SC16C852VIET-G NXP Semiconductors, SC16C852VIET-G Datasheet - Page 19

SC16C852VIET-G

Manufacturer Part Number

SC16C852VIET-G

Description

Manufacturer

NXP Semiconductors

Datasheet

1.SC16C852VIET-G.pdf (54 pages)

Specifications of SC16C852VIET-G

Transmitter And Receiver Fifo Counter

Yes

Data Rate

5Mbps

Mounting

Surface Mount

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Number Of Channels

Lead Free Status / RoHS Status

Compliant

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NXP Semiconductors

SC16C852V_4

Product data sheet

6.14.3.1 Normal Multi-drop mode

6.14.1 Auto RS-485 RTS control

6.14.2 RS-485 RTS inversion

6.14.3 Auto 9-bit mode (RS-485)

6.14 RS-485 features

Normally the RTSx pin is controlled by MCR bit 1, or if hardware ﬂow control is enabled,

the logic state of the RTSx pin is controlled by the hardware ﬂow control circuitry. EFCR2

transmitter will control the state of the RTSx pin. The transmitter automatically asserts the

RTSx pin (logic 0) once the host writes data to the transmit FIFO, and de-asserts the

RTSx pin (logic 1) once the last bit of the data has been transmitted.

To use the auto RS-485 RTS mode, the software would have to disable the hardware ﬂow

control function.

EFCR2 bit 5 reverses the polarity of the RTSx pin if the UART is in auto RS-485 RTS

mode.

When the transmitter has data to be sent, it will de-assert the RTSx pin (logic 1), and

when the last bit of the data has been sent out, the transmitter asserts the RTS pin

(logic 0).

EFCR2 bit 0 is used to enable the 9-bit mode (Multi-drop or RS-485 mode). In this mode

of operation, a ‘master’ station transmits an address character followed by data characters

for the addressed ‘slave’ stations. The slave stations examine the received data and

interrupt the controller if the received character is an address character (parity bit = 1).

To use the auto 9-bit mode the software would have to disable the hardware and software

ﬂow control functions.

The 9-bit Mode in EFCR (bit 0) is enabled, but not Special Character Detect (EFR bit 5).

The receiver is set to Force Parity 0 (LCR[5:3] = 111) in order to detect address bytes.

With the receiver initially disabled, it ignores all the data bytes (parity bit = 0) until an

address byte is received (parity bit = 1). This address byte will cause the UART to set the

parity error. The UART will generate a line status interrupt (IER bit 2 must be set to ‘1’ at

this time), and at the same time puts this address byte in the RX FIFO. After the controller

examines the byte it must make a decision whether or not to enable the receiver; it should

enable the receiver if the address byte addresses its ID address, and must not enable the

receiver if the address byte does not address its ID address.

If the controller enables the receiver, the receiver will receive the subsequent data until

being disabled by the controller after the controller has received a complete message from

the ‘master’ station. If the controller does not disable the receiver after receiving a

message from the ‘master’ station, the receiver will generate a parity error upon receiving

another address byte. The controller then determines if the address byte addresses its ID

address, if it is not, the controller then can disable the receiver. If the address byte

addresses the ‘slave’ ID address, the controller take no further action, the receiver will

receive the subsequent data.

Dual UART with 128-byte FIFOs, IrDA, and XScale VLIO bus interface

Rev. 04 — 14 January 2008

SC16C852V

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SC16C852VIET-G NXP Semiconductors, SC16C852VIET-G Datasheet - Page 19

SC16C852VIET-G

Specifications of SC16C852VIET-G

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