I/O Cell Structure And Functions; Schmitt Input; Over Voltage Tolerant Fail-Safe Type I/O Cell; Pull-Up/Pull-Down - Epson S1C17F13 Technical Manual

6 I/O PORTS (PPORT)
6.2

I/O Cell Structure and Functions

Figure 6.2.1 shows the I/O cell Configuration.
Pull-up/down Pull-up/down
Control signal
Input signal
Input control signal
Output signal
Output control signal
Analog signal
Analog signal
Analog control signal

Over voltage tolerant fail-safe type I/O cell

Refer to "Pin Descriptions" in the "Overview" chapter for the cell type, either the over voltage tolerant fail-safe
type I/O cell or the standard I/O cell, included in each port.
6.2.1

Schmitt Input

The input functions are all configured with the Schmitt interface level. When a port is set to input disable status
(PxIOEN.PxIENy bit = 0), unnecessary current is not consumed if the Pxy pin is placed into floating status.
6.2.2 Over Voltage Tolerant Fail-Safe Type I/O Cell
The over voltage tolerant fail-safe type I/O cell allows interfacing without passing unnecessary current even if a
voltage exceeding V is applied to the port. Also unnecessary current is consumed when the port is externally bi-
DD
ased without supplying V
DD
operating power supply voltage to the port.
6.2.3

Pull-Up/Pull-Down

The GPIO port has a pull-up/pull-down function. Either pull-up or pull-down may be selected for each port indi-
vidually. This function may also be disabled for the port that does not require pulling up/down.
When the port level is switched from low to high through the pull-up resistor included in the I/O cell or from high
to low through the pull-down resistor, a delay will occur in the waveform rising/falling edge depending on the time
constant by the pull-up/pull-down resistance and the pin load capacitance. The rising/falling time is commonly de-
termined by the following equation:
× (C
t = -R + C
PR INU IN
× (C
t = -R + C
PF IND IN
Where
Rising time (port level = low → high) [second]
t :
PR
Falling time (port level = high → low) [second]
t :
PF
V : High level Schmitt input threshold voltage [V]
T+
V : Low level Schmitt input threshold voltage [V]
T-
R /R : Pull-up/pull-down resistance [W]
INU IND
C : Pin capacitance [F]
IN
C : Parasitic capacitance on the board [F]
BOARD
6-2
V
DD
control
R /
V INU
SS
R
IND
V
DD
∗ No diode is
connected at
V
the V side.
DD
DD
V
SS
control
Figure 6. 2.1 I/O Cell Configuration
. However, be sure to avoid applying a voltage exceeding the recommended maximum
) × ln(1 - V
/V )
BOARD T+ DD
) × ln(1 - V
/V )
BOARD T- DD
Seiko epson Corporation
Pull-up/down
Control signal
Input signal
Input control signal
Pxy Output signal
Output control signal
Analog signal
Analog control signal
Standard I/O cell
(Eq. 6.1)
V
DD
Pull-up/down
control
R /
V INU
SS
R
IND
V
DD
V
DD
V
DD
Analog signal
V
SS
control
S1C17F13 TeChniCal Manual
(Rev. 1.0)
Pxy