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參數(shù)資料

型號：	LTC2292CUP#TRPBF
廠商：	Linear Technology
文件頁數(shù)：	9/28頁
文件大?。?/td>	0K
描述：	IC ADC DUAL 12BIT 40MSPS 64QFN
標(biāo)準(zhǔn)包裝：	2,000
位數(shù)：	12
采樣率（每秒）：	40M
數(shù)據(jù)接口：	并聯(lián)
轉(zhuǎn)換器數(shù)目：	2
功率耗散（最大）：	285mW
電壓電源：	單電源
工作溫度：	0°C ~ 70°C
安裝類型：	表面貼裝
封裝/外殼：	64-WFQFN 裸露焊盤
供應(yīng)商設(shè)備封裝：	64-QFN（9x9）
包裝：	帶卷 (TR)
輸入數(shù)目和類型：	2 個(gè)單端，雙極; 2 個(gè)差分, 雙極

LTC2293/LTC2292/LTC2291

229321fa

capacitors to acquire a new sample. Since the sampling

capacitors still hold the previous sample, a charging glitch

proportional to the change in voltage between samples will

be seen at this time. If the change between the last sample

and the new sample is small, the charging glitch seen at

the input will be small. If the input change is large, such as

the change seen with input frequencies near Nyquist, then

a larger charging glitch will be seen.

Single-Ended Input

For cost sensitive applications, the analog inputs can be

driven single-ended. With a single-ended input the har-

monic distortion and INL will degrade, but the SNR and

DNL will remain unchanged. For a single-ended input, AIN+

should be driven with the input signal and AIN– should be

connected to 1.5V or VCM.

Common Mode Bias

For optimal performance the analog inputs should be

driven differentially. Each input should swing

±0.5V for

the 2V range or

±0.25V for the 1V range, around a

common mode voltage of 1.5V. The VCM output pin may

be used to provide the common mode bias level. VCM can

be tied directly to the center tap of a transformer to set the

DC input level or as a reference level to an op amp

differential driver circuit. The VCM pin must be bypassed to

ground close to the ADC with a 2.2

F or greater capacitor.

Input Drive Impedance

As with all high performance, high speed ADCs, the

dynamic performance of the LTC2293/LTC2292/LTC2291

can be influenced by the input drive circuitry, particularly

the second and third harmonics. Source impedance and

reactance can influence SFDR. At the falling edge of CLK,

the sample-and-hold circuit will connect the 4pF sampling

capacitor to the input pin and start the sampling period.

The sampling period ends when CLK rises, holding the

sampled input on the sampling capacitor. Ideally the input

circuitry should be fast enough to fully charge

the sampling capacitor during the sampling period

1/(2FENCODE); however, this is not always possible and the

incomplete settling may degrade the SFDR. The sampling

APPLICATIO S I FOR ATIO

glitch has been designed to be as linear as possible to

minimize the effects of incomplete settling.

For the best performance, it is recommended to have a

source impedance of 100

or less for each input. The

source impedance should be matched for the differential

inputs. Poor matching will result in higher even order

harmonics, especially the second.

Input Drive Circuits

Figure 3 shows the LTC2293/LTC2292/LTC2291 being

driven by an RF transformer with a center tapped second-

ary. The secondary center tap is DC biased with VCM,

setting the ADC input signal at its optimum DC level.

Terminating on the transformer secondary is desirable, as

this provides a common mode path for charging glitches

caused by the sample and hold. Figure 3 shows a 1:1 turns

ratio transformer. Other turns ratios can be used if the

source impedance seen by the ADC does not exceed 100

for each ADC input. A disadvantage of using a transformer

is the loss of low frequency response. Most small RF

transformers have poor performance at frequencies be-

low 1MHz.

Figure 3. Single-Ended to Differential Conversion

Using a Transformer

0.1

AIN

–

12pF

2.2

VCM

LTC2293

LTC2292

LTC2291

ANALOG

INPUT

0.1

FT1

1:1

T1 = MA/COM ETC1-1T

RESISTORS, CAPACITORS

ARE 0402 PACKAGE SIZE

229321 F03

Figure 4 demonstrates the use of a differential amplifier to

convert a single ended input signal into a differential input

signal. The advantage of this method is that it provides low

frequency input response; however, the limited gain band-

width of most op amps will limit the SFDR at high input

frequencies.

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