MAX11629EEE+T Maxim Integrated, MAX11629EEE+T Datasheet - Page 13

MAX11629EEE+T

Manufacturer Part Number

MAX11629EEE+T

Description

Analog to Digital Converters - ADC 12-Bit 8Ch 300ksps 3.6V Precision ADC

Manufacturer

Maxim Integrated

Datasheet

1.MAX11627EEET.pdf (22 pages)

Specifications of MAX11629EEE+T

Rohs

yes

Number Of Channels

Architecture

SAR

Conversion Rate

300 KSPs

Resolution

12 bit

Input Type

Single-Ended

Interface Type

3-Wire (SPI, Microwire), QSPI

Operating Supply Voltage

2.7 V to 3.6 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Maximum Power Dissipation

667 mW

Minimum Operating Temperature

- 40 C

Number Of Converters

Voltage Reference

2.048 V

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The equivalent circuit of Figure 3 shows the

MAX11626–MAX11629/MAX11632/MAX11633’s input

architecture. In track mode, a positive input capacitor is

connected to AIN0–AIN15. A negative input capacitor is

connected to GND. For external T/H timing, use clock

mode 01. After the T/H enters hold mode, the difference

between the sampled positive and negative input volt-

ages is converted. The time required for the T/H to

acquire an input signal is determined by how quickly its

input capacitance is charged. If the input signal’s

source impedance is high, the required acquisition time

lengthens. The acquisition time, t

time needed for a signal to be acquired, plus the power-

up time. It is calculated by the following equation:

where R

input signal, and t

device. The varying power-up times are detailed in the

explanation of the clock mode conversions. When the

conversion is internally timed, t

1.4µs, and any source impedance below 300Ω does not

significantly affect the ADC’s AC performance. A high-

impedance source can be accommodated either by

lengthening t

the positive and negative analog inputs.

The MAX11626–MAX11629/MAX11632/MAX11633 con-

tain a FIFO buffer that can hold up to 16 ADC results.

This allows the ADC to handle multiple internally clocked

conversions, without tying up the serial bus. If the FIFO is

filled and further conversions are requested without

reading from the FIFO, the oldest ADC results are over-

written by the new ADC results. Each result contains 2

bytes, with the MSB preceded by four leading zeros.

After each falling edge of CS, the oldest available byte of

data is available at DOUT, MSB first. When the FIFO is

empty, DOUT is zero.

The MAX11626–MAX11629/MAX11632/MAX11633 oper-

ate from an internal oscillator, which is accurate within

10% of the 4.4MHz nominal clock rate. The internal

Table 1. Input Data Byte (MSB First)

X = Don’t care.

Conversion

Setup

Averaging

Reset

ACQ

= 1.5kΩ, R

True Differential Analog Input T/H

ACQ

= 9 x (R

or by placing a 1µF capacitor between

PWR

______________________________________________________________________________________

= 1µs, the power-up time of the

is the source impedance of the

+ R

BIT 7

) x 24pF + t

ACQ

with FIFO and Internal Reference

CHSEL3

is never less than

Internal Clock

, is the maximum

BIT 6

Internal FIFO

PWR

CHSEL2

CKSEL1

BIT 5

CHSEL1

CKSEL0

oscillator is active in clock modes 00, 01, and 10. Read

out the data at clock speeds up to 10MHz. See Figures

4–7 for details on timing specifications and starting a

conversion.

The MAX11626–MAX11629/MAX11632/MAX11633 com-

municate between the internal registers and the exter-

nal circuitry through the SPI-/QSPI-compatible serial

interface. Table 1 details the registers and the bit

names. Tables 2–5 show the various functions within

the conversion register, setup register, averaging regis-

ter, and reset register.

The conversion time for each scan is based on a num-

ber of different factors: conversion time per sample,

samples per result, results per scan, and if the external

reference is in use.

Use the following formula to calculate the total conver-

sion time for an internally timed conversion in clock

modes 00 and 10 (see the Electrical Characteristics

section as applicable):

where

In clock mode 01, the total conversion time depends on

how long CNVST is held low or high, including any time

required to turn on the internal reference. Conversion

time in externally clocked mode (CKSEL1, CKSEL0 = 11)

depends on the SCLK period and how long CS is held

high between each set of eight SCLK cycles. In clock

mode 01, the total conversion time does not include the

time required to turn on the internal reference.

AVGON

Total Conversion Time = t

BIT 4

12-Bit, 300ksps ADCs

determined by the number of channels being

scanned or by NSCAN1, NSCAN0.

nal reference is already powered up or external ref-

erence is being used .

CNV

AVG

RESULT

= internal reference wake-up; set to zero if inter-

= t

= samples per result (amount of averaging).

REFSEL1

CHSEL0

ACQ

NAVG1

RESET

BIT 3

= number of FIFO results requested;

Applications Information

(max) + t

REFSEL0

SCAN1

NAVG0

Conversion Time Calculations

BIT 2

CONV

CNV

x n

(max).

AVG

NSCAN1

SCAN0

BIT 1

x n

RESULT

NSCAN0

BIT 0

+ t

MAX11629EEE+T Maxim Integrated, MAX11629EEE+T Datasheet - Page 13

MAX11629EEE+T

Specifications of MAX11629EEE+T

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