Cameras and Domes

Dome Mounts and Accessories

Type

 

 

Order No.

CCDS1415-CH

Solaris™ Dome Housing for Camera

2GF1194-8BB

 

This camera housing in the Solaris dome design allows a compact sur-

 

 

veillance camera (e.g. CCAC1415-LPI) to be fitted into a dome housing.

 

 

The housing includes a support allowing the camera to be manually

 

 

adjusted to the optimal viewing angle in vertical and horizontal posi-

 

 

tion.

 

 

 

Weight

4.0 kg

 

CCDS1415-WM

Solaris™ Wall Mount

 

2GF1194-8CD

 

This wall mount can be used to mount a Solaris dome camera to a flat‚

 

 

upright wall. The wall mount has four holes. These holes are serve to

 

 

pass continuous banding through the mounting plate to attach it to a

 

 

pole. The banding is not within the scope of supply.

 

 

Weight

2.0 kg

 

CCDS1415-FM

Solaris™ Recessed Ceiling Tile Mount

2GF1194-8CB

 

This recessed ceiling tile enables the CCDS1415 Solaris dome camera to

 

 

be installed in a standard false ceiling tile. A bezel concealing the edge

 

 

of the ceiling cut-out is included in the delivery.

 

 

Dimension (Ø x H)

126 x 530 mm

 

 

Weight

2.0 kg

 

CCDS1415-SN

Solaris™ Swan Neck Bracket

2GF1194-8CC

 

The swan neck bracket can be mounted a for instance behind a projec-

 

tion on a wall. It is made of uncoated metal.

 

Weight

6.10 kg

CCDS1415-CMA

Solaris™ Corner Mount Adapter

2GF1194-8CE

 

This corner mount adapter can be used to fix the wall mount

 

CCDS1415-WM on a right angled wall corner.

 

Weight

5.0 kg

1-48

© Siemens Building Technologies Group

Page 52
Image 52
Siemens TFT, CRT manual CCDS1415-CH, CCDS1415-WM, CCDS1415-FM, CCDS1415-SN, CCDS1415-CMA

CRT, TFT specifications

Siemens, a prominent name in electronics and engineering, has made significant contributions to display technology, particularly in the realms of Thin Film Transistor (TFT) and Cathode Ray Tube (CRT) displays. These technologies have paved the way for advancements in visual media, ranging from television sets to computer monitors.

TFT display technology, a type of LCD (Liquid Crystal Display), employs thin film transistors to produce brighter and more vibrant images. One of the main features of TFT displays is their ability to deliver high resolution and excellent color reproduction, making them ideal for various applications such as smartphones, tablets, and laptops. TFT screens utilize an active matrix approach, which allows each pixel to be controlled individually. This method results in faster response times and improved image quality, with less motion blur, compared to older passive matrix displays.

One of the key characteristics of TFT technology is its versatility in different settings. It supports a wide range of viewing angles, which enhances the user experience whether one is viewing the display head-on or at an angle. Additionally, TFT displays are known for their thin profile and lightweight design, contributing to the overall portability of devices that incorporate them.

On the other hand, CRT technology, which was once the standard for televisions and computer monitors, uses electron beams and phosphorescent screens to produce images. One of the defining features of CRTs is their ability to display deep blacks and a wide color gamut. CRT technology can achieve high refresh rates, reducing flicker and improving the quality of fast-paced visuals. However, CRTs tend to be bulkier and heavier than modern display technologies like TFT.

Despite the evolution towards flat-panel displays, CRT technology is still appreciated for its natural color and motion portrayal. Siemens has leveraged these characteristics to produce quality CRT monitors that were favored in professional settings, including graphic design and medical imaging, where color accuracy is paramount.

In summary, Siemens has played a vital role in advancing both TFT and CRT technologies. TFT displays are recognized for their high resolution, fast response times, and design versatility, while CRTs are celebrated for their rich color and depth. As technology continues to advance, the legacy of these display types remains influential in shaping modern electronic devices.