ht82m99ee Holtek Semiconductor Inc., ht82m99ee Datasheet - Page 16

ht82m99ee

Manufacturer Part Number

ht82m99ee

Description

Ht82m99ee/ht82m99ae -- Usb Mouse Encoder 8-bit Mcu

Manufacturer

Holtek Semiconductor Inc.

Datasheet

1.HT82M99EE.pdf (47 pages)

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tomatically after the measurement cycle is completed.

But in the other two modes the TON can only be reset by

instructions. The overflow of the timer/event counter is

one of the wake-up sources. No matter what the opera-

tion mode is, writing a 0 to ET can disable the corre-

sponding interrupt services.

In the case of timer/event counter OFF condition, writing

data to the timer/event counter preload register will also

reload that data to the timer/event counter. But if the

timer/event counter is turned on, data written to it will

only be kept in the timer/event counter preload register.

The timer/event counter will still operate until overflow

occurs (a timer/event counter reloading will occur at the

same time). When the timer/event counter (reading

TMR) is read, the clock will be blocked to avoid errors.

As clock blocking may result in a counting error, this

must be taken into consideration by the programmer.

Input/Output Ports

There are 12 bidirectional input/output lines in the

microcontroller, labeled from PA to PB, which are

mapped to the data memory of [12H] and [14H] respec-

tively. All of these I/O ports can be used for input and

output operations. For input operation, these ports are

non-latching, that is, the inputs must be ready at the T2

rising edge of instruction MOV A,[m] (m=12H or 14H).

For output operation, all the data is latched and remains

unchanged until the output latch is rewritten.

Each I/O line has its own control register (PAC and PBC)

to control the input/output configuration. With this con-

trol register, CMOS/NMOS/PMOS output or Schmitt

trigger input with or without pull-high/low resistor struc-

tures can be reconfigured dynamically under software

Rev. 1.30

Input/Output Ports

control. To function as an input, the corresponding latch

of the control register must write a 1 . The input source

also depends on the control register. If the control regis-

ter bit is 1 , the input will read the pad state. If the con-

trol register bit is 0 , the contents of the latches will

move to the internal bus. The latter is possible in the

CMOS/NMOS/PMOS configurations can be selected

(NMOS and PMOS are available for PA only). These

control registers are mapped to locations 13H and 15H.

After a chip reset, these input/output lines remain at high

levels or in a floating state (depending on the

pull-high/low options). Each bit of these input/output

latches can be set or cleared by SET [m].i and CLR

[m].i (m=12H or 14H) instructions.

Some instructions first input data and then follow the

output operations. For example, SET [m].i , CLR

[m].i , CPL [m] , CPLA [m] read the entire port states

into the CPU, execute the defined operations

(bit-operation), and then write the results back to the

latches or the accumulator.

Each line of port A has the capability of waking-up the

device.

There are pull-high/low (PA only) options available for

I/O lines. Once the pull-high/low option of an I/O line is

selected, the I/O line have pull-high/low resistor. Other-

wise, the pull-high/low resistor is absent. It should be

noted that a non-pull-high/low I/O line operating in input

mode will cause a floating state.

It is recommended that unused or not bonded out I/O

lines should be set as output pins by software instruction

to avoid consuming power under input floating state.

read-modify-write instruction. For output function,

HT82M99EE/HT82M99AE

August 13, 2007

ht82m99ee Holtek Semiconductor Inc., ht82m99ee Datasheet - Page 16

ht82m99ee

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