IRCC2.0 SMSC Corporation, IRCC2.0 Datasheet - Page 51

IRCC2.0

Manufacturer Part Number

IRCC2.0

Description

Infrared Communications Controller

Manufacturer

SMSC Corporation

Datasheet

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These bits are set to logic "1" whenever a

control input from the MODEM changes state.

They are reset to logic "0" whenever the MODEM

Status Register is read.

Bit 0

Delta Clear To Send (DCTS). Bit 0 indicates that

the nCTS input to the chip has changed state

since the last time the MSR was read.

Bit 1

Delta Data Set Ready (DDSR). Bit 1 indicates that

the nDSR input has changed state since the last

time the MSR was read.

Bit 2

Trailing Edge of Ring Indicator (TERI).

indicates that the nRI input has changed from

logic "0" to logic "1".

Bit 3

Delta Data Carrier Detect (DDCD). Bit 3 indicates

that the nDCD input to the chip has

state.

NOTE: Whenever bit 0, 1, 2, or 3 is set to a logic

"1", a MODEM Status Interrupt is generated.

Bit 4

This bit is the complement of the Clear To Send

(nCTS) input. If bit 4 of the MCR is set to logic

"1", this bit is equivalent to nRTS in the MCR.

Bit 5

This bit is the complement of the Data Set Ready

(nDSR) input. If bit 4 of the MCR is set to logic

"1", this bit is equivalent to DTR in the MCR.

Bit 6

This bit is the complement of the Ring Indicator

(nRI) input. If bit 4 of the MCR is set to logic "1",

this bit is equivalent to OUT1 in the MCR.

changed

Bit 2

Bit 7

This bit is the complement of the Data Carrier

Detect (nDCD) input. If bit 4 of the MCR is set to

logic "1", this bit is equivalent to OUT2 in the MCR.

SCRATCHPAD REGISTER (SCR)

Address Offset =7H, DLAB =X, READ/WRITE

This 8 bit read/write register has no effect on the

operation of the Serial Port. It is intended as a

scratchpad register to be used by the programmer

to hold data temporarily.

PROGRAMMABLE BAUD RATE GENERATOR

(AND DIVISOR LATCHES DLH, DLL)

The Serial Port contains a programmable Baud

Rate Generator that is capable of taking any clock

input (DC to 3 MHz) and dividing it by any divisor

from 1 to 65535. This output frequency of the

Baud Rate Generator is 16x the Baud rate. Two 8

bit latches store the divisor in 16 bit binary format.

These Divisor Latches must be loaded during

initialization in order to insure desired operation of

the Baud Rate Generator. Upon loading either of

the Divisor Latches, a 16 bit Baud counter is

immediately loaded. This prevents long counts on

initial load. If a 0 is loaded into the BRG registers

the output divides the clock by the number 3. If a

1 is loaded the output is the inverse of the input

oscillator. If a two is loaded the output is a divide

by 2 signal with a 50% duty cycle. If a 3 or greater

is loaded the output is low for 2 bits and high for

the remainder of the count. The input clock to the

BRG is the 24 MHz crystal divided by 13, giving a

1.8462 MHz clock.

Table 32 shows the baud rates possible with a

1.8462 MHz crystal.

IRCC2.0 SMSC Corporation, IRCC2.0 Datasheet - Page 51

IRCC2.0

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