MAX1392_09 Datasheet, PDF(13/18 Page) Maxim Integrated Products – 1.5V to 3.6V, 357ksps, 1-Channel True-Differential/ 2-Channel Single-Ended, 10-Bit, SAR ADCs

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MAX1392_09 Datasheet, PDF (13/18 Pages) Maxim Integrated Products – 1.5V to 3.6V, 357ksps, 1-Channel True-Differential/ 2-Channel Single-Ended, 10-Bit, SAR ADCs

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1.5V to 3.6V, 357ksps, 1-Channel True-Differential/

2-Channel Single-Ended, 10-Bit, SAR ADCs

ADC

STATE

POWER-

DOWN

POWER-UP

AND ACQUIRE

(tACQ)

UNI/BIP

(CH1/CH2)*

SCLK

BIPOLAR (AIN1)*

SAMPLING INSTANT

HOLD

AND CONVERT

(tCONV)

POWER-

DOWN

UNI (AIN2)*

10 11 12 13 14 15 16

DOUT

D9 D8 D7 D6 D5 D4 D3 D2 D1 D0

*INDICATES THE MAX1395

Figure 10. DSP Serial-Timing Diagram

As shown in Figure 11, drive the MAX1392/MAX1395

chip-select input (CS) with the DSPâs frame-sync signal.

OE may be connected to GND or driven independently.

For continuous conversion operation, keep OE low and

make the CS falling edge coincident with the 14th

falling edge of the SCLK. Fourteen-bit data transfers

can also be performed with compatible DSPs.

Unregulated Two-Cell or Single Lithium

LiMnO2 Cell Operation

Low operating voltage (1.5V to 3.6V) and ultra-low-power

consumption make the MAX1392/MAX1395 ideal for low

cost, unregulated, battery-powered applications without

the need for a DC-DC converter. Power the MAX1392/

MAX1395 directly from two alkaline/NiMH/NiCd cells in

series or a single lithium coin cell as shown in the Typical

Operating Circuit.

Fresh alkaline cells have a voltage of approximately

1.5V per cell (3V with 2 cells in series) and approach

end of life at 0.8V (1.6V with 2 cells in series). A typical

2xAA alkaline discharge curve is shown in Figure 12a.

A typical CR2032 lithium (LiMnO2) coin cell discharge

curve is shown in Figure 12b.

Layout, Grounding, and Bypassing

For best performance, use PC boards. Board layout

must ensure that digital and analog signal lines are

separated from each other. Do not run analog and digi-

tal (especially clock) lines parallel to one another, or

digital lines underneath the ADC package.

Figure 13 shows the recommended system ground

connections. Establish a single-point analog ground

(star ground point) at the MAX1392/MAX1395sâ GND

pin or use the ground plane.

High-frequency noise in the power supply (VDD)

degrades the ADCâs performance. Bypass VDD to GND

with a 0.1ÂµF capacitor as close to the device as possi-

ble. Minimize capacitor lead lengths for best supply

noise rejection. To reduce the effects of supply noise, a

attenuate supply noise.

Exposed Pad

The MAX1392/MAX1395 TDFN package has an

exposed pad on the bottom of the package. This pad is

not internally connected. Connect the exposed pad to

the GND pin on the MAX1392/MAX1395 or leave

unconnected for proper electrical performance.

Definitions

Integral Nonlinearity (INL)

INL is the deviation of the values on an actual transfer

function from a straight line. For the MAX1392/

MAX1395, this straight line is between the end points of

the transfer function once offset and gain errors have

been nullified. INL deviations are measured at every

step and the worst-case deviation is reported in the

Electrical Characteristics section.

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