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| 型号: | AD8264ACPZ-R7 |
| 厂商: | Analog Devices Inc |
| 文件页数: | 25/40页 |
| 文件大小: | 0K |
| 描述: | IC AMP VGA DIFF QUAD LN 40LFCSP |
| 标准包装: | 750 |
| 放大器类型: | 可变增益 |
| 电路数: | 4 |
| 输出类型: | 差分 |
| 转换速率: | 380 V/µs |
| -3db带宽: | 235MHz |
| 电流 - 输入偏压: | 5µA |
| 电流 - 电源: | 99mA |
| 电压 - 电源,单路/双路(±): | ±2.5 V ~ 5 V |
| 工作温度: | -40°C ~ 105°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 40-VFQFN 裸露焊盘,CSP |
| 供应商设备封装: | 40-LFCSP-VQ(6x6) |
| 包装: | 带卷 (TR) |
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AD8264
Rev. A | Page 31 of 40
A DC CONNECTED CONCEPT EXAMPLE
The dc connected concept example in Figure 113 is an application
with the 40-channel AD5381, 3 V, 12-bit DAC. The main difference
between this example and Figure 112 is that, for the same ADR127
1.25 V reference, the full-scale output of the DAC is from
0 V to 2 × VREFIN = 2.5 V. Two options for gain control
include the following:
Use the same circuit as in Figure 112 but use only half the
DAC output voltage from 0 V to 1.25 V. This is the simplest
solution, requiring the fewest extra components. Note that
the overall gain resolution increases by one bit to 11 bits
over the 10-bit AD5314.
Ground GNLO and scale the DAC output so that the
GNHx inputs vary from 0.652 V to +0.625 V. Figure 113
shows a possible circuit implementation using a divider
between the DAC output and a 1.25 V reference.
GNLO cannot simply be increased to 1.25 V because, for a
given supply voltage, GNLO has a limited voltage range to
achieve the full gain span (see Table 5).
However, a third possibility is to use another voltage that is
between 1.2 V and 625 mV on GNLO, such as 1 V. In this case,
the DAC must vary from 0.375 V to 1.625 V to achieve the fully
specified gain range.
Note the gain limits when the differential gain control exceeds
±0.625 V, either to 6 dB or to 30 dB. If the differential gain
control input voltage is exceeded, no gain foldover occurs.
Figure 113 shows how the AD8264 is connected in a PET
application. The PMT generates a negative-going current pulse
that results in a voltage pulse at the preamplifier input and a
differential output pulse on VOLx and VOHx.
To fully appreciate the advantages of the AD8264, note the
common-mode and polarity conversion afforded. The AD9228,
as with most modern ADCs, is a low voltage, single-polarity
device. Recall that the PMT is a high voltage device that yields a
negative pulse. To map the pulse to the input range of the ADC,
the pulse must be inverted, shifted, and amplified to the full
input range of the ADC. This is done by using the gain control,
signal offset, and common-mode features of the AD8264.
The full-scale input of the converter is 0 V to 2 V, with a common-
mode of 1 V. Match the VOCM voltage of the AD8264 to the
ADC common mode (VREF = 1 V), and the two devices can be
connected directly using an appropriate level of the antialiasing
filter. The PMT signal is 0 V to 0.1 V. With a gain of 20× (26 dB),
the AD8264 output signal range is 2 V p-p. Prebias the signal
negative by 0.5 V using the AD8264 OFSx inputs, which sets
VOHx = 1.5 V and VOLx = 0.5 V for VOCM = 1 V. The output
is perfectly matched to the input of the ADC.
Note that, by connecting VOLx to the positive ADC input and
VOHx to the negative ADC input, the negative input pulse is
inverted automatically. The VGAx output is still a negative
pulse, amplified by 20 dB for this example.
+3.3V
–3.3V
0.1F
NC 6
NC 5
VOUT 4
1
2
3
NC
GND
VIN
ADR127
REFIN
DAC
AD5381
GND
2 × VREFIN × D
VOUT =
2N
10F
VREF = 1.25V
GNH1
GNH2
GNH3
GNH4
AD8264
GNLO
VOUT RANGE = 0V TO 1.25V
EACH
VOCM
VOHx VOLx
VDD
RFILT
CFILT
ADC
AD9222/
AD9228
VREF
VDD
+1.8V
SENSE
GND
VIN + x
VIN – x
SENSE GROUNDED: VREF = 1V
VNEG
VPOS
IPPx
100
OFSx
~250nA EACH
VGAx
VGA OUTPUTS TO OTHER
SIGNAL PROCESSING
OUTPUT COMMON-MODE VOLTAGE = 1V
VOHx = 1.5V, VOLx = 0.5V; VOFx = –0.5V
FS = 2V p-p
1F
0.1F
10F
+3.3V
PMT
0V
–0.1V
EXAMPLE
VOFS = –0.5V
SCALE
CIRCUIT
VOUT0
VOUT1
VOUT2
VOUT4
VOUT39
TO 9 OTHER
AD8264s
SCALE CIRCUIT
+3.3V
–3.3V
VOLTAGE FROM DAC AD5381 = 0 TO 2.5V
VARIES FROM
12.5 TO 32.5A
~250nA
VREF = 1.25V
AD8663
49.9k
1%
VOUT0
VOUT39
GNH1
SCALE CIRCUIT
–1.25V
GNH4
–625mV
TO
+625mV
49.9k
1%
49.9k
1%
0.1F
49.9k
1%
49.9k
1%
0.1F
10F
49.9k
1%
07736-
083
Figure 113. Concept Application of AD8264 with 40-Channel AD5381 12-Bit, 3 V DAC and AD9222/AD9228 12-Bit ADC
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