4.8 I/O PIN AC/DC Electrical Specifications

Table 4-11. I/O PIN AC/DC Electrical Specifications
AC - DC CharacteristicsStandard Operating Conditions: VDD = 1.9V to 3.6V (unless otherwise stated) Operating Temperature: -40°C ≤ TA ≤ +85°C for Industrial Temp
Param. No.SymbolCharacteristicsMin.Typ.Max.UnitsConditions
DI_1VILInput low voltage I/O pins (Drive strength, 8x)VSS0.2*VDDV
Input low voltage I/O pins (Drive strength, 4x)0.2*VDD
DI_3VIHInput high voltage, I/O pins (Drive strength, 8x)VDDV
Input high voltage, I/O pins (Drive strength, 4x)VDDV
DI_5VOL4x Drive strength I/O pins (Output low)0.4V VDDIO = 3.3V at IOL = 15 mA
8x Drive strength I/O pins (Output low)0.4
12x Drive strength I/O pins (Output low)0.4
DI_9VOH4x Drive strength I/O pins (Output high)2.4VVDDIO = 3.3V at IOH = 15 mA
8x Drive strength I/O pins (Output high)2.4
12x Drive strength I/O pins (Output high)2.4
DI_13IILInput pin leakage current -1 +1μA

GND ≤ VPIN ≤ VDDIO(max)

(VPIN = Voltage present on pin)

DI_15RPDWNInternal pull-down resistance13kΩVDDIO(min) to VDDIO(max)
DI_17RPUPInternal pull-up resistance13kΩ
DI_19IICLInput low injection current 0-5mAThis parameter applies to all I/O pins except VDD, VSS, VDD_A, GND, MCLR(1,3,4)
DI_21IICHInput high injection current0 +5mAThis parameter applies to all pins, except VDD, VSS, VDD_A, GND, MCLR
DI_25TRISEI/O pin rise time (Drive strength, 4x)9.5nsVDDIO = 3.3V, CLOAD = 50 pf
I/O pin rise time (Drive strength, 4x)6 ns VDDIO = 3.3V, CLOAD = 20 pf
I/O pin rise time (Drive strength, 8x)8nsVDDIO = 3.3V, CLOAD = 50 pf
I/O pin rise time (Drive strength, 8x)6ns VDDIO = 3.3V, CLOAD = 20 pf
I/O pin rise time (Drive strength, 12x)3.5nsVDDIO = 3.3V, CLOAD = 50 pf
I/O pin rise time (Drive strength, 12x)2ns VDDIO = 3.3V, CLOAD = 20 pf
DI_27TFALLI/O pin fall time (Drive strength, 4x)9.5nsVDDIO = 3.3V, CLOAD = 50 pf
I/O pin fall time (Drive strength, 4x)7.5 ns VDDIO = 3.3V, CLOAD = 20 pf
I/O pin fall time (Drive strength, 8x)8nsVDDIO = 3.3V, CLOAD = 50 pf
I/O pin fall time (Drive strength, 8x)7.5 ns VDDIO = 3.3V, CLOAD = 20 pf
I/O pin fall time (Drive strength, 12x)4nsVDDIO = 3.3V, CLOAD = 50 pf
I/O pin fall time (Drive strength, 12x)3.1 ns VDDIO = 3.3V, CLOAD = 20 pf
Note:
  1. VIL source < (GND – 0.3). Characterized but not tested in manufacturing.
  2. VIH source > (VDDIO + 0.3). Characterized but not tested in manufacturing.
  3. If the sum of all injection currents are > | ∑IICT |, it can affect the ADC results by approximately 4 to 6 counts (in other words, VIH Source > (VDDIO + 0.3) or VIL source < (GND – 0.3)).
  4. Any number and the combination of I/O pins not excluded under IICL or IICH conditions are permitted provided the absolute instantaneous sum of the input injection currents from all pins do not exceed the specified ∑IICT limit. To limit the injection current, the user must insert a resistor in series RSERIES (RS), between the input source voltage and device pin. The resistor value is calculated according to:
    • For negative input voltages less than (GND – 0.3): RS ≥ absolute value of | ((VIL source – (GND – 0.3))/IICL) |
    • For positive input voltages greater than (VDDIO + 0.3): RS ≥ ((VIH source – (VDDIO +0.3))/IICH)
    • For VPIN voltages greater than VDDIO + 0.3 and less than GND – 0.3: RS = the larger of the values calculated above