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參數資料
| 型號: | AD9929 |
| 廠商: | Analog Devices, Inc. |
| 英文描述: | CCD Signal Processor with Precision Timing Generator |
| 中文描述: | CCD信號處理器精確時序發生器 |
| 文件頁數: | 23/64頁 |
| 文件大小: | 558K |
| 代理商: | AD9929 |
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AD9929
Variable Gain Amplifier
The VGA provides a gain range of 6 dB to 40 dB, programmable
with 10-bit resolution through the serial digital interface. The
minimum gain of 6 dB is needed to match a 1 V input signal
with the ADC full-scale range of 2 V.
Rev. A | Page 23 of 64
The VGA gain curve follows a “linear-in-dB” characteristic. The
exact VGA gain can be calculated for any gain register value by
using the equation
Gain = (
0.035 ×
Code)
+ 5.2
where the code range is 0 to 1023. Figure 14 shows a typical
AD9929 VGA gain curve.
VGA GAIN REGISTER CODE
42
0
V
127
255
383
511
639
767
895
1023
36
30
24
18
12
6
0
Figure 14. VGA Gain Curve
Optical Black Clamp
The optical black clamp loop is used to remove residual offsets
in the signal chain and to track low frequency variations in the
CCD’s black level. During the optical black (shielded) pixel
interval on each line, the ADC output is compared with a fixed
black level reference selected by the user in the clamp level
register. Any value between 0 LSB and 255 LSB may be pro-
grammed with 8-bit resolution. The resulting error signal is
filtered to reduce noise, and the correction value is applied to
the ADC input through a D/A converter. Normally, the optical
black clamp loop is turned on once per horizontal line, but this
loop can be updated more slowly to suit a particular application.
The optical black clamp is controlled by the CLPOB signal,
which is fully programmable (see Horizontal Clamping and
Blanking section). System timing examples are shown in the
Horizontal and Vertical Synchronous Timing section. The
CLPOB pulse should be placed during the CCDs optical black
pixels. It is recommended that the CLPOB pulse duration be at
least 20 pixels wide. Shorter pulse widths may be used, but the
ability to track low frequency variations in the black level is
reduced.
A/D Converter
The AD9929 uses high-performance 12-bit ADC architecture,
optimized for high speed and low power. Differential Non-
linearity (DNL) performance is typically better than 0.5 LSB.
The ADC uses a 2 V input range. Better noise performance
results from using a larger ADC full-scale range.
PRECISION TIMING, HIGH SPEED TIMING
GENERATION
The AD9929 generates flexible, high speed timing signals using
the precision timing core. This core is the foundation for gener-
ating the timing used for both the CCD and the AFE: the reset
gate RG, horizontal drivers H1 to H2, and the CDS sample
clocks. A unique architecture makes it routine for the system
designer to optimize image quality by providing precise control
over the horizontal CCD readout and the AFE correlated
double sampling.
Timing Resolution
The precision timing core uses the master clock input (CLI) as a
reference. This clock should be the same as the CCD pixel clock
frequency. Figure 15 illustrates how the internal timing core
divides the master clock period into 48 steps or edge positions.
Using a 36 MHz CLI frequency, the edge resolution of the
precision timing core is 0.58 ns. A 72 MHz CLI frequency can
be applied to the AD9929, where the AD9929 will internally
divide the CLI frequency by two. Division by 1/3 and 1/4 are
also provided. CLI frequency division is controlled by using
CLKDIV (Address 0x05) register.
High Speed Clock Programmability
Figure 17 shows how the high speed clocks RG, H1 to H2, SHP,
and SHD are generated. The RG pulse has a fixed rising edge
and a programmable falling edge. The horizontal clock H1 has a
programmable rising and a fixed falling edge occurring at
H1POSLOC + 24 steps. The H2 clock is always the inverse of
H1. Table 14 summarizes the high speed timing registers and
the parameters for the high speed clocks. Each register is 6 bits
wide with the 2 MSB bits used to select the quadrant region, as
outlined in Table 16. Figure 17 shows the range and default
locations of the high speed clock signals.
H DRIVER AND RG OUTPUTS
In addition to the programmable timing positions, the AD9929
features on-chip output drivers for the RG and H1 to H2 out-
puts. These drivers are powerful enough to directly drive the
CCD inputs. The H-driver current can be adjusted for optimum
rise/fall time into a particular load by using the H1DRV and
H2DRV registers (Address 0x04). The RG drive current is
adjustable using the RGDRV register (Address 0x04). The
H1DRV and H2DRV register is adjustable in 4.3 mA incre-
ments. The RGDRV register is adjustable in 2.15 mA incre-
ments. All DRV registers have settings of 0 equal to OFF or
three-state, and a maximum setting of 7.
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