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XC2734X Datasheet, PDF (59/106 Pages) Infineon Technologies AG – 16/32-Bit Single-Chip Microcontroller with 32-Bit Performance
XC2734X
XC2000 Family / Value Line
Electrical Parameters
Table 12 Operating Conditions (cont’d)
Parameter
Symbol
Values
Min. Typ. Max.
Overload current coupling KOVD −
factor for digital I/O pins CC
1.0 x 3.0 x
10-2
10-2
Unit Note /
Test Condition
-
IOV< 0 mA; not
subject to
production test
−
1.0 x 5.0 x -
IOV> 0 mA; not
10-4
10-3
subject to
production test
Absolute sum of overload Σ|IOV| −
−
50
mA not subject to
currents
SR
production test
Digital core supply voltage VDDI SR 1.4 −
Digital supply voltage for VDDP SR 3.0 −
IO pads and voltage
regulators
1.6 V
5.5 V
Digital ground voltage
VSS SR −
0
−
V
1) To ensure the stability of the voltage regulators the EVRs must be buffered with ceramic capacitors. Separate
buffer capacitors with the recomended values shall be connected as close as possible to each VDDI pin to keep
the resistance of the board tracks below 2 Ohm. Connect all VDDI1 pins together. The minimum capacitance
value is required for proper operation under all conditions (e.g. temperature). Higher values slightly increase
the startup time.
2) Use one Capacitor for each pin.
3) This is the reference load. For bigger capacitive loads, use the derating factors listed in the PAD properties
section.
4) The timing is valid for pin drivers operating in default current mode (selected after reset). Reducing the output
current may lead to increased delays or reduced driving capability (CL).
5) The operating frequency range may be reduced for specific device types. This is indicated in the device
designation (...FxxL). 80 MHz devices are marked ...F80L.
6) Overload conditions occur if the standard operating conditions are exceeded, i.e. the voltage on any pin
exceeds the specified range: VOV > VIHmax (IOV > 0) or VOV < VILmin ((IOV < 0). The absolute sum of input
overload currents on all pins may not exceed 50 mA. The supply voltages must remain within the specified
limits. Proper operation under overload conditions depends on the application. Overload conditions must not
occur on pin XTAL1 (powered by VDDI).
7) An overload current (IOV) through a pin injects a certain error current (IINJ) into the adjacent pins. This error
current adds to the respective pins leakage current (IOZ). The amount of error current depends on the overload
current and is defined by the overload coupling factor KOV. The polarity of the injected error current is inverse
compared to the polarity of the overload current that produces it.The total current through a pin is |ITOT| = |IOZ|
+ (|IOV| KOV). The additional error current may distort the input voltage on analog inputs.
Data Sheet
59
V1.3, 2010-04