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| 型号: | MCP2510-I/SO |
| 厂商: | Microchip Technology |
| 文件页数: | 53/80页 |
| 文件大小: | 0K |
| 描述: | IC CAN CONTRLER IND TEMP 18SOIC |
| 产品培训模块: | CAN Bus Protection |
| 标准包装: | 42 |
| 控制器类型: | CAN 接口 |
| 接口: | SPI |
| 电源电压: | 3 V ~ 5.5 V |
| 电流 - 电源: | 10mA |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 18-SOIC(0.295",7.50mm 宽) |
| 供应商设备封装: | 18-SOIC |
| 包装: | 管件 |
| 产品目录页面: | 685 (CN2011-ZH PDF) |
| 配用: | DV251001-ND - KIT DEVELOPMENT CAN MCP2510 |
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2007 Microchip Technology Inc.
DS21291F-page 57
MCP2510
11.0
SPI INTERFACE
11.1
Overview
The MCP2510 is designed to interface directly with the
Serial Peripheral Interface (SPI) port available on many
microcontrollers and supports Mode 0,0 and Mode 1,1.
Commands and data are sent to the device via the SI
pin, with data being clocked in on the rising edge of
SCK. Data is driven out by the MCP2510, on the SO
line, on the falling edge of SCK. The CS pin must be
held low while any operation is performed. Table 11-1
shows the instruction bytes for all operations. Refer to
Figure 11-8 and Figure 11-9 for detailed input and out-
put timing diagrams for both Mode 0,0 and Mode 1,1
operation.
11.2
Read Instruction
The Read Instruction is started by lowering the CS pin.
The read instruction is then sent to the MCP2510 fol-
lowed by the 8-bit address (A7 through A0). After the
read instruction and address are sent, the data stored
in the register at the selected address will be shifted out
on the SO pin. The internal address pointer is automat-
ically incremented to the next address after each byte
of data is shifted out. Therefore it is possible to read the
next consecutive register address by continuing to pro-
vide clock pulses. Any number of consecutive register
locations can be read sequentially using this method.
The read operation is terminated by raising the CS pin
11.3
Write Instruction
The Write Instruction is started by lowering the CS pin.
The write instruction is then sent to the MCP2510 fol-
lowed by the address and at least one byte of data. It is
possible to write to sequential registers by continuing to
clock in data bytes, as long as CS is held low. Data will
actually be written to the register on the rising edge of
the SCK line for the D0 bit. If the CS line is brought high
before eight bits are loaded, the write will be aborted for
that data byte, previous bytes in the command will have
been
written.
Refer
to
the
timing
diagram
in
Figure 11-3 for more detailed illustration of the byte
write sequence.
11.4
Request To Send (RTS) Instruction
The RTS command can be used to initiate message
transmission for one or more of the transmit buffers.
The part is selected by lowering the CS pin and the
RTS command byte is then sent to the MCP2510. As
shown in Figure 11-4, the last 3 bits of this command
indicate which transmit buffer(s) are enabled to send.
This command will set the TxBnCTRL.TXREQ bit for
the respective buffer(s). Any or all of the last three bits
can be set in a single command. If the RTS command
is sent with nnn = 000, the command will be ignored.
11.5
Read Status Instruction
The Read Status Instruction allows single instruction
access to some of the often used status bits for mes-
sage reception and transmission.
The part is selected by lowering the CS pin and the
read status command byte, shown in Figure 11-6, is
sent to the MCP2510. After the command byte is sent,
the MCP2510 will return eight bits of data that contain
the status. If additional clocks are sent after the first
eight bits are transmitted, the MCP2510 will continue to
output the status bits as long as the CS pin is held low
and clocks are provided on SCK. Each status bit
returned in this command may also be read by using
the standard read command with the appropriate regis-
ter address.
11.6
Bit Modify Instruction
The Bit Modify Instruction provides a means for setting
or clearing individual bits in specific status and control
registers. This command is not available for all regis-
ters. See Section 10.0 (register map) to determine
which registers allow the use of this command.
The part is selected by lowering the CS pin and the Bit
Modify command byte is then sent to the MCP2510.
After the command byte is sent, the address for the
register is sent followed by the mask byte and then the
data byte. The mask byte determines which bits in the
register will be allowed to change. A ‘1’ in the mask byte
will allow a bit in the register to change and a ‘0’ will not.
The data byte determines what value the modified bits
in the register will be changed to. A ‘1’ in the data byte
will set the bit and a ‘0’ will clear the bit, provided that
the mask for that bit is set to a ‘1’. (see Figure 11-1)
11.7
Reset Instruction
The Reset Instruction can be used to re-initialize the
internal registers of the MCP2510 and set configuration
mode. This command provides the same functionality,
via the SPI interface, as the RESET pin. The Reset
instruction is a single byte instruction which requires
selecting the device by pulling CS low, sending the
instruction byte, and then raising CS. It is highly recom-
mended that the reset command be sent (or the
RESET pin be lowered) as part of the power-on initial-
ization sequence. The MCP2510 will be held in reset
for 128 FOSC cycles.
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相关代理商/技术参数 |
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|---|---|
| MCP2510-IST | 制造商:MICROCHIP 制造商全称:Microchip Technology 功能描述:Stand-Alone CAN Controller with SPI Interface |
| MCP2510I-ST | 制造商:MICROCHIP 制造商全称:Microchip Technology 功能描述:Stand-Alone CAN Controller with SPIa?¢ Interface |
| MCP2510T-/P | 制造商:MICROCHIP 制造商全称:Microchip Technology 功能描述:Stand-Alone CAN Controller with SPI⑩ Interface |
| MCP2510T-/SO | 制造商:MICROCHIP 制造商全称:Microchip Technology 功能描述:Stand-Alone CAN Controller with SPI⑩ Interface |
| MCP2510T-/ST | 制造商:MICROCHIP 制造商全称:Microchip Technology 功能描述:Stand-Alone CAN Controller with SPI⑩ Interface |
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