SC28L92 Philips Semiconductors, SC28L92 Datasheet - Page 29

SC28L92

Manufacturer Part Number

SC28L92

Description

3.3V-5.0V Dual Universal Asynchronous Receiver/Transmitter DUART

Manufacturer

Philips Semiconductors

Datasheet

1.SC28L92.pdf (44 pages)

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Philips Semiconductors

CRA[1]—Disable Channel A Receiver

This command terminates operation of the receiver immediately—a

character being received will be lost. The command has no effect on

the receiver status bits or any other control registers. If the special

multi-drop mode is programmed, the receiver operates even if it is

disabled. See Operation section.

CRA[0]—Enable Channel A Receiver

Enables operation of the Channel A receiver. If not in the special

wakeup mode, this also forces the receiver into the search for

start-bit state.

SR STATUS REGISTER Channel A Status Register

*These status bits are appended to the corresponding data character in the receive FIFO. A read of the status provides these bits (7:5) from the

top of the FIFO together with bits (4:0). These bits are cleared by a “reset error status” command. In character mode they are discarded when

the corresponding data character is read from the FIFO. In block error mode, the error-reset command (command 4x or receiver reset )must

used to clear block error conditions

SRA[7]—Channel A Received Break This bit indicates that an all

zero character of the programmed length has been received without

a stop bit. Only a single FIFO position is occupied when a break is

received: further entries to the FIFO are inhibited until the RxDA line

returns to the marking state for at least one-half a bit time two

successive edges of the internal or external 1X clock. This will

usually require a high time of one X1 clock period or 3 X1

edges since the clock of the controller is not synchronous to

the X1 clock.

When this bit is set, the Channel A ‘change in break’ bit in the ISR

(ISR[2]) is set. ISR[2] is also set when the end of the break

condition, as defined above, is detected.

The break detect circuitry can detect breaks that originate in the

middle of a received character. However, if a break begins in the

middle of a character, it must persist until at least the end of the next

character time in order for it to be detected.

This bit is reset by command 4 (0100) written to the command

SRA[6]—Channel A Framing Error

This bit, when set, indicates that a stop bit was not detected (not a

logical 1) when the corresponding data character in the FIFO was

received. The stop bit check is made in the middle of the first stop bit

position.

SRA[5]—Channel A Parity Error

This bit is set when the ‘with parity’ or ‘force parity’ mode is

programmed and the corresponding character in the FIFO was

received with incorrect parity.

In the special multi-drop mode the parity error bit stores the receive

A/D (Address/Data) bit.

SRA[4]—Channel A Overrun Error

This bit, when set, indicates that one or more characters in the

received data stream have been lost. It is set upon receipt of a new

character when the FIFO is full and a character is already in the

receive shift register waiting for an empty FIFO position. When this

2000 Jan 21

3.3V–5.0V Dual Universal Asynchronous

Receiver/Transmitter (DUART)

SRA/B

Addr

0x01

0x09

RECEIVED

BREAK

1 = Yes

0 = No

Bit 7

FRAMING

ERROR

1 = Yes

0 = No

BIT 6

ERROR

PARITY

1 = Yes

0 = No

BIT 5

OVERRUN

ERROR

1 = Yes

0 = No

BIT 4

CRB—Channel B Command Register

CRB is a register used to supply commands to Channel B. Multiple

commands can be specified in a single write to CRB as long as the

commands are non-conflicting, e.g., the ‘enable transmitter’ and

‘reset transmitter’ commands cannot be specified in a single

command word.

The bit definitions for this register are identical to the bit definitions

for CRA, with the exception of commands “Ex” and “Fx” which are

used for power down mode. These two commands are not used in

CRB. All other control actions that apply to CRA also apply to CRB.

occurs, the character in the receive shift register (and its break

detect, parity error and framing error status, if any) is lost.

This bit is cleared by a ‘reset error status’ command.

SRA[3]—Channel A Transmitter Empty (TxEMTA)

This bit will be set when the transmitter under runs, i.e., both the

TxEMT and TxRDY bits are set. This bit and TxRDY are set when

the transmitter is first enabled and at any time it is re-enabled after

either (a) reset, or (b) the transmitter has assumed the disabled

state. It is always set after transmission of the last stop bit of a

character if no character is in the THR awaiting transmission.

It is reset when the THR is loaded by the CPU, a pending

transmitter disable is executed, the transmitter is reset, or the

transmitter is disabled while in the under run condition.

SRA[2]—Channel A Transmitter Ready (TxRDYA)

This bit, when set, indicates that the transmit FIFO is not full and

ready to be loaded with another character. This bit is cleared when

the transmit FIFO is loaded by the CPU and there are (after this

load) no more empty locations in the FIFO. It is set when a

character is transferred to the transmit shift register. TxRDYA is

reset when the transmitter is disabled and is set when the

transmitter is first enabled. Characters loaded to the TxFIFO while

this bit is 0 will be lost. This bit has different meaning from ISR[0].

SRA[1]—Channel A FIFO Full (FFULLA)

This bit is set when a character is transferred from the receive shift

become full, i.e., all eight (or 16) FIFO positions are occupied. It is

reset when the CPU reads the receive FIFO. If a character is waiting

in the receive shift register because the FIFO is full, FFULLA will not

be reset when the CPU reads the receive FIFO. This bit has

different meaning from ISR1 when MR1 6 is programmed to a ‘1’.

SRA[0]—Channel A Receiver Ready (RxRDYA)

This bit indicates that a character has been received and is waiting

in the FIFO to be read by the CPU. It is set when the character is

transferred from the receive shift register to the FIFO and reset

TxEMT

1 = Yes

0 = No

BIT 3

TxRDY

1 = Yes

0 = No

BIT 2

1 = Yes

FFULL

0 = No

BIT 1

Product specification

SC28L92

RxRDY

1 = Yes

0 = No

BIT 0

SC28L92 Philips Semiconductors, SC28L92 Datasheet - Page 29

SC28L92

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