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參數(shù)資料

型號：	MAX1185
廠商：	Maxim Integrated Products, Inc.
英文描述：	Dual 10-Bit, 20Msps, +3V, Low-Power ADC with Internal Reference and Multiplexed Parallel Outputs
中文描述：	雙路、10位、20Msps、+3V、低功耗ADC，內(nèi)置電壓基準(zhǔn)及復(fù)用并行輸出
文件頁數(shù)：	12/20頁
文件大?。?/td>	495K
代理商：	MAX1185

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Dual 10-Bit, 20Msps, +3V, Low-Power ADC with

Internal Reference and Multiplexed Parallel Outputs

______________________________________________________________________________________

Analog Inputs and Reference

Configurations

The full-scale range of the MAX1185 is determined by the

internally generated voltage difference between REFP

/2 + V

REFIN

/4) and REFN (V

/2 - V

REFIN

/4). The

full-scale range for both on-chip ADCs is adjustable

through the REFIN pin, which is provided for this purpose.

REFOUT, REFP, COM (V

/2), and REFN are internally

buffered low-impedance outputs.

The MAX1185 provides three modes of reference operation:

Internal reference mode

Buffered external reference mode

Unbuffered external reference mode

In internal reference mode, connect the internal refer-

ence output REFOUT to REFIN through a resistor (e.g.,

10k

) or resistor-divider, if an application requires a

reduced full-scale range. For stability and noise filtering

purposes, bypass REFIN with a >10nF capacitor to

GND. In internal reference mode, REFOUT, COM, REFP,

and REFN become low-impedance outputs.

In buffered external reference mode, adjust the reference

voltage levels externally by applying a stable and accu-

rate voltage at REFIN. In this mode, COM, REFP, and

REFN become outputs. REFOUT may be left open or con-

nected to REFIN through a >10k

resistor.

In unbuffered external reference mode, connect REFIN to

GND. This deactivates the on-chip reference buffers for

REFP, COM, and REFN. With their buffers shut down,

these nodes become high impedance and may be driven

through separate, external reference sources.

Clock Input (CLK)

The MAX1185

’

s CLK input accepts CMOS-compatible

clock signals. Since the interstage conversion of the

device depends on the repeatability of the rising and

falling edges of the external clock, use a clock with low jit-

ter and fast rise and fall times (< 2ns). In particular, sam-

pling occurs on the rising edge of the clock signal,

requiring this edge to provide lowest possible jitter. Any

significant aperture jitter would limit the SNR performance

of the on-chip ADCs as follows:

SNR

= 20 x log

(1 / [2

x f

x t

])

where f

represents the analog input frequency and t

is the time of the aperture jitter.

Clock jitter is especially critical for undersampling appli-

cations. The clock input should always be considered as

an analog input and routed away from any analog input

or other digital signal lines.

The MAX1185 clock input operates with a voltage thresh-

old set to V

/2. Clock inputs with a duty cycle other

than 50%, must meet the specifications for high and low

periods as stated in the

Electrical Characteristics

System Timing Requirements

Figure 3 shows the relationship between clock and

analog input, A/B indicator, and the resulting CHA/CHB

data output. CHA and CHB data are sampled on the

rising edge of the clock signal. Following the rising

edge of the 5th clock cycles, the digitized value of the

original CHA sample is presented at the output, fol-

lowed one half-clock cycle later by the digitized value

of the original CHB sample.

A channel selection signal (A/B indicator) allows the user

to determine which output data represents which input

channel. With A/B = 1, digitized data from CHA is present

at the output and with A/B = 0 digitized data from CHB is

present.

Digital Output Data, Output Data Format

Selection (T/B), Output Enable (

), Channel

Selection (A/B)

All digital outputs, D0A/B

–

D9A/B (CHA or CHB data) and

A/B are TTL/CMOS logic-compatible. The output coding

can be chosen to be either offset binary or two

’

s comple-

ment (Table 1) controlled by a single pin (T/B). Pull T/B

low to select offset binary and high to activate two

’

s com-

plement output coding. The capacitive load on the digital

outputs D0A/B

–

D9A/B should be kept as low as possible

(<15pF), to avoid large digital currents that could feed

back into the analog portion of the MAX1185, thereby

degrading its dynamic performance. Using buffers on

the digital outputs of the ADCs can further isolate the

digital outputs from heavy capacitive loads. To further

improve the dynamic performance of the MAX1185,

small-series resistors (e.g., 100

) may be added to the

digital output paths close to the MAX1185.

Figure 4 displays the timing relationship between output

enable and data output valid as well as power-

down/wake-up and data output valid.

Power-Down (PD) and Sleep

(SLEEP) Modes

The MAX1185 offers two power-save modes

—

sleep

and full power-down mode. In sleep mode (SLEEP = 1),

only the reference bias circuit is active (both ADCs are

disabled), and current consumption is reduced to

2.8mA.

To enter full power-down mode, pull PD high. With

simultaneously low, all outputs are latched at the last

value prior to the power-down. Pulling

high forces

the digital outputs into a high-impedance state.

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