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您現(xiàn)在的位置：買賣IC網(wǎng) > PDF目錄373960 > AD9220 (Analog Devices, Inc.) Complete 12-Bit 1.5/3.0/10.0 MSPS Monolithic A/D Converters PDF資料下載

參數(shù)資料

型號：	AD9220
廠商：	Analog Devices, Inc.
元件分類：	串行ADC
英文描述：	Complete 12-Bit 1.5/3.0/10.0 MSPS Monolithic A/D Converters
中文描述：	完整的12位1.5/3.0/10.0 MSPS的單片的A / D轉(zhuǎn)換器
文件頁數(shù)：	18/28頁
文件大小：	350K
代理商：	AD9220

AD9221/AD9223/AD9220

REV. D

–18–

SFDR over a wide range of amplitudes required by the most

demanding communication applications. Similar performance is

achievable with the AD9221 and AD9223 at their correspond-

ing Nyquist frequency.

INPUT AMPLITUDE – dBFS

–50

–40

–30

–20

–10

SNR – 2.0V p-p

SNR – 5.0V p-p

SFDR – 5.0V p-p

SFDR – 2.0V p-p

Figure 46. AD9220 SFDR, SNR vs. Input Amplitude

= 5 MHz, f

CLK

= 10 MSPS, V

= 2.5 V, Differential)

Figure 46 also reveals a noteworthy difference in the SFDR and

SNR performance of the AD9220 between the 2 V p-p and 5 V

p-p input span options. First, the SNR performance improves

by 2 dB with a 5.0 V p-p input span due to the increase in dy-

namic range. Second, the SFDR performance of the AD9220

will improve for input signals below approximately –6.0 dBFS.

A 3 dB to 5 dB improvement was typically realized for input

signal levels between –6.0 dBFS and –36 dBFS. This improve-

ment in SNR and SFDR for a 5.0 V p-p span may be advanta-

geous for communication systems that have additional margin

or headroom to minimize clipping of the ADC.

REFERENCE CONFIGURATIONS

The figures associated with this section on internal and external

reference operation do not show recommended matching series resistors

for VINA and VINB for the purpose of simplicity. Please refer to

section Driving the Analog Inputs, Introduction for a discussion of

this topic. Also, the figures do not show the decoupling network asso-

ciated with the CAPT and CAPB pins. Please refer to the section “Ref-

erence Operation” for a discussion of the internal reference circuitry

and the recommended decoupling network shown in Figure 36.

USING THE INTERNAL REFERENCE

Single-Ended Input with 0 to 2

VREF Range

Figure 47 shows how to connect the AD9221/AD9223/AD9220

for a 0 V to 2 V or 0 V to 5 V input range via pin strapping the

SENSE pin. An intermediate input range of 0 to 2

VREF can

be established using the resistor programmable configuration in

Figure 49 and connecting VREF to VINB.

In either case, both the common-mode voltage and input span

are directly dependent on the value of VREF. More specifically,

the common-mode voltage is equal to VREF while the input

span is equal to 2

VREF. Thus, the valid input range extends

from 0 to 2

VREF. When VINA is

≤

0 V, the digital output

will be 000 Hex; when VINA is

≥

VREF, the digital output

will be FFF Hex.

Shorting the VREF pin directly to the SENSE pin places the

internal reference amplifier in unity-gain mode and the resultant

VREF output is 1 V. Therefore, the valid input range is 0 V to

2V. However, shorting the SENSE pin directly to the REFCOM

pin configures the internal reference amplifier for a gain of 2.5

and the resultant VREF output is 2.5 V. Thus, the valid input

range becomes 0 V to 5 V. The VREF pin should be bypassed

to the REFCOM pin with a 10

F tantalum capacitor in parallel

with a low-inductance 0.1

F ceramic capacitor.

VINA

VREF

0.1

VINB

VREF

SHORT FOR 0V TO 2V

INPUT SPAN

SENSE

SHORT FOR 0V TO 5V

INPUT SPAN

REFCOM

AD9221/

AD9223/

AD9220

Figure 47. Internal Reference—2 V p-p Input Span, V

1 V, or 5 V p-p Input Span, V

= 2.5 V

Single-Ended or Differential Input, V

= 2.5 V

Figure 48 shows the single-ended configuration that gives the

best dynamic performance (SINAD, SFDR). To optimize

dynamic specifications, center the common-mode voltage of the

analog input at approximately by 2.5 V by connecting VINB to

a low-impedance 2.5 V source. As described above, shorting

the VREF pin directly to the SENSE pin results in a 1 V refer-

ence voltage and a 2 V p-p input span. The valid range for

input signals is 1.5 V to 3.5 V. The VREF pin should be by-

passed to the REFCOM pin with a 10

F tantalum capacitor in

parallel with a low-inductance 0.1

F ceramic capacitor.

This reference configuration could also be used for a differential

input in which VINA and VINB are driven via a transformer as

shown in Figure 45. In this case, the common-mode voltage,

, is set at midsupply by connecting the transformers center

tap to CML of the AD9221/AD9223/AD9220. VREF can be

configured for 1 V or 2.5 V by connecting SENSE to either

VREF or REFCOM respectively. Note that the valid input

range for each of the differential input is one half of the single-

ended input and thus becomes V

– VREF/2 to V

+ VREF/2.

0.1

VINA

VINB

VREF

SENSE

REFCOM

3.5V

1.5V

2.5V

AD9221/

AD9223/

AD9220

Figure 48. Internal Reference—2 V p-p Input Span,

= 2.5 V

Resistor Programmable Reference

Figure 49 shows an example of how to generate a reference

voltage other than 1 V or 2.5 V with the addition of two exter-

nal resistors and a bypass capacitor. Use the equation,

VREF

= 1

(1 +

2),

to determine appropriate values for

1 and

2. These resistors

should be in the 2 k

to 100 k

range. For the example shown,

R1 equals 2.5 k

and R2 equals 5 k

. From the equation

above, the resultant reference voltage on the VREF pin is

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