MAX1402_07 Datasheet, PDF(24/38 Page) Maxim Integrated Products – +5V, 18-Bit, Low-Power, Multichannel, Oversampling (Sigma-Delta) ADC

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

MAX1402_07 Datasheet, PDF (24/38 Pages) Maxim Integrated Products – +5V, 18-Bit, Low-Power, Multichannel, Oversampling (Sigma-Delta) ADC

◁

+5V, 18-Bit, Low-Power, Multichannel,

Oversampling (Sigma-Delta) ADC

have low absolute temperature coefficients and tight

TC matching. Optimized for transducer excitation, the

current sources possess tight temperature tracking

allowing accurate compensation of errors due to IR

drops in long transducer cable runs. They may be

enabled or disabled using a single register control bit

(IOUT).

REXT

CEXT

RMUX

RSW

CPIN

CST

CSAMPLE

Dynamic Input Impedance at the

Channel Selection Network

When used in unbuffered mode (BUFF = 0), the analog

inputs present a dynamic load to the driving circuitry.

The size of the sampling capacitor and the input sam-

pling frequency (Figure 5) determine the dynamic load

seen by the driving circuitry. The MAX1402 samples at a

constant rate for all gain settings. This provides a maxi-

mum time for the input to settle at a given data rate. The

dynamic load presented by the inputs varies with the

gain setting. For gains of +2V/V, +4V/V, and +8V/V, the

input sampling capacitor increases with the chosen

gain. Gains of +16V/V, +32V/V, +64V/V, and +128V/V

present the same input load as the x8 gain setting.

When designing with the MAX1402, as with any other

switched-capacitor ADC input, consider the advantages

and disadvantages of series input resistance. A series

resistor reduces the transient-current impulse to the

external driving amplifier. This improves the amplifier

phase margin and reduces the possibility of ringing.

Figure 5. Analog Input, Unbuffered Mode (BUFF = 0)

The resistor spreads the transient-load current from the

sampler over time due to the RC time constant of the

circuit. However, an improperly chosen series resis-

tance can hinder performance in fast 16-bit converters.

The settling time of the RC network can limit the speed

at which the converter can operate properly, or reduce

the settling accuracy of the sampler. In practice, this

means ensuring that the RC time constantâresulting

from the product of the driving source impedance and

the capacitance presented by both the MAX1402âs

input and any external capacitancesâis sufficiently

small to allow settling to the desired accuracy. Tables

13aâ13d summarize the maximum allowable series

resistance vs. external capacitance for each MAX1402

gain setting in order to ensure 16-bit performance in

unbuffered mode.

Table 13a. REXT, CEXT Values for Less than 16-Bit Gain Error in Unbuffered (BUFF = 0)

Modeâ1x Modulator Sampling Frequency (MF1, MF0 = 00); X2CLK = 0; CLKIN = 2.4576MHz

PGA GAIN

8, 16, 32,

64, 128

CEXT = 0pF

CEXT = 50pF

EXTERNAL RESISTANCE REXT (kâ¦)

CEXT = 100pF CEXT = 50pF CEXT = 1000pF

3.9

2.2

3.9

2.2

3.6

2.0

CEXT = 5000pF

0.58

0.53

9.7

3.3

1.9

0.49

Table 13b. REXT, CEXT Values for Less than 16-Bit Gain Error in Unbuffered (BUFF = 0)

Modeâ2x Modulator Sampling Frequency (MF1, MF0 = 01); X2CLK = 0; CLKIN =

2.4576MHz

PGA GAIN

CEXT = 0pF

CEXT = 50pF

9.9

EXTERNAL RESISTANCE REXT (kâ¦)

CEXT = 100pF CEXT = 500pF CEXT = 1000pF

6.5

1.9

1.1

CEXT = 5000pF

0.29

9.9

6.5

1.9

1.1

0.29

8.5

5.8

1.8

1.0

0.27

8, 16, 32,

64, 128

11.2

6.7

4.9

1.6

0.93

0.24

24 ______________________________________________________________________________________

▷