CS5501-BS Cirrus Logic Inc, CS5501-BS Datasheet - Page 24

CS5501-BS

Manufacturer Part Number

CS5501-BS

Description

A/D Converter (A-D) IC

Manufacturer

Cirrus Logic Inc

Datasheet

1.CS5501-BS.pdf (54 pages)

Specifications of CS5501-BS

Peak Reflow Compatible (260 C)

No. Of Bits

16 Bit

Leaded Process Compatible

Mounting Type

Surface Mount

Interface Type

Serial

Package / Case

20-SOIC

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Anti-Alias Considerations

The digital filter in the CS5501/CS5503 does not

provide rejection around integer multiples of the

oversampling rate [(N*CLKIN)/256, where

N = 1,2,3,...]. That is, with a 4.096 MHz master

clock the noise on the analog input signal within

the narrow 10 Hz bands around the 16 kHz,

32 kHz, 48 kHz, etc., passes unfiltered to the digi-

tal output. Most broadband noise will be very

well filtered because the CS5501/CS5503 use a

very high oversampling ratio of 800 (16 kHz:

2x10 Hz). Broadband noise is reduced by:

where e

the input. Since f

white, broadband noise by 96.5% independent of

the CLKIN frequency. For example, a typical op-

erational amplifier’s 50 V rms noise would be

reduced to 1.75 V rms (0.035 LSB’s rms at the

16-bit level in the CS5501 and 0.4 LSB’s rms at

the 20-bit level in the CS5503).

Simple high frequency analog filtering in the sig-

nal conditioning circuitry can aid in removing

energy at multiples of the sampling rate.

Table 5. Settling Time of the 6 Pole Low Pass Filter in

the CS5501 to 1/2 LSB Accuracy with a Full Scale

equals CLKIN/256, the digital filter reduces

and e

Accuracy

Output

Bits of

out

-3dB

are rms noise terms referred to

Step Input

0.035 e

Cycles

equals CLKIN/409,600 and

Filter

340

356

389

435

459

475

486

495

500

504

506

507

3dB

Cycles

CLKIN

348,160

364,544

398,336

445,440

470,016

486,400

497,664

506,880

512,000

516,096

518,144

519,168

Post Filtering

Post filtering is useful to enhance the noise per-

formance of the CS5503. With a constant input

voltage the output codes from the CS5503 will

exhibit some variation due to noise. The CS5503

has typically 1.6 LSB

codes. Additional variation in the output codes

can arise due to noise from the input signal source

and from the voltage reference. Post filtering

(digital averaging) will be necessary to achieve

less than 1 LSB p-p noise at the 20-bit level. The

CS5503 has peak noise less than the 18-bit level

without additional filtering if care is exercised in

the design of the voltage reference and the input

signal condition circuitry. Noise in the bandwidth

from dc to 10 Hz on both the AIN and VREF

inputs should be minimized to ensure maximum

performance. As the amount of noise will be

highly system dependent, a specific recommenda-

tion for post filtering for all applications cannot be

stated. The following guidelines are helpful. Real-

ize that the digital filter in the CS5503, like any

other low pass filter, acts as an information stor-

age unit. The filter retains past information for a

period of time even after the input signal has

changed. The implication of this is that immedi-

ately sequential 20-bit updates to the serial port

contain highly correlated information. To most ef-

ficiently post filter the CS5503 output data,

uncorrelated samples should be used. Samples

which have sufficiently reduced correlation can be

obtained if the CS5503 is allowed to execute 200

filter cycles between each subsequent data word

collected for post filtering.

The character of the noise in the data will influ-

ence the post filtering requirements. As a general

rule, averaging N uncorrelated data samples will

reduce noise by 1/ N. While this rule assumes

that the noise is white (which is true for the

CS5503 but not true for all real system signals

between dc and 10Hz), it does offer a starting

point for developing a post filtering algorithm for

removing the noise from the data. The algorithm

CS5501/CS5503

rms noise in its output

DS31F2

CS5501-BS Cirrus Logic Inc, CS5501-BS Datasheet - Page 24

CS5501-BS

Specifications of CS5501-BS

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