ADUC847BCPZ8-5 Analog Devices Inc, ADUC847BCPZ8-5 Datasheet - Page 26
ADUC847BCPZ8-5
Manufacturer Part Number
ADUC847BCPZ8-5
Description
IC,Data Acquisition CODEC,2-CHANNEL,LLCC,56PIN,PLASTIC
Manufacturer
Analog Devices Inc
Series
MicroConverter® ADuC8xxr
Datasheet
1.EVAL-ADUC845QSZ.pdf
(108 pages)
Specifications of ADUC847BCPZ8-5
Core Processor
8052
Core Size
8-Bit
Speed
12.58MHz
Connectivity
I²C, SPI, UART/USART
Peripherals
POR, PSM, PWM, Temp Sensor, WDT
Number Of I /o
34
Program Memory Size
8KB (8K x 8)
Program Memory Type
FLASH
Eeprom Size
4K x 8
Ram Size
2.25K x 8
Voltage - Supply (vcc/vdd)
4.75 V ~ 5.25 V
Data Converters
A/D 10x24b; D/A 1x12b, 2x16b
Oscillator Type
Internal
Operating Temperature
-40°C ~ 85°C
Package / Case
56-LFCSP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
EVAL-ADUC847QSZ - KIT DEV QUICK START FOR ADUC847
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
ADuC845/ADuC847/ADuC848
ADC CIRCUIT INFORMATION
The ADuC845 incorporates two 10-channel (8-channel on th
MQFP package) 24-bit Σ-∆ ADCs, while the ADuC847 and
ADuC848 each incorporate a single 10-channel (8-channel on
the MQFP package) 24-bit and 16-bit Σ-∆ ADC.
Each part also includes an on-chip programmable gain
amplifier and configurable buffering (neither is ava
auxiliary ADC on the ADuC845). The parts also incorporate
digital filtering intended for measuring wide dynamic range an
low frequency signals such as those in weigh-scale, strain-gage,
pressure transducer, or temperature measurement applicatio
The ADuC845/ADuC847/ADuC848 can be configured as four
or five (MQFP/LFCSP package) fully-differential input channel
or as eight or ten (MQFP/LFCSP package) pseudo differential
input channels referenced to AINCOM. The ADC on each part
(primary only on the ADuC845) can be fully buffered interna
and can be programmed for one of eight inp
±20 mV to ±2.56 V (V
means that the part can handle significant source impedanc
on the selected analog input and that RC filtering (for noise
rejection or RFI reduction) can be placed on the analog inputs
If the ADC is used with internal buffering disabled
(ADC0CON1.7 = 1, ADC0CON1.6 = 0), these unbuffered
inputs provide a dynamic load to the driving source. Therefo
resistor/capacitor combinations on the inputs can cause dc gain
errors, depending on the output impedance of the source that is
driving the ADC in
Table 8 and Table 9 show the allowable external resistance/
capacitance values for unbuffered mode such that no gain error
at the 16-bit and 20-bit levels, respectiv
used with internal buffering enabled, it is recommended that a
Table 8. Maximum Resistance for No 16-Bit Gain Error (Unbuffered Mode)
Gain
1
2
4
8–128
Table 9. Maximum Resistance for No 20-Bit Gain Error (Unbuffered Mode)
Gain
1
2
4
8–128
0 pF
111.3 kΩ
53.7 kΩ
25.4 kΩ
10.7 kΩ
0 pF
84.9 kΩ
42.0 kΩ
20.5 kΩ
8.8 kΩ
puts.
REF
× 1.024). Buffering the input channel
50 pF
21.1 kΩ
10.4 kΩ
5.0 kΩ
2.3 k Ω
50 pF
27.8 kΩ
13.5 kΩ
6.4 kΩ
2.9 kΩ
ely, is introduced. When
ut ranges from
ilable on the
100 pF
12.5 kΩ
6.1 kΩ
2.9 kΩ
1.3 k Ω
100 pF
16.7 kΩ
8.1 kΩ
3.9 kΩ
1.7 kΩ
es
Rev. B | Page 26 of 108
lly,
ns.
re,
e
.
d
s
External Capacitance
External Capacitance
capacitor (10 nF to 100 nF) be placed on the input to the ADC
(usually as part of an antialiasing filter) to aid in noise
performance.
The input channels are intended to convert signals directly from
sensors without the need for external signal conditioning. With
internal buffering disabled (relevant bits set/cleared in
ADC0CON1), external buffering might be required.
When the internal buffer is enabled, it might be necessa
offset the negative input channel by +100 mV and to offset the
positive channel by −100 mV
This accounts for the restricted common-mode input range in
the buffer. Some circuits, for example, bridge circuits, are
inheren
output voltage is balanced around
large to encroach on the supply rails. Internal buffering is no
available
ADC (ADuC845 only) is fixed at a gain range of ±2
The ADCs use a Σ-Δ conversion technique to realize up t
24 bits on the ADuC845 and the ADuC847, and up to 16 bits on
the ADuC848 of no mis
rate, chop enabled). The Σ-Δ modulator converts the sampled
input signal into a digital pulse train whose duty cycle cont
the digital information. A sinc
(see Table 28) is then used to decimate the modulator output
data stream to give a valid da
m
chop enabled and chop disabled. The CHOP
A
DCMODE register enables or disables the chopping scheme.
able output rates. The signal chain has two modes of operation,
500 pF
3.2 kΩ
1.6 kΩ
790 Ω
370 Ω
500 pF
4.5 kΩ
2.2 kΩ
1.0 kΩ
480 Ω
tly suitable to use without having to offset where the
on the auxiliary ADC (ADuC845 only). The auxiliary
1000 pF
1.77 kΩ
880 Ω
430 Ω
195 Ω
1000 pF
2.58 kΩ
1.26 kΩ
600 Ω
270 Ω
sin
g codes performance (20 Hz update
ta conversion result at program-
if the reference range is AV
3
programmable low-pass filter
V
REF
/2 and is not sufficiently
bit in the
5000 pF
440 Ω
220 Ω
110 Ω
50 Ω
5000 pF
360 Ω
75 Ω
700 Ω
170 Ω
.50 V.
ry to
DD
o
ains
.
t
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