#Comp? 80C296?? 243#
#EPA? 80C196?? 240#
#EPA? 80C296?? 240#
#EPA? 80C196?? 241#
#EPA? 80C296?? 241#
#EPA? 80C196?? 242#
#EPA? 80C296?? 242#
#EPA? 80C196?? 243#
#EPA? 80C296?? 243#
Select the type of event you want this EPA module to generate.

When the value of the Compare timer matches the value written to the EPA
event-time register, the selected event will occur.
#EPA? 80C196?? 210#
#EPA? 80C296?? 210#
#EPA? 80C196?? 211#
#EPA? 80C296?? 211#
Select the EPA time reference.

The EPA module triggers events at specified times using either Timer 1 or
Timer 2 as the time reference.
#EPA? 80C196?? 250#
#EPA? 80C296?? 250#
#Comp? 80C196?? 250#
#Comp? 80C296?? 250#
#EPA? 80C196?? 251#
#EPA? 80C296?? 251#
#Comp? 80C196?? 251#
#Comp? 80C296?? 251#
Select the EPA compare timer.

When the value of the EPA event-time register matches the Compare timer, the
selected events will occur.
#EPA? 80C196?? 230#
#EPA? 80C296?? 230#
Check this box to reset the timer when the selected capture occurs.
#EPA? 80C196?? 302#
#EPA? 80C296?? 302#
Check this box to enable this EPA module's overrun interrupt.

An overrun error is generated when an input capture occurs while the EPA
event-time register and its buffer are both full.
#EPA? 80C196?? 220#
#EPA? 80C296?? 220#
Determine whether to ignore or overwrite new data when an overrun occurs.

An overrun refers to the condition in which an input capture occurs while the
EPA event-time register and its buffer are both full.

If "Ignore on overrun" is selected, the EPA module will save the reference
capture time only if the EPA event-time register is empty.
#EPA? 80C196?? 221#
#EPA? 80C296?? 221#
Determine whether to ignore or overwrite new data when an overrun occurs.

An overrun refers to the condition in which an input capture occurs while the
EPA event-time register and its buffer are both full.

If "Overwrite on overrun" is selected, the EPA module will unconditionally save
the reference capture time.
#EPA? 80C196?? 260#
#EPA? 80C296?? 260#
#Comp? 80C196?? 260#
#Comp? 80C296?? 260#
Check this box to enable the timer reset function.

If the timer reset function is enabled, the selected timer will be reset when 
the value of the EPA event-time register matches the Compare timer.
#EPA? 80C196?? 270#
#EPA? 80C296?? 270#
#Comp? 80C196?? 270#
#Comp? 80C296?? 270#
#EPA? 80C196?? 271#
#EPA? 80C296?? 271#
#Comp? 80C196?? 271#
#Comp? 80C296?? 271#
Select the timer to be reset when the value of the EPA event-time register
matches the Compare timer.
#EPA? 80C196?? 280#
#EPA? 80C296?? 280#
#Comp? 80C196?? 280#
#Comp? 80C296?? 280#
Use this field along with the "Event Time" field to program the EPA
event-time register.

When the "Relative" event time relation is selected, the sum of the value that
you enter in the "Event Time" field and the value of the Compare timer will be
written to the EPA event-time register.

The EPA will compare the value of the Compare timer to the EPA event-time
register. When the values match, the selected events will occur.
#EPA? 80C196?? 281#
#EPA? 80C296?? 281#
#Comp? 80C196?? 281#
#Comp? 80C296?? 281#
Use this field along with the "Event Time" field to program the EPA
event-time register.

When the "Absolute" event time relation is selected, the value that you
enter in the "Event Time" field will be written to the EPA event-time
register.

The EPA will compare the value of the Compare timer to the EPA event-time
register. When the values match, the selected events will occur.
#EPA? 80C196?? 282#
#EPA? 80C296?? 282#
#Comp? 80C196?? 282#
#Comp? 80C296?? 282#
Use this field along with the "Event Time Relation" field to program the EPA
event-time register.

When the "Absolute" event time relation is selected, enter the value that you
want written to the EPA event-time register.

When the "Relative" event time relation is selected, enter the offset value
from the Compare timer that you want written to the EPA event-time register.

The EPA will compare the value of the Compare timer to the EPA event-time
register. When the values match, the selected events will occur.
#EPA? 80C196?? 290#
#EPA? 80C296?? 290#
#Comp? 80C196?? 290#
#Comp? 80C296?? 290#
Checking this box programs the EPA unit to start an analog-to-digital
conversion.

The EPA unit will start an analog-to-digital conversion when the Compare
timer matches the value written to the EPA event-time register.  Before
programming the EPA unit to trigger an A/D conversion, you must set up the
conversion parameters in the A/D control registers.
#EPA? 80C196?? 292#
#EPA? 80C296?? 292#
#Comp? 80C196?? 292#
#Comp? 80C296?? 292#
Checking this box programs the EPA unit to re-enable the compare function.

The re-enable function allows an event to continue to execute each time the
event-time register matches the Compare timer, rather than only upon the first
timer match.
#EPA? 80C196?? 301#
#EPA? 80C296?? 301#
#Comp? 80C196?? 301#
#Comp? 80C296?? 301#
Select this option to enable the EPA event interrupt.

An EPA event interrupt will be generated when this EPA module generates or
captures an event.
#EPA1 80C196?? 291#
#EPA1 80C296?? 291#
Checking the box enables the remap feature.

When the remap feature is enabled, EPA modules 0 and 1 share the same EPA
output pin (EPA1).
#EPA3 80C196?? 291#
#EPA3 80C296?? 291#
Checking the box enables the remap feature.

When the remap feature is enabled, EPA modules 2 and 3 share the same EPA
output pin (EPA3).
#IO_?? 80C196?? 101#
#IO_?? 80C296?? 101#
#IO_?? 80C196?? 111#
#IO_?? 80C296?? 111#
#IO_?? 80C196?? 121#
#IO_?? 80C296?? 121#
#IO_?? 80C196?? 131#
#IO_?? 80C296?? 131#
#IO_?? 80C196?? 141#
#IO_?? 80C296?? 141#
#IO_?? 80C196?? 151#
#IO_?? 80C296?? 151#
#IO_?? 80C196?? 161#
#IO_?? 80C296?? 161#
#IO_?? 80C196?? 171#
#IO_?? 80C296?? 171#
#IO_?? 80C196?? 102#
#IO_?? 80C296?? 102#
#IO_?? 80C196?? 112#
#IO_?? 80C296?? 112#
#IO_?? 80C196?? 122#
#IO_?? 80C296?? 122#
#IO_?? 80C196?? 132#
#IO_?? 80C296?? 132#
#IO_?? 80C196?? 142#
#IO_?? 80C296?? 142#
#IO_?? 80C196?? 152#
#IO_?? 80C296?? 152#
#IO_?? 80C196?? 162#
#IO_?? 80C296?? 162#
#IO_?? 80C196?? 172#
#IO_?? 80C296?? 172#
#IO_?? 80C196?? 103#
#IO_?? 80C296?? 103#
#IO_?? 80C196?? 113#
#IO_?? 80C296?? 113#
#IO_?? 80C196?? 123#
#IO_?? 80C296?? 123#
#IO_?? 80C196?? 133#
#IO_?? 80C296?? 133#
#IO_?? 80C196?? 143#
#IO_?? 80C296?? 143#
#IO_?? 80C196?? 153#
#IO_?? 80C296?? 153#
#IO_?? 80C196?? 163#
#IO_?? 80C296?? 163#
#IO_?? 80C196?? 173#
#IO_?? 80C296?? 173#
#IO_?? 80C196?? 105#
#IO_?? 80C296?? 105#
#IO_?? 80C196?? 115#
#IO_?? 80C296?? 115#
#IO_?? 80C196?? 125#
#IO_?? 80C296?? 125#
#IO_?? 80C196?? 135#
#IO_?? 80C296?? 135#
#IO_?? 80C196?? 145#
#IO_?? 80C296?? 145#
#IO_?? 80C196?? 155#
#IO_?? 80C296?? 155#
#IO_?? 80C196?? 165#
#IO_?? 80C296?? 165#
#IO_?? 80C196?? 175#
#IO_?? 80C296?? 175#
Use this field to configure the port pin.

Select "PP" to configure the port pin as a push-pull output.

Select "OD" to configure the port pin as either a high-impedance input or an
open-drain output. (Open-drain outputs require external pull-ups.)

Select the "Special Function" field to configure the port pin as a
special-function signal. In this mode, the associated peripheral controls the
pin.

Set the "Output Value" field to the desired output.
#IO_3 80C196?? 101#
#IO_3 80C296?? 101#
#IO_3 80C196?? 111#
#IO_3 80C296?? 111#
#IO_3 80C196?? 121#
#IO_3 80C296?? 121#
#IO_3 80C196?? 131#
#IO_3 80C296?? 131#
#IO_3 80C196?? 141#
#IO_3 80C296?? 141#
#IO_3 80C196?? 151#
#IO_3 80C296?? 151#
#IO_3 80C196?? 161#
#IO_3 80C296?? 161#
#IO_3 80C196?? 171#
#IO_3 80C296?? 171#
#IO_3 80C196?? 102#
#IO_3 80C296?? 102#
#IO_3 80C196?? 112#
#IO_3 80C296?? 112#
#IO_3 80C196?? 122#
#IO_3 80C296?? 122#
#IO_3 80C196?? 132#
#IO_3 80C296?? 132#
#IO_3 80C196?? 142#
#IO_3 80C296?? 142#
#IO_3 80C196?? 152#
#IO_3 80C296?? 152#
#IO_3 80C196?? 162#
#IO_3 80C296?? 162#
#IO_3 80C196?? 172#
#IO_3 80C296?? 172#
#IO_3 80C196?? 103#
#IO_3 80C296?? 103#
#IO_3 80C196?? 113#
#IO_3 80C296?? 113#
#IO_3 80C196?? 123#
#IO_3 80C296?? 123#
#IO_3 80C196?? 133#
#IO_3 80C296?? 133#
#IO_3 80C196?? 143#
#IO_3 80C296?? 143#
#IO_3 80C196?? 153#
#IO_3 80C296?? 153#
#IO_3 80C196?? 163#
#IO_3 80C296?? 163#
#IO_3 80C196?? 173#
#IO_3 80C296?? 173#
#IO_3 80C196?? 105#
#IO_3 80C296?? 105#
#IO_3 80C196?? 115#
#IO_3 80C296?? 115#
#IO_3 80C196?? 125#
#IO_3 80C296?? 125#
#IO_3 80C196?? 135#
#IO_3 80C296?? 135#
#IO_3 80C196?? 145#
#IO_3 80C296?? 145#
#IO_3 80C196?? 155#
#IO_3 80C296?? 155#
#IO_3 80C196?? 165#
#IO_3 80C296?? 165#
#IO_3 80C196?? 175#
#IO_3 80C296?? 175#
Use this field to configure all port 3 pins.

Select "PP" to configure all port 3 pins as push-pull outputs.

Select "OD" to configure all port 3 pins as either a high-impedance inputs or
open-drain outputs. (Open-drain outputs require external pull-ups.)

Select the "Special Function" field to configure all port 3 pins for use with
the Slave Port.

Set the "Output Value" field to the desired output for each pin.
#IO_4 80C196?? 101#
#IO_4 80C296?? 101#
#IO_4 80C196?? 111#
#IO_4 80C296?? 111#
#IO_4 80C196?? 121#
#IO_4 80C296?? 121#
#IO_4 80C196?? 131#
#IO_4 80C296?? 131#
#IO_4 80C196?? 141#
#IO_4 80C296?? 141#
#IO_4 80C196?? 151#
#IO_4 80C296?? 151#
#IO_4 80C196?? 161#
#IO_4 80C296?? 161#
#IO_4 80C196?? 171#
#IO_4 80C296?? 171#
#IO_4 80C196?? 102#
#IO_4 80C296?? 102#
#IO_4 80C196?? 112#
#IO_4 80C296?? 112#
#IO_4 80C196?? 122#
#IO_4 80C296?? 122#
#IO_4 80C196?? 132#
#IO_4 80C296?? 132#
#IO_4 80C196?? 142#
#IO_4 80C296?? 142#
#IO_4 80C196?? 152#
#IO_4 80C296?? 152#
#IO_4 80C196?? 162#
#IO_4 80C296?? 162#
#IO_4 80C196?? 172#
#IO_4 80C296?? 172#
#IO_4 80C196?? 103#
#IO_4 80C296?? 103#
#IO_4 80C196?? 113#
#IO_4 80C296?? 113#
#IO_4 80C196?? 123#
#IO_4 80C296?? 123#
#IO_4 80C196?? 133#
#IO_4 80C296?? 133#
#IO_4 80C196?? 143#
#IO_4 80C296?? 143#
#IO_4 80C196?? 153#
#IO_4 80C296?? 153#
#IO_4 80C196?? 163#
#IO_4 80C296?? 163#
#IO_4 80C196?? 173#
#IO_4 80C296?? 173#
#IO_4 80C196?? 105#
#IO_4 80C296?? 105#
#IO_4 80C196?? 115#
#IO_4 80C296?? 115#
#IO_4 80C196?? 125#
#IO_4 80C296?? 125#
#IO_4 80C196?? 135#
#IO_4 80C296?? 135#
#IO_4 80C196?? 145#
#IO_4 80C296?? 145#
#IO_4 80C196?? 155#
#IO_4 80C296?? 155#
#IO_4 80C196?? 165#
#IO_4 80C296?? 165#
#IO_4 80C196?? 175#
#IO_4 80C296?? 175#
Use this field to configure all port 4 pins.

Select "PP" to configure all port 4 pins as push-pull output.

Select "OD" to configure all port 4 pins as either a high-impedance inputs or
open-drain outputs. (Open-drain outputs require external pull-ups.)

Set the "Output Value" field to the desired output for each pin.
#SlvPrt 80C196?? 101#
#SlvPrt 80C296?? 101#
#SlvPrt 80C196?? 102#
#SlvPrt 80C296?? 102#
This field determines the source of SLP_ADDR (standard mode only).

The value of SLP_ADDR (an internal control signal) determines whether the
master accesses the slave's data registers (SLP_ADDR low) or the
command and status registers (SLP_ADDR high).

With a demultiplexed bus, the slave's P5.0 pin will function as SLP_ADDR
when the master's address output (A1) is connected to the slave's P5.0 pin.

With a multiplexed bus, the slave's P3.1 pin will function as SLP_ADDR
when the master's address output (AD1) is connected to the slave's P3.1 pin.
#SlvPrt 80C196?? 110#
#SlvPrt 80C296?? 110#
Determine whether the Input Buffer Empty flag will cause the SLPINT signal to
be asserted.

The SLPINT signal is an output from the slave that can serve as an
interrupt to the master.
#SlvPrt 80C196?? 111#
#SlvPrt 80C296?? 111#
Determine whether the Output Buffer Full flag will cause the SLPINT signal to
be asserted.

The SLPINT signal is an output from the slave that can serve as an
interrupt to the master.
#SlvPrt 80C196?? 120#
#SlvPrt 80C296?? 120#
Check this box to enable the Slave Port Command Buffer Full interrupt.
#SlvPrt 80C196?? 121#
#SlvPrt 80C296?? 121#
Check this box to enable the Slave Port Input Buffer Full interrupt.
#SlvPrt 80C196?? 122#
#SlvPrt 80C296?? 122#