參數(shù)資料
型號: EVAL-AD7722CBZ
廠商: Analog Devices Inc
文件頁數(shù): 13/24頁
文件大?。?/td> 0K
描述: BOARD EVALUATION FOR AD7722CBZ
標(biāo)準(zhǔn)包裝: 1
ADC 的數(shù)量: 1
位數(shù): 16
采樣率(每秒): 220k
數(shù)據(jù)接口: 串行,并聯(lián)
輸入范圍: ±VREF/2
在以下條件下的電源(標(biāo)準(zhǔn)): 375mW @ 220kSPS
工作溫度: -40°C ~ 85°C
已用 IC / 零件: AD7722
已供物品: 板,CD
REV. B
–20–
AD7722
SERIAL INTERFACE
The AD7722’s serial data interface port allows easy interfacing
to industry-standard digital signal processors. The AD7722
operates solely in the master mode, providing three serial data
output pins for transfer of the conversion results. The serial data
clock output (SCO), serial data output (SDO), and frame sync
output (FSO) are all synchronous with CLKIN. SCO frequency
is always one-half the CLKIN frequency. FSO is continuously
output at the conversion rate of the ADC (fCLKIN /64). The
generalized timing diagrams in Figure 2 show how the AD7722
may be used to transmit its conversion results.
Serial data shifts out of the SDO pin synchronous with SCO. The
FSO is used to frame the output data transmission to an external
device. An output data transmission is 32 SCO cycles in duration.
The serial data shifts out of the SDO pin MSB first, LSB last
for a duration of 16 SCO cycles. For the next 16 SCO cycles,
SDO outputs zeros.
Two control inputs, SFMT and CFMT, select the format for the
serial data transmission. FSO is either a pulse (approximately
one SCO cycle in duration) or a square wave with a period of
32 SCO cycles, depending on the state of the SFMT. The logic
level applied to SFMT also determines if the serial data is valid
on the rising or falling edge of the SCO. The clock format pin,
CFMT, simply switches the phase of SCO for the selected
FSO format.
With a logic low level on SFMT and CFMT set low (Figure 4),
FSO pulses high for one SCO cycle at the beginning of a data
transmission frame. When FSO goes low, the MSB is available
on the SDO pin after the rising edge of SCO and can be latched
on the SCO falling edge.
With a logic high level on SFMT and CFMT set low (Figure 4),
the data on the SDO pin is available after the falling edge of
SCO and can be latched on the SCO rising edge. FSO goes low
at the beginning of a data transmission frame when the MSB is
available and returns high after 16 SCO cycles.
The frame sync input (FSI) can be used if the AD7722 conver-
sion process must be synchronized to an external source. FSI is
an optional signal; if FSI is grounded or tied high frame syncs
are internally generated. Frame sync allows the conversion data
presented to the serial interface to be a filtered and decimated
result derived from a known point in time. FSI can be applied
once after power-up, or it can be a periodic signal, synchronous to
CLKIN, occurring every 64 CLKIN cycles. When FSI is applied
for the first time, or if a low-to-high transition is detected that is not
synchronized to the output word rate, the next 127 conversions
should be considered invalid while the digital filter accumulates
new samples. Figure 4 shows how the frame sync signal resets
the serial output interface and how the AD7722 will begin to
output its serial data transmission frame. A common frame sync
signal can be applied to two or more AD7722s to synchronize
them to a common master clock.
2-Channel Multiplexed Operation
Three additional serial interface control pins (DOE, TSI, and
CFMT) are provided. The connection diagram in Figure 24
shows how they are used to allow the serial data outputs of two
AD7722s to easily share one serial data line. Since a serial data
transmission frame lasts 32 SCO cycles, two AD7722s can share
a single data line by alternating transmission of their 16-bit output
data onto one SDO pin.
CFMT
SDO
SFMT
SCO
TSI
FSO
FSI
DOE
CLKIN
AD7722
MASTER
FSI
DOE
CLKIN
SDO
CFMT
SCO
SFMT
FSO
TSI
AD7722
SLAVE
DVDD
DGND
FROM
CONTROL
LOGIC
TO HOST
PROCESSOR
Figure 24. Connection for 2-Channel Multiplexed
Operation
The data output enable pin (DOE) controls SDO’s output buffer.
When the logic level on DOE matches the state of the TSI pin,
the SDO output buffer drives the serial dataline; otherwise, the
output of the buffer goes high impedance. The serial format pin
(SFMT) is set high to choose the frame sync output format. The
clock format pin (CFMT) is set high so that serial data is made
available on SDO after the rising edge of SCO and can be
latched on the SCO falling edge.
The master device is selected by setting TSI to a logic low and
connecting its FSO to DOE. The slave device is selected with its
TSI pin tied high, and both its FSI and DOE are controlled
from the master’s FSO. Since the FSO of the master controls
the DOE input of both the master and slave, one ADC’s SDO is
active while the other is high impedance (Figure 25). When the
master transmits its conversion result during the first 16 SCO
cycles of a data transmission frame, the low level on DOE sets
the slave’s SDO high impedance. Once the master completes
transmitting its conversion data, its FSO goes high and triggers
the slave’s FSI to begin its data transmission frame.
Following power up of the two devices, once the supplies have
settled, a synchronous RESET/SYNC pulse should be issued to
both ADCs to ensure synchronization. After a RESET/SYNC
has been issued, FSI can be applied to the master ADC to
allow continuous synchronization between the processor and
the ADCs. For continuous synchronization, FSI should not be
applied within four CLKIN cycles before an FSO (master) edge.
See Figure 25.
Serial Interfacing to DSPs
In serial mode, the AD7722 can be interfaced directly to several
industry-standard DSPs. In all cases, the AD7722 operates as
the master with the DSP operating as the slave. The AD7722
outputs its own serial clock (SCO) to transmit the digital word on
the SDO pin to a DSP. The DSP’s serial interface is synchronized
to the data transmission provided by the FSO signal.
Since the serial data clock from the AD7722 is always one-half
the CLKIN frequency, DSPs that can accept relatively high
serial clock frequencies are required. The ADSP-21xx family of
DSPs can operate with a maximum serial clock of 13.824 MHz;
the DSP56002 allows a maximum serial clock of 13.3 MHz; the
TMS320C5x-57 accepts a maximum serial clock of 10.989 MHz.
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