LTC2488 LINER [Linear Technology], LTC2488 Datasheet - Page 11

LTC2488

Manufacturer Part Number

LTC2488

Description

16-Bit 2-/4-Channel ?? ADC with Easy Drive Input Current Cancellation

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC2488.pdf (28 pages)

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APPLICATIONS INFORMATION

enables external RC networks and high impedance sen-

sors to directly interface to the LTC2488 without external

ampliﬁ ers. The remaining common mode input current

is eliminated by either balancing the differential input

impedances or setting the common mode input equal to

the common mode reference (see Automatic Differential

Input Current Cancellation Section). This unique architec-

ture does not require on-chip buffers, thereby enabling

signals to swing beyond ground and V

cancellation does not interfere with the transparent offset

and full-scale auto-calibration and the absolute accuracy

(full scale + offset + linearity + drift) is maintained even

with external RC networks.

Power-Up Sequence

The LTC2488 automatically enters an internal reset state

when the power supply voltage V

proximately 2V. This feature guarantees the integrity of

the conversion result, input channel selection, and serial

clock mode.

When V

an internal power-on-reset (POR) signal with a duration

of approximately 4ms. The POR signal clears all internal

registers. The conversion immediately following a POR

cycle is performed on the input channel IN

CH1. The ﬁ rst conversion following a POR cycle is accurate

within the speciﬁ cation of the device if the power supply

voltage is restored to (2.7V to 5.5V) before the end of the

POR interval. A new input channel can be programmed into

the device during this ﬁ rst data input/output cycle.

Reference Voltage Range

This converter accepts a truly differential external reference

voltage. The absolute/common mode voltage range for

REF

the device (GND to V

The LTC2488 differential reference input range is 0.1V to

and REF

is determined by the thermal noise of the front end circuits.

Since the transition noise is well below 1LSB (0.02LSB), a

REF

. For the simplest operation, REF

must be positive (REF

and REF

–

can be shorted to GND. The converter output noise

rises above this threshold, the converter creates

–

pins covers the entire operating range of

). For correct converter operation,

> REF

–

can be shorted to V

drops below ap-

. Moreover, the

= CH0, IN

–

decrease in reference voltage will proportionally improve

the converter resolution and improve INL.

Input Voltage Range

The analog inputs are truly differential with an absolute,

common mode range for the CH0 to CH3 and COM input

pins extending from GND – 0.3V to V

these limits, the ESD protection devices begin to turn

on and the errors due to input leakage current increase

rapidly. Within these limits, the LTC2488 converts the

bipolar differential input signal V

–0.5 • V

Outside this range, the converter indicates the overrange

or the underrange condition using distinct output codes

(see Table 1).

Signals applied to the input (CH0 to CH3, COM) may

extend 300mV below ground and above V

limit any fault current, resistors of up to 5k may be added

in series with the input. The effect of series resistance on

the converter accuracy can be evaluated from the curves

presented in the Input Current/Reference Current sections.

In addition, series resistors will introduce a temperature

dependent error due to input leakage current. A 1nA input

leakage current will develop a 1ppm offset error on a 5k

resistor if V

perature dependency.

SERIAL INTERFACE PINS

The LTC2488 transmits the conversion result, reads the

input channel selection, and receives a start of conversion

command through a synchronous 3- or 4-wire interface.

During the conversion and sleep states, this interface can

be used to access the converter status. During the data

output state, it is used to read the conversion result and

program the input channel.

Serial Clock Input/Output (SCK)

The serial clock pin (SCK) is used to synchronize the data

input/output transfer. Each bit is shifted out of the SDO

pin on the falling edge of SCK and data is shifted into the

SDI pin on the rising edge of SCK.

and IN

REF

–

to +FS = 0.5 • V

REF

are the selected input channels), from –FS =

= 5V. This error has a very strong tem-

REF

where V

= IN

REF

LTC2488

+ 0.3V. Outside

= REF

– IN

. In order to

–

– REF

(where

2488f

–

LTC2488 LINER [Linear Technology], LTC2488 Datasheet - Page 11

LTC2488

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