MAX1491 Datasheet, PDF(20/25 Page) Maxim Integrated Products – 3.5- and 4.5-Digit, Single-Chip ADCs with LCD Drivers

English

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

MAX1491 Datasheet, PDF (20/25 Pages) Maxim Integrated Products – 3.5- and 4.5-Digit, Single-Chip ADCs with LCD Drivers

◁

3.5- and 4.5-Digit, Single-Chip

ADCs with LCD Drivers

LCD

1---

1999

LCD

1---

1999

-0

-1

-2

-1999

-1---

-200mV

-100ÂµV 0 100ÂµV

+200mV

ANALOG INPUT VOLTAGE

Figure 17. MAX1491 Transfer Function Â±200mV Range

-1999

-1---

-2V

-1mV 0 1mV

+2V

ANALOG INPUT VOLTAGE

Figure 18. MAX1491 Transfer Function Â±2V Range

Supplies, Layout, and Bypassing

Power up AVDD and DVDD before applying an analog

input and external reference voltage to the device. If

this is not possible, limit the current into these inputs to

50mA. Isolate the digital supply from the analog supply

with a low-value resistor (10â¦) or ferrite bead when the

analog and digital supplies come from the same

source. For best performance, ground the MAX1491/

MAX1493/MAX1495 to the analog ground plane of the

circuit board.

Avoid running digital lines under the device, because

these may couple noise onto the die. Run the analog

ground plane under the MAX1491/MAX1493/MAX1495

to minimize coupling of digital noise. Make the power-

supply lines to the MAX1491/MAX1493/MAX1495 as

wide as possible to provide low-impedance paths and

reduce the effects of glitches on the power-supply line.

Shield fast-switching signals, such as clocks, with digital

ground to avoid radiating noise to other sections of the

board. Avoid running clock signals near the analog

inputs. Avoid crossover of digital and analog signals.

Running traces that are on opposite sides of the board at

right angles to each other reduces feedthrough effects.

Good decoupling is important when using high-resolu-

tion ADCs. Decouple the supplies with 4.7ÂµF and 0.1ÂµF

ceramic capacitors to GND. Place these components

as close to the device as possible to achieve the

best decoupling.

Refer to the MAX1494 evaluation kit manual for the rec-

ommended layout. The evaluation board package

includes a fully assembled and tested evaluation board.

Definitions

INL

Integral nonlinearity (INL) is the deviation of the values

on an actual transfer function from a straight line. This

straight line is either a best-straight-line fit or a line

drawn between the end points of the transfer function,

once offset and gain errors have been nullified. INL for

the MAX1491/MAX1493/MAX1495 is measured using

the end-point method.

DNL

Differential nonlinearity (DNL) is the difference between

an actual step width and the ideal value of one count. A

DNL error specification of less than one count guarantees

no missing counts and a monotonic transfer function.

Rollover Error

Rollover error is defined as the absolute value differ-

ence between a near-positive full-scale reading and

near-negative full-scale reading. Rollover error is tested

by applying a full-scale positive voltage, swapping

AIN+ and AIN-, and then adding the results.

Zero Input Reading

Ideally, with AIN+ connected to AIN-, the MAX1491/

MAX1493/MAX1495 display a zero. Zero input reading

is the measured deviation from the ideal zero and the

actual measured point.

20 ______________________________________________________________________________________

▷