參數(shù)資料
型號(hào): AD9273BBCZ-25
廠商: Analog Devices Inc
文件頁數(shù): 30/48頁
文件大?。?/td> 0K
描述: IC ADCASD OCTAL 25MSPS 144CSPBGA
標(biāo)準(zhǔn)包裝: 1
類型: AAF,ADC,交叉點(diǎn)開關(guān),LNA,VGA
分辨率(位): 12 b
采樣率(每秒): 25M
數(shù)據(jù)接口: 串行,SPI?
電壓電源: 模擬和數(shù)字
電源電壓: 1.8V,3V
工作溫度: -40°C ~ 85°C
安裝類型: 表面貼裝
封裝/外殼: 144-LFBGA,CSPBGA
供應(yīng)商設(shè)備封裝: 144-CSPBGA(10x10)
包裝: 托盤
AD9273
Rev. B | Page 36 of 48
When using the serial port interface (SPI), the DCO± phase can
be adjusted in 60° increments relative to the data edge. This
enables the user to refine system timing margins if required.
The default DCO± timing, as shown in Figure 2, is 90° relative
to the output data edge.
An 8-, 10-, and 14-bit serial stream can also be initiated from the
SPI. This allows the user to implement different serial streams and
to test the device’s compatibility with lower and higher resolution
systems. When changing the resolution to an 8- or 10-bit serial
stream, the data stream is shortened. When using the 14-bit
option, the data stream stuffs two 0s at the end of the normal
14-bit serial data.
When the SPI is used, all of the data outputs can also be inverted
from their nominal state. This is not to be confused with inverting
the serial stream to an LSB-first mode. In default mode, as shown
in Figure 2, the MSB is represented first in the data output serial
stream. However, this can be inverted so that the LSB is repre-
sented first in the data output serial stream (see Figure 3).
There are 12 digital output test pattern options available that
can be initiated through the SPI. This is a useful feature when
validating receiver capture and timing. Refer to Table 12 for the
output bit sequencing options available. Some test patterns have
two serial sequential words and can be alternated in various
ways, depending on the test pattern chosen. Note that some
patterns may not adhere to the data format select option. In
addition, customer user patterns can be assigned in the 0x19,
0x1A, 0x1B, and 0x1C register addresses. All test mode options
except PN sequence short and PN sequence long can support
8- to 14-bit word lengths in order to verify data capture to the
receiver.
The PN sequence short pattern produces a pseudorandom
bit sequence that repeats itself every 29 1 bits, or 511 bits. A
description of the PN sequence and how it is generated can be
found in Section 5.1 of the ITU-T 0.150 (05/96) standard. The
only difference is that the starting value is a specific value instead
of all 1s (see Table 13 for the initial values).
The PN sequence long pattern produces a pseudorandom bit
sequence that repeats itself every 223 1 bits, or 8,388,607 bits.
A description of the PN sequence and how it is generated can
be found in Section 5.6 of the ITU-T 0.150 (05/96) standard.
The only differences are that the starting value is a specific value
instead of all 1s and the AD9273 inverts the bit stream with
relation to the ITU standard (see Table 13 for the initial values).
Table 13. PN Sequence
Sequence
Initial
Value
First Three Output Samples
(MSB First)
PN Sequence Short
0x0DF
0xDF9, 0x353, 0x301
PN Sequence Long
0x29B80A
0x591, 0xFD7, 0x0A3
Consult the Memory Map section for information on how to change
these additional digital output timing features through the SPI.
SDIO Pin
This pin is required to operate the SPI. It has an internal 30 kΩ
pull-down resistor that pulls this pin low and is only 1.8 V
tolerant. If applications require that this pin be driven from a
3.3 V logic level, insert a 1 kΩ resistor in series with this pin to
limit the current.
SCLK Pin
This pin is required to operate the SPI port interface. It has an
internal 30 kΩ pull-down resistor that pulls this pin low and is
both 1.8 V and 3.3 V tolerant.
CSB Pin
This pin is required to operate the SPI port interface. It has an
internal 70 kΩ pull-up resistor that pulls this pin high and is both
1.8 V and 3.3 V tolerant.
RBIAS Pin
To set the internal core bias current of the ADC, place a resistor
nominally equal to 10.0 kΩ to ground at the RBIAS pin. Using
other than the recommended 10.0 kΩ resistor for RBIAS degrades
the performance of the device. Therefore, it is imperative that at
least a 1% tolerance on this resistor be used to achieve consistent
performance.
Voltage Reference
A stable and accurate 0.5 V voltage reference is built into the
AD9273. This is gained up internally by a factor of 2, setting
VREF to 1.0 V, which results in a full-scale differential input
span of 2.0 V p-p for the ADC. VREF is set internally by
default, but the VREF pin can be driven externally with a 1.0 V
reference to achieve more accuracy. However, this device does
not support ADC full-scale ranges below 2.0 V p-p.
When applying the decoupling capacitors to the VREF pin, use
ceramic low-ESR capacitors. These capacitors should be close to
the reference pin and on the same layer of the PCB as the
AD9273. The VREF pin should have both a 0.1 μF capacitor
and a 1 μF capacitor connected in parallel to the analog ground.
These capacitor values are recommended for the ADC to
properly settle and acquire the next valid sample.
The reference settings can be selected using the SPI. The settings
allow two options: using the internal reference or using an external
reference. The internal reference option is the default setting and
has a resulting differential span of 2 V p-p.
Table 14. SPI-Selectable Reference Settings
SPI-Selected Mode
Resulting
VREF (V)
Resulting Differential
Span (V p-p)
External Reference
N/A
2 × external reference
Internal Reference (Default)
1.0
2.0
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