XE8805AMI028LF Semtech, XE8805AMI028LF Datasheet - Page 123

XE8805AMI028LF

Manufacturer Part Number

XE8805AMI028LF

Description

IC DAS 16BIT FLASH 8K MTP 64LQFP

Manufacturer

Semtech

Datasheet

1.XE8805AMI028LF.pdf (156 pages)

Specifications of XE8805AMI028LF

Applications

Sensing Machine

Core Processor

RISC

Program Memory Type

FLASH (22 kB)

Controller Series

XE8000

Ram Size

512 x 8

Interface

UART, USRT

Number Of I /o

Voltage - Supply

2.4 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

64-LQFP

Supply Voltage Range

2.4V To 5.5V

Operating Temperature Range

-40Â°C To +85Â°C

Digital Ic Case Style

LQFP

No. Of Pins

For Use With

XE8000MP - PROG BOARD AND PROSTART2 CARD

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Company

Part Number

Manufacturer

Quantity

Price

Company:

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Part Number:

XE8805AMI028LF

Manufacturer:

Semtech

Quantity:

10 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

XE8805AMI028LF

Manufacturer:

SEMTECH/美国升特

Quantity:

20 000

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18.1 Features

18.2 Overview of Signal DAC - The generic DAC

The generic DAC block consists of two major parts: the noise shaper (sigma-delta modulator) and the PWM

modulator as shown in Figure 18-1.

A D/A converter that is built with a digital PWM modulator needs a high clock frequency for a small signal

bandwidth. For a 10 bit digital PWM modulator for instance, a 10 bit counter is needed in order to create a pulse

with a resolution of 1024. This means that, in case an infinitely sharp analog output filter is used, the clock

frequency has to be at least 1024 times the output bandwidth. In practice however, in order to be able to build the

analog filter, the clock frequency needs to be much higher.

In order to reduce this frequency requirement, the input digital word is broken down into n words with a smaller

width m by a noise shaper so that the “average” (average for first order noise shaper, more complicated for higher

order noise shapers) value of the n m-bit words represents the full width input code. Instead of 1 pulse with the full

resolution, the PWM modulator now generates n pulses with a smaller resolution m. This increases the output

pulse repetition frequency with a factor n for identical clock frequency. Therefore, the analog output filtering is

easier to implement. Higher order noise shapers (order >1) allow to decrease the clock frequency for identical

signal bandwidth.

Another advantage is that the signal distortion is less dependent on the signal value. A disadvantage is however,

that the output signal after filtering is more dependent on the rise and fall times of the PWM output since there are

many more pulses.

The maximum word width at the input is 16-bit. If the word is narrower, 0’s have to be added after the LSB. In order

to maintain maximum flexibility, the order of the noise shaper and the resolution of the PWM modulation are

programmable by writing the codes CodeLmax and NsOrder to the configuration register. The possible noise

shaper order is 0 (which means no noise shaping), 1 or 2. The possible PWM modulation resolution m can be set

between 4 and 11.

•

Figure 18-1. General block diagram

16-bits maximum input word width

Synchronization mechanism to guarantee data integrity when writing LSB and MSB 8-bits data

Programmable noise shaper order: second, first or order zero

Programmable PWM modulation between 4 and 11-bits

Programmable clock input frequency: fin or fin/2

Programmable output polarity: active high or low

On chip amplifier for analog filtering, voltage output or 4-20 mA loop

CPU

bus

control

Sigma-delta

modulator

4-11

18-2

modulator

amp

PWM

DAS Out

XE8805/05A

www.semtech.com

XE8805AMI028LF Semtech, XE8805AMI028LF Datasheet - Page 123

XE8805AMI028LF

Specifications of XE8805AMI028LF

Available stocks

Related parts for XE8805AMI028LF