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| S912XHZ512F1VAG Datasheet, PDF (904/978 Pages) Freescale Semiconductor, Inc – Covers MC9S12XHZ384, MC9S12XHZ256 | |||
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Appendix A Electrical Characteristics
A.2.2.2 Source Capacitance
When sampling an additional internal capacitor is switched to the input. This can cause a voltage drop due
to charge sharing with the external and the pin capacitance. For a maximum sampling error of the input
voltage ⤠1LSB, then the external ï¬lter capacitor, Cf ⥠1024 * (CINSâCINN).
A.2.2.3 Current Injection
There are two cases to consider.
1. A current is injected into the channel being converted. The channel being stressed has conversion
values of $3FF ($FF in 8-bit mode) for analog inputs greater than VRH and $000 for values less
than VRL unless the current is higher than speciï¬ed as disruptive condition.
2. Current is injected into pins in the neighborhood of the channel being converted. A portion of this
current is picked up by the channel (coupling ratio K), This additional current impacts the accuracy
of the conversion depending on the source resistance.
The additional input voltage error on the converted channel can be calculated as:
VERR = K * RS * IINJ
with IINJ being the sum of the currents injected into the two pins adjacent to the converted channel.
Table A-12. ATD Electrical Characteristics
Conditions are shown in Table A-4 unless otherwise noted
Num C
Rating
Symbol
Min
Typ
Max
Unit
1 C Max input source resistance
2 T Total input capacitance
Non sampling
Sampling
3 C Disruptive analog input current
4 C Coupling ratio positive current injection
5 C Coupling ratio negative current injection
RS
â
â
1
Kâ¦
pF
CINN
â
â
10
CINS
â
â
22
INA
â2.5
â
2.5
mA
Kp
â
â
10-4
A/A
Kn
â
â
10-2
A/A
MC9S12XHZ512 Data Sheet, Rev. 1.06
904
Freescale Semiconductor
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