Philips M1900T manual Analog 15- Pin D-Sub Pin No Name Description

Page 26

Analog 15- Pin D-Sub

Pin No.

Name

Description

 

 

 

1

Red

Red Analog Data

 

 

 

2

Green

Green Analog Data

 

 

 

3

Blue

Blue Analog Data

 

 

 

4

GND

Ground

 

 

 

5

GND

Ground

 

 

 

6

GND

Ground

 

 

 

7

GND

Ground

 

 

 

8

GND

Ground

 

 

 

9

N.C.

No Connection

 

 

 

10

GND

Ground

 

 

 

11

GND

Ground

 

 

 

12

DSDA

DDC Serial Data

 

 

 

13

HSYNC

Horizontal Sync

 

 

 

14

VSYNC

Vertical Sync

 

 

 

15

DSCL

DDC Serial Clock

 

 

 

26

Image 26
Contents Document No. DOC-IWS-714C, Rel Revision List Revision Number Description of Change Release DateTable of Contents Features Supported PC Video ModesPhysical SpecificationsDisplay ElectricalEnviromental AgencyFront and Side Views of Monitor Installation of Monitor Cutout Pattern for M1900 / M1900T MonitorMounting Clip Installation Rear View of Panel Mounted MonitorConnecting Power Connection of VGA and Touch Screen Cables Turning on the Computer and Monitor Selection of PC Video SettingsInstalling the Touch Screen Driver Software Monitor OSD and Settings On Screen Display OSD ControlsLED Function Button and LED FunctionsButton Function BRIGHTNESS/CONTRAST Brightness OSD Menus and SettingsMain Menu Contrast Color Auto Adjust PositionVertical PhaseHorizontal ClockSetup OSD Position S I T I O NOSD Time LanguageP U T S O U R C E Input SourceOUT of Frequency No SignalOSD Message Displays Power Saver Mode Processing Auto ConfigurationVideo Input Pin Assignment DVI-DAnalog 15- Pin D-Sub Pin No Name Description Touch Screen Pin Assignment USB

M1900T, M1900 specifications

The Philips M1900 and M1900T are innovative monitors designed to meet the demanding needs of healthcare professionals. Combining advanced technology with intuitive design, these displays are a vital part of any medical imaging or monitoring setup.

One of the standout features of the Philips M1900 series is its exceptional image quality. Both models utilize high-resolution LCD technology, providing crystal-clear visuals that are essential for accurate diagnosis and patient monitoring. The displays are designed to reproduce true-to-life colors and deep contrasts, allowing clinicians to easily distinguish subtle variations in medical images.

The M1900 and M1900T are equipped with advanced DICOM (Digital Imaging and Communications in Medicine) calibration, ensuring compliance with industry standards for medical imaging. This feature allows clinicians to consistently view images with the necessary precision, crucial for interpreting X-rays, ultrasound scans, and other diagnostic images. The monitors support a wide range of image formats, making them versatile tools for various medical applications.

Another key characteristic of these displays is their ergonomic design. Both models boast adjustable stands that enable users to customize the height and angle of the monitor to suit their specific workspace. This feature not only enhances comfort but also promotes better posture during long hours of use. The anti-glare screen reduces reflections and improves visibility, ensuring that healthcare providers can focus on their work without distractions.

The Philips M1900T model further innovates with touchscreen capabilities, allowing users to interact with imaging software more intuitively. This functionality streamlines workflows significantly, enabling faster access to vital information. It also facilitates collaboration among healthcare teams, as multiple users can engage with the display simultaneously.

Connectivity is another area where these monitors excel. They include multiple input options, such as DisplayPort, HDMI, and VGA, making them compatible with a variety of medical imaging systems. This flexibility allows for seamless integration into existing workflows, enhancing the overall efficiency of clinical operations.

In summary, the Philips M1900 and M1900T are cutting-edge medical displays that combine superior image quality, ergonomic design, and flexible connectivity. These features make them essential tools in supporting healthcare professionals in their quest for accurate diagnosis and enhanced patient care.