GLOSSARIES

ENGLISH VERSION

GLOSSARIES

GLOSSARIES

Bar code

A code which represents alphanumeric characters by using a series of black and white stripes in different widths. Bar codes are used in various industrial fields: Manufacturing, Hospitals, Libraries, Retail, Transportation, Warehousing, etc. Reading bar codes is a fast and accurate means of capturing data while keyboard entry tends to be slow and inaccurate.

Batch mode

Issue mode that continuously prints media until the required number has been printed.

Black mark

A mark printed on the media enabling the printer to detect the correct start position of the media, helping to maintain constant print position.

Black mark sensor

A reflective sensor that detects the difference between a black mark and the print area to find the print start position.

Cut mode

Printer mode of operation where an (optional) cutter module is installed to automatically cut media from the supply roll after they are printed. The print command can specify to cut every media or to cut after a set number of media have been printed.

DPI

Dots Per Inch

A unit used to express print density or resolution.

Feed gap sensor

A transmissive sensor that detects the difference between the gap between labels and the label itself, to find the print start position of the label.

Font

A complete set of alphanumeric characters in one style of type. E.g. Helvetica, Courier, Times

Gap

Distance from the bottom of one label to the top of the next label.

IPS

Inch per second

A unit used to express print speed.

Label

A type of media with adhesive backing supplied on a backing paper.

Media

Material on which images are printed by the printer. Label, tag paper, fanfold paper, perforated paper, etc.

Printer driver

A software program that will convert the application program’s printing request into the language that the printer understands.

Print head element

The thermal print head consists of a single line of tiny resistive elements which when current is allowed to flow through them it heats up causing a small dot to be burned onto thermal paper or a small dot of ink to be transferred from a thermal ribbon to ordinary paper.

Printing speed

The speed at which printing occurs. This speed is expressed in units of IPS (inches per second).

Resolution

The degree of detail to which an image can be duplicated. The minimum unit of divided image is called a pixel. As the resolution becomes higher, the number of pixels increases, resulting in a more detailed image.

Supply

Media

Tag

A type of media having no adhesive backing but black marks to indicate the print area. Usually tags are made of cardboard or other durable material.

Thermal print head

A print head using thermal transfer or thermal direct printing method.

Page 30
Image 30
Toshiba BSV4TGS10QMR manual Glossaries

BSV4TGS10QMR specifications

The Toshiba BSV4TGS10QMR is a highly advanced power amplifier that has garnered attention for its remarkable performance and versatility in various applications. This device is particularly suited for mobile communication systems, satellite communication, and broadcasting technologies, playing a crucial role in enhancing signal integrity and strength.

One of the most notable features of the BSV4TGS10QMR is its compact size, which facilitates easy integration into various devices without the need for significant redesigns. It is encapsulated in a small footprint package, which is essential for modern applications where space is at a premium. This amplifier's design also emphasizes thermal efficiency, ensuring that it can operate effectively even in demanding environments.

The BSV4TGS10QMR utilizes advanced GaN (Gallium Nitride) technology, which contributes to its high power density and efficiency. GaN technology is known for its ability to handle high voltages and deliver greater output power compared to traditional silicon-based options. This makes the BSV4TGS10QMR an excellent choice for applications requiring high linearity and wide bandwidth, as it maintains signal quality across a broad frequency range.

In terms of performance characteristics, the BSV4TGS10QMR exhibits impressive gain levels and low noise figures, making it an effective solution for boosting weak signals while minimizing distortion. Its robust design allows for a high degree of reliability, which is essential for mission-critical communications where any failure can lead to significant setbacks.

Another key feature of the BSV4TGS10QMR is its ability to support different modulation formats, which is crucial in today's diverse communication landscape. This adaptability allows the amplifier to be utilized in various systems, ranging from traditional radio frequency (RF) applications to cutting-edge digital communication networks.

Overall, the Toshiba BSV4TGS10QMR stands out as an exemplary power amplifier with a blend of compact design, advanced GaN technology, and impressive performance characteristics. Its versatility and reliability make it a valuable component for engineers and developers looking to enhance communication systems while ensuring efficient power usage and exceptional signal integrity. As technology continues to evolve, devices like the BSV4TGS10QMR will play a pivotal role in shaping the future of wireless communication and broadcasting industries.