MAX148 Datasheet, PDF(13/24 Page) Maxim Integrated Products – +2.7V to +5.25V, Low-Power, 8-Channel, Serial 10-Bit ADCs

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MAX148 Datasheet, PDF (13/24 Pages) Maxim Integrated Products – +2.7V to +5.25V, Low-Power, 8-Channel, Serial 10-Bit ADCs

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+2.7V to +5.25V, Low-Power, 8-Channel,

Serial 10-Bit ADCs

SCLK

1 2 345678

9 10 11 12

DIN

SSTRB

DOUT

SEL2 SEL1 SEL0

UNI/

BIP

SGL/

DIF

PD1

PD0

START

tCONV

A/D STATE

IDLE

Figure 9. Internal Clock Mode Timing

ACQUISITION

1.5Âµs

(fSCLK = 2MHz)

CONVERSION

7.5Âµs MAX

(SHDN = FLOAT)

MSB

IDLE

18 19 20 21 22 23 24

LSB

FILLED WITH

S0 ZEROS

tCONV

tCSH

tCSS

tSCK

SSTRB

SCLK

tSSTRB

tDO

PD0 CLOCK IN

DOUT

NOTE: FOR BEST NOISE PERFORMANCE, KEEP SCLK LOW DURING CONVERSION.

Figure 10. Internal Clock Mode SSTRB Detailed Timing

from the burden of running the SAR conversion clock

and allows the conversion results to be read back at the

processorâs convenience, at any clock rate from 0MHz

to 2MHz. SSTRB goes low at the start of the conversion

and then goes high when the conversion is complete.

SSTRB is low for a maximum of 7.5Âµs (SHDN = FLOAT),

during which time SCLK should remain low for best

noise performance.

An internal register stores data when the conversion is

in progress. SCLK clocks the data out of this register at

any time after the conversion is complete. After SSTRB

goes high, the next falling clock edge produces the

MSB of the conversion at DOUT, followed by the

remaining bits in MSB-first format (Figure 9). CS does

not need to be held low once a conversion is started.

Pulling CS high prevents data from being clocked into

the MAX148/MAX149 and three-states DOUT, but it

does not adversely affect an internal clock mode con-

version already in progress. When internal clock mode

is selected, SSTRB does not go into a high-

impedance state when CS goes high.

Figure 10 shows the SSTRB timing in internal clock

mode. In this mode, data can be shifted in and out of

the MAX148/MAX149 at clock rates exceeding 2.0MHz if

the minimum acquisition time (tACQ) is kept above 1.5Âµs.

Data Framing

The falling edge of CS does not start a conversion.

The first logic high clocked into DIN is interpreted as a

start bit and defines the first bit of the control byte. A

conversion starts on SCLKâs falling edge, after the eighth

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