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M16C6S Datasheet, PDF (183/196 Pages) Renesas Technology Corp – SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER
M16C/6S Group
IT800AFE (Analog Front End)
IT800AFE (Analog Front End)
1. The block diagram of analog front end
Analog front end (AFE) part is the circuit located between M16C/6S and a power line, and M16C/6S
build in DAC, preamplifier, and ADC. There are the following two signal circuits in AFE.
(1)Transmitting circuit:It drives with the signal from the logic of M16C/6S inside, and this is consists of
DAC with a differential output, Output filter for spectrum adjustment, Differential line driver amplifier and
line coupling circuit which drive power line.
(2)Receiving circuit:This is consists of Line coupling circuit, Differential preamplifier, Input filter group
and ADC. Line coupling circuit is common to both transmission and reception.
M16C/6S
DAC
Output
Filter
Line
Driver
Line
Driver
Power line
ADC
Pre
Amp
Channel
Filters
Input Filter
Fig.1.23.1 Analog Front End circuit block diagram
(1)Transmitting circuit
The characteristic required for transmitting course is as follows.
(a)A suitable output signal level is obtained to the load of rating
(b)It has the frequency characteristic to maximum zone width of 400kHz
(c)The signal level outside a zone:It is less than each regulation
This system assumes operation in the following three fundamental signal zones.
(a)The U.S., Japan:100k to 400kHz
(b)Europe in door:95k to 125kHz(CENELEC B Band)
(c)Europe out door:20k to 80kHz(CENELEC A Band)
It is necessary to perform the change of a signal zone by change of adjustment of change of the
configuration of IT800, the analog filter to a signal zone, or output electric power, and the output imped-
ance of the line driver stage (notes).
Note. Please refer to the following standard and style about the conditions outside a signal level or a
zone.
(a)The U.S.:FCC standard, part 15
(b)Europe:CENELEC standard, EN 50065-1
(c)Japan:ARIB
Rev.4.00 Aug 05, 2005 page 183 of 190
REJ03B0014-0400