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参数资料
| 型号: | AD7266BSUZ-REEL7 |
| 厂商: | Analog Devices Inc |
| 文件页数: | 13/29页 |
| 文件大小: | 0K |
| 描述: | IC ADC 12BIT 3CHAN 2MSPS 32TQFP |
| 设计资源: | AD7266 SAR ADC in DC-Coupled Differential and Single-Ended Appls (CN0039) |
| 标准包装: | 500 |
| 位数: | 12 |
| 采样率(每秒): | 2M |
| 数据接口: | DSP,MICROWIRE?,QSPI?,串行,SPI? |
| 转换器数目: | 2 |
| 功率耗散(最大): | 33.6mW |
| 电压电源: | 模拟和数字 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-TQFP |
| 供应商设备封装: | 32-TQFP(7x7) |
| 包装: | 带卷 (TR) |
| 输入数目和类型: | 12 个单端,单极;6 个差分,单极;6 个伪差分,单极 |
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AD7266
Rev. B | Page 19 of 28
MODES OF OPERATION
The mode of operation of the AD7266 is selected by controlling
the (logic) state of the CS signal during a conversion. There are
three possible modes of operation: normal mode, partial power-
down mode, and full power-down mode. After a conversion is
initiated, the point at which CS is pulled high determines which
power-down mode, if any, the device enters. Similarly, if already
in a power-down mode, CS can control whether the device
returns to normal operation or remains in power-down. These
modes of operation are designed to provide flexible power
management options. These options can be chosen to optimize
the power dissipation/throughput rate ratio for differing
application requirements.
NORMAL MODE
This mode is intended for applications needing fastest throughput
rates because the user does not have to worry about any power-
up times with the AD7266 remaining fully powered at all times.
Figure 34 shows the general diagram of the operation of the
AD7266 in this mode.
SCLK
LEADING ZEROS + CONVERSION RESULT
CS
DOUTA
DOUTB
1
10
14
04603-029
Figure 34. Normal Mode Operation
The conversion is initiated on the falling edge of CS, as
described in the
section. To ensure that the part
remains fully powered up at all times,
CS must remain low until
at least 10 SCLK falling edges have elapsed after the falling edge
of CS. If CS is brought high any time after the 10th SCLK falling
edge but before the 14th SCLK falling edge, the part remains
powered up, but the conversion is terminated and DOUTA and
DOUTB go back into three-state. Fourteen serial clock cycles are
required to complete the conversion and access the conversion
result. The DOUT line does not return to three-state after 14
SCLK cycles have elapsed, but instead does so when CS is
brought high again. If CS is left low for another 2 SCLK cycles
(for example, if only a 16 SCLK burst is available), two trailing
zeros are clocked out after the data. If CS is left low for a further
14 (or16) SCLK cycles, the result from the other ADC on board
is also accessed on the same DOUT line, as shown in
(see the
section).
Once 32 SCLK cycles have elapsed, the DOUT line returns to
three-state on the 32nd SCLK falling edge. If CS is brought high
prior to this, the DOUT line returns to three-state at that point.
Therefore, CS may idle low after 32 SCLK cycles until it is
brought high again sometime prior to the next conversion
(effectively idling CS low), if so desired, because the bus still
returns to three-state upon completion of the dual result read.
Once a data transfer is complete and DOUTA and DOUTB have
returned to three-state, another conversion can be initiated after
the quiet time, tQUIET, has elapsed by bringing CS low again
(assuming the required acquisition time is allowed).
PARTIAL POWER-DOWN MODE
This mode is intended for use in applications where slower
throughput rates are required. Either the ADC is powered down
between each conversion, or a series of conversions may be
performed at a high throughput rate, and the ADC is then
powered down for a relatively long duration between these
bursts of several conversions. When the AD7266 is in partial
power-down, all analog circuitry is powered down except for
the on-chip reference and reference buffer.
To enter partial power-down mode, the conversion process
must be interrupted by bringing CS high anywhere after the
second falling edge of SCLK and before the 10th falling edge of
SCLK, as shown in
. Once
CS is brought high in this
window of SCLKs, the part enters partial power-down, the
conversion that was initiated by the falling edge of CS is
terminated, and DOUTA and DOUTB go back into three-state. If
CS is brought high before the second SCLK falling edge, the
part remains in normal mode and does not power down. This
avoids accidental power-down due to glitches on the CS line.
SCLK
THREE-STATE
CS
DOUTA
DOUTB
11
10
4
2
04603-030
Figure 35. Entering Partial Power-Down Mode
To exit this mode of operation and power up the AD7266 again,
a dummy conversion is performed. On the falling edge of CS,
the device begins to power up and continues to power up as
long as CS is held low until after the falling edge of the 10th
SCLK. The device is fully powered up after approximately 1 μs
has elapsed, and valid data results from the next conversion, as
shown in
. If
CS is brought high before the second
falling edge of SCLK, the AD7266 again goes into partial
power-down. This avoids accidental power-up due to glitches
on the CS line. Although the device may begin to power up on
the falling edge of CS, it powers down again on the rising edge
of CS. If the AD7266 is already in partial power-down mode
and CS is brought high between the second and 10th falling
edges of SCLK, the device enters full power-down mode.
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