SC26C92C1A,518 NXP Semiconductors, SC26C92C1A,518 Datasheet - Page 19

SC26C92C1A,518

Manufacturer Part Number

SC26C92C1A,518

Description

IC DUART SOT187-2

Manufacturer

NXP Semiconductors

Datasheet

1.SC26C92C1A518.pdf (31 pages)

Specifications of SC26C92C1A,518

Number Of Channels

2, DUART

Package / Case

44-LCC (J-Lead)

Features

Transceiver

Fifo's

8 Byte

Voltage - Supply

With Auto Flow Control

Yes

With False Start Bit Detection

Yes

With Modem Control

Yes

With Cmos

Yes

Mounting Type

Surface Mount

Data Rate

0.2304 MBd

Supply Voltage (max)

5.5 V

Supply Voltage (min)

4.5 V

Supply Current

10 mA

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Mounting Style

SMD/SMT

Operating Supply Voltage

5 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

568-5047-2
935051510518
SC26C92C1A,518
SC26C92C1A-T
SC26C92C1A-T

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Philips Semiconductors

CRA – Channel A Command Register

CRA is a register used to supply commands to Channel A. Multiple

commands can be specified in a single write to CRA 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.

CRA[7:4] – Miscellaneous Commands

Execution of the commands in the upper four bits of this register

must be separated by 3 X1 clock edges. Other reads or writes

(including writes tot he lower four bits) may be inserted to achieve

this separation.

CRA[7:4] – Command

0000 No command.

0001 Reset MR pointer. Causes the Channel A MR pointer to point

0010 Reset receiver. Resets the Channel A receiver as if a

0011 Reset transmitter. Resets the Channel A transmitter as if a

0100 Reset error status. Clears the Channel A Received Break, Parity

0101 Reset Channel A break change interrupt. Causes the

0110 Start break. Forces the TxDA output Low (spacing). If the

0111 Stop break. The TxDA line will go High (marking) within two

1000 Assert RTSN. Causes the RTSN output to be asserted

1001 Negate RTSN. Causes the RTSN output to be negated

1010 Set Timeout Mode On. The receiver in this channel will

1011 Set MR pointer to ‘0’

1100 Disable Timeout Mode. This command returns control of the

1101 Not used.

1110 Power Down Mode On. In this mode, the DUART oscillator is

2000 Jan 31

Dual universal asynchronous receiver/transmitter (DUART)

to MR1.

hardware reset had been applied. The receiver is disabled

and the FIFO is flushed.

hardware reset had been applied.

Error, and Overrun Error bits in the status register (SRA[7:4]).

Used in character mode to clear OE status (although RB, PE

and FE bits will also be cleared) and in block mode to clear all

error status after a block of data has been received.

Channel A break detect change bit in the interrupt status

transmitter is empty the start of the break condition will be

delayed up to two bit times. If the transmitter is active the

break begins when transmission of the character is

completed. If a character is in the TxFIFO, the start of the

break will be delayed until that character, or any other loaded

subsequently are transmitted. The transmitter must be

enabled for this command to be accepted.

bit times. TxDA will remain High for one bit time before the

next character, if any, is transmitted.

(Low).

(High).

restart the C/T as each receive character is transferred from

the shift register to the RxFIFO. The C/T is placed in the

counter mode, the START/STOP counter commands are

disabled, the counter is stopped, and the Counter Ready Bit,

ISR[3], is reset. (See also Watchdog timer description in the

receiver section.)

C/T to the regular START/STOP counter commands. It does

not stop the counter, or clear any pending interrupts. After

disabling the timeout mode, a ‘Stop Counter’ command

should be issued to force a reset of the ISR(3) bit.

stopped and all functions requiring this clock are suspended.

The execution of commands other than disable power down

mode (1111) requires a X1/CLK. While in the power down

mode, do not issue any commands to the CR except the

disable power down mode command. The contents of all

registers will be saved while in this mode. . It is

recommended that the transmitter and receiver be disabled

1111 Disable Power Down Mode. This command restarts the

CRA[3] – Disable Channel A Transmitter

This command terminates transmitter operation and reset the

TxDRY and TxEMT status bits. However, if a character is being

transmitted or if a character is in the TxFIFO when the transmitter is

disabled, the transmission of the character(s) is completed before

assuming the inactive state.

CRA[2] – Enable Channel A Transmitter

Enables operation of the Channel A transmitter. The TxRDY and

TxEMT status bits will be asserted if the transmitter is idle.

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 multidrop 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.

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 downmode. These two commands are not used in

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

SRA – Channel A Status Register

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

prior to placing the DUART into power down mode. This

command is in CRA only.

oscillator. After invoking this command, wait for the oscillator

to start up before writing further commands to the CR. This

command is in CRA only. For maximum power reduction

input pins should be at V

or V

Product specification

SC26C92

SC26C92C1A,518 NXP Semiconductors, SC26C92C1A,518 Datasheet - Page 19

SC26C92C1A,518

Specifications of SC26C92C1A,518

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