參數(shù)資料
型號: AD7890BRZ-4
廠商: Analog Devices Inc
文件頁數(shù): 13/28頁
文件大?。?/td> 0K
描述: IC DAS 12BIT 8CH 24-SOIC
產(chǎn)品變化通告: Product Discontinuance 27/Oct/2011
標準包裝: 31
類型: 數(shù)據(jù)采集系統(tǒng)(DAS)
分辨率(位): 12 b
采樣率(每秒): 117k
數(shù)據(jù)接口: 串行
電壓電源: 單電源
電源電壓: 5V
工作溫度: -40°C ~ 85°C
安裝類型: 表面貼裝
封裝/外殼: 24-SOIC(0.295",7.50mm 寬)
供應商設備封裝: 24-SOIC W
包裝: 管件
AD7890
Rev. C | Page 20 of 28
MICROPROCESSOR/MICROCONTROLLER INTERFACE
The AD7890’s flexible serial interface allows for easy
connection to the serial ports of DSP processors and
microcontrollers. Figure 14 through Figure 17 show the
AD7890 interfaced to a number of different microcontrollers
and DSP processors. In some of the interfaces shown, the
AD7890 is configured as the master in the system, providing
the serial clock and frame sync for the read operation while in
others it acts as a slave with these signals provided by the
microprocessor.
AD7890 TO 8051 INTERFACE
Figure 14 shows an interface between the AD7890 and the
8xC51 microcontroller. The AD7890 is configured for its
external clocking mode while the 8xC51 is configured for its
Mode 0 serial interface mode. The diagram shown in Figure 14
makes no provisions for monitoring when conversion is
complete on the AD7890 (assuming hardware conversion start
is used). To monitor the conversion time on the AD7890, a
scheme, such as the scheme outlined with CONVST in the
Simplifying the Interface section, can be used. This can be
implemented in two ways. One is to connect the CONVST line
to another parallel port bit, which is configured as an input.
This port bit can then be polled to determine when conversion is
complete. An alternative is to use an interrupt driven system where
the CONVST line is connected to the INT1 input of the 8xC51.
Since the 8xC51 contains only one serial data line, the DATA
OUT and DATA IN lines of the AD7890 must be connected
together. This means that the 8xC51 cannot communicate with
the output register and control register of the AD7890 at the
same time. The 8xC51 outputs the LSB first in a write operation
so care should be taken in arranging the data, which is to be
transmitted to the AD7890. Similarly, the AD7890 outputs the
MSB first during a read operation while the 8xC51 expects the
LSB first. Therefore, the data that is to be read into the serial
port needs to be rearranged before the correct data word from
the AD7890 is available in the microcontroller.
The serial clock rate from the 8xC51 is limited to significantly
less than the allowable input serial clock frequency with which
the AD7890 can operate. As a result, the time to read data from
the part is actually longer than the conversion time of the part.
This means that the AD7890 cannot run at its maximum
throughput rate when used with the 8xC51.
VDD
SMODE
RFS
TFS
DATA OUT
DATA IN
SCLK
P1.0
P1.1
P3.0
P3.1
AD7890
8xC51
01
35
7-
01
4
Figure 14. AD7890 to 8xC51 Interface
AD7890 TO 68HC11 INTERFACE
An interface circuit between the AD7890 and the 68HC11
microcontroller is shown in Figure 15. For the interface shown,
the AD7890 is configured for its external clocking mode while
the 68HC11’s SPI port is used and the 68HC11 is configured in
its single-chip mode. The 68HC11 is configured in the master
mode with its CPOL bit set to a Logic 0 and its CPHA bit set to
a Logic 1.
As with the previous interface, there are no provisions for
monitoring when conversion is complete on the AD7890. To
monitor the conversion time on the AD7890, a scheme, such as
the scheme outlined with CONVST in the Simplifying the
Interface section, can be used. This can be implemented in two
ways. One is to connect the CONVST line to another parallel
port bit, which is configured as an input. This port bit can then
be polled to determine when conversion is complete. An alternative
is to use an interrupt driven system in which case the CONVST
line should be connected to the IRQ input of the 68HC11.
DVDD
SMODE
RFS
TFS
DATA OUT
DATA IN
SCLK
SS
PC0
PC1
SCK
MISO
MOSI
68HC11
AD7890
0
135
7-
0
15
Figure 15. AD7890 to 68HC11 Interface
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