P89C51RB2BA/01,512 NXP Semiconductors, P89C51RB2BA/01,512 Datasheet - Page 42

P89C51RB2BA/01,512

Manufacturer Part Number

P89C51RB2BA/01,512

Description

IC 80C51 MCU FLASH 16K 44-PLCC

Manufacturer

NXP Semiconductors

Series

89Cr

Datasheet

1.P87C51RD4A512.pdf (68 pages)

Specifications of P89C51RB2BA/01,512

Core Processor

8051

Core Size

8-Bit

Speed

33MHz

Connectivity

UART/USART

Peripherals

POR, PWM, WDT

Number Of I /o

Program Memory Size

16KB (16K x 8)

Program Memory Type

FLASH

Ram Size

512 x 8

Voltage - Supply (vcc/vdd)

4.5 V ~ 5.5 V

Oscillator Type

Internal

Operating Temperature

0°C ~ 70°C

Package / Case

44-PLCC

For Use With

622-1017 - BOARD 44-ZIF PLCC SOCKET622-1008 - BOARD FOR LPC9103 10-HVSON

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

Data Converters

Other names

568-1262-5
935271561512
P89C51RB2BA/01

Available stocks

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Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

P89C51RB2BA/01,512

Manufacturer:

NXP Semiconductors

Quantity:

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Philips Semiconductors

Expanded Data RAM Addressing

The P89C51RA2/RB2/RC2/RD2xx has internal data memory that is

mapped into four separate segments: the lower 128 bytes of RAM,

upper 128 bytes of RAM, 128 bytes Special Function Register (SFR),

and 256 bytes expanded RAM (ERAM) (768 bytes for the RD2xx).

The four segments are:

1. The Lower 128 bytes of RAM (addresses 00H to 7FH) are

2. The Upper 128 bytes of RAM (addresses 80H to FFH) are

3. The Special Function Registers, SFRs, (addresses 80H to FFH)

4. The 256/768-bytes expanded RAM (ERAM, 00H – 1FFH/2FFH)

The Lower 128 bytes can be accessed by either direct or indirect

addressing. The Upper 128 bytes can be accessed by indirect

addressing only. The Upper 128 bytes occupy the same address

space as the SFR. That means they have the same address, but are

physically separate from SFR space.

When an instruction accesses an internal location above address

7FH, the CPU knows whether the access is to the upper 128 bytes

of data RAM or to SFR space by the addressing mode used in the

instruction. Instructions that use direct addressing access SFR

space. For example:

accesses the SFR at location 0A0H (which is P2). Instructions that

use indirect addressing access the Upper 128 bytes of data RAM.

2002 Jul 18

80C51 8-bit Flash microcontroller family

8KB/16KB/32KB/64KB ISP/IAP Flash with 512B/512B/512B/1KB RAM

MOV 0A0H,#data

directly and indirectly addressable.

indirectly addressable only.

are directly addressable only.

are indirectly accessed by move external instruction, MOVX, and

with the EXTRAM bit cleared, see Figure 38.

NOTE:

*User software should not write 1s to reserved bits. These bits may be used in future 8051 family products to invoke new features. In that case, the reset or inactive value

of the new bit will be 0, and its active value will be 1. The value read from a reserved bit is indeterminate.

AUXR

Symbol

EXTRAM

—

Address = 8EH

Not Bit Addressable

Bit:

Function

Disable/Enable ALE

Internal/External RAM access using MOVX @Ri/@DPTR

EXTRAM

Not implemented, reserved for future use*.

—

Operating Mode

ALE is emitted at a constant rate of

in 6-clock mode).

ALE is active only during off-chip memory access.

Operating Mode

Internal ERAM access using MOVX @Ri/@DPTR

External data memory access.

—

Figure 38. AUXR: Auxiliary Register

—

the oscillator frequency (12-clock mode;

For example:

where R0 contains 0A0H, accesses the data byte at address 0A0H,

rather than P2 (whose address is 0A0H).

The ERAM can be accessed by indirect addressing, with EXTRAM

bit cleared and MOVX instructions. This part of memory is physically

located on-chip, logically occupies the first 256/768 bytes of external

data memory in the P89C51RA2/RB2/RC2/89C51RD2.

With EXTRAM = 0, the ERAM is indirectly addressed, using the

MOVX instruction in combination with any of the registers R0, R1 of

the selected bank or DPTR. An access to ERAM will not affect ports

P0, P3.6 (WR#) and P3.7 (RD#). P2 SFR is output during external

addressing. For example, with EXTRAM = 0,

where R0 contains 0A0H, accesses the ERAM at address 0A0H

rather than external memory. An access to external data memory

locations higher than the ERAM will be performed with the MOVX

DPTR instructions in the same way as in the standard 80C51, so

with P0 and P2 as data/address bus, and P3.6 and P3.7 as write

and read timing signals. Refer to Figure 39.

With EXTRAM = 1, MOVX @Ri and MOVX @DPTR will be similar

to the standard 80C51. MOVX @ Ri will provide an 8-bit address

multiplexed with data on Port 0 and any output port pins can be

used to output higher order address bits. This is to provide the

external paging capability. MOVX @DPTR will generate a 16-bit

address. Port 2 outputs the high-order eight address bits (the

contents of DPH) while Port 0 multiplexes the low-order eight

address bits (DPL) with data. MOVX @Ri and MOVX @DPTR will

generate either read or write signals on P3.6 (WR) and P3.7 (RD).

The stack pointer (SP) may be located anywhere in the 256 bytes

RAM (lower and upper RAM) internal data memory. The stack may

not be located in the ERAM.

MOV @R0,acc

MOVX @R0,acc

—

P89C51RA2/RB2/RC2/RD2xx

EXTRAM

Reset Value = xxxx xx00B

OSC

Preliminary data

SU01613

P89C51RB2BA/01,512 NXP Semiconductors, P89C51RB2BA/01,512 Datasheet - Page 42

P89C51RB2BA/01,512

Specifications of P89C51RB2BA/01,512

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