AD9874 Analog Devices, AD9874 Datasheet - Page 23

AD9874

Manufacturer Part Number

AD9874

Description

Low Power IF Digitizing Subsystem

Manufacturer

Analog Devices

Datasheet

1.AD9874.pdf (40 pages)

Specifications of AD9874

Resolution (bits)

24bit

# Chan

Sample Rate

26MSPS

Interface

Ser

Analog Input Type

Diff-Uni,SE-Uni

Adc Architecture

Sigma-Delta

Pkg Type

QFP

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD9874ABST

Manufacturer:

Quantity:

672

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD9874ABST

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD9874ABSTZ

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD9874XST

Manufacturer:

Quantity:

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD9874XST

Manufacturer:

ADI

Quantity:

526

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD9874XST

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Current page: 23 of 40
Download datasheet (575Kb)

The mixer’s differential LO port is driven by the LO buffer

stage shown in Figure 6, which can be driven single-ended or

differential. Since it is self-biasing, the LO signal level can be

ac-coupled and range from 0.3 V p-p to 1.0 V p-p with negligible

effect on performance. The mixer’s open-collector outputs,

MXOP and MXON, drive an external resonant tank consisting

of a differential LC network tuned to the IF of the band-pass

dc bias path for the mixer core via a series resistor of 50 Ω, which

is included to dampen the common-mode response. The mixer’s

output must be ac-coupled to the input of the band-pass - ADC,

IF2P, and IF2N via two 100 pF capacitors to ensure proper tuning

of the LC center frequency.

The external differential LC tank forms the resonant element

for the first resonator of the band-pass - modulator, and so

must be tuned to the f

The inductors should be chosen such that their impedance at

is considered to be adequate. For example, at f

L = 10 µH is a good choice. Once the inductors have been

selected, the required tank capacitance may be calculated using

the relation f

For example, at f

250 pF is needed. However, in order to accommodate an induc-

tor tolerance of

from 227 pF to 278 pF. Selecting an external capacitor of

180 pF ensures that even with a 10% tolerance and stray capaci-

tances as high as 30 pF, the total capacitance will be less than

the minimum value needed by the tank. Extra capacitance is

supplied by the AD9874’s on-chip programmable capacitor

array. Since the programming range of the capacitor array is at

least 160 pF, the AD9874 has plenty of range to make up for

the tolerances of low cost external components. Note that if f

is increased by a factor of 1.44 MHz to 26 MHz so that f

becomes 3.25 MHz, reducing L and C by approximately the

same factor (i.e., L = 6.9 µH and C = 120 pF) still satisfies the

requirements stated above.

The selection of the inductors is an important consideration in

realizing the full linearity performance of the AD9874. This is

true when operating the LNA and mixer at maximum bias and

low clock frequency. Figure 10 shows how the two-tone input-

referred IMD versus the input level performance at an IF of

109 MHz and f

series and Coilcraft’s 1812CS series inductors. The graph also

shows the extrapolated point of intersection used to determine

the IIP3 performance. Note that the Coilcraft inductor provides

a 7 dB to 8 dB improvement in performance and closely

approximates the 3:1 slope associated with a third order

linearity compared to the 2.65:1 slope associated with the

Toko inductor. The Coilcraft 1008CS series showed perfor-

mance similar to that of the 1812CS series. It is worth noting

that the difference in IMD performance between these two

inductor families with an f

REV. A

CLK

- ADC (i.e., f

/8 is about 140 Ω (i.e., L = 180/f

CLK

/8 = 1/{2

IF2_ADC

CLK

10%, the tank capacitance must be adjustable

of 18 MHz varies between Toko’s FSLM

= 18 MHz and L = 10 µH, a capacitance of

CLK

= f

/8 center frequency of the modulator.

CLK

/8). The two inductors provide a

of 26 MHz is insignificant.

(2L

CLK

). An accuracy of 20%

1/2

CLK

= 18 MHz,

CLK

–23–

Both the LNA and mixer have four programmable bias settings so

that current consumption can be minimized for a given application.

Figures 11a, 11b, and 11c show how the LNA and mixer’s noise

figure (NF), linearity (IIP3), IF clip point, current consumption,

and frequency response are affected for a given LNA/mixer bias

setting. The measurements were taken at an IF = 73.35 MHz and

LO = 71.1 MHz, with supplies set to 3 V.

Figure 10. IMD Performance between Different Inductors

with LNA and Mixer at Full Bias and f

–10

–15

–20

–25

–5

1_0

–100

–120

–140

1_0

–20

–40

–60

–80

Figure 11a. LNA/Mixer Noise Figure and

Conversion Gain vs. Bias Setting

Figure 11b. LNA/Mixer IIP3 and Current

Consumption vs. Bias Setting

–54

1_1

NOISE FIGURE

1_2

1_2 1_3

LNA_MIXER CURRENT

–48

1_3 2_0

IMD

LNA_MIXER BIAS SETTING

TOKO INDUCTOR

CLIP POINT

2_0 2_1 2_2

= 2.64

–42

2_1 2_2 2_3

IIP3

IMD

–36

+ 4.6

COILCRAFT

= 2.92

2_3 3_0

= 109.65MHz

3_0

–30

CLK

+ 6.9

3_1

3_1 3_2

of 18 MHz

AD9874

–24

3_2

3_3

–20

–18

–16

–14

–12

–10

9.50

8.25

7.00

5.75

4.50

3.25

2.00

–18

AD9874 Analog Devices, AD9874 Datasheet - Page 23

AD9874

Specifications of AD9874

Available stocks

Related parts for AD9874