SC16C650BIN40 NXP Semiconductors, SC16C650BIN40 Datasheet - Page 16

SC16C650BIN40

Manufacturer Part Number

SC16C650BIN40

Description

Manufacturer

NXP Semiconductors

Datasheet

1.SC16C650BIN40.pdf (51 pages)

Specifications of SC16C650BIN40

Transmitter And Receiver Fifo Counter

Yes

Package Type

PDIP

Operating Supply Voltage (max)

5.5V

Mounting

Through Hole

Pin Count

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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6.10 Loop-back mode

6.8 DMA operation

6.9 Sleep mode

The SC16C650B FIFO trigger level provides additional ﬂexibility to the user for block

mode operation. The user can optionally operate the transmit and receive FIFOs in

the DMA mode (FCR[3]). The DMA mode affects the state of the RXRDY and TXRDY

output pins. Tables

Table 6:

Table 7:

The SC16C650B is designed to operate with low power consumption. A special sleep

mode is included to further reduce power consumption when the chip is not being

used. With EFR[4] and IER[4] enabled (set to a logic 1), the SC16C650B enters the

sleep mode, but resumes normal operation when a start bit is detected, a change of

state on any of the modem input pins RI, CTS, DSR, DCD, RX pin, or a transmit data

is provided by the user. If the sleep mode is enabled and the SC16C650B is

awakened by one of the conditions described above, it will return to the sleep mode

automatically after the last character is transmitted or read by the user. In any case,

the sleep mode will not be entered while an interrupt(s) is pending. The SC16C650B

will stay in the sleep mode of operation until it is disabled by setting IER[4] to a

logic 0.

The internal loop-back capability allows on-board diagnostics. In the loop-back mode,

the normal modem interface pins are disconnected and reconﬁgured for loop-back

internally. MCR[0:3] register bits are used for controlling loop-back diagnostic testing.

In the loop-back mode, OUT1 and OUT2 in the MCR register (bits 2:3) control the

modem RI and DCD inputs, respectively. MCR signals DTR and RTS (bits 0:1) are

used to control the modem DSR and CTS inputs, respectively. The transmitter output

(TX) and the receiver input (RX) are disconnected from their associated interface

pins, and instead are connected together internally (see

DCD, and RI are disconnected from their normal modem control input pins, and

instead are connected internally to DTR, RTS, OUT1 and OUT2. Loop-back test data

is entered into the transmit holding register via the user data bus interface, D0-D7.

The transmit UART serializes the data and passes the serial data to the receive

UART via the internal loop-back connection. The receive UART converts the serial

data back into parallel data that is then made available at the user data interface

D0-D7. The user optionally compares the received data to the initial transmitted data

for verifying error-free operation of the UART TX/RX circuits.

Non-DMA mode

1 = FIFO empty

0 = at least 1 byte in FIFO

Non-DMA mode

1 = at least 1 byte in FIFO

0 = FIFO empty

Effect of DMA mode on state of RXRDY pin

Effect of DMA mode on state of TXRDY pin

Rev. 03 — 10 December 2004

and

show this.

UART with 32-byte FIFOs and IrDA encoder/decoder

DMA mode

0-to-1 transition when FIFO empties

1-to-0 transition when FIFO reaches trigger level,

or time-out occurs

DMA mode

0-to-1 transition when FIFO becomes full

1-to-0 transition when FIFO has 1 empty space

Figure

SC16C650B

8). The CTS, DSR,

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SC16C650BIN40 NXP Semiconductors, SC16C650BIN40 Datasheet - Page 16

SC16C650BIN40

Specifications of SC16C650BIN40

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