Toshiba IK-TF9C Synchro. Scan Operation, Setting by the frame, Setting by 2H, Fval Lval Davl

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7. 3 Synchro. Scan Operation

The shutter speed can be set by the double horizontal scanning period (2H) or by the frame.

( 1 ) Setting by 2H

2H/1592H ~ 1590H/1592H (2H/1060H ~ 1058H/1060H at 30fps and E.30fps of Partial Scanning, 2H/774H ~ 772H/774H at 40fps and E.40fps of Partial Scanning) stands for the setting by the 2H and the shutter speed can be set by the 2H (62.8 ∝s).

( 2 ) Setting by the frame

2FRM to 512FRM stand for the setting (long period exposure) by the frame.

The video signal stored during the frame period set is output as 1 frame video image at a frame interval specified.

(Internal VD)

RGB data (video interval image)

FVAL

LVAL,

DAVL

n+1

(4FRM setting)

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Contents Following information is only for EU-member states For Customer UseSafety Precautions Disclaimer Avoid setting in humid, smoky, vaporized or dusty placesTable of Contents Components Names and Functions Standard Connection Connector Pin AssignmentsConnection Result displayed Meaning OperationWhite Balance Automatic White Balance Manual White BalanceReasons. Such as no white area is included in an object, etc Shutter speed mode is E.TRG modeAvailable selections Preset value Items Controlled by Using on Screen DisplayTRG 1P SNR 1P SR TRG PW SNR TRG PW SR Mode Setting by on Screen DisplayUsing the Menus DispTRG MenusShutter Electronic shutter Flicker may be largeChanging the shutter speed Changing each setting in Manu modePartial scanning setting Changing the shutter speed setting Changing each setting in SS synchro. scan modeMode = SS Changing 1P SNR exposure time setting Changing each setting in E.TRG modeChanging each setting in 1P SNR mode Changing the polarity of inputting trigger pulse settingChanging 1P SR exposure time setting Changing each setting in 1P SR modeMode = E.TRG E.TRG = 1P SR Mode = E.TRG E.TRG = PW SNR Changing each setting in PW SNR modeMode = E.TRG E.TRG = PW SR Changing each setting in PW SR modeGain Video gain Changing each setting in GainChanging the gain in Manu mode WHT BAL White balance Changing R pedestal MANU/OFFChanging gamma correction Changing master pedestalOption Setting to factory setting statusChanging the shading correction mode Changing the manual shading correction settingFval Lval Davl Setting by the frameSetting by 2H Synchro. Scan OperationFval Lval Dval 1P SNR 1 Pulse Trigger Sync Non Reset1 Pulse Trigger SYNC-NON Reset Picture Output Timing E. TRG External trigger1 Pulse Trigger SYNC-RESET Picture Output Timing 1P SR 1 Pulse Trigger Sync ResetPulse Width Trigger SYNC-NON Reset Picture Output Timing PW SNR Pulse width trigger SYNC-NON Reset1 Pulse Width Trigger SYNC-RESET Picture Output Timing PW SR Pulse width trigger SYNC-RESETPartial Scanning on When Partial Scanning Mode is onPartial Read Partial Scanning OFF All pixels scanningFval LVAL、 Dval Output Waveform Timing ChartHorizontal Output Waveform Timing Chart Vertical Output Waveform Timing ChartRGB, 3CCD SpecificationsSymptom Items to be checked External Appearance DiagramBefore Making a Service Call Imaging Systems Division Limited One 1 Year Warranty of Labor and PartsStep-by-step Procedures How to Obtain Warranty Service

IK-TF9C specifications

The Toshiba IK-TF9C is a state-of-the-art industrial camera designed to meet the demands of high-performance imaging in a variety of applications. With its advanced features and versatile capabilities, the IK-TF9C is perfect for use in fields such as manufacturing, robotics, and scientific research.

One of the standout features of the IK-TF9C is its high-resolution imaging capabilities. The camera boasts a 1.3-megapixel resolution, ensuring that it can capture detailed images with clarity. This high resolution is coupled with a fast frame rate, allowing users to capture dynamic scenes without losing quality. The camera can operate at frame rates of up to 60 frames per second, making it ideal for capturing fast-moving objects or processes.

The IK-TF9C incorporates state-of-the-art CMOS sensor technology, which offers several advantages over traditional CCD sensors. The CMOS sensor provides increased sensitivity, allowing for better performance in low-light conditions. This makes the camera suitable for a wide range of environments, from bright factory floors to dimly lit research facilities. Additionally, CMOS sensors consume less power, contributing to the energy efficiency of the IK-TF9C.

Another key characteristic of the IK-TF9C is its compact and lightweight design. This feature allows for easy integration into existing systems and setups. The camera's small form factor does not compromise its durability; it is built to withstand the rigors of industrial use, including exposure to dust and vibrations.

The IK-TF9C also supports a variety of output formats, including USB and HDMI, facilitating seamless connectivity with other devices and systems. It is compatible with various image processing software, allowing users to utilize advanced image analysis techniques for their specific applications.

Furthermore, the camera supports multiple image capture modes, including still capture and video recording, providing flexibility in how data can be collected and utilized. The temperature operating range of the IK-TF9C enhances its adaptability to different industrial environments, ensuring reliable performance under a variety of conditions.

In summary, the Toshiba IK-TF9C combines high-resolution imaging, advanced CMOS technology, and a robust design to create a versatile industrial camera. Its flexible connectivity options and multiple operating modes make it a suitable solution for various imaging tasks across many sectors, solidifying its position as a leading choice for professionals seeking high-quality imaging solutions.