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參數(shù)資料

型號：	SP574BT
元件分類：	串行ADC
英文描述：	12-Bit Sampling A/D Converters
中文描述：	12位采樣的A / D轉(zhuǎn)換器
文件頁數(shù)：	6/15頁
文件大?。?/td>	172K
代理商：	SP574BT

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SP574B/674B/1674B/774B

12–Bit Sampling A/D Converters

6

Copyright 2000 Sipex Corporation

SAMPLE–AND–HOLD FUNCTION

Although there is no sample–and–hold circuit in

the classical sense, the sampling nature of the

capacitive DAC makes the

SPx74B

appear to have

a built–in sample–and–hold. The sample–and–

hold function of the CDAC architecture is opti-

mized to provide full Nyquist sampling at any

maximum sampling rate. Because the S/H func-

tion is included in the ADC circuitry, the majority

of the S/H specifications are included within the A/

D specifications.

Note that some system architectures may use an

external sample–and–hold. The built–in S/H func-

tion of the

SPx74B

will provide additional isola-

tion. Once the internal sample is taken by the

CDAC capacitance, the input of the

SPx74B

is

disconnected from the input. This prevents tran-

sients occurring during conversion from being

inflicted upon the attached buffer. All other 574/

674–type circuits will cause a transient load cur-

rent on the input which will upset the buffer output

and may add error to the conversion itself. In

addition, the isolation of the input after the acqui-

sition time in the

SPx74B

allows you the opportu-

nity to release the HOLD on an external sample–

and–hold and start it tracking the next sample. This

will increase system throughput with your existing

components.

When using an external S/H, the

SPx74B

acts as

any other 574–type device because the internal S/

H is transparent. The sample/hold function in the

SPx74B

is inherent to the capacitor DAC struc-

ture, and its timing characteristics are determined

by the internally generated clock. However, for

multiplexer operation, the internal S/H may elimi-

nate the need for an external S/H. The operation of

the S/H function is internal to the

SPx74B

and is

USING THE SPX74B SERIES

Typical Interface Circuit

The

SPx74B

is a complete A/D converter that is

fully operational when powered up and issued a

Start Convert Signal. Only a few external compo-

nents are necessary. The

SPx74B Series

have four

standard input ranges: 0V to +10V, 0V to +20V,

±

5V and

±

10V.

Figure 2

depicts a typical interface

circuit for operating the

SPx74B

in a unipolar

input mode.

Figure 3

depicts a typical interface

circuit for operating the

SPx74B

in a bipolar input

mode. Further information is given in the follow-

ing sections on these connections, but first a few

considerations concerning board layout to achieve

the best operation.

For each application of this device, strict attention

must be given to power supply decoupling, board

layout (to reduce pickup between analog and digi-

tal sections), and grounding. Digital timing, cali-

bration and the analog signal source must be

considered for correct operation.

To achieve specified accuracy, a double–sided

printed circuit board with a copper ground plane

on the component side is recommended. Keep

analog signal traces away from digital lines. It is

best to lay the PC board out such that there is an

analog section and a digital section with a single

point ground connection between the two through

an RF bead. If this is not possible, run analog

controlled through the normal R/C control line

(refer to

Figure 1

). When the R/C line makes a

negative transition, the

SPx74B

starts the timing

of the sampling and conversion. The first two

clock cycles are allocated to signal acquisition of

the input by the CDAC (this time is defined as

t

). Following these two cycles, the input sample

is taken and held. The A/D conversion follows this

cycle with the duration controlled by the internal

clock cycle, which is determined by the specific

product model. Note that because the sample is

taken relative to the R/C transition, t

is also the

traditional “aperture delay” of this internal sample

and hold. Since t

is measured in clock cycles,

its duration will vary with the internal clock fre-

quency.

Offset, gain and linearity errors of the S/H circuit,

as well as the effects of its droop rate, are included

in the overall specs for the

SPx74B

.

R/C

CE

COWAIT FOR

BUS READ

CONVERSION

VIN

CDAC VOLTAGE

0 VOLTS

t(ACQ)

ACTIME

ACQUISITION TIME =

Figure 1. Sample–and–Hold Function

相關(guān)PDF資料	PDF描述
SP1674BA	12-Bit Sampling A/D Converters
SP1674BB	12-Bit Sampling A/D Converters
SP1674BJ	12-Bit Sampling A/D Converters
SP1674BK	12-Bit Sampling A/D Converters
SP1674BS	12-Bit Sampling A/D Converters

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