P87LPC761BN NXP Semiconductors, P87LPC761BN Datasheet - Page 12

P87LPC761BN

Manufacturer Part Number

P87LPC761BN

Description

IC, MCU 8BIT 80C51 2K OTP, DIP16

Manufacturer

NXP Semiconductors

Datasheet

1.P87LPC761BN.pdf (58 pages)

Specifications of P87LPC761BN

Controller Family/series

(8051) 8052

Core Size

8bit

No. Of I/o's

Program Memory Size

2KB

Ram Memory Size

128Byte

Cpu Speed

20MHz

Oscillator Type

External, Internal

No. Of Timers

Digital

RoHS Compliant

Package

16PDIP

Device Core

80C51

Family Name

87LP

Maximum Speed

20 MHz

Ram Size

128 Byte

Operating Supply Voltage

5 V

Data Bus Width

8 Bit

Program Memory Type

EPROM

Number Of Programmable I/os

Interface Type

I2C/UART

Operating Temperature

0 to 70 Â°C

Number Of Timers

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Philips Semiconductors

FUNCTIONAL DESCRIPTION

Details of P87LPC761 functions will be described in the following

sections.

Enhanced CPU

The P87LPC761 uses an enhanced 80C51 CPU which runs at twice

the speed of standard 80C51 devices. This means that the

performance of the P87LPC761 running at 5 MHz is exactly the same

as that of a standard 80C51 running at 10 MHz. A machine cycle

consists of 6 oscillator cycles, and most instructions execute in 6 or 12

clocks. A user configurable option allows restoring standard 80C51

execution timing. In that case, a machine cycle becomes 12 oscillator

cycles.

In the following sections, the term “CPU clock” is used to refer to the

clock that controls internal instruction execution. This may

sometimes be different from the externally applied clock, as in the

case where the part is configured for standard 80C51 timing by

means of the CLKR configuration bit or in the case where the clock

is divided down via the setting of the DIVM register. These features

are described in the Oscillator section.

Analog Functions

The P87LPC761 incorporates two Analog Comparators. In order to

give the best analog function performance and to minimize power

consumption, pins that are actually being used for analog functions

must have the digital outputs and the digital inputs disabled.

Digital outputs are disabled by putting the port output into the Input

Only (high impedance) mode as described in the I/O Ports section.

Digital inputs on port 0 may be disabled through the use of the

PT0AD register. Each bit in this register corresponds to one pin of

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microcontroller with 2 kbyte OTP

CMPn

BIT

CMPn.7, 6

CMPn.5

CMPn.4

CMPn.3

CMPn.2

CMPn.1

CMPn.0

Address: ACh for CMP1, ADh for CMP2

Not Bit Addressable

SYMBOL

CMFn

CEn

CPn

CNn

OEn

COn

—

FUNCTION

Reserved for future use. Should not be set to 1 by user programs.

Comparator enable. When set by software, the corresponding comparator function is enabled.

Comparator output is stable 10 microseconds after CEn is first set.

Comparator positive input select. When 0, CINnA is selected as the positive comparator input. When

1, CINnB is selected as the positive comparator input. This bit must be set to 1 in CMP2!

Comparator negative input select. When 0, the comparator reference pin CMPREF is selected as

the negative comparator input. When 1, the internal comparator reference V

negative comparator input.

Output enable. When 1, the comparator output is connected to the CMPn pin if the comparator is

enabled (CEn = 1). This output is asynchronous to the CPU clock.

Comparator output, synchronized to the CPU clock to allow reading by software. Cleared when the

comparator is disabled (CEn = 0).

Comparator interrupt flag. This bit is set by hardware whenever the comparator output COn changes

state. This bit will cause a hardware interrupt if enabled and of sufficient priority. Cleared by

software and when the comparator is disabled (CEn = 0).

Figure 2. Comparator Control Registers (CMP1 and CMP2)

—

CEn

CPn

CNn

Port 0. Setting the corresponding bit in PT0AD disables that pin’s

digital input. Port bits that have their digital inputs disabled will be

read as 0 by any instruction that accesses the port.

Analog Comparators

Two analog comparators are provided on the P87LPC761. Input and

output options allow use of the comparators in a number of different

configurations. Comparator operation is such that the output is a

logical one (which may be read in a register and/or routed to a pin)

when the positive input (one of two selectable pins) is greater than

the negative input (selectable from a pin or an internal reference

voltage). Otherwise the output is a zero. Each comparator may be

configured to cause an interrupt when the output value changes.

Comparator Configuration

Each comparator has a control register, CMP1 for comparator 1 and

CMP2 for comparator 2. The control registers are identical and are

shown in Figure 2.

The overall connections to both comparators are shown in Figure 3.

There are eight possible configurations for comparator 1 and four for

comparator 2, as determined by the control bits in the corresponding

CMPn register: CPn, CNn, and OEn. These configurations are

shown in Figure 4. The comparators function down to a V

When each comparator is first enabled, the comparator output and

interrupt flag are not guaranteed to be stable for 10 microseconds.

The corresponding comparator interrupt should not be enabled

during that time, and the comparator interrupt flag must be cleared

before the interrupt is enabled in order to prevent an immediate

interrupt service.

OEn

COn

CMFn

ref

Reset Value: 00h

is selected as the

P87LPC761

Preliminary data

SU01566

of 3.0V.

P87LPC761BN NXP Semiconductors, P87LPC761BN Datasheet - Page 12

P87LPC761BN

Specifications of P87LPC761BN

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