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您現在的位置：買賣IC網 > PDF目錄373970 > AD9883 (Analog Devices, Inc.) 110 MSPS Analog Interface for Flat Panel Displays PDF資料下載

參數資料

型號：	AD9883
廠商：	Analog Devices, Inc.
英文描述：	110 MSPS Analog Interface for Flat Panel Displays
中文描述：	110 MSPS的模擬接口的平板顯示器
文件頁數：	9/24頁
文件大?。?/td>	177K
代理商：	AD9883

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REV. 0

AD9883

–9–

GAIN

1.0

0.0

00h

FFh

0.5

OFFSET = 00h

OFFSET = 3Fh

OFFSET = 7Fh

OFFSET = 00h

OFFSET = 7Fh

OFFSET = 3Fh

Figure 2. Gain and Offset Control

Gain and Offset Control

The AD9883 can accommodate input signals with inputs rang-

ing from 0.5 V to 1.0 V full scale. The full-scale range is set in

three 8-bit registers (Red Gain, Green Gain, and Blue Gain).

Note that

increasing

the gain setting results in an image with

less

contrast.

The offset control shifts the entire input range, resulting in a

change in image brightness. Three 7-bit registers (Red Offset,

Green Offset, Blue Offset) provide independent settings for

each channel.

The offset controls provide a

63 LSB adjustment range. This

range is connected with the full scale range, so if the input range

is doubled (from 0.5 V to 1.0 V) then the offset step size is also

doubled (from 2 mV per step to 4 mV per step).

Figure 2 illustrates the interaction of gain and offset controls.

The magnitude of an LSB in offset adjustment is proportional

to the full-scale range, so changing the full-scale range also

changes the offset. The change is minimal if the offset setting in

near midscale. When changing the offset, the full-scale

range

not affected, but the full-scale

level

is shifted by the same amount

as the zero scale level.

Sync-on-Green

The Sync-on-Green input operates in two steps. First, it sets a

baseline clamp level off of the incoming video signal with a

negative peak detector. Second, it sets the sync trigger level to a

programmable level (typically 150 mV) above the negative peak.

The Sync-on-Green input must be ac-coupled to the green

analog input through its own capacitor as shown below in

Figure 3. The value of the capacitor must be 1 nF

20%. If

Sync-on-Green is not used, this connection is not required.

(Note: The Sync on Green signal is always negative polarity.)

AIN

SOG

47nF

1nF

Figure 3. Typical Clamp Configuration

Clock Generation

A Phase Locked Loop (PLL) is employed to generate the pixel

clock. In this PLL, the Hsync input provides a reference fre-

quency. A Voltage Controlled Oscillator (VCO) generates a

much higher pixel clock frequency. This pixel clock is divided

by the PLL divide value (registers 01H and 02H) and phase

compared with the Hsync input. Any error is used to shift the

VCO frequency and maintain lock between the two signals.

The stability of this clock is a very important element in provid-

ing the clearest and most stable image. During each pixel time,

there is a period during which the signal is slewing from the old

pixel amplitude and settling at its new value. Then there is a

time when the input voltage is stable, before the signal must

slew to a new value (Figure 4). The ratio of the slewing time to

the stable time is a function of the bandwidth of the graphics

DAC and the bandwidth of the transmission system (cable

and termination). It is also a function of the overall pixel rate.

Clearly, if the dynamic characteristics of the system remain

fixed, then the slewing and settling time is likewise fixed. This

time must be subtracted from the total pixel period, leaving the

stable period. At higher pixel frequencies, the total cycle time is

shorter, and the stable pixel time becomes shorter as well.

PIXEL CLOCK

INVALID SAMPLE TIMES

Figure 4. Pixel Sampling Times

Any jitter in the clock reduces the precision with which the

sampling time can be determined, and must also be subtracted

from the stable pixel time.

Considerable care has been taken in the design of the AD9883’s

clock generation circuit to minimize jitter. As indicated in Fig-

ure 5, the clock jitter of the AD9883 is less than 5% of the total

pixel time in all operating modes, making the reduction in the

valid sampling time due to jitter negligible.

FREQUENCY

–

MHz

–

31.5

36.0 36.0 50.0 56.25 44.9 75.0 85.5

110.0

Figure 5. Pixel Clock Jitter vs. Frequency

相關PDF資料	PDF描述
AD9886	Analog Interface for Flat Panel Displays
AD9886KS-100	Analog Interface for Flat Panel Displays
AD9886KS-140	Analog Interface for Flat Panel Displays
AD9898	CCD Signal Processor with Precision Timing⑩ Generator
AD9898KCP-20	CCD Signal Processor with Precision Timing⑩ Generator

相關代理商/技術參數	參數描述
AD9883/PCB	制造商:AD 制造商全稱:Analog Devices 功能描述:110 MSPS Analog Interface for Flat Panel Displays
AD9883A	制造商:AD 制造商全稱:Analog Devices 功能描述:110 MSPS/140 MSPS Analog Interface for Flat Panel Displays
AD9883A/PCB	制造商:Analog Devices 功能描述:110MHZ ANALOG INTERFACE FOR SG
AD9883ABST-100	制造商:Analog Devices 功能描述:110MHZ ANALOG INTERFACE FOR SGA FPD - Bulk
AD9883ABST-110	制造商:Analog Devices 功能描述:ADC Triple 110Msps 8-bit Parallel 80-Pin LQFP

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