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SC16C850VIBS,128

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P30P31-P33P34-P36P37-P39P40-P42P43-P45P46-P48
SC16C850V All information provided in this document is subject to legal disclaimers. © NXP B.V. 2011. All rights reserved.
Product data sheet Rev. 5 — 19 January 2011 25 of 48
NXP Semiconductors
SC16C850V
Single UART with 128-byte FIFOs, IrDA, and XScale VLIO bus interface
7.6 Modem Control Register (MCR)
This register controls the interface with the modem or a peripheral device.
Table 17. LCR[1:0] word length
LCR[1] LCR[0] Word length (bits)
00 5
01 6
10 7
11 8
Table 18. Modem Control Register bits description
Bit Symbol Description
7 MCR[7] Clock select
logic 0 = divide-by-1 clock input
logic 1 = divide-by-4 clock input
6 MCR[6] IR enable (see Figure 14
).
logic 0 = enable the standard modem receive and transmit input/output
interface (normal default condition)
logic 1 = enable infrared IrDA receive and transmit inputs/outputs. While in
this mode, the TX/RX output/inputs are routed to the infrared
encoder/decoder. The data input and output levels will conform to the IrDA
infrared interface requirement. As such, while in this mode, the infrared TX
output will be a logic 0 during idle data conditions.
5 MCR[5] Interrupt type.
logic 0 = CMOS output
logic 1 = open-source. A 300 Ω to 500 Ω pull-down resistor is required.
4 MCR[4] Loopback. Enable the local Loopback mode (diagnostics). In this mode the
transmitter output (TX
) and the receiver input (RX), CTS, DSR, CD, and RI are
disconnected from the SC16C850V I/O pins. Internally the modem data and
control pins are connected into a loopback data configuration (see Figure 6
). In
this mode, the receiver and transmitter interrupts remain fully operational. The
Modem Control Interrupts are also operational, but the interrupts’ sources are
switched to the lower four bits of the Modem Control. Interrupts continue to be
controlled by the IER register.
logic 0 = disable Loopback mode (normal default condition)
logic 1 = enable local Loopback mode (diagnostics)
3 MCR[3] OP2
. This bit is used for internal Loopback mode only. In Loopback mode, this
bit is used to write the state of the modem CD
interface signal.
2 MCR[2] OP1
. This bit is used for internal Loopback mode only. In Loopback mode, this
bit is used to write the state of the modem RI interface signal.
1 MCR[1] RTS
logic 0 = force RTS output to a logic 1 (normal default condition)
logic 1 = force RTS output to a logic 0
0 MCR[0] DTR
logic 0 = force DTR output to a logic 1 (normal default condition)
logic 1 = force DTR
output to a logic 0
SC16C850V All information provided in this document is subject to legal disclaimers. © NXP B.V. 2011. All rights reserved.
Product data sheet Rev. 5 — 19 January 2011 26 of 48
NXP Semiconductors
SC16C850V
Single UART with 128-byte FIFOs, IrDA, and XScale VLIO bus interface
7.7 Line Status Register (LSR)
This register provides the status of data transfers between the SC16C850V and the CPU.
Table 19. Interrupt output control
MCR[5] INT output
0active
1 open-source
Table 20. Line Status Register bits description
Bit Symbol Description
7 LSR[7] FIFO data error.
logic 0 = no error (normal default condition)
logic 1 = at least one parity error, framing error or break indication is in the
current FIFO data. This bit is cleared when there are no remaining error flags
associated with the remaining data in the FIFO.
6 LSR[6] THR and TSR empty. This bit is the Transmit Empty indicator. This bit is set to a
logic 1 whenever the transmit holding register and the transmit shift register are
both empty. It is reset to logic 0 whenever either the THR or TSR contains a data
character. In the FIFO mode, this bit is set to logic 1 whenever the transmit FIFO
and transmit shift register are both empty.
5 LSR[5] THR empty. This bit is the Transmit Holding Register Empty indicator. This bit
indicates that the UART is ready to accept a new character for transmission. In
addition, this bit causes the UART to issue an interrupt to CPU when the THR
interrupt enable is set. The THR bit is set to a logic 1 when a character is
transferred from the transmit holding register into the transmitter shift register.
The bit is reset to a logic 0 concurrently with the loading of the transmitter holding
register by the CPU. In the FIFO mode, this bit is set when the transmit FIFO is
empty; it is cleared when at least 1 byte is written to the transmit FIFO.
4 LSR[4] Break interrupt.
logic 0 = no break condition (normal default condition)
logic 1 = the receiver received a break signal (RX was a logic 0 for one
character frame time). In the FIFO mode, only one break character is loaded
into the FIFO.
3 LSR[3] Framing error.
logic 0 = no framing error (normal default condition)
logic 1 = framing error. The receive character did not have a valid stop bit(s). In
the FIFO mode, this error is associated with the character at the top of the
FIFO.
2LSR[2]Parity error.
logic 0 = no parity error (normal default condition
logic 1 = parity error. The receive character does not have correct parity
information and is suspect. In the FIFO mode, this error is associated with the
character at the top of the FIFO.
1 LSR[1] Overrun error.
logic 0 = no overrun error (normal default condition)
logic 1 = overrun error. A data overrun error occurred in the Receive Shift
Register. This happens when additional data arrives while the FIFO is full. In
this case, the previous data in the shift register is overwritten. Note that under
this condition, the data byte in the Receive Shift Register is not transferred into
the FIFO, therefore the data in the FIFO is not corrupted by the error.
SC16C850V All information provided in this document is subject to legal disclaimers. © NXP B.V. 2011. All rights reserved.
Product data sheet Rev. 5 — 19 January 2011 27 of 48
NXP Semiconductors
SC16C850V
Single UART with 128-byte FIFOs, IrDA, and XScale VLIO bus interface
7.8 Modem Status Register (MSR)
This register shares the same address as EFCR register. This is a read-only register and
it provides the current state of the control interface signals from the modem, or other
peripheral device to which the SC16C850V is connected. Four bits of this register are
used to indicate the changed information. These bits are set to a logic 1 whenever a
control input from the modem changes state. These bits are set to a logic 0 whenever the
CPU reads this register.
When write, the data will be written to EFCR register.
[1] Whenever any MSR bit 3:0 is set to logic 1, a Modem Status Interrupt will be generated.
0 LSR[0] Receive data ready.
logic 0 = no data in Receive Holding Register or FIFO (normal default
condition)
logic 1 = data has been received and is saved in the Receive Holding Register
or FIFO
Table 20. Line Status Register bits description
…continued
Bit Symbol Description
Table 21. Modem Status Register bits description
Bit Symbol Description
7 MSR[7] CD. During normal operation, this bit is the complement of the CD
input.
Reading this bit in the loopback mode produces the state of MCR[3] (OP2
).
6 MSR[6] RI. During normal operation, this bit is the complement of the RI
input. Reading
this bit in the loopback mode produces the state of MCR[2] (OP1).
5 MSR[5] DSR. During normal operation, this bit is the complement of the DSR
input.
During the loopback mode, this bit is equivalent to MCR[0] (DTR
).
4 MSR[4] CTS. During normal operation, this bit is the complement of the CTS
input.
During the loopback mode, this bit is equivalent to MCR[1] (RTS).
3MSR[3]ΔCD
[1]
logic 0 = no CD change (normal default condition)
logic 1 = the CD
input to the SC16C850V has changed state since the last
time it was read. A modem Status Interrupt will be generated.
2MSR[2]ΔRI
[1]
logic 0 = no RI change (normal default condition)
logic 1 = the RI input to the SC16C850V has changed from a logic 0 to a
logic 1. A modem Status Interrupt will be generated.
1MSR[1]ΔDSR
[1]
logic 0 = no DSR change (normal default condition)
logic 1 = the DSR input to the SC16C850V has changed state since the last
time it was read. A modem Status Interrupt will be generated.
0MSR[0]ΔCTS
[1]
logic 0 = no CTS change (normal default condition)
logic 1 = the CTS input to the SC16C850V has changed state since the last
time it was read. A modem Status Interrupt will be generated.
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SC16C850VIBS,128

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Buy SC16C850VIBS,128
Manufacturer:
NXP Semiconductors
Description:
IC UART SINGLE W/FIFO 32-HVQFN
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