PCF8591_03 PHILIPS [NXP Semiconductors], PCF8591_03 Datasheet - Page 9
PCF8591_03
Manufacturer Part Number
PCF8591_03
Description
8-bit A/D and D/A converter
Manufacturer
PHILIPS [NXP Semiconductors]
Datasheet
1.PCF8591_03.pdf
(28 pages)
Philips Semiconductors
7.4
The A/D converter makes use of the successive
approximation conversion technique. The on-chip D/A
converter and a high-gain comparator are used
temporarily during an A/D conversion cycle.
An A/D conversion cycle is always started after sending a
valid read mode address to a PCF8591 device. The A/D
conversion cycle is triggered at the trailing edge of the
acknowledge clock pulse and is executed while
transmitting the result of the previous conversion (see
Fig.9).
Once a conversion cycle is triggered an input voltage
sample of the selected channel is stored on the chip and is
2003 Jan 27
handbook, full pagewidth
8-bit A/D and D/A converter
PROTOCOL
A/D conversion
SDA
SCL
S
1
ADDRESS
2
1
8
A
9
conversion of byte 1
Fig.9 A/D conversion sequence.
sampling byte 1
1
converted byte
DATA BYTE 0
transmission
of previously
9
converted to the corresponding 8-bit binary code. Samples
picked up from differential inputs are converted to an 8-bit
twos complement code (see Figs 10 and 11).
The conversion result is stored in the ADC data register
and awaits transmission. If the auto-increment flag is set
the next channel is selected.
The first byte transmitted in a read cycle contains the
conversion result code of the previous read cycle. After a
Power-on reset condition the first byte read is a
hexadecimal 80. The protocol of an I
shown in Chapter 8, Figs 16 and 17.
The maximum A/D conversion rate is given by the actual
speed of the I
A
9
conversion of byte 2
1
sampling byte 2
DATA BYTE 1
transmission
of byte 1
2
C-bus.
A
9
1
conversion of byte 3
sampling byte 3
DATA BYTE 2
transmission
of byte 2
2
Product specification
C-bus read cycle is
PCF8591
A
MBL829
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