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Product Specification -
LC12 High-Bright Monitor
Document Number: 023-0284-01
Revision: A
Title: Product Specification: LC12 High- Bright AMLCD Monitor Page 1 of 24
Document Number: 023-0284-01 Revision: A
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Table of Contents 1.0 INTRODUCTION.......................................................................................................................................................................................4 1.1 Display Format.................................................................................................................... 4 2.0 BASIC CONSTRUCTION.....................................................................................................................
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8.4 System Transient Disturbance Requirements ................................................................... 20 8.5 Labeling ............................................................................................................................ 20 8.6 Color Coding..................................................................................................................... 20 9.0 RELIABILITY.......................................................................................
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1.0 Introduction This document defines the electromechanical parameters and operating characteristics for a 12’1” Active Matrix Liquid Crystal Display (AMLCD) based product, hereafter referred to as the Monitor. It is intended for operation in high ambient light, outdoor environment. The Monitor has a scaleable video format capable of displaying a minimum of VGA (640 x 480) through XGA (1024 x 768) input resolution. The Monitor can be driven directly from the standard analog Video Graphics
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2.0 Basic Construction 2.1 Weight Monitor weight does not exceed 5 Kgs (11 lbs). 2.2 Mechanical Mounting Requirements Per Planar Mechanical Outline drawing 074-0666-01 2.3 Monitor Electronics Electronic components requiring heat sinks are installed independent of the Monitor enclosure. That is, its sheet metal chassis is not used as a heat sink for any electronic component. 2.4 Cooling Fan Cooling fans are installed to maintain appropriate internal operating tempe
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2.8 LCD Controller Board The LCD Controller Board incorporates components necessary to drive the LCD Panel (Section 6.7). Accepting VGA and VESA video standards (Section 1.2), these video signals are digitized and processed for the LCD Panel. Due to the LCD Panel’s fixed video resolution (800 x 600), the LCD Controller Board will perform independent horizontal and vertical zoom and shrink scaling of specified video resolutions less than or greater than the LCD Panel’s video resolution
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3.0 Environmental 3.1 Temperature and Humidity The Monitor withstands operating and storage environmental conditions listed in Table 1. General Operating Shipping and Storage Comments o o o o 0 C to 60 C ?-20 C to 60 C o o o o Temperature [32 F to 140 F] [?-4 F to 140 F] Note 2,3,4,5 Without Relative Humidity Note 1,4 Note 1 Condensation Table 1. Temperature / Humidity Limits. Tair is defined as ambient air temperature surrounding Monitor. Note 1: Tair < 32°C : 95% RH maximum.
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Power spectrum is referenced per MIL STD 810 E Environmental Test Method 505.3, Table -II Spectral Energy Distribution and permitted tolerances 2 Maximum solar power flux = 1120 watts/m at 65 degrees normal to the Monitor surface. These values assume no solar radiation attenuation from the customer-supplied vandal shield. 3.3 Altitude Maximum operating altitude is 3,000 meters [9,850 feet]. Maximum shipping and storage altitude is 12,000 meters [39,400 feet]. 3.4 Mechanical
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4.0 Video Signal Input Requirements 4.1 Video Input Lines The Video Signal Connector consists of fifteen (15) positions wired numerically and supplied attached to the Monitor as a chassis mounted connector per definitions listed in Table 2. The "NC" positions of this connector are not used for any purpose. Pin Number Signal Name 1 Red Video 2 Green Video 3 Blue Video 4 Monitor Sense Line 3 (connected to Pin 10) 5 NC 6 Red video return 7 Green video return 8 Blue video retu
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where 0-mv is minimum luminance. Rise and fall times for the input signal (10% - 90%) will be ?5-ns (Figure 6). When terminated with a 75-ohm termination, the dark state (black level) is defined as a level between 0-mv and 10-mv. The white state (full white) is dependent on the VGA controller driving the Monitor. Maximum levels may range from 550-mv to 714- mv. Nominal 680-mv input voltage shall be defined as the default for supplier setup requirements. Displayed image intensity and co
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Figure 6. TTL Allowable Signal Levels 4.2.2.1 Mode Detection The polarity of incoming horizontal/vertical frequencies and synchronization pulses define the video resolution being presented. Video modes are listed in Table 3. Video Mode Displayed Scanning Frequency) Sync Polarity Image Resolution Horizonta Vertical Horizonta Vertical l (KHz) (Hz) l IBM VGA 640 x 400 31.468 70 - + IBM VGA 640 x 480 31.468 60 - - IBM VGA 656 x 496 31.468 60 - w/Border - IBM VGA 720 x 400 31.468
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physically connected to Signal Ground Reference (Pin 10) as defined by the wiring definitions of Table 2. 4.3 Signal Quality 4.3.1 TTL Sync Pulse Signal Levels Input levels for the horizontal and vertical sync pulses are defined in Figure 8. 4.3.2 Rise and Fall Times Rise and fall times are the times required for signal transitions between 10% of Vs above Low Steady Level and 10% of Vs below High Steady Level where Vs is the peak-to-peak video input signal level. The ov
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4.5 Video Signal On-Off Sequences The sequence for bringing up and removal of each video input signal can be in any sequence or combination of input signals. Video Modes IBM VGA VESA Resolution 640x400 640x480 800x600 1024x768 Video Clock 25.175 MHz 25.175 MHz 50.000 MHz 75.000 MHz Horizontal Scan Freq. 31.468 KHz 31.468 KHz 48.077 KHz 56.476 KHz Horizontal Line 31.778 us 800 31.778 us 800 20.800 us 1040 17.707 us 1328 Period pixels pixels pixels pixels Horizontal Blanki
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VIDEO MODES IBM VGA VESA RESOLUTION 640 x 400 640 x 480 800 x 600 Video Clock 25.175 MHz 25.175 MHz 50.000 MHz Horizontal Scan Frequency 31.468 KHz 31.468 KHz 48.077 KHz Horizontal Line Period 31 .778 µs 800 dots 31 .778 µs 800 dots 20 .800 µs 1040 dots Horizontal Blanking 6 .356 µs 160 dots 6 .356 µs 160 dots 4 .800 µs 240 dots Horizontal Sync Pulse 3 .813 µs 96 dots 3 .813 µs 96 dots 2 .400 µs 120 dots
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5.0 DC Power Input Requirements 5.1 DC Power Input Lines The DC Power Input Connector consists of two (2) positions wired numerically and supplied attached to the Monitor as a chassis mounted connector per definitions listed in. PIN NUMBER SIGNAL NAME 1 Most Positive Input Voltage 2 Most Negative Input Voltage Figure 10. DC Power Input Connector- Pin Assignments The DC Power Input Connector is a 2 pin MAT-N-LOK type with male pin contacts AMP 1 480699. Pin number assignme
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1-msec (max) Initial inrush current Power Supply Limit 25-amp 20-amp 15-amp 11-amp (max) 10-amp 5-amp 4.3 amp (max) steady -state 3-amp (max) steady-state 0-amp 25-msec (max) Stabilization Time Scale: 10-msec / div Figure 9. Current Profile: Note 3 amp figure is incorrect; use 4.3 amp as specified above. 5.3 Power On-Off Sequences The Monitor will automatically return to normal operation upon resumption of power after a power loss. 6.0 Display Performance 6.1 Display Lumina
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6.2.1 Room Ambient Contrast Minimum Contrast of the display under room ambient lighting conditions of 1076 LUX [100 fC] direct incident illumination, is > 90:1. Reference MIL-L-85762A (Table II). 6.2.2 High Ambient Contrast Minimum Contrast of the display in a diffuse off-axis illumination of 86,080 LUX 2 [8,000 fc] and a specular on axis luminance (sky) of 6,853 cd/m [2000 fL] is > 6:1. Reference MIL-L-85762A (Table II). 6.3 Display Uniformity Luminance Uniformity (U )
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7.0 Display Cosmetics All defects, pixel related and non-pixel related are observed at 46 cm [18”] viewing distance under room ambient light intensity 400-600 lux (fluorescent or incandescent lighting). Viewing time is specified as 5 seconds. The following criteria applies to active area of display. Random Single Pixel Qty Allowed Separation Allowed Defects Bright Defects (Pixels) Red, Green, Blue Max. 10 Red, Green Min. 0.200” White Screen Red, Blue Min. 0.200” Green, Blue Min. 0.200
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Defect Description Non-Pixel Defects Qty Allowed Size Separation L > 0.120” 0 - W > .010” W Bright Line Defects .020” < L < .120” L 5 .100” Polarizer Scratch, Lint .002” < W < .010” Contamination Not cause for L< .020” rejection W< .002” Notes: A bright spot is a subpixel which, when a black screen is being displayed, is visible through a 20% transmission ND filter to an unaided eye at least 45 cm [18”] away from the display surface in a dark room. Dark spots in which the
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• Electromagnetic Immunity EN 50082 part 1:1992 8.3 RFI Emission Certification The Monitor is certified to the following emissions standards when installed in customer product configuration: • FCC, Part 15, Paragraph 15.107(b) and 15.109(b), Class A RFI emissions standard. • EN 55022 Class A: 1994 ? Limits and measurements of radio interference characteristics of information technology equipment. • IEC 1000 3-?2/1995; EN 61000-?3-?2 Current Harmonic Tests • IEC 1000 3-?3/1995;