7. 2 Menus

Select the menu to change the setting by referring the item "7.1 Using the Menus".)

When the [MENU UP], [MENU DOWN] buttons are pushed, the "" on the screen moves up and down. Move the "" to the item to change.

Note:

When performing the mode setting in the menu display while selecting ON in "PART" (refer to page 28) and E.TRG in "MODE", the display shows normal mode and then the camera returns the setting mode.

( 1 ) SHUTTER (Electronic shutter)

The electronic shutter has three modes; MANU (Manual), SS (Synchro. Scan), E.TRG (External trigger).

Set the "" to "MODE" and push [DATA UP], [DATA DOWN] button to select the desired mode among "MANU", "SS", "E.TRG".

MANUAL

: It is possible to select the exposure time from eleven speed setting; OFF, 1/100s, 1/250s,

 

1/500s, 1/1000s, 1/2000s, 1/4000s, 1/10000s, 1/25000s, 1/50000s, 1/100000s.

 

Note:

 

When setting a rapid shutter speed, sensitivity degrades according to the speed.

 

When a discharging light such as fluorescent lamp, etc. is used for the illumination,

 

the flicker may be large.

SS: Shutter speed can be set by the double horizontal scanning time (2H) unit or by the frame unit.

E.TRG

: Exposure is performed and images are output by external trigger. E.TRG includes the four

 

modes described below. (For details of specifications, refer to the item “7.4 E.TRG

 

(External trigger)”.)

1P SNR (1 Pulse Sync Non Reset)

The charge begins to accumulate after the trigger pulse is received, and 1 frame images are output according to the internal vertical sync signal timing. The exposure/accumula- tion time can be set from 0.01 to 50 ms. The trigger signal timing can be set to either the rising or falling edge.

1P SR (1 Pulse Sync Reset)

The charge begins to accumulate after the trigger pulse is received. Upon completion of accumulation the vertical sync signal is reset and 1 frame images are output. The exposure/accumulation time can be set from 0.01 to 50 ms. The trigger signal timing can be set to either the rising or falling edge.

PW SNR (Pulse width trigger Sync Non Reset)

The charge begins to accumulate after the trigger pulse is received, and 1 frame images are output according to the internal vertical sync signal timing. This is the mode to set the exposure period by the pulse width of the trigger. The trigger signal polarity can be set to either the positive or negative polarity.

PW SR (Pulse width trigger Sync Reset)

The charge begins to accumulate after the trigger pulse is received. Upon completion of accumulation the vertical sync signal is reset and 1 frame images are output. This is the mode to set the exposure period by the pulse width of the trigger. The trigger signal polarity can be set to either the positive or negative polarity.

12

Page 12
Image 12
Toshiba IK-TF9C instruction manual Menus, Shutter Electronic shutter, Flicker may be large, Trg

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.