P87LPC768BD,512 NXP Semiconductors, P87LPC768BD,512 Datasheet - Page 45

P87LPC768BD,512

Manufacturer Part Number

P87LPC768BD,512

Description

IC 80C51 MCU 4K OTP 20-SOIC

Manufacturer

NXP Semiconductors

Series

LPC700r

Datasheet

1.P87LPC768BD512.pdf (65 pages)

Specifications of P87LPC768BD,512

Core Processor

8051

Core Size

8-Bit

Speed

20MHz

Connectivity

I²C, UART/USART

Peripherals

Brown-out Detect/Reset, LED, POR, PWM, WDT

Number Of I /o

Program Memory Size

4KB (4K x 8)

Program Memory Type

OTP

Ram Size

128 x 8

Voltage - Supply (vcc/vdd)

2.7 V ~ 6 V

Data Converters

A/D 4x8b

Oscillator Type

Internal

Operating Temperature

0°C ~ 70°C

Package / Case

20-SOIC (7.5mm Width)

Processor Series

P87LPC7x

Core

80C51

Data Bus Width

8 bit

Data Ram Size

128 B

Interface Type

I2C, UART

Maximum Clock Frequency

10 MHz, 20 MHz

Number Of Programmable I/os

Number Of Timers

Operating Supply Voltage

2.7 V to 6 V

Maximum Operating Temperature

+ 70 C

Mounting Style

SMD/SMT

3rd Party Development Tools

PK51, CA51, A51, ULINK2

Minimum Operating Temperature

0 C

On-chip Adc

8 bit, 4 Channel

For Use With

OM10063 - PROGRAMMER LPC700 P76XLCPOM10050 - EMULATOR LPC700 PDS76X

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

Lead Free Status / Rohs Status

Details

Other names

568-3218-5
935267360512
P87LPC768BD

Current page: 45 of 65
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output function line of P1.0. SHIFT CLOCK is low during S3, S4, and

leftmost position in the shift register, it flags the RX Control block to do

Philips Semiconductors

More About UART Mode 0

Serial data enters and exits through RxD. TxD outputs the shift

clock. 8 bits are transmitted/received: 8 data bits (LSB first). The

baud rate is fixed at 1/6 the CPU clock frequency. Figure 32 shows

a simplified functional diagram of the serial port in Mode 0, and

associated timing.

Transmission is initiated by any instruction that uses SBUF as a

destination register. The “write to SBUF” signal at S6P2 also loads a

1 into the 9th position of the transmit shift register and tells the TX

Control block to commence a transmission. The internal timing is

such that one full machine cycle will elapse between “write to SBUF”

and activation of SEND.

SEND enables the output of the shift register to the alternate output

function line of P1.1 and also enable SHIFT CLOCK to the alternate

S5 of every machine cycle, and high during S6, S1, and S2. At

S6P2 of every machine cycle in which SEND is active, the contents

of the transmit shift are shifted to the right one position.

As data bits shift out to the right, zeros come in from the left. When

the MSB of the data byte is at the output position of the shift register,

then the 1 that was initially loaded into the 9th position, is just to the

left of the MSB, and all positions to the left of that contain zeros. This

condition flags the TX Control block to do one last shift and then

deactivate SEND and set T1. Both of these actions occur at S1P1 of

the 10th machine cycle after “write to SBUF.” Reception is initiated by

the condition REN = 1 and R1 = 0. At S6P2 of the next machine

cycle, the RX Control unit writes the bits 11111110 t o the receive shift

RECEIVE enable SHIFT CLOCK to the alternate output function line

of P1.0. SHIFT CLOCK makes transitions at S3P1 and S6P1 of every

machine cycle. At S6P2 of every machine cycle in which RECEIVE is

active, the contents of the receive shift register are shifted to the left

one position. The value that comes in from the right is the value that

was sampled at the P1.1 pin at S5P2 of the same machine cycle.

As data bits come in from the right, 1s shift out to the left. When the 0

that was initially loaded into the rightmost position arrives at the

one last shift and load SBUF. At S1P1 of the 10th machine cycle after

the write to SCON that cleared RI, RECEIVE is cleared as RI is set.

2002 Mar 12

Low power, low price, low pin count (20 pin) microcontroller

with 4 kB OTP 8-bit A/D, Pulse Width Modulator

the output bit of the transmit shift register to TxD. The first shift pulse

More About UART Mode 1

Ten bits are transmitted (through TxD), or received (through RxD): a

start bit (0), 8 data bits (LSB first), and a stop bit (1). On receive, the

stop bit goes into RB8 in SCON. In the P87LPC768 the baud rate is

determined by the Timer 1 overflow rate. Figure 33 shows a

simplified functional diagram of the serial port in Mode 1, and

associated timings for transmit receive.

Transmission is initiated by any instruction that uses SBUF as a

destination register. The “write to SBUF” signal also loads a 1 into

the 9th bit position of the transmit shift register and flags the TX

Control unit that a transmission is requested. Transmission actually

commences at S1P1 of the machine cycle following the next rollover

in the divide-by-16 counter. (Thus, the bit times are synchronized to

the divide-by-16 counter, not to the “write to SBUF” signal.)

The transmission begins with activation of SEND which puts the

start bit at TxD. One bit time later, DATA is activated, which enables

occurs one bit time after that.

As data bits shift out to the right, zeros are clocked in from the left.

When the MSB of the data byte is at the output position of the shift

just to the left of the MSB, and all positions to the left of that contain

zeros. This condition flags the TX Control unit to do one last shift

and then deactivate SEND and set TI. This occurs at the 10th

divide-by-16 rollover after “write to SBUF.”

Reception is initiated by a detected 1-to-0 transition at RxD. For this

purpose RxD is sampled at a rate of 16 times whatever baud rate

has been established. When a transition is detected, the

divide-by-16 counter is immediately reset, and 1FFH is written into

the input shift register. Resetting the divide-by-16 counter aligns its

rollovers with the boundaries of the incoming bit times.

The 16 states of the counter divide each bit time into 16ths. At the

7th, 8th, and 9th counter states of each bit time, the bit detector

samples the value of RxD. The value accepted is the value that was

seen in at least 2 of the 3 samples. This is done for noise rejection.

If the value accepted during the first bit time is not 0, the receive

circuits are reset and the unit goes back to looking for another 1-to-0

transition. This is to provide rejection of false start bits. If the start bit

proves valid, it is shifted into the input shift register, and reception of

the rest of the frame will proceed.

As data bits come in from the right, 1s shift out to the left. When the

start bit arrives at the leftmost position in the shift register (which in

mode 1 is a 9-bit register), it flags the RX Control block to do one

last shift, load SBUF and RB8, and set RI. The signal to load SBUF

and RB8, and to set RI, will be generated if, and only if, the following

conditions are met at the time the final shift pulse is generated.: 1.

R1 = 0, and 2. Either SM2 = 0, or the received stop bit = 1.

If either of these two conditions is not met, the received frame is

irretrievably lost. If both conditions are met, the stop bit goes into

RB8, the 8 data bits go into SBUF, and RI is activated. At this time,

whether the above conditions are met or not, the unit goes back to

looking for a 1-to-0 transition in RxD.

P87LPC768

Preliminary data

P87LPC768BD,512 NXP Semiconductors, P87LPC768BD,512 Datasheet - Page 45

P87LPC768BD,512

Specifications of P87LPC768BD,512

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