AT80C51RD2-3CSIM Atmel, AT80C51RD2-3CSIM Datasheet - Page 15

AT80C51RD2-3CSIM

Manufacturer Part Number

AT80C51RD2-3CSIM

Description

IC MCU 8051 5V SPI 20MHZ 40-DIP

Manufacturer

Atmel

Series

80Cr

Datasheet

1.AT80C51RD2-RLRUM.pdf (81 pages)

Specifications of AT80C51RD2-3CSIM

Core Processor

8051

Core Size

8-Bit

Speed

40MHz

Connectivity

UART/USART

Peripherals

POR, PWM, WDT

Number Of I /o

Program Memory Type

ROMless

Ram Size

1K x 8

Voltage - Supply (vcc/vdd)

4.5 V ~ 5.5 V

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

40-DIP (0.600", 15.24mm)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Eeprom Size

Program Memory Size

Data Converters

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4113D–8051–01/09

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 XRAM.

The M0 bit allows to stretch the XRAM timings; if M0 is set, the read and write pulses are

extended from 6 to 30 clock periods. This is useful to access external slow peripherals.

Table 8-2.

AUXR - Auxiliary Register (8Eh)

• Instructions that use indirect addressing access the Upper 128 bytes of data RAM. For

• The XRAM bytes can be accessed by indirect addressing, with EXTRAM bit cleared and

• With EXTRAM = 0, the XRAM is indirectly addressed, using the MOVX instruction in

• With EXTRAM = 1, MOVX @Ri and MOVX @DPTR will be similar to the standard 80C51.

Number

example: MOV @R0, # data where R0 contains 0A0h, accesses the data byte at address

0A0h, rather than P2 (whose address is 0A0h).

MOVX instructions. This part of memory which is physically located on-chip, logically

occupies the first bytes of external data memory. The bits XRS0 and XRS1 are used to hide a

part of the available XRAM as explained in Table 8-1. This can be useful if external

peripherals are mapped at addresses already used by the internal XRAM.

combination with any of the registers R0, R1 of the selected bank or DPTR. An access to

XRAM will not affect ports P0, P2, P3.6 (WR) and P3.7 (RD). For example, with EXTRAM =

0, MOVX @R0, # data where R0 contains 0A0H, accesses the XRAM at address 0A0H

rather than external memory. An access to external data memory locations higher than the

accessible size of the XRAM will be performed with the MOVX DPTR instructions in the same

way as in the standard 80C51, with P0 and P2 as data/address busses, and P3.6 and P3.7

as write and read timing signals. Accesses to XRAM above 0FFH can only be done by the

use of DPTR.

MOVX @ Ri will provide an eight-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 sixteen-bit address. Port2 outputs the high-

order eight address bits (the contents of DPH) while Port0 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).

Bit

Mnemonic

AUXR Register

Bit

Description

Reserved

The value read from this bit is indeterminate. Do not set this bit

Reserved

The value read from this bit is indeterminate. Do not set this bit

Pulse length

Cleared to stretch MOVX control: the RD and the WR pulse length is 6 clock periods

(default).

Set to stretch MOVX control: the RD and the WR pulse length is 30 clock periods.

Reserved

The value read from this bit is indeterminate. Do not set this bit

XRS1

XRS0

AT80C51RD2

EXTRAM

AT80C51RD2-3CSIM Atmel, AT80C51RD2-3CSIM Datasheet - Page 15

AT80C51RD2-3CSIM

Specifications of AT80C51RD2-3CSIM

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