 1. If Mode Key Direct on the GENERAL tab is set to Multi/Single Common, hold MULTI down for about 2 seconds to display the function menu. There are six layouts for the multi screen.
Page 117 6. BASIC OPERATION 6. Place the DATE item in the area where the TIME item was displayed. To move an item, drag it. To resize an item, drag the green handles at the four corners of the item. The position and size of an item snap to the grid selected by Grid Size in the layout window.
Page 118: Layout Screen Description
6. BASIC OPERATION 6.5.3 Layout Screen Description Figure 6-42 Layout screen Layout Window The Layout window is used to create layouts. Mode in the title bar displays the current measurement mode (WFM, USER 1 to USER 5, etc.). You can move the window by dragging and close it by clicking or tapping X in the upper right of the window.
Page 119 6. BASIC OPERATION Figure 6-43 Layout window...
Page 120 6. BASIC OPERATION Select Item Displays the selected item. Display Mode / Style Select the display format for simul mode. Display Mode applies to the entire screen, Style applies to the selected item. If Display Mode is not set to NORMAL or if the selected item is AUDIO or EYE, Style cannot be selected.
Page 121 6. BASIC OPERATION • When Display Mode Is NORMAL The screen is divided by channel within each item. Select the division format with Style. TILE (tile the screens) MIX (cascade the screens) ALIGN-V (arrange vertically) ALIGN-H (arrange horizontally) Figure 6-45 Normal display •...
Page 122 6. BASIC OPERATION • When Display Mode Is ALIGN-H The screen is divided by channel and arranged side by side. Figure 6-47 ALIGN-H display • When Display Mode Is ALIGN-V The screen is divided by channel and arranged top to bottom. Figure 6-48 ALIGN-V display...
Page 123 6. BASIC OPERATION DELETE Deletes the selected item. DEFAULT LAYOUT Resets the layout to the initial settings defined for each measurement mode. Grid Size is not reset. Grid Size: 10x10 / 30x30 Select the grid size. The position and size of items snap to the grid specified here. Main Measurement items.
Page 124 6. BASIC OPERATION 10 Sub Items for displaying information. • FORMAT Shows the format (e.g., 1920x1080/59.94I YCbCr(422) 10bit HD). If you place this item, you can show and hide it using the GENERAL SETUP tab of the SYS menu. It is normally displayed in white, but if the input format is not appropriate, it turns red. •...
Page 125 6. BASIC OPERATION 12 Area Set the position and size of the selected item. The coordinates at the upper left corner of the screen are (0, 0). Those at the lower right corner are (1920, 1080). Based on these references, the coordinates of the upper left corner of the item is (x0, y0), and those of the lower right corner is (x1, y1).
Page 126 6. BASIC OPERATION 14 PICTURE - Tally Setup Select whether to display tallies on the outer frame of the PICTURE item. This setting applies to all PICTURE items and enhanced layout. If this is set to on, TALLY-1 set on the TALLY tab or through the remote connector is shown on the outside and TALLY-2 on the inside.
Page 127 6. BASIC OPERATION 16 VECT Select the display mode of the VECTOR item. Select the mode before clicking or tapping the VECTOR item. VECT / 5BAR /HIST / CIE Shows the normal vector display. You can switch the display (*1) between vector waveform, 5bar, histogram and CIE chromaticity diagram.
Page 128 6. BASIC OPERATION 18 STATUS - Standard Selects the display mode of the STATUS item. Select the mode before clicking or tapping the STATUS item. STATUS ALL (*1) This is the normal status display. The display switches between error count, data dump, etc. It cannot be arranged with the items below at the same time.
Page 129 6. BASIC OPERATION 19 EYE Select the display mode of the EYE item. Select the mode before clicking or tapping the EYE item. EYE / JITTER (*1) This is the normal eye pattern display. The display switches between eye pattern and jitter. It cannot be arranged with the items below at the same time.
Page 130: Enhanced Layout (Ser26)
6. BASIC OPERATION Enhanced Layout (SER26) Enhanced layout is an extended function that enables the measurement screens of up to two channels to be laid out on a single screen simultaneously in simul mode. To use this function, connect a mouse to the front panel USB port. Figure 6-52 Enhanced layout Enhanced layout will not be initialized even if PARAM INIT YES is executed from the SYS menu.
Page 131: Enhanced Layout Procedure
6. BASIC OPERATION 6.6.1 Enhanced Layout Procedure As an example, this section will explain the procedure to display the enhanced layout of channels A and B. Enhanced layout can be shown in simul mode when multi-screen display is in use. 1.
Page 132 6. BASIC OPERATION 4. Right-click in the measurement screen, and click ENHANCED LAYOUT. The enhanced layout screen appears. Figure 6-55 Enhanced layout screen 5. Change the layout as necessary. A default layout is initially stored in the main unit. Even after you change the layout, you can return to the default layout by clicking DEFAULT LAYOUT.
Page 133 6. BASIC OPERATION • Arranging Items Arrange items on the Main, Sub1, Sub2, Sub3, and Other tabs. Main, Sub1, Sub2, and Sub3 represent four channels. The channel selected with F•6 INPUT SELECT on each measurement screen is displayed in Main. •...
Page 134 6. BASIC OPERATION 6. Right-click or tap in the enhanced layout screen, and click or tap SAVE. The measurement screen returns. If you click or tap EXIT, all the changes that you made up to that point will be canceled. Figure 6-56 Enhanced layout (INPUT SELECT = A) Items arranged on Main show the channels selected with F•6 INPUT SELECT on each measurement screen.
Page 135: Enhanced Layout Screen Description
6. BASIC OPERATION 6.6.2 Enhanced Layout Screen Description Figure 6-58 Enhanced layout screen description Enhanced layout window The Layout window is used to create layouts. You can move the window by dragging and close it by clicking × in the upper right of the window.
Page 136 6. BASIC OPERATION Item Items arranged on the Main, Sub1 to Sub3, and other tabs are displayed. The upper-left coordinate, item name, and size are displayed in the frame. If you select it, the item name color changes from white to light blue. Figure 6-59 Enhanced layout window MODE Assign measurement modes to Layout-1 to Layout-4.
Page 137 6. BASIC OPERATION • Input Turns on and off the input signal display (e.g., SDI A). If you set this to ON, you can show and hide it using the GENERAL SETUP tab of the SYS menu. • Frame Turns on and off the frame display of PICTURE items. •...
Page 138 6. BASIC OPERATION • FORMAT Shows the format (e.g., 1920x1080/59.94I YCbCr(422) 10bit HD). If you place this item, you can show and hide it using the GENERAL SETUP tab of the SYS menu. It is normally displayed in white, but if the input format is not appropriate, it turns red. If the specified format is not received, it turns yellow.
Page 139 6. BASIC OPERATION Ctrl Manipulates items such as select, copy, and paste. • TEMP-SAVE Temporarily saves the current layout. Note that the layout that is present when you enter the enhanced layout screen is automatically saved even if you don’t click TEMP-SAVE. The saved layout is deleted when you exit from the enhanced layout screen.
Page 140 6. BASIC OPERATION • ALL - --- CH - MAIN/SUB1/SUB2/SUB3 ITEM - LAYOUT-1/LAYOUT-2 and the like Selects the target items when you select items with << and >>. If you select ALL, all items of all channels are selected in order. If you select CH, all items of the selected channel are selected in order.
Page 141: System Settings
7. SYSTEM SETTINGS SYSTEM SETTINGS The SYS menu can be used to configure the instrument and options. Press SYS, and use the SYS menu. SYS → Figure 7-1 SYS menu Configuring the I/O Connectors To configure the I/O connector settings, use F•1 SIGNAL IN OUT on the SYS menu. 7.1.1 Configuring the Input System Use SDI on the SDI IN SETUP1 tab to configure the input system of SDI INPUT on the rear...
Page 142 7. SYSTEM SETTINGS • Colorimetry Select the colorimetry to use on the video-signal-waveform, vector, picture, and CIE- chromaticity-diagram displays. The currently applied colorimetry is displayed in cyan in the vector display and CIE chromaticity diagram display. For 3G(DL)-4K, if you select a payload ID, the current applied colorimetry is displayed in yellow if the colorimetries of all links are not matched.
Page 143 7. SYSTEM SETTINGS Gamma curve (0 to 100% of input) Gamma curve (Expand 0 to 0.2% of input) Example of vector waveform display Ideal Value DCI Gamma Bottom Zero Gamma...
Page 144: Setting The Input Format
7. SYSTEM SETTINGS 7.1.2 Setting the Input Format Use SDI Input Rate on the SDI IN SETUP1 tab to set the SDI input signal format. SYS → F•1 SIGNAL IN OUT → F•2 PREV TAB or F•3 NEXT TAB → Figure 7-3 SDI IN SETUP1 tab •...
Page 145: Setting The Payload Id
7. SYSTEM SETTINGS 7.1.3 Setting the Payload ID User Format on the SDI IN SETUP2 tab to set the payload ID parameters. SYS → F•1 SIGNAL IN OUT → F•2 PREV TAB or F•3 NEXT TAB → Figure 7-4 SDI IN SETUP2 tab •...
Page 146 7. SYSTEM SETTINGS • Division Selects the division transmission system when SDI System is 4K 3G Dual Link. If you select 2 Sample Interleaved when Psf format is in use, the instrument will not operate properly. Square / 2 Sample Interleave •...
Page 147: Setting The Format Alarm
7. SYSTEM SETTINGS 7.1.4 Setting the Format Alarm User Alarm on the SDI IN SETUP2 tab to set the format alarm parameters. SYS → F•1 SIGNAL IN OUT → F•2 PREV TAB or F•3 NEXT TAB → Figure 7-5 SDI IN SETUP2 tab •...
Page 148 7. SYSTEM SETTINGS • System • Structure • Frame/Field Rate When format alarm detection is on, specify the expected format. For information on the format combinations that are available, see section 3.3.1, “SDI Video Formats and Standards.” Table 7-2 Format selection Video System System Structure...
Page 149: Configuring The Sdi Output Connectors
Select the signal output from SDI OUTPUT 2. If SER24 TSG is not installed, Test Signal cannot be selected. On the LV5300/LV5300A and LV5350, you can select Monitor Out. If you select Monitor Out, SDI OUTPUT 2 transmits the instrument’s screen for monitoring purposes. On the MONITOR OUT tab, select the output format.
Page 150: Configuring The Tsg Settings (Ser24)
7. SYSTEM SETTINGS 7.1.6 Configuring the TSG Settings (SER24) When Mode (SDI2) on the SDI OUT tab is set to Test Signal, use the parameters under Test Signal to set the TSG to output from SDI OUTPUT 2 on the rear panel. SYS →...
Page 151 7. SYSTEM SETTINGS • Pattern • Interlock Select the output pattern. The selectable patterns are shown below. The selectable patterns vary depending on the System setting. Depending on the pattern, you can turn on and off YCbCr or RGB separately. For COLOR RASTER, you can set the YCbCr or RGB levels separately.
Page 152 7. SYSTEM SETTINGS • Scroll Select the scroll direction for when a pattern is scrolled. If a setting other than OFF is selected, Moving Box and Phase Difference are turned off. You cannot select this when Pattern is set to CROSS HATCH. RIGHT: Scrolls from left to right.
Page 153 7. SYSTEM SETTINGS • Embedded Audio When the pattern is not LIP SYNC, select the audio channels to embed in the SDI signal. 1 to 4ch is referred to as G1, 5 to 8ch as G2, 9 to 12ch as G3, and 13 to 16ch as G4. The channels that can be embedded are 8 channels or 16 channels depending on the system and frame/field rate as shown below.
Page 154: Configuring The Monitor Output Connectors
7.1.7 Configuring the Monitor Output Connectors On the LV5300/LV5300A and LV5350, use LCD/SDI on the MONITOR OUT tab to specify the SDI signal (Monitor Out) transmitted from SDI OUTPUT 2 on the rear panel when Mode (SDI2) is set to Monitor Out on the SDI OUT tab and configure the instrument’s LCD settings.
Page 155: Configuring The Hdr Settings (Ser23)
7. SYSTEM SETTINGS 7.1.8 Configuring the HDR Settings (SER23) On the HDR tab, configure the settings of HDR measurement for each display channel (Input A/B). SYS → F•1 SIGNAL IN OUT → F•2 PREV TAB or F•3 NEXT TAB → Figure 7-9 HDR tab...
Page 156 7. SYSTEM SETTINGS • HDR Mode Turn of the HDR measurement, or select the HDR signal standard. If you select an HDR signal standard, HDR signals can be measured on the video-signal-waveform, vector, and picture displays. HLG and PQ refer to ITU-R BT.2100, and S-Log3, C-Log and Log-C refer to the log curve output from cameras of other manufacturers.
Page 157 7. SYSTEM SETTINGS • Ref. Level When HDR Mode is set to HLG or PQ, select the reference level for the program production. When HDR Mode is set to S-Log3, C-Log, or Log-C, it is set to default value and cannot be selected. When the HDR mode is set to PayloadID UnSpec:S-Log3, PayloadID UnSpec:C-Log, or PayloadID UnSpec:Log-C, select the level by combining the HLG and PQ levels.
Page 158 7. SYSTEM SETTINGS • EI When HDR mode is set to Log-C, select the EI value. 200 / 400 / 800 / 1600 • System Gamma When HDR Mode is set to HLG or S-Log3, turn system gamma on or off. If system gamma is set to on, the scale corresponding to the HDR signal of the video signal waveform display and picture display is shown in Nits, which is a unit of display intensity for HLG displays.
Page 159: Configuring The Instrument
The settings that you specify here will not be initialized even if you initialize the instrument. In addition, they are not recorded to presets. LV5300/LV5300A / LV7300-SER02 4 / 5 / 6 / 7 / 8 LV5350 / LV7300-SER01...
Page 160: Configuring The Function Menu
Off / 1 / 5 / 10 / 20 / 30 / 60 [min] • LCD Auto Off (LV5300/LV5300A/LV5350) Select the length of time that must elapse after the last key operation before the backlight is automatically turned off.
Page 161: Configuring The On-Screen Menu
7. SYSTEM SETTINGS • Mode Key Direct In multi-screen display, you can select whether to switch the measurement screen with the mode keys (WFM, VECT, PIC, AUDIO, STATUS, and EYE). Single: Using the mode key switches the function menu and measurement screen.
Page 162: Configuring The Capture Feature
7. SYSTEM SETTINGS • Auto Off For keys on the screen controlled with the mouse or touch panel, select the length of time that must elapse without any key operations for the keys to disappear automatically. Off / 1 / 2 / 3 / 4 / 5 / 10 / 20 / 30 / 60 [sec] •...
Page 163: Configuring The Information Display
7. SYSTEM SETTINGS 7.2.5 Configuring the Information Display Use Information Display on the CAPTURE & DISPLAY tab to configure the information display. SYS → F•2 SYSTEM SETUP → F•2 PREV TAB or F•3 NEXT TAB → Figure 7-14 CAPTURE & DISPLAY tab •...
Page 164: Setting The Network Ip
7. SYSTEM SETTINGS • Error Turn on or off the error display in the upper right of the measurement screen. [See also] 5.6, “Measurement Screen Description” Off / On • Date Select the display format of the date. y is the Gregorian year, m is the month, and d is the day.
Page 165: Configuring Sntp
7. SYSTEM SETTINGS • DHCP Select how to set the IP address. Off: Enter the IP address, subnet mask, and default gateway manually. The IP address, subnet mask, and default gateway are set automatically. • IP Address • Subnet Mask •...
Page 166: Configuring The Server
7. SYSTEM SETTINGS • Server IP Address • Time Zone Adjust When the SNTP client function is set to ON, enter the NTP server IP address in Server IP Address and the time adjustment value in Time Zone Adjust. 7.2.8 Configuring the Server Use Server on the NETWORK tab to configure the TELNE, FTP, and HTTP.
Page 167: Configuring Snmp
7. SYSTEM SETTINGS 7.2.9 Configuring SNMP Use SNTP tab to configure the SNTP parameters. The settings that you specify here will not be initialized even if you initialize the instrument. Nor are they recorded to presets. SYS → F•2 SYSTEM SETUP → F•2 PREV TAB or F•3 NEXT TAB → Figure 7-18 SNMP tab •...
Page 168 7. SYSTEM SETTINGS You can use the following keys on the SNMP community name input screen. F•1 CLEAR ALL Deletes all characters F•2 DELETE Deletes the character at the cursor F•3 INSERT Inserts the selected character at the cursor position F•4 <= Moves the cursor to the left F•5 =>...
Page 169: Configuring The Remote Control Settings
7. SYSTEM SETTINGS 3. Press F•1 MIB FILE COPY. The enterprise MIB file is saved to USB memory device. Enterprise MIB file is saved to the following locations. USB memory device └ LV5300_USER, LV5350_USER or LV7300_USER └ └ lv5300.my, lv5350.my or lv7300.my When the enterprise MIB file exists in the USB memory device, F•1 OVER WRITE YES and F•3 OVER WRITE NO appear.
Page 170: Setting The Camera Id (Ser27)
7. SYSTEM SETTINGS • Select (SER27) When Mode is Bit or Binary, select the function to assign to pin 10 (/ACH), pin 11 (/BCH), pin 12 (/CCH), and pin 13 (/DCH) of the remote connector. When Mode is Command or Tally, select Recall.
Page 171 7. SYSTEM SETTINGS • Control Select Set the camera ID from the instrument. To camera ID is displayed for the LABEL-1, LABEL-2, and IRIS items on the layout. Local • Selecting the placement Select the placement of the camera ID. LEFT / CENTER / RIGHT •...
Page 172: Configuring The Tally Display (Ser27)
7. SYSTEM SETTINGS 7.2.12 Configuring the Tally Display (SER27) Use the TALLY tab to configure the settings of the TALLY item placed in the layout. SYS → F•2 SYSTEM SETUP → F•2 PREV TAB or F•3 NEXT TAB → Figure 7-23 TALLY tab •...
Page 173 7. SYSTEM SETTINGS • Tally-EXT Comment Displays the comment of the TALLY-EXT item placed in the layout. The default value is EXT, but you can change it using F•5 TALLY EXT COMMENT INPUT. Enter a comment using up to eight characters. You can use the following keys on the comment input screen.
Page 174: Setting The Operation Keys
7. SYSTEM SETTINGS 7.2.13 Setting the Operation keys Use the OPERATION KEY tab to set the operation keys. SYS → F•2 SYSTEM SETUP → F•2 PREV TAB or F•3 NEXT TAB → Figure 7-25 OPERATION KEY tab • FORM Set the display format and display order to apply when the FORM key is pressed on the video signal waveform display or vector display.
Page 175 7. SYSTEM SETTINGS • FILTER Set the filter and display order to apply when the FILTER key is pressed in the pseudo- composite display of the video signal waveform display. Select SKIP to skip an item. Note that for component display, the FILTER key is used to switch between FLAT and LOWPASS.
Page 176: Date And Time Settings
7. SYSTEM SETTINGS 7.2.14 Date and time settings Use the DATE&TIME tab to set the date and time. You cannot set these settings when the SNTP client function is set to on. The settings that you specify here will not be initialized even if you initialize the instrument. In addition, they are not recorded to presets.
Page 177: Configuring The Lv7290
7. SYSTEM SETTINGS 7.2.15 Configuring the LV7290 You can configure the LV 7290 REMOTE CONTROLLER (sold separately) on the LV7290 SETUP tab. If LV7290 is not selected under Telnet on the NETWORK tab, the LV7290 will not be displayed. [See also] Telnet →...
Page 178 Select whether to display the background of the REMOTE LABEL item placed in the layout in gray. Off / On • Connect Destination Select whether to send the LV5300/LV5300A’s, LV5350’s and LV7300’s IP address to the LV7290. Off / On • UNIT-1 to 8 IP Address...
Page 179: Displaying System Information
Displays the hardware versions. • SER01 / SER02 On the LV5300/LV5300A, “NONE” is displayed for SER01 and the version is displayed for SER02. The versions of the installed hardware options are displayed for SER11 and SER12. Units displayed as “NONE” are not installed.
Page 180 If either of these alarm appears, immediately turn the power off, and then check for problems with the operating environment. If this alarm appears even though there are no problems with the operating environment, contact your local LEADER agent.
Page 181: Installing Software Options
7. SYSTEM SETTINGS Installing Software Options To install options, use F•4 LICENSE on the SYS menu. You can use this screen to view the MAC address and install options. [See also] 2.3, “Software Options” SYS → F•4 LICENSE → Figure 7-30 LICENSE tab •...
Page 182: Adjusting The Backlight (Lv5300/Lv5300A/Lv5350)
(28). 1 - 28 - 32 Turning Off the LCD Panel (LV5300/LV5300A/LV5350) To turn off the LCD, press F•6 LCD OFF on the SYS menu. To turn it on again, press any key excluding the power switch, double-click, or operate the...
Page 183: Initialization
7. SYSTEM SETTINGS Initialization To initialize the settings and layout, use F•7 INITIALIZE on the SYS menu. SYS → F•7 INITIALIZE → Figure 7-31 INITIALIZE menu 7.7.1 Initializing Settings To initialize the settings, press F•1 PARAM INIT YES. To cancel, press F•5 INIT CANCEL. When you initialize the settings, all the settings—excluding those listed below—are initialized.
Page 184: Initializing The Layout
7. SYSTEM SETTINGS 7.7.2 Initializing the Layout To initialize the layout, press F•2 LAYOUT INIT YES. To cancel, press F•5 INIT CANCEL. When you initialize the layout, the layouts configured in all measurement displays (11 total) will be initialized. To initialize the layout in each measurement display, click or tap DEFAULT LAYOUT in the appropriate layout window.
Page 185: Capture Feature
8. CAPTURE FEATURE CAPTURE FEATURE You can use the screen capture feature to capture still-image data of the screen. You can save the captured data to a USB memory device or overlay it on the input signal on the instrument’s display.
Page 186: Saving To A Usb Memory Device
8. CAPTURE FEATURE Saving to a USB Memory Device Captured data acquired by pressing CAP is deleted when you perform an operation such as changing the measurement screen. However, by saving the screen capture data to a USB memory device in BSG format, you will be able to display the screen capture data on the instrument even after it is restarted.
Page 187 8. CAPTURE FEATURE If F•1 AUTO FILENAME is set to off, press F•2 NAME INPUT to enter the file name. Enter up to 17 characters. The key operations that you can perform in the file name input display are as follows: F•1 CLEAR ALL Deletes all characters F•2 DELETE...
Page 188: Displaying Screen Capture Data From A Usb Memory Device
8. CAPTURE FEATURE Displaying Screen Capture Data from a USB Memory Device To display or overlay on the current input signal the BSG screen capture data that has been saved to a USB memory device, follow the procedure below. (Screen capture data that has been saved in BMP format and screen capture data that has been saved in BSG format on a different model cannot be displayed on the instrument.) 1.
Page 189 8. CAPTURE FEATURE 5. Press F•5 DELETE FILE. The DELETE FILE menu appears. CAP → F•6 USB MEMORY → F•4 DELETE FILE → CAP → F•6 USB MEMORY → F•5 RECALL → F•4 DELETE FILE → Figure 8-4 DELETE FILE menu 6.
Page 190: Preset Feature
Also, you can use the same settings on multiple instruments by copying presets to USB memory. However, the preset data is not compatible between the LV5300/LV5300A, LV5350, and LV7300. All items except the items below are stored in a preset. Stored items are not deleted even if you initialize the settings.
Page 191 9. PRESET FEATURE 3. Press F•1 COMMENT INPUT. The comment input screen appears. You can also copy a comment from a preset that already has a comment saved to it. To copy a comment, on the preset registration display, move the cursor to the preset that has the comment that you want to copy, and press the function dial (F•D).
Page 192: Loading Presets
9. PRESET FEATURE Loading Presets To recall a preset, follow the procedure below. 1. Press RECALL. The RECALL menu appears. Figure 9-4 RECALL menu 2. Press a key from F•1 No.1 to F•6 No.6. If the preset that you want to load is number 7 or greater, press F•7 more or turn the function dial (F•D).
Page 193: Deleting Presets
9. PRESET FEATURE Deleting Presets To delete a preset, follow the procedure below. 1. Press MEM. The preset registration screen appears. Figure 9-5 Preset registration screen 2. Turn the function dial (F•D) to select the file that you want to delete. 3.
Page 194: Copying All Presets From The Instrument To A Usb Memory Device
9. PRESET FEATURE Copying All Presets from the instrument to a USB Memory Device To copy all the presets from the instrument to a USB memory device, follow the procedure below. 1. Connect a USB memory device to the instrument. 2.
Page 195: Copying All Presets From A Usb Memory Device To The Instrument
9. PRESET FEATURE Copying All Presets from a USB Memory Device to the instrument To copy all the presets from a USB memory device to the instrument, follow the procedure below. 1. Connect a USB memory device to the instrument. 2.
Page 196: Video Signal Waveform Display
10. Video Signal Waveform Display 10. VIDEO SIGNAL WAVEFORM DISPLAY To display the video signal waveform, press WFM. Figure 10-1 Video signal waveform display • Colorimetry Normally, colorimetry is not displayed, but when the colorimetry alarm on the SYS menu is set to on and a colorimetry different from the one specified is received, the alarm is indicated in red in the upper left of the screen.
Page 197: Setting The Waveform Display Position
Use the V POS and H POS knobs to adjust the display position of video signal waveforms. On the multi display, these are valid when you press F•2 MULTI WFM on the MULTI menu. Figure 10-2 LV5300/LV5300A, LV5350 V POS and H POS knobs Figure 10-3 LV7300 V POS and H POS knobs •...
Page 198: Configuring The Display Settings
10. Video Signal Waveform Display 10.3 Configuring the Display Settings To configure the display settings, press F•1 WFM INTEN/CONFIG on the WFM menu. WFM → F•1 WFM INTEN/CONFIG → Figure 10-4 WFM INTEN/CONFIG menu 10.3.1 Selecting the Display Mode To configure the display mode settings, press F•2 WFM MODE on the WFM INTEN/CONFIG menu.
Page 199: Turning The Channels On And Off
10. Video Signal Waveform Display WFM MODE = PARADE Figure 10-6 Selecting the display mode 10.3.2 Turning the Channels On and Off To turn the waveforms on and off, follow the procedure below. You cannot turn all the waveforms off. This menu item is not displayed when COLOR MATRIX is set to COMPOSITE or when YGBR or YRGB is set to ON.
Page 200: Selecting The Waveform Color
10. Video Signal Waveform Display 10.3.4 Selecting the Waveform Color To select the video signal waveform color, follow the procedure below. On the multi display, the following colors are assigned to the video signal waveforms. Y: White Cb: Cyan Cr: Magenta G: Green B: Blue R: Red...
Page 201: Selecting The Scale Unit
10. Video Signal Waveform Display 10.3.7 Selecting the Scale Unit To select the scale unit, follow the procedure below. When COLOR MATRIX is set to COMPOSITE and the composite display format is NTSC, the scale unit setting is fixed at %. When the composite display format is PAL, this is fixed to V. Video signal white (100 %) becomes 0.7 V or 100 % on the scale.
Page 202 10. Video Signal Waveform Display SCALE UNIT = HD%,SD% SCALE UNIT = CV DEC SCALE UNIT = CV HEX Figure 10-8 Selecting the scale unit...
Page 203: Displaying A Scale For 75% Color Bars
10. Video Signal Waveform Display 10.3.8 Displaying a Scale for 75% Color Bars When COLOR MATRIX is set to YCbCr, to display a scale on which a 75% color bar signal input is mapped to the peak level of the chrominance, follow the procedure below. [See also] COLOR MATRIX →...
Page 204: Configuring The Gain And Filter Settings
10. Video Signal Waveform Display SCALE DISPLAY = OFF Figure 10-10 Displaying the scale 10.4 Configuring the Gain and Filter Settings To configure the gain and filter settings, press F•2 GAIN/FILTER on the WFM menu. WFM → F•2 GAIN/FILTER → Figure 10-11 GAIN/FILTER menu 10.4.1 Setting the Variable Gain...
Page 205: Selecting The Fixed Gain
10. Video Signal Waveform Display 10.4.2 Selecting the Fixed Gain To select the fixed video signal waveform gain, follow the procedure below. Procedure WFM → F•2 GAIN/FILTER → F•2 GAIN MAG: X1 / X5 / X10 10.4.3 Selecting the Filter To select the filter to apply to video signal waveforms, follow the procedure below.
Page 206 10. Video Signal Waveform Display FILTER = LOWPASS Figure 10-12 Selecting the filter (component) Procedure (When COLOR MATRIX is set to COMPOSITE) WFM → F•2 GAIN/FILTER → F•3 FILTER: FLAT / LUM / FLAT+LUM / LUM+CRMA Settings FLAT: Only the pseudo-composite signal is displayed. LUM: Only the luminance signal is displayed.
Page 207 10. Video Signal Waveform Display FILTER = LUM FILTER = FLAT+LUM FILTER = LUM+CRMA Figure 10-13 Selecting the filter (composite)
Page 208: Setting The Scale Jump
10. Video Signal Waveform Display 10.4.4 Setting the Scale Jump If F•2 GAIN MAG is set to X5, the waveform is expanded five times in the Y-axis direction. To select the area you want to see expanded, follow the procedure below. You can view the area that is currently displayed with respect to the entire waveform on the scale shown on the right side of the screen.
Page 209 10. Video Signal Waveform Display • Cursors The scale jump function operates based on the Y-axis cursor, and the area near the currently selected cursor (▼ mark) is expanded. An operation example is shown below. [Preparation] 1. On the CURSOR menu, set F•1 CURSOR to ON and F•2 XY SEL to Y. 2.
Page 210: Configuring The Sweep Settings
10. Video Signal Waveform Display 10.5 Configuring the Sweep Settings To configure the sweep settings, press F•3 SWEEP on the WFM menu. WFM → F•3 SWEEP → Figure 10-15 SWEEP menu 10.5.1 Selecting the Sweep Method To select the video signal waveform sweep method, follow the procedure below. Procedure WFM →...
Page 211: Selecting The Line Display Format
10. Video Signal Waveform Display SWEEP = V Figure 10-16 Selecting the sweep method 10.5.2 Selecting the Line Display Format When F•1 SWEEP is set to H, to select the sweep time, follow the procedure below. Procedure WFM → F•3 SWEEP → F•2 H SWEEP: 1H / 2H Settings One line is displayed.
Page 212: Selecting The Field Display Format
10. Video Signal Waveform Display H SWEEP = 2H Figure 10-17 Selecting the line display format 10.5.3 Selecting the Field Display Format When F•1 SWEEP is set to V, to select the sweep time, follow the procedure below. Procedure WFM → F•3 SWEEP → F•2 V SWEEP: 1V / 2V Settings One field is displayed.
Page 213: Selecting The Horizontal Magnification
10. Video Signal Waveform Display V SWEEP = 2V Figure 10-18 Selecting the field display format Furthermore, when the input signal is interlace or segmented frame and F•2 V SWEEP is set to 1V, to select which field is displayed, follow the procedure below. Procedure WFM →...
Page 214 10. Video Signal Waveform Display Settings The video signal waveforms are displayed so that they fit on the screen. X10: The video signal waveforms are magnified from the center of the display to 10 times the size of X1. X20: The video signal waveforms are magnified from the center of the display to 20 times the size of X1.
Page 215 10. Video Signal Waveform Display SWEEP MAG = ACTIVE SWEEP MAG = BLANK Figure 10-19 Horizontal magnifications...
Page 216: Displaying The Blanking Interval
10. Video Signal Waveform Display 10.5.5 Displaying the Blanking Interval To set how the waveforms in the blanking interval are displayed, follow the procedure below. If a setting other than REMOVE is selected, the vertical blanking interval is also displayed on the vector display.
Page 217: Configuring The Cursor Settings
10. Video Signal Waveform Display 10.6 Configuring the Cursor Settings To configure the cursor settings, press F•4 CURSOR on the WFM menu. WFM → F•4 CURSOR → Figure 10-21 CURSOR menu 10.6.1 Turning Cursors On and Off To turn cursors on and off, follow the procedure shown below. The REF cursor is displayed in blue, and the DELTA cursor is displayed in green.
Page 218: Selecting The Y-Axis Measurement Unit
10. Video Signal Waveform Display XY SELECT = Y Figure 10-22 Selecting the cursor 10.6.3 Selecting the Y-Axis Measurement Unit When F•2 XY SELECT is set to Y, to select the Y-axis cursor measurement unit, follow the procedure below. When COLOR MATRIX is set to YCbCr, GBR, or RGB, the default value is %. [See also] COLOR MATRIX →...
Page 219: Selecting The X-Axis Measurement Unit
10. Video Signal Waveform Display 10.6.4 Selecting the X-Axis Measurement Unit When F•2 XY SELECT is set to X, to select the X-axis cursor measurement unit, follow the procedure below. Procedure WFM → F•4 CURSOR → F•3 X UNIT: sec / Hz Settings sec: The measurement unit is seconds.
Page 220: Configuring The Line Selection Settings
10. Video Signal Waveform Display CURSOR VALUE = ON Figure 10-23 Turning the cursor value display on and off 10.7 Configuring the Line Selection Settings To configure the line selection settings, press F•5 LINE SELECT on the WFM menu. WFM → F•5 LINE SELECT → Figure 10-24 LINE SELECT menu 10.7.1 Turning Line Selection On and Off...
Page 221: Setting The Line Selection Range
10. Video Signal Waveform Display LINE SELECT = ON LINE SELECT = OFF Figure 10-25 Turning line selection on and off 10.7.2 Setting the Line Selection Range When F•1 LINE SELECT is set to ON and the input signal format is interlaced or segmented frame, to set the line selection range, follow the procedure below.
Page 222: Configuring The Color System Settings
10. Video Signal Waveform Display 10.8 Configuring the Color System Settings To configure the color system settings, press F•7 COLOR SYSTEM on the WFM menu. WFM → F•7 COLOR SYSTEM → Figure 10-26 COLOR SYSTEM menu 10.8.1 Selecting the Color Matrix The instrument performs a matrix conversion on an input signal to convert it into a GBR, RGB or pseudo-composite signal.
Page 223 10. Video Signal Waveform Display COLOR MATRIX = GBR COLOR MATRIX = RGB COLOR MATRIX = COMPOSITE Figure 10-27 Selecting the color matrix...
Page 224: Turning The Luminance Signal On And Off
10. Video Signal Waveform Display 10.8.2 Turning the Luminance Signal On and Off When F•1 COLOR MATRIX is set to GBR or RGB, to turn the luminance signal (Y) on and off, follow the procedure below. Procedure WFM → F•7 COLOR SYSTEM →...
Page 225: Selecting The Setup Level
10. Video Signal Waveform Display 10.8.4 Selecting the Setup Level When F•1 COLOR MATRIX is set to COMPOSITE, to select the setup level, follow the procedure below. This menu does not appear if the composite display format is PAL. Procedure WFM →...
Page 226: Vector Display
11. VECTOR DISPLAY 11. VECTOR DISPLAY To display vectors, press VECT, F•1 VECT INTEN/CONFIG, and then F•1 VECTOR DISPLAY to select VECTOR. When VECTOR DISPLAY is set to 5BAR, see 11.12, “5-Bar Display,” for the explanation. When set to HISTOGRAM, see 11.13, “Histogram Display,” for the explanation. When VECTOR DISPLAY is set to CIE, see 12, “CIE Chromaticity Diagram Display (SER22),”...
Page 227: Operation Key Description
11. VECTOR DISPLAY • Scale The scale selected with COLOR BAR on the COLOR SYSTEM menu is displayed in cyan in the COLORBAR on the upper left of the screen. [See also] COLOR BAR → 11.11.2, "Displaying a Scale for 75% Color Bars" 11.1 Operation Key Description Operation keys other than S-CUT key can be controlled from the mouse and touch panel.
Page 228: Setting The Display And Waveform Intensity
11. VECTOR DISPLAY 11.2 Setting the Display and Waveform Intensity To configure the display and waveform intensity settings, press F•1 VECT INTEN/CONFIG on the VECT menu. VECT → F•1 VECT INTEN/CONFIG → Figure 11-2 VECT INTEN/CONFIG menu 11.2.1 Switching the Display Mode To select the display mode, follow the procedure below.
Page 229: Selecting The Vector Mode (Ser40)
11. VECTOR DISPLAY 11.2.2 Selecting the Vector Mode (SER40) When the SER40 is installed, you can select the vector mode, follow the procedure below. The RGB VECTOR display consists of two factors.One is displayed the G and B components of 100% color bar signal as unit vector on in the upper half of the measurement screen, and the other is displayed the G and R components of the 100% color bar signal as the unit vector in the lower half of the measurement screen.
Page 230: Adjusting The Waveform Intensity
11. VECTOR DISPLAY VECTOR MODE = RGB VECTOR VECTOR MODE = YCbCr VECTOR Figure 11-3 Vector mode 11.2.3 Adjusting the Waveform Intensity To adjust the vector intensity, follow the procedure below. Press the function dial (F•D) to return the setting to its default value (0). Procedure VECT →...
Page 231: Setting The Vector Scale
11. VECTOR DISPLAY 11.3 Setting the Vector Scale To configure the scale, use F•2 VECTOR SCALE on the VECT menu. VECT → F•2 VECTOR SCALE → Figure 11-4 VECTOR SCALE menu 11.3.1 Adjusting the Scale Intensity To adjust the scale intensity, follow the procedure below. Press the function dial (F•D) to return the setting to its default value (4).
Page 232: Arib Check Marker
11. VECTOR DISPLAY COLOR WHEEL = ON Figure 11-6 Turning the color wheel on and off 11.3.4 ARIB Check Marker When VARIABLE SCALE is set to on and VECTOR SCALE is set to BT.2020, the ARIB check marker can be displayed on the vector waveform follow the procedure below. [See also] VARIABLE SCALE →...
Page 233: Turning The I And Q Axes On And Off
11. VECTOR DISPLAY 11.3.5 Turning the I and Q Axes On and Off To turn the I and Q axes on and off, follow the procedure below. This menu item does not appear when VECTOR SCALE is set to DCI or BT.2020. When the full scale value of 0.7 V is 100 %, the I and Q axes are displayed at the following values.
Page 234: Selecting The Scale
11. VECTOR DISPLAY 11.3.6 Selecting the Scale When COLOR MATRIX is set to COMPONENT, follow the procedure below to select the scale type. [See also] COLOR MATRIX → section 11.11.1, “Selecting the Color Matrix.” Procedure VECT → F•2 VECTOR SCALE → F•3 SCALE OPTION → F•4 VECTOR SCALE: AUTO / BT.601 / BT.709 / DCI / BT.2020 Settings AUTO:...
Page 235: Setting The Rgb Vector Scale (Ser40)
11. VECTOR DISPLAY 11.4 Setting the RGB Vector Scale (SER40) When the SER40 is installed and the vector mode is set to RGB VECTOR, you can configure the scale, use F•2 RGB VECTOR SCALE on the VECT menu. VECT → F•2 RGB VECTOR SCALE → Figure 11-9 RGB VECTOR SCALE menu 11.4.1 Adjusting the Scale Intensity...
Page 236: Setting The Ycbcr Vector Scale (Ser40)
11. VECTOR DISPLAY 11.5 Setting the YCbCr Vector Scale (SER40) When the SER40 is installed and the vector mode is set to YCbCr VECTOR, you can configure the scale, use F•2 YCbCr VECTOR SCALE on the VECT menu. VECT → F•2 YCbCr VECTOR SCALE → Figure 11-10 YCbCr VECTOR SCALE menu 11.5.1 Adjusting the Scale Intensity...
Page 237: Setting The Vector Gain
11. VECTOR DISPLAY 11.6 Setting the Vector Gain To set the gain, press F•3 VECTOR GAIN on the VECT menu. VECT → F•3 VECTOR GAIN → Figure 11-11 VECTOR GAIN menu 11.6.1 Setting the Variable Gain To set the variable vector gain, follow the procedure below. Procedure VECT →...
Page 238: Selecting The Fixed Gain
11. VECTOR DISPLAY 11.6.2 Selecting the Fixed Gain To select the fixed vector gain, follow the procedure below. Procedure VECT → F•3 VECTOR GAIN → F•2 GAIN MAG: X1 / X5 / IQ-MAG Settings Vectors are displayed at ×1 magnification. Vectors are displayed at ×5 magnification.
Page 239: Setting The Rgb Vector Gain
11. VECTOR DISPLAY 11.7 Setting the RGB Vector Gain When the SER40 is installed and the vector mode is set to RGB VECTOR, you can set the gain, use F•3 RGB VECTOR GAIN on the VECT menu. To set the gain, press F•3 RGB VECTOR GAIN on the VECT menu. VECT →...
Page 240: Setting The Ycbcr Vector Gain
11. VECTOR DISPLAY 11.8 Setting the YCbCr Vector Gain When the SER40 is installed and the vector mode is set to YCbCr VECTOR, you can set the gain, use F•3 YCbCr VECTOR GAIN on the VECT menu. To set the gain, press F•3 VECTOR GAIN on the VECT menu. VECT →...
Page 241: Configuring The Marker Settings
11. VECTOR DISPLAY 11.9 Configuring the Marker Settings To configure the marker settings, press F•4 MARKER or F•4 VARIABLE MARKER. When the VARIABLE SCALE is set to off, you can use F•4 MARKER to turn the marker display on and off. When the VARIABLE SCALE is set to on, you can use F•4 VARIABLE MARKER to display the VARIABLE MARKER menu.
Page 242: Configuring The Variable Marker
11. VECTOR DISPLAY 11.9.2 Configuring the Variable Marker When the VARIABLE SCALE is set to on, you can use F•4 VARIABLE MARKER to configure the variable marker. [See also] VARIABLE SCALE → Section 11.3.7, “Turning the Variable Scale On and Off” VECT →...
Page 243: Configuring The Line Selection Settings
11. VECTOR DISPLAY 11.10 Configuring the Line Selection Settings To configure the line selection settings, press F•5 LINE SELECT on the VECT menu. VECT → F•5 LINE SELECT → Figure 11-16 LINE SELECT menu 11.10.1 Turning Line Selection On and Off To display the vector of the selected line, follow the procedure below.
Page 244: Setting The Line Selection Range
11. VECTOR DISPLAY LINE SELECT = OFF Figure 11-17 Turning line selection on and off 11.10.2 Setting the Line Selection Range When F•1 LINE SELECT is set to ON and the input signal format is interlaced or segmented frame, to set the line selection range, follow the procedure below. Changing this setting will also change the selected line on the video-signal-waveform, picture, and status (data dump) displays.
Page 245: Configuring The Color System Settings
11. VECTOR DISPLAY 11.11 Configuring the Color System Settings To configure the color system settings, press F•7 COLOR SYSTEM on the VECT menu. VECT → F•7 COLOR SYSTEM → Figure 11-18 COLOR SYSTEM menu 11.11.1 Selecting the Color Matrix To select the vector display format, follow the procedure below. The selected display format is indicated in the lower right of the display.
Page 246: Displaying A Scale For 75% Color Bars
11. VECTOR DISPLAY COLOR MATRIX = COMPOSITE Figure 11-19 Selecting the color matrix 11.11.2 Displaying a Scale for 75% Color Bars To display a scale for 75 % color bars, follow the procedure below. The scale selected here is displayed in the COLORBAR on the upper left of the screen. Procedure VECT →...
Page 247: Selecting The Composite Display Format
11. VECTOR DISPLAY 11.11.3 Selecting the Composite Display Format To select the composite display format, follow the procedure below. Procedure VECT → F•7 COLOR SYSTEM → F•3 COMPOSITE FORMAT: AUTO / NTSC / PAL Settings AUTO: When the input signal frame rate is 25 Hz or 50 Hz, the format is PAL. Otherwise, the format is NTSC.
Page 248: Selecting The Setup Level
11. VECTOR DISPLAY 11.11.4 Selecting the Setup Level When F•1 COLOR MATRIX is set to COMPOSITE, to select the setup level, follow the procedure below. This menu does not appear if the composite display format is PAL. Procedure VECT → F•7 COLOR SYSTEM → F•4 SETUP: 0% / 7.5%...
Page 249: 5-Bar Display
11. VECTOR DISPLAY 11.12 5-Bar Display To display the 5 bar screen, press VECT, F•1 VECT INTEN/CONFIG, and then F•1 VECTOR DISPLAY to select 5BAR. In the 5-bar display, the YC signal is converted into a GBR or pseudo-composite signal, and the peak levels of the converted signal's Y, G, B, R, and CMP (composite) components are displayed simultaneously using five bars.
Page 250: Selecting The Scale Unit
11. VECTOR DISPLAY 11.12.1 Selecting the Scale Unit When VECTOR DISPLAY is set to 5BAR, to select the scale unit, follow the procedure below. [See also] VECTOR DISPLAY → 11.2.1, “Switching the Display Mode” and 11.11.3, “Selecting the Composite Display Format” Procedure VECT →...
Page 251 11. VECTOR DISPLAY 5BAR SCALE = mV 5BAR SCALE = HEX 5BAR SCALE = DEC Figure 11-24 Selecting the scale unit...
Page 252: Selecting The Display Order
11. VECTOR DISPLAY 11.12.2 Selecting the Display Order To select the 5-bar display order, follow the procedure shown below. Procedure VECT → F•3 5BAR SEQUENCE: GBR / RGB Settings GBR: From the left, the signals are displayed in this order: Y, G, B, R, CMP. RGB: From the left, the signals are displayed in this order: Y, R, G, B, CMP.
Page 253: Histogram Display
11. VECTOR DISPLAY 11.13 Histogram Display To display histograms, press VECT, F•1 VECT INTEN/CONFIG, and then F•1 VECTOR DISPLAY to select HISTOGRAM. The histogram display shows the image data distribution by plotting the luminance level and R, G, B levels on the horizontal axis and the number of pixels at each luminance level and R, G, B level on the vertical axis.
Page 254 11. VECTOR DISPLAY • When HISTOGRAM FORM is TILE Luminance, R, G, and B are displayed in tiles. Figure 11-28 Tiled display • When HISTOGRAM FORM is ALIGN-H Luminance, R, G, and B are displayed side by side. Figure 11-29 ALIGN_H display...
Page 255: Selecting The Measurement Signal
11. VECTOR DISPLAY • When HISTOGRAM FORM is ALIGN-V Luminance, R, G, and B are displayed top to bottom. Figure 11-30 ALIGN_V display 11.13.2 Selecting the Measurement Signal When HISTOGRAM FORM is SINGLE, to select the measurement signal, follow the procedure below.
Page 256: Cie Chromaticity Diagram Display (Ser22)
12. CIE Chromaticity Diagram Display (SER22) 12. CIE CHROMATICITY DIAGRAM DISPLAY (SER22) To display the CIE chromaticity diagram, press VECT, F•1 VECT INTEN/CONFIG, and then F•1 VECTOR DISPLAY to select CIE DIAGRAM. When VECTOR DISPLAY is set to VECT, 5BAR or HISTOGRAM, see 11, “CIE Chromaticity Diagram Display,”...
Page 257: Selecting The Color Scale
12. CIE Chromaticity Diagram Display (SER22) 12.1.1 Selecting the Color Scale To select the horseshoe-shaped color scale, follow the procedure below. Procedure VECT → F•2 CIE DIAGRAM SCALE → F•1 COLOR: B.G. COLOR / B.G. WHITE / B.G. BLACK Settings B.G.
Page 258: Selecting The Triangle
12. CIE Chromaticity Diagram Display (SER22) 12.1.2 Selecting the Triangle To display up to three color triangles, follow the procedure below. Procedure VECT → F•2 CIE DIAGRAM SCALE → F•2 TRIANGLE1: BT.601(525) / BT.601(625) / BT.709 / DCI / BT.2020 / OFF →...
Page 259: Setting The User-Defined Triangle
12. CIE Chromaticity Diagram Display (SER22) 12.1.3 Setting the User-defined Triangle To set the user-defined triangle, press F•4 USER TRIANGLE on the CIE DIAGRAM SCALE menu. Up to two user-defined triangles can be specified. Press F•1 TRIANGLE to select 1 or 2. VECT →...
Page 260: Turning The Sub Scale On And Off
12. CIE Chromaticity Diagram Display (SER22) The key operations that you can perform in the triangle name input display are as follows: F•1 CLEAR ALL Deletes all characters F•2 DELETE Deletes the character at the cursor F•3 INSERT Inserts a character at the cursor F•4 <= Moves the cursor to the left F•5 =>...
Page 261 12. CIE Chromaticity Diagram Display (SER22) TEMP SCALE = ON / GRID = ON / WHITE POINT = ON / TRIANGLE CAPTION = ON / WHITE POINT LABEL = OFF Figure 12-7 The sub scale display...
Page 262: Setting The Chromaticity Diagram Mode
12. CIE Chromaticity Diagram Display (SER22) 12.2 Setting the Chromaticity Diagram Mode To set the chromaticity diagram mode, press F•3 CIE DIAGRAM SETTING on the VECT menu. VECT → F•3 CIE DIAGRAM SETTING → Figure 12-8 CIE DIAGRAM SETTING menu 12.2.1 Selecting the Display Mode To select the display mode, follow the procedure below.
Page 263: Turning Clipping On And Off
12. CIE Chromaticity Diagram Display (SER22) 12.2.3 Turning Clipping On and Off To turn clipping on and off, follow the procedure below. Procedure VECT → F•3 CIE DIAGRAM SETTING → F•3 CLIP: ON / OFF Settings Negative values of the input signal are clipped to zero. OFF: Negative values of the input signal are displayed according to BT.1361.
Page 264: Displaying Cursors
12. CIE Chromaticity Diagram Display (SER22) 12.3 Displaying Cursors To display a cursor on the chromaticity diagram, follow the procedure shown below. You can move the cursor horizontally using the H POS knob and vertically using the V POS knob. The measured values are shown in the upper right of the display. Press the H POS and V POS knobs to move the cursor to the following position.
Page 265: Picture Screen
13. Picture Screen 13. PICTURE SCREEN To display the picture, press PIC. Figure 13-1 Picture display...
Page 266: Selecting The Display Mode
13. Picture Screen 13.1 Selecting the Display Mode To select the picture display mode, follow the procedure below. Procedure PIC → F•1 PIC CONFIG → F•1 PICTURE MODE: FIT / REAL / X2 / FULL FRM Settings FIT: The picture is displayed at the optimal size for the display area. Because the picture is enlarged or reduced, the display may become coarse or pixels may drop out.
Page 267: Adjusting The Picture
13. Picture Screen 13.2 Adjusting the Picture To adjust the picture, press F•2 ADJUST in the PIC CONFIG menu. PIC → F•1 PIC CONFIG → F•2 ADJUST → Figure 13-3 ADJUST menu 13.2.1 Switching between the Color and Monochrome Displays To switch between the color and monochrome displays, follow the procedure below.
Page 268: Adjusting The Gain
13. Picture Screen 13.2.5 Adjusting the Gain To adjust the gain, press F•1 GAIN on the GAIN/BIAS menu. PIC → F•1 PIC CONFIG → F•2 ADJUST → F•5 GAIN/BIAS → F•1 GAIN → Figure 13-4 GAIN menu To adjust the gain separately for the R, G, B, and chroma signals, follow the procedure below.
Page 269: Configuring The Display Settings
13. Picture Screen 13.3 Configuring the Display Settings To configure the display settings, press F•3 INDICATION SETTING on the PIC CONFIG menu. PIC → F•1 PIC CONFIG → F•3 INDICATION SETTING → Figure 13-6 INDICATION SETTING menu 13.3.1 Displaying Gamut Errors To display the locations of gamut errors and luminance errors on the picture, follow the procedure below.
Page 270: Turning The Information On And Off
13. Picture Screen 13.3.2 Turning the Information On and Off To turn on and off the display of the following information that you arranged in the layout, follow the procedure below. This setting is valid on the display that appears when PIC is pressed. For multi display and other displays, it is fixed to ON.
Page 271: Configuring The Scte-104 Detection Display Settings
13. Picture Screen 13.3.3 Configuring the SCTE-104 Detection Display settings To superimpose the SCTE-104 detection packets up to 3 types on the picture. On the SCTE-104 SETUP tab, you can set the SCTE-104 detection display. PIC → F•1 PIC CONFIG → F•3 INDICATION SETTING → F•4 SCTE-104 SETUP → Figure 13-8 SCTE-104 SETUP tab •...
Page 272: Displaying The Scte-104 Detection Screen
13. Picture Screen 13.3.4 Displaying the SCTE-104 Detection screen When a SCTE-104 message is detected, the message is displayed on the picture screen. Up to 3 messages are displayed, and the top of the messages is the latest detected message. The message is displayed for the time set in Duration, and if no message is detected during the set time, it returns to the hidden state.
Page 273 13. Picture Screen • Displaying abbreviated message The detected message is abbreviated as shown below. SCTE-104 message Abbreviated message init_request_data init alive_request_data alive config_request_data config fault_request_data fault inject_section_data_request inject_section splice_request_data splice splice_null_request_data splice_null start_schedule_download_request_data start_schedule_down time_signal_request_data time_signal transmit_schedule_request_data transmit_schedule component_mode_DPI_request_data comp_mode_DPI encrypted_DPI_request_data encrypted_DPI...
Page 274: Configuring The Marker Settings
13. Picture Screen 13.4 Configuring the Marker Settings To configure the marker settings, press F•4 MARKER on the PIC CONFIG menu. This menu item does not appear when PICTURE MODE is set to a value other than FIT. [See also] PICTURE MODE →...
Page 275: Turning The Frame Marker On And Off
13. Picture Screen 13.4.1 Turning the Frame Marker On and Off To turn the frame marker on and off, follow the procedure below. Procedure PIC → F•1 PIC CONFIG → F•4 MARKER → F•1 FRAME MARKER: ON / OFF 13.4.2 Turning the Center Marker On and Off To turn the center marker on and off, follow the procedure below.
Page 276 13. Picture Screen The AFD codes that are displayed in the upper left of the screen are displayed as shown below according to the coded frame and the AFD code. If there are no AFD packets embedded in the input signal, “---------” is displayed. Table 13-1 AFD display Displayed Coded...
Page 277: Setting The Aspect Shadow
13. Picture Screen 13.4.4 Setting the Aspect Shadow When F•3 ASPECT MARKER is set to a value other than OFF, to adjust the darkness of the aspect marker shadow, follow the procedure below. The larger the number, the darker the shadow.
Page 278: Setting The Safe Action Marker
13. Picture Screen 13.4.5 Setting the Safe Action Marker To configure safety marker settings, press F•5 SAFETY ZONE on the MARKER menu. When F•3 ASPECT MARKER is set to AFD, this menu item is not available. PIC → F•1 PIC CONFIG → F•4 MARKER → F•5 SAFETY ZONE → Figure 13-13 SAFETY ZONE menu To display the safe action marker, follow the procedure below.
Page 279: Setting User Markers
13. Picture Screen 13.4.7 Setting User Markers By setting F•1 SAFE ACTION to USER1 and F•2 SAFE TITLE to USER2, you can display up to two user-defined markers. To configure user-defined marker settings, press F•3 USER1/2 SET on the SAFETY ZONE menu.
Page 280: Setting The Superimpose Feature (Ser21)
13. Picture Screen 13.5 Setting the Superimpose Feature (SER21) The superimpose feature displays closed caption information on top of pictures. To display the closed caption information, press F•5 SUPER IMPOSE on the PIC CONFIG menu. This menu item is not displayed when the input signal is 3G-B. PIC →...
Page 281: Selecting The Display Details Of English Closed Captions
13. Picture Screen 13.5.3 Selecting the Display Details of English Closed Captions When F•2 FORMAT is set to a value other than 708, to select the English closed caption content to display, follow the procedure below. Procedure PIC → F•1 PIC CONFIG → F•5 SUPER IMPOSE → F•3 LANGUAGE: CC1 / CC2 / CC3 / CC4 / TEXT1 / TEXT2 / TEXT3 / TEXT4 When F•2 FORMAT is set to 708, to select the English closed caption content to display, follow the procedure below.
Page 282: Displaying The Clear Screen Log
13. Picture Screen Settings Language 1 Language 2 13.5.6 Displaying the Clear Screen Log You can detect the clear screen commands that are embedded in the broadcasts of programs with closed captions and display a log of these commands. In addition, using specified timecodes, you can check whether closed captions in TV commercial materials are displayed during the closed caption prohibited time.
Page 283 13. Picture Screen • General Display Description • Generation Number The clear screen log entries are listed in order with the most recent events listed first. By turning the function dial (F•D) to the right, you can scroll the screen to view older entries in the log.
Page 284 13. Picture Screen • Configuring the Closed Caption Checking Function Carry out the procedure below to check whether a closed caption is displayed during the closed caption prohibited time. Procedure PIC → F•1 PIC CONFIG → F•5 SUPER IMPOSE → F•5 CS LOG → F•5 TIMECODE SET Settings OFF: Closed caption checking is disabled (log will be recorded).
Page 285 13. Picture Screen • Saving Data to a USB Memory Device You can save the clear screen log to a USB memory device as a text file. To save a file with a name that you specify, follow the procedure below. 1.
Page 286 13. Picture Screen 5. Enter a file name using up to 14 characters. The key operations that you can perform in the file name input display are as follows: F•1 CLEAR ALL Deletes all characters F•2 DELETE Deletes the character at the cursor F•4 <= Moves the cursor to the left F•5 =>...
Page 287: Clearing Japanese Closed Caption Data
13. Picture Screen • Measurement Example As an example, this section describes how to perform closed caption checking on TV commercial material. 1. On the CAPTURE & DISPLAY tab of the SYS menu, set Time Code to LTC or VITC. After setting them, press F•1 COMPLETE.
Page 288: Selecting The Multiplex System For European Closed Captions
13. Picture Screen 13.5.8 Selecting the Multiplex System for European Closed Captions To select the multiplex system for European closed captions from the two types below, follow the procedure below. Procedure PIC → F•1 PIC CONFIG → F•5 SUPER IMPOSE → F•2 WST TRANSPORT: VBI / OP47 Settings VBI: European closed caption information that is embedded in vertical blanking...
Page 289: Configuring Cinelite Settings
13. Picture Screen 13.6 Configuring CINELITE Settings CINELITE is a feature that displays luminance levels of video signals on the picture. To show the CINELITE display, press F•2 CINELITE on the PIC menu. PIC → F•2 CINELITE → Figure 13-19 CINELITE menu To switch to the CINELITE display, follow the procedure below.
Page 290: Stop Display Description
13. Picture Screen 13.6.1 f Stop Display Description To set f Stop, press F•1 CINELITE DISPLAY to select f Stop and then press F•2 f STOP SETUP. On the f Stop display, luminance levels are displayed using f-stop (exposure) values. The measured f Stop value for a group of measured points is typically displayed using white, but it will be displayed using yellow when it corresponds to a luminance level of 80 % or more.
Page 291: Procedure For Displaying The F Stop Display
13. Picture Screen 13.6.2 Procedure for Displaying the f Stop Display The following example shows how to display luminance levels as f Stop numbers relative to the luminance level of 18 % gray chart. Include an 18 % gray chart with the objects that you are filming.
Page 292: Display Screen Description
13. Picture Screen 13.6.3 %DISPLAY Screen Description To set % DISPLAY, press F•1 CINELITE DISPLAY to select % DISPLAY and then press F•2 % DISPLAY SETUP. On the %DISPLAY screen, you can display luminance levels using Y%, RGB%, RGB255, CODE VALUE, or CODE VALUE DEC. Use F•4 UNIT SELECT to select the display format. The measured values are typically displayed in white, but they are displayed in yellow when the luminance level at a measurement point is 80 % or more or 0 % or less.
Page 293 13. Picture Screen • RGB255 Display Each of the R, G, and B levels is indicated using 256 steps from 0 to 255. The levels are also indicated using bars on the left side of the display (the order is R, G, and then B). The value of an RGB level that is 100 % or greater is 255.
Page 294: Selecting The Points To Display
13. Picture Screen 13.6.4 Selecting the Points to Display You can set three points to measure: P1 to P3. To select the measured points that you want to display, follow the procedure below. Procedure PIC → F•2 CINELITE → F•2 f STOP SETUP → F•1 MEASURE NUMBERS: P1 / P1+P2 / P1+P2+P3 →...
Page 295: Configuring User-Defined Correction Tables
13. Picture Screen 13.6.7 Configuring User-Defined Correction Tables The default gamma correction value when measuring f Stop levels is 0.45, but you can also use a user-defined gamma correction table that matches the gamma characteristics of the camera that you are using. There are two types of user-defined correction tables.
Page 296 13. Picture Screen Figure 13-25 User-defined correction table creation screen 7. Press F•1 TABLE CLEAR. All the values in the user-defined correction table that is currently being edited are initialized. Be sure to initialize the values first when you create a new user-defined correction table.
Page 297 13. Picture Screen The REF value in the user-defined correction table is entered when you press F•4 18% REF- SET on the f Stop display. For example, if you use the left-hand table shown below and press F•4 18% REF-SET when the luminance value at the intersection of the cursors is 416 (10-bit value), the f Stop value at that point (3.0) is displayed as the REF value.
Page 298 13. Picture Screen • Loading a User-Defined Correction Table into the instrument You can load up to five user-defined correction tables into the instrument. To load a user-defined correction table into the instrument, follow the procedure below. 1. Create a user-defined correction table. Example (TEST.CLT): ################################# Comment...
Page 299 13. Picture Screen Keyword Be sure to put the keyword lines before the data lines and to enter a keyword without anything preceding it at the beginning of each keyword line. NAME: The instrument displays the eight characters that follow the separator (colon) as the name of the correction table.
Page 300: Displaying Link Markers
13. Picture Screen 10. Turn the function dial (F•D) to select the copy source file from the USB memory device. 11. Press F•3 FILE LOAD. The user-defined correction table that you selected is copied from the USB memory to USER_A. The copy operation is complete when the file list screen disappears and the display returns to the measurement screen.
Page 301: Configuring Cinezone Settings
13. Picture Screen 13.7 Configuring CINEZONE Settings The CINEZONE display has a gradation (step) display mode, in which the picture luminance levels are converted into RGB colors and displayed and a search display mode, in which the specified luminance level is displayed using green. To set either of these modes, on the picture menu, press F•2 CINELITE →...
Page 302: Step Display Mode
13. Picture Screen Gradation Display (0% = B, 50% = G, 100% = R) Figure 13-28 Gradation display 13.7.2 Step Display Mode To display picture luminance levels in steps, follow the procedure below. In the step display mode, luminance levels are divided into 10 % steps and assigned to 12 different colors.
Page 303 13. Picture Screen CINEZONE FORM = STEP Figure 13-29 Step display...
Page 304: Search Display Mode
13. Picture Screen 13.7.3 Search Display Mode In the search display mode, the specified luminance level ±0.5 % is displayed using green on an otherwise monochrome picture display. The picture is displayed such that luminance levels above F•2 UPPER are displayed using red, and levels below F•3 LOWER are displayed using blue.
Page 305: Focus Assist Display (Ser25)
13. Picture Screen 13.8 Focus Assist Display (SER25) The focus assist display makes it easy to verify the focus by highlighting the image according to the amount of detected edges. To configure the focus assist settings, press F•4 FOCUS on the PIC menu. This menu item does not appear when PICTURE MODE is set to FULL FRM.
Page 306: Selecting The Detection Sensitivity
13. Picture Screen 13.8.3 Selecting the Detection Sensitivity When F•2 FOCUS ASSIST is set to ON, to select the edge detection sensitivity, follow the procedure below. Procedure PIC → F•4 FOCUS → F•3 SENSITIVE: LOW / MIDDLE / HIGH / V-HIGH / U-HIGH 13.8.4 Selecting the Luminance Level When F•2 FOCUS ASSIST is set to ON, to select the picture luminance level as a...
Page 307: Configuring The Line Selection Settings
13. Picture Screen 13.9 Configuring the Line Selection Settings To configure the line selection settings, press F•5 LINE SELECT on the PIC menu. This menu item does not appear when PICTURE MODE is set to a value other than FIT. [See also] PICTURE MODE →...
Page 308: Setting The Line Selection Range
13. Picture Screen 13.9.2 Setting the Line Selection Range When F•1 LINE SELECT is set to ON and the input signal format is interlaced or segmented frame, to set the line selection range, follow the procedure below. Changing this setting will also change the selected line on the video-signal-waveform, vector, and status (data dump) displays.
Page 309: Hdr Display (Ser23)
14. HDR Display (SER23) 14. HDR DISPLAY (SER23) HDR signals can be measured by installing SER23. HDR signal measurement supports all formats except for SD and XYZ. To measure HDR signals, use SYS → F•1 SIGNAL IN OUT → HDR tab to select the HDR signal standard for each display channel.
Page 310 14. HDR Display (SER23) • Scale Unit and Range The scale unit and range used on HDR signal measurements are as follows depending on the settings on the HDR tab. HDR Mode System Range Scale Gamma Scale None Narrow 1200% SDI code value: 64 to 940 is displayed as 0 to 1200%.
Page 311: Video Signal Waveform Display
14. HDR Display (SER23) 14.1 Video Signal Waveform Display On the video signal waveform display, scales and cursors for HDR signals can be displayed. 14.1.1 Scale Display During HDR measurement, a scale corresponding to the HDR signal is displayed on the right side of the video signal waveform.
Page 312 14. HDR Display (SER23) HDR Mode = HLG, SYSTEM GAMMA = OFF, Range = Narrow, HLG Scale = 100% HDR Mode = HLG, SYSTEM GAMMA = OFF, Range = Full, HLG Scale = 1200% HDR Mode = HLG, SYSTEM GAMMA = OFF, Range = Full, HLG Scale = 100%...
Page 313 14. HDR Display (SER23) HDR Mode = HLG、SYSTEM GAMMA = ON、Range ＝ Narrow、HLG Scale = 1200%または 100% HDR Mode = HLG、SYSTEM GAMMA = ON、Range ＝ Full、HLG Scale = 1200%または 100% HDR Mode = PQ、Range ＝ Narrow...
Page 314 14. HDR Display (SER23) HDR Mode = PQ、Range ＝ Full HDR Mode = S-Log3、SYSTEM GAMMA = OFF HDR Mode = S-Log3、SYSTEM GAMMA = ON...
Page 315 14. HDR Display (SER23) HDR Mode = C-Log HDR Mode = Log-C, EI = 200 HDR Mode = Log-C, EI = 400...
Page 316 14. HDR Display (SER23) HDR Mode = Log-C, EI = 800 HDR Mode = Log-C, EI = 1600 Figure 14-2 Scale display...
Page 317: Selecting The Scale Display
14. HDR Display (SER23) 14.1.2 Selecting the Scale Display During HDR measurement, to select the scale display, follow the procedure below. Procedure WFM → F•1 WFM INTEN/CONFIG → F•5 WFM SCALE → F•3 SCALE SETTING → F•3 SCALE DISPLAY: OFF / MAIN / HDR / BOTH Settings OFF: The scale display is turned off.
Page 318: Setting The Reference Level
14. HDR Display (SER23) SCALE DISPLAY = HDR SCALE DISPLAY = BOTH Figure 14-3 Selecting the scale display 14.1.3 Setting the Reference Level When VARIABLE is selected on the HDR tab for HDR measurement, to set the reference level, follow the procedure below. This setting is shared with REF [%] of the CINEZONE display.
Page 319: Cursor Display
14. HDR Display (SER23) 14.1.4 Cursor Display During cursor measurement, to display measured values for HDR signals, follow the procedure below. The unit of measurement is % when on the HDR tab, HDR Mode is HLG or S-Log3 and SYSTEM GAMMA is OFF and Nits when HDR Mode is HLG or S-Log3 and SYSTEM GAMMA is ON or when HDR Mode is PQ.
Page 320: Vector Display
14. HDR Display (SER23) 14.2 Vector Display On the vector display, HDR mode and a histogram for HDR signals can be displayed. 14.2.1 HDR Mode Display When VECTOR DISPLAY is set to VECTOR, the HDR mode selected in HDR Mode in the system settings is displayed in cyan in HDR at the top left of the screen.
Page 321: Histogram Display
14. HDR Display (SER23) 14.2.2 Histogram Display During histogram display, to select the horizontal scale, follow the procedure below. Procedure VECT → F•2 HISTOGRAM SCALE: % / HDR The scale for HDR varies as follows depending on the settings on the HDR tab. HDR Mode System Gamma HLG Scale...
Page 322: Picture Screen
14. HDR Display (SER23) 14.3 Picture Screen The picture display can show CINELITE, CINEZONE, MAX FALL, and MAX CLL for HDR signals. During HDR measurement F•2 CINELITE of the PIC menu changes to F•2 CINELITE/HDR. You can use this to show CINELITE, CINEZONE, MAX FALL, and MAX CLL. PIC →...
Page 323: Cinezone Display
14. HDR Display (SER23) 14.3.3 CINEZONE Display On the CINEZONE display of HDR signals, to display the SDR area in monochrome and HDR area in color, follow the procedure below to set F•5 HDR ZONE to ON. If F•5 HDR ZONE is set to ON, STEP and SEARCH cannot be selected for F•1 CINEZONE FORM.
Page 324: Link Marker Display
14. HDR Display (SER23) To set the display colors, follow the procedure below. If you set REF at boundary of the SDR area and HDR area, the SDR area can be displayed in monochrome and HDR area in color. When Variable is set to on the HDR tab, you can set the REF value. If set to off, the default value is used.
Page 325: Max Fall And Max Cll Displays
14. HDR Display (SER23) 14.4 MAX FALL and MAX CLL Displays MAX FALL (Maximum Frame Average Light Level) is a function that calculates the maximum value among the R, G, and B values in each pixel and sums the maximums of all pixels. The sum is divided by the number of pixels per frame to derive the average in the frame.
Page 326: Starting And Stopping Measurements
14. HDR Display (SER23) 14.4.2 Starting and Stopping Measurements To start or stop MAX FALL and MAX CLL measurements, follow the procedure below. Procedure PIC → F•2 CINELITE/HDR → F•3 MAX FALL/CLL → F•2 MEASURE: STOP / START 14.4.3 Clearing Measurements To clear MAX FALL and MAX CLL measurements, follow the procedure below.
Page 327 14. HDR Display (SER23) • HLG Upper Scale 1200% / 100% Set the threshold for HLG. When the function dial (F•D) is turned, the threshold values of HLG Scale 1200% and 100% change at the same ratio. HLG Scale = 1200% MAX FALL: 0,000 % (0.0 Nits) to 1,200 % (1000.0 Nits) to 2,000 % (1845.9 Nits) MAX CLL:...
Page 328: Audio Display
15. Audio Display 15. AUDIO DISPLAY To display the audio screen, press AUDIO. On the audio display, the embedded audio signal applied to SDI INPUT can be displayed on a meter. If SER20 is installed, Lissajous display, surround display, or status display can be shown with the meter display.
Page 329: Setting The Signals To Measure
15. Audio Display 15.1 Setting the Signals to Measure To configure the measurement signal settings, press F•7 MAPPING on the AUDIO menu. Procedure AUDIO → F•7 MAPPING 15.1.1 Selecting the Measurement Signal On the TARGET tab, select the audio group, and assign the headphone output. AUDIO →...
Page 330: Channel Assignment For The Lissajous Display (Ser20)
15. Audio Display • GROUP SELECT Select the audio group. Also select the input channel in simul mode. G1: 1 to 4ch, G2: 5 to 8ch, G3: 9 to 12ch, G4: 13 to 16ch 15.1.2 Channel Assignment for the Lissajous Display (SER20) On the LISSAJOU tab, assign channels from the audio group selected with GROUP SELECT and Lt and Rt (excluding some channels).
Page 331: Selecting The Display Mode (Ser20)
15. Audio Display 15.2 Selecting the Display Mode (SER20) To select the display mode, follow the procedure below. Procedure AUDIO → F•1 DISPLAY MODE: LISSAJOU / SURROUND / STATUS Settings LISSAJOU: The Lissajous display is shown on the left side of the screen, and the audio meter is displayed on the right side of the screen.
Page 332 15. Audio Display DISPLAY MODE = STATUS Figure 15-5 Selecting the display mode...
Page 333: Configuring Error Detection Settings
15. Audio Display 15.3 Configuring Error Detection Settings To configure the error detection and meter display settings, follow the procedure below. Procedure AUDIO → F•4 ERROR SETUP Figure 15-6 ERROR SETUP tab • Level Over Turn the level error detection on or off. An error is detected when the level set with OVER dBFS is exceeded.
Page 334: Adjusting The Volume
15. Audio Display • Parity Error Turn the parity error detection on or off. OFF / ON • Validity Error Turn the validity error detection on or off. OFF / ON • CRC Error Turn the CRC error detection on or off. OFF / ON •...
Page 335: Meter Display
15. Audio Display 15.5 Meter Display Meters are always displayed. To configure meter display settings, press F•2 METER SETUP on the AUDIO menu. AUDIO → F•2 METER SETUP → Figure 15-7 Meter display (right side) 15.5.1 Selecting the Scale To select the meter's scale, follow the procedure below. Procedure AUDIO →...
Page 336: Selecting The Response Model
15. Audio Display 15.5.2 Selecting the Response Model To select the meter's response model, follow the procedure below. The selected response model is indicated in the lower right of the screen. Procedure AUDIO → F•2 METER SETUP → F•2 RESPONSE: TRUEPEAK / PPM / VU →...
Page 337: Setting The Reference Level
15. Audio Display 15.5.4 Setting the Reference Level To set the reference level, press F•5 LEVEL SETTING on the METER SETUP menu. AUDIO → F•2 METER SETUP → F•5 LEVEL SETTING → Figure 15-8 LEVEL SETTING menu To set the meter reference level, follow the procedure below. Procedure AUDIO →...
Page 338: Resetting The Peak Hold
15. Audio Display 15.5.6 Resetting the Peak Hold To reset the peak hold on the meter display and measured value, follow the procedure below. Procedure AUDIO → F•2 METER SETUP → F•5 LEVEL SETTING → F•6 PEAK HOLD RESET...
Page 339: Lissajous Display (Ser20)
15. Audio Display 15.6 Lissajous Display (SER20) To display Lissajous curves, set F•1 DISPLAY MODE on the AUDIO menu to LISSAJOU. To configure the Lissajous display settings, press F•3 LISSAJOU SETUP. This setting is available when F•1 DISPLAY MODE is set to LISSAJOU. AUDIO →...
Page 340: Selecting The Lissajous Curve Display Format
15. Audio Display 15.6.3 Selecting the Lissajous Curve Display Format To select the Lissajous curve display format, follow the procedure below. Procedure AUDIO → F•3 LISSAJOU SETUP → F•3 DISPLAY: MULTI / SINGLE Settings MULTI: Eight channels of Lissajous waveforms and eight channels of audio meters are displayed.
Page 341: Selecting The Scale Display Format
15. Audio Display 15.6.4 Selecting the Scale Display Format To select the scale display format, follow the procedure below. Procedure AUDIO → F•3 LISSAJOU SETUP → F•4 FORM: X-Y / MATRIX Settings X-Y: R is assigned to the X-axis (horizontal), and L is assigned to the Y-axis (vertical).
Page 342: Setting The Lissajous Curve Gain
15. Audio Display 15.6.5 Setting the Lissajous Curve Gain To select the Lissajous curve gain, follow the procedure below. Procedure AUDIO → F•3 LISSAJOU SETUP → F•5 AUTO GAIN: ON / OFF Settings The gain is automatically adjusted so that the waveform fits the scale. OFF: The waveform is displayed with a fixed gain.
Page 343: Surround Display (Ser20)
15. Audio Display 15.7 Surround Display (SER20) To show the surround display, set F•1 DISPLAY MODE on the AUDIO menu to SURROUND. To configure the surround display settings, press F•3 SURROUND SETUP. This setting is available when F•1 DISPLAY MODE is set to SURROUND. AUDIO →...
Page 344: Selecting The Surround Display Format
15. Audio Display 15.7.3 Selecting the Surround Display Format To select the surround display format, follow the procedure below. If adjacent channels (including Lch and Rch for PHANTOM) are of opposite phases, the scale between the channels is displayed in red. Procedure AUDIO →...
Page 345: Status Display (Ser20)
15. Audio Display 15.8 Status Display (SER20) To display the status, set F•1 DISPLAY MODE on the AUDIO menu to STATUS. To configure the status display settings, press F•3 STATUS SETUP. This setting is available when F•1 DISPLAY MODE is set to STATUS. AUDIO →...
Page 346: Event Log Display
15. Audio Display • Mute (Silence) Displays the number of times that a mute signal exceeding the duration specified in section 15.3, “Configuring Error Detection Settings” is received. • Parity Error Counts the number of times that the input signal’s parity bit and the recalculated parity bit differ.
Page 347: Channel Status Display
15. Audio Display 15.8.3 Channel Status Display To display the status of the selected channel, follow the procedure below. Use F•1 DISPLAY CHANNEL to select the channel. You can also use F•2 ALIGN to select the bit order. Procedure AUDIO → F•3 STATUS SETUP → F•3 CHANNEL STATUS Figure 15-17 Channel status display...
Page 348: Displaying User Bits
15. Audio Display 15.8.4 Displaying User Bits To display the user bits of the selected channel, follow the procedure below. Use F•1 DISPLAY CHANNEL to select the channel. You can also use F•2 ALIGN to select the bit order. Procedure AUDIO →...
Page 349: Status Display
16. Status Display 16. STATUS DISPLAY To display the status, press STATUS. Figure 16-1 Status display 16.1 Status Screen Description • SIGNAL If the instrument is receiving an SDI signal, "DETECT" is displayed. Otherwise, "NO SIGNAL" is displayed. If "NO SIGNAL" is displayed, the following items are not displayed. •...
Page 350 16. Status Display • Cable The input signal attenuation is converted into a cable length that you selected and displayed. Normally the value is displayed in light blue, but by setting Cable Error on the ERROR SETUP1 tab to ON, if the value exceeds the specified Warning value, it will change to yellow. If the value exceeds the Error value, it will change to red.
Page 351 16. Status Display • TRS Code Input signal TRS (Timing Reference Signal) protection bit errors are displayed. An error is counted when the correspondence between F, V, and H in the protection bits (XYZ) of EAV (End of Active Video) and SAV (Start of Active Video) and error correction flags P3, P2, P1, and P0 is outside the video specifications.
Page 352 16. Status Display • Inhibit An error is counted when embedded audio packets are found in lines where they should not be embedded. The embedding inhibit lines are as follows. However, for 3G-B-DL 60p, 59.94p, 50p, 48p, and 47.95p, the transmission scanning mode is interlace.
Page 353 16. Status Display • Level C An error is counted when the chrominance level is outside the specified range. Set the upper and lower limits for detecting errors. • SinceReset The time that has elapsed since F•7 ERROR CLEAR was pressed, the instrument was initialized, or the instrument was restarted is displayed.
Page 354: Configuring Error Detection Settings
16. Status Display 16.2 Configuring Error Detection Settings To configure the error detection settings, use F•5 STATUS SETUP. When error detection is set to ON, the following actions are performed when an error occurs. • Counts errors on the status display. •...
Page 355 16. Status Display • CRC Error(Except SD) Select whether to detect CRC errors. This setting is valid when the input signal is not SD. OFF / ON • EDH Error(SD) Select whether to detect EDH errors. This setting is valid when the input signal is SD. OFF / ON •...
Page 356: Error Setup 2
16. Status Display • HD Cable Select the cable to use for cable length measurements when the input signal is HD. LS-5CFB / 1694A • HD Cable Error / Warning Set the upper cable error limit and the upper cable warning limit for HD input signals. If the value on the left side is exceeded, an error will occur, and the measured value on the status display will be displayed in red.
Page 357 16. Status Display • Parity Error Select whether to detect parity errors in the ancillary data. OFF / ON • Checksum Error Select whether to detect checksum errors in the ancillary data. OFF / ON • BCH Error(Except SD) Select whether to detect BCH errors in the embedded audio. This setting is valid when the input signal is not SD.
Page 358: Error Setup 3
16. Status Display 16.2.3 Error Setup 3 In the ERROR SETUP3 tab, configure gamut error settings. STATUS → F•5 STATUS SETUP → F•2 PREV TAB or F•3 NEXT TAB → Figure 16-4 ERROR SETUP3 tab • LowPass Filter Select the frequency response of the low-pass filter used for gamut error and composite gamut error detection.
Page 359 16. Status Display • Area Specify the percentage of the active picture area over which errors must occur to be recognized as an error. You cannot configure this setting when Gamut Error is set to OFF. 0.0 - 1.0 - 5.0% •...
Page 360: Error Setup 4
16. Status Display • Duration Set the number of consecutive video frames over which errors must occur to be recognized as an error. You cannot configure this setting when Composite Gamut Error is set to OFF. 1 - 60 Frames •...
Page 361 16. Status Display • Area Upper / Area Lower / Area Left / Area Right Set what percent of each active picture area (the upper, lower, left, and right areas) will not be subject to error detection. 0 - 100% •...
Page 362 16. Status Display • Level Error Select whether to detect level errors. If you set this to OFF, you cannot configure the following settings. ON / OFF • Luminance Upper Set the luminance level error upper limit. An error occurs when the input signal level exceeds the specified value.
Page 363: Clearing Error Counts
16. Status Display 16.3 Clearing Error Counts To clear the error counts and SinceReset, follow the procedure below. Procedure STATUS → F•7 ERROR CLEAR 16.4 Configuring Event Log Settings To display the event log, follow the procedure below. The event log displays a list of the events that have occurred. The applicable event-detection channels are all A/B channels.
Page 364 PIC menu, STATUS SETUP of the STATUS menu, ERROR SETUP of the EYE menu, and ERROR SETUP of the AUDIO menu are displayed. Table 16-2 Events Model/Option Event Name Event Name Description (in frame) (one line display) LV5300/LV5300A/LV5350/ CRC Error(Except SD) LV7300-SER01/LV7300-SER02/ EDH Error(SD) SE23/SER28 TRS Position TRS Position TRS Position Error TRS_Code...
Page 365 16. Status Display Model/Option Event Name Event Name Description (in frame) (one line display) Gamut ST1 Gamut ST1 Gamut Error Stream 1(Gamut Details = OFF) Gmt R ST1 Gamut R ST1 Gamut Error Stream 1 R UPPER(Gamut Details = ON) Gmt G ST1 Gamut G ST1 Gamut Error Stream 1 G UPPER(Gamut...
Page 366 Max Cll ST1 MAX CLL ST1 MAX CLL Error Stream 1 Max Cll ST2 MAX CLL ST2 MAX CLL Error Stream 2 LV5300/LV5300A/LV7300-SER02 EYE Jitter EYE 12G Jitter 12G Jitter Error (other than 12G) EYE 6G Jitter 6G Jitter Error...
Page 367: Starting The Event Log
16. Status Display Model/Option Event Name Event Name Description (in frame) (one line display) EYE HD Of HD OverShoot Falling Error EYE SD Of SD OverShoot Falling Error SER20 Validity Validity Validity Error CRC Error Clip Clip Clip Mute Mute Mute Level Ov.
Page 368: Saving To A Usb Memory Device
16. Status Display 16.4.5 Saving to a USB Memory Device You can save the event log to a USB memory device as a text file. To save a file with a name that you specify, follow the procedure below. 1. Used to connect USB memory. 2.
Page 369 16. Status Display 5. Enter a file name using up to 14 characters. The key operations that you can perform in the file name input display are as follows: F•1 CLEAR ALL Deletes all characters F•2 DELETE Deletes the character at the cursor F•4 <= Moves the cursor to the left F•5 =>...
Page 370: Configuring The Data Dump Settings
16. Status Display 16.5 Configuring the Data Dump Settings To view the data dump, follow the procedure below. In the data dump, the data of the selected line is listed. You can change the line number using the V POS knob and the sample number using the H POS knob. (You can also use the function dial (F•D).
Page 371: Data Dump Display Description
16. Status Display 16.5.1 Data Dump Display Description • Detection Code Display The input signal's embedded ancillary data is detected, and the following detection codes are displayed. Table 16-3 Detection code display Detection Display Description Code Colors Cyan Ancillary data flags (000h, 3FFh, and 3FFh) Cyan Data identification (the data after ADF) SDID...
Page 372: Moving The Display Position
16. Status Display As an example, the switching procedure for setting the picture scan line number to 42 when 3G-B-DL (1920×1080/59.94P) is applied is shown below. Data dump is displayed. Set F•4 DISPLAY to PICTURE. Use the V POS knob to set PIC LINE No. to 42. Set F•4 DISPLAY to STREAM1.
Page 373: Selecting The Adjustment Step Resolution
16. Status Display 16.5.3 Selecting the Adjustment Step Resolution To select the line or sample number adjustment step resolution for when the function dial (F•D) is turned, follow the procedure below. Procedure STATUS → F•2 SDI ANALYSIS → F•1 DATA DUMP → F•2 DUMP OPERATION → F•2 FD 1CLICK: 1 / 10 / 50 16.5.4 Selecting What the Function Dial Controls...
Page 374: Selecting The Display Format
16. Status Display 16.5.6 Selecting the Display Format To select the data dump display format, follow the procedure below. This menu appears both in the DATA DUMP menu and DUMP OPERATION menu. However, when F•5 LINK or F•5 SUB is set to PICTURE, it does not appear. Procedure STATUS →...
Page 375 16. Status Display DISPLAY = COMPO DISPLAY = BINARY Figure 16-11 Selecting the display format...
Page 376: Selecting The Content To Display
16. Status Display 16.5.7 Selecting the Content to Display When the format is set to multi, 6G or 12G, to select which content to display the data dump of, follow the procedure below. If you select PICTURE, the links and sub images are combined and displayed in a picture structure.
Page 377: Configuring Phase Difference Measurement Settings
16. Status Display 16.6 Configuring Phase Difference Measurement Settings To show the phase difference measurement display, follow the procedure below. You can use the phase difference measurement display to measure the phase difference between an SDI signal and an external sync signal or the phase difference between a pair of SDI signals.
Page 378: Phase Difference Measurement Screen Description
16. Status Display 16.6.1 Phase Difference Measurement Screen Description • CURRENT PHASE V PHASE: The phase difference is displayed in units of lines. H PHASE: The phase difference is displayed in units of time and in units of pixels or clocks. (*1) TOTAL PHASE: The total of the V PHASE and H PHASE differences is displayed in units of time.
Page 379 TIMING to select the reference where the phase difference is assumed to be zero. When using a LEADER signal generator that allows you to select LEGACY or SERIAL, this setting must be matched to the setting selected on the instrument. In addition, depending on the output accuracy of the signal generator and measurement accuracy of the instrument, there may be an offset of around 0 ±...
Page 380 16. Status Display Table 16-9 Delay and Advance axis display ranges (3G-A, 3G-B, HD, SD) Displayed on the Advance Axis 3G-A, 3G-B, HD, SD Displayed on the Delay Axis Format V PHASE H PHASE V PHASE H PHASE V PHASE H PHASE [Lines] [us]...
Page 381 16. Status Display Table 16-10 Delay and Advance axis display ranges (6G) Displayed on the Advance Axis Displayed on the Delay Axis 6G Sub Image Format V PHASE H PHASE V PHASE H PHASE V PHASE PHASE [Lines] [us] [Lines] [us] [Lines] [us]...
Page 382: Setting The Lip Sync Measurement (Ser20)
To show the lip sync measurement screen, follow the procedure below. By combining a Leader signal generator that supports lip syncing with this instrument, you can use the lip sync measurement screen to measure the offset between the video signal and the audio signal that occurs in the transfer route.
Page 383: Selecting The Measurement Range
16. Status Display The time difference when the luminance level of the video signal (the G signal level when the input signal is RGB) exceeds the specified value or when the audio level signal exceeds the specified value is measured, and the results are displayed numerically and graphically for each channel.
Page 384: Setting The Measurement Range
16. Status Display 16.7.3 Setting the Measurement Range To set the measurement range, follow the procedure below. Use the AV PHASE SETUP tab to configure these settings. Procedure STATUS → F•2 SDI ANALYSIS → F•3 AV PHASE → F•3 AV PHASE SETUP Figure 16-14 AV PHASE SETUP tab •...
Page 385 16. Status Display Figure 16-15 Setting the measurement range (video signal) • Video Level Set the video signal luminance level. The time difference from the audio signal is measured when the luminance level of the measurement range specified with AV MES exceeds the level specified here.
Page 386 16. Status Display • Sub Image If the input signal is 12G and Division is set to Square on the SDI IN SETUP2 tab of the SYS menu, select the link for setting the measurement range. 1 / 2 / 3 / 4...
Page 387: Displaying A List Of Ancillary Data
16. Status Display 16.8 Displaying a List of Ancillary Data To display a list of ancillary data, follow the procedure below. Ancillary data not embedded in every frame may not be displayed. Procedure STATUS → F•3 ANC DATA VIEWER Figure 16-17 Ancillary data screen 16.8.1 Ancillary Data Display Description On the ancillary data screen, data is displayed as a list for each standard.
Page 388: Displaying A Dump Of Ancillary Data
16. Status Display 16.8.2 Displaying a Dump of Ancillary Data To display a dump of the data that you have selected on the ancillary data display, follow the procedure below. By turning the function dial (F•D) to the right, you can scroll the screen to view all the data. If you press the function dial (F•D), the cursor returns to the first data entry.
Page 389: Selecting The Dump Mode
16. Status Display 16.8.4 Selecting the Dump Mode To select the dump mode, follow the procedure below. Procedure STATUS → F•3 ANC DATA VIEWER → F•1 ANC DUMP → F•3 DUMP MODE: HEX / BINARY Settings HEX: Data is displayed in hexadecimal format. BINARY: Data is displayed in binary format.
Page 390: Detecting Ancillary Packets
16. Status Display 16.9 Detecting Ancillary Packets To display the ancillary packet display, follow the procedure below. If an ancillary packet is detected, “DETECT” appears. If not, “MISSING” appears. If a dummy packet is detected, “DUMMY” appears. Procedure STATUS → F•4 ANC PACKET Figure 16-20 Ancillary packet screen •...
Page 391 16. Status Display • PAYLOAD ID This is a packet that is used to identify the video format. It conforms to SMPTE ST 352. [See also] 16.9.3, “Displaying Payload IDs” • EIA-708 This is one of the closed caption specifications. This packet is embedded in the V-ANC area.
Page 392: Displaying Edh Packets
16. Status Display 16.9.2 Displaying EDH Packets When the input signal is SD, to display the EDH packet screen, follow the procedure below. Procedure STATUS → F•4 ANC PACKET → F•1 PACKET ANALYSIS → F•1 EDH • Selecting the Display Format You can use F•1 DISPLAY to set the display format to TEXT (text display) or DUMP (dump display).
Page 393: Displaying Audio Control Packets
16. Status Display 16.9.4 Displaying Audio Control Packets To display audio control packets, follow the procedure below. Procedure STATUS → F•4 ANC PACKET → F•1 PACKET ANALYSIS → F•3 CONTROL PACKET Figure 16-22 Audio control packet screen • Selecting the Display Format You can use F•1 DISPLAY to set the display format to TEXT (text display) or DUMP (dump display).
Page 394: V-Anc Arib Display
16. Status Display 16.9.5 V-ANC ARIB Display To display the V blanking ancillary packets defined in the ARIB standard, use the ARIB menu. This menu item is not displayed when the input signal is 3G-B. STATUS → F•4 ANC PACKET → F•1 PACKET ANALYSIS → F•4 V-ANC → F•1 ARIB → Figure 16-23 V-ANC ARIB menu 16.9.6 Displaying Closed Caption Packets...
Page 395: Displaying The Inter-Stationary Control Signal
16. Status Display • Selecting the Content to Display You can select the displayed content using F•5 LINK when the input signal is multi link and F•5 SUB when the input signal is 6G or 12G. 16.9.7 Displaying the Inter-Stationary Control Signal To display the inter-stationary control signal, follow the procedure below.
Page 396 16. Status Display DISPLAY = DUMP DISPLAY = QLOG DISPLAY = FORMAT Figure 16-26 Selecting the display format...
Page 397 16. Status Display • Selecting the Dump Mode When F•1 DISPLAY is set to DUMP, you can use F•2 DUMP MODE to set the dump mode to HEX (hexadecimal display) or BINARY (binary display). • Clearing the Q-Signal Log When F•1 DISPLAY is set to Q LOG, press F•2 Q LOG CLEAR to clear the Q-signal log. •...
Page 398: Displaying The Data Broadcast Trigger Signal
16. Status Display 16.9.8 Displaying the Data Broadcast Trigger Signal To display the data broadcast trigger signal, follow the procedure below. Procedure STATUS → F•4 ANC PACKET → F•1 PACKET ANALYSIS → F•4 V-ANC → F•1 ARIB → F•3 DATA TRIGGER Figure 16-28 Data broadcast trigger signal screen •...
Page 399: Displaying User Data
16. Status Display 16.9.9 Displaying User Data To display user data 1 or 2, follow the procedure below. You can use the function dial (F•D) to view all the data. If you press the function dial (F•D), the first data entry is displayed. Procedure STATUS →...
Page 400: Displaying Eia-708 Data
16. Status Display 16.9.11 Displaying EIA-708 Data To display data that is specified by the EIA-708 standard, follow the procedure below. Procedure STATUS → F•4 ANC PACKET → F•1 PACKET ANALYSIS → F•4 V-ANC → F•2 SMPTE → F•1 EIA-708 Figure 16-31 EIA-708 data display •...
Page 401: Displaying Eia-608 Data
16. Status Display 16.9.12 Displaying EIA-608 Data To display data that is specified by the EIA-608 standard, follow the procedure below. Procedure STATUS → F•4 ANC PACKET → F•1 PACKET ANALYSIS → F•4 V-ANC → F•2 SMPTE → F•2 EIA-608 Figure 16-32 EIA-608 data display •...
Page 402: Displaying Program Data
16. Status Display 16.9.13 Displaying Program Data To display whether program description packets that are specified by the ATSC A/65 standard are present, follow the procedure below. For each descriptor, if its ID is present, “DETECT” is displayed; if its ID is not present, “MISSING” is displayed. Procedure STATUS →...
Page 403: Displaying Vbi Data
16. Status Display 16.9.14 Displaying VBI Data When the input signal is SD, to display VBI data, follow the procedure below. Procedure STATUS → F•4 ANC PACKET → F•1 PACKET ANALYSIS → F•4 V-ANC → F•2 SMPTE → F•4 VBI Figure 16-34 VBI data display •...
Page 404: Displaying Afd Packets
16. Status Display 16.9.15 Displaying AFD Packets To display AFD packets, follow the procedure below. Procedure STATUS → F•4 ANC PACKET → F•1 PACKET ANALYSIS → F•4 V-ANC → F•2 SMPTE → F•5 AFD Figure 16-35 AFD packet display • Selecting the Display Format You can use F•1 DISPLAY to set the display format to TEXT (text display) or DUMP (dump display).
Page 405: Configuring The Scte-104 Detection Display Settings
16. Status Display 16.9.16 Configuring the SCTE-104 Detection Display settings To display SCTE-104 packets, follow the procedure below. Procedure STATUS → F•4 ANC PACKET → F•1 PACKET ANALYSIS → F•4 V-ANC → F•3 SCTE / CAMERA META → F•1 SCTE-104 •...
Page 406 16. Status Display • Starting the Event Log When F•1 DISPLAY is set to TEXT or SPLICE, you can start the event log, follow the procedure below. Procedure STATUS → F•4 ANC PACKET → F•1 PACKET ANALYSIS → F•4 V-ANC → F•3 SCTE / CAMERA META →...
Page 407: Displaying The Scte-104 Detection Screen
16. Status Display 16.9.17 Displaying the SCTE-104 Detection screen • TEXT Display When a SCTE-104 message is detected, the message is displayed in blue. The message display time is displayed only for the time set in Duration, and if no message is detected during the set time, all detected messages are grayed out.
Page 408 16. Status Display • SPLICE Display When a splice_request_data message is detected, the message is displayed. You can log up to 1000 detected the splice_request_data messages. To display the detailes of the message, turn the function dial (F•D) to select the target message. Set F•3 LOG to START to start logging.
Page 409: Displaying Sr Live Packets
16. Status Display 16.9.18 Displaying SR Live Packets To display SR Live packets, follow the procedure below. Procedure STATUS → F•4 ANC PACKET → F•1 PACKET ANALYSIS → F•4 V-ANC → F•3 SCTE / CAMERA META → F•2 SR Live Figure 16-39 SR Live packet display(TEXT display) •...
Page 410: Performing Custom Searches
16. Status Display 16.9.19 Performing Custom Searches To show the custom search screen, follow the procedure below. You can use the function dial (F•D) to view all the data. If you press the function dial (F•D), the first data entry is displayed. Procedure STATUS →...
Page 411 16. Status Display Set F•1 DID and F•2 SDID/DBN to display ancillary packets on the basis of the combination of the DID and SDID/DBN. You can set F•1 DID in the range of 00 to FF. Press the function dial (F•D) to return the setting to its default value (00).
Page 412: Eye Pattern Display (Lv5300/Lv5300A/Lv7300-Ser02)
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17. EYE PATTERN DISPLAY (LV5300/LV5300A/LV7300-SER02) To display the eye pattern, press EYE. On the eye pattern display you can use F•1 EYE/JITTER INTEN/CONFIG → F•1 EYE/JITTER MODE to display the eye pattern or jitter. The SDI signal applied to SDI INPUT 1 is displayed.
Page 413 17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) • Displaying the Eye Pattern and Jitter Simultaneously By using the customized layout feature (SER26), you can display the eye pattern and jitter simultaneously. [See also] 6.5, “Customized Layout (SER26) Figure 17-3 Eye pattern and jitter display...
Page 414: Eye Pattern Display Description
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.1 Eye Pattern Display Description • Automatic Measurement On the eye pattern display, values such as the amplitude of the eye pattern and the jitter are measured automatically and displayed. Measured values are normally displayed in white, but they are displayed in yellow until they stabilize and in red if they exceed the values that you have specified in the error setup.
Page 415 17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) • Unit interval This unit uses unit intervals (UI) as jitter measurement units. One cycle of the eye pattern is 1 UI. The time that corresponds to 1 UI varies depending on the input signal, as shown below.
Page 416: Jitter Display Description
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.2 Jitter Display Description • Measurement In the jitter display mode, the jitter component is extracted from the input signal and plotted on a time graph. The time (horizontal) axis can be displayed in different ways depending on the data interval of the lines, fields, or frames, which are being transmitted in the SDI signal.
Page 417: Setting The Waveform Display Position
Use the V POS and H POS knobs to adjust the display position of the waveform. On the multi display, these are valid when you press F•7 MULTI EYE on the MULTI menu. Figure 17-6 LV5300/LV5300A, LV5350 V POS and H POS knobs Figure 17-7 LV7300 V POS and H POS knobs •...
Page 418: Switching Between Eye Pattern And Jitter
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.4 Switching between Eye Pattern and Jitter To switch between eye pattern and jitter, follow the procedure below. Procedure EYE → F•1 EYE/JITTER INTEN/CONFIG → F•1 EYE/JITTER: EYE / JITTER 17.5 Turning the Histogram Display On and Off When an eye pattern is displayed, to superimpose the histogram on the eye pattern, follow the procedure below.
Page 419: Setting The Intensity
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.6 Setting the Intensity Use F•1 EYE/JITTER INTEN/CONFIG → F•3 INTENSITY on the EYE menu to set the intensity. You can configure these settings separately for the eye pattern, histogram and jitter. EYE → F•1 EYE/JITTER INTEN/CONFIG → F•3 INTENSITY →...
Page 420: Selecting The Display Colors
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.7 Selecting the Display Colors Use F•1 EYE/JITTER INTEN/CONFIG → F•4 COLOR on the EYE menu to set the display colors. You can configure these settings separately for the eye pattern, histogram and jitter. EYE → F•1 EYE/JITTER INTEN/CONFIG → F•4 COLOR →...
Page 421: Configuring Error Detection Settings
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.8 Configuring Error Detection Settings Use F•1 EYE/JITTER INTEN/CONFIG → F•5 ERROR SETUP on the EYE menu to set error detection. When error detection is set to ON, the following actions are performed when an error occurs.
Page 422 17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) • Amplitude Error Turns the eye pattern's amplitude error detection on and off. You cannot set Lower to a value that is greater than Upper, even if the value is within the selectable range. Upper:...
Page 423: Configuring 6G Error Settings
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.8.2 Configuring 6G Error Settings Use the 6G-SDI ERROR SETUP tab to configure error detection settings for 6G signals. You can set the threshold values when you set the error detection to ON. Measured values given in SMPTE ST 2082-1 are used as 100 %.
Page 424 17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) • Amplitude Error Turns the eye pattern's amplitude error detection on and off. You cannot set Lower to a value that is greater than Upper, even if the value is within the selectable range. Upper: 80 - 110 –...
Page 425: Configuring 3G Error Settings
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.8.3 Configuring 3G Error Settings Use the 3G-SDI ERROR SETUP tab to configure error detection settings for 3G signals. You can set the threshold values when you set the error detection to ON. Measured values given in SMPTE ST 424 are used as 100 %.
Page 426 17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) • Amplitude Error Turns the eye pattern's amplitude error detection on and off. You cannot set Lower to a value that is greater than Upper, even if the value is within the selectable range. Upper:...
Page 427: Configuring Hd Error Settings
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.8.4 Configuring HD Error Settings Use the HD-SDI ERROR SETUP tab to configure error detection settings for HD signals. You can set the threshold values when you set the error detection to ON. Measured values given in SMPTE ST 292 are used as 100 %.
Page 428 17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) • Amplitude Error Turns the eye pattern's amplitude error detection on and off. You cannot set Lower to a value that is greater than Upper, even if the value is within the selectable range. Upper:...
Page 429: Configuring Sd Error Settings
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.8.5 Configuring SD Error Settings Use the SD-SDI ERROR SETUP tab to configure error detection settings for SD signals. You can set the threshold values when you set the error detection to ON. Measured values given in SMPTE ST 259 are used as 100 %.
Page 430 17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) • Amplitude Error Turns the eye pattern's amplitude error detection on and off. You cannot set Lower to a value that is greater than Upper, even if the value is within the selectable range. Upper:...
Page 431: Configuring Eye Pattern Display Settings
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.9 Configuring Eye Pattern Display Settings To configure eye pattern display settings, press F•2 GAIN/FILTER/SWEEP on the EYE menu. This menu appears when F•1 EYE/JITTER INTEN/CONFIG → F•1 EYE/JITTER MODE is set to EYE. EYE → F•2 GAIN/FILTER/SWEEP →...
Page 432: Selecting The Sweep Time
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.9.3 Selecting the Sweep Time To select the eye pattern sweep time, follow the procedure below. Procedure 2UI / 4UI / 16UI EYE → F•2 GAIN/FILTER/SWEEP → F•4 SWEEP: Settings 2UI: Two cycles of the eye pattern are shown.
Page 433: Turning The Peak Hold On And Off
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.9.4 Turning the Peak Hold On and Off To configure the peak hold settings, press F•3 PEAK HOLD on the EYE menu. Measurement is possible regardless of whether F•1 EYE/JITTER INTEN/CONFIG → F•2 EYE/JITTER is set to EYE or JITTER.
Page 434: Turning Cursors On And Off
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.9.6 Turning Cursors On and Off To configure the cursor settings, press F•4 CURSOR on the EYE menu. EYE → F•4 CURSOR → Figure 17-20 CURSOR menu To turn cursors on and off, follow the procedure shown below.
Page 435: Selecting The Cursor
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.9.7 Selecting the Cursor The X-axis and Y-axis cursors are displayed at the same time, but you can only use the function dial (F•D) to move one set of cursors at a time. To select which cursors you want to move, follow the procedure below.
Page 436 17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 3. Press F•5 REF SET. The Y-axis cursors move to the 20 % and 80 % positions of the amplitude, and then F•2 XY SEL is automatically set to X. Figure 17-23 Tr,Tf measurement (2) 4.
Page 437: Selecting The X-Axis Measurement Unit
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.9.8 Selecting the X-Axis Measurement Unit When F•2 XY SEL is set to X, to select the X-axis cursor measurement unit, follow the procedure below. Procedure EYE → F•4 CURSOR → F•3 X UNIT: sec / Hz / UIp-p...
Page 438: Resetting Cursors
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.9.11 Resetting Cursors To reset the cursor positions, follow the procedure below. Procedure EYE → F•4 CURSOR → F•6 CURSOR RESET 17.9.12 Selecting the Display Mode To select the eye pattern display mode, follow the procedure below.
Page 439: Selecting The Magnification
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.10.1 Selecting the Magnification To select the jitter display magnification, follow the procedure below. Procedure EYE → F•2 GAIN/FILTER/SWEEP → F•2 GAIN MAG : X1 / X2 / X8 (for formats other than 12G) : X1 / X2 / X4 / X16 (for 12G) 17.10.2 Selecting the Filter...
Page 440: Turning The Peak Hold On And Off
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.10.4 Turning the Peak Hold On and Off To configure the peak hold settings, press F•3 PEAK HOLD on the EYE menu. EYE → F•3 PEAK HOLD → Figure 17-26 PEAK HOLD menu To measure the peak values of the timing jitter (T.J) and the jitter (JIT), follow the procedure below.
Page 441: Turning Cursors On And Off
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.10.6 Turning Cursors On and Off To configure the cursor settings, press F•4 CURSOR on the EYE menu. EYE → F•4 CURSOR → Figure 17-28 CURSOR menu To turn cursors on and off, follow the procedure shown below.
Page 442: Selecting The X-Axis Measurement Unit
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.10.8 Selecting the X-Axis Measurement Unit When F•2 XY SEL is set to X, to select the X-axis cursor measurement unit, follow the procedure below. Procedure EYE → F•4 CURSOR → F•3 X UNIT: sec / Hz...
Page 443: Resetting Cursors
17. Eye Pattern Display (LV5300/LV5300A/LV7300-SER02) 17.10.11 Resetting Cursors To reset the cursor positions, follow the procedure below. Procedure EYE → F•4 CURSOR → F•6 CURSOR RESET 17.10.12 Selecting the Display Mode To select the jitter display mode, follow the procedure below.
Page 444: Remote Control
18. Remote Control 18. REMOTE CONTROL You can use the remote connector on the rear panel to load presets, transmit alarm signals, and perform other operations. Use your 15-pin D-sub connector to control the instrument. • Remote Connector Diagram The remote connector diagram as viewed from the rear panel is shown below. Figure 18-1 Remote connector (female, inch screws) •...
Page 445: Bit Mode
18. Remote Control 18.1 Bit Mode This section describes the control method when Mode on the SYS menu is set to Bit. • Pinout Table 18-2 Pinout Pin No. Name I/O (*1) Description OPEN Open (*2) Loads preset 1 Loads preset 2 Loads preset 3 Loads preset 4 Loads preset 5...
Page 446 18. Remote Control • Control The input connectors respond to active-low signals. Do not apply negative voltages or voltages that exceed +5 V. The active-low signal must be stable for at least 350 ms. After that, wait at least 1 second before applying the next signal. Figure 18-3 Control timing 1 After a setting is made, it may take about 3 seconds for the operation to finish.
Page 447 18. Remote Control • When a format other than that specified on the SDI IN SETUP2 tab of the SYS menu is received • When an error occurs in the item that you have set to ON using F•5 STATUS SETUP on the STATUS menu •...
Page 448: Binary Mode
18. Remote Control 18.2 Binary Mode This section describes the control method when Mode on the SYS menu is set to Binary. • Pinout • Control • Switching Display Channels • Alarm output These are the same as Bit mode. See section 18.1, “Bit Mode.” •...
Page 449 18. Remote Control Preset...
Page 450: Command Mode
18. Remote Control 18.3 Command Mode This section describes the control method when Mode on the SYS menu is set to Command. • Pinout Table 18-4 Pinout Pin No. Name I/O (*1) Description OPEN Open (*2) Function 1 Function 2 Function 3 Function 4 Function 5...
Page 451 18. Remote Control • Control Strobe signals are used for Command mode control. Data is retrieved when the strobe signal is at low level. Strobe signals should maintain a stable low level state for at least 350 ms. Before the next command, the strobe signal should maintain a stable high level state for at least 650ms and then set it to a low level.
Page 452: Tally Mode (Ser27)
18. Remote Control 18.4 Tally Mode (SER27) This section describes the control method when Mode on the SYS menu is set to Tally. • Pinout Table 18-6 Pinout Pin No. Name I/O (*1) Description OPEN Open (*2) /AT1 Channel A tally 1 display /AT2 Channel A tally 2 display /ATE...
Page 453 18. Remote Control • Tally Display You can use pins 2 to 13 of the remote connector to display tallies. Tallies that you set to low will be turned on, and those that you set to high will be turned off. To display tallies, you must place TALLY items in the layout or turn Tally Frame on.
Page 454: Network Control
The instrument can be remotely controlled through its Ethernet port on the rear panel. Controlling the instrument remotely through its Ethernet interface has only been confirmed to work in a local network environment. LEADER does not guarantee that this feature will work in any network environment.
Page 455: Time Adjustment Value
19. Network Control 19.1.2 Time Adjustment Value The date and time exchanged with an NTP (SNTP) are basically Coordinated Universal Time (UTC). Therefore, the time must be adjusted in accordance with the country or region where the device is used in. On the NETWORK tab, set Time Zone Adjust to one of the following values.
Page 456: Telnet
19. Network Control Country or region Time Zone Adjust Western Australia +8:45 Australian Central Standard Time +9:30 New South Wales (Lord Howe Island) +10:30 Phoenix Islands, Tonga, Tokelau +13:00 Line Islands +14:00 19.2 TELNET From a PC connected to the same network as the instrument, you can remotely control most of the operations that can be controlled from the panel.
Page 457: How To Enter Commands
19. Network Control 5. Type the login name and password. The login name and password are “LV5300”. Use uppercase for all characters. When the login name and password are entered correctly, “LV5300@LV5300:~$” appears. LV5300 login: LV5300 Password: ****** LV5300@LV5300:~$ 6. Enter TELNET commands. Enter commands by referring to sections 19.2.2, “How to Enter Commands,”...
Page 458: Telnet Commands
19. Network Control 19.2.3 TELNET Commands TELNET commands follow the instrument or the option menu structure. Some of the descriptions do not apply depending on the installed options or the current settings. • INPUT KEY Command Parameter Limitation INPUT SINGLE / SIMUL / ? INPUT:SINGLE_A ON / ? (Return value:ON(Channel SD/HD/3G-A/3G-B-DL setting, Select the...
Page 459 19. Network Control • SYS KEY Command Parameter Limitation SYS:LCD:BACKLIGHT 1 to 32 / ? SYS:LCD:ON None SYS:LCD:OFF None SYS:INITIALIZE:PARAM None SYS:INITIALIZE:LAYOUT None SYS:INITIALIZE:OPERATE None SYS:INITIALIZE:ALL None SYS:SDI:SYSTEM 4K_12G / 4K_6G / 4K_3G_DLINK / SINGLE_LINK * Correspondence between parameters and settings 4K_12G : 4K 12G 4K_6G : 4K 6G...
Page 460 19. Network Control WFM:COLOR WHITE / YELLOW / CYAN / GREEN / MAGENTA / RED / BLUE / MULTI / ? WFM:SCALE:INTEN -8 to 7 / ? WFM:SCALE:COLOR WHITE / YELLOW / CYAN / GREEN / MAGENTA / RED / BLUE / ? WFM:SCALE:UNIT HDV_SDP / HDV_SDV / HDP_SDP / CV_DEC / CV_HEX / ?
Page 461 19. Network Control VECTOR:DISPLAY VECT / 5BAR / HIST / CIE / ? VECTOR:LINE_SELECT ON / OFF / CINELITE / ? VECTOR:LINE_NUMBER 0 to 32767 / ? VECTOR:LINE_FIELD FIELD1 / FIELD2 / FRAME / ? VECTOR:MATRIX:CB 100P / 75P / ? VECTOR:MATRIX:COLOR_MATRIX COMPONENT / COMPOSITE / ? VECTOR:MATRIX:COMPOSITE:FORMAT...
Page 462 19. Network Control VECTOR:HIST:SCALE P / HDR / ? VECTOR:HIST:FORM SINGLE / TILE / ALIGN_H / ALIGN_V / ? VECTOR:HIST:Y ON / OFF / ? VECTOR:HIST:R ON / OFF / ? VECTOR:HIST:G ON / OFF / ? VECTOR:HIST:B ON / OFF / ? VECTOR:CIE:SCALE:COLOR BG_COLOR / BG_WHITE / BG_BLACK / ? VECTOR:CIE:SCALE:TRIANGLE1...
Page 463 19. Network Control PIC:BIAS:R -500 to 500 / ? * -500(-50.0%) - 500(50.0%) PIC:BIAS:G -500 to 500 / ? * -500(-50.0%) - 500(50.0%) PIC:BIAS:B -500 to 500 / ? * -500(-50.0%) - 500(50.0%) PIC:DISP:GAMUT OFF / WHITE / RED / MESH / ? PIC:DISP:STATUS_INFO ON / OFF / ? PIC:MARKER:FRAME...
Page 464 19. Network Control PIC:CINELITE:FSTOP:GAMMA:CAL:1_DATA_ None CLEAR PIC:CINELITE:FSTOP:GAMMA:CAL:SET None PIC:CINELITE:FSTOP:GAMMA:CAL:F 22.0 / 16.0 / 11.0 / 8.0 / 5.6 / 4.0 / 2.8 / 2.0 / ? PIC:CINELITE:FSTOP:GAMMA:FILE:TABLE_C None LEAR PIC:CINELITE:_DISPLAY:UNIT_SELECT Y_P / RGB_P / RGB255 / ? * MEASURE SIZE : not 1x1 Y_P / RGB_P / RGB255 / CV_HEX / CV_DEC / ? * MEASURE SIZE : 1x1, input signal: not XYZ Y_P / RGB_P / RGB255 / CV_XYZ_HEX /...
Page 465 19. Network Control AUDIO:DISP:LOG None AUDIO:STATUS:EVENT_LOG START / STOP / ? AUDIO:STATUS:EVENT_LOG:CLEAR None AUDIO:STATUS:EVENT_LOG:MODE OVER_WRT / STOP / ? AUDIO:DISP:CH_STATUS None AUDIO:STATUS:CH_STATUS:CH CH1 / CH2 / CH3 / CH4 / CH5 / CH6 / CH7 / CH8 / CH9 / CH10 / CH11 / CH12 / CH13 / CH14 / CH15 / CH16 / A1 / A2 / A3 / A4 / A5 / A6 / A7 / A8 / A9 / A10 / A11 / A12 / A13 / A14 / A15 / A16 /...
Page 466 19. Network Control STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:USER None STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:USER None STS:ANCPKT:PKT_ANLYS:V_ANC:SMPTE:60 None STS:ANCPKT:PKT_ANLYS:V_ANC:SMPTE:70 None STS:ANCPKT:PKT_ANLYS:V_ANC:SMPTE:AF None STS:ANCPKT:PKT_ANLYS:V_ANC:SMPTE:PR None STS:ANCPKT:PKT_ANLYS:V_ANC:SMPTE:VBI None STS:ANCPKT:PKT_ANLYS:V_ANC:SMPTE:SR None LIVE STS:ANCPKT:PKT_ANLYS:V_ANC:SMPTE:SC None TE104 STS:ANCPKT:PKT_ANLYS:SEARCH None STS:ERROR:CLEAR None STS:LOG:LOG START / STOP / ? STS:LOG:MODE OVER_WRT / STOP / ? STS:LOG:CLEAR None STS:SDI_ANLYS:DUMP:MODE RUN / HOLD / ?
Page 467 19. Network Control STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:CC:S STREAM1 / STREAM2 / ? TREAM STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ TEXT / DUMP / Q_LOG / FORMAT / ? :DISP STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ HEX / BINARY / ? :MODE STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ 0 to 258 / ? :SMPL STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ -50 to 50 / ? :LOG STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ STREAM1 / STREAM2 / ?
Page 468 19. Network Control STS:ANCPKT:PKT_ANLYS:V_ANC:SMPTE:AF STREAM1 / STREAM2 / ? D:STREAM STS:ANCPKT:PKT_ANLYS:CSTM:ID_SET:DID 0 to 255 / ? STS:ANCPKT:PKT_ANLYS:CSTM:ID_SET:SDI -1 to 255 / ? STS:ANCPKT:PKT_ANLYS:CSTM:MODE HEX / BINARY / ? STS:ANCPKT:PKT_ANLYS:CSTM:YC Y / C / ? STS:ANCPKT:PKT_ANLYS:CSTM:STREAM STREAM1 / STREAM2 / ? STS:ANCPKT:PKT_ANLYS:CSTM:ID_SET:SET None STS:ANCPKT:PKT_ANLYS:CSTM:SMPL...
Page 469 19. Network Control STS:ERROR:SDI:CABLE_WAR_SD 50 to 200 / ? STS:ERROR:ANC:PARITY ON / OFF / ? STS:ERROR:ANC:CHECKSUM ON / OFF / ? STS:ERROR:AUDIO:BCH ON / OFF / ? STS:ERROR:AUDIO:DBN ON / OFF / ? STS:ERROR:AUDIO:PARITY ON / OFF / ? STS:ERROR:AUDIO:INHIBIT ON / OFF / ? STS:ERROR:AUDIO:SAMPLE ON / OFF / ?
Page 470 19. Network Control STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:Q5 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:Q6 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:Q7 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:Q8 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:Q9 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:Q10 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ?
Page 471 19. Network Control STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:S2 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:S3 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:S4 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:S5 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:S6 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ? :BIT:S7 STS:ANCPKT:PKT_ANLYS:V_ANC:ARIB:NETQ ON / OFF / ?
Page 472 19. Network Control STS:DATA:EXTREF_TOTAL_B STS:DATA:EXTREF_C STS:DATA:EXTREF_STAT_C STS:DATA:EXTREF_HTIME_C STS:DATA:EXTREF_HPIX_C STS:DATA:EXTREF_VLINE_C STS:DATA:EXTREF_TOTAL_C STS:DATA:EXTREF_D STS:DATA:EXTREF_STAT_D STS:DATA:EXTREF_HTIME_D STS:DATA:EXTREF_HPIX_D STS:DATA:EXTREF_VLINE_D STS:DATA:EXTREF_TOTAL_D STS:DATA:ANC:AUDIO_CTRL1 STS:DATA:ANC:AUDIO_CTRL2 STS:DATA:ANC:EDH STS:DATA:ANC:LTC1 STS:DATA:ANC:LTC2 STS:DATA:ANC:VLTC1 STS:DATA:ANC:VLTC2 STS:DATA:ANC:PAYLOAD1 STS:DATA:ANC:PAYLOAD2 STS:DATA:ANC:EIA:708_708 STS:DATA:ANC:EIA:708_608 STS:DATA:ANC:EIA:608 STS:DATA:ANC:PROGRAM STS:DATA:ANC:BROADCAST STS:DATA:ANC:VBI STS:DATA:ANC:AFD1 STS:DATA:ANC:AFD2 STS:DATA:ANC:JPN_CC1 STS:DATA:ANC:JPN_CC2 STS:DATA:ANC:JPN_CC3 STS:DATA:ANC:NETQ1 STS:DATA:ANC:NETQ2 STS:DATA:ANC:TRIGGER STS:DATA:ANC:USER1 STS:DATA:ANC:USER2 STS:DATA:ANC:PKT:PAYLOAD STS:DATA:ANC:PKT:ARIB:NETQ:STATION...
Page 473 19. Network Control None EYE:MODE EYE / JITTER / ? EYE:EYE:INTEN -128 to 127 / ? EYE:EYE:COLOR WHITE / YELLOW / CYAN / GREEN / MAGENTA / RED / BLUE / ? EYE:EYE:SCALE:INTEN -8 to 7 / ? EYE:EYE:SCALE:COLOR WHITE / YELLOW / CYAN / GREEN / MAGENTA / RED / BLUE / ? EYE:EYE:SETUP:GAIN:VAR CAL / VAR / ?
Page 474 19. Network Control EYE:ERROR:6G:FALL ON / OFF / ? EYE:ERROR:6G:FALL:MAX 40 to 110 / ? EYE:ERROR:6G:DELTA ON / OFF / ? EYE:ERROR:6G:DELTA:MAX 40 to 110 / ? EYE:ERROR:6G:TIMING_JIT ON / OFF / ? EYE:ERROR:6G:TIMING_JIT:MAX 10 to 200 / ? EYE:ERROR:6G:CURRENT_JIT ON / OFF / ? EYE:ERROR:6G:CURRENT_JIT:MAX 10 to 200 / ?
Page 475 19. Network Control EYE:ERROR:SD:CURRENT_JIT ON / OFF / ? EYE:ERROR:SD:CURRENT_JIT:MAX 10 to 200 / ? EYE:ERROR:SD:OVERSHOOT_RISE ON / OFF / ? EYE:ERROR:SD:OVERSHOOT_RISE:MAX 0 to 200 / ? EYE:ERROR:SD:OVERSHOOT_FALL ON / OFF / ? EYE:ERROR:SD:OVERSHOOT_FALL:MAX 0 to 200 / ? EYE:TRIGGER RUN / STOP / ? EYE:DATA:AMP EYE:DATA:TR...
Page 476: Ftp
19. Network Control 19.3 The files that are generated by the instrument can be transferred to a PC connected to the same network. If you are using the LV5350 or LV7300, read LV5300 and lv5300 as LV5350 and lv5350 or LV7300 and lv7300.
Page 477: How To Enter Commands
19. Network Control 6. Enter FTP commands. Enter commands while referring to sections 19.3.2, “How to Enter Commands,” and 19.3.3, “FTP Commands.” You must generate files using the TELNET "MAKE" command before you use FTP commands. To end an FTP session, type “bye” in lowercase letters. ftp>...
Page 478: Http
19. Network Control 19.4 HTTP You can use this feature to control the instrument from a web browser on a PC in the same manner as you would control the instrument from the panel. 19.4.1 Operating Environment The following web browsers have been confirmed to work. •...
Page 479: How To Use
19. Network Control 19.4.3 How to Use 1. Configure the Ethernet settings on the NETWORK tab of the SYS menu. Set the IP address, and set HTTP to ON. [See also] 7.2.8, “Configuring the Server” SYS → F•2 SYSTEM SETUP → F•2 PREV TAB or F•3 NEXT TAB → Figure 19-4 NETWORK tab 2.
Page 480 19. Network Control 6. From the HTTP server menu, select the display mode. Figure 19-6 HTTP server menu Table 19-3 HTTP server menu description Name Description MEASUREMENT WITH A measurement screen and control buttons are displayed. DISPLAY REMOTE CONTROL Only control buttons are displayed. Select this mode when you want to control the instrument while looking at its screen.
Page 481: Measurement With Display
19. Network Control 19.4.4 MEASUREMENT WITH DISPLAY On the MEASUREMENT WITH DISPLAY tab, the instrument is controlled by clicking the control buttons. The measurement screen is updated automatically at a given interval. It may take some time for the screen to be updated after you click a control button depending on the operating environment.
Page 482: Remote Control
19. Network Control Table 19-4 MEASUREMENT WITH DISPLAY description Name Description Tabs Switches the display mode. Measurement This is the measurement screen. screen You cannot click this area. Set the tab menu using the F•D button. Function key Click to control the menu. menu Double-click slowly to change to the next item.
Page 483: Event Log Viewer
19. Network Control 19.4.6 EVENT LOG VIEWER The EVENT LOG VIEWER tab displays the event log of the status display. Nothing is displayed at first. You can display the log entries by setting LOG VIEWER to UPDATE. The screen is updated automatically at a given interval. Set LOG to START on the EVENT LOG menu in advance.
Page 484: Snmp
19. Network Control 19.5 SNMP By using SNMP (Simple Network Management Protocol), you can control the instrument from SNMP managers. Additionally, you can notify the SNMP managers of errors that the instrument generates. This product supports SNMPv2. If you are using the LV5350 or LV7300, read LV5300 and lv5300 as LV5350 and lv5350 or LV7300 and lv7300.
Page 485 6. From the SNMP manager, set the following MIB items to the SNMP managers’ IP addresses. Up to four locations can be set. [IP address of TRAP transmission destination 1] 1.3.6.1.4.1.leader(20111).lv5300(40).lv5300ST1(1).l40trapTBL(9).l40trapIpTBL(1).l40t rapIp1TBL(1).l40trapManagerIp1(1).0 [IP address of TRAP transmission destination 2] 1.3.6.1.4.1.leader(20111).lv5300(40).lv5300ST1(1).l40trapTBL(9).l40trapIpTBL(1).l40t rapIp2TBL(2).l40trapManagerIp1(1).0...
Page 486 19. Network Control 8. Restart the LV5300. 9. When the LV5300 starts, it transmits the standard TRAP “coldStart(0).” Check that this is received by the SNMP managers.
Page 487: Standard Mibs
19. Network Control 19.5.3 Standard MIBs The instrument uses the following standard MIBs: • RFC1213 (MIB-Ⅱ) • RFC1354 (IP Forwarding Table MIB) In the tables, "ACCESS" and "SUPPORT" indicate the following: Indication Description ACCESS Information that can be read from the SNMP managers. Information that can be read and written from the SNMP managers SUPPORT Supports the MIB object as defined by the standard.
Page 488 19. Network Control • ip group SYNTAX ACCESS SUPPORT ipForwarding ip.1 INTEGER ipDefaultTTL ip.2 INTEGER ipInReceives ip.3 Counter ipInHdrErrors ip.4 Counter ipInAddrErrors ip.5 Counter ipForwDatagrams ip.6 Counter ipInUnknownProtos ip.7 Counter ipInDiscards ip.8 Counter ipInDelivers ip.9 Counter ipOutRequests ip.10 Counter ipOutDiscards ip.11 Counter ipOutNoRoutes...
Page 489 19. Network Control • icmp group SYNTAX ACCESS SUPPORT icmpInMsgs icmp.1 Counter icmpInErrors icmp.2 Counter icmpInDestUnreachs icmp.3 Counter icmpInTimeExcds icmp.4 Counter icmpInParmProbs icmp.5 Counter icmpInSrcQuenchs icmp.6 Counter icmpInRedirects icmp.7 Counter icmpInEchos icmp.8 Counter icmpInEchoReps icmp.9 Counter icmpInTimestamps icmp.10 Counter icmpInTimestampReps icmp.11 Counter icmpInAddrMasks...
Page 490 19. Network Control • udp group SYNTAX ACCESS SUPPORT udpInDatagrams udp.1 Counter udpNoPorts udp.2 Counter udpInErrors udp.3 Counter udpOutDatagrams udp.4 Counter udpTable udp.5 Aggregate udpEntry udpTable.1 Aggregate udpLocalAddress udpEntry.1 IpAddress udpLocalPort udpEntry.2 INTEGER • snmp group SYNTAX ACCESS SUPPORT snmpInPkts snmp.1 Counter snmpOutPkts...
Page 491: Enterprise Mib
19. Network Control 19.5.4 Enterprise MIB • Enterprise Number The Enterprise Number of LEADER ELECTRONICS CORP. is 20111. iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).leader(20111) • Enterprise MIB File Save the file from instrument to a USB memory device or use FTP to obtain it from the instrument.
Page 492 19. Network Control • l40basicTBL(1) group SYNTAX ACCESS VALUE/RANGE l40basInputTBL l40basicTBL.1 Aggregate l40basInputCh l40basInputTBL.1 INTEGER 1 = a 2 = b l40basInputSimul l40basInputTBL.2 INTEGER 1 = off 2 = on l40basInputOperate l40basInputTBL.3 INTEGER 1 = com 2 = individual l40basInputExtref l40basInputTBL.4 INTEGER 1 = int...
Page 493 19. Network Control SYNTAX ACCESS VALUE/RANGE l40sysHdrInputAMode l40sysHdrTBL.1 INTEGER 1 = off 2 = hlg 3 = pq 4 = slog3 5 = c-log 6 = log-c l40sysHdrInputBMode l40sysHdrTBL.2 INTEGER 1 = off 2 = hlg 3 = pq 4 = slog3 5 = c-log 6 = log-c l40sysHdrInputCMode...
Page 494 19. Network Control SYNTAX ACCESS VALUE/RANGE 2 = ei-400 3 = ei-800 4 = ei-1600 l40sysHdrInputDEi l40sysHdrTBL.20 INTEGER 1 = ei-200 2 = ei-400 3 = ei-800 4 = ei-1600 l40sysHdrInputADetectPayload l40sysHdrTBL.21 INTEGER 1 = off 2 = on l40sysHdrInputBDetectPayload l40sysHdrTBL.22 INTEGER 1 = off...
Page 495 19. Network Control SYNTAX ACCESS VALUE/RANGE l40wfmModeCh3Z l40wfmModeTBL.15 INTEGER 1 = off 2 = on l40wfmIntenTBL l40wfmIntenConfigTBL.2 Aggregate l40wfmInten l40wfmIntenTBL.1 INTEGER -128 to 127 l40wfmColor l40wfmIntenTBL.2 INTEGER 1 = white 2 = yellow 3 = cyan 4 = green 5 = magenta 6 = red 7 = blue 8 = multi...
Page 496 19. Network Control SYNTAX ACCESS VALUE/RANGE 4 = pos-30 5 = pos-40 6 = pos-50 7 = pos-60 8 = pos-70 9 = pos-80 10 = pos-90 11 = pos-100 12 = cursor l40wfmSweepTBL l40wfmTBL.3 Aggregate l40wfmSweep l40wfmSweepTBL.1 INTEGER 1 = h 2 = v l40wfmSweepMagH l40wfmSweepTBL.2...
Page 497 19. Network Control SYNTAX ACCESS VALUE/RANGE l40wfmCursorSel l40wfmCursorTBL.2 INTEGER 1 = x 2 = y l40wfmCursorUnitX l40wfmCursorTBL.3 INTEGER 1 = sec 2 = hz l40wfmCursorUnitY l40wfmCursorTBL.4 INTEGER 1 = mv 2 = per 3 = r-per 4 = dec 5 = hex 6 = hdr l40wfmCursorUnitYCmp l40wfmCursorTBL.5...
Page 498 19. Network Control SYNTAX ACCESS VALUE/RANGE 5 = magenta 6 = red 7 = blue l40vectorDispVecScaleIq l40vectorDispVecScaleTB INTEGER 1 = off 2 = on l40vectorDispVecVectorScale l40vectorDispVecScaleTB INTEGER 1 = auto 2 = bt601 3 = bt709 4 = dci 5 = bt2020 l40vectorDispRGBVecAdjustTar l40vectorDispVecScaleTB INTEGER...
Page 499 19. Network Control SYNTAX ACCESS VALUE/RANGE 16 = ry-yl 17 = ry-wh l40vectorDispGuideDisplay l40vectorDispVecGainTB INTEGER 1 = off 2 = on l40vectorDispVecMarker l40vectorDispVecTBL.3 INTEGER 1 = off 2 = on l40vectorColorSystemTBL l40vectorDispVecTBL.4 Aggregate l40vectorColorSysMatrix l40vectorColorSystemTB INTEGER 1 = component 2 = composite l40vectorColorSysColorBar l40vectorColorSystemTB INTEGER...
Page 500 19. Network Control SYNTAX ACCESS VALUE/RANGE 6 = bt2020 l40vectorDispCieUserTriangle l40vectorDispCieScaleTB INTEGER 1 = off 2 = one 3 = two l40vectorDispCieUserPrimaryC l40vectorDispCieScaleTB INTEGER 1 = g olor 2 = b 3 = r l40vectorDispCieScaleTB DisplayString 0 to 1.000 l40vectorDispCieUserTriangleX l40vectorDispCieScaleTB DisplayString 0 to 1.000...
Page 501 19. Network Control • l40pictureTBL(5) group SYNTAX ACCESS VALUE/RANGE l40pictureConfigTBL l40pictureTBL.1 Aggregate l40pictureMode l40pictureConfigTBL.1 INTEGER 1 = fit 2 = real 3 = x2 4 = full l40pictureAdjustTBL l40pictureConfigTBL.2 Aggregate l40pictureAdjustColor l40pictureAdjustTBL.1 INTEGER 1 = color 2 = mono l40pictureChroma l40pictureAdjustTBL.2 INTEGER 1 = normal...
Page 502 19. Network Control SYNTAX ACCESS VALUE/RANGE l40pictureSuperImposeTBL l40pictureConfigTBL.9 Aggregate l40pictureStandard l40pictureSuperImposeT INTEGER 1 = off BL.1 2 = smpte 3 = arib 4 = teletext l40pictureSmpteFormat l40pictureSuperImposeT INTEGER 1 = fmt-608-708 BL.2 2 = fmt-608-608 3 = fmt-vbi 4 = fmt-708 l40pictureSmpteLanguage l40pictureSuperImposeT INTEGER...
Page 503 19. Network Control SYNTAX ACCESS VALUE/RANGE 2 = user1 3 = user2 4 = user3 5 = usera 6 = userb 7 = userc 8 = userd 9 = usere l40pictureClSample l40pictureClTBL.9 INTEGER 0 to 32767 l40pictureClLine l40pictureClTBL.10 INTEGER 0 to 32767 l40pictureClCzTBL l40pictureCLTBL.11 Aggregate...
Page 504 19. Network Control • l40statusTBL(6) group SYNTAX ACCESS VALUE/RANGE l40statusModeTBL l40statusTBL.1 Aggregate l40statusModeTop l40statusModeTBL.1 INTEGER R/WO 1 (fixed) l40statusModeDump l40statusModeTBL.2 INTEGER R/WO 1 (fixed) l40statusModeExtref l40statusModeTBL.3 INTEGER R/WO 1 (fixed) l40statusModeAvPhase l40statusModeTBL.4 INTEGER R/WO 1 (fixed) l40statusModeAncView l40statusModeTBL.5 INTEGER R/WO 1 (fixed) l40statusModeAncViewDump l40statusModeTBL.6...
Page 505 19. Network Control SYNTAX ACCESS VALUE/RANGE 4 = c 5 = d l40statusExtrefTBL l40statusTBL.4 Aggregate l40statusExtrefSel l40statusExtrefTBL.3 INTEGER 1 = ext 2 = sdi l40statusExtrefUserRef l40statusExtrefTBL.1 INTEGER R/WO 1 (fixed) l40statusExtrefDefaultRef l40statusExtrefTBL.2 INTEGER R/WO 1 (fixed) l40statusExtrefTiming l40statusExtrefTBL.4 INTEGER 1 = legacy 2 = serial l40statusAvPhaseTBL l40statusTBL.5...
Page 506 19. Network Control SYNTAX ACCESS VALUE/RANGE 2 = stream2 l40statusAribNetqDisp l40statusAribTBL.6 INTEGER 1 = text 2 = dump 3 = qlog 4 = format l40statusAribNetqMode l40statusAribTBL.7 INTEGER 1 = hex 2 = binary l40statusAribNetqSample l40statusAribTBL.8 INTEGER 0 to 258 l40statusAribNetqLogPos l40statusAribTBL.9 INTEGER -50 to 50...
Page 507 19. Network Control SYNTAX ACCESS VALUE/RANGE 2 = dump l40statusSmpteSrLiveMode l40statusSmpteTBL.15 INTEGER 1 = hex 2 = binary l40statusSmpteSrLiveSample l40statusSmpteTBL.16 INTEGER 0 - 258 l40statusSmpteSrLiveStream l40statusSmpteTBL.17 INTEGER 1 = stream1 2 = stream2 l40statusSmpteScte104LogCle l40statusSmpteTBL.18 INTEGER R/WO 1 (fixed) l40statusSmpteScte104LogPos l40statusSmpteTBL.19 INTEGER -50 - 50...
Page 508 19. Network Control SYNTAX ACCESS VALUE/RANGE 3 = sdi2a 4 = sdi1c 5 = sdi2c 6 = linkA 7 = link1 8 = exthd 9 = extbb 10 = normal l40statusDataExtrefHtimeA l40statusDataTBL.19 DisplayString H Phase [us] l40statusDataExtrefHpixA l40statusDataTBL.20 DisplayString H Phase [pix/dot] l40statusDataExtrefVlineA l40statusDataTBL.21 DisplayString...
Page 509 19. Network Control SYNTAX ACCESS VALUE/RANGE l40statusDataExtrefHpixD l40statusDataTBL.38 DisplayString H Phase [pix/dot] l40statusDataExtrefVlineD l40statusDataTBL.39 DisplayString V Phase l40statusDataExtrefTotalD l40statusDataTBL.40 DisplayString Total Phase l40statusDataAncAudioCtrl1 l40statusDataTBL.41 INTEGER 1 = detect 2 = missing l40statusDataAncAudioCtrl2 l40statusDataTBL.42 INTEGER 1 = detect 2 = missing l40statusDataAncEdh l40statusDataTBL.43 INTEGER...
Page 510 DisplayString Bar Data Value1 BarVal1 l40statusDataAncPktSmpteAfd l40statusDataTBL.78 DisplayString Bar Data Value2 BarVal2 l40statusDataFreqDev l40statusDataTBL.79 DisplayString <-100ppm, -100 to +100ppm, >+100ppm • l40eyeTBL(7) group (LV5300/LV5300A/LV7300-SER02) SYNTAX ACCESS VALUE/RANGE l40eyeConfigTBL l40eyeTBL.1 Aggregate l40eyeMode l40eyeConfigTBL.1 INTEGER 1 = eye 2 = jit l40eyeInten l40eyeConfigTBL.2...
Page 511 19. Network Control SYNTAX ACCESS VALUE/RANGE 4 = green 5 = magenta 6 = red 7 = blue l40eyeGainTBL l40eyeTBL.2 Aggregate l40eyeGainMode l40eyeGainTBL.1 INTEGER 1 = cal 2 = variable l40eyeGainVar l40eyeGainTBL.2 DisplayString 0.50 to 2.00 l40eyeFilter l40eyeGainTBL.3 INTEGER 1 = filter-100khz 2 = filter-10khz 3 = filter-1khz 4 = filter-100hz...
Page 512 19. Network Control SYNTAX ACCESS VALUE/RANGE l40eyeHistogramMode l40eyeHistogramTBL.1 INTEGER 1 = off 2 = on l40eyeHistogramInten l40eyeHistogramTBL.2 INTEGER -8 to 7 l40eyeHistogramColor l40eyeHistogramTBL.3 INTEGER 1 = white 2 = yellow 3 = cyan 4 = green 5 = magenta 6 = red 7 = blue •...
Page 513 19. Network Control SYNTAX ACCESS VALUE/RANGE l40audioSurroundInten l40audioSurroundTBL.1 INTEGER -8 to 7 l40audioSurroundScaleInten l40audioSurroundTBL.2 INTEGER -8 to 7 l40audioSurroundMode l40audioSurroundTBL.3 INTEGER 1 = normal 2 = phantom l40audioSurroundAutoGain l40audioSurroundTBL.4 INTEGER 1 = off 2 = on l40audioStatusTBL l40audioTBL.5 Aggregate l40audioStatusLog l40audioStatusTBL.1 INTEGER R/WO...
Page 514 19. Network Control SYNTAX ACCESS VALUE/RANGE 213 = B13 214 = B14 215 = B15 216 = B16 301 = C1 302 = C2 303 = C3 304 = C4 305 = C5 306 = C6 307 = C7 308 = C8 309 = C9 310 = C10 311 = C11...
Page 515 19. Network Control SYNTAX ACCESS VALUE/RANGE 104 = A4 (A:CH4) 105 = A5 (A:CH5) 106 = A6 (A:CH6) 107 = A7 (A:CH7) 108 = A8 (A:CH8) 109 = A9 110 = A10 111 = A11 112 = A12 113 = A13 114 = A14 115 = A15 116 = A16...
Page 516 19. Network Control SYNTAX ACCESS VALUE/RANGE 414 = D14 415 = D15 416 = D16 l40audioStatusUserBitAlign l40audioStatusTBL.10 INTEGER 1 = lsb 2 = msb l40audioStatusErrorReset l40audioStatusTBL.11 INTEGER R/WO 1 (fixed) l40audioPhonesVolume l40audioTBL.6 INTEGER 0 to 63 l40audioDataTBL l40audioTBL.7 Aggregate l40audioDataStatusLevelCh1 l40audioDataTBL.1 DisplayString Ch1 Level...
Page 517: Extended Trap (Variable Binding List)
• index 2 OID: iso(1).org(3).dod(6).internet(1).snmpV2(6).snmpModules(3). snmpMIB(1).snmpMIBObjects(1).snmpTrap(4).snmpTrapOID(1).0 Syntax: OBJECT IDENTIFIER Range: Description: Trap OID • index 3 OID: leader(20111).lv5300(40).lv5300ST1(1).l40notificationTBL(0). l40trapStrTBL(2).l40trapCounter(1) Syntax: Counter32 Range: 1 to 4294967295 Description: The total number of enterprise traps sent after starting up • index 4 OID: leader(20111).lv5300(40).lv5300ST1(1).l40notificationTBL(0).
Page 518 19. Network Control • index 7 OID: leader(20111).lv5300(40).lv5300ST1(1).l40notificationTBL(0). l40trapContentTBL(1).l40trapErrorTBL(1).X leader(20111).lv5300(40).lv5300ST1(1).l40notificationTBL(0). l40trapContentTBL(1).l40trapNormalTBL(2).X Syntax: DisplayString Range: Up to 16 characters Description: OID indicating the error and error information character string (see the table below) When an error occurs, OID and error information character string of l40notificationTBL(0).l40trapContentTBL(1).l40trapErrorTBL(1).X (see the...
Page 519 19. Network Control • l40notificationTBL(0) group SYNTAX ACCESS VALUE/RANGE l40trapContentTBL l40notificationTBL.1 l40trapErrorTBL l40trapContentTBL.1 Aggregate l40trapErrorFan l40TrapErrorTBL.1 FAN_STOP l40trapErrorNoSignal l40TrapErrorTBL.2 NO_SIGNAL l40trapErrorUnknown l40TrapErrorTBL.3 FORMAT_UNKNOWN l40trapErrorNTP l40TrapErrorTBL.5 NTP_ERROR l40trapErrorSdiCrc l40TrapErrorTBL.20 l40trapErrorSdiEdh l40TrapErrorTBL.21 l40trapErrorSdiTrsPosition l40TrapErrorTBL.22 TRS_POSITION l40trapErrorSdiTrsCode l40TrapErrorTBL.23 TRS_CODE l40trapErrorSdiIllegalCode l40TrapErrorTBL.24 ILLEGAL_CODE l40trapErrorSdiLineNumber l40TrapErrorTBL.25 LINE_NUMBER l40trapErrorCableError...
Page 520 19. Network Control SYNTAX ACCESS VALUE/RANGE l40trapErrorEyeSdDeltaTimeTr l40TrapErrorTBL.74 EYE_SD_TR_TF l40trapErrorEye12GFalltime l40TrapErrorTBL.75 EYE_12G_TF l40trapErrorEye6GFalltime l40TrapErrorTBL.76 EYE_6G_TF l40trapErrorEye3GFalltime l40TrapErrorTBL.77 EYE_3G_TF l40trapErrorEyeHdFalltime l40TrapErrorTBL.78 EYE_HD_TF l40trapErrorEyeSdFalltime l40TrapErrorTBL.79 EYE_SD_TF l40trapErrorEye12GRisetime l40TrapErrorTBL.80 EYE_12G_TR l40trapErrorEye6GRisetime l40TrapErrorTBL.81 EYE_6G_TR l40trapErrorEye3GRisetime l40TrapErrorTBL.82 EYE_3G_TR l40trapErrorEyeHdRisetime l40TrapErrorTBL.83 EYE_HD_TR l40trapErrorEyeSdRisetime l40TrapErrorTBL.84 EYE_SD_TR l40trapErrorEye12GAmp l40TrapErrorTBL.85 EYE_12G_AMP l40trapErrorEye6GAmp...
Page 521 19. Network Control SYNTAX ACCESS VALUE/RANGE l40trapErrorSdiGamutBLoSt2 l40TrapErrorTBL.115 GAMUT_B_LO_ST2 l40trapErrorLogAudioValidity l40TrapErrorTBL.120 VALIDITY:XX (where XX is the channel on which the error is occurring in hexadecimal notation) l40trapErrorLogAudioCrc l40TrapErrorTBL.121 CRC:XX (where XX is the channel on which the error is occurring in hexadecimal notation) l40trapErrorLogAudioClip l40TrapErrorTBL.122...
Page 522 19. Network Control SYNTAX ACCESS VALUE/RANGE l40trapNormalSdiAudioDbn l40TrapNormalTBL.44 AUDIO_DBN l40trapNormalSdiAudioInhibit l40TrapNormalTBL.45 AUDIO_INHIBIT l40trapNormalSdiAudioSample l40TrapNormalTBL.46 AUDIO_SAMPLE l40trapNormalSdiFrequency l40TrapNormalTBL.47 FREQUENCY l40trapNormalSdiFormatAlarm l40TrapNormalTBL.48 FORMAT_ALARM l40trapNormalEye12GCurrentJi l40trapNormalTBL.60 EYE_12G_JITTER tter l40trapNormalEye6GCurrentJitt l40trapNormalTBL.61 EYE_6G_JITTER l40trapNormalEye3GCurrentJitt l40trapNormalTBL.62 EYE_3G_JITTER l40trapNormalEyeHdCurrentJitt l40trapNormalTBL.63 EYE_HD_JITTER l40trapNormalEyeSdCurrentJitt l40trapNormalTBL.64 EYE_SD_JITTER l40trapNormalEye12GTimingJit l40trapNormalTBL.65 EYE_12G_T_JITTER l40trapNormalEye6GTimingJitt l40trapNormalTBL.66 EYE_6G_T_JITTER...
Page 523 19. Network Control SYNTAX ACCESS VALUE/RANGE Rising l40trapNormalEyeSdOverShoot l40trapNormalTBL.94 EYE_SD_OR Rising l40trapNormalEye12GOverSho l40trapNormalTBL.95 EYE_12G_OF otFalling l40trapNormalEye6GOverShoot l40trapNormalTBL.96 EYE_6G_OF Falling l40trapNormalEye3GOverShoot l40trapNormalTBL.97 EYE_3G_OF Falling l40trapNormalEyeHdOverShoot l40trapNormalTBL.98 EYE_HD_OF Falling l40trapNormalEyeSdOverShoot l40trapNormalTBL.99 EYE_SD_OF Falling l40trapNormalSdiLevelYUp l40TrapNormalTBL.100 LEVEL_Y_UP l40trapNormalSdiLevelYLo l40TrapNormalTBL.101 LEVEL_Y_LO l40trapNormalSdiGamutRUp l40TrapNormalTBL.102 GAMUT_R_UP l40trapNormalSdiGamutRLo l40TrapNormalTBL.103 GAMUT_R_LO...
Page 524 19. Network Control • Trap Information Table Trap No. Trap Information Description trapControl Type "NO_ERROR" (*1) Character String Judgment Error Normal FAN_STOP Fan stop status detection Notification NO_SIGNAL No input signal detection Notification FORMAT_UNKNOWN Unknown signal format detection Notification FORMAT_DETECT Unprocessable signal format Notification detection...
Page 525 19. Network Control Trap No. Trap Information Description trapControl Type "NO_ERROR" (*1) Character String Judgment Error Normal AUDIO_DBN (EMB AUDIO) DBN error detection Status monitoring AUDIO_INHIBIT (EMB AUDIO) INH error detection Status monitoring AUDIO_SAMPLE (EMB AUDIO) SAMPLE error Status detection monitoring FREQUENCY FREQUENCY error detection...
Page 526 19. Network Control Trap No. Trap Information Description trapControl Type "NO_ERROR" (*1) Character String Judgment Error Normal EYE_HD_TR (EYE) Rise Time error detection HD Status monitoring EYE_SD_TR (EYE) Rise Time error detection SD Status monitoring EYE_12G_AMP (EYE) Amplitude error detection Status monitoring EYE_6G_AMP...
Page 527 19. Network Control Trap No. Trap Information Description trapControl Type "NO_ERROR" (*1) Character String Judgment Error Normal GAMUT_R_LO_ST2 Gamut error R LOWER detection Status (stream2) monitoring GAMUT_G_UP_ST2 Gamut error G UPPER detection Status (stream2) monitoring GAMUT_G_LO_ST2 Gamut error G LOWER detection Status (stream2) monitoring...
Page 528: Menu Tree
20. MENU TREE 20. MENU TREE This chapter shows the menu trees that correspond to each key. The default settings are underlined. The menus and default values that are displayed vary depending on the instrument’s settings, the configuration of options, and whether a USB memory device is connected to the instrument. 20.1 INPUT Menu INPUT...
Page 529: Sys Menu
20. MENU TREE 20.2 SYS Menu SIGNAL COMPLETE IN OUT PREV NEXT menu SYSTEM COMPLETE SETUP PREV NEXT READ ONLY CLEAR COMMUNITY DELETE INSERT <= => CHAR SET menu...
Page 530 20. MENU TREE READ WRITE CLEAR COMMUNITY DELETE INSERT <= => CHAR SET menu CAMERA ID CLEAR LOCAL LABEL DELETE INSERT <= => CHAR SET menu...
Page 531 20. MENU TREE TALLY EXT CLEAR COMMENT DELETE INSERT <= => CHAR SET menu REMOTE CLEAR LABEL DELETE INSERT <= => CHAR SET menu MIB FILE OVER WRITE MEMORY COPY OVER WRITE menu...
Page 532 20. MENU TREE SYSTEM INFO menu LICENSE CLEAR REGISTER REMOVE menu BACK LIGHT ( 1 - 28 - 32 ) LCD OFF INITIALIZE PARAM INIT LAYOUT INIT OPERATE INIT ALL INIT INIT CANCEL...
Page 533: Cap Menu
20. MENU TREE 20.3 CAP Menu REFRESH DISPLAY REAL ( REAL / BOTH / HOLD ) AUTO MEMORY FILENAME ( ON / OFF ) NAME CLEAR INPUT DELETE <= => CHAR SET menu STORE OVER WRITE DONE OVER WRITE CANCEL DELETE DELETE FILE...
Page 534 20. MENU TREE SELECT menu SELECT...
Page 535: Mem Menu
20. MENU TREE 20.4 MEM Menu COMMENT CLEAR INPUT DELETE INSERT <= => CHAR SET menu STORE OVER WR OVER WR menu DELETE DELETE DELETE ALL COPY COPY USB->INT USB->INT COPY USB->INT ALL COPY COPY INT->USB INT->USB COPY INT->USB...
Page 536: Recall Menu
20. MENU TREE 20.5 RECALL Menu No.1 RECALL No.2 No.3 No.4 No.5 No.6 more ･･･ No.55 No.56 No.57 No.58 No.59 No.60 more...
Page 537: Wfm Menu
20. MENU TREE 20.6 WFM Menu INTEN/CONFIG MODE MODE PARADE ( OVERLAY / PARADE ) ( ON / OFF ) ( ON / OFF ) ( ON / OFF ) ( ON / OFF ) ( ON / OFF ) ( ON / OFF ) ( ON / OFF ) ( ON / OFF )
Page 538 20. MENU TREE SCALE SCALE INTEN ( -8 ～ 4 ～ 7 ) SCALE COLOR YELLOW ( WHITE / YELLOW / CYAN / GREEN / MAGENTA / RED / BLUE ) SCALE SCALE SETTING UNIT ( V / % / HDV,SD% / HDV,SDV / HD%,SD% / CV DEC / CV HEX ) COLOR SCALE ( ON / OFF ) SCALE...
Page 539 20. MENU TREE SWEEP SWEEP ( H / V ) H SWEEP ( 1H / 2H ) V SWEEP ( 1V / 2V ) SWEEP ( x1 / x10 / x20 / x40 / ACTIVE / BLANK ) FIELD FIELD1 ( FIELD1 / FIELD2 ) BLANKING REMOVE...
Page 540: Vect Menu
20. MENU TREE 20.7 VECT Menu VECT VECTOR VECT INTEN/CONFIG DISPLAY VECTOR ( VECTOR / 5BAR / HISTOGRAM / CIE DIAGRAM ) VECTOR MODE VECTOR ( VECTOR / RGB VECTOR / YCbCr VECTOR ) VECTOR INTENSITY ( -128 ～ 0 ～ 127 ) VECTOR COLOR WHITE...
Page 541 20. MENU TREE YCbCr VECTOR SCALE SCALE INTENSITY ( -8 ～ 4 ～ 7 ) SCALE COLOR YELLOW ( WHITE / YELLOW / CYAN / GREEN / MAGENTA / RED / BLUE ) TIMING MARKER AUTO ( AUTO / SD / HD ) YCbCr VECTOR SCALE AUTO...
Page 542 20. MENU TREE CIE DIAGRAM COLOR SCALE B.G. COLOR ( B.G. COLOR / B.G. WHITE / B.G. BLACK ) TRIANGLE1 BT.709 ( BT.601(525) / BT.601(625) / BT.709 / DCI / BT.2020 / OFF ) TRIANGLE2 BT.2020 ( BT.601(525) / BT.601(625) / BT.709 / DCI / BT.2020 / OFF ) USER TRIANGLE TRIANGLE...
Page 543 20. MENU TREE TEMP SCALE SCALE ( ON / OFF ) GRID ( ON / OFF ) WHITE POINT ( ON / OFF ) TRIANGLE CAPTION ( ON / OFF ) WHITE POINT LABEL ( ON / OFF ) INPUT SELECT menu INPUT...
Page 544 20. MENU TREE RGB VECTOR GAIN GAIN ( 0.200 ～ 1.000 ～ 2.000 ) 1.000 GAIN ( 0.200 ～ 1.000 ～ 2.000 ) 1.000 INPUT SELECT menu 5BAR SEQUENCE ( GBR / RGB ) HISTOGRAM FORM SINGLE ( SINGLE / TILE / ALIGN_H / ALIGN_V ) CIE DIAGRAM DISPLAY SETTING...
Page 545 20. MENU TREE MARKER ( ON / OFF ) VARIABLE MARKER MARKER ( ON / OFF ) MARKER SIZE ( 5 % - 10 % ) INPUT SELECT menu HISTOGRAM SETUP ( ON / OFF ) ( ON / OFF ) ( ON / OFF ) ( ON / OFF ) INPUT...
Page 546 20. MENU TREE COLOR COLOR SYSTEM MATRIX COMPONENT ( COMPONENT / COMPOSITE ) COLOR 100% ( 100% / 75% ) COMPOSITE FORMAT AUTO ( AUTO / NTSC / PAL ) SETUP ( 0% / 7.5% ) INPUT SELECT menu...
Page 547: Pic Menu
20. MENU TREE 20.8 PIC Menu PICTURE CONFIG MODE ( FIT / REAL / x2 / FULL FRM ) ADJUST MONO/ COLOR COLOR ( COLOR / MONO ) CHROMA UP ( UP / NORMAL ) BRIGHTNESS [ % ] ( -50.0 ～ 0.0 ～ 50.0 ) CONTRAST [ % ] ( 0.0 ～...
Page 548 20. MENU TREE MARKER FRAME MARKER ( ON / OFF ) CENTER MARKER ( ON / OFF ) ASPECT MARKER ( OFF / 17:9 / 16:9 / 14:9 /13:9 / 4:3 / 2.93:1 / AFD ) ASPECT SHADOW ( 0 ～ 50 ～ 100 ) SAFETY SAFE ZONE...
Page 549 20. MENU TREE AUTO MEMORY FILENAME ( ON / OFF ) NAME CLEAR INPUT DELETE <= => CHAR SET menu STORE STORE OVER WR OVER WR FILE DELETE DELETE DELETE menu menu CLEAR menu INPUT SELECT menu CINELITE CINELITE DISPLAY ( OFF / f Stop / %DISPLAY / CINEZONE ) f STOP MEASURE...
Page 550 20. MENU TREE %DISPLAY MEASURE SETUP NUMBERS ( P1 / P1+P2 / P1+P2+P3 ) MEASURE POSITION ( P1 / P2 / P3 ) MEASURE SIZE 1 x 1 ( 1 x 1 / 3 x 3 / 9 x 9 ) UNIT SELECT ( Y% / RGB% / RGB255 / CV / CV DEC )
Page 551 20. MENU TREE CINELITE ADVANCE ( ON / OFF ) HDR ZONE ( OFF / ON ) INPUT SELECT menu FOCUS PICTURE MODE ( FIT / REAL / x2 ) FOCUS ASSIST ( ON / OFF ) SENSITIVE MIDDLE ( LOW / MIDDLE / HIGH / V-HIGH / U-HIGH ) PICTURE LEVEL ( OFF / EMBOSS / 25 / 50 / 75 / 100 )
Page 552: Audio Menu
20. MENU TREE 20.9 AUDIO Menu DISPLAY AUDIO MODE LISSAJOU ( LISSAJOU / SURROUND / STATUS ) METER DYNAMIC SETUP RANGE 60DBFS ( 60DBFS / 90DBFS / MAG ) RESPONSE TRUEPEAK ( TRUEPEAK / PPM / VU ) MODE PPM(I) ( PPM(I) / PPM(II) ) PEAK METER...
Page 553 20. MENU TREE SURROUND SURROUND SETUP INTEN ( -8 ～ 4 ～ 7 ) SCALE INTEN ( -8 ～ 4 ～ 7 ) SURROUND NORMAL ( NORMAL / PHANTOM ) AUTO GAIN ( ON / OFF ) INPUT SELECT menu STATUS EVENT SETUP...
Page 554 20. MENU TREE CHANNEL DISPLAY STATUS CHANNEL ( 1 / 2 / 3 / 4 / 5 / 6 / 7 / 8 / 9 / 10 / 11 / 12 / 13 / 14 / 15 / 16 / A1 - A16 / B1 - B16 / C1 - C16 / D1 - D16 ) ALIGN LSB 1st...
Page 555: Status Menu
20. MENU TREE 20.10 STATUS Menu EVENT STATUS STOP ( START / STOP ) CLEAR MODE OVER WRT ( OVER WRT / STOP ) AUTO MEMORY FILENAME ( ON / OFF ) NAME CLEAR INPUT DELETE <= => CHAR SET menu STORE STORE...
Page 556 20. MENU TREE MODE ( RUN / HOLD ) DISPLAY SERIAL ( SERIAL / COMPO / BINARY / PICTURE / STREAM1 / STREAM2 / STREAM12 ) LINK PICTURE ( PICTURE / 1[A] / 2[B] ) PICTURE ( PICTURE / 1[A] / 2[B] / 3[C] / 4[D] ) INPUT SELECT menu...
Page 557 20. MENU TREE PAYLOAD STREAM SELECT STREAM1 ( STREAM1 / STREAM2 ) LINK 1[A] ( 1[A] / 2[B] ) 1[A] ( 1[A] / 2[B] / 3[C] / 4[D] ) INPUT SELECT menu CONTROL DISPLAY PACKET TEXT ( TEXT / DUMP ) DUMP MODE ( HEX / BINARY )
Page 558 20. MENU TREE STORE STORE OVER WR OVER WR FILE DELETE DELETE DELETE menu menu DATA DISPLAY TRIGGER TEXT ( TEXT / DUMP ) DUMP MODE ( HEX / BINARY ) 1[A] ( 1[A] / 2[B] / 3[C] / 4[D] ) INPUT SELECT menu...
Page 559 20. MENU TREE DISPLAY TEXT ( TEXT / DUMP ) DUMP MODE ( HEX / BINARY ) 1[A] ( 1[A] / 2[B] / 3[C] / 4[D] ) INPUT SELECT menu DISPLAY TEXT ( TEXT / DUMP ) DUMP MODE ( HEX / BINARY ) STREAM SELECT STREAM1...
Page 560 20. MENU TREE AUTO MEMORY FILENAME ( ON / OFF ) NAME CLEAR INPUT DELETE <= => CHAR SET menu STORE STORE OVER WR OVER WR FILE DELETE DELETE DELETE menu menu SR Live DISPLAY TEXT ( TEXT / DUMP ) DUMP MODE ( HEX / BINARY )
Page 561 20. MENU TREE CUSTOM ID SET SEARCH ( 00 ～ FF ) SDID / DBN ( -- / 00 ～ FF ) menu DUMP MODE ( HEX / BINARY ) Y / C SELECT ( Y / C ) STREAM SELECT STREAM1 ( STREAM1 / STREAM2 )
Page 562: Eye Menu (Lv5300/Lv5300A/Lv7300-Ser02)
20. MENU TREE 20.11 EYE Menu (LV5300/LV5300A/LV7300-SER02) EYE/JITTER EYE/JITTER INTEN/CONFIG MODE ( EYE / JITTER ) HISTOGRAM ( ON / OFF ) INTENSITY INTENSITY ( -128 ～ 0 ～ 127 ) JITTER INTENSITY ( -128 ～ 0 ～ 127 )
Page 563 20. MENU TREE GAIN/FILTER GAIN /SWEEP VARIABLE ( CAL / VARIABLE ) GAIN ( x1 / x2 / x4 / x8 / x16 ) FILTER 100kHz ( 100kHz / 10kHz / 1kHz / 100Hz / 10Hz / TIMING / ALIGNMENT ) SWEEP ( 2UI / 4UI / 16UI ) SWEEP...
Page 564: Multi Menu
20. MENU TREE 20.12 MULTI Menu LAYOUT MULTI SELECT USER 1 ( USER 1 / USER 2 / USER 3 / USER 4 / USER 5 / USER 6) LAYOUT USER 1 MULTI LAYOUT USER 2 MULTI VECTOR LAYOUT USER 3 MULTI PICTURE LAYOUT...
Page 565: Firmware Update History
• [LV5300/LV5300A/LV5350/LV7300-SER01/LV7300-SER02] Added color bar scale information display to the vector screen. • [LV5300/LV5300A/LV5350/LV7300-SER01/LV7300-SER02] SR Live Metadata Ver.1.10 in the analysis display of SR Live Metadata on the status screen is now supported. • [SER23] Added HDR information display to the vector screen.
Page 566 threshold. • Ver. 5.5 • Minor changes • Ver. 5.4 • Minor changes • Ver. 5.3 • [SER21] Improved so that CONTENT ADVISORY can be displayed in English closed caption (EIA-608 / 708) of the picture. • Ver. 5.2 • Minor changes •...
Page 567 • Ver. 4.1 • Minor changes • Ver. 4.0 • Minor changes • Ver. 3.9 • [LV5300/LV5350/LV7300-SER01/LV7300-SER02] Added an SR Live analysis display to the status. • [LV5300/LV5350/LV7300-SER01/LV7300-SER02] Added the marker display supported the BT.709 color bar of the color gamut of ARIB STD-B66 and ARIB STD-B72 to the vector. (When VARIABLE SCALE is set to on and the color gamut is detected as BT.2020, this is valid.) •...
Page 568 • [LV5300/LV5350/LV7300-SER01/LV7300-SER02] Improved the visibility by making the marker lines thicker and changing the lines to broken lines on the picture marker display. • [LV5300/LV7300-SER02] Added a histogram to the eye pattern display. • LV5300/LV7300-SER02] EYE/JITTER waveform display is now supported on the 4K 6G system.
Page 569 Following information is for Chinese RoHS only 所含有毒有害物质信息部件号码: LV5300 此标志适用于在中国销售的电子信息产品,依据2006年2月28日公布的《电子信息产品污染控制管理办法》以及SJ/T11364-2006《电子信息产品污染控制标识要求》，表示该产品在使用完结后可再利用。数字表示的是环境保护使用期限，只要遵守与本产品有关的安全和使用上的注意事项，从制造日算起在数字所表示的年限内，产品不会产生环境污染和对人体、财产的影响。产品适当使用后报废的方法请遵从电子信息产品的回收、再利用相关法令。详细请咨询各级政府主管部门。产品中有毒有害物质或元素的名称及含量有毒有害物质或元素 Hazardous Substances in each Part 部件名称 Parts 铅汞镉六价铬多溴联苯多溴二苯醚 (Pb) (Hg) (Cd) (Cr(Ⅵ)) (PBB) (PBDE) 实装基板 × ○...
Page 570 Following information is for Chinese RoHS only 所含有毒有害物质信息部件号码: LV5300A 此标志适用于在中国销售的电子信息产品,依据2006年2月28日公布的《电子信息产品污染控制管理办法》以及SJ/T11364-2006《电子信息产品污染控制标识要求》，表示该产品在使用完结后可再利用。数字表示的是环境保护使用期限，只要遵守与本产品有关的安全和使用上的注意事项，从制造日算起在数字所表示的年限内，产品不会产生环境污染和对人体、财产的影响。产品适当使用后报废的方法请遵从电子信息产品的回收、再利用相关法令。详细请咨询各级政府主管部门。产品中有毒有害物质或元素的名称及含量有毒有害物质或元素 Hazardous Substances in each Part 部件名称 Parts 铅汞镉六价铬多溴联苯多溴二苯醚 (Pb) (Hg) (Cd) (Cr(Ⅵ)) (PBB) (PBDE) 实装基板 ×...
Page 571 Following information is for Chinese RoHS only 所含有毒有害物质信息部件号码: LV5350 此标志适用于在中国销售的电子信息产品,依据2006年2月28日公布的《电子信息产品污染控制管理办法》以及SJ/T11364-2006《电子信息产品污染控制标识要求》，表示该产品在使用完结后可再利用。数字表示的是环境保护使用期限，只要遵守与本产品有关的安全和使用上的注意事项，从制造日算起在数字所表示的年限内，产品不会产生环境污染和对人体、财产的影响。产品适当使用后报废的方法请遵从电子信息产品的回收、再利用相关法令。详细请咨询各级政府主管部门。产品中有毒有害物质或元素的名称及含量有毒有害物质或元素 Hazardous Substances in each Part 部件名称 Parts 铅汞镉六价铬多溴联苯多溴二苯醚 (Pb) (Hg) (Cd) (Cr(Ⅵ)) (PBB) (PBDE) 实装基板 × ○...
Page 572 Following information is for Chinese RoHS only 所含有毒有害物质信息部件号码: LV7300 此标志适用于在中国销售的电子信息产品,依据2006年2月28日公布的《电子信息产品污染控制管理办法》以及SJ/T11364-2006《电子信息产品污染控制标识要求》，表示该产品在使用完结后可再利用。数字表示的是环境保护使用期限，只要遵守与本产品有关的安全和使用上的注意事项，从制造日算起在数字所表示的年限内，产品不会产生环境污染和对人体、财产的影响。产品适当使用后报废的方法请遵从电子信息产品的回收、再利用相关法令。详细请咨询各级政府主管部门。产品中有毒有害物质或元素的名称及含量有毒有害物质或元素 Hazardous Substances in each Part 部件名称 Parts 铅汞镉六价铬多溴联苯多溴二苯醚 (Pb) (Hg) (Cd) (Cr(Ⅵ)) (PBB) (PBDE) 实装基板 × ○...
Page 573 2-6-33 Tsunashimahigashi, Kohoku-ku, Yokohama-shi, Kanagawa, 223-8505, Japan www.leader.co.jp/en Nov. 2, 2022 Ver. 13 (Firmware Ver. 6.5)

Leader LV5300A Instruction Manual

Quick Links

Need help?

Questions and answers

Subscribe to Our Youtube Channel

Related Manuals for Leader LV5300A

Summary of Contents for Leader LV5300A