SX28AC/SS Parallax Inc, SX28AC/SS Datasheet - Page 11

SX28AC/SS

Manufacturer Part Number

SX28AC/SS

Description

IC MCU 2K FLASH 50MHZ 28SSOP

Manufacturer

Parallax Inc

Series

SXr

Datasheet

1.SX20ACSS-G.pdf (51 pages)

Specifications of SX28AC/SS

Core Processor

RISC

Core Size

8-Bit

Speed

75MHz

Peripherals

Brown-out Detect/Reset, POR, WDT

Number Of I /o

Program Memory Size

3KB (2K x 12)

Program Memory Type

FLASH

Ram Size

136 x 8

Voltage - Supply (vcc/vdd)

3 V ~ 5.5 V

Oscillator Type

Internal

Operating Temperature

0°C ~ 70°C

Package / Case

28-SSOP

Product

Microcontroller Basic Stamps

Flash

2 KBytes

Timers

8 bit

Operating Supply Voltage

3 to 5.5 V

Eeprom Size

Data Converters

Connectivity

Lead Free Status / Rohs Status

No RoHS Version Available

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Current page: 11 of 51
Download datasheet (3Mb)

Parallax SX20AC/SX28AC

3.1.1.

Caution must be exercised when performing two

successive read-modify-write instructions (SETB or

CLRB operations) on an I/O port pin. Input data used for

an instruction must be valid during the time the

instruction is executed, and the output result from an

instruction is valid only after that instruction completes its

operation. Unexpected results from successive read-

modify-write operations on I/O pins can occur when the

device is running at high speeds. Although the device has

an internal write-back section to prevent such conditions,

it is still recommended that the user program include a

NOP instruction as a buffer between successive read-

modify-write instructions performed on I/O pins of the

same port.

Also note that reading an I/O port is actually reading the

pins, not the output data latches. That is, if the pin output

driver is enabled and driven high while the pin is held low

externally, the port pin will read low.

3.2.

Each port pin offers the following configuration options:

Port B offers the additional option to use the port pins for

the Multi-Input Wakeup/Interrupt function and/or the

analog comparator function.

Port configuration is performed by writing to a set of

control registers associated with the port. A special-

purpose instruction is used to write these control registers:

Each one of these instructions writes a port control

control registers for each port. To specify which one you

want to access, you use another register called the MODE

3.2.1.

The MODE register controls access to the port

configuration registers. Because the MODE register is not

memory-mapped, it is accessed by the following special

purpose instructions:

The value contained in the MODE register determines

which port control register is accessed by the

• data direction

• input voltage levels (TTL or CMOS)

• pullup type (pullup resistor enable or disable)

• Schmitt trigger input (for Port B and Port C only)

• mov !RA,W (move W to Port A control register)

• mov !RB,W (move W to Port B control register)

• mov !RC,W (move W to Port C control register)

• mov M, #lit (move literal to MODE register)

• mov M,W (move W to MODE register)

• mov W,M (move MODE register to W)

Read-Modify-Write Considerations

Port Configuration

MODE Register

Page 11 of 51

“mov !rx,W” instruction as indicated in Table 2-1. MODE

future expansion and should not be used. Therefore, the

MODE register should always contain a value from 08h

to 0Fh. Upon reset, the MODE register is initialized to

0Fh, which enables access to the port direction registers.

After a value is written to the MODE register, that setting

remains in effect until it is changed by writing to the

MODE register again. For example, you can write the

value 0Eh to the MODE register just once, and then write

to each of the three pullup configuration registers using

the three “mov !rx,W” instructions.

The following code example shows how to program the

pullup control registers.

mov M,#$0E

mov W,#$03

mov !RA,W

mov W,#$FF

mov !RB,W

mov W,#$00

mov !RC,W

First the MODE register is loaded with 0Eh to select

access to the pullup control registers (PLP_A, PLP_B,

and PLP_C). Then the “mov !rx,W” instructions are used

to specify which port pins are to be connected to the

internal pullup resistors. Setting a bit to 1 disconnects the

corresponding pullup resistor, and clearing a bit to 0

connects the corresponding pullup resistor.

3.2.2.

The port configuration registers that you control with the

“mov !rx,W” instruction operate as described below.

RA, RB, and RC Data Direction Registers (MODE=0Fh)

Each register bit sets the data direction for one port pin.

Set the bit to 1 to make the pin operate as a high-

impedance input. Clear the bit to 0 to make the pin

operate as an output.

MODE Reg.

0Ch

0Dh

08h

09h

0Ah

0Bh

0Eh

0Fh

Port Configuration Registers

Table 3-2:

Port Control Register Access

RA Direction

Mov !RA,W

;MODE=0Eh to access port pullup

;registers

;W = 0000 0011

;disable pullups for RA0 and RA1

;W = 1111 1111

;disable all pullups for RB0-RB7

;W = 0000 0000

;enable all pullups for RC0-RC7

not used

LVL_A

PLP_A

MODE Register and

Mov !RB, W

RB Direction

WKPND_B

WKEN_B

WKED_b

CMP_B

PLP_B

LVL_B

ST_B

Rev 1.6 11/20/2006

www.parallax.com

Mov !Rc, W

RC Direction

not used

PLP_C

LVL_C

ST_C

SX28AC/SS Parallax Inc, SX28AC/SS Datasheet - Page 11

SX28AC/SS

Specifications of SX28AC/SS

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