SST89V58RD-33-C-PIE Microchip Technology, SST89V58RD-33-C-PIE Datasheet - Page 57

SST89V58RD-33-C-PIE

Manufacturer Part Number

SST89V58RD-33-C-PIE

Description

IC MCU 8BIT 40KB FLASH 40PDIP

Manufacturer

Microchip Technology

Series

FlashFlex®r

Datasheet

1.SST89V54RD2-33-C-NJE.pdf (77 pages)

Specifications of SST89V58RD-33-C-PIE

Program Memory Type

FLASH

Program Memory Size

32KB (32K x 8)

Package / Case

40-DIP (0.600", 15.24mm)

Core Processor

8051

Core Size

8-Bit

Speed

33MHz

Connectivity

EBI/EMI, SPI, UART/USART

Peripherals

Brown-out Detect/Reset, POR, WDT

Number Of I /o

Eeprom Size

8K x 8

Ram Size

1K x 8

Voltage - Supply (vcc/vdd)

2.7 V ~ 3.6 V

Oscillator Type

External

Operating Temperature

0°C ~ 70°C

Processor Series

SST89xxxRD

Core

8051

Data Bus Width

8 bit

Data Ram Size

1 KB

Interface Type

SPI, UART

Maximum Clock Frequency

33 MHz

Number Of Programmable I/os

Number Of Timers

Operating Supply Voltage

2.7 V to 3.6 V

Maximum Operating Temperature

+ 70 C

Mounting Style

Through Hole

Minimum Operating Temperature

0 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Data Converters

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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FlashFlex MCU

SST89V54RD2/RD / SST89V58RD2/RD

10.0 RESET

A system reset initializes the MCU and begins program

execution at program memory location 0000H. The reset

input for the device is the RST pin. In order to reset the

device, a logic level high must be applied to the RST pin for

at least two machine cycles (24 clocks), after the oscillator

becomes stable. ALE, PSEN# are weakly pulled high dur-

ing reset. During reset, ALE and PSEN# output a high level

in order to perform a proper reset. This level must not be

affected by external element. A system reset will not affect

the 1 KByte of on-chip RAM while the device is running,

however, the contents of the on-chip RAM during power up

are indeterminate. Following reset, all Special Function

Registers (SFR) return to their reset values outlined in

Tables 3-5 to 3-9.

10.1 Power-on Reset

At initial power up, the port pins will be in a random state

until the oscillator has started and the internal reset algo-

rithm has weakly pulled all pins high. Powering up the

device without a valid reset could cause the MCU to

start executing instructions from an indeterminate

location. Such undefined states may inadvertently cor-

rupt the code in the flash.

When power is applied to the device, the RST pin must be

held high long enough for the oscillator to start up (usually

several milliseconds for a low frequency crystal), in addition

to two machine cycles for a valid power-on reset. An exam-

ple of a method to extend the RST signal is to implement a

RC circuit by connecting the RST pin to V

µF capacitor and to V

shown in Figure 10-1. Note that if an RC circuit is being

used, provisions should be made to ensure the V

time does not exceed 1 millisecond and the oscillator start-

up time does not exceed 10 milliseconds.

For a low frequency oscillator with slow start-up time the

reset signal must be extended in order to account for the

slow start-up time. This method maintains the necessary

relationship between V

at an indeterminate location, which may cause corruption

in the code of the flash. The power-on detection is

designed to work as power up initially, before the voltage

reaches the brown-out detection level. The POF flag in the

PCON register is set to indicate an initial power up condi-

tion. The POF flag will remain active until cleared by soft-

ware. Please see Section 3.6, “Power Control Register

(PCON)” on page 29 for detailed information.

For more information on system level design techniques,

please review the FlashFlex MCU: Oscillator Circuit Design

Considerations application note.

and RST to avoid programming

through an 8.2KΩ resistor as

through a 10

rise

10.2 Software Reset

The software reset is executed by changing SFCF[1]

(SWR) from “0” to “1”. A software reset will reset the pro-

gram counter to address 0000H. All SFR registers will be

set to their reset values, except SFCF[1] (SWR), WDTC[2]

(WDTS), and RAM data will not be altered.

10.3 Brown-out Detection Reset

The device includes a brown-out detection circuit to protect

the system from severed supplied voltage V

The SST89V5xRD2/RD brown-out detection threshold is

2.35V. For brown-out voltage parameters, please refer to

Tables 14-6.

When V

out detector triggers the circuit to generate a brown-out

interrupt but the CPU still runs until the supplied voltage

returns to the brown-out detection voltage V

default operation for a brown-out detection is to cause a

processor reset.

ods before the brown-out detection circuit will respond.

Brown-out interrupt can be enabled by setting the EBO bit

in IEA register (address E8H, bit 3). If EBO bit is set and a

brown-out condition occurs, a brown-out interrupt will be

generated to execute the program at location 004BH. It is

required that the EBO bit be cleared by software after the

brown-out interrupt is serviced. Clearing EBO bit when the

brown-out condition is active will properly reset the device.

If brown-out interrupt is not enabled, a brown-out condition

will reset the program to resume execution at location

0000H.

FIGURE 10-1: Power-on Reset Circuit

must stay below V

10µF

8.2K

drops below this voltage threshold, the brown-

BOD

at least four oscillator clock peri-

XTAL2

XTAL1

RST

SST89E/V5xRDx

S71255-10-000

Data Sheet

fluctuations.

1255 F30.1

BOD

. The

12/07

SST89V58RD-33-C-PIE Microchip Technology, SST89V58RD-33-C-PIE Datasheet - Page 57

SST89V58RD-33-C-PIE

Specifications of SST89V58RD-33-C-PIE

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