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参数资料
| 型号: | 5962-9561501MLX |
| 厂商: | ANALOG DEVICES INC |
| 元件分类: | ADC |
| 英文描述: | 8-CH 12-BIT PROPRIETARY METHOD ADC, SERIAL ACCESS, CDIP24 |
| 封装: | 0.300 INCH, HERMETIC SEALED, CERDIP-24 |
| 文件页数: | 9/22页 |
| 文件大小: | 203K |
| 代理商: | 5962-9561501MLX |
REV. B
AD7890
–17–
DATA OUT to be clocked into the DSP on the edges of the
CLK IN signal. When writing data to the AD7890, the processor’s
data hold time is sufficiently long to cater for the delay between
the two clocks. The AD7890’s
RFS signal connects to both the
FSX and FSR inputs of the processor. The processor can generate
its own FSX signal so if required the interface can be modified
so that the
RFS and TFS signals are separated and the proces-
sor generates the FSX signal which is connected to the
TFS
input of the AD7890.
In the scheme outlined here, the user does not have to worry
about monitoring the end of conversion. Once conversion is
complete, the AD7890 takes care of transmitting back its con-
version result to the processor. Once the sixteen bits of data
have been received by the processor into its serial shift register,
it generates an internal interrupt. Since
RFS and TFS are con-
nected together, data is transmitted to the Control Register of
the AD7890 whenever the AD7890 transmits its conversion
result. The user just has to ensure that the word to be written to
the AD7890 Control Register is set up prior to the end of con-
version. As part of the interrupt routine, which recognizes that
data has been read in, the processor can set up the data it is
going to write to the Control Register next time around.
AD7890
SMODE
RFS
TFS
DATA OUT
DATA IN
SCLK
TMS320C25/C30
FSR
FSX
CLKX
CLKR
DR
DX
CLK IN
CLK INPUT
Figure 16. AD7890 to TMS320C25/30 Interface
ANTIALIASING FILTER
The AD7890 provides separate access to the multiplexer and
ADC via the MUX OUT and SHA IN pins. One of the reasons
for this is to allow the user to implement an antialiasing filter
between the multiplexer and the ADC. Inserting the antialiasing
filter at this point has the advantage that one antialiasing filter
can suffice for all eight channels rather than a separate antialias-
ing filter for each channel if they were to be placed prior to the
multiplexer.
The antialiasing filter inserted between the MUX OUT and
SHA IN pins will generally be a low-pass filter to remove high
frequency signals which could possibly be aliased back in-band
during the sampling process. It is recommended that this filter is
an active filter, ideally with the MUX OUT of the AD7890
driving a high impedance stage and the SHA IN of the part
being driven from a low impedance stage. This will remove any
effects from the variation of the part’s multiplexer on-resistance
with input signal voltage, and will also remove any effects of a
high source impedance at the sampling input of the track/hold.
With an external antialiasing filter in place, the additional set-
tling time associated with the filter should be accounted for by
using a larger capacitance on CEXT.
AD7890 PERFORMANCE
Linearity
The linearity of the AD7890 is primarily determined by the
on-chip 12-bit D/A converter. This is a segmented DAC which
is laser trimmed for 12-bit integral linearity and differential
linearity. Typical relative numbers for the part are
±1/4 LSB
while the typical DNL errors are
±1/2 LSB.
Noise
In an A/D converter, noise exhibits itself as code uncertainty in
dc applications and as the noise floor (in an FFT, for example)
in ac applications. In a sampling A/D converter like the AD7890,
all information about the analog input appears in the baseband
from dc to 1/2 the sampling frequency. The input bandwidth of the
track/hold exceeds the Nyquist bandwidth and therefore an anti-
aliasing filter should be used to remove unwanted signals above fS/2
in the input signal in applications where such signals exist.
Figure 17 shows a histogram plot for 8192 conversions of a dc
input using the AD7890. The analog input was set at the centre
of a code transition. The timing and control sequence used was
as per Figure 5 where the optimum performance of the ADC
was achieved. The same performance will be achieved in self-
clocking mode where the part transmits its data after conversion
is complete. It can be seen that almost all the codes appear in
the one output bin indicating very good noise performance from
the ADC. The rms noise performance for the AD7890-2 for the
above plot was 81
V. Since the analog input range, and hence
LSB size, on the AD7893-4 is 1.638 times what it is for the
AD7893-2, the same output code distribution results in an out-
put rms noise of 143
V for the AD7893-4. For the AD7890-10,
with an LSB size eight times that of the AD7890-2, the code distri-
bution represents an output rms noise of 648
V.
CODE
OCCURRENCES
OF
CODE
9000
(X–4)
8000
7000
6000
5000
4000
3000
2000
1000
0
(X–3) (X–2) (X–1)
X
(X+1) (X+2) (X+3) (X+4)
SAMPLING FREQUENCY = 102.4kHz
TA = 25 C
Figure 17. Histogram of 8192 Conversions of a DC Input
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