Apollo SA-02-015 user manual Appendix, Standard Timing Chart

Page 16

User Manual

DI170S01-A01

8

Appendix

 

 

 

 

 

 

 

8.1

Standard Timing Chart

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Mode

Active Resolution

Total

Horizontal

H-

Vertical

V-

Pixel

Failsafe

 

 

 

Pixels

Frequency

Pol.

Freq

Pol.

Clock

Mode

 

 

 

 

(KHz)

 

(Hz)

 

 

 

VGA

640x350 @ 85Hz

832x445

37,861

P

85,08

N

31,5

X

 

 

640x400 @ 85Hz

832x445

37,861

N

85,08

P

31,5

X

 

 

720x400 @ 85Hz

936x446

37,927

N

85,039

P

35,5

X

 

 

640x480 @ 60Hz

800x525

31,469

N

59,94

N

25,175

 

 

 

640x480 @ 72Hz

832x520

37,861

N

72,809

N

31,5

 

 

 

640x480 @ 75Hz

840x500

37,5

N

75

N

31,5

 

 

 

640x480 @ 85Hz

832x509

43,269

N

85,008

N

36

X

SVGA

800x600 @ 56Hz

1024x625

35,156

N/P

56,25

N/P

36

 

 

 

800x600 @ 60Hz

1056x628

37,879

P

60,317

P

40

 

 

 

800x600 @ 72Hz

1040x666

48,077

P

72,188

P

50

 

 

 

800x600 @ 75Hz

1056x625

46,875

P

75

P

49,5

 

 

 

800x600 @ 85Hz

1048x631

53,674

P

85,061

P

56,25

X

XGA

1024x768 @ 60Hz

1344x806

48,363

N

60,004

N

65

 

 

 

1024x768 @ 70Hz

1328x806

56,476

N

70,069

N

75

 

 

 

1024x768 @ 75Hz

1312x800

60,023

P

75,029

P

78,75

 

 

 

1024x768 @ 85Hz

1376x808

68,677

P

84,997

P

94,5

X

 

 

1152x864 @ 75Hz

1600x900

67,5

P

75

P

108

 

SXGA

1280x1024 @ 60Hz

1688x1066

63,981

P

60,02

P

108

 

 

 

1280x1024 @ 75Hz

1688x1066

79,976

P

75,025

P

135

 

EGA

640x350 @ 70Hz

800x449

31,469

P

70,086

N

25,175

 

CGA

640x400 @ 70Hz

800x449

31,469

N

70,086

P

25,175

 

DOS

720x350 @ 70Hz

900x449

31,469

P

70,087

N

28,322

 

DOS

720x400 @ 70Hz

900x449

31,469

N

70,087

P

28,322

 

XGA

1024x768 @ 72Hz

1304x798

57,515

P

72,1

P

75

 

XGA

1024x768 @ 87Hz(i)

1264x817

35,522

P

43,479

P

44,9

 

 

 

640x480 @ 67Hz

864x525

35

N

66,667

N

30,24

 

SVGA

832x624 @ 75Hz

1152x667

49,725

N

74,551

N

57,283

X

XGA

1024x768 @ 60Hz

1312x813

48,78

N

60,001

N

64

 

SXGA

1280x1024 @ 60Hz

1708x1056

63,337

N

59,978

N

125

 

 

 

1280x1024 @ 72Hz

1728x1085

78,125

N

72,005

N

135

 

SXGA

1280x1024 @ 67Hz

1696x1056

70,755

N

67,003

N

120

 

 

 

1280x960 @ 60Hz

1800x1000

60

P

60

P

108

 

 

 

1280x1024 @ 85Hz

1728x1072

91,146

P

85,024

P

157,5

X

 

 

1280x960 @ 85Hz

1728x1011

85,934

P

85,002

P

148,5

X

VGA

640x400 @ 56Hz

 

 

 

 

 

 

 

 

 

1152x864 @ 70Hz

1600x900

 

P

70

P

 

 

UXGA

1600x1200 @ 60Hz

 

 

 

 

 

 

X

 

 

1280x768 @ 60Hz

 

 

 

 

 

 

 

 

 

1280x720 @ 60Hz

 

 

 

 

 

 

 

DI170S01-A01

Rev 1

Page 16 of 16

Product No. : SA-02-015

May 23, 2005

 

Image 16
Contents DI170S01-A01 Table of Contents Revision History General DescriptionAbsolute Maximum Ratings Date Rev.No DescriptionSymbol Min Max Unit Absolute Ratings of EnvironmentInput Signal Description Unit Min Typical Max Remarks Electrical SpecificationMode HSync VSync LED red LED grn Power Consumption Nominal 3 CN2 Key Connector 1 CN6 DC Input2 CN1 Analog RGB Input Pin No Description RemarksMechanical Specification Back Side View Side View Side View Operation Guide Key Name and FunctionOSD Structure CMYWindow structure Detailed description of the On-Screen-MenuDI170S01-A01 Brightness Contrast ColorImage Autoconfiguration TypeTools & OSD Standard Timing Chart Appendix

SA-02-015 specifications

Apollo SA-02-015 is a cutting-edge spacecraft designed to enhance space exploration and research capabilities. This model stands out for its impressive array of features and technologies, combining advanced engineering with innovative design to achieve remarkable performance in various space missions.

At the heart of the Apollo SA-02-015 is its robust propulsion system, which utilizes a state-of-the-art liquid propulsion technology. This system provides exceptional thrust and maneuverability, enabling the spacecraft to execute precise orbital maneuvers and deep-space missions with ease. The propulsion system is complemented by an advanced fuel management system that increases efficiency and reduces waste, ensuring optimal performance during prolonged missions.

The structure of the Apollo SA-02-015 is built from lightweight composite materials that offer high strength-to-weight ratios. This design not only enhances the spacecraft's durability in the harsh conditions of space but also improves its fuel efficiency, allowing for greater payload capacity. Additionally, the spacecraft's thermal protection system is engineered to withstand extreme temperatures, ensuring that critical components remain functional during re-entry and prolonged exposure to space.

One of the hallmark characteristics of the Apollo SA-02-015 is its modular design. This feature allows for easy upgrades and maintenance, making it adaptable to various mission profiles. Each module can be customized to accommodate scientific instruments, habitats, or cargo, providing versatility for research missions, satellite deployment, and crewed flights.

In terms of communication technology, the Apollo SA-02-015 is equipped with advanced satellite communication systems that enable high-bandwidth data transmission between the spacecraft and mission control. This capability is crucial for real-time monitoring, data collection, and communication during missions, enhancing operational efficiency and mission success rates.

Furthermore, the spacecraft incorporates cutting-edge navigation and control systems, utilizing artificial intelligence and machine learning algorithms to optimize trajectory planning and execution. These technologies allow for autonomous operations, reducing the workload on mission control and increasing safety during complex maneuvers.

Overall, the Apollo SA-02-015 represents a significant advancement in spacecraft design and technology, paving the way for future exploration initiatives and scientific discoveries. Its combination of powerful propulsion, durable materials, modularity, and advanced communication systems makes it a key player in the next generation of space exploration endeavors.