cop87l88gw National Semiconductor Corporation, cop87l88gw Datasheet - Page 16

cop87l88gw

Manufacturer Part Number

cop87l88gw

Description

One-time Programmable Otp Microcontroller

Manufacturer

National Semiconductor Corporation

Datasheet

1.COP87L88GW.pdf (42 pages)

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Pulse Train Generators

The four 8-bit registers shown in each individual counter in

the block diagram constitute a 16-bit prescaler and a 16-bit

count register These registers are all read writable and

may be accessed through the data memory address data

bus The registers are designated as

CxPRL Low-byte of the Prescaler

CxPRH High-byte of the Prescaler

CxCTL Low-byte of the Count Register

CxCTH High-byte of the Count Register

CONTROL REGISTER BITS

The control bits for Counter 1 and Counter 2 are contained

in the CCR1 register The CCR1 Register bits are

C1RUN COUNTER1 start stop control bit (1

C1IEN

C1IPND COUNTER1 interrupt pending bit (1

C1TM

C2RUN COUNTER2 start stop control bit (1

C2IEN

C2IPND COUNTER2 interrupt pending bit (1

C2TM

All interrupt pending bits must be reset by software

The control bits for Counter 3 and Counter 4 are contained

in the CCR2 register The CCR2 Register bits are

C3RUN

C3IEN

C3IPND COUNTER3 interrupt pending Bit (1

C3TM

C4RUN

C2TM

www national com

Bit 7

stop)

COUNTER1 interrupt enable control bit (1

able IRQ)

underflowed)

COUNTER1 test mode control bit (1

path in test mode This bit is reserved during nor-

mal operation and must never be set to one )

stop)

COUNTER2 interrupt enable control bit (1

able IRQ)

underflowed)

COUNTER2 test mode control bit (1

path This bit is reserved during normal operation

and must never be set to one )

IPND

COUNTER3 start stop control bit (1

stop)

COUNTER3 interrupt enable control bit (1

able IRQ)

underflowed)

COUNTER3 test mode control bit (1

path This bit is reserved during normal operation

and must never be set to one )

COUNTER4 start stop control bit (1

stop)

IEN

RUN

C1TM

(Continued)

IPND

IEN

special test

start 0

counter 3

start 0

counter 1

counter 2

RUN

Bit 0

en-

13 ) This signal causes the port pin to toggle In addition the

C4IEN

C4IPND COUNTER4 interrupt pending bit (1

C4TM

All interrupt pending bits must be reset by software

FUNCTIONAL DESCRIPTION

The pulse train generator may be used to produce a series

of output pulses of a given width The high low time of a

pulse is determined by the contents of the prescaler The

number of pulses in a series is determined by the contents

of the count register

The prescaler is loaded with a value corresponding to the

desired width of the output pulse (t

time of the output signal are each equal to t

output signal produced has a 50% duty cycle and a period

equal to 2

determined using the following equation

Since PRH and PRL are both 8-bit registers this equation

allows a maximum t

and PRL when the counter start stop bit is set

The count register is loaded with a value corresponding to

the desired number of output pulses The appropriate count

value is calculated with the following equation

The port pin associated with the counter OUT signal is con-

figured in software as an output and preset to the desired

start logic level lf interrupts are to be used the counter

interrupt pending bit is cleared and the interrupt enable bit is

set The GIE bit must also be set to enable interrupts The

interrupt signals from the four counters are gated to a single

interrupt vector located at addresses 0xF0– 0xF1

The counter is started by writing a ‘‘1’’ to the counter start

stop bit This resets the divide-by-2 counter which produces

the clock signal for the counter register from the prescaler

underflow (See Figure 12 ) It also reloads the internal pre-

scaler and starts the prescaler counting down on the next

rising edge of t

of t

edge of t

the prescaler underflows UFL1 is generated (see Figure

internal prescaler is reloaded with the value from the PRH

and PRL registers Each additional underflow of the prescal-

er causes the port pin to toggle and reloads the internal

prescaler

Every second underflow of the prescaler generates the sig-

nal UFL2 (UFL2 occurs at half the frequency of UFL1 or

once per output pulse ) This signal UFL2 decrements the

count register Therefore the count registers are decre-

mented once per output pulse

C4TM

Bit 7

The internal prescaler is automatically loaded from PRH

to ensure synchronization Each subsequent rising

Number of Pulses

COUNTER4 interrupt enable control bit (1

able IRQ)

underflowed

COUNTER4 test mode control bit (1

path This bit is reserved during normal operation

and must never be set to one )

IPND

causes the prescaler to be decremented When

The prescaler is clocked on the rising edge

IEN

The appropriate prescaler value can be

(PRH 256)

of 65536 t

RUN

CTH 256

C3TM

PRL

and a minimum t

) The high time and low

IPND

CTL

therefore the

IEN

special test

counter 4

of one

RUN

Bit 0

en-

cop87l88gw National Semiconductor Corporation, cop87l88gw Datasheet - Page 16

cop87l88gw

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