OX16C950-TQBG OXFORD SEMICONDUCTOR, OX16C950-TQBG Datasheet - Page 23
OX16C950-TQBG
Manufacturer Part Number
OX16C950-TQBG
Description
IC, UART, 1CH, SMD, TQFP48, 950
Manufacturer
OXFORD SEMICONDUCTOR
Datasheet
1.OX16C950-TQBG.pdf
(50 pages)
Specifications of OX16C950-TQBG
No. Of Channels
1
Data Rate
15Mbps
Uart Features
Tx/Rx FIFO INT TRIG
Supply Voltage Range
3V To 5.25V
Operating Temperature Range
0°C To +70°C
Digital Ic Case Style
TQFP
No. Of Pins
48
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
OX16C950-TQBG
Manufacturer:
SAMSUNG
Quantity:
450
LCR[1:0]: Data length
LCR[1:0] Determines the data length of serial characters.
Note however, that these values are ignored in 9-bit data
framing mode, i.e. when NMR[0] is set.
LCR[2]: Number of stop bits
LCR[2] defines the number of stop bits per serial character.
LCR[5:3]: Parity type
The selected parity type will be generated during
transmission and checked by the receiver, which may
produce a parity error as a result. In 9-bit mode parity is
disabled and LCR[5:3] is ignored.
LCR[6]: Transmission break
logic 0 ⇒ Break transmission disabled.
logic 1 ⇒ Forces the transmitter data output SOUT low
It is the responsibility of the software driver to ensure that
the break duration is longer than the character period for it
to be recognised remotely as a break rather than data.
LCR[7]: Divisor latch enable
logic 0 ⇒ Access to DLL and DLM registers disabled.
logic 1 ⇒ Access to DLL and DLM registers enabled.
DS-0031 Sep 05
OXFORD SEMICONDUCTOR LTD.
Table 12: LCR Stop Bit Number Configuration
Table 11: LCR Data Length Configuration
LCR[1:0]
LCR[5:3]
LCR[2]
Table 13: LCR Parity Configuration
001
011
101
111
xx0
00
01
10
11
to alert the communication terminal, or send
zeros in IrDA mode.
0
1
1
Data length
5,6,7,8
6,7,8
Parity bit forced to 1
Parity bit forced to 0
5
Even parity bit
Odd parity bit
Data length
No parity bit
Parity type
5 bits
6 bits
7 bits
8 bits
No. stop
bits
1.5
1
2
External—Free Release
9.3
This register provides the status of data transfer to CPU.
LSR[0]: RHR data available
logic 0 ⇒ RHR is empty: no data available
logic 1 ⇒ RHR is not empty: data is available to be read.
LSR[1]: RHR overrun error
logic 0 ⇒ No overrun error.
logic 1 ⇒ Data was received when the RHR was full. An
LSR[2]: Received data parity error
logic 0 ⇒ No parity error in normal mode or 9
logic 1 ⇒ Data has been received that did not have
The flag will be set when the data item in error is at the top
of the RHR and cleared following a read of the LSR. In 9-
bit mode LSR[2] is no longer a flag and corresponds to the
9
LSR[3]: Received data framing error
logic 0 ⇒ No framing error.
logic 1 ⇒ Data has been received with an invalid stop
This status bit is set and cleared in the same manner as
LSR[2]. When a framing error occurs, the UART will try to
re-synchronise by assuming that the error was due to
sampling the start bit of the next data item.
LSR[4]: Received break error
logic 0 ⇒ No receiver break error.
logic 1 ⇒ The receiver received a break.
A break condition occurs when the SIN line goes low
(normally signifying a start bit) and stays low throughout
the start, data, parity and first stop bit. (Note that the SIN
line is sampled at the bit rate). One zero character with
associated break flag set will be transferred to the RHR
and the receiver will then wait until the SIN line returns
high. The LSR[4] break flag will be set when this data item
gets to the top of the RHR and it is cleared following a read
of the LSR.
LSR[5]: THR empty
logic 0 ⇒ Transmitter FIFO (THR) is not empty.
logic 1 ⇒ Transmitter FIFO (THR) is empty.
th
bit of the received data in RHR.
Line Status Register ‘LSR’
overrun error has occurred. The error is
flagged when the data would normally have
been transferred to the RHR.
received data is ‘0’ in 9-bit mode.
correct parity in normal mode or 9
received data is ‘1’ in 9-bit mode.
bit.
OX16C950 rev B
th
Page 23
th
bit of
bit of
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