參數(shù)資料
型號(hào): AD7233AN
廠商: ANALOG DEVICES INC
元件分類: DAC
英文描述: ; Series:M; Thermistor Type:NTC; Resistance:100kohm; Package/Case:Radial; Leaded Process Compatible:No; Peak Reflow Compatible (260 C):No; R/T Curve:4 RoHS Compliant: No
中文描述: SERIAL INPUT LOADING, 5 us SETTLING TIME, 12-BIT DAC, PDIP8
封裝: MINI, PLASTIC, DIP-8
文件頁數(shù): 7/8頁
文件大?。?/td> 99K
代理商: AD7233AN
AD7233
REV. A
–7–
MICROPROCESSOR INTERFACING
Microprocessor interfacing to the AD7233 is via a serial bus
which uses standard protocol compatible with DSP processors
and microcontrollers. The communications channel requires a
three-wire interface consisting of a clock signal, a data signal and
a synchronization signal. The AD7233 requires a 16-bit data
word with data valid on the falling edge of SCLK. For all of the
interfaces, the DAC update may be done automatically when all
the data is clocked in or it may done under control of
LDAC
.
Figures 5 to 8 show the AD7233 configured for interfacing to a
number of popular DSP processors and microcontrollers.
AD7233–ADSP-2101/ADSP-2102 Interface
Figure 5 shows a serial interface between the AD7233 and the
ADSP-2101/ADSP-2102 DSP processor. The ADSP-2101/
ADSP-2102 contains two serial ports, and either port may be
used in the interface. The data transfer is initiated by
TFS
going
low. Data from the ADSP-2101/ADSP-2102 is clocked into the
AD7233 on the falling edge of SCLK. When the data transfer is
complete
TFS
is taken high. In the interface shown the DAC is
updated using an external timer which generates an
LDAC
pulse. This could also be done using a control or decoded ad-
dress line from the processor. Alternatively, the
LDAC
input
could be hardwired low, and in this case the automatic update
mode is selected whereby the DAC update takes place automati-
cally on the 16th falling edge of SCLK.
TIMER
LDAC
ADSP-2101/
ADSP-2102*
SDIN
SCLK
* ADDITIONAL PINS OMITTED FOR CLARITY
SYNC
SCLK
DT
AD7233*
TFS
Figure 5. AD7233 to ADSP-2101/ADSP-2102 Interface
AD7233-DSP56000 Interface
A serial interface between the AD7233 and the DSP56000 is
shown in Figure 6. The DSP56000 is configured for Normal
Mode Asynchronous operation with Gated Clock. It is also set
up for a 16-bit word with SCK and SC2 as outputs and the FSL
control bit set to a 0. SCK is internally generated on the
DSP56000 and applied to the AD7233 SCLK input. Data from
the DSP56000 is valid on the falling edge of SCK. The SC2
output provides the framing pulse for valid data. This line must
be inverted before being applied to the
SYNC
input of the
AD7233.
The
LDAC
input of the AD7233 is connected to GND so the
update of the DAC latch takes place automatically on the 16th
falling edge of SCLK. An external timer could also be used as in
the previous interface if an external update is required.
LDAC
DSP56000
SCLK
SDIN
SCK
STD
* ADDITIONAL PINS OMITTED FOR CLARITY
AD7233*
SC2
SYNC
Figure 6. AD7233 to DSP56000 Interface
AD7233–87C51 Interface
A serial interface between the AD7233 and the 87C51 micro-
controller is shown in Figure 7. TXD of the 87C51 drives
SCLK of the AD7233 while RXD drives the serial data line of
the part. The
SYNC
signal is derived from the port line P3.3.
The 87C51 provides the LSB of its SBUF register as the first bit
in the serial data stream. Therefore, the user will have to ensure
that the data in the SBUF register is arranged correctly so that
the don’t care bits are the first to be transmitted to the AD7233
and the last bit to be sent is the LSB of the word to be loaded to
the AD7233. When data is to be transmitted to the part, P3.3 is
taken low. Data on RXD is valid on the falling edge of TXD.
The 87C51 transmits its serial data in 8-bit bytes with only eight
falling clock edges occurring in the transmit cycle. To load data
to the AD7233, P3.3 is kept low after the first eight bits are
transferred and a second byte of data is then transferred serially
to the AD7233. When the second serial transfer is complete, the
P3.3 line is taken high.
Figure 7 shows the
LDAC
input of the AD7233 hardwired low.
As a result, the DAC latch and the analog output will be up-
dated on the sixteenth falling edge of TXD after the
SYNC
sig-
nal for the DAC has gone low. Alternatively, the scheme used in
previous interfaces, whereby the
LDAC
input is driven from a
timer, can be used.
LDAC
87C51*
SDIN
TXD
* ADDITIONAL PINS OMITTED FOR CLARITY
SYNC
SCLK
RXD
AD7233*
P3.3
Figure 7. AD7233 to 87C51 Interface
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