Enlarging the picture size

CONTENTS

37

Remote control

You can enlarge (resize) the picture size projected.

 

Press RESIZE ( ).

RESIZE

The enlargement ratio increases each time the RESIZE ( )

 

button is pressed.

The enlargement ratio can be increased continuously by keeping the button pressed in.

RESIZE

To reduce the enlargement ratio, press the RESIZE ( ) button.

 

 

 

ON /

 

 

STANDBY

INPUT

 

 

KEYSTONE

 

AUTO SET

FREEZE

MUTE

 

PIP

CALL

RESIZE

 

 

MENU

 

VOL / ADJ

 

ENTER

 

EXIT /

 

 

P.MODE

 

CT-90106

 

RESIZE

/ //

EXIT

The enlargement ratio can be reduced continuously by keeping the button pressed in.

The enlarged section is moved when the selection buttons ( / / / ) are pressed.

The section can be moved continuously by keeping the button pressed in.

Press the EXIT button to cancel the resize mode and return to the original size.

EXIT

Operations

The icon appears in the resize mode.

Notes

Enlarged images can be frozen by pressing the FREEZE button. The frozen image can also be enlarged or reduced.

The resize mode is cancelled if any operation other than setting the freeze mode is performed.

This projector uses electrical digital resizing, so the picture quality degrades when images are enlarged.

In rare cases, the picture may be disturbed while the magnification section is being moved.

This function does not work in no input status (no signal is supplied from the signal source).

Page 37
Image 37
Toshiba 250, 251, TLP551 Enlarging the picture size, Press Resize, To reduce the enlargement ratio, press the Resize button

251, TLP550, TLP551, 250 specifications

Toshiba has long been recognized for its innovation in the field of semiconductor technology, particularly in the area of optoelectronic devices. Among its extensive portfolio, the Toshiba TLP series stands out, especially models such as the TLP250, TLP551, TLP550, and TLP251. These optoisolators are designed to provide exceptional performance in various applications, including industrial controls, communication equipment, and power supplies.

The TLP250 is a high-speed transistor optoisolator that boasts a maximum data transmission rate of up to 10 Mbps. It is designed for applications where precise isolation between input and output is critical. The device employs a GaAlAs light-emitting diode, ensuring a fast response time and efficient operation. Its package includes a phototransistor, which enables it to switch high voltages and currents, making it ideal for driving loads in various circuits.

In contrast, the TLP551 offers a higher level of phototransistor isolation with a breakdown voltage of up to 5 kV. This model is well-suited for environments where electrical noise is a concern, as it provides reliable and stable isolation. With a maximum forward current of 50 mA, the TLP551 ensures that even in complex industrial settings, signal integrity can be maintained effectively.

The TLP550 is another noteworthy optoisolator, characterized by its compact size and robust performance. It also integrates a phototransistor output, which allows for a high degree of flexibility in design. This model is engineered to deliver a maximum isolation voltage of 3.75 kV, making it suitable for various high-voltage applications.

Finally, the TLP251 offers a unique combination of features tailored for demanding applications. With its high-speed response and excellent voltage gain, it is particularly advantageous in communication systems. Its ability to provide isolation while transferring data makes it an essential component for many digital interfaces.

In summary, the Toshiba TLP series, including models like the TLP250, TLP551, TLP550, and TLP251, exemplify the brand's commitment to quality and innovation in optoelectronic devices. These models are engineered to meet the rigorous demands of modern applications, offering features such as high-speed operation, significant isolation voltage ratings, and versatile output options. For engineers and designers, choosing the right Toshiba optoisolator can significantly enhance the reliability and efficiency of their electronic systems.