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| 型号: | AD7730BRU-REEL7 |
| 厂商: | Analog Devices Inc |
| 文件页数: | 29/53页 |
| 文件大小: | 0K |
| 描述: | IC ADC TRANSDUCER BRIDGE 24TSSOP |
| 标准包装: | 1,000 |
| 位数: | 24 |
| 通道数: | 1 |
| 功率(瓦特): | 125mW |
| 电压 - 电源,模拟: | 4.75 V ~ 5.25 V |
| 电压 - 电源,数字: | 2.7 V ~ 5.25 V |
| 封装/外壳: | 24-TSSOP(0.173",4.40mm 宽) |
| 供应商设备封装: | 24-TSSOP |
| 包装: | 带卷 (TR) |
| 配用: | EVAL-AD7730LEBZ-ND - BOARD EVALUATION FOR AD7730 EVAL-AD7730EBZ-ND - BOARD EVAL FOR AD7730 |
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AD7730/AD7730L
–35–
SERIAL INTERFACE
The AD7730’s programmable functions are controlled via a set
of on-chip registers. Access to these registers is via the part’s
serial interface. After power-on or
RESET, the device expects a
write to its Communications Register. The data written to this
register determines whether the next operation to the part is a
read or a write operation and also determines to which register
this read or write operation occurs. Therefore, write access to
one of the control registers on the part starts with a write opera-
tion to the Communications Register followed by a write to the
selected register. Reading from the part’s on-chip registers can
take the form of either a single or continuous read. A single read
from a register consists of a write to the Communications Regis-
ter (with RW1 = 0 and RW0 = 1) followed by the read from the
specified register. To perform continuous reads from a register,
write to the Communications Register (with RW1 = 1 and
RW0 = 0) to place the part in continuous read mode. The speci-
fied register can then be read from continuously until a write
operation to the Communications Register (with RW1 = 1 and
RW0 = 1) which takes the part out of continuous read mode.
When operating in continuous read mode, the part is continu-
ously monitoring its DIN line. The DIN line should therefore
be permanently low to allow the part to stay in continuous read
mode. Figure 5 and Figure 6, shown previously, indicate the
correct flow diagrams when reading and writing from the
AD7730’s registers.
The AD7730’s serial interface consists of five signals,
CS,
SCLK, DIN, DOUT and
RDY. The DIN line is used for
transferring data into the on-chip registers while the DOUT line
is used for accessing data from the on-chip registers. SCLK is
the serial clock input for the device and all data transfers (either
on DIN or DOUT) take place with respect to this SCLK signal.
Write Operation
The transfer of data into the part is to an input shift register. On
completion of a write operation, data is transferred to the speci-
fied register. This internal transfer will not take place until the
correct number of bits for the specified register have been
loaded to the input shift register. For example, the transfer of
data from the input shift register takes place after eight serial
clock cycles for a DAC Register write, while the transfer of data
from the input shift register takes place after 24 serial clock
cycles when writing to the Filter Register. Figure 18 shows a
timing diagram for a write operation to the input shift register of
the AD7730. With the POL input at a logic high, the data is
latched into the input shift register on the rising edge of SCLK.
With the POL input at a logic low, the data is latched into the
input shift register on the falling edge of SCLK.
Figure 18 also shows the
CS input being used to decode the
write operation to the AD7730. However, this
CS input can be
used in a number of different ways. It is possible to operate the
part in three-wire mode where the
CS input is tied low perma-
nently. In this case, the SCLK line should idle high between
data transfer when the POL input is high and should idle low
between data transfers when the POL input is low. For POL = 1,
the first falling edge of SCLK clocks data from the microcontrol-
ler onto the DIN line of the AD7730. It is then clocked into the
input shift register on the next rising edge of SCLK. For POL = 0,
the first clock edge that clocks data from the microcontroller
onto the DIN line of the AD7730 is a rising edge. It is then
clocked into the input shift register on the next falling edge of
SCLK.
In other microcontroller applications which require a decoding
of the AD7730,
CS can be generated from a port line. In this
case,
CS would go low well in advance of the first falling edge of
SCLK (POL = 1) or the first rising edge of SCLK (POL = 0).
Clocking of each bit of data is as just described.
In DSP applications, the SCLK is generally a continuous clock.
In these applications, the
CS input for the AD7730 is generated
from a frame synchronization signal from the DSP. For proces-
sors with the rising edge of SCLK as the active edge, the POL
input should be tied high. For processors with the falling edge of
SCLK as the active edge, the POL input should be tied low. In
these applications, the first edge after
CS goes low is the active
edge. The MSB of the data to be shifted into the AD7730 must
be set up prior to this first active edge.
Read Operation
The reading of data from the part is from an output shift regis-
ter. On initiation of a read operation, data is transferred from
the specified register to the output shift register. This is a paral-
lel shift and is transparent to the user. Figure 19 shows a timing
diagram for a read operation from the output shift register of the
AD7730. With the POL input at a logic high, the data is clocked
out of the output shift register on the falling edge of SCLK.
With the POL input at a logic low, the data is clocked out of the
output shift register on the rising edge of SCLK.
Figure 19 also shows the
CS input being used to decode the
read operation to the AD7730. However, this
CS input can be
used in a number of different ways. It is possible to operate the
part in three-wire mode where the
CS input is permanently tied
low. In this case, the SCLK line should idle high between data
transfer when the POL input is high, and should idle low be-
tween data transfers when the POL input is low. For POL = 1,
the first falling edge of SCLK clocks data from the output shift
register onto the DOUT line of the AD7730. It is then clocked
into the microcontroller on the next rising edge of SCLK. For
POL = 0, the first clock edge that clocks data from the AD7730
onto the DOUT line is a rising edge. It is then clocked into the
microcontroller on the next falling edge of SCLK.
In other microcontroller applications which require a decoding
of the AD7730,
CS can be generated from a port line. In this
case,
CS would go low well in advance of the first falling edge of
SCLK (POL = 1) or the first rising edge of SCLK (POL = 0).
Clocking of each bit of data is as just described.
REV. B
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| AD7730BRUZ | 功能描述:IC ADC TRANSDUCER BRIDGE 24TSSOP RoHS:是 类别:集成电路 (IC) >> 数据采集 - 模拟前端 (AFE) 系列:- 产品培训模块:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 标准包装:2,500 系列:- 位数:- 通道数:2 功率(瓦特):- 电压 - 电源,模拟:3 V ~ 3.6 V 电压 - 电源,数字:3 V ~ 3.6 V 封装/外壳:32-VFQFN 裸露焊盘 供应商设备封装:32-QFN(5x5) 包装:带卷 (TR) |
| AD7730BRUZ-REEL | 功能描述:IC ADC BRIDGE TRANSDUCER 24TSSOP RoHS:是 类别:集成电路 (IC) >> 数据采集 - 模拟前端 (AFE) 系列:- 产品培训模块:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 标准包装:2,500 系列:- 位数:- 通道数:2 功率(瓦特):- 电压 - 电源,模拟:3 V ~ 3.6 V 电压 - 电源,数字:3 V ~ 3.6 V 封装/外壳:32-VFQFN 裸露焊盘 供应商设备封装:32-QFN(5x5) 包装:带卷 (TR) |
| AD7730BRUZ-REEL7 | 功能描述:IC ADC BRIDGE TRANSDUCER 24TSSOP RoHS:是 类别:集成电路 (IC) >> 数据采集 - 模拟前端 (AFE) 系列:- 产品培训模块:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 标准包装:2,500 系列:- 位数:- 通道数:2 功率(瓦特):- 电压 - 电源,模拟:3 V ~ 3.6 V 电压 - 电源,数字:3 V ~ 3.6 V 封装/外壳:32-VFQFN 裸露焊盘 供应商设备封装:32-QFN(5x5) 包装:带卷 (TR) |
| AD7730BRZ | 功能描述:IC ADC BRIDGE TRANSDUCER 24-SOIC RoHS:是 类别:集成电路 (IC) >> 数据采集 - 模拟前端 (AFE) 系列:- 产品培训模块:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 标准包装:2,500 系列:- 位数:- 通道数:2 功率(瓦特):- 电压 - 电源,模拟:3 V ~ 3.6 V 电压 - 电源,数字:3 V ~ 3.6 V 封装/外壳:32-VFQFN 裸露焊盘 供应商设备封装:32-QFN(5x5) 包装:带卷 (TR) |
| AD7730BRZ | 制造商:Analog Devices 功能描述:IC, ADC, 24BIT, 1.2KSPS, SOIC-24 |
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