MAX1444 Datasheet, PDF(14/20 Page) Maxim Integrated Products – 10-Bit, 40Msps, 3.0V, Low-Power ADC with Internal Reference

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MAX1444 Datasheet, PDF (14/20 Pages) Maxim Integrated Products – 10-Bit, 40Msps, 3.0V, Low-Power ADC with Internal Reference

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10-Bit, 40Msps, 3.0V, Low-Power

ADC with Internal Reference

System Timing Requirements

Figure 6 shows the relationship between the clock

input, analog input, and data output. The MAX1444

samples at the falling edge of the input clock. Output

data is valid on the rising edge of the input clock. The

output data has an internal latency of 5.5 clock cycles.

Figure 5 shows the relationship between the input clock

parameters and the valid output data.

__________Applications Information

Figure 7 shows a typical application circuit containing a

single-ended to differential converter. The internal refer-

ence provides a VDD/2 output voltage for level shifting

purposes. The input is buffered and then split to a volt-

age follower and inverter. A lowpass filter follows the op

amps to suppress some of the wideband noise associ-

ated with high-speed op amps. The user may select the

RISO and CIN values to optimize the filter performance

to suit a particular application. For the application in

Figure 7, an RISO of 50â¦ is placed before the capaci-

tive load to prevent ringing and oscillation. The 22pF

CIN capacitor acts as a small bypassing capacitor.

Using Transformer Coupling

An RF transformer (Figure 8) provides an excellent

solution for converting a single-ended source signal to

a fully differential signal, required by the MAX1444 for

optimum performance. Connecting the transformerâs

center tap to COM provides a VDD/2 DC level shift to

the input. Although a 1:1 transformer is shown, a step-

up transformer may be selected to reduce the drive

requirements. A reduced signal swing from the input

driver, such as an op amp, may also improve the over-

all distortion.

In general, the MAX1444 provides better SFDR and

THD with fully differential input signals than single-

ended drive, especially for very high input frequencies.

In differential input mode, even-order harmonics are

lower since both inputs (IN+, IN-) are balanced, and

each of the inputs only requires half the signal swing

compared to single-ended mode.

Single-Ended AC-Coupled Input Signal

Figure 9 shows an AC-coupled, single-ended applica-

tion. The MAX4108 op amp provides high speed, high

bandwidth, low noise, and low distortion to maintain the

integrity of the input signal.

ANALOG INPUT

tAD

5.5 CLOCK-CYCLE LATENCY

N+1

N+2

N+3

N+4

N+5

N+6

N+7

CLOCK INPUT

DATA OUTPUT

tDO

tCL

tCH

N-6

N-5

N-4

N-3

N-2

N-1

N+1

Figure 6. System and Output Timing Diagram

14 ______________________________________________________________________________________

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