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鍙冩暩(sh霉)璩囨枡
鍨嬭櫉(h脿o)锛� PIC18F4439T-E/ML
寤犲晢锛� Microchip Technology
鏂囦欢闋佹暩(sh霉)锛� 60/322闋�
鏂囦欢澶у皬锛� 0K
鎻忚堪锛� IC PIC MCU FLASH 6KX16 44QFN
妯�(bi膩o)婧�(zh菙n)鍖呰锛� 1,600
绯诲垪锛� PIC® 18F
鏍稿績铏曠悊鍣細 PIC
鑺珨灏哄锛� 8-浣�
閫熷害锛� 40MHz
閫i€氭€э細 I²C锛孲PI锛孶ART/USART
澶栧湇瑷�(sh猫)鍌欙細 娆犲妾㈡脯/寰�(f霉)浣嶏紝LVD锛孭OR锛孭WM锛學DT
杓稿叆/杓稿嚭鏁�(sh霉)锛� 32
绋嬪簭瀛樺劜(ch菙)鍣ㄥ閲忥細 12KB锛�6K x 16锛�
绋嬪簭瀛樺劜(ch菙)鍣ㄩ鍨嬶細 闁冨瓨
EEPROM 澶�?銆�?/td> 256 x 8
RAM 瀹归噺锛� 640 x 8
闆诲 - 闆绘簮 (Vcc/Vdd)锛� 4.2 V ~ 5.5 V
鏁�(sh霉)鎿�(j霉)杞�(zhu菐n)鎻涘櫒锛� A/D 8x10b
鎸暕鍣ㄥ瀷锛� 鍏�(n猫i)閮�
宸ヤ綔婧害锛� -40°C ~ 125°C
灏佽/澶栨锛� 44-VQFN 瑁搁湶鐒婄洡
鍖呰锛� 甯跺嵎 (TR)
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PIC18FXX39
DS30485A-page 150
Preliminary
2002 Microchip Technology Inc.
16.4.6.1
I2C Master Mode Operation
The master device generates all of the serial clock
pulses and the START and STOP conditions. A trans-
fer is ended with a STOP condition, or with a Repeated
START condition. Since the Repeated START condi-
tion is also the beginning of the next serial transfer, the
I2C bus will not be released.
In Master Transmitter mode, serial data is output
through SDA, while SCL outputs the serial clock. The
first byte transmitted contains the slave address of the
receiving device (7 bits) and the Read/Write (R/W) bit.
In this case, the R/W bit will be logic '0'. Serial data is
transmitted 8 bits at a time. After each byte is transmit-
ted, an Acknowledge bit is received. START and STOP
conditions are output to indicate the beginning and the
end of a serial transfer.
In Master Receive mode, the first byte transmitted con-
tains the slave address of the transmitting device
(7 bits) and the R/W bit. In this case, the R/W bit will be
logic '1'. Thus, the first byte transmitted is a 7-bit slave
address followed by a '1' to indicate the receive bit.
Serial data is received via SDA, while SCL outputs the
serial clock. Serial data is received 8 bits at a time. After
each byte is received, an Acknowledge bit is transmit-
ted. START and STOP conditions indicate the
beginning and end of transmission.
The baud rate generator used for the SPI mode opera-
tion is used to set the SCL clock frequency for either
100 kHz, 400 kHz or 1 MHz I2C operation. See
Section 16.4.7 (鈥淏aud Rate Generator鈥�), for more
detail.
A typical transmit sequence would go as follows:
1.
The user generates a START condition by set-
ting
the
START
enable
bit,
SEN
(SSPCON2<0>).
2.
SSPIF is set. The MSSP module will wait the
required start time before any other operation
takes place.
3.
The user loads the SSPBUF with the slave
address to transmit.
4.
Address is shifted out the SDA pin until all 8 bits
are transmitted.
5.
The MSSP module shifts in the ACK bit from the
slave device and writes its value into the
SSPCON2 register (SSPCON2<6>).
6.
The MSSP module generates an interrupt at the
end of the ninth clock cycle by setting the SSPIF
bit.
7.
The user loads the SSPBUF with eight bits of
data.
8.
Data is shifted out the SDA pin until all 8 bits are
transmitted.
9.
The MSSP module shifts in the ACK bit from the
slave device and writes its value into the
SSPCON2 register (SSPCON2<6>).
10. The MSSP module generates an interrupt at the
end of the ninth clock cycle by setting the SSPIF
bit.
11. The user generates a STOP condition by setting
the STOP enable bit PEN (SSPCON2<2>).
12. Interrupt is generated once the STOP condition
is complete.
鐩搁棞(gu膩n)PDF璩囨枡
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