cs5511 Cirrus Logic, Inc., cs5511 Datasheet - Page 10

cs5511

Manufacturer Part Number

cs5511

Description

16-bit And 20-bit, 8-pin ?? Adc

Manufacturer

Cirrus Logic, Inc.

Datasheet

1.CS5511.pdf (24 pages)

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2. GENERAL DESCRIPTION

The CS5510/11/12/13 are low-cost, easy-to-use,

∆Σ analog-to-digital converters (ADCs) which use

charge balance techniques to achieve 16-bit

(CS5510/11) and 20-bit (CS5512/13) perfor-

mance. The ADCs are available in a space-effi-

cient, 8-pin, SOIC package and are optimized for

measuring signals in weigh scale, process control,

and other industrial applications.

To accommodate these applications, the ADCs in-

clude a fourth-order ∆Σ modulator and a digital fil-

ter. When configured with an external master clock

of 32.768 kHz, the filter in the CS5510/12 provides

better than 80 dB of simultaneous 50 and 60 Hz

line rejection, and outputs conversion words at

53.5 Sps. The CS5511/13 include an on-chip oscil-

lator which eliminates the need for an external

clock source.

The CS5510/11/12/13 ADCs are designed to oper-

ate from a single +5 V supply or a variety dual-sup-

ply configurations and are optimized to digitize

bipolar signals in industrial applications.

To achieve low cost, the CS5510/11/12/13 family

of converters have no on-chip calibration features.

The CS5510/11/12/13 offer very low offset drift,

low gain drift, and excellent linearity.

2.1

The CS5510/11/12/13 provides a differential input

span of approximately ±(0.80 ± 0.08) times the dif-

Analog Input

i = f V

o s

≤ 2 5 mV

AIN

Figure 3. Input models for AIN+ and AIN- pins.

f = 32.768 kHz

ferential voltage reference (VREF - V-). This trans-

lates to typically ±4.0 V fully differential when the

reference voltage between VREF and V- is 5 V,

and typically ±2.0 V fully differential at 2.5 V.

Note:

2.1.1

Figure 3 illustrates the input model for the AIN

pins. The model includes a coarse/fine charge

buffer which reduces the dynamic current de-

mands from the signal source. The buffer is de-

signed to accommodate rail-to-rail (common-mode

plus signal) input voltages. Typical CVF (sampling)

current is about 10 nA. Application Note 30,

“Switched-capacitor A/D Input Structures”, details

various input architectures.

2.2

The voltage between the VREF and V- pins of the

converter determines the voltage reference for the

converter. This voltage can be as low as 250 mV,

or as great as (V+) - (V-). The VREF pin can be

connected directly to the V+ pin. This will establish

a voltage reference equal to (V+) - (V-) for the con-

verter. The effective resolution of the part (noise-

free bits for a single sample with no averaging) will

vary with VREF. Figure 4 shows how the VREF

voltage affects the noise-free resolution of the

φ Coarse

φ Fine

C = 12 p F

Voltage Reference Input

When a smaller reference voltage is used,

the resulting code widths are smaller. Since

the output codes exhibit more changing

codes for a fixed amount of noise, the

converter appears noisier.

Analog Input Model

CS5510/11/12/13

DS337F3

cs5511 Cirrus Logic, Inc., cs5511 Datasheet - Page 10

cs5511

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