參數(shù)資料
型號: MAX3111ECWI+G36
廠商: Maxim Integrated Products
文件頁數(shù): 6/31頁
文件大?。?/td> 0K
描述: IC TXRX RS232 SPI W/CAP 28-SOIC
產(chǎn)品培訓模塊: Lead (SnPb) Finish for COTS
Obsolescence Mitigation Program
標準包裝: 25
特點: 收發(fā)器
通道數(shù): 1,UART
規(guī)程: RS232,RS485
電源電壓: 3 V ~ 3.6 V
帶IrDA 編碼器/解碼器:
帶故障啟動位檢測功能:
帶CMOS:
安裝類型: 表面貼裝
封裝/外殼: 28-SOIC(0.295",7.50mm 寬)
供應商設備封裝: 28-SOIC W
包裝: 管件
產(chǎn)品目錄頁面: 1404 (CN2011-ZH PDF)
SPI/MICROWIRE-Compatible UART and ±15kV ESD-
Protected RS-232 Transceivers with Internal Capacitors
Notice to High-Level Programmers: The UART follows
the SPI convention of providing a bidirectional data path
for writes and reads. Whenever the data is written, data
is also read back. This speeds operation over the SPI
bus, and the UART needs this speed advantage when
operating at high baud rates. In most high-level lan-
guages, such as C, there are commands for writing and
reading stream I/O devices such as the console or serial
port. In C specifically, there is a “PUTCHAR” command
that transmits a character and a “GETCHAR” command
that receives a character. If programmers were to write
direct write and read commands in C with no underlying
driver code, they would notice that a PUTCHAR com-
mand is really a PUTGETCHAR command. These C
commands assume some form of BIOS-level support for
these commands. The proper way to implement these
commands is to write driver code, usually in the form of
an assembly-language interrupt-service routine and a
callable routine used by high-level routines. This driver
handles the interrupts and manages the receive and
transmit buffers for the MAX3110E/MAX3111E. When a
PUTCHAR executes, this driver is called and it safely
buffers any characters received when the current
character is transmitted. When a GETCHAR executes, it
checks its own receive buffer before getting data from
the UART. See the C-language
Outline for a MAX3110E/
MAX3111E Software Driver in Listing 1, which appears at
the end of this data sheet.
Listing 1 is a C-language outline of an interrupt-driven
software driver that interfaces to a MAX3110E/
MAX3111E, providing an intermediate layer between
the bit-manipulation subroutine and the familiar
PUTCHAR/GETCHAR subroutines.
The user must supply code for managing the transmit
and receive queues as well as the low-level hardware
interface itself. The interrupt control hardware must be
initialized before this driver is called.
Table 1. Bit Descriptions (continued)
POR
STATE
DESCRIPTION
BIT
TYPE
BIT
NAME
0
SHDNi
write
Software-Shutdown Bit. Enter software shutdown with a Write Configuration where SHDNi = 1.
Software shutdown takes effect after CS goes high, and causes the oscillator to stop as soon
as the transmitter becomes idle. Software shutdown also clears R, T, RA/FE, D0r–D7r,
D0t–D7t, Pr, Pt, and all data in the receive FIFO. RTS and CTS can be read and updated
while in shutdown. Exit software shutdown with a Write Configuration where SHDNi = 0. The
oscillator restarts typically within 50ms of CS going high. RTS and CTS are unaffected. Refer
to the
Pin Description for hardware shutdown (SHDN input).
0
SHDNo
read
Shutdown Read-Back Bit. The Read Configuration register outputs SHDNo = 1 when the
UART is in shutdown. Note that this bit is not sent until the current byte in the transmitter is
sent (T = 1). This tells the processor when it may shut down the RS-485/RS-422 driver. This bit
is also set immediately when the device is shut down through the SHDN pin.
0
RA/FE
read
Receiver-Activity/Framing-Error Bit. In shutdown mode, this is the RA bit. In normal operation,
this is the FE bit. In shutdown mode, a transition on RX sets RA = 1. In normal mode, a fram-
ing error sets FE = 1. A framing error occurs if a zero is received when the first stop bit is
expected. FE is set when a framing error occurs, and cleared upon receipt of the next proper-
ly framed character independent of the FIFO being enabled. When the device wakes up, it is
likely that a framing error will occur. This error is cleared with a Write Configuration. The FE bit
is not cleared on a Read Data operation. When an FE is encountered, the UART resets itself
to the state where it is looking for a start bit.
0
ST
write
Transmit-Stop Bit. One stop bit will be transmitted when ST = 0. Two stop bits will be transmit-
ted when ST = 1. The receiver only requires one stop bit.
0
ST
read
Reads the value of the ST bit.
0
TM
write
Mask for T Bit. IRQ is asserted if TM = 1 and T = 1 (Table 7).
0
TM
read
Reads the value of the TM bit (Table 7).
1
T
read
Transmit-Buffer-Empty Flag. T = 1 means that the transmit buffer is empty and ready to
accept another data word.
0
TE
write
Transmit-Enable Bit. If TE = 1, then only the RTS pin is updated on CS’s rising edge. The con-
tents of RTS, Pt, and D0t–D7t transmit on CS’s rising edge when TE = 0.
14
Maxim Integrated
MAX3110E/MAX3111E
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