80C453 Datasheet, PDF(1/23 Page) NXP Semiconductors – CMOS single-chip 8-bit microcontrollers

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80C453 Datasheet, PDF (1/23 Pages) NXP Semiconductors – CMOS single-chip 8-bit microcontrollers

Philips Semiconductors

CMOS single-chip 8-bit microcontrollers

Preliminary specification

80C453/83C453/87C453

DESCRIPTION

The Philips 8XC453 is an I/O expanded single-chip microcontroller

fabricated with Philips high-density CMOS technology. Philips

epitaxial substrate minimizes latch-up sensitivity.

The 8XC453 is a functional extension of the 87C51 microcontroller

with three additional I/O ports and four I/O control lines. The 8XC453

is available in 68-pin LCC packages. Four control lines associated

with port 6 facilitate high-speed asynchronous I/O functions.

The 87C453 includes an 8k Ã 8 EPROM, a 256 Ã 8 RAM, 56 I/O

lines, two 16-bit timer/counters, a seven source, two priority level,

nested interrupt structure, a serial I/O port for either a full duplex

UART, I/O expansion, or multi-processor communications, and

on-chip oscillator and clock circuits.

The 87C453 has two software selectable modes of reduced activity

for further power reduction; idle mode and power-down mode. Idle

mode freezes the CPU while allowing the RAM, timers, serial port,

and interrupt system to continue functioning. Power-down mode

freezes the oscillator, causing all other chip functions to be

inoperative while maintaining the RAM contents.

FEATURES

â¢ 80C51 based architecture

â¢ Seven 8-bit I/O ports

â¢ Port 6 features:

â Eight data pins

â Four control pins

â Direct MPU bus interface

â ISA Bus Interface

â Parallel printer interface

â IBF and OBF interrupts

â A flag latch on host write

â¢ On the microcontroller:

â 8k Ã 8 EPROM

Quick pulse programming algorithm

Two-level program security system

â 256 Ã 8 RAM

â Two 16-bit counter/timers

â Two external interrupts

â¢ External memory addressing capability

â 64k ROM and 64k RAM

â¢ Low power consumption:

â Normal operation: less than 24mA at 5V, 16MHz

â Idle mode

â Power-down mode

â¢ Reduced EMI

â¢ Full-duplex enhanced UART

â Framing error detection

â Automatic address recognition

LCC PIN FUNCTIONS

LCC

Pin Function

1 EA/VPP

2 P2.0/A8

3 P2.1/A9

4 P2.2/A10

5 P2.3/A11

6 P2.4/A12

7 P2.5/A13

8 P2.6/A14

9 P2.7/A15

10 P0.7/AD7

11 P0.6/AD6

12 P0.5/AD5

13 P0.4/AD4

14 P0.3/AD3

15 P0.2/AD2

16 P0.1/AD1

17 P0.0/AD0

18 VCC

19 P4.7

20 P4.6

21 P4.5

22 P4.4

23 P4.3

Pin Function

24 P4.2

25 P4.1

26 P4.0

27 P1.0

28 P1.1

29 P1.2

30 P1.3

31 P1.4

32 P1.5

33 P1.6

34 P1.7

35 RST

36 P3.0/RxD

37 P3.1/TxD

38 P3.2/INTO

39 P3.3/INT1

40 P3.4/T0

41 P3.5/T1

42 P3.6/WR

43 P3.7/RD

44 P5.0

45 P5.1

46 P5.2

Pin Function

47 P5.3

48 P5.4

49 P5.5

50 P5.6

51 P5.7

52 XTAL2

53 XTAL1

54 VSS

55 ODS

56 IDS

57 BFLAG

58 AFLAG

59 P6.0

60 P6.1

61 P6.2

62 P6.3

63 P6.4

64 P6.5

65 P6.6

66 P6.7

67 PSEN

68 ALE/PROG

SU00157

1996 Aug 15

3-311

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