MCF5282CVF80J Freescale Semiconductor, MCF5282CVF80J Datasheet - Page 604
MCF5282CVF80J
Manufacturer Part Number
MCF5282CVF80J
Description
IC MPU 512K FLASH 256MAPBGA
Manufacturer
Freescale Semiconductor
Series
MCF528xr
Datasheet
1.MCF5216CVM66J.pdf
(766 pages)
Specifications of MCF5282CVF80J
Core Processor
Coldfire V2
Core Size
32-Bit
Speed
80MHz
Connectivity
CAN, EBI/EMI, Ethernet, I²C, SPI, UART/USART
Peripherals
DMA, LVD, POR, PWM, WDT
Number Of I /o
150
Program Memory Size
512KB (512K x 8)
Program Memory Type
FLASH
Ram Size
64K x 8
Voltage - Supply (vcc/vdd)
2.7 V ~ 3.6 V
Data Converters
A/D 8x10b
Oscillator Type
External
Operating Temperature
-40°C ~ 85°C
Package / Case
256-MAPBGA
Processor Series
MCF528x
Core
ColdFire V2
3rd Party Development Tools
JLINK-CF-BDM26, EWCF
Development Tools By Supplier
NNDK-MOD5282-KIT
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Eeprom Size
-
Lead Free Status / Rohs Status
No
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MCF5282CVF80J
Manufacturer:
Freescale Semiconductor
Quantity:
10 000
Queued Analog-to-Digital Converter (QADC)
28.9.7
Analog inputs should have low AC impedance at the pins. Low AC impedance can be realized by placing
a capacitor with good high frequency characteristics at the input signal of the device. Ideally, that capacitor
should be as large as possible (within the practical range of capacitors that still have good high-frequency
characteristics). This capacitor has two effects:
Series resistance can be used with the capacitor on an input signal to implement a simple RC filter. The
maximum level of filtering at the input pins is application dependent and is based on the bandpass
characteristics required to accurately track the dynamic characteristics of an input. Simple RC filtering at
the pin may be limited by the source impedance of the transducer or circuit supplying the analog signal to
be measured. (See
capacitor at the pin may be very small.
Figure 28-53
the interaction between the external circuitry and the circuitry inside the QADC.
In
C
used to provide charge to C
The following paragraphs provide a simplified description of the interaction between the QADC and the
user's external circuitry. This circuitry is assumed to be a simple RC low-pass filter passing a signal from
a source to the QADC input signal. These paragraphs make the following assumptions:
28-66
SAMP
Figure
•
•
•
•
•
•
V
R
SRC
SRC
It helps attenuate any noise that may exist on the input.
It sources charge during the sample period when the analog signal source is a high-impedance
source.
The external capacitor is perfect (no leakage, no significant dielectric absorption characteristics,
etc.).
All parasitic capacitance associated with the input signal is included in the value of the external
capacitor.
Inductance is ignored.
The “on” resistance of the internal switches is 0 ohms and the “off” resistance is infinite.
is the capacitor array used to sample and hold the input voltage. V
= Source Voltage
= Source Impedance
28-53, R
Analog Input Pins
Source
is a simplified model of an input channel. Refer to this model in the following discussion of
V
SRC
R
SRC
F
, R
Section 28.9.7.2, “Error Resulting from
SRC
MCF5282 and MCF5216 ColdFire Microcontroller User’s Manual, Rev. 3
External Filter
, and C
Figure 28-53. Electrical Model of an A/D Input Signal
SAMP
R F
C
F
R F
C F
F
during sample phase.
comprise the external filter circuit. C
= Filter Impedance
= Filter Capacitor
Internal Circuit Model
S1
C
P
AMP
C P
C
V I
SAMP
= Internal Voltage Source During Sample and Hold
= Internal Parasitic Capacitance
Leakage.”) In some cases, the size of the
= Sample Capacitor
S2
P
is the internal parasitic capacitor.
I
C
is an internal voltage source
SAMP
Freescale Semiconductor
S3
V
I
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