SC16IS750IBS,151 NXP Semiconductors, SC16IS750IBS,151 Datasheet - Page 36

SC16IS750IBS,151

Manufacturer Part Number

SC16IS750IBS,151

Description

IC UART I2C/SPI 24-HVQFN

Manufacturer

NXP Semiconductors

Type

IrDA or RS- 232 or RS- 485r

Datasheet

1.SC16IS740IPW112.pdf (62 pages)

Specifications of SC16IS750IBS,151

Number Of Channels

1, UART

Package / Case

24-VQFN Exposed Pad, 24-HVQFN, 24-SQFN, 24-DHVQFN

Features

Low Current

Fifo's

64 Byte

Protocol

RS232, RS485

Voltage - Supply

2.5V, 3.3V, 5V

With Auto Flow Control

Yes

With False Start Bit Detection

Yes

With Modem Control

Yes

Mounting Type

Surface Mount

Data Rate

5 Mbps

Supply Voltage (max)

3.6 V

Supply Voltage (min)

2.3 V

Supply Current

6 mA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Mounting Style

SMD/SMT

Operating Supply Voltage

2.5 V or 3.3 V

Transmit Fifo

64Byte

Receive Fifo

64Byte

Transmitter And Receiver Fifo Counter

Operating Supply Voltage (max)

3.6V

Mounting

Surface Mount

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

568-4000 - DEMO BOARD SPI/I2C TO DUAL UART568-3510 - DEMO BOARD SPI/I2C TO UART

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

568-2234
935279271151
SC16IS750IBS-S

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NXP Semiconductors

SC16IS740_750_760_6

Product data sheet

9.3.1 Normal multidrop mode

9.3.2 Auto address detection

9.2 RS-485 RTS output inversion

9.3 Auto RS-485

EFCR bit 5 reverses the polarity of the RTS pin if the UART is in auto RS-485 RTS mode.

When the transmitter has data to be sent it will deasserts the RTS pin (logic 1), and when

the last bit of the data has been sent out the transmitter asserts the RTS pin (logic 0).

EFCR bit 0 is used to enable the RS-485 mode (multidrop or 9-bit 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 RS-485 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.

If Special Character Detect is enabled (EFR[5] is set and the XOFF2 register contains the

address byte) the receiver will try to detect an address byte that matches the programmed

character in the XOFF2 register. If the received byte is a data byte or an address byte that

does not match the programmed character in the XOFF2 register, the receiver will discard

these data. Upon receiving an address byte that matches the Xoff2 character, the receiver

will be automatically enabled if not already enabled, and the address character is pushed

into the RX FIFO along with the parity bit (in place of the parity error bit). The receiver also

generates a line status interrupt (IER[2] must be set to ‘1’ at this time). The receiver will

then receive the subsequent data from the ‘master’ station until being disabled by the

controller after having received a message from the ‘master’ station.

If another address byte is received and this address byte does not match Xoff2 character,

the receiver will be automatically disabled and the address byte is ignored. If the address

byte matches Xoff2 character, the receiver will put this byte in the RX FIFO along with the

parity bit in the parity error bit (LSR bit 2).

Single UART with I

Rev. 06 — 13 May 2008

C-bus/SPI interface, 64-byte FIFOs, IrDA SIR

SC16IS740/750/760

36 of 62

SC16IS750IBS,151 NXP Semiconductors, SC16IS750IBS,151 Datasheet - Page 36

SC16IS750IBS,151

Specifications of SC16IS750IBS,151

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