XE8802MI035LF Semtech, XE8802MI035LF Datasheet - Page 136
XE8802MI035LF
Manufacturer Part Number
XE8802MI035LF
Description
IC DAS 16BIT FLASH 8K 100-LQFP
Manufacturer
Semtech
Datasheet
1.XE8802MI035LF.pdf
(193 pages)
Specifications of XE8802MI035LF
Applications
Sensing Machine
Core Processor
RISC
Program Memory Type
FLASH (22 kB)
Controller Series
XE8000
Ram Size
1K x 8
Interface
SPI, UART
Number Of I /o
36
Voltage - Supply
2.4 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
100-LQFP
For Use With
XE8000MP - PROG BOARD AND PROSTART2 CARD
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
XE8802MI035LF
Manufacturer:
TI
Quantity:
8 700
As an example, consider the system where: GD
5V. In this case, the noise contribution V
V
Considering a 0.2V (rms) maximum signal amplitude, the signal-to-noise ratio is 90dB.
Implementing a software filter can also reduce noise. By taking an average on a number of subsequent
measurements, the apparent noise is reduced by the square root of the number of measurement used to make the
average.
17.8.5
Gain error is defined as the amount of deviation between the ideal transfer function (theoretical equation Eq. 18)
and the measured transfer function (with the offset error removed).
The actual gain of the different stages can vary relating to the fabrication tolerances of the different elements.
Although these tolerances are specified to a maximum of ±3%, most of the time they will be around ±0.5%.
Moreover, the tolerances between the different stages are not correlated and the probability of getting the maximal
error in the same direction in all stages is very low. Finally, the software can calibrate these gain errors at the same
time as the gain errors of the sensor for instance.
Figure 17-19 shows gain error drift vs. temperature for different PGA gains. The curves are expressed in % of Full-
Scale Range (FSR) normalized to 25°C.
© Semtech 2006
N,IN
= 6.4µV (rms) at the input of the acquisition chain, or, equivalently, 0.85 LSB at the output of the ADC.
Gain Error and Offset Error
Figure 17-17. ADC noise (PGA1, 2 & 3 bypassed, OSR=512,N
Figure 17-18. (a) Simple noise model for PGAs and ADC
V
PGA1
GD1
N,IN
PGA1
V
GD1
80
60
40
20
0
N1
and (b) total input referred noise
N1
-5
XE8802 Sensing Machine Data Acquisition MCU
of PGA1 is dominant over that of PGA2. Using equation Eq. 21, we get:
-4
Output Code Deviation From Mean Value [LSB]
PGA2
GD2
2
-3
= 10 (GD
PGA2
GD2
-2
V
N2
17-24
-1
(a)
(b)
1
0
= 1; PGA3 bypassed), OSR = 512, N
PGA3
with ZoomingADC™ and LCD driver
GD3
PGA3
GD3
1
V
2
N3
3
ADC
ADC
4
f
f
S
S
5
ELCONV
=2)
ELCONV
www.semtech.com
= 2, V
REF
=
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