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MMC2107 Datasheet, PDF (495/618 Pages) –
Freescale Semiconductor, Inc.
Queued Analog-to-Digital Converter (QADC)
Pin Connection Considerations
The current into the pin (IINJN or IINJP) under negative or positive stress is
determined by these equations:
IINJN
=
–----(--V----S----t--r--e---s---s-----–----V-----B----E----)
RStress
IINJP
=
-V----S----t-r--e----s---s----–-----V----E----B------–----V-----D----D-----A--
RStress
where:
VStress = Adjustable voltage source
VEB
= Parasitic PNP emitter/base voltage
VBE
= Parasitic NPN base/emitter voltage
RStress = Source impedance (10 K resistor in Figure 18-51 and
Figure 18-52 on stressed channel)
RSelected = Source impedance on channel selected for conversion
The current into (IIn) the neighboring pin is determined by the KN (current
coupling ratio) of the parasitic bipolar transistor (KN ‹‹ 1). The IIn can be
expressed by this equation:
IIn = – KN * IINJ
where:
IINJ is either IINJN or IINJP.
A method for minimizing the impact of stress conditions on the QADC is
to strategically allocate QADC inputs so that the lower accuracy inputs
are adjacent to the inputs most likely to see stress conditions.
Also, suitable source impedances should be selected to meet design
goals and minimize the effect of stress conditions.
18.11.6 Analog Input Considerations
The source impedance of the analog signal to be measured and any
intermediate filtering should be considered whether external
multiplexing is used or not. Figure 18-53 shows the connection of eight
typical analog signal sources to one QADC analog input pin through a
separate multiplexer chip. Also, an example of an analog signal source
connected directly to a QADC analog input channel is displayed.
MMC2107 – Rev. 2.0
MOTOROLA
Queued Analog-to-Digital Converter (QADC)
For More Information On This Product,
Go to: www.freescale.com
Technical Data
495