参数资料
型号: AD9225ARSZ
厂商: Analog Devices Inc
文件页数: 24/25页
文件大小: 0K
描述: IC ADC 12BIT 25MSPS 28-SSOP
标准包装: 1
位数: 12
采样率(每秒): 25M
数据接口: 并联
转换器数目: 7
功率耗散(最大): 373mW
电压电源: 单电源
工作温度: -40°C ~ 85°C
安装类型: 表面贴装
封装/外壳: 28-SSOP(0.209",5.30mm 宽)
供应商设备封装: 28-SSOP
包装: 管件
输入数目和类型: 2 个单端,双极;1 个差分,单极
产品目录页面: 780 (CN2011-ZH PDF)
–8–
AD9225
INTRODUCTION
The AD9225 is a high performance, complete single-supply
12-bit ADC. The analog input range of the AD9225 is highly
flexible, allowing for both single-ended or differential inputs
of varying amplitudes that can be ac-coupled or dc-coupled.
The AD9225 utilizes a four-stage pipeline architecture with a
wideband input sample-and-hold amplifier (SHA) implemented
on a cost-effective CMOS process. Each stage of the pipeline,
excluding the last stage, consists of a low resolution flash ADC
connected to a switched capacitor DAC and interstage residue
amplifier (MDAC). The residue amplifier amplifies the differ-
ence between the reconstructed DAC output and the flash input
for the next stage in the pipeline. One bit of redundancy is used
in each of the stages to facilitate digital correction of flash errors.
The last stage simply consists of a flash ADC.
The pipeline architecture allows a greater throughput rate at the
expense of pipeline delay or latency. This means that while the
converter is capable of capturing a new input sample every clock
cycle, it actually takes three clock cycles for the conversion to
be fully processed and appear at the output. This latency is not
a concern in most applications. The digital output, together
with the out-of-range indicator (OTR), is latched into an
output buffer to drive the output pins. The output drivers of
the AD9225 can be configured to interface with 5 V or 3.3 V
logic families.
The AD9225 uses both edges of the clock in its internal timing
circuitry (see Figure 1 and Specifications tables for exact timing
requirements). The ADC samples the analog input on the rising
edge of the clock input. During the clock low time (between the
falling edge and rising edge of the clock), the input SHA is in
the sample mode; during the clock high time it is in hold mode.
System disturbances just prior to the rising edge of the clock
and/or excessive clock jitter may cause the input SHA to acquire
the wrong value, and should be minimized.
ANALOG INPUT AND REFERENCE OVERVIEW
Figure 2 is a simplified model of the AD9225. It highlights the
relationship between the analog inputs, VINA and VINB, and the
reference voltage, VREF. Like the voltage applied to the top of
the resistor ladder in a flash ADC, the value VREF defines the
maximum input voltage to the ADC core. The minimum input
voltage to the ADC core is automatically defined to be –VREF.
VCORE
VINA
VINB
+VREF
–VREF
ADC
CORE
12
AD9225
Figure 2. Equivalent Functional Input Circuit
The addition of a differential input structure gives the user an
additional level of flexibility that is not possible with traditional
flash converters. The input stage allows the user to easily config-
ure the inputs for either single-ended operation or differential
operation. The A/D converter’s input structure allows the dc
offset of the input signal to be varied independently of the input
span of the converter. Specifically, the input to the ADC core is
the difference of the voltages applied at the VINA and VINB
input pins. Therefore, the equation
VCORE = VINA – VINB
(1)
defines the output of the differential input stage and provides
the input to the ADC core.
The voltage, VCORE, must satisfy the condition
–VREF
VCORE VREF
(2)
where VREF is the voltage at the VREF pin.
While an infinite combination of VINA and VINB inputs exist
that satisfy Equation 2, there is an additional limitation placed
on the inputs by the power supply voltages of the AD9225. The
power supplies bound the valid operating range for VINA and
VINB. The condition
AVSS – 0.3 V < VINA < AVDD + 0.3 V
(3)
AVSS – 0.3 V < VINB < AVDD + 0.3 V
where AVSS is nominally 0 V and AVDD is nominally 5 V,
defines this requirement. The range of valid inputs for VINA
and VINB is any combination that satisfies both Equations
2 and 3.
For additional information showing the relationships among
VINA, VINB, VREF, and the digital output of the AD9225, see
Table IV.
Refer to Table I and Table II at the end of this section for a sum-
mary of the various analog input and reference configurations.
ANALOG INPUT OPERATION
Figure 3 shows the equivalent analog input of the AD9225,
which consists of a differential sample-and-hold amplifier. The
differential input structure of the SHA is highly flexible, allow-
ing the devices to be easily configured for either a differential or
single-ended input. The dc offset, or common-mode voltage, of
the input(s) can be set to accommodate either single-supply or
dual-supply systems. Also, note that the analog inputs, VINA
and VINB, are interchangeable, with the exception that revers-
ing the inputs to the VINA and VINB pins results in a polarity
inversion.
CS
QS1
QH1
VINA
VINB
CS
QS1
CPIN
CPAR
CPIN+
CPAR
QS2
CH
QS2
CH
Figure 3. Simplified Input Circuit
The AD9225 has a wide input range. The input peaks may be
moved to AVDD or AVSS before performance is compromised.
This allows for much greater flexibility when selecting single-
ended drive schemes. Op amps and ac coupling clamps can be
set to available reference levels rather than be dictated according
to what the ADC needs.
Rev. C
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