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参数资料
| 型号: | AD7862ARSZ-10REEL |
| 厂商: | Analog Devices Inc |
| 文件页数: | 4/16页 |
| 文件大小: | 0K |
| 描述: | IC ADC 12BIT DUAL 250KSPS 28SSOP |
| 标准包装: | 1,500 |
| 位数: | 12 |
| 采样率(每秒): | 250k |
| 数据接口: | 并联 |
| 转换器数目: | 2 |
| 功率耗散(最大): | 75mW |
| 电压电源: | 模拟和数字 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 28-SSOP(0.209",5.30mm 宽) |
| 供应商设备封装: | 28-SSOP |
| 包装: | 带卷 (TR) |
| 输入数目和类型: | 4 个单端,双极 |
AD7862
–12–
REV. 0
Intermodulation Distortion
With inputs consisting of sine waves at two frequencies, fa and
fb, any active device with nonlinearities will create distortion
products at sum and difference frequencies of mfa
± nfb where
m, n = 0, 1, 2, 3 . . ., etc. Intermodulation terms are those for
which neither m or n are equal to zero. For example, the second
order terms include (fa + fb) and (fa – fb) while the third order
terms include (2 fa + fb), (2 fa – fb), (fa + 2 fb) and (fa – 2 fb).
Using the CCIF standard where two input frequencies near the
top end of the input bandwidth are used, the second and third
order terms are of different significance. The second order terms
are usually distanced in frequency from the original sine waves
while the third order terms are usually at a frequency close to
the input frequencies. As a result, the second and third order
terms are specified separately. The calculation of the inter-
modulation distortion is as per the THD specification where it is
the ratio of the rms sum of the individual distortion products to
the rms amplitude of the fundamental expressed in dBs. In this
case the input consists of two, equal amplitude, low distortion
sine waves. Figure 11 shows a typical IMD plot for the AD7862.
–0
–120
0
12.3k
10k
30k
50k
70k
90k
–20
–40
–60
–80
–100
–10
–30
–50
–70
–90
–110
100k
INPUT FREQUENCIES
F1 = 50010 Hz
F2 = 49110 Hz
FSAMPLE = 245760 Hz
SNR = –60.62dB
THD = –89.22dB
IMD:
2ND ORDER TERM –88.44 dB
3RD ORDER TERM –66.20 dB
Figure 11. AD7862 IMD Plot
Peak Harmonic or Spurious Noise
Harmonic or spurious noise is defined as the ratio of the rms
value of the next largest component in the ADC output spec-
trum (up to fS/2 and excluding dc) to the rms value of the
fundamental. Normally, the value of this specification will be
determined by the largest harmonic in the spectrum, but for
parts where the harmonics are buried in the noise floor, the peak
will be a noise peak.
AC Linearity Plot
When a sine wave of specified frequency is applied to the VIN
input of the AD7862, and several million samples are taken, a
histogram showing the frequency of occurrence of each of the
4096 ADC codes can be generated. From this histogram data, it
is possible to generate an ac integral linearity plot as shown in
Figure 12. This shows very good integral linearity performance
from the AD7862 at an input frequency of 10 kHz. The absence
of large spikes in the plot shows good differential linearity. Sim-
plified versions of the formulas used are outlined below.
INL(i )
=
Vi
()Vo()× 4096
()
Vf S
()Vo()
i
where INL(i) is the integral linearity at code i. V(fS) and V(o)
are the estimated full-scale and offset transitions, and V(i) is the
estimated transition for the i
th code.
V(i), the estimated code transition point is derived as follows:
V (i )
= A × Cos
π× cum i
()
N
where A is the peak signal amplitude, N is the number of
histogram samples
and cum i
() = Vn()
n
=0
i
∑
occurrences
0
–0.1
–0.2
–0.3
–0.4
–0.5
0.5
0.4
0.3
0.2
0.1
LSB
FIN = 10 kHz
FIN = 245.760 kHz
TA = 25°C
Figure 12. AD7862 AC INL Plot
Power Considerations
In the automatic power-down mode the part may be operated at
a sample rate that is considerably less than 200 kHz. In this
case, the power consumption will be reduced and will depend
on the sample rate. Figure 13 shows a graph of the power
consumption versus sampling rates from 100 Hz to 90 kHz in
the automatic power-down mode. The conditions are 5 V
supply 25
°C, and the data was read after conversion.
0.1
90
10
20
30
40
0
25
20
15
10
35
30
40
5
FREQUENCY – kHz
POWER
–
mW
50
60
70
80
Figure 13. Power vs. Sample Rate in Auto Power-Down
Mode
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